././@PaxHeader0000000000000000000000000000003300000000000010211 xustar0027 mtime=1697738456.050479 asdf_transform_schemas-0.4.0/0000755000175100001770000000000014514267330015640 5ustar00runnerdocker././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/.flake80000644000175100001770000000034714514267315017022 0ustar00runnerdocker# this file exists to support an editable PEP517 install and for `flake8` (https://github.com/PyCQA/flake8/issues/234) [flake8] max-line-length = 120 extend-ignore = E203 exclude = .git, __pycache__, build, dist, eggs, *.egg, .tox ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/.gitattributes0000644000175100001770000000011014514267315020526 0ustar00runnerdocker* text eol=lf # Don't mess with these files *.asdf binary *.png binary ././@PaxHeader0000000000000000000000000000003400000000000010212 xustar0028 mtime=1697738455.9824793 asdf_transform_schemas-0.4.0/.github/0000755000175100001770000000000014514267330017200 5ustar00runnerdocker././@PaxHeader0000000000000000000000000000003400000000000010212 xustar0028 mtime=1697738455.9864793 asdf_transform_schemas-0.4.0/.github/workflows/0000755000175100001770000000000014514267330021235 5ustar00runnerdocker././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/.github/workflows/changelog.yml0000644000175100001770000000103514514267315023711 0ustar00runnerdockername: Changelog on: pull_request: types: [labeled, unlabeled, opened, synchronize, reopened] jobs: changelog: name: Confirm changelog entry runs-on: ubuntu-latest steps: - name: Checkout code uses: actions/checkout@v2 with: fetch-depth: 0 submodules: true - name: Grep for PR number in CHANGES.rst run: grep -P '\[[^\]]*#${{github.event.number}}[,\]]' CHANGES.rst if: ${{ !contains(github.event.pull_request.labels.*.name, 'no-changelog-entry-needed') }} ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/.github/workflows/ci.yml0000644000175100001770000000543314514267315022363 0ustar00runnerdockername: CI on: workflow_dispatch: push: branches: - main tags: - "*" pull_request: branches: jobs: tox: name: ${{ matrix.name }} runs-on: ${{ matrix.os }} strategy: matrix: include: - name: Python 3.10 Schema validation tests python-version: '3.10' os: ubuntu-latest toxenv: py310 - name: Python 3.9 Schema validation tests python-version: 3.9 os: ubuntu-latest toxenv: py39 - name: Python 3.8 Schema validation tests python-version: 3.8 os: ubuntu-latest toxenv: py38 - name: Twine check python-version: 3.9 os: ubuntu-latest toxenv: twine - name: Code style checks python-version: 3.9 os: ubuntu-latest toxenv: codestyle - name: macOS python-version: 3.9 os: macos-latest toxenv: py39 - name: Windows python-version: 3.9 os: windows-latest toxenv: py39 steps: - name: Checkout code uses: actions/checkout@v2 with: fetch-depth: 0 - name: Set up Python ${{ matrix.python-version }} uses: actions/setup-python@v2 with: python-version: ${{ matrix.python-version }} - name: Install tox run: | python -m pip install --upgrade pip python -m pip install tox - name: Run tox run: tox -e ${{ matrix.toxenv }} full-dev: name: Run schemas and dev extensions runs-on: ubuntu-latest steps: - name: Checkout asdf-transform-schemas uses: actions/checkout@v2 with: fetch-depth: 0 path: asdf-transform-schemas - name: Checkout astropy dev uses: actions/checkout@v2 with: fetch-depth: 0 repository: astropy/astropy path: astropy - name: Checkout asdf-astropy dev uses: actions/checkout@v2 with: fetch-depth: 0 repository: astropy/asdf-astropy path: asdf-astropy - name: Set up Python 3.9 uses: actions/setup-python@v2 with: python-version: 3.9 - name: Install asdf-transform-schemas run: cd asdf-transform-schemas && pip install . - name: Install astropy run: cd astropy && pip install -e .[all,test] - name: Install asdf-astropy run: cd asdf-astropy && pip install -e .[test] - name: Pip Freeze run: pip freeze - name: Run asdf-transform-schemas development tests run: cd asdf-transform-schemas && pytest - name: Run asdf-astropy development tests run: cd asdf-astropy && pytest ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/.github/workflows/downstream.yml0000644000175100001770000000745014514267315024154 0ustar00runnerdockername: Downstream on: workflow_dispatch: schedule: # Run every Monday at 6am UTC - cron: '0 6 * * 1' pull_request: # We also want this workflow triggered if the `Downstream CI` label is # added or present when PR is updated types: - synchronize - labeled push: branches: - '*.*.x' tags: - '*' env: CRDS_SERVER_URL: https://jwst-crds.stsci.edu CRDS_PATH: ~/crds_cache CRDS_CLIENT_RETRY_COUNT: 3 CRDS_CLIENT_RETRY_DELAY_SECONDS: 20 jobs: common: name: ${{ matrix.package_name }} unit tests runs-on: ubuntu-latest if: (github.repository == 'asdf-format/asdf-transform-schemas' && (github.event_name == 'schedule' || github.event_name == 'push' || github.event_name == 'workflow_dispatch' || contains(github.event.pull_request.labels.*.name, 'Downstream CI'))) strategy: fail-fast: false matrix: include: - package_name: astropy repository: astropy/astropy install_command: pip install -e .[test] test_command: pytest - package_name: gwcs repository: spacetelescope/gwcs install_command: pip install -e .[test] test_command: pytest - package_name: jwst repository: spacetelescope/jwst install_command: pip install -e .[test] test_command: pytest - package_name: specutils repository: astropy/specutils install_command: pip install -e .[test] test_command: pytest - package_name: weldx repository: BAMWelDX/weldx install_command: pip install -e .[test] test_command: pytest weldx/tests/asdf_tests weldx/schemas --asdf-tests - package_name: sunpy repository: sunpy/sunpy install_command: pip install -e .[tests,all] test_command: pytest sunpy/io/ - package_name: dkist repository: DKISTDC/dkist install_command: pip install -e .[tests] test_command: pytest - package_name: asdf-astropy repository: astropy/asdf-astropy install_command: pip install -e .[test] test_command: pytest - package_name: asdf-standard repository: asdf-format/asdf-standard install_command: pip install -e .[test] test_command: pytest - package_name: asdf-transform-schemas repository: asdf-format/asdf-transform-schemas install_command: pip install -e .[test] test_command: pytest - package_name: asdf-wcs-schemas repository: asdf-format/asdf-wcs-schemas install_command: pip install -e .[test] test_command: pytest - package_name: asdf-coordinates-schemas repository: asdf-format/asdf-coordinates-schemas install_command: pip install -e .[test] test_command: pytest steps: - name: Checkout asdf-transform-schemas uses: actions/checkout@v2 with: fetch-depth: 0 submodules: true path: asdf-transform-schemas - name: Checkout ${{ matrix.package_name }} uses: actions/checkout@v2 with: fetch-depth: 0 repository: ${{ matrix.repository }} path: target - name: Set up Python 3.9 uses: actions/setup-python@v2 with: python-version: 3.9 - name: Install asdf-transform-schemas run: cd asdf-transform-schemas && pip install . - name: Install remaining ${{ matrix.package_name }} dependencies run: cd target && ${{ matrix.install_command }} - name: Pip Freeze run: pip freeze - name: Run ${{ matrix.package_name}} tests run: cd target && ${{ matrix.test_command }} ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/.github/workflows/publish-to-pypi.yml0000644000175100001770000000124614514267315025033 0ustar00runnerdockername: Publish to PyPI on: release: types: [released] jobs: publish: uses: spacetelescope/action-publish_to_pypi/.github/workflows/workflow.yml@master with: test: false build_platform_wheels: false # Set to true if your package contains a C extension secrets: user: ${{ secrets.PYPI_USERNAME_ASDF_MAINTAINER }} password: ${{ secrets.PYPI_PASSWORD_ASDF_MAINTAINER }} # WARNING: Do not hardcode secret values here! If you want to use a different user or password, you can override this secret by creating one with the same name in your Github repository settings. test_password: ${{ secrets.PYPI_PASSWORD_ASDF_MAINTAINER_TEST }} ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/.gitignore0000644000175100001770000000402314514267315017632 0ustar00runnerdocker# Byte-compiled / optimized / DLL files __pycache__/ *.py[cod] *$py.class # C extensions *.so # Distribution / packaging .Python build/ develop-eggs/ dist/ downloads/ eggs/ .eggs/ lib/ lib64/ parts/ sdist/ var/ wheels/ share/python-wheels/ *.egg-info/ .installed.cfg *.egg MANIFEST */*/_version.py # PyInstaller # Usually these files are written by a python script from a template # before PyInstaller builds the exe, so as to inject date/other infos into it. *.manifest *.spec # Installer logs pip-log.txt pip-delete-this-directory.txt # Unit test / coverage reports htmlcov/ .tox/ .nox/ .coverage .coverage.* .cache nosetests.xml coverage.xml *.cover *.py,cover .hypothesis/ .pytest_cache/ cover/ # Translations *.mo *.pot # Django stuff: *.log local_settings.py db.sqlite3 db.sqlite3-journal # Flask stuff: instance/ .webassets-cache # Scrapy stuff: .scrapy # Sphinx documentation docs/_build/ docs/generated/ # PyBuilder .pybuilder/ target/ # Jupyter Notebook .ipynb_checkpoints # IPython profile_default/ ipython_config.py # pyenv # For a library or package, you might want to ignore these files since the code is # intended to run in multiple environments; otherwise, check them in: # .python-version # pipenv # According to pypa/pipenv#598, it is recommended to include Pipfile.lock in version control. # However, in case of collaboration, if having platform-specific dependencies or dependencies # having no cross-platform support, pipenv may install dependencies that don't work, or not # install all needed dependencies. #Pipfile.lock # PEP 582; used by e.g. github.com/David-OConnor/pyflow __pypackages__/ # Celery stuff celerybeat-schedule celerybeat.pid # SageMath parsed files *.sage.py # Environments .env .venv env/ venv/ ENV/ env.bak/ venv.bak/ # Spyder project settings .spyderproject .spyproject # Rope project settings .ropeproject # mkdocs documentation /site # mypy .mypy_cache/ .dmypy.json dmypy.json # Pyre type checker .pyre/ # pytype static type analyzer .pytype/ # Cython debug symbols cython_debug/ ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/.pre-commit-config.yaml0000644000175100001770000000162614514267315022131 0ustar00runnerdockerrepos: - repo: https://github.com/pre-commit/pre-commit-hooks rev: v4.5.0 hooks: - id: check-added-large-files - id: check-case-conflict - id: check-yaml args: ["--unsafe"] - id: debug-statements - id: end-of-file-fixer - id: trailing-whitespace - repo: https://github.com/asottile/pyupgrade rev: v3.15.0 hooks: - id: pyupgrade args: ["--py38-plus"] - repo: https://github.com/PyCQA/autoflake rev: v2.2.1 hooks: - id: autoflake - repo: https://github.com/pycqa/isort rev: 5.12.0 hooks: - id: isort - repo: https://github.com/psf/black rev: 23.9.1 hooks: - id: black - repo: https://github.com/asottile/blacken-docs rev: 1.16.0 hooks: - id: blacken-docs - repo: https://github.com/PyCQA/flake8 rev: 6.1.0 hooks: - id: flake8 - repo: https://github.com/PyCQA/bandit rev: 1.7.5 hooks: - id: bandit args: ["-c", "bandit.yaml"] ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/.readthedocs.yml0000644000175100001770000000036214514267315020732 0ustar00runnerdockerversion: 2 build: os: ubuntu-20.04 apt_packages: - graphviz tools: python: "3.9" sphinx: configuration: docs/conf.py python: install: - method: pip path: . extra_requirements: - docs formats: all ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/CHANGES.rst0000644000175100001770000000214014514267315017442 0ustar00runnerdocker0.4.0 (2023-10-18) ------------------ - Move root-level $ref in schemas to an allOf combiner. [#87] - Fix URI fragment format in transform-1.2 schema. [#88] 0.3.0 (2022-08-22) ------------------ - Add schemas to properly support bounding_box and compound_bounding_box. [#31] - Add fixed and bounds to base transform schema to properly document them. [#34] - Add input_units_equivalencies to base transform schema to properly document it. [#36] - Update spline1d schema. [#46] - Add Schechter1D schema. [#54] - Fix fix_inputs tag bug. [#57] - Create docs for package. [#59] - Move packaging configuration to ``pyproject.toml``. [#62] - Remove unnecessary ``tag:`` entry from all schemas. [#65] 0.2.2 (2022-02-24) ------------------ - Add inputs and outputs to base transform schema to properly document them. [#33] - Add spline1d schema. [#41] - Add cosine, tangent, arcsine, arccosine, and arctangent schemas. [#40] - Fix circular build dependencies for asdf. [#38] 0.2.0 (2021-12-13) ------------------ - Remove generic-1.x.0 schemas and examples. [#30] 0.1.0 (2021-11-24) ------------------ - Initial release ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/CONTRIBUTING.rst0000644000175100001770000000157714514267315020316 0ustar00runnerdockerReporting Issues ---------------- Feature requests and bug reports for the Python implementation can be posted at `asdf-transform-schemas's github page `_. Contributing Code and Documentation ----------------------------------- We love contributions! If you're interested in contributing to this project, please open a Pull Request or issue and we would be glad to work with you. .. note:: ASDF-transform-schemas is mostly a collection of schemas for the ASDF format. This means that in addition to contributing a schema, you will likely also need some code to actually handle serializing and deserializing your data. Typically, this code will need to be contributed to :ref:`asdf-astropy `, which is a separate project. Please link your pull requests and issues between the two projects. ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/LICENSE0000644000175100001770000000300314514267315016644 0ustar00runnerdockerCopyright (c) 2021 Association of Universities for Research in Astronomy. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the copyright holder nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ././@PaxHeader0000000000000000000000000000003300000000000010211 xustar0027 mtime=1697738456.050479 asdf_transform_schemas-0.4.0/PKG-INFO0000644000175100001770000001000314514267330016727 0ustar00runnerdockerMetadata-Version: 2.1 Name: asdf_transform_schemas Version: 0.4.0 Summary: ASDF schemas for transforms Author-email: The ASDF Developers License: Copyright (c) 2021 Association of Universities for Research in Astronomy. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the copyright holder nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. Project-URL: tracker, https://github.com/asdf-format/asdf-transform-schemas/issues Project-URL: documentation, https://asdf-transform-schemas.readthedocs.io/en/stable Project-URL: repository, https://github.com/asdf-format/asdf-transform-schemas Classifier: Programming Language :: Python Classifier: Programming Language :: Python :: 3 Classifier: Programming Language :: Python :: 3.8 Classifier: Programming Language :: Python :: 3.9 Classifier: Programming Language :: Python :: 3.10 Classifier: Development Status :: 5 - Production/Stable Requires-Python: >=3.8 Description-Content-Type: text/markdown License-File: LICENSE Requires-Dist: asdf-standard>=1.0.1 Requires-Dist: importlib_resources>=3; python_version < "3.9" Provides-Extra: docs Requires-Dist: tomli; extra == "docs" Requires-Dist: sphinx; extra == "docs" Requires-Dist: sphinx-asdf>=0.1.3; extra == "docs" Requires-Dist: sphinx-astropy; extra == "docs" Requires-Dist: astropy>=5.0.4; extra == "docs" Requires-Dist: graphviz; extra == "docs" Requires-Dist: matplotlib; extra == "docs" Requires-Dist: docutils; extra == "docs" Requires-Dist: sphinx-rtd-theme; extra == "docs" Provides-Extra: test Requires-Dist: asdf>=2.8.0; extra == "test" Requires-Dist: asdf-astropy; extra == "test" Requires-Dist: scipy; extra == "test" Requires-Dist: pytest; extra == "test" # asdf-transform-schemas ![CI](https://github.com/asdf-format/asdf-transform-schemas/workflows/CI/badge.svg) ![Downstream](https://github.com/asdf-format/asdf-transform-schemas/workflows/Downstream/badge.svg) [![pre-commit](https://img.shields.io/badge/pre--commit-enabled-brightgreen?logo=pre-commit&logoColor=white)](https://github.com/pre-commit/pre-commit) [![Code style: black](https://img.shields.io/badge/code%20style-black-000000.svg)](https://github.com/psf/black) [![Imports: isort](https://img.shields.io/badge/%20imports-isort-%231674b1?style=flat&labelColor=ef8336)](https://pycqa.github.io/isort/) This package provides ASDF schemas for validating transform tags. Users should not need to install this directly; instead, install an implementation package such as asdf-astropy, which includes asdf-transform-schemas as a dependency. ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/README.md0000644000175100001770000000152014514267315017120 0ustar00runnerdocker# asdf-transform-schemas ![CI](https://github.com/asdf-format/asdf-transform-schemas/workflows/CI/badge.svg) ![Downstream](https://github.com/asdf-format/asdf-transform-schemas/workflows/Downstream/badge.svg) [![pre-commit](https://img.shields.io/badge/pre--commit-enabled-brightgreen?logo=pre-commit&logoColor=white)](https://github.com/pre-commit/pre-commit) [![Code style: black](https://img.shields.io/badge/code%20style-black-000000.svg)](https://github.com/psf/black) [![Imports: isort](https://img.shields.io/badge/%20imports-isort-%231674b1?style=flat&labelColor=ef8336)](https://pycqa.github.io/isort/) This package provides ASDF schemas for validating transform tags. Users should not need to install this directly; instead, install an implementation package such as asdf-astropy, which includes asdf-transform-schemas as a dependency. ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/bandit.yaml0000644000175100001770000000020614514267315017766 0ustar00runnerdockerexclude_dirs: - .eggs - .git - .pytest_cache - .tox - reference_files - tests - build - dist - docs - __pycache__ ././@PaxHeader0000000000000000000000000000003400000000000010212 xustar0028 mtime=1697738455.9864793 asdf_transform_schemas-0.4.0/docs/0000755000175100001770000000000014514267330016570 5ustar00runnerdocker././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/docs/Makefile0000644000175100001770000001120714514267315020234 0ustar00runnerdocker# Makefile for Sphinx documentation # # You can set these variables from the command line. SPHINXOPTS = SPHINXBUILD = sphinx-build PAPER = BUILDDIR = _build # Internal variables. PAPEROPT_a4 = -D latex_paper_size=a4 PAPEROPT_letter = -D latex_paper_size=letter ALLSPHINXOPTS = -d $(BUILDDIR)/doctrees $(PAPEROPT_$(PAPER)) $(SPHINXOPTS) . .PHONY: help clean html dirhtml singlehtml pickle json htmlhelp qthelp devhelp epub latex latexpdf text man changes linkcheck doctest #This is needed with git because git doesn't create a dir if it's empty $(shell [ -d "_static" ] || mkdir -p _static) help: @echo "Please use \`make ' where is one of" @echo " html to make standalone HTML files" @echo " dirhtml to make HTML files named index.html in directories" @echo " singlehtml to make a single large HTML file" @echo " pickle to make pickle files" @echo " json to make JSON files" @echo " htmlhelp to make HTML files and a HTML help project" @echo " qthelp to make HTML files and a qthelp project" @echo " devhelp to make HTML files and a Devhelp project" @echo " epub to make an epub" @echo " latex to make LaTeX files, you can set PAPER=a4 or PAPER=letter" @echo " latexpdf to make LaTeX files and run them through pdflatex" @echo " text to make text files" @echo " man to make manual pages" @echo " changes to make an overview of all changed/added/deprecated items" @echo " linkcheck to check all external links for integrity" @echo " doctest to run all doctests embedded in the documentation (if enabled)" clean: -rm -rf $(BUILDDIR) -rm -rf api -rm -rf generated html: $(SPHINXBUILD) -b html $(ALLSPHINXOPTS) $(BUILDDIR)/html @echo @echo "Build finished. The HTML pages are in $(BUILDDIR)/html." dirhtml: $(SPHINXBUILD) -b dirhtml $(ALLSPHINXOPTS) $(BUILDDIR)/dirhtml @echo @echo "Build finished. The HTML pages are in $(BUILDDIR)/dirhtml." singlehtml: $(SPHINXBUILD) -b singlehtml $(ALLSPHINXOPTS) $(BUILDDIR)/singlehtml @echo @echo "Build finished. The HTML page is in $(BUILDDIR)/singlehtml." pickle: $(SPHINXBUILD) -b pickle $(ALLSPHINXOPTS) $(BUILDDIR)/pickle @echo @echo "Build finished; now you can process the pickle files." json: $(SPHINXBUILD) -b json $(ALLSPHINXOPTS) $(BUILDDIR)/json @echo @echo "Build finished; now you can process the JSON files." htmlhelp: $(SPHINXBUILD) -b htmlhelp $(ALLSPHINXOPTS) $(BUILDDIR)/htmlhelp @echo @echo "Build finished; now you can run HTML Help Workshop with the" \ ".hhp project file in $(BUILDDIR)/htmlhelp." qthelp: $(SPHINXBUILD) -b qthelp $(ALLSPHINXOPTS) $(BUILDDIR)/qthelp @echo @echo "Build finished; now you can run "qcollectiongenerator" with the" \ ".qhcp project file in $(BUILDDIR)/qthelp, like this:" @echo "# qcollectiongenerator $(BUILDDIR)/qthelp/Astropy.qhcp" @echo "To view the help file:" @echo "# assistant -collectionFile $(BUILDDIR)/qthelp/Astropy.qhc" devhelp: $(SPHINXBUILD) -b devhelp $(ALLSPHINXOPTS) $(BUILDDIR)/devhelp @echo @echo "Build finished." @echo "To view the help file:" @echo "# mkdir -p $$HOME/.local/share/devhelp/Astropy" @echo "# ln -s $(BUILDDIR)/devhelp $$HOME/.local/share/devhelp/Astropy" @echo "# devhelp" epub: $(SPHINXBUILD) -b epub $(ALLSPHINXOPTS) $(BUILDDIR)/epub @echo @echo "Build finished. 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If you want to modify this template, it is strongly recommended that you still inherit from the astropy template. #} ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/docs/_templates/autosummary/class.rst0000644000175100001770000000037414514267315025161 0ustar00runnerdocker{% extends "autosummary_core/class.rst" %} {# The template this is inherited from is in astropy/sphinx/ext/templates/autosummary_core. If you want to modify this template, it is strongly recommended that you still inherit from the astropy template. #} ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/docs/_templates/autosummary/module.rst0000644000175100001770000000037514514267315025342 0ustar00runnerdocker{% extends "autosummary_core/module.rst" %} {# The template this is inherited from is in astropy/sphinx/ext/templates/autosummary_core. If you want to modify this template, it is strongly recommended that you still inherit from the astropy template. #} ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/docs/changes.rst0000644000175100001770000000010414514267315020730 0ustar00runnerdocker.. _change_log: Change Log ========== .. include:: ../CHANGES.rst ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/docs/conf.py0000644000175100001770000001457714514267315020110 0ustar00runnerdocker# Astropy documentation build configuration file. # # This file is execfile()d with the current directory set to its containing dir. # # Note that not all possible configuration values are present in this file. # # All configuration values have a default. Some values are defined in # the global Astropy configuration which is loaded here before anything else. # See astropy.sphinx.conf for which values are set there. # If extensions (or modules to document with autodoc) are in another directory, # add these directories to sys.path here. If the directory is relative to the # documentation root, use os.path.abspath to make it absolute, like shown here. # sys.path.insert(0, os.path.abspath('..')) # IMPORTANT: the above commented section was generated by sphinx-quickstart, but # is *NOT* appropriate for astropy or Astropy affiliated packages. It is left # commented out with this explanation to make it clear why this should not be # done. If the sys.path entry above is added, when the astropy.sphinx.conf # import occurs, it will import the *source* version of astropy instead of the # version installed (if invoked as "make html" or directly with sphinx), or the # version in the build directory (if "python setup.py build_sphinx" is used). # Thus, any C-extensions that are needed to build the documentation will *not* # be accessible, and the documentation will not build correctly. import datetime import os import sys from pathlib import Path # Ensure documentation examples are determinstically random. import numpy import tomli from pkg_resources import get_distribution try: numpy.random.seed(int(os.environ["SOURCE_DATE_EPOCH"])) except KeyError: pass try: from sphinx_astropy.conf.v1 import * # noqa except ImportError: print("ERROR: the documentation requires the sphinx-astropy package to be installed") sys.exit(1) # Get configuration information from `pyproject.toml` with open(Path(__file__).parent.parent / "pyproject.toml", "rb") as configuration_file: conf = tomli.load(configuration_file) configuration = conf["project"] # -- General configuration ---------------------------------------------------- project = configuration["name"] author = f"{configuration['authors'][0]['name']} <{configuration['authors'][0]['email']}>" copyright = f"{datetime.datetime.now().year}, {configuration['authors'][0]}" release = get_distribution(configuration["name"]).version version = ".".join(release.split(".")[:2]) # If your documentation needs a minimal Sphinx version, state it here. # needs_sphinx = '1.2' intersphinx_mapping["pypa-packaging"] = ("https://packaging.python.org/en/latest/", None) # noqa intersphinx_mapping["asdf"] = ("https://asdf.readthedocs.io/en/latest/", None) # noqa intersphinx_mapping["asdf-standard"] = ("https://asdf-standard.readthedocs.io/en/latest/", None) # noqa intersphinx_mapping["asdf-astropy"] = ("https://asdf-astropy.readthedocs.io/en/latest/", None) # noqa intersphinx_mapping["pytest"] = ("https://docs.pytest.org/en/latest/", None) # noqa # To perform a Sphinx version check that needs to be more specific than # major.minor, call `check_sphinx_version("x.y.z")` here. # check_sphinx_version("1.2.1") # List of patterns, relative to source directory, that match files and # directories to ignore when looking for source files. exclude_patterns.append("_templates") # noqa # This is added to the end of RST files - a good place to put substitutions to # be used globally. rst_epilog += """""" # noqa # -- Project information ------------------------------------------------------ # The version info for the project you're documenting, acts as replacement for # |version| and |release|, also used in various other places throughout the # built documents. # -- Options for HTML output --------------------------------------------------- # A NOTE ON HTML THEMES # The global astropy configuration uses a custom theme, 'bootstrap-astropy', # which is installed along with astropy. A different theme can be used or # the options for this theme can be modified by overriding some of the # variables set in the global configuration. The variables set in the # global configuration are listed below, commented out. # Add any paths that contain custom themes here, relative to this directory. # To use a different custom theme, add the directory containing the theme. # html_theme_path = [] # The theme to use for HTML and HTML Help pages. See the documentation for # a list of builtin themes. To override the custom theme, set this to the # name of a builtin theme or the name of a custom theme in html_theme_path. html_theme = "sphinx_rtd_theme" html_theme_options = {} html_static_path = ["_static"] # Custom sidebar templates, maps document names to template names. # html_sidebars = {} # The name of an image file (within the static path) to use as favicon of the # docs. This file should be a Windows icon file (.ico) being 16x16 or 32x32 # pixels large. html_favicon = "_static/logo.ico" html_logo = "_static/logo.png" # If not '', a 'Last updated on:' timestamp is inserted at every page bottom, # using the given strftime format. # html_last_updated_fmt = '' # The name for this set of Sphinx documents. If None, it defaults to # " v documentation". html_title = f"{project} v{release}" # Output file base name for HTML help builder. htmlhelp_basename = project + "doc" # -- Options for LaTeX output -------------------------------------------------- # Grouping the document tree into LaTeX files. List of tuples # (source start file, target name, title, author, documentclass [howto/manual]). latex_documents = [("index", project + ".tex", project + " Documentation", author, "manual")] latex_logo = "_static/logo.pdf" # -- Options for manual page output -------------------------------------------- # One entry per manual page. List of tuples # (source start file, name, description, authors, manual section). man_pages = [("index", project.lower(), project + " Documentation", [author], 1)] sys.path.insert(0, os.path.join(os.path.abspath(os.path.dirname("__file__")), "sphinxext")) extensions += ["sphinx_asdf"] # noqa def setup(app): app.add_css_file("custom.css") # -- sphinx_asdf configuration --------------------------------------------- # Top-level directory containing ASDF schemas (relative to current directory) asdf_schema_path = "../resources/stsci.edu" # This is the prefix common to all schema IDs in this repository asdf_schema_standard_prefix = "schemas" ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/docs/contributing.rst0000644000175100001770000000032314514267315022032 0ustar00runnerdocker.. _contributing: Contributing ============ We welcome feedback and contributions of all kinds. Contributions of code, documentation, or general feedback are all appreciated. .. include:: ../CONTRIBUTING.rst ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/docs/index.rst0000644000175100001770000000234614514267315020441 0ustar00runnerdocker.. _asdf-transform-schemas: ********************** ASDF Transform Schemas ********************** The ASDF Transform Schemas define a set of schemas for serializing the models defined by :ref:`astropy.modeling ` for the ASDF file format. These schemas are based upon the schemas in the :ref:`ASDF Standard ` and are packaged for use by the :ref:`ASDF ` library. .. note:: This is only a schema package, to use these schemas to serialize astropy models, one must install the :ref:`asdf-astropy ` package. Included Resources ================== The following are listings of all the schemas provided by this package for ASDF. .. note:: Typically, schemas are used in ASDF via their tag, which can be found in the manifest. Using a transform in ASDF it is recommended that you use the tag instead of a direct reference to the schema. When doing so make sure you are using the correct manifest version. .. toctree:: :maxdepth: 1 transforms.rst legacy.rst manifests.rst Developer Resources =================== .. toctree:: :maxdepth: 1 contributing.rst changes.rst Index ===== * :ref:`genindex` * :ref:`modindex` * :ref:`search` ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/docs/legacy.rst0000644000175100001770000000550614514267315020577 0ustar00runnerdocker.. _legacy-transform-schemas: Legacy Transform Schemas ======================== The legacy ``transform`` schemas: .. asdf-autoschemas:: add-1.0.0 add-1.1.0 affine-1.0.0 affine-1.2.0 airy-1.0.0 airy-1.1.0 bonne_equal_area-1.1.0 bonne_equal_area-1.2.0 cobe_quad_spherical_cube-1.0.0 cobe_quad_spherical_cube-1.1.0 compose-1.0.0 compose-1.1.0 concatenate-1.0.0 concatenate-1.1.0 conic_equal_area-1.0.0 conic_equal_area-1.1.0 conic_equal_area-1.2.0 conic_equidistant-1.0.0 conic_equidistant-1.1.0 conic_equidistant-1.2.0 conic_orthomorphic-1.0.0 conic_orthomorphic-1.1.0 conic_orthomorphic-1.2.0 conic_perspective-1.0.0 conic_perspective-1.1.0 conic_perspective-1.2.0 conic-1.0.0 conic-1.1.0 conic-1.2.0 constant-1.0.0 constant-1.1.0 constant-1.2.0 constant-1.3.0 cylindrical_equal_area-1.0.0 cylindrical_equal_area-1.1.0 cylindrical_equal_area-1.2.0 cylindrical_perspective-1.0.0 cylindrical_perspective-1.1.0 cylindrical_perspective-1.2.0 cylindrical-1.0.0 cylindrical-1.1.0 divide-1.0.0 divide-1.1.0 fix_inputs-1.1.0 gnomonic-1.0.0 gnomonic-1.1.0 hammer_aitoff-1.0.0 hammer_aitoff-1.1.0 healpix-1.0.0 healpix-1.1.0 identity-1.0.0 identity-1.1.0 label_mapper-1.0.0 label_mapper-1.1.0 mercator-1.0.0 mercator-1.1.0 molleweide-1.0.0 molleweide-1.1.0 multiply-1.0.0 multiply-1.1.0 parabolic-1.0.0 parabolic-1.1.0 plate_carree-1.0.0 plate_carree-1.1.0 polyconic-1.0.0 polyconic-1.1.0 polynomial-1.0.0 polynomial-1.1.0 power-1.0.0 power-1.1.0 pseudoconic-1.0.0 pseudoconic-1.1.0 pseudocylindrical-1.0.0 pseudocylindrical-1.1.0 quad_spherical_cube-1.0.0 quad_spherical_cube-1.1.0 quadcube-1.0.0 quadcube-1.1.0 regions_selector-1.0.0 regions_selector-1.1.0 remap_axes-1.0.0 remap_axes-1.1.0 remap_axes-1.2.0 rotate2d-1.0.0 rotate2d-1.1.0 rotate2d-1.2.0 rotate3d-1.0.0 rotate3d-1.1.0 rotate3d-1.2.0 sanson_flamsteed-1.0.0 sanson_flamsteed-1.1.0 scale-1.0.0 scale-1.1.0 shift-1.0.0 shift-1.1.0 slant_orthographic-1.0.0 slant_orthographic-1.1.0 slant_zenithal_perspective-1.0.0 slant_zenithal_perspective-1.1.0 stereographic-1.0.0 stereographic-1.1.0 subtract-1.0.0 subtract-1.1.0 tabular-1.0.0 tabular-1.1.0 tangential_spherical_cube-1.0.0 tangential_spherical_cube-1.1.0 transform-1.0.0 transform-1.1.0 zenithal_equal_area-1.0.0 zenithal_equal_area-1.1.0 zenithal_equidistant-1.0.0 zenithal_equidistant-1.1.0 zenithal_perspective-1.0.0 zenithal_perspective-1.1.0 zenithal_perspective-1.2.0 zenithal-1.0.0 zenithal-1.1.0 ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/docs/make.bat0000644000175100001770000001064114514267315020202 0ustar00runnerdocker@ECHO OFF REM Command file for Sphinx documentation if "%SPHINXBUILD%" == "" ( set SPHINXBUILD=sphinx-build ) set BUILDDIR=_build set ALLSPHINXOPTS=-d %BUILDDIR%/doctrees %SPHINXOPTS% . if NOT "%PAPER%" == "" ( set ALLSPHINXOPTS=-D latex_paper_size=%PAPER% %ALLSPHINXOPTS% ) if "%1" == "" goto help if "%1" == "help" ( :help echo.Please use `make ^` where ^ is one of echo. html to make standalone HTML files echo. dirhtml to make HTML files named index.html in directories echo. singlehtml to make a single large HTML file echo. pickle to make pickle files echo. json to make JSON files echo. htmlhelp to make HTML files and a HTML help project echo. qthelp to make HTML files and a qthelp project echo. devhelp to make HTML files and a Devhelp project echo. epub to make an epub echo. latex to make LaTeX files, you can set PAPER=a4 or PAPER=letter echo. text to make text files echo. man to make manual pages echo. changes to make an overview over all changed/added/deprecated items echo. linkcheck to check all external links for integrity echo. doctest to run all doctests embedded in the documentation if enabled goto end ) if "%1" == "clean" ( for /d %%i in (%BUILDDIR%\*) do rmdir /q /s %%i del /q /s %BUILDDIR%\* goto end ) if "%1" == "html" ( %SPHINXBUILD% -b html %ALLSPHINXOPTS% %BUILDDIR%/html if errorlevel 1 exit /b 1 echo. echo.Build finished. The HTML pages are in %BUILDDIR%/html. goto end ) if "%1" == "dirhtml" ( %SPHINXBUILD% -b dirhtml %ALLSPHINXOPTS% %BUILDDIR%/dirhtml if errorlevel 1 exit /b 1 echo. echo.Build finished. The HTML pages are in %BUILDDIR%/dirhtml. goto end ) if "%1" == "singlehtml" ( %SPHINXBUILD% -b singlehtml %ALLSPHINXOPTS% %BUILDDIR%/singlehtml if errorlevel 1 exit /b 1 echo. echo.Build finished. The HTML pages are in %BUILDDIR%/singlehtml. goto end ) if "%1" == "pickle" ( %SPHINXBUILD% -b pickle %ALLSPHINXOPTS% %BUILDDIR%/pickle if errorlevel 1 exit /b 1 echo. echo.Build finished; now you can process the pickle files. goto end ) if "%1" == "json" ( %SPHINXBUILD% -b json %ALLSPHINXOPTS% %BUILDDIR%/json if errorlevel 1 exit /b 1 echo. echo.Build finished; now you can process the JSON files. goto end ) if "%1" == "htmlhelp" ( %SPHINXBUILD% -b htmlhelp %ALLSPHINXOPTS% %BUILDDIR%/htmlhelp if errorlevel 1 exit /b 1 echo. echo.Build finished; now you can run HTML Help Workshop with the ^ .hhp project file in %BUILDDIR%/htmlhelp. goto end ) if "%1" == "qthelp" ( %SPHINXBUILD% -b qthelp %ALLSPHINXOPTS% %BUILDDIR%/qthelp if errorlevel 1 exit /b 1 echo. echo.Build finished; now you can run "qcollectiongenerator" with the ^ .qhcp project file in %BUILDDIR%/qthelp, like this: echo.^> qcollectiongenerator %BUILDDIR%\qthelp\Astropy.qhcp echo.To view the help file: echo.^> assistant -collectionFile %BUILDDIR%\qthelp\Astropy.ghc goto end ) if "%1" == "devhelp" ( %SPHINXBUILD% -b devhelp %ALLSPHINXOPTS% %BUILDDIR%/devhelp if errorlevel 1 exit /b 1 echo. echo.Build finished. goto end ) if "%1" == "epub" ( %SPHINXBUILD% -b epub %ALLSPHINXOPTS% %BUILDDIR%/epub if errorlevel 1 exit /b 1 echo. echo.Build finished. The epub file is in %BUILDDIR%/epub. goto end ) if "%1" == "latex" ( %SPHINXBUILD% -b latex %ALLSPHINXOPTS% %BUILDDIR%/latex if errorlevel 1 exit /b 1 echo. echo.Build finished; the LaTeX files are in %BUILDDIR%/latex. goto end ) if "%1" == "text" ( %SPHINXBUILD% -b text %ALLSPHINXOPTS% %BUILDDIR%/text if errorlevel 1 exit /b 1 echo. echo.Build finished. The text files are in %BUILDDIR%/text. goto end ) if "%1" == "man" ( %SPHINXBUILD% -b man %ALLSPHINXOPTS% %BUILDDIR%/man if errorlevel 1 exit /b 1 echo. echo.Build finished. The manual pages are in %BUILDDIR%/man. goto end ) if "%1" == "changes" ( %SPHINXBUILD% -b changes %ALLSPHINXOPTS% %BUILDDIR%/changes if errorlevel 1 exit /b 1 echo. echo.The overview file is in %BUILDDIR%/changes. goto end ) if "%1" == "linkcheck" ( %SPHINXBUILD% -b linkcheck %ALLSPHINXOPTS% %BUILDDIR%/linkcheck if errorlevel 1 exit /b 1 echo. echo.Link check complete; look for any errors in the above output ^ or in %BUILDDIR%/linkcheck/output.txt. goto end ) if "%1" == "doctest" ( %SPHINXBUILD% -b doctest %ALLSPHINXOPTS% %BUILDDIR%/doctest if errorlevel 1 exit /b 1 echo. echo.Testing of doctests in the sources finished, look at the ^ results in %BUILDDIR%/doctest/output.txt. goto end ) :end ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/docs/manifests.rst0000644000175100001770000000062714514267315021323 0ustar00runnerdocker.. _manifests: Manifests ========= The ASDF tags (described by schemas) available under each ASDF transform schemas version are all described by a single manifest document for that version. .. asdf-autoschemas:: :schema_root: ../resources/asdf-format.org :standard_prefix: manifests transform-1.0.0 transform-1.1.0 transform-1.2.0 transform-1.3.0 transform-1.4.0 transform-1.5.0 ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/docs/transforms.rst0000644000175100001770000000443514514267315021531 0ustar00runnerdocker.. _transform-schemas: Transform Schemas ================= The current ``transform`` schemas: .. asdf-autoschemas:: property/bounding_box-1.0.0 property/compound_bounding_box-1.0.0 add-1.2.0 affine-1.3.0 airy_disk2d-1.0.0 airy-1.2.0 arccosine1d-1.0.0 arcsine1d-1.0.0 arctangent1d-1.0.0 blackbody-1.0.0 bonne_equal_area-1.3.0 box1d-1.0.0 box2d-1.0.0 broken_power_law1d-1.0.0 cobe_quad_spherical_cube-1.2.0 compose-1.2.0 concatenate-1.2.0 conic_equal_area-1.3.0 conic_equidistant-1.3.0 conic_orthomorphic-1.3.0 conic_perspective-1.3.0 conic-1.3.0 constant-1.4.0 cosine1d-1.0.0 cylindrical_equal_area-1.3.0 cylindrical_perspective-1.3.0 cylindrical-1.2.0 disk2d-1.0.0 divide-1.2.0 domain-1.0.0 drude1d-1.0.0 ellipse2d-1.0.0 exponential_cutoff_power_law1d-1.0.0 exponential1d-1.0.0 fix_inputs-1.2.0 gaussian1d-1.0.0 gaussian2d-1.0.0 gnomonic-1.2.0 hammer_aitoff-1.2.0 healpix-1.2.0 identity-1.2.0 king_projected_analytic1d-1.0.0 label_mapper-1.2.0 linear1d-1.0.0 log_parabola1d-1.0.0 logarithmic1d-1.0.0 lorentz1d-1.0.0 math_functions-1.0.0 mercator-1.2.0 moffat1d-1.0.0 moffat2d-1.0.0 molleweide-1.2.0 multiply-1.2.0 multiplyscale-1.0.0 ortho_polynomial-1.0.0 parabolic-1.2.0 planar2d-1.0.0 plate_carree-1.2.0 plummer1d-1.0.0 polyconic-1.2.0 polynomial-1.2.0 power_law1d-1.0.0 power-1.2.0 pseudoconic-1.2.0 pseudocylindrical-1.2.0 quad_spherical_cube-1.2.0 quadcube-1.2.0 redshift_scale_factor-1.0.0 regions_selector-1.2.0 remap_axes-1.3.0 ricker_wavelet1d-1.0.0 ricker_wavelet2d-1.0.0 ring2d-1.0.0 rotate_sequence_3d-1.0.0 rotate2d-1.3.0 rotate3d-1.3.0 sanson_flamsteed-1.2.0 scale-1.2.0 schechter1d-1.0.0 sersic1d-1.0.0 sersic2d-1.0.0 shift-1.2.0 sine1d-1.0.0 slant_orthographic-1.2.0 slant_zenithal_perspective-1.2.0 smoothly_broken_power_law1d-1.0.0 spline1d-1.0.0 stereographic-1.2.0 subtract-1.2.0 tabular-1.2.0 tangent1d-1.0.0 tangential_spherical_cube-1.2.0 transform-1.2.0 trapezoid_disk2d-1.0.0 trapezoid1d-1.0.0 voigt1d-1.0.0 zenithal_equal_area-1.2.0 zenithal_equidistant-1.2.0 zenithal_perspective-1.3.0 zenithal-1.2.0 ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/pyproject.toml0000644000175100001770000000432414514267315020562 0ustar00runnerdocker[project] name = 'asdf_transform_schemas' description = 'ASDF schemas for transforms' readme = 'README.md' requires-python = '>=3.8' license = { file = 'LICENSE' } authors = [{ name = 'The ASDF Developers', email = 'help@stsci.edu' }] classifiers = [ 'Programming Language :: Python', 'Programming Language :: Python :: 3', 'Programming Language :: Python :: 3.8', 'Programming Language :: Python :: 3.9', 'Programming Language :: Python :: 3.10', 'Development Status :: 5 - Production/Stable', ] dependencies = [ 'asdf-standard >= 1.0.1', 'importlib_resources >= 3; python_version<"3.9"', ] dynamic = ['version'] [project.optional-dependencies] docs = [ 'tomli', 'sphinx', 'sphinx-asdf >= 0.1.3', 'sphinx-astropy', 'astropy >= 5.0.4', 'graphviz', 'matplotlib', 'docutils', 'sphinx-rtd-theme', ] test = [ 'asdf >= 2.8.0', 'asdf-astropy', 'scipy', 'pytest', ] [project.urls] 'tracker' = 'https://github.com/asdf-format/asdf-transform-schemas/issues' 'documentation' = 'https://asdf-transform-schemas.readthedocs.io/en/stable' 'repository' = 'https://github.com/asdf-format/asdf-transform-schemas' [project.entry-points] 'asdf.resource_mappings' = { asdf_transform_schemas = 'asdf_transform_schemas.integration:get_resource_mappings' } [build-system] requires = [ "setuptools >=42", "setuptools_scm[toml] >=3.4", "wheel", ] build-backend = "setuptools.build_meta" [tool.setuptools_scm] write_to = "src/asdf_transform_schemas/_version.py" [tool.setuptools] packages = ["asdf_transform_schemas", "asdf_transform_schemas.resources"] [tool.setuptools.package-data] "asdf_transform_schemas.resources" = ["resources/**/*.yaml"] [tool.setuptools.package-dir] '' = "src" "asdf_transform_schemas.resources" = "resources" [tool.pytest.ini_options] asdf_schema_root = 'resources/stsci.edu/schemas' asdf_schema_tests_enabled = 'true' asdf_schema_ignore_unrecognized_tag = 'true' testpaths = """ tests resources """ addopts = '--color=yes' [tool.black] line-length = 120 force-exclude = ''' ^/( ( \.eggs | \.git | \.pytest_cache | \.tox | build | dist )/ ) ''' [tool.isort] profile = "black" filter_files = true line_length = 120 ././@PaxHeader0000000000000000000000000000003400000000000010212 xustar0028 mtime=1697738455.9824793 asdf_transform_schemas-0.4.0/resources/0000755000175100001770000000000014514267330017652 5ustar00runnerdocker././@PaxHeader0000000000000000000000000000003400000000000010212 xustar0028 mtime=1697738455.9824793 asdf_transform_schemas-0.4.0/resources/asdf-format.org/0000755000175100001770000000000014514267330022643 5ustar00runnerdocker././@PaxHeader0000000000000000000000000000003400000000000010212 xustar0028 mtime=1697738455.9944792 asdf_transform_schemas-0.4.0/resources/asdf-format.org/manifests/0000755000175100001770000000000014514267330024634 5ustar00runnerdocker././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/asdf-format.org/manifests/transform-1.0.0.yaml0000644000175100001770000006556514514267315030211 0ustar00runnerdockerid: asdf://asdf-format.org/transform/manifests/transform-1.0.0 extension_uri: asdf://asdf-format.org/transform/extensions/transform-1.0.0 title: Transform extension 1.0.0 description: |- A set of tags for serializing data transforms. tags: - tag_uri: tag:stsci.edu:asdf/transform/add-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/add-1.0.0 title: Perform a list of subtransforms in parallel and then add their results together. description: |- Each of the subtransforms must have the same number of inputs and outputs. - tag_uri: tag:stsci.edu:asdf/transform/affine-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/affine-1.0.0 title: An affine transform. description: |- Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/airy-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/airy-1.0.0 title: The Airy projection. description: |- Corresponds to the `AIR` projection in the FITS WCS standard. See [zenithal](ref:http://stsci.edu/schemas/asdf/transform/zenithal-1.0.0) for the definition of the full transformation. - tag_uri: tag:stsci.edu:asdf/transform/bonne_equal_area-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/bonne_equal_area-1.0.0 title: Bonne's equal area pseudoconic projection. description: |- Corresponds to the `BON` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi}{180^\circ} A_\phi R_\theta / \cos \theta \\ \theta &= Y_0 - R_\theta$$ where: $$R_\theta &= \mathrm{sign} \theta_1 \sqrt{x^2 + (Y_0 - y)^2} \\ A_\phi &= \arg\left(\frac{Y_0 - y}{R_\theta}, \frac{x}{R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= R_\theta \sin A_\phi \\ y &= -R_\theta \cos A_\phi + Y_0$$ where: $$A_\phi &= \frac{180^\circ}{\pi R_\theta} \phi \cos \theta \\ R_\theta &= Y_0 - \theta \\ Y_0 &= \frac{180^\circ}{\pi} \cot \theta_1 + \theta_1$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/cobe_quad_spherical_cube-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cobe_quad_spherical_cube-1.0.0 title: COBE quadrilateralized spherical cube projection. description: |- Corresponds to the `CSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/compose-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/compose-1.0.0 title: Perform a list of subtransforms in series. description: |- The output of each subtransform is fed into the input of the next subtransform. The number of output dimensions of each subtransform must be equal to the number of input dimensions of the next subtransform in list. To reorder or add/drop axes, insert `remap_axes` transforms in the subtransform list. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, by reversing the list of transforms and applying the inverse of each. - tag_uri: tag:stsci.edu:asdf/transform/concatenate-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/concatenate-1.0.0 title: Send axes to different subtransforms. description: |- Transforms a set of separable inputs by splitting the axes apart, sending them through the given subtransforms in parallel, and finally concatenating the subtransform output axes back together. The input axes are assigned to each subtransform in order. If the number of input axes is unequal to the sum of the number of input axes of all of the subtransforms, that is considered an error case. The output axes from each subtransform are appended together to make up the resulting output axes. For example, given 5 input axes, and 3 subtransforms with the following orders: 1. transform A: 2 in -> 2 out 1. transform B: 1 in -> 2 out 1. transform C: 2 in -> 1 out The transform is performed as follows: ``` : i0 i1 i2 i3 i4 : | | | | | : +---------+ +---------+ +----------+ : | A | | B | | C | : +---------+ +---------+ +----------+ : | | | | | : o0 o1 o2 o3 o4 ``` If reordering of the input or output axes is required, use in series with the `remap_axes` transform. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_equal_area-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_equal_area-1.0.0 title: Alber's conic equal area projection. description: |- Corresponds to the `COE` projection in the FITS WCS standard. See [conic](ref:http://stsci.edu/schemas/asdf/transform/conic-1.0.0) for the definition of the full transformation. The transformation is defined as: $$C &= \gamma / 2 \\ R_\theta &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin \theta} \\ Y_0 &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin((\theta_1 + \theta_2)/2)}$$ where: $$\gamma = \sin \theta_1 + \sin \theta_2$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_equidistant-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_equidistant-1.0.0 title: Conic equidistant projection. description: |- Corresponds to the `COD` projection in the FITS WCS standard. See [conic](ref:http://stsci.edu/schemas/asdf/transform/conic-1.0.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{180^\circ}{\pi} \frac{\sin\theta_a\sin\eta}{\eta} \\ R_\theta &= \theta_a - \theta + \eta\cot\eta\cot\theta_a \\ Y_0 = \eta\cot\eta\cot\theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_orthomorphic-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_orthomorphic-1.0.0 title: Conic orthomorphic projection. description: |- Corresponds to the `COO` projection in the FITS WCS standard. See [conic](ref:http://stsci.edu/schemas/asdf/transform/conic-1.0.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{\ln \left( \frac{\cos\theta_2}{\cos\theta_1} \right)} {\ln \left[ \frac{\tan\left(\frac{90^\circ-\theta_2}{2}\right)} {\tan\left(\frac{90^\circ-\theta_1}{2}\right)} \right] } \\ R_\theta &= \psi \left[ \tan \left( \frac{90^\circ - \theta}{2} \right) \right]^C \\ Y_0 &= \psi \left[ \tan \left( \frac{90^\circ - \theta_a}{2} \right) \right]^C$$ where: $$\psi = \frac{180^\circ}{\pi} \frac{\cos \theta} {C\left[\tan\left(\frac{90^\circ-\theta}{2}\right)\right]^C}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_perspective-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_perspective-1.0.0 title: Colles' conic perspecitve projection. description: |- Corresponds to the `COP` projection in the FITS WCS standard. See [conic](ref:http://stsci.edu/schemas/asdf/transform/conic-1.0.0) for the definition of the full transformation. The transformation is defined as: $$C &= \sin \theta_a \\ R_\theta &= \frac{180^\circ}{\pi} \cos \eta [ \cot \theta_a - \tan(\theta - \theta_a)] \\ Y_0 &= \frac{180^\circ}{\pi} \cos \eta \cot \theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/constant-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/constant-1.0.0 title: A transform that takes no inputs and always outputs a constant value. description: |- Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, which always outputs zero values. - tag_uri: tag:stsci.edu:asdf/transform/cylindrical_equal_area-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cylindrical_equal_area-1.0.0 title: The cylindrical equal area projection. description: |- Corresponds to the `CEA` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^{\circ}}\lambda y\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\frac{\sin \theta}{\lambda}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/cylindrical_perspective-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cylindrical_perspective-1.0.0 title: The cylindrical perspective projection. description: |- Corresponds to the `CYP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\lambda} \\ \theta &= \arg(1, \eta) + \sin{-1}\left(\frac{\eta \mu}{\sqrt{\eta^2 + 1}}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \lambda \phi \\ y &= \frac{180^{\circ}}{\pi}\left(\frac{\mu + \lambda}{\mu + \cos \theta}\right)\sin \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/divide-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/divide-1.0.0 title: Perform a list of subtransforms in parallel and then divide their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/domain-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/domain-1.0.0 title: Defines the domain of an input axis. (deprecated since 1.1.0) description: |- Describes the range of acceptable input values to a particular axis of a transform. - tag_uri: tag:stsci.edu:asdf/transform/gnomonic-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/gnomonic-1.0.0 title: The gnomonic projection. description: |- Corresponds to the `TAN` projection in the FITS WCS standard. See [zenithal](ref:http://stsci.edu/schemas/asdf/transform/zenithal-1.0.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/hammer_aitoff-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/hammer_aitoff-1.0.0 title: Hammer-Aitoff projection. description: |- Corresponds to the `AIT` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= 2 \arg \left(2Z^2 - 1, \frac{\pi}{180^\circ} \frac{Z}{2}x\right) \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^\circ}yZ\right)$$ And the sky-to-pixel transformation is defined as: $$x &= 2 \gamma \cos \theta \sin \frac{\phi}{2} \\ y &= \gamma \sin \theta$$ where: $$\gamma = \frac{180^\circ}{\pi} \sqrt{\frac{2}{1 + \cos \theta \cos(\phi / 2)}}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/healpix-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/healpix-1.0.0 title: HEALPix projection. description: |- Corresponds to the `HPX` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/healpix_polar-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/healpix_polar-1.0.0 title: HEALPix polar, aka "butterfly", projection. description: |- Corresponds to the `XPH` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/identity-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/identity-1.0.0 title: The identity transform. description: |- Invertibility: The inverse of this transform is also the identity transform. - tag_uri: tag:stsci.edu:asdf/transform/label_mapper-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/label_mapper-1.0.0 title: Represents a mapping from a coordinate value to a label. description: |- A label mapper instance maps inputs to a label. It is used together with [regions_selector](ref:http://stsci.edu/schemas/asdf/transform/regions_selector-1.0.0). The [label_mapper](ref:http://stsci.edu/schemas/asdf/transform/label_mapper-1.0.0) returns the label corresponding to given inputs. The [regions_selector](ref:http://stsci.edu/schemas/asdf/transform/regions_selector-1.0.0) returns the transform corresponding to this label. This maps inputs (e.g. pixels on a detector) to transforms uniquely. - tag_uri: tag:stsci.edu:asdf/transform/mercator-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/mercator-1.0.0 title: The Mercator projection. description: |- Corresponds to the `MER` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= 2 \tan^{-1}\left(e^{y \pi / 180^{\circ}}\right)-90^{\circ}$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\ln \tan \left(\frac{90^{\circ} + \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/molleweide-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/molleweide-1.0.0 title: Molleweide's projection. description: |- Corresponds to the `MOL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi x}{2 \sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}} \\ \theta &= \sin^{-1}\left(\frac{1}{90^\circ}\sin^{-1}\left(\frac{\pi}{180^\circ}\frac{y}{\sqrt{2}}\right) + \frac{y}{180^\circ}\sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \frac{2 \sqrt{2}}{\pi} \phi \cos \gamma \\ y &= \sqrt{2} \frac{180^\circ}{\pi} \sin \gamma$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/multiply-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/multiply-1.0.0 title: Perform a list of subtransforms in parallel and then multiply their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/parabolic-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/parabolic-1.0.0 title: Parabolic projection. description: |- Corresponds to the `PAR` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{180^\circ}{\pi} \frac{x}{1 - 4(y / 180^\circ)^2} \\ \theta &= 3 \sin^{-1}\left(\frac{y}{180^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \left(2\cos\frac{2\theta}{3} - 1\right) \\ y &= 180^\circ \sin \frac{\theta}{3}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/plate_carree-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/plate_carree-1.0.0 title: "The plate carr\xE9e projection." description: |- Corresponds to the `CAR` projection in the FITS WCS standard. The main virtue of this transformation is its simplicity. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/polyconic-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/polyconic-1.0.0 title: Polyconic projection. description: |- Corresponds to the `PCO` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/polynomial-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/polynomial-1.0.0 title: A Polynomial model. description: |- A polynomial model represented by its coefficients stored in an ndarray of shape $(n+1)$ for univariate polynomials or $(n+1, n+1)$ for polynomials with 2 variables, where $n$ is the highest total degree of the polynomial. $$P = \sum_{i, j=0}^{i+j=n}c_{ij} * x^{i} * y^{j}$$ Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/power-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/power-1.0.0 title: Perform a list of subtransforms in parallel and then raise each result to the power of the next. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/quad_spherical_cube-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/quad_spherical_cube-1.0.0 title: Quadrilateralized spherical cube projection. description: |- Corresponds to the `QSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/regions_selector-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/regions_selector-1.0.0 title: Represents a discontinuous transform. description: |- Maps regions to transgorms and evaluates the transforms with the corresponding inputs. - tag_uri: tag:stsci.edu:asdf/transform/remap_axes-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/remap_axes-1.0.0 title: Reorder, add and drop axes. description: |- This transform allows the order of the input axes to be shuffled and returned as the output axes. It is a list made up of integers or "constant markers". Each item in the list corresponds to an output axis. For each item: - If an integer, it is the index of the input axis to send to the output axis. - If a constant, it must be a single item which is a constant value to send to the output axis. If only a list is provided, the number of input axes is automatically determined from the maximum index in the list. If an object with `mapping` and `n_inputs` properties is provided, the number of input axes is explicitly set by the `n_inputs` value. Invertibility: TBD - tag_uri: tag:stsci.edu:asdf/transform/rotate2d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/rotate2d-1.0.0 title: A 2D rotation. description: |- A 2D rotation around the origin, in degrees. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/rotate3d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/rotate3d-1.0.0 title: Rotation in 3D space. description: |- Euler angle rotation around 3 axes. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/sanson_flamsteed-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/sanson_flamsteed-1.0.0 title: The Sanson-Flamsteed projection. description: |- Corresponds to the `SFL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\cos y} \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \cos \theta \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/scale-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/scale-1.0.0 title: A Scale model. description: |- Multiply the input by a factor. - tag_uri: tag:stsci.edu:asdf/transform/shift-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/shift-1.0.0 title: A Shift opeartion. description: |- Apply an offset in one direction. - tag_uri: tag:stsci.edu:asdf/transform/slant_orthographic-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/slant_orthographic-1.0.0 title: The slant orthographic projection. description: |- Corresponds to the `SIN` projection in the FITS WCS standard. See [zenithal](ref:http://stsci.edu/schemas/asdf/transform/zenithal-1.0.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \cos^{-1}\left(\frac{\pi}{180^{\circ}}R_\theta\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cos \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/slant_zenithal_perspective-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/slant_zenithal_perspective-1.0.0 title: The slant zenithal perspective projection. description: |- Corresponds to the `SZP` projection in the FITS WCS standard. See [zenithal](ref:http://stsci.edu/schemas/asdf/transform/zenithal-1.0.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/stereographic-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/stereographic-1.0.0 title: The stereographic projection. description: |- Corresponds to the `STG` projection in the FITS WCS standard. See [zenithal](ref:http://stsci.edu/schemas/asdf/transform/zenithal-1.0.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^{\circ} - 2 \tan^{-1}\left(\frac{\pi R_\theta}{360^{\circ}}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\frac{2 \cos \theta}{1 + \sin \theta}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/subtract-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/subtract-1.0.0 title: Perform a list of subtransforms in parallel and then subtract their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/tabular-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/tabular-1.0.0 title: A Tabular model. description: |- Tabular represents a lookup table with values corresponding to some grid points. It computes the interpolated values corresponding to the given inputs. Three methods of interpolation are supported - "linear", "nearest" and "splinef2d". It supports extrapolation. - tag_uri: tag:stsci.edu:asdf/transform/tangential_spherical_cube-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/tangential_spherical_cube-1.0.0 title: Tangential spherical cube projection. description: |- Corresponds to the `TSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_equal_area-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_equal_area-1.0.0 title: The zenithal equal area projection. description: |- Corresponds to the `ZEA` projection in the FITS WCS standard. See [zenithal](ref:http://stsci.edu/schemas/asdf/transform/zenithal-1.0.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - 2 \sin^{-1} \left(\frac{\pi R_\theta}{360^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta &= \frac{180^\circ}{\pi} \sqrt{2(1 - \sin\theta)} \\ &= \frac{360^\circ}{\pi} \sin\left(\frac{90^\circ - \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_equidistant-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_equidistant-1.0.0 title: The zenithal equidistant projection. description: |- Corresponds to the `ARC` projection in the FITS WCS standard. See [zenithal](ref:http://stsci.edu/schemas/asdf/transform/zenithal-1.0.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - R_\theta$$ And the sky-to-pixel transformation is defined as: $$R_\theta = 90^\circ - \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_perspective-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_perspective-1.0.0 title: The zenithal perspective projection. description: |- Corresponds to the `AZP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \arg(-y \cos \gamma, x) \\ \theta &= \left\{\genfrac{}{}{0pt}{}{\psi - \omega}{\psi + \omega + 180^{\circ}}\right.$$ where: $$\psi &= \arg(\rho, 1) \\ \omega &= \sin^{-1}\left(\frac{\rho \mu}{\sqrt{\rho^2 + 1}}\right) \\ \rho &= \frac{R}{\frac{180^{\circ}}{\pi}(\mu + 1) + y \sin \gamma} \\ R &= \sqrt{x^2 + y^2 \cos^2 \gamma}$$ And the sky-to-pixel transformation is defined as: $$x &= R \sin \phi \\ y &= -R \sec \gamma \cos \theta$$ where: $$R = \frac{180^{\circ}}{\pi} \frac{(\mu + 1) \cos \theta}{(\mu + \sin \theta) + \cos \theta \cos \phi \tan \gamma}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/asdf-format.org/manifests/transform-1.1.0.yaml0000644000175100001770000006447614514267315030212 0ustar00runnerdockerid: asdf://asdf-format.org/transform/manifests/transform-1.1.0 extension_uri: asdf://asdf-format.org/transform/extensions/transform-1.1.0 title: Transform extension 1.1.0 description: |- A set of tags for serializing data transforms. tags: - tag_uri: tag:stsci.edu:asdf/transform/add-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/add-1.1.0 title: Perform a list of subtransforms in parallel and then add their results together. description: |- Each of the subtransforms must have the same number of inputs and outputs. - tag_uri: tag:stsci.edu:asdf/transform/affine-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/affine-1.1.0 title: An affine transform. description: |- Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/airy-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/airy-1.1.0 title: The Airy projection. description: |- Corresponds to the `AIR` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.1.0) for the definition of the full transformation. - tag_uri: tag:stsci.edu:asdf/transform/bonne_equal_area-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/bonne_equal_area-1.1.0 title: Bonne's equal area pseudoconic projection. description: |- Corresponds to the `BON` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi}{180^\circ} A_\phi R_\theta / \cos \theta \\ \theta &= Y_0 - R_\theta$$ where: $$R_\theta &= \mathrm{sign} \theta_1 \sqrt{x^2 + (Y_0 - y)^2} \\ A_\phi &= \arg\left(\frac{Y_0 - y}{R_\theta}, \frac{x}{R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= R_\theta \sin A_\phi \\ y &= -R_\theta \cos A_\phi + Y_0$$ where: $$A_\phi &= \frac{180^\circ}{\pi R_\theta} \phi \cos \theta \\ R_\theta &= Y_0 - \theta \\ Y_0 &= \frac{180^\circ}{\pi} \cot \theta_1 + \theta_1$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/cobe_quad_spherical_cube-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cobe_quad_spherical_cube-1.1.0 title: COBE quadrilateralized spherical cube projection. description: |- Corresponds to the `CSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/compose-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/compose-1.1.0 title: Perform a list of subtransforms in series. description: |- The output of each subtransform is fed into the input of the next subtransform. The number of output dimensions of each subtransform must be equal to the number of input dimensions of the next subtransform in list. To reorder or add/drop axes, insert `remap_axes` transforms in the subtransform list. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, by reversing the list of transforms and applying the inverse of each. - tag_uri: tag:stsci.edu:asdf/transform/concatenate-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/concatenate-1.1.0 title: Send axes to different subtransforms. description: |- Transforms a set of separable inputs by splitting the axes apart, sending them through the given subtransforms in parallel, and finally concatenating the subtransform output axes back together. The input axes are assigned to each subtransform in order. If the number of input axes is unequal to the sum of the number of input axes of all of the subtransforms, that is considered an error case. The output axes from each subtransform are appended together to make up the resulting output axes. For example, given 5 input axes, and 3 subtransforms with the following orders: 1. transform A: 2 in -> 2 out 1. transform B: 1 in -> 2 out 1. transform C: 2 in -> 1 out The transform is performed as follows: ``` : i0 i1 i2 i3 i4 : | | | | | : +---------+ +---------+ +----------+ : | A | | B | | C | : +---------+ +---------+ +----------+ : | | | | | : o0 o1 o2 o3 o4 ``` If reordering of the input or output axes is required, use in series with the `remap_axes` transform. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_equal_area-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_equal_area-1.1.0 title: Alber's conic equal area projection. description: |- Corresponds to the `COE` projection in the FITS WCS standard. See [conic](ref:http://stsci.edu/schemas/asdf/transform/conic-1.1.0) for the definition of the full transformation. The transformation is defined as: $$C &= \gamma / 2 \\ R_\theta &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin \theta} \\ Y_0 &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin((\theta_1 + \theta_2)/2)}$$ where: $$\gamma = \sin \theta_1 + \sin \theta_2$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_equidistant-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_equidistant-1.1.0 title: Conic equidistant projection. description: |- Corresponds to the `COD` projection in the FITS WCS standard. See [conic](ref:http://stsci.edu/schemas/asdf/transform/conic-1.1.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{180^\circ}{\pi} \frac{\sin\theta_a\sin\eta}{\eta} \\ R_\theta &= \theta_a - \theta + \eta\cot\eta\cot\theta_a \\ Y_0 = \eta\cot\eta\cot\theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_orthomorphic-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_orthomorphic-1.1.0 title: Conic orthomorphic projection. description: |- Corresponds to the `COO` projection in the FITS WCS standard. See [conic](ref:http://stsci.edu/schemas/asdf/transform/conic-1.1.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{\ln \left( \frac{\cos\theta_2}{\cos\theta_1} \right)} {\ln \left[ \frac{\tan\left(\frac{90^\circ-\theta_2}{2}\right)} {\tan\left(\frac{90^\circ-\theta_1}{2}\right)} \right] } \\ R_\theta &= \psi \left[ \tan \left( \frac{90^\circ - \theta}{2} \right) \right]^C \\ Y_0 &= \psi \left[ \tan \left( \frac{90^\circ - \theta_a}{2} \right) \right]^C$$ where: $$\psi = \frac{180^\circ}{\pi} \frac{\cos \theta} {C\left[\tan\left(\frac{90^\circ-\theta}{2}\right)\right]^C}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_perspective-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_perspective-1.1.0 title: Colles' conic perspecitve projection. description: |- Corresponds to the `COP` projection in the FITS WCS standard. See [conic](ref:http://stsci.edu/schemas/asdf/transform/conic-1.1.0) for the definition of the full transformation. The transformation is defined as: $$C &= \sin \theta_a \\ R_\theta &= \frac{180^\circ}{\pi} \cos \eta [ \cot \theta_a - \tan(\theta - \theta_a)] \\ Y_0 &= \frac{180^\circ}{\pi} \cos \eta \cot \theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/constant-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/constant-1.1.0 title: A transform that takes no inputs and always outputs a constant value. description: |- Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, which always outputs zero values. - tag_uri: tag:stsci.edu:asdf/transform/cylindrical_equal_area-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cylindrical_equal_area-1.1.0 title: The cylindrical equal area projection. description: |- Corresponds to the `CEA` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^{\circ}}\lambda y\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\frac{\sin \theta}{\lambda}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/cylindrical_perspective-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cylindrical_perspective-1.1.0 title: The cylindrical perspective projection. description: |- Corresponds to the `CYP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\lambda} \\ \theta &= \arg(1, \eta) + \sin{-1}\left(\frac{\eta \mu}{\sqrt{\eta^2 + 1}}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \lambda \phi \\ y &= \frac{180^{\circ}}{\pi}\left(\frac{\mu + \lambda}{\mu + \cos \theta}\right)\sin \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/divide-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/divide-1.1.0 title: Perform a list of subtransforms in parallel and then divide their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/gnomonic-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/gnomonic-1.1.0 title: The gnomonic projection. description: |- Corresponds to the `TAN` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/hammer_aitoff-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/hammer_aitoff-1.1.0 title: Hammer-Aitoff projection. description: |- Corresponds to the `AIT` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= 2 \arg \left(2Z^2 - 1, \frac{\pi}{180^\circ} \frac{Z}{2}x\right) \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^\circ}yZ\right)$$ And the sky-to-pixel transformation is defined as: $$x &= 2 \gamma \cos \theta \sin \frac{\phi}{2} \\ y &= \gamma \sin \theta$$ where: $$\gamma = \frac{180^\circ}{\pi} \sqrt{\frac{2}{1 + \cos \theta \cos(\phi / 2)}}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/healpix-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/healpix-1.1.0 title: HEALPix projection. description: |- Corresponds to the `HPX` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/healpix_polar-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/healpix_polar-1.1.0 title: HEALPix polar, aka "butterfly", projection. description: |- Corresponds to the `XPH` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/identity-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/identity-1.1.0 title: The identity transform. description: |- Invertibility: The inverse of this transform is also the identity transform. - tag_uri: tag:stsci.edu:asdf/transform/label_mapper-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/label_mapper-1.1.0 title: Represents a mapping from a coordinate value to a label. description: |- A label mapper instance maps inputs to a label. It is used together with [regions_selector](ref:transform/regions_selector-1.1.0). The [label_mapper](ref:transform/label_mapper-1.1.0) returns the label corresponding to given inputs. The [regions_selector](ref:transform/regions_selector-1.1.0) returns the transform corresponding to this label. This maps inputs (e.g. pixels on a detector) to transforms uniquely. - tag_uri: tag:stsci.edu:asdf/transform/mercator-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/mercator-1.1.0 title: The Mercator projection. description: |- Corresponds to the `MER` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= 2 \tan^{-1}\left(e^{y \pi / 180^{\circ}}\right)-90^{\circ}$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\ln \tan \left(\frac{90^{\circ} + \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/molleweide-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/molleweide-1.1.0 title: Molleweide's projection. description: |- Corresponds to the `MOL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi x}{2 \sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}} \\ \theta &= \sin^{-1}\left(\frac{1}{90^\circ}\sin^{-1}\left(\frac{\pi}{180^\circ}\frac{y}{\sqrt{2}}\right) + \frac{y}{180^\circ}\sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \frac{2 \sqrt{2}}{\pi} \phi \cos \gamma \\ y &= \sqrt{2} \frac{180^\circ}{\pi} \sin \gamma$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/multiply-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/multiply-1.1.0 title: Perform a list of subtransforms in parallel and then multiply their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/parabolic-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/parabolic-1.1.0 title: Parabolic projection. description: |- Corresponds to the `PAR` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{180^\circ}{\pi} \frac{x}{1 - 4(y / 180^\circ)^2} \\ \theta &= 3 \sin^{-1}\left(\frac{y}{180^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \left(2\cos\frac{2\theta}{3} - 1\right) \\ y &= 180^\circ \sin \frac{\theta}{3}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/plate_carree-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/plate_carree-1.1.0 title: "The plate carr\xE9e projection." description: |- Corresponds to the `CAR` projection in the FITS WCS standard. The main virtue of this transformation is its simplicity. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/polyconic-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/polyconic-1.1.0 title: Polyconic projection. description: |- Corresponds to the `PCO` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/polynomial-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/polynomial-1.1.0 title: A Polynomial model. description: |- A polynomial model represented by its coefficients stored in an ndarray of shape $(n+1)$ for univariate polynomials or $(n+1, n+1)$ for polynomials with 2 variables, where $n$ is the highest total degree of the polynomial. $$P = \sum_{i, j=0}^{i+j=n}c_{ij} * x^{i} * y^{j}$$ Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/power-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/power-1.1.0 title: Perform a list of subtransforms in parallel and then raise each result to the power of the next. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/quad_spherical_cube-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/quad_spherical_cube-1.1.0 title: Quadrilateralized spherical cube projection. description: |- Corresponds to the `QSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/regions_selector-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/regions_selector-1.1.0 title: Represents a discontinuous transform. description: |- Maps regions to transgorms and evaluates the transforms with the corresponding inputs. - tag_uri: tag:stsci.edu:asdf/transform/remap_axes-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/remap_axes-1.1.0 title: Reorder, add and drop axes. description: |- This transform allows the order of the input axes to be shuffled and returned as the output axes. It is a list made up of integers or "constant markers". Each item in the list corresponds to an output axis. For each item: - If an integer, it is the index of the input axis to send to the output axis. - If a constant, it must be a single item which is a constant value to send to the output axis. If only a list is provided, the number of input axes is automatically determined from the maximum index in the list. If an object with `mapping` and `n_inputs` properties is provided, the number of input axes is explicitly set by the `n_inputs` value. Invertibility: TBD - tag_uri: tag:stsci.edu:asdf/transform/rotate2d-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/rotate2d-1.1.0 title: A 2D rotation. description: |- A 2D rotation around the origin, in degrees. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/rotate3d-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/rotate3d-1.1.0 title: Rotation in 3D space. description: |- Euler angle rotation around 3 axes. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/sanson_flamsteed-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/sanson_flamsteed-1.1.0 title: The Sanson-Flamsteed projection. description: |- Corresponds to the `SFL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\cos y} \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \cos \theta \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/scale-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/scale-1.1.0 title: A Scale model. description: |- Multiply the input by a factor. - tag_uri: tag:stsci.edu:asdf/transform/shift-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/shift-1.1.0 title: A Shift opeartion. description: |- Apply an offset in one direction. - tag_uri: tag:stsci.edu:asdf/transform/slant_orthographic-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/slant_orthographic-1.1.0 title: The slant orthographic projection. description: |- Corresponds to the `SIN` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \cos^{-1}\left(\frac{\pi}{180^{\circ}}R_\theta\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cos \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/slant_zenithal_perspective-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/slant_zenithal_perspective-1.1.0 title: The slant zenithal perspective projection. description: |- Corresponds to the `SZP` projection in the FITS WCS standard. See [zenithal](ref:http://stsci.edu/schemas/asdf/transform/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/stereographic-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/stereographic-1.1.0 title: The stereographic projection. description: |- Corresponds to the `STG` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^{\circ} - 2 \tan^{-1}\left(\frac{\pi R_\theta}{360^{\circ}}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\frac{2 \cos \theta}{1 + \sin \theta}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/subtract-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/subtract-1.1.0 title: Perform a list of subtransforms in parallel and then subtract their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/tabular-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/tabular-1.1.0 title: A Tabular model. description: |- Tabular represents a lookup table with values corresponding to some grid points. It computes the interpolated values corresponding to the given inputs. Three methods of interpolation are supported - "linear", "nearest" and "splinef2d". It supports extrapolation. - tag_uri: tag:stsci.edu:asdf/transform/tangential_spherical_cube-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/tangential_spherical_cube-1.1.0 title: Tangential spherical cube projection. description: |- Corresponds to the `TSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_equal_area-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_equal_area-1.1.0 title: The zenithal equal area projection. description: |- Corresponds to the `ZEA` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - 2 \sin^{-1} \left(\frac{\pi R_\theta}{360^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta &= \frac{180^\circ}{\pi} \sqrt{2(1 - \sin\theta)} \\ &= \frac{360^\circ}{\pi} \sin\left(\frac{90^\circ - \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_equidistant-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_equidistant-1.1.0 title: The zenithal equidistant projection. description: |- Corresponds to the `ARC` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - R_\theta$$ And the sky-to-pixel transformation is defined as: $$R_\theta = 90^\circ - \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_perspective-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_perspective-1.1.0 title: The zenithal perspective projection. description: |- Corresponds to the `AZP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \arg(-y \cos \gamma, x) \\ \theta &= \left\{\genfrac{}{}{0pt}{}{\psi - \omega}{\psi + \omega + 180^{\circ}}\right.$$ where: $$\psi &= \arg(\rho, 1) \\ \omega &= \sin^{-1}\left(\frac{\rho \mu}{\sqrt{\rho^2 + 1}}\right) \\ \rho &= \frac{R}{\frac{180^{\circ}}{\pi}(\mu + 1) + y \sin \gamma} \\ R &= \sqrt{x^2 + y^2 \cos^2 \gamma}$$ And the sky-to-pixel transformation is defined as: $$x &= R \sin \phi \\ y &= -R \sec \gamma \cos \theta$$ where: $$R = \frac{180^{\circ}}{\pi} \frac{(\mu + 1) \cos \theta}{(\mu + \sin \theta) + \cos \theta \cos \phi \tan \gamma}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/asdf-format.org/manifests/transform-1.2.0.yaml0000644000175100001770000006426314514267315030205 0ustar00runnerdockerid: asdf://asdf-format.org/transform/manifests/transform-1.2.0 extension_uri: asdf://asdf-format.org/transform/extensions/transform-1.2.0 title: Transform extension 1.2.0 description: |- A set of tags for serializing data transforms. tags: - tag_uri: tag:stsci.edu:asdf/transform/add-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/add-1.1.0 title: Perform a list of subtransforms in parallel and then add their results together. description: |- Each of the subtransforms must have the same number of inputs and outputs. - tag_uri: tag:stsci.edu:asdf/transform/affine-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/affine-1.2.0 title: An affine transform. description: |- Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/airy-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/airy-1.2.0 title: The Airy projection. description: |- Corresponds to the `AIR` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. - tag_uri: tag:stsci.edu:asdf/transform/bonne_equal_area-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/bonne_equal_area-1.2.0 title: Bonne's equal area pseudoconic projection. description: |- Corresponds to the `BON` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi}{180^\circ} A_\phi R_\theta / \cos \theta \\ \theta &= Y_0 - R_\theta$$ where: $$R_\theta &= \mathrm{sign} \theta_1 \sqrt{x^2 + (Y_0 - y)^2} \\ A_\phi &= \arg\left(\frac{Y_0 - y}{R_\theta}, \frac{x}{R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= R_\theta \sin A_\phi \\ y &= -R_\theta \cos A_\phi + Y_0$$ where: $$A_\phi &= \frac{180^\circ}{\pi R_\theta} \phi \cos \theta \\ R_\theta &= Y_0 - \theta \\ Y_0 &= \frac{180^\circ}{\pi} \cot \theta_1 + \theta_1$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/cobe_quad_spherical_cube-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cobe_quad_spherical_cube-1.1.0 title: COBE quadrilateralized spherical cube projection. description: |- Corresponds to the `CSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/compose-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/compose-1.1.0 title: Perform a list of subtransforms in series. description: |- The output of each subtransform is fed into the input of the next subtransform. The number of output dimensions of each subtransform must be equal to the number of input dimensions of the next subtransform in list. To reorder or add/drop axes, insert `remap_axes` transforms in the subtransform list. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, by reversing the list of transforms and applying the inverse of each. - tag_uri: tag:stsci.edu:asdf/transform/concatenate-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/concatenate-1.1.0 title: Send axes to different subtransforms. description: |- Transforms a set of separable inputs by splitting the axes apart, sending them through the given subtransforms in parallel, and finally concatenating the subtransform output axes back together. The input axes are assigned to each subtransform in order. If the number of input axes is unequal to the sum of the number of input axes of all of the subtransforms, that is considered an error case. The output axes from each subtransform are appended together to make up the resulting output axes. For example, given 5 input axes, and 3 subtransforms with the following orders: 1. transform A: 2 in -> 2 out 1. transform B: 1 in -> 2 out 1. transform C: 2 in -> 1 out The transform is performed as follows: ``` : i0 i1 i2 i3 i4 : | | | | | : +---------+ +---------+ +----------+ : | A | | B | | C | : +---------+ +---------+ +----------+ : | | | | | : o0 o1 o2 o3 o4 ``` If reordering of the input or output axes is required, use in series with the `remap_axes` transform. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_equal_area-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_equal_area-1.2.0 title: Alber's conic equal area projection. description: |- Corresponds to the `COE` projection in the FITS WCS standard. See [conic](ref:transform/conic-1.2.0) for the definition of the full transformation. The transformation is defined as: $$C &= \gamma / 2 \\ R_\theta &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin \theta} \\ Y_0 &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin((\theta_1 + \theta_2)/2)}$$ where: $$\gamma = \sin \theta_1 + \sin \theta_2$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_equidistant-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_equidistant-1.2.0 title: Conic equidistant projection. description: |- Corresponds to the `COD` projection in the FITS WCS standard. See [conic](ref:transform/conic-1.2.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{180^\circ}{\pi} \frac{\sin\theta_a\sin\eta}{\eta} \\ R_\theta &= \theta_a - \theta + \eta\cot\eta\cot\theta_a \\ Y_0 = \eta\cot\eta\cot\theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_orthomorphic-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_orthomorphic-1.2.0 title: Conic orthomorphic projection. description: |- Corresponds to the `COO` projection in the FITS WCS standard. See [conic](ref:transform/conic-1.2.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{\ln \left( \frac{\cos\theta_2}{\cos\theta_1} \right)} {\ln \left[ \frac{\tan\left(\frac{90^\circ-\theta_2}{2}\right)} {\tan\left(\frac{90^\circ-\theta_1}{2}\right)} \right] } \\ R_\theta &= \psi \left[ \tan \left( \frac{90^\circ - \theta}{2} \right) \right]^C \\ Y_0 &= \psi \left[ \tan \left( \frac{90^\circ - \theta_a}{2} \right) \right]^C$$ where: $$\psi = \frac{180^\circ}{\pi} \frac{\cos \theta} {C\left[\tan\left(\frac{90^\circ-\theta}{2}\right)\right]^C}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_perspective-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_perspective-1.2.0 title: Colles' conic perspecitve projection. description: |- Corresponds to the `COP` projection in the FITS WCS standard. See [conic](ref:transform/conic-1.2.0) for the definition of the full transformation. The transformation is defined as: $$C &= \sin \theta_a \\ R_\theta &= \frac{180^\circ}{\pi} \cos \eta [ \cot \theta_a - \tan(\theta - \theta_a)] \\ Y_0 &= \frac{180^\circ}{\pi} \cos \eta \cot \theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/constant-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/constant-1.2.0 title: A transform that takes no inputs and always outputs a constant value. description: |- Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, which always outputs zero values. - tag_uri: tag:stsci.edu:asdf/transform/cylindrical_equal_area-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cylindrical_equal_area-1.2.0 title: The cylindrical equal area projection. description: |- Corresponds to the `CEA` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^{\circ}}\lambda y\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\frac{\sin \theta}{\lambda}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/cylindrical_perspective-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cylindrical_perspective-1.2.0 title: The cylindrical perspective projection. description: |- Corresponds to the `CYP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\lambda} \\ \theta &= \arg(1, \eta) + \sin{-1}\left(\frac{\eta \mu}{\sqrt{\eta^2 + 1}}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \lambda \phi \\ y &= \frac{180^{\circ}}{\pi}\left(\frac{\mu + \lambda}{\mu + \cos \theta}\right)\sin \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/divide-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/divide-1.1.0 title: Perform a list of subtransforms in parallel and then divide their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/gnomonic-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/gnomonic-1.1.0 title: The gnomonic projection. description: |- Corresponds to the `TAN` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/hammer_aitoff-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/hammer_aitoff-1.1.0 title: Hammer-Aitoff projection. description: |- Corresponds to the `AIT` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= 2 \arg \left(2Z^2 - 1, \frac{\pi}{180^\circ} \frac{Z}{2}x\right) \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^\circ}yZ\right)$$ And the sky-to-pixel transformation is defined as: $$x &= 2 \gamma \cos \theta \sin \frac{\phi}{2} \\ y &= \gamma \sin \theta$$ where: $$\gamma = \frac{180^\circ}{\pi} \sqrt{\frac{2}{1 + \cos \theta \cos(\phi / 2)}}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/healpix-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/healpix-1.1.0 title: HEALPix projection. description: |- Corresponds to the `HPX` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/healpix_polar-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/healpix_polar-1.1.0 title: HEALPix polar, aka "butterfly", projection. description: |- Corresponds to the `XPH` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/identity-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/identity-1.1.0 title: The identity transform. description: |- Invertibility: The inverse of this transform is also the identity transform. - tag_uri: tag:stsci.edu:asdf/transform/label_mapper-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/label_mapper-1.1.0 title: Represents a mapping from a coordinate value to a label. description: |- A label mapper instance maps inputs to a label. It is used together with [regions_selector](ref:transform/regions_selector-1.1.0). The [label_mapper](ref:transform/label_mapper-1.1.0) returns the label corresponding to given inputs. The [regions_selector](ref:transform/regions_selector-1.1.0) returns the transform corresponding to this label. This maps inputs (e.g. pixels on a detector) to transforms uniquely. - tag_uri: tag:stsci.edu:asdf/transform/mercator-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/mercator-1.1.0 title: The Mercator projection. description: |- Corresponds to the `MER` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= 2 \tan^{-1}\left(e^{y \pi / 180^{\circ}}\right)-90^{\circ}$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\ln \tan \left(\frac{90^{\circ} + \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/molleweide-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/molleweide-1.1.0 title: Molleweide's projection. description: |- Corresponds to the `MOL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi x}{2 \sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}} \\ \theta &= \sin^{-1}\left(\frac{1}{90^\circ}\sin^{-1}\left(\frac{\pi}{180^\circ}\frac{y}{\sqrt{2}}\right) + \frac{y}{180^\circ}\sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \frac{2 \sqrt{2}}{\pi} \phi \cos \gamma \\ y &= \sqrt{2} \frac{180^\circ}{\pi} \sin \gamma$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/multiply-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/multiply-1.1.0 title: Perform a list of subtransforms in parallel and then multiply their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/parabolic-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/parabolic-1.1.0 title: Parabolic projection. description: |- Corresponds to the `PAR` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{180^\circ}{\pi} \frac{x}{1 - 4(y / 180^\circ)^2} \\ \theta &= 3 \sin^{-1}\left(\frac{y}{180^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \left(2\cos\frac{2\theta}{3} - 1\right) \\ y &= 180^\circ \sin \frac{\theta}{3}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/plate_carree-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/plate_carree-1.1.0 title: "The plate carr\xE9e projection." description: |- Corresponds to the `CAR` projection in the FITS WCS standard. The main virtue of this transformation is its simplicity. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/polyconic-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/polyconic-1.1.0 title: Polyconic projection. description: |- Corresponds to the `PCO` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/polynomial-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/polynomial-1.2.0 title: A Polynomial model. description: |- A polynomial model represented by its coefficients stored in an ndarray of shape $(n+1)$ for univariate polynomials or $(n+1, n+1)$ for polynomials with 2 variables, where $n$ is the highest total degree of the polynomial. $$P = \sum_{i, j=0}^{i+j=n}c_{ij} * x^{i} * y^{j}$$ Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/power-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/power-1.1.0 title: Perform a list of subtransforms in parallel and then raise each result to the power of the next. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/quad_spherical_cube-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/quad_spherical_cube-1.1.0 title: Quadrilateralized spherical cube projection. description: |- Corresponds to the `QSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/regions_selector-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/regions_selector-1.1.0 title: Represents a discontinuous transform. description: |- Maps regions to transgorms and evaluates the transforms with the corresponding inputs. - tag_uri: tag:stsci.edu:asdf/transform/remap_axes-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/remap_axes-1.1.0 title: Reorder, add and drop axes. description: |- This transform allows the order of the input axes to be shuffled and returned as the output axes. It is a list made up of integers or "constant markers". Each item in the list corresponds to an output axis. For each item: - If an integer, it is the index of the input axis to send to the output axis. - If a constant, it must be a single item which is a constant value to send to the output axis. If only a list is provided, the number of input axes is automatically determined from the maximum index in the list. If an object with `mapping` and `n_inputs` properties is provided, the number of input axes is explicitly set by the `n_inputs` value. Invertibility: TBD - tag_uri: tag:stsci.edu:asdf/transform/rotate2d-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/rotate2d-1.2.0 title: A 2D rotation. description: |- A 2D rotation around the origin, in degrees. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/rotate3d-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/rotate3d-1.2.0 title: Rotation in 3D space. description: |- Euler angle rotation around 3 axes. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/sanson_flamsteed-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/sanson_flamsteed-1.1.0 title: The Sanson-Flamsteed projection. description: |- Corresponds to the `SFL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\cos y} \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \cos \theta \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/scale-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/scale-1.2.0 title: A Scale model. description: |- Scale the input by a dimensionless factor. - tag_uri: tag:stsci.edu:asdf/transform/shift-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/shift-1.2.0 title: A Shift opeartion. description: |- Apply an offset in one direction. - tag_uri: tag:stsci.edu:asdf/transform/slant_orthographic-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/slant_orthographic-1.1.0 title: The slant orthographic projection. description: |- Corresponds to the `SIN` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \cos^{-1}\left(\frac{\pi}{180^{\circ}}R_\theta\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cos \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/slant_zenithal_perspective-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/slant_zenithal_perspective-1.2.0 title: The slant zenithal perspective projection. description: |- Corresponds to the `SZP` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/stereographic-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/stereographic-1.1.0 title: The stereographic projection. description: |- Corresponds to the `STG` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^{\circ} - 2 \tan^{-1}\left(\frac{\pi R_\theta}{360^{\circ}}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\frac{2 \cos \theta}{1 + \sin \theta}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/subtract-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/subtract-1.1.0 title: Perform a list of subtransforms in parallel and then subtract their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/tabular-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/tabular-1.2.0 title: A Tabular model. description: |- Tabular represents a lookup table with values corresponding to some grid points. It computes the interpolated values corresponding to the given inputs. Three methods of interpolation are supported - "linear", "nearest" and "splinef2d". It supports extrapolation. - tag_uri: tag:stsci.edu:asdf/transform/tangential_spherical_cube-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/tangential_spherical_cube-1.1.0 title: Tangential spherical cube projection. description: |- Corresponds to the `TSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_equal_area-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_equal_area-1.1.0 title: The zenithal equal area projection. description: |- Corresponds to the `ZEA` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - 2 \sin^{-1} \left(\frac{\pi R_\theta}{360^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta &= \frac{180^\circ}{\pi} \sqrt{2(1 - \sin\theta)} \\ &= \frac{360^\circ}{\pi} \sin\left(\frac{90^\circ - \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_equidistant-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_equidistant-1.1.0 title: The zenithal equidistant projection. description: |- Corresponds to the `ARC` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - R_\theta$$ And the sky-to-pixel transformation is defined as: $$R_\theta = 90^\circ - \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_perspective-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_perspective-1.2.0 title: The zenithal perspective projection. description: |- Corresponds to the `AZP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \arg(-y \cos \gamma, x) \\ \theta &= \left\{\genfrac{}{}{0pt}{}{\psi - \omega}{\psi + \omega + 180^{\circ}}\right.$$ where: $$\psi &= \arg(\rho, 1) \\ \omega &= \sin^{-1}\left(\frac{\rho \mu}{\sqrt{\rho^2 + 1}}\right) \\ \rho &= \frac{R}{\frac{180^{\circ}}{\pi}(\mu + 1) + y \sin \gamma} \\ R &= \sqrt{x^2 + y^2 \cos^2 \gamma}$$ And the sky-to-pixel transformation is defined as: $$x &= R \sin \phi \\ y &= -R \sec \gamma \cos \theta$$ where: $$R = \frac{180^{\circ}}{\pi} \frac{(\mu + 1) \cos \theta}{(\mu + \sin \theta) + \cos \theta \cos \phi \tan \gamma}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/asdf-format.org/manifests/transform-1.3.0.yaml0000644000175100001770000006426314514267315030206 0ustar00runnerdockerid: asdf://asdf-format.org/transform/manifests/transform-1.3.0 extension_uri: asdf://asdf-format.org/transform/extensions/transform-1.3.0 title: Transform extension 1.3.0 description: |- A set of tags for serializing data transforms. tags: - tag_uri: tag:stsci.edu:asdf/transform/add-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/add-1.1.0 title: Perform a list of subtransforms in parallel and then add their results together. description: |- Each of the subtransforms must have the same number of inputs and outputs. - tag_uri: tag:stsci.edu:asdf/transform/affine-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/affine-1.2.0 title: An affine transform. description: |- Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/airy-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/airy-1.2.0 title: The Airy projection. description: |- Corresponds to the `AIR` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. - tag_uri: tag:stsci.edu:asdf/transform/bonne_equal_area-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/bonne_equal_area-1.2.0 title: Bonne's equal area pseudoconic projection. description: |- Corresponds to the `BON` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi}{180^\circ} A_\phi R_\theta / \cos \theta \\ \theta &= Y_0 - R_\theta$$ where: $$R_\theta &= \mathrm{sign} \theta_1 \sqrt{x^2 + (Y_0 - y)^2} \\ A_\phi &= \arg\left(\frac{Y_0 - y}{R_\theta}, \frac{x}{R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= R_\theta \sin A_\phi \\ y &= -R_\theta \cos A_\phi + Y_0$$ where: $$A_\phi &= \frac{180^\circ}{\pi R_\theta} \phi \cos \theta \\ R_\theta &= Y_0 - \theta \\ Y_0 &= \frac{180^\circ}{\pi} \cot \theta_1 + \theta_1$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/cobe_quad_spherical_cube-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cobe_quad_spherical_cube-1.1.0 title: COBE quadrilateralized spherical cube projection. description: |- Corresponds to the `CSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/compose-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/compose-1.1.0 title: Perform a list of subtransforms in series. description: |- The output of each subtransform is fed into the input of the next subtransform. The number of output dimensions of each subtransform must be equal to the number of input dimensions of the next subtransform in list. To reorder or add/drop axes, insert `remap_axes` transforms in the subtransform list. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, by reversing the list of transforms and applying the inverse of each. - tag_uri: tag:stsci.edu:asdf/transform/concatenate-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/concatenate-1.1.0 title: Send axes to different subtransforms. description: |- Transforms a set of separable inputs by splitting the axes apart, sending them through the given subtransforms in parallel, and finally concatenating the subtransform output axes back together. The input axes are assigned to each subtransform in order. If the number of input axes is unequal to the sum of the number of input axes of all of the subtransforms, that is considered an error case. The output axes from each subtransform are appended together to make up the resulting output axes. For example, given 5 input axes, and 3 subtransforms with the following orders: 1. transform A: 2 in -> 2 out 1. transform B: 1 in -> 2 out 1. transform C: 2 in -> 1 out The transform is performed as follows: ``` : i0 i1 i2 i3 i4 : | | | | | : +---------+ +---------+ +----------+ : | A | | B | | C | : +---------+ +---------+ +----------+ : | | | | | : o0 o1 o2 o3 o4 ``` If reordering of the input or output axes is required, use in series with the `remap_axes` transform. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_equal_area-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_equal_area-1.2.0 title: Alber's conic equal area projection. description: |- Corresponds to the `COE` projection in the FITS WCS standard. See [conic](ref:transform/conic-1.2.0) for the definition of the full transformation. The transformation is defined as: $$C &= \gamma / 2 \\ R_\theta &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin \theta} \\ Y_0 &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin((\theta_1 + \theta_2)/2)}$$ where: $$\gamma = \sin \theta_1 + \sin \theta_2$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_equidistant-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_equidistant-1.2.0 title: Conic equidistant projection. description: |- Corresponds to the `COD` projection in the FITS WCS standard. See [conic](ref:transform/conic-1.2.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{180^\circ}{\pi} \frac{\sin\theta_a\sin\eta}{\eta} \\ R_\theta &= \theta_a - \theta + \eta\cot\eta\cot\theta_a \\ Y_0 = \eta\cot\eta\cot\theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_orthomorphic-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_orthomorphic-1.2.0 title: Conic orthomorphic projection. description: |- Corresponds to the `COO` projection in the FITS WCS standard. See [conic](ref:transform/conic-1.2.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{\ln \left( \frac{\cos\theta_2}{\cos\theta_1} \right)} {\ln \left[ \frac{\tan\left(\frac{90^\circ-\theta_2}{2}\right)} {\tan\left(\frac{90^\circ-\theta_1}{2}\right)} \right] } \\ R_\theta &= \psi \left[ \tan \left( \frac{90^\circ - \theta}{2} \right) \right]^C \\ Y_0 &= \psi \left[ \tan \left( \frac{90^\circ - \theta_a}{2} \right) \right]^C$$ where: $$\psi = \frac{180^\circ}{\pi} \frac{\cos \theta} {C\left[\tan\left(\frac{90^\circ-\theta}{2}\right)\right]^C}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_perspective-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_perspective-1.2.0 title: Colles' conic perspecitve projection. description: |- Corresponds to the `COP` projection in the FITS WCS standard. See [conic](ref:transform/conic-1.2.0) for the definition of the full transformation. The transformation is defined as: $$C &= \sin \theta_a \\ R_\theta &= \frac{180^\circ}{\pi} \cos \eta [ \cot \theta_a - \tan(\theta - \theta_a)] \\ Y_0 &= \frac{180^\circ}{\pi} \cos \eta \cot \theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/constant-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/constant-1.2.0 title: A transform that takes no inputs and always outputs a constant value. description: |- Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, which always outputs zero values. - tag_uri: tag:stsci.edu:asdf/transform/cylindrical_equal_area-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cylindrical_equal_area-1.2.0 title: The cylindrical equal area projection. description: |- Corresponds to the `CEA` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^{\circ}}\lambda y\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\frac{\sin \theta}{\lambda}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/cylindrical_perspective-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cylindrical_perspective-1.2.0 title: The cylindrical perspective projection. description: |- Corresponds to the `CYP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\lambda} \\ \theta &= \arg(1, \eta) + \sin{-1}\left(\frac{\eta \mu}{\sqrt{\eta^2 + 1}}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \lambda \phi \\ y &= \frac{180^{\circ}}{\pi}\left(\frac{\mu + \lambda}{\mu + \cos \theta}\right)\sin \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/divide-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/divide-1.1.0 title: Perform a list of subtransforms in parallel and then divide their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/gnomonic-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/gnomonic-1.1.0 title: The gnomonic projection. description: |- Corresponds to the `TAN` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/hammer_aitoff-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/hammer_aitoff-1.1.0 title: Hammer-Aitoff projection. description: |- Corresponds to the `AIT` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= 2 \arg \left(2Z^2 - 1, \frac{\pi}{180^\circ} \frac{Z}{2}x\right) \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^\circ}yZ\right)$$ And the sky-to-pixel transformation is defined as: $$x &= 2 \gamma \cos \theta \sin \frac{\phi}{2} \\ y &= \gamma \sin \theta$$ where: $$\gamma = \frac{180^\circ}{\pi} \sqrt{\frac{2}{1 + \cos \theta \cos(\phi / 2)}}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/healpix-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/healpix-1.1.0 title: HEALPix projection. description: |- Corresponds to the `HPX` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/healpix_polar-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/healpix_polar-1.1.0 title: HEALPix polar, aka "butterfly", projection. description: |- Corresponds to the `XPH` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/identity-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/identity-1.1.0 title: The identity transform. description: |- Invertibility: The inverse of this transform is also the identity transform. - tag_uri: tag:stsci.edu:asdf/transform/label_mapper-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/label_mapper-1.1.0 title: Represents a mapping from a coordinate value to a label. description: |- A label mapper instance maps inputs to a label. It is used together with [regions_selector](ref:transform/regions_selector-1.1.0). The [label_mapper](ref:transform/label_mapper-1.1.0) returns the label corresponding to given inputs. The [regions_selector](ref:transform/regions_selector-1.1.0) returns the transform corresponding to this label. This maps inputs (e.g. pixels on a detector) to transforms uniquely. - tag_uri: tag:stsci.edu:asdf/transform/mercator-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/mercator-1.1.0 title: The Mercator projection. description: |- Corresponds to the `MER` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= 2 \tan^{-1}\left(e^{y \pi / 180^{\circ}}\right)-90^{\circ}$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\ln \tan \left(\frac{90^{\circ} + \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/molleweide-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/molleweide-1.1.0 title: Molleweide's projection. description: |- Corresponds to the `MOL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi x}{2 \sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}} \\ \theta &= \sin^{-1}\left(\frac{1}{90^\circ}\sin^{-1}\left(\frac{\pi}{180^\circ}\frac{y}{\sqrt{2}}\right) + \frac{y}{180^\circ}\sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \frac{2 \sqrt{2}}{\pi} \phi \cos \gamma \\ y &= \sqrt{2} \frac{180^\circ}{\pi} \sin \gamma$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/multiply-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/multiply-1.1.0 title: Perform a list of subtransforms in parallel and then multiply their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/parabolic-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/parabolic-1.1.0 title: Parabolic projection. description: |- Corresponds to the `PAR` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{180^\circ}{\pi} \frac{x}{1 - 4(y / 180^\circ)^2} \\ \theta &= 3 \sin^{-1}\left(\frac{y}{180^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \left(2\cos\frac{2\theta}{3} - 1\right) \\ y &= 180^\circ \sin \frac{\theta}{3}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/plate_carree-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/plate_carree-1.1.0 title: "The plate carr\xE9e projection." description: |- Corresponds to the `CAR` projection in the FITS WCS standard. The main virtue of this transformation is its simplicity. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/polyconic-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/polyconic-1.1.0 title: Polyconic projection. description: |- Corresponds to the `PCO` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/polynomial-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/polynomial-1.2.0 title: A Polynomial model. description: |- A polynomial model represented by its coefficients stored in an ndarray of shape $(n+1)$ for univariate polynomials or $(n+1, n+1)$ for polynomials with 2 variables, where $n$ is the highest total degree of the polynomial. $$P = \sum_{i, j=0}^{i+j=n}c_{ij} * x^{i} * y^{j}$$ Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/power-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/power-1.1.0 title: Perform a list of subtransforms in parallel and then raise each result to the power of the next. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/quad_spherical_cube-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/quad_spherical_cube-1.1.0 title: Quadrilateralized spherical cube projection. description: |- Corresponds to the `QSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/regions_selector-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/regions_selector-1.1.0 title: Represents a discontinuous transform. description: |- Maps regions to transgorms and evaluates the transforms with the corresponding inputs. - tag_uri: tag:stsci.edu:asdf/transform/remap_axes-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/remap_axes-1.1.0 title: Reorder, add and drop axes. description: |- This transform allows the order of the input axes to be shuffled and returned as the output axes. It is a list made up of integers or "constant markers". Each item in the list corresponds to an output axis. For each item: - If an integer, it is the index of the input axis to send to the output axis. - If a constant, it must be a single item which is a constant value to send to the output axis. If only a list is provided, the number of input axes is automatically determined from the maximum index in the list. If an object with `mapping` and `n_inputs` properties is provided, the number of input axes is explicitly set by the `n_inputs` value. Invertibility: TBD - tag_uri: tag:stsci.edu:asdf/transform/rotate2d-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/rotate2d-1.2.0 title: A 2D rotation. description: |- A 2D rotation around the origin, in degrees. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/rotate3d-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/rotate3d-1.2.0 title: Rotation in 3D space. description: |- Euler angle rotation around 3 axes. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/sanson_flamsteed-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/sanson_flamsteed-1.1.0 title: The Sanson-Flamsteed projection. description: |- Corresponds to the `SFL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\cos y} \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \cos \theta \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/scale-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/scale-1.2.0 title: A Scale model. description: |- Scale the input by a dimensionless factor. - tag_uri: tag:stsci.edu:asdf/transform/shift-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/shift-1.2.0 title: A Shift opeartion. description: |- Apply an offset in one direction. - tag_uri: tag:stsci.edu:asdf/transform/slant_orthographic-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/slant_orthographic-1.1.0 title: The slant orthographic projection. description: |- Corresponds to the `SIN` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \cos^{-1}\left(\frac{\pi}{180^{\circ}}R_\theta\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cos \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/slant_zenithal_perspective-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/slant_zenithal_perspective-1.2.0 title: The slant zenithal perspective projection. description: |- Corresponds to the `SZP` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/stereographic-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/stereographic-1.1.0 title: The stereographic projection. description: |- Corresponds to the `STG` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^{\circ} - 2 \tan^{-1}\left(\frac{\pi R_\theta}{360^{\circ}}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\frac{2 \cos \theta}{1 + \sin \theta}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/subtract-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/subtract-1.1.0 title: Perform a list of subtransforms in parallel and then subtract their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/tabular-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/tabular-1.2.0 title: A Tabular model. description: |- Tabular represents a lookup table with values corresponding to some grid points. It computes the interpolated values corresponding to the given inputs. Three methods of interpolation are supported - "linear", "nearest" and "splinef2d". It supports extrapolation. - tag_uri: tag:stsci.edu:asdf/transform/tangential_spherical_cube-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/tangential_spherical_cube-1.1.0 title: Tangential spherical cube projection. description: |- Corresponds to the `TSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_equal_area-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_equal_area-1.1.0 title: The zenithal equal area projection. description: |- Corresponds to the `ZEA` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - 2 \sin^{-1} \left(\frac{\pi R_\theta}{360^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta &= \frac{180^\circ}{\pi} \sqrt{2(1 - \sin\theta)} \\ &= \frac{360^\circ}{\pi} \sin\left(\frac{90^\circ - \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_equidistant-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_equidistant-1.1.0 title: The zenithal equidistant projection. description: |- Corresponds to the `ARC` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - R_\theta$$ And the sky-to-pixel transformation is defined as: $$R_\theta = 90^\circ - \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_perspective-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_perspective-1.2.0 title: The zenithal perspective projection. description: |- Corresponds to the `AZP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \arg(-y \cos \gamma, x) \\ \theta &= \left\{\genfrac{}{}{0pt}{}{\psi - \omega}{\psi + \omega + 180^{\circ}}\right.$$ where: $$\psi &= \arg(\rho, 1) \\ \omega &= \sin^{-1}\left(\frac{\rho \mu}{\sqrt{\rho^2 + 1}}\right) \\ \rho &= \frac{R}{\frac{180^{\circ}}{\pi}(\mu + 1) + y \sin \gamma} \\ R &= \sqrt{x^2 + y^2 \cos^2 \gamma}$$ And the sky-to-pixel transformation is defined as: $$x &= R \sin \phi \\ y &= -R \sec \gamma \cos \theta$$ where: $$R = \frac{180^{\circ}}{\pi} \frac{(\mu + 1) \cos \theta}{(\mu + \sin \theta) + \cos \theta \cos \phi \tan \gamma}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/asdf-format.org/manifests/transform-1.4.0.yaml0000644000175100001770000007353414514267315030210 0ustar00runnerdockerid: asdf://asdf-format.org/transform/manifests/transform-1.4.0 extension_uri: asdf://asdf-format.org/transform/extensions/transform-1.4.0 title: Transform extension 1.4.0 description: |- A set of tags for serializing data transforms. tags: - tag_uri: tag:stsci.edu:asdf/transform/add-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/add-1.2.0 title: Perform a list of subtransforms in parallel and then add their results together. description: |- Each of the subtransforms must have the same number of inputs and outputs. - tag_uri: tag:stsci.edu:asdf/transform/affine-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/affine-1.3.0 title: An affine transform. description: |- Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/airy-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/airy-1.2.0 title: The Airy projection. description: |- Corresponds to the `AIR` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. - tag_uri: tag:stsci.edu:asdf/transform/bonne_equal_area-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/bonne_equal_area-1.3.0 title: Bonne's equal area pseudoconic projection. description: |- Corresponds to the `BON` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi}{180^\circ} A_\phi R_\theta / \cos \theta \\ \theta &= Y_0 - R_\theta$$ where: $$R_\theta &= \mathrm{sign} \theta_1 \sqrt{x^2 + (Y_0 - y)^2} \\ A_\phi &= \arg\left(\frac{Y_0 - y}{R_\theta}, \frac{x}{R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= R_\theta \sin A_\phi \\ y &= -R_\theta \cos A_\phi + Y_0$$ where: $$A_\phi &= \frac{180^\circ}{\pi R_\theta} \phi \cos \theta \\ R_\theta &= Y_0 - \theta \\ Y_0 &= \frac{180^\circ}{\pi} \cot \theta_1 + \theta_1$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/cobe_quad_spherical_cube-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cobe_quad_spherical_cube-1.2.0 title: COBE quadrilateralized spherical cube projection. description: |- Corresponds to the `CSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/compose-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/compose-1.2.0 title: Perform a list of subtransforms in series. description: |- The output of each subtransform is fed into the input of the next subtransform. The number of output dimensions of each subtransform must be equal to the number of input dimensions of the next subtransform in list. To reorder or add/drop axes, insert `remap_axes` transforms in the subtransform list. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, by reversing the list of transforms and applying the inverse of each. - tag_uri: tag:stsci.edu:asdf/transform/concatenate-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/concatenate-1.2.0 title: Send axes to different subtransforms. description: |- Transforms a set of separable inputs by splitting the axes apart, sending them through the given subtransforms in parallel, and finally concatenating the subtransform output axes back together. The input axes are assigned to each subtransform in order. If the number of input axes is unequal to the sum of the number of input axes of all of the subtransforms, that is considered an error case. The output axes from each subtransform are appended together to make up the resulting output axes. For example, given 5 input axes, and 3 subtransforms with the following orders: 1. transform A: 2 in -> 2 out 1. transform B: 1 in -> 2 out 1. transform C: 2 in -> 1 out The transform is performed as follows: ``` : i0 i1 i2 i3 i4 : | | | | | : +---------+ +---------+ +----------+ : | A | | B | | C | : +---------+ +---------+ +----------+ : | | | | | : o0 o1 o2 o3 o4 ``` If reordering of the input or output axes is required, use in series with the `remap_axes` transform. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_equal_area-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_equal_area-1.3.0 title: Alber's conic equal area projection. description: |- Corresponds to the `COE` projection in the FITS WCS standard. See [conic](ref:transform/conic-1.3.0) for the definition of the full transformation. The transformation is defined as: $$C &= \gamma / 2 \\ R_\theta &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin \theta} \\ Y_0 &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin((\theta_1 + \theta_2)/2)}$$ where: $$\gamma = \sin \theta_1 + \sin \theta_2$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_equidistant-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_equidistant-1.3.0 title: Conic equidistant projection. description: |- Corresponds to the `COD` projection in the FITS WCS standard. See [conic](ref:transform/conic-1.3.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{180^\circ}{\pi} \frac{\sin\theta_a\sin\eta}{\eta} \\ R_\theta &= \theta_a - \theta + \eta\cot\eta\cot\theta_a \\ Y_0 = \eta\cot\eta\cot\theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_orthomorphic-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_orthomorphic-1.3.0 title: Conic orthomorphic projection. description: |- Corresponds to the `COO` projection in the FITS WCS standard. See [conic](ref:transform/conic-1.3.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{\ln \left( \frac{\cos\theta_2}{\cos\theta_1} \right)} {\ln \left[ \frac{\tan\left(\frac{90^\circ-\theta_2}{2}\right)} {\tan\left(\frac{90^\circ-\theta_1}{2}\right)} \right] } \\ R_\theta &= \psi \left[ \tan \left( \frac{90^\circ - \theta}{2} \right) \right]^C \\ Y_0 &= \psi \left[ \tan \left( \frac{90^\circ - \theta_a}{2} \right) \right]^C$$ where: $$\psi = \frac{180^\circ}{\pi} \frac{\cos \theta} {C\left[\tan\left(\frac{90^\circ-\theta}{2}\right)\right]^C}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_perspective-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_perspective-1.3.0 title: Colles' conic perspecitve projection. description: |- Corresponds to the `COP` projection in the FITS WCS standard. See [conic](ref:transform/conic-1.3.0) for the definition of the full transformation. The transformation is defined as: $$C &= \sin \theta_a \\ R_\theta &= \frac{180^\circ}{\pi} \cos \eta [ \cot \theta_a - \tan(\theta - \theta_a)] \\ Y_0 &= \frac{180^\circ}{\pi} \cos \eta \cot \theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/constant-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/constant-1.3.0 title: A transform that takes no inputs and always outputs a constant value. description: |- Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, which always outputs zero values. - tag_uri: tag:stsci.edu:asdf/transform/cylindrical_equal_area-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cylindrical_equal_area-1.3.0 title: The cylindrical equal area projection. description: |- Corresponds to the `CEA` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^{\circ}}\lambda y\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\frac{\sin \theta}{\lambda}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/cylindrical_perspective-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cylindrical_perspective-1.3.0 title: The cylindrical perspective projection. description: |- Corresponds to the `CYP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\lambda} \\ \theta &= \arg(1, \eta) + \sin{-1}\left(\frac{\eta \mu}{\sqrt{\eta^2 + 1}}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \lambda \phi \\ y &= \frac{180^{\circ}}{\pi}\left(\frac{\mu + \lambda}{\mu + \cos \theta}\right)\sin \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/divide-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/divide-1.2.0 title: Perform a list of subtransforms in parallel and then divide their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/fix_inputs-1.1.0 schema_uri: http://stsci.edu/schemas/asdf/transform/fix_inputs-1.1.0 title: Set to a constant selected input arguments of a model. description: |- This operation takes as the right hand side a dict equivalent that consists of key:value pairs where the key identifies the input argument to be set, either by position number (0 based) or name, and the value is the floating point value that should be assigned to that input. The result is a compound model with n fewer input arguments where n is the number of input values to be set (i.e., the number of keys in the dict). - tag_uri: tag:stsci.edu:asdf/transform/gnomonic-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/gnomonic-1.2.0 title: The gnomonic projection. description: |- Corresponds to the `TAN` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/hammer_aitoff-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/hammer_aitoff-1.2.0 title: Hammer-Aitoff projection. description: |- Corresponds to the `AIT` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= 2 \arg \left(2Z^2 - 1, \frac{\pi}{180^\circ} \frac{Z}{2}x\right) \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^\circ}yZ\right)$$ And the sky-to-pixel transformation is defined as: $$x &= 2 \gamma \cos \theta \sin \frac{\phi}{2} \\ y &= \gamma \sin \theta$$ where: $$\gamma = \frac{180^\circ}{\pi} \sqrt{\frac{2}{1 + \cos \theta \cos(\phi / 2)}}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/healpix-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/healpix-1.2.0 title: HEALPix projection. description: |- Corresponds to the `HPX` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/healpix_polar-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/healpix_polar-1.2.0 title: HEALPix polar, aka "butterfly", projection. description: |- Corresponds to the `XPH` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/identity-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/identity-1.2.0 title: The identity transform. description: |- Invertibility: The inverse of this transform is also the identity transform. - tag_uri: tag:stsci.edu:asdf/transform/label_mapper-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/label_mapper-1.2.0 title: Represents a mapping from a coordinate value to a label. description: |- A label mapper instance maps inputs to a label. It is used together with [regions_selector](ref:transform/regions_selector-1.2.0). The [label_mapper](ref:transform/label_mapper-1.2.0) returns the label corresponding to given inputs. The [regions_selector](ref:transform/regions_selector-1.2.0) returns the transform corresponding to this label. This maps inputs (e.g. pixels on a detector) to transforms uniquely. - tag_uri: tag:stsci.edu:asdf/transform/linear1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/linear1d-1.0.0 title: A one dimensional line model description: |- A one dimensional line model - tag_uri: tag:stsci.edu:asdf/transform/math_functions-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/math_functions-1.0.0 title: Math functions. description: |- Commonly used math funcitons. - tag_uri: tag:stsci.edu:asdf/transform/mercator-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/mercator-1.2.0 title: The Mercator projection. description: |- Corresponds to the `MER` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= 2 \tan^{-1}\left(e^{y \pi / 180^{\circ}}\right)-90^{\circ}$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\ln \tan \left(\frac{90^{\circ} + \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/molleweide-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/molleweide-1.2.0 title: Molleweide's projection. description: |- Corresponds to the `MOL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi x}{2 \sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}} \\ \theta &= \sin^{-1}\left(\frac{1}{90^\circ}\sin^{-1}\left(\frac{\pi}{180^\circ}\frac{y}{\sqrt{2}}\right) + \frac{y}{180^\circ}\sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \frac{2 \sqrt{2}}{\pi} \phi \cos \gamma \\ y &= \sqrt{2} \frac{180^\circ}{\pi} \sin \gamma$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/multiply-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/multiply-1.2.0 title: Perform a list of subtransforms in parallel and then multiply their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/multiplyscale-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/multiplyscale-1.0.0 title: A Multiply model. description: |- Multiply the input by a factor. - tag_uri: tag:stsci.edu:asdf/transform/ortho_polynomial-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/ortho_polynomial-1.0.0 title: Respresents various Orthogonal Polynomial models. description: |- A polynomial model represented by its coefficients stored in an ndarray of shape $(n+1)$ for univariate polynomials or $(n+1, n+1)$ for polynomials with 2 variables, where $n$ is the highest total degree of the polynomial. The property polynomial_type defines what kind of polynomial is defined. $$P = \sum_{i, j=0}^{i+j=n}c_{ij} * x^{i} * y^{j}$$ Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/parabolic-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/parabolic-1.2.0 title: Parabolic projection. description: |- Corresponds to the `PAR` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{180^\circ}{\pi} \frac{x}{1 - 4(y / 180^\circ)^2} \\ \theta &= 3 \sin^{-1}\left(\frac{y}{180^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \left(2\cos\frac{2\theta}{3} - 1\right) \\ y &= 180^\circ \sin \frac{\theta}{3}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/plate_carree-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/plate_carree-1.2.0 title: "The plate carr\xE9e projection." description: |- Corresponds to the `CAR` projection in the FITS WCS standard. The main virtue of this transformation is its simplicity. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/polyconic-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/polyconic-1.2.0 title: Polyconic projection. description: |- Corresponds to the `PCO` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/polynomial-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/polynomial-1.2.0 title: A Polynomial model. description: |- A polynomial model represented by its coefficients stored in an ndarray of shape $(n+1)$ for univariate polynomials or $(n+1, n+1)$ for polynomials with 2 variables, where $n$ is the highest total degree of the polynomial. $$P = \sum_{i, j=0}^{i+j=n}c_{ij} * x^{i} * y^{j}$$ Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/power-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/power-1.2.0 title: Perform a list of subtransforms in parallel and then raise each result to the power of the next. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/quad_spherical_cube-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/quad_spherical_cube-1.2.0 title: Quadrilateralized spherical cube projection. description: |- Corresponds to the `QSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/regions_selector-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/regions_selector-1.2.0 title: Represents a discontinuous transform. description: |- Maps regions to transgorms and evaluates the transforms with the corresponding inputs. - tag_uri: tag:stsci.edu:asdf/transform/remap_axes-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/remap_axes-1.2.0 title: Reorder, add and drop axes. description: |- This transform allows the order of the input axes to be shuffled and returned as the output axes. It is a list made up of integers or "constant markers". Each item in the list corresponds to an output axis. For each item: - If an integer, it is the index of the input axis to send to the output axis. - If a constant, it must be a single item which is a constant value to send to the output axis. If only a list is provided, the number of input axes is automatically determined from the maximum index in the list. If an object with `mapping` and `n_inputs` properties is provided, the number of input axes is explicitly set by the `n_inputs` value. Invertibility: TBD - tag_uri: tag:stsci.edu:asdf/transform/rotate2d-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/rotate2d-1.3.0 title: A 2D rotation. description: |- A 2D rotation around the origin, in degrees. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/rotate3d-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/rotate3d-1.3.0 title: Rotation in 3D space. description: |- Euler angle rotation around 3 axes. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/rotate_sequence_3d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/rotate_sequence_3d-1.0.0 title: Rotation in 3D space. description: |- Rotation in 3D space by arbitrary number of angles about arbitrary order of "x", "y", "z" axes. - tag_uri: tag:stsci.edu:asdf/transform/sanson_flamsteed-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/sanson_flamsteed-1.2.0 title: The Sanson-Flamsteed projection. description: |- Corresponds to the `SFL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\cos y} \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \cos \theta \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/scale-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/scale-1.2.0 title: A Scale model. description: |- Scale the input by a dimensionless factor. - tag_uri: tag:stsci.edu:asdf/transform/shift-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/shift-1.2.0 title: A Shift opeartion. description: |- Apply an offset in one direction. - tag_uri: tag:stsci.edu:asdf/transform/slant_orthographic-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/slant_orthographic-1.2.0 title: The slant orthographic projection. description: |- Corresponds to the `SIN` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \cos^{-1}\left(\frac{\pi}{180^{\circ}}R_\theta\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cos \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/slant_zenithal_perspective-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/slant_zenithal_perspective-1.2.0 title: The slant zenithal perspective projection. description: |- Corresponds to the `SZP` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/stereographic-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/stereographic-1.2.0 title: The stereographic projection. description: |- Corresponds to the `STG` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^{\circ} - 2 \tan^{-1}\left(\frac{\pi R_\theta}{360^{\circ}}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\frac{2 \cos \theta}{1 + \sin \theta}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/subtract-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/subtract-1.2.0 title: Perform a list of subtransforms in parallel and then subtract their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/tabular-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/tabular-1.2.0 title: A Tabular model. description: |- Tabular represents a lookup table with values corresponding to some grid points. It computes the interpolated values corresponding to the given inputs. Three methods of interpolation are supported - "linear", "nearest" and "splinef2d". It supports extrapolation. - tag_uri: tag:stsci.edu:asdf/transform/tangential_spherical_cube-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/tangential_spherical_cube-1.2.0 title: Tangential spherical cube projection. description: |- Corresponds to the `TSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_equal_area-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_equal_area-1.2.0 title: The zenithal equal area projection. description: |- Corresponds to the `ZEA` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - 2 \sin^{-1} \left(\frac{\pi R_\theta}{360^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta &= \frac{180^\circ}{\pi} \sqrt{2(1 - \sin\theta)} \\ &= \frac{360^\circ}{\pi} \sin\left(\frac{90^\circ - \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_equidistant-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_equidistant-1.2.0 title: The zenithal equidistant projection. description: |- Corresponds to the `ARC` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - R_\theta$$ And the sky-to-pixel transformation is defined as: $$R_\theta = 90^\circ - \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_perspective-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_perspective-1.3.0 title: The zenithal perspective projection. description: |- Corresponds to the `AZP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \arg(-y \cos \gamma, x) \\ \theta &= \left\{\genfrac{}{}{0pt}{}{\psi - \omega}{\psi + \omega + 180^{\circ}}\right.$$ where: $$\psi &= \arg(\rho, 1) \\ \omega &= \sin^{-1}\left(\frac{\rho \mu}{\sqrt{\rho^2 + 1}}\right) \\ \rho &= \frac{R}{\frac{180^{\circ}}{\pi}(\mu + 1) + y \sin \gamma} \\ R &= \sqrt{x^2 + y^2 \cos^2 \gamma}$$ And the sky-to-pixel transformation is defined as: $$x &= R \sin \phi \\ y &= -R \sec \gamma \cos \theta$$ where: $$R = \frac{180^{\circ}}{\pi} \frac{(\mu + 1) \cos \theta}{(\mu + \sin \theta) + \cos \theta \cos \phi \tan \gamma}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/property/bounding_box-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/property/bounding_box-1.0.0 title: Bounding box for a model. description: |- This object contains the bounding box for a model, which defines the domain of valid inputs to the model. The bounds for each input is are listed as a map under the interval keyword as ordered pairs of lower/upper bounds with key being the input name. If any model inputs are to be ignored by the bounding box then they need to be listed under the ignore keyword. Finally, the tuple representation's input ordering can be listed under the order keyword, C for C-ordering, F for Fortran ordering. - tag_uri: tag:stsci.edu:asdf/transform/property/compound_bounding_box-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/property/compound_bounding_box-1.0.0 title: Compound bounding box for a model. description: |- This object contains a compound bounding box for a model, which defines a set of input-selectable bounding boxes. It consists of a list of selector_args together with a list of input-key bounding box pairs. The selector args are an ordered list of model inputs with an indication of whether or not to ignore the input in the bounding box selected. The key for each bounding box entry corresponds to the values of the selector args (in the order listed) which will select the accompanying bounding box. ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/asdf-format.org/manifests/transform-1.5.0.yaml0000644000175100001770000011405214514267315030200 0ustar00runnerdockerid: asdf://asdf-format.org/transform/manifests/transform-1.5.0 extension_uri: asdf://asdf-format.org/transform/extensions/transform-1.5.0 title: Transform extension 1.5.0 description: |- A set of tags for serializing data transforms. tags: - tag_uri: tag:stsci.edu:asdf/transform/add-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/add-1.2.0 title: Perform a list of subtransforms in parallel and then add their results together. description: |- Each of the subtransforms must have the same number of inputs and outputs. - tag_uri: tag:stsci.edu:asdf/transform/affine-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/affine-1.3.0 title: An affine transform. description: |- Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/airy-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/airy-1.2.0 title: The Airy projection. description: |- Corresponds to the `AIR` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. - tag_uri: tag:stsci.edu:asdf/transform/airy_disk2d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/airy_disk2d-1.0.0 title: Two dimensional Airy disk model. description: |- Two dimensional Airy disk model. - tag_uri: tag:stsci.edu:asdf/transform/blackbody-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/blackbody-1.0.0 title: Blackbody model. description: |- Blackbody model using the Planck function. $$B_{\\nu}(T) = A \frac{2 h \nu^{3} / c^{2}}{exp(h \nu / k T) - 1}$$ - tag_uri: tag:stsci.edu:asdf/transform/bonne_equal_area-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/bonne_equal_area-1.3.0 title: Bonne's equal area pseudoconic projection. description: |- Corresponds to the `BON` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi}{180^\circ} A_\phi R_\theta / \cos \theta \\ \theta &= Y_0 - R_\theta$$ where: $$R_\theta &= \mathrm{sign} \theta_1 \sqrt{x^2 + (Y_0 - y)^2} \\ A_\phi &= \arg\left(\frac{Y_0 - y}{R_\theta}, \frac{x}{R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= R_\theta \sin A_\phi \\ y &= -R_\theta \cos A_\phi + Y_0$$ where: $$A_\phi &= \frac{180^\circ}{\pi R_\theta} \phi \cos \theta \\ R_\theta &= Y_0 - \theta \\ Y_0 &= \frac{180^\circ}{\pi} \cot \theta_1 + \theta_1$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/box1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/box1d-1.0.0 title: One dimensional box model. description: |- One dimensional box. - tag_uri: tag:stsci.edu:asdf/transform/box2d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/box2d-1.0.0 title: Two dimensional box model. description: |- Two dimensional box. - tag_uri: tag:stsci.edu:asdf/transform/broken_power_law1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/broken_power_law1d-1.0.0 title: One dimensional power law model with a break. description: |- One dimensional power law model with a break. - tag_uri: tag:stsci.edu:asdf/transform/cobe_quad_spherical_cube-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cobe_quad_spherical_cube-1.2.0 title: COBE quadrilateralized spherical cube projection. description: |- Corresponds to the `CSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/compose-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/compose-1.2.0 title: Perform a list of subtransforms in series. description: |- The output of each subtransform is fed into the input of the next subtransform. The number of output dimensions of each subtransform must be equal to the number of input dimensions of the next subtransform in list. To reorder or add/drop axes, insert `remap_axes` transforms in the subtransform list. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, by reversing the list of transforms and applying the inverse of each. - tag_uri: tag:stsci.edu:asdf/transform/concatenate-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/concatenate-1.2.0 title: Send axes to different subtransforms. description: |- Transforms a set of separable inputs by splitting the axes apart, sending them through the given subtransforms in parallel, and finally concatenating the subtransform output axes back together. The input axes are assigned to each subtransform in order. If the number of input axes is unequal to the sum of the number of input axes of all of the subtransforms, that is considered an error case. The output axes from each subtransform are appended together to make up the resulting output axes. For example, given 5 input axes, and 3 subtransforms with the following orders: 1. transform A: 2 in -> 2 out 1. transform B: 1 in -> 2 out 1. transform C: 2 in -> 1 out The transform is performed as follows: ``` : i0 i1 i2 i3 i4 : | | | | | : +---------+ +---------+ +----------+ : | A | | B | | C | : +---------+ +---------+ +----------+ : | | | | | : o0 o1 o2 o3 o4 ``` If reordering of the input or output axes is required, use in series with the `remap_axes` transform. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_equal_area-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_equal_area-1.3.0 title: Alber's conic equal area projection. description: |- Corresponds to the `COE` projection in the FITS WCS standard. See [conic](ref:transform/conic-1.3.0) for the definition of the full transformation. The transformation is defined as: $$C &= \gamma / 2 \\ R_\theta &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin \theta} \\ Y_0 &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin((\theta_1 + \theta_2)/2)}$$ where: $$\gamma = \sin \theta_1 + \sin \theta_2$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_equidistant-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_equidistant-1.3.0 title: Conic equidistant projection. description: |- Corresponds to the `COD` projection in the FITS WCS standard. See [conic](ref:transform/conic-1.3.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{180^\circ}{\pi} \frac{\sin\theta_a\sin\eta}{\eta} \\ R_\theta &= \theta_a - \theta + \eta\cot\eta\cot\theta_a \\ Y_0 = \eta\cot\eta\cot\theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_orthomorphic-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_orthomorphic-1.3.0 title: Conic orthomorphic projection. description: |- Corresponds to the `COO` projection in the FITS WCS standard. See [conic](ref:transform/conic-1.3.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{\ln \left( \frac{\cos\theta_2}{\cos\theta_1} \right)} {\ln \left[ \frac{\tan\left(\frac{90^\circ-\theta_2}{2}\right)} {\tan\left(\frac{90^\circ-\theta_1}{2}\right)} \right] } \\ R_\theta &= \psi \left[ \tan \left( \frac{90^\circ - \theta}{2} \right) \right]^C \\ Y_0 &= \psi \left[ \tan \left( \frac{90^\circ - \theta_a}{2} \right) \right]^C$$ where: $$\psi = \frac{180^\circ}{\pi} \frac{\cos \theta} {C\left[\tan\left(\frac{90^\circ-\theta}{2}\right)\right]^C}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/conic_perspective-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/conic_perspective-1.3.0 title: Colles' conic perspecitve projection. description: |- Corresponds to the `COP` projection in the FITS WCS standard. See [conic](ref:transform/conic-1.3.0) for the definition of the full transformation. The transformation is defined as: $$C &= \sin \theta_a \\ R_\theta &= \frac{180^\circ}{\pi} \cos \eta [ \cot \theta_a - \tan(\theta - \theta_a)] \\ Y_0 &= \frac{180^\circ}{\pi} \cos \eta \cot \theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/constant-1.4.0 schema_uri: http://stsci.edu/schemas/asdf/transform/constant-1.4.0 title: A Constant transform. description: |- Invertibility: A transform which takes one or two inputs based on dimensionality and returns a constant value. It has no analytical inverse. - tag_uri: tag:stsci.edu:asdf/transform/cylindrical_equal_area-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cylindrical_equal_area-1.3.0 title: The cylindrical equal area projection. description: |- Corresponds to the `CEA` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^{\circ}}\lambda y\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\frac{\sin \theta}{\lambda}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/cylindrical_perspective-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cylindrical_perspective-1.3.0 title: The cylindrical perspective projection. description: |- Corresponds to the `CYP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\lambda} \\ \theta &= \arg(1, \eta) + \sin{-1}\left(\frac{\eta \mu}{\sqrt{\eta^2 + 1}}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \lambda \phi \\ y &= \frac{180^{\circ}}{\pi}\left(\frac{\mu + \lambda}{\mu + \cos \theta}\right)\sin \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/disk2d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/disk2d-1.0.0 title: Two dimensional disk model. description: |- Two dimensional radially symmetric disk. - tag_uri: tag:stsci.edu:asdf/transform/divide-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/divide-1.2.0 title: Perform a list of subtransforms in parallel and then divide their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/drude1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/drude1d-1.0.0 title: One dimensional Drude model description: |- Drude model based one the behavior of electons in materials (esp. metals). - tag_uri: tag:stsci.edu:asdf/transform/ellipse2d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/ellipse2d-1.0.0 title: Two dimensional ellipse model. description: |- Two dimensional ellipse. - tag_uri: tag:stsci.edu:asdf/transform/exponential1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/exponential1d-1.0.0 title: One dimensional exponential model. description: |- One dimensional exponential model. - tag_uri: tag:stsci.edu:asdf/transform/exponential_cutoff_power_law1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/exponential_cutoff_power_law1d-1.0.0 title: One dimensional power law model with an exponential cutoff. description: |- One dimensional power law model with an exponential cutoff. - tag_uri: tag:stsci.edu:asdf/transform/fix_inputs-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/fix_inputs-1.2.0 title: Set to a constant selected input arguments of a model. description: |- This operation takes as the right hand side a dict equivalent that consists of key:value pairs where the key identifies the input argument to be set, either by position number (0 based) or name, and the value is the floating point value that should be assigned to that input. The result is a compound model with n fewer input arguments where n is the number of input values to be set (i.e., the number of keys in the dict). - tag_uri: tag:stsci.edu:asdf/transform/gaussian1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/gaussian1d-1.0.0 title: A 1D Gaussian model. description: |- A 1D gaussian distribution. - tag_uri: tag:stsci.edu:asdf/transform/gaussian2d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/gaussian2d-1.0.0 title: A 2D Gaussian model. description: |- A 2D gaussian distribution. - tag_uri: tag:stsci.edu:asdf/transform/gnomonic-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/gnomonic-1.2.0 title: The gnomonic projection. description: |- Corresponds to the `TAN` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/hammer_aitoff-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/hammer_aitoff-1.2.0 title: Hammer-Aitoff projection. description: |- Corresponds to the `AIT` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= 2 \arg \left(2Z^2 - 1, \frac{\pi}{180^\circ} \frac{Z}{2}x\right) \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^\circ}yZ\right)$$ And the sky-to-pixel transformation is defined as: $$x &= 2 \gamma \cos \theta \sin \frac{\phi}{2} \\ y &= \gamma \sin \theta$$ where: $$\gamma = \frac{180^\circ}{\pi} \sqrt{\frac{2}{1 + \cos \theta \cos(\phi / 2)}}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/healpix-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/healpix-1.2.0 title: HEALPix projection. description: |- Corresponds to the `HPX` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/healpix_polar-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/healpix_polar-1.2.0 title: HEALPix polar, aka "butterfly", projection. description: |- Corresponds to the `XPH` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/identity-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/identity-1.2.0 title: The identity transform. description: |- Invertibility: The inverse of this transform is also the identity transform. - tag_uri: tag:stsci.edu:asdf/transform/king_projected_analytic1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/king_projected_analytic1d-1.0.0 title: Projected (surface density) analytic King Model. description: |- Projected (surface density) analytic King Model. - tag_uri: tag:stsci.edu:asdf/transform/linear1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/linear1d-1.0.0 title: A one dimensional line model description: |- A one dimensional line model - tag_uri: tag:stsci.edu:asdf/transform/log_parabola1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/log_parabola1d-1.0.0 title: One dimensional log parabola model (sometimes called curved power law). description: |- One dimensional log parabola model (sometimes called curved power law). - tag_uri: tag:stsci.edu:asdf/transform/logarithmic1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/logarithmic1d-1.0.0 title: One dimensional (natural) logarithmic model. description: |- One dimensional (natural) logarithmic model. - tag_uri: tag:stsci.edu:asdf/transform/lorentz1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/lorentz1d-1.0.0 title: One dimensional Lorentzian model. description: |- One dimensional Lorentzian model. - tag_uri: tag:stsci.edu:asdf/transform/math_functions-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/math_functions-1.0.0 title: Math functions. description: |- Commonly used math funcitons. - tag_uri: tag:stsci.edu:asdf/transform/mercator-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/mercator-1.2.0 title: The Mercator projection. description: |- Corresponds to the `MER` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= 2 \tan^{-1}\left(e^{y \pi / 180^{\circ}}\right)-90^{\circ}$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\ln \tan \left(\frac{90^{\circ} + \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/moffat1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/moffat1d-1.0.0 title: One dimensional Moffat model. description: |- One dimensional Moffat distribution. - tag_uri: tag:stsci.edu:asdf/transform/moffat2d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/moffat2d-1.0.0 title: Two dimensional Moffat model. description: |- Two dimensional Moffat distribution. - tag_uri: tag:stsci.edu:asdf/transform/molleweide-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/molleweide-1.2.0 title: Molleweide's projection. description: |- Corresponds to the `MOL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi x}{2 \sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}} \\ \theta &= \sin^{-1}\left(\frac{1}{90^\circ}\sin^{-1}\left(\frac{\pi}{180^\circ}\frac{y}{\sqrt{2}}\right) + \frac{y}{180^\circ}\sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \frac{2 \sqrt{2}}{\pi} \phi \cos \gamma \\ y &= \sqrt{2} \frac{180^\circ}{\pi} \sin \gamma$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/multiply-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/multiply-1.2.0 title: Perform a list of subtransforms in parallel and then multiply their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/multiplyscale-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/multiplyscale-1.0.0 title: A Multiply model. description: |- Multiply the input by a factor. - tag_uri: tag:stsci.edu:asdf/transform/ortho_polynomial-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/ortho_polynomial-1.0.0 title: Respresents various Orthogonal Polynomial models. description: |- A polynomial model represented by its coefficients stored in an ndarray of shape $(n+1)$ for univariate polynomials or $(n+1, n+1)$ for polynomials with 2 variables, where $n$ is the highest total degree of the polynomial. The property polynomial_type defines what kind of polynomial is defined. $$P = \sum_{i, j=0}^{i+j=n}c_{ij} * x^{i} * y^{j}$$ Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/parabolic-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/parabolic-1.2.0 title: Parabolic projection. description: |- Corresponds to the `PAR` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{180^\circ}{\pi} \frac{x}{1 - 4(y / 180^\circ)^2} \\ \theta &= 3 \sin^{-1}\left(\frac{y}{180^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \left(2\cos\frac{2\theta}{3} - 1\right) \\ y &= 180^\circ \sin \frac{\theta}{3}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/planar2d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/planar2d-1.0.0 title: Two dimensional plane model. description: |- Two dimensional plane model. - tag_uri: tag:stsci.edu:asdf/transform/plate_carree-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/plate_carree-1.2.0 title: "The plate carr\xE9e projection." description: |- Corresponds to the `CAR` projection in the FITS WCS standard. The main virtue of this transformation is its simplicity. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/plummer1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/plummer1d-1.0.0 title: Two dimensional Plummer model. description: |- One dimensional Plummer density profile model. - tag_uri: tag:stsci.edu:asdf/transform/polyconic-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/polyconic-1.2.0 title: Polyconic projection. description: |- Corresponds to the `PCO` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/polynomial-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/polynomial-1.2.0 title: A Polynomial model. description: |- A polynomial model represented by its coefficients stored in an ndarray of shape $(n+1)$ for univariate polynomials or $(n+1, n+1)$ for polynomials with 2 variables, where $n$ is the highest total degree of the polynomial. $$P = \sum_{i, j=0}^{i+j=n}c_{ij} * x^{i} * y^{j}$$ Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/spline1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/spline1d-1.0.0 title: A spline1d model. description: |- A spline1d model represented by an array of its knots, an array of its coefficients, and its degree. In addition the bounding endpoints of the spline can be represented as well - tag_uri: tag:stsci.edu:asdf/transform/power-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/power-1.2.0 title: Perform a list of subtransforms in parallel and then raise each result to the power of the next. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/power_law1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/power_law1d-1.0.0 title: One dimensional power law model. description: |- One dimensional power law model. - tag_uri: tag:stsci.edu:asdf/transform/quad_spherical_cube-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/quad_spherical_cube-1.2.0 title: Quadrilateralized spherical cube projection. description: |- Corresponds to the `QSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/redshift_scale_factor-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/redshift_scale_factor-1.0.0 title: One dimensional redshift scale factor model. description: |- One dimensional redshift scale factor model. - tag_uri: tag:stsci.edu:asdf/transform/remap_axes-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/remap_axes-1.3.0 title: Reorder, add and drop axes. description: "This transform allows the order of the input axes to be shuffled and\n\ returned as the output axes.\n\nIt is a list made up of integers. Each item\n\ in the list corresponds to an output axis. Each item is the index of\nthe input\ \ axis to send to the output axis.\n\nIf an object with `mapping` and `n_inputs`\ \ properties is provided, the\nnumber of input axes is explicitly set by the `n_inputs`\ \ value.\nIf only a list is provided, the number of input axes is\nautomatically\ \ determined from the maximum index in the list. \n\nInvertibility: This transform\ \ does not have a general analytical inverse.\nIn some well defined cases it is\ \ possible to invert automatically" - tag_uri: tag:stsci.edu:asdf/transform/ricker_wavelet1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/ricker_wavelet1d-1.0.0 title: One dimensional Ricker Wavelet model. description: |- One dimensional Ricker Wavelet model - tag_uri: tag:stsci.edu:asdf/transform/ricker_wavelet2d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/ricker_wavelet2d-1.0.0 title: Two dimensional Ricker Wavelet model. description: |- Two dimensional Ricker Wavelet model. - tag_uri: tag:stsci.edu:asdf/transform/ring2d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/ring2d-1.0.0 title: Two dimensional radially symmetric ring model. description: |- Two dimensional radially symmetric ring. - tag_uri: tag:stsci.edu:asdf/transform/rotate2d-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/rotate2d-1.3.0 title: A 2D rotation. description: |- A 2D rotation around the origin, in degrees. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/rotate3d-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/rotate3d-1.3.0 title: Rotation in 3D space. description: |- Euler angle rotation around 3 axes. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/rotate_sequence_3d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/rotate_sequence_3d-1.0.0 title: Rotation in 3D space. description: |- Rotation in 3D space by arbitrary number of angles about arbitrary order of "x", "y", "z" axes. - tag_uri: tag:stsci.edu:asdf/transform/sanson_flamsteed-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/sanson_flamsteed-1.2.0 title: The Sanson-Flamsteed projection. description: |- Corresponds to the `SFL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\cos y} \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \cos \theta \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/scale-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/scale-1.2.0 title: A Scale model. description: |- Scale the input by a dimensionless factor. - tag_uri: tag:stsci.edu:asdf/transform/schechter1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/schechter1d-1.0.0 title: Schechter luminosity function description: |- Schechter luminosity function - tag_uri: tag:stsci.edu:asdf/transform/sersic1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/sersic1d-1.0.0 title: One dimensional Sersic surface brightness profile. description: |- One dimensional Sersic surface brightness profile. - tag_uri: tag:stsci.edu:asdf/transform/sersic2d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/sersic2d-1.0.0 title: Two dimensional Sersic surface brightness profile. description: |- Two dimensional Sersic surface brightness profile. - tag_uri: tag:stsci.edu:asdf/transform/shift-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/shift-1.2.0 title: A Shift opeartion. description: |- Apply an offset in one direction. - tag_uri: tag:stsci.edu:asdf/transform/sine1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/sine1d-1.0.0 title: One dimensional sine model. description: |- One dimensional sine. - tag_uri: tag:stsci.edu:asdf/transform/cosine1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/cosine1d-1.0.0 title: One dimensional cosine model. description: |- One dimensional cosine. - tag_uri: tag:stsci.edu:asdf/transform/tangent1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/tangent1d-1.0.0 title: One dimensional tangent model. description: |- One dimensional tangent. - tag_uri: tag:stsci.edu:asdf/transform/arcsine1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/arcsine1d-1.0.0 title: One dimensional arcsine model. description: |- One dimensional arcsine. - tag_uri: tag:stsci.edu:asdf/transform/arccosine1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/arccosine1d-1.0.0 title: One dimensional arccosine model. description: |- One dimensional arccosine. - tag_uri: tag:stsci.edu:asdf/transform/arctangent1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/arctangent1d-1.0.0 title: One dimensional arctangent model. description: |- One dimensional arctangent. - tag_uri: tag:stsci.edu:asdf/transform/slant_orthographic-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/slant_orthographic-1.2.0 title: The slant orthographic projection. description: |- Corresponds to the `SIN` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \cos^{-1}\left(\frac{\pi}{180^{\circ}}R_\theta\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cos \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/slant_zenithal_perspective-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/slant_zenithal_perspective-1.2.0 title: The slant zenithal perspective projection. description: |- Corresponds to the `SZP` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/smoothly_broken_power_law1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/smoothly_broken_power_law1d-1.0.0 title: One dimensional smoothly broken power law model. description: |- One dimensional smoothly broken power law model. - tag_uri: tag:stsci.edu:asdf/transform/stereographic-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/stereographic-1.2.0 title: The stereographic projection. description: |- Corresponds to the `STG` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^{\circ} - 2 \tan^{-1}\left(\frac{\pi R_\theta}{360^{\circ}}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\frac{2 \cos \theta}{1 + \sin \theta}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/subtract-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/subtract-1.2.0 title: Perform a list of subtransforms in parallel and then subtract their results. description: |- Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. - tag_uri: tag:stsci.edu:asdf/transform/tabular-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/tabular-1.2.0 title: A Tabular model. description: |- Tabular represents a lookup table with values corresponding to some grid points. It computes the interpolated values corresponding to the given inputs. Three methods of interpolation are supported - "linear", "nearest" and "splinef2d". It supports extrapolation. - tag_uri: tag:stsci.edu:asdf/transform/tangential_spherical_cube-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/tangential_spherical_cube-1.2.0 title: Tangential spherical cube projection. description: |- Corresponds to the `TSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/trapezoid1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/trapezoid1d-1.0.0 title: One dimensional trapezoid model. description: |- One dimensional trapezoid. - tag_uri: tag:stsci.edu:asdf/transform/trapezoid_disk2d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/trapezoid_disk2d-1.0.0 title: Two dimensional circular trapezoid model. description: |- Two dimensional circular trapezoid. - tag_uri: tag:stsci.edu:asdf/transform/voigt1d-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/voigt1d-1.0.0 title: One dimensional model for the Voigt profile. description: |- One dimensional model for the Voigt profile. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_equal_area-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_equal_area-1.2.0 title: The zenithal equal area projection. description: |- Corresponds to the `ZEA` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - 2 \sin^{-1} \left(\frac{\pi R_\theta}{360^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta &= \frac{180^\circ}{\pi} \sqrt{2(1 - \sin\theta)} \\ &= \frac{360^\circ}{\pi} \sin\left(\frac{90^\circ - \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_equidistant-1.2.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_equidistant-1.2.0 title: The zenithal equidistant projection. description: |- Corresponds to the `ARC` projection in the FITS WCS standard. See [zenithal](ref:transform/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - R_\theta$$ And the sky-to-pixel transformation is defined as: $$R_\theta = 90^\circ - \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/zenithal_perspective-1.3.0 schema_uri: http://stsci.edu/schemas/asdf/transform/zenithal_perspective-1.3.0 title: The zenithal perspective projection. description: |- Corresponds to the `AZP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \arg(-y \cos \gamma, x) \\ \theta &= \left\{\genfrac{}{}{0pt}{}{\psi - \omega}{\psi + \omega + 180^{\circ}}\right.$$ where: $$\psi &= \arg(\rho, 1) \\ \omega &= \sin^{-1}\left(\frac{\rho \mu}{\sqrt{\rho^2 + 1}}\right) \\ \rho &= \frac{R}{\frac{180^{\circ}}{\pi}(\mu + 1) + y \sin \gamma} \\ R &= \sqrt{x^2 + y^2 \cos^2 \gamma}$$ And the sky-to-pixel transformation is defined as: $$x &= R \sin \phi \\ y &= -R \sec \gamma \cos \theta$$ where: $$R = \frac{180^{\circ}}{\pi} \frac{(\mu + 1) \cos \theta}{(\mu + \sin \theta) + \cos \theta \cos \phi \tan \gamma}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. - tag_uri: tag:stsci.edu:asdf/transform/property/bounding_box-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/property/bounding_box-1.0.0 title: Bounding box for a model. description: |- This object contains the bounding box for a model, which defines the domain of valid inputs to the model. The bounds for each input is are listed as a map under the interval keyword as ordered pairs of lower/upper bounds with key being the input name. If any model inputs are to be ignored by the bounding box then they need to be listed under the ignore keyword. Finally, the tuple representation's input ordering can be listed under the order keyword, C for C-ordering, F for Fortran ordering. - tag_uri: tag:stsci.edu:asdf/transform/property/compound_bounding_box-1.0.0 schema_uri: http://stsci.edu/schemas/asdf/transform/property/compound_bounding_box-1.0.0 title: Compound bounding box for a model. description: |- This object contains a compound bounding box for a model, which defines a set of input-selectable bounding boxes. It consists of a list of selector_args together with a list of input-key bounding box pairs. The selector args are an ordered list of model inputs with an indication of whether or not to ignore the input in the bounding box selected. The key for each bounding box entry corresponds to the values of the selector args (in the order listed) which will select the accompanying bounding box. ././@PaxHeader0000000000000000000000000000003400000000000010212 xustar0028 mtime=1697738455.9824793 asdf_transform_schemas-0.4.0/resources/stsci.edu/0000755000175100001770000000000014514267330021553 5ustar00runnerdocker././@PaxHeader0000000000000000000000000000003300000000000010211 xustar0027 mtime=1697738456.042479 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/0000755000175100001770000000000014514267330023176 5ustar00runnerdocker././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/add-1.0.0.yaml0000644000175100001770000000133614514267315025252 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/add-1.0.0" title: > Perform a list of subtransforms in parallel and then add their results together. description: | Each of the subtransforms must have the same number of inputs and outputs. examples: - - A list of transforms, performed in parallel and added together - | !transform/add-1.0.0 forward: - !transform/shift-1.0.0 offset: 2.0 - !transform/shift-1.0.0 offset: 3.0 allOf: - $ref: "transform-1.0.0" - properties: forward: type: array items: $ref: "transform-1.0.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/add-1.1.0.yaml0000644000175100001770000000133614514267315025253 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/add-1.1.0" title: > Perform a list of subtransforms in parallel and then add their results together. description: | Each of the subtransforms must have the same number of inputs and outputs. examples: - - A list of transforms, performed in parallel and added together - | !transform/add-1.1.0 forward: - !transform/shift-1.1.0 offset: 2.0 - !transform/shift-1.1.0 offset: 3.0 allOf: - $ref: "transform-1.1.0" - properties: forward: type: array items: $ref: "transform-1.1.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/add-1.2.0.yaml0000644000175100001770000000133614514267315025254 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/add-1.2.0" title: > Perform a list of subtransforms in parallel and then add their results together. description: | Each of the subtransforms must have the same number of inputs and outputs. examples: - - A list of transforms, performed in parallel and added together - | !transform/add-1.2.0 forward: - !transform/shift-1.2.0 offset: 2.0 - !transform/shift-1.2.0 offset: 3.0 allOf: - $ref: "transform-1.2.0" - properties: forward: type: array items: $ref: "transform-1.2.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/affine-1.0.0.yaml0000644000175100001770000000224714514267315025754 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/affine-1.0.0" title: > An affine transform. description: | Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. allOf: - $ref: "transform-1.0.0" - type: object properties: matrix: description: | An array of size (*n* x *n*), where *n* is the number of axes, representing the linear transformation in an affine transform. anyOf: - $ref: "../core/ndarray-1.0.0" - type: array items: type: array items: type: number minItems: 2 maxItems: 2 minItems: 2 maxItems: 2 translation: description: | An array of size (*n*,), where *n* is the number of axes, representing the translation in an affine transform. anyOf: - $ref: "../core/ndarray-1.0.0" - type: array items: type: number minItems: 2 maxItems: 2 required: [matrix] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/affine-1.1.0.yaml0000644000175100001770000000224714514267315025755 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/affine-1.1.0" title: > An affine transform. description: | Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. allOf: - $ref: "transform-1.1.0" - type: object properties: matrix: description: | An array of size (*n* x *n*), where *n* is the number of axes, representing the linear transformation in an affine transform. anyOf: - $ref: "../core/ndarray-1.0.0" - type: array items: type: array items: type: number minItems: 2 maxItems: 2 minItems: 2 maxItems: 2 translation: description: | An array of size (*n*,), where *n* is the number of axes, representing the translation in an affine transform. anyOf: - $ref: "../core/ndarray-1.0.0" - type: array items: type: number minItems: 2 maxItems: 2 required: [matrix] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/affine-1.2.0.yaml0000644000175100001770000000237514514267315025760 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/affine-1.2.0" title: > An affine transform. description: | Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. allOf: - $ref: "transform-1.1.0" - type: object properties: matrix: description: | An array of size (*n* x *n*), where *n* is the number of axes, representing the linear transformation in an affine transform. anyOf: - $ref: "../core/ndarray-1.0.0" - $ref: "../unit/quantity-1.1.0" - type: array items: type: array items: type: number minItems: 2 maxItems: 2 minItems: 2 maxItems: 2 translation: description: | An array of size (*n*,), where *n* is the number of axes, representing the translation in an affine transform. anyOf: - $ref: "../core/ndarray-1.0.0" - $ref: "../unit/quantity-1.1.0" - type: array items: type: number minItems: 2 maxItems: 2 required: [matrix] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/affine-1.3.0.yaml0000644000175100001770000000237514514267315025761 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/affine-1.3.0" title: > An affine transform. description: | Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. allOf: - $ref: "transform-1.2.0" - type: object properties: matrix: description: | An array of size (*n* x *n*), where *n* is the number of axes, representing the linear transformation in an affine transform. anyOf: - $ref: "../core/ndarray-1.0.0" - $ref: "../unit/quantity-1.1.0" - type: array items: type: array items: type: number minItems: 2 maxItems: 2 minItems: 2 maxItems: 2 translation: description: | An array of size (*n*,), where *n* is the number of axes, representing the translation in an affine transform. anyOf: - $ref: "../core/ndarray-1.0.0" - $ref: "../unit/quantity-1.1.0" - type: array items: type: number minItems: 2 maxItems: 2 required: [matrix] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/airy-1.0.0.yaml0000644000175100001770000000110014514267315025453 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/airy-1.0.0" title: | The Airy projection. description: | Corresponds to the `AIR` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.0.0) for the definition of the full transformation. allOf: - $ref: "zenithal-1.0.0" - type: object properties: theta_b: type: number description: | The latitude $\theta_b$ at which to minimize the error, in degrees. default: 90 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/airy-1.1.0.yaml0000644000175100001770000000110014514267315025454 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/airy-1.1.0" title: | The Airy projection. description: | Corresponds to the `AIR` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.1.0) for the definition of the full transformation. allOf: - $ref: "zenithal-1.1.0" - type: object properties: theta_b: type: number description: | The latitude $\theta_b$ at which to minimize the error, in degrees. default: 90 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/airy-1.2.0.yaml0000644000175100001770000000117614514267315025472 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/airy-1.2.0" title: | The Airy projection. description: | Corresponds to the `AIR` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.2.0) for the definition of the full transformation. allOf: - $ref: "zenithal-1.2.0" - type: object properties: theta_b: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | The latitude $\theta_b$ at which to minimize the error, in degrees. default: 90 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/airy_disk2d-1.0.0.yaml0000644000175100001770000000245514514267315026731 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/airy_disk2d-1.0.0" title: > Two dimensional Airy disk model. description: > Two dimensional Airy disk model. examples: - - $f(r)=43.8[\frac{2J_1(\frac{\pi\sqrt{(x-0.5)^2+(y-1.5)^2}}{10.2/R_z})}{\frac{\pi\sqrt{(x-0.5)^2+(y-1.5)^2}}{10.2/R_z}}]^2$, where $J_1$ is the first order Bessel function and $R_z=1.2196698912665045$ - | !transform/airy_disk2d-1.0.0 {amplitude: 43.8, radius: 10.2, x_0: 0.5, y_0: 1.5} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Amplitude of the Airy function. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: x position of the maximum of the Airy function. y_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: y position of the maximum of the Airy function. radius: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: The radius of the Airy disk (radius of the first zero). required: ['amplitude', 'x_0', 'y_0', 'radius'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/arccosine1d-1.0.0.yaml0000644000175100001770000000164114514267315026714 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/arccosine1d-1.0.0" title: > One dimensional arccosine model. description: > One dimensional arccosine. examples: - - $$f(x)=((arccos(x/10.0) / 2\pi) - 1.0) / 0.5$$ - | !transform/arccosine1d-1.0.0 {amplitude: 10.0, frequency: 0.5, phase: 1.0} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation amplitude. frequency: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation frequency. phase: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation phase. required: ['amplitude', 'frequency', 'phase'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/arcsine1d-1.0.0.yaml0000644000175100001770000000163114514267315026371 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/arcsine1d-1.0.0" title: > One dimensional arcsine model. description: > One dimensional arcsine. examples: - - $$f(x)=((arcsin(x/10.0) / 2\pi) - 1.0) / 0.5$$ - | !transform/arcsine1d-1.0.0 {amplitude: 10.0, frequency: 0.5, phase: 1.0} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation amplitude. frequency: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation frequency. phase: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation phase. required: ['amplitude', 'frequency', 'phase'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/arctangent1d-1.0.0.yaml0000644000175100001770000000164514514267315027100 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/arctangent1d-1.0.0" title: > One dimensional arctangent model. description: > One dimensional arctangent. examples: - - $$f(x)=((arctan(x/10.0) / 2\pi) - 1.0) / 0.5$$ - | !transform/arctangent1d-1.0.0 {amplitude: 10.0, frequency: 0.5, phase: 1.0} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation amplitude. frequency: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation frequency. phase: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation phase. required: ['amplitude', 'frequency', 'phase'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/blackbody-1.0.0.yaml0000644000175100001770000000156214514267315026455 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/blackbody-1.0.0" title: > Blackbody model. description: | Blackbody model using the Planck function. $$B_{\\nu}(T) = A \frac{2 h \nu^{3} / c^{2}}{exp(h \nu / k T) - 1}$$ examples: - - $$B_{\\nu}(T) = 10.0 \frac{2 h \nu^{3} / c^{2}}{exp(h \nu / k *6000) - 1}$$ - | !transform/blackbody-1.0.0 scale: 10.0 temperature: !unit/quantity-1.1.0 {unit: !unit/unit-1.0.0 K, value: 6000.0} allOf: - $ref: "transform-1.2.0" - type: object properties: scale: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Scale factor. temperature: $ref: "../unit/quantity-1.1.0" description: Blackbody temperature. required: ['scale', 'temperature'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/bonne_equal_area-1.0.0.yaml0000644000175100001770000000221414514267315027776 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/bonne_equal_area-1.0.0" title: | Bonne's equal area pseudoconic projection. description: | Corresponds to the `BON` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi}{180^\circ} A_\phi R_\theta / \cos \theta \\ \theta &= Y_0 - R_\theta$$ where: $$R_\theta &= \mathrm{sign} \theta_1 \sqrt{x^2 + (Y_0 - y)^2} \\ A_\phi &= \arg\left(\frac{Y_0 - y}{R_\theta}, \frac{x}{R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= R_\theta \sin A_\phi \\ y &= -R_\theta \cos A_\phi + Y_0$$ where: $$A_\phi &= \frac{180^\circ}{\pi R_\theta} \phi \cos \theta \\ R_\theta &= Y_0 - \theta \\ Y_0 &= \frac{180^\circ}{\pi} \cot \theta_1 + \theta_1$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudoconic-1.0.0" - type: object properties: theta1: type: number description: | Bonne conformal latitude, in degrees. default: 0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/bonne_equal_area-1.1.0.yaml0000644000175100001770000000221414514267315027777 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/bonne_equal_area-1.1.0" title: | Bonne's equal area pseudoconic projection. description: | Corresponds to the `BON` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi}{180^\circ} A_\phi R_\theta / \cos \theta \\ \theta &= Y_0 - R_\theta$$ where: $$R_\theta &= \mathrm{sign} \theta_1 \sqrt{x^2 + (Y_0 - y)^2} \\ A_\phi &= \arg\left(\frac{Y_0 - y}{R_\theta}, \frac{x}{R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= R_\theta \sin A_\phi \\ y &= -R_\theta \cos A_\phi + Y_0$$ where: $$A_\phi &= \frac{180^\circ}{\pi R_\theta} \phi \cos \theta \\ R_\theta &= Y_0 - \theta \\ Y_0 &= \frac{180^\circ}{\pi} \cot \theta_1 + \theta_1$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudoconic-1.1.0" - type: object properties: theta1: type: number description: | Bonne conformal latitude, in degrees. default: 0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/bonne_equal_area-1.2.0.yaml0000644000175100001770000000231214514267315027777 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/bonne_equal_area-1.2.0" title: | Bonne's equal area pseudoconic projection. description: | Corresponds to the `BON` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi}{180^\circ} A_\phi R_\theta / \cos \theta \\ \theta &= Y_0 - R_\theta$$ where: $$R_\theta &= \mathrm{sign} \theta_1 \sqrt{x^2 + (Y_0 - y)^2} \\ A_\phi &= \arg\left(\frac{Y_0 - y}{R_\theta}, \frac{x}{R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= R_\theta \sin A_\phi \\ y &= -R_\theta \cos A_\phi + Y_0$$ where: $$A_\phi &= \frac{180^\circ}{\pi R_\theta} \phi \cos \theta \\ R_\theta &= Y_0 - \theta \\ Y_0 &= \frac{180^\circ}{\pi} \cot \theta_1 + \theta_1$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudoconic-1.1.0" - type: object properties: theta1: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | Bonne conformal latitude, in degrees. default: 0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/bonne_equal_area-1.3.0.yaml0000644000175100001770000000231214514267315030000 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/bonne_equal_area-1.3.0" title: | Bonne's equal area pseudoconic projection. description: | Corresponds to the `BON` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi}{180^\circ} A_\phi R_\theta / \cos \theta \\ \theta &= Y_0 - R_\theta$$ where: $$R_\theta &= \mathrm{sign} \theta_1 \sqrt{x^2 + (Y_0 - y)^2} \\ A_\phi &= \arg\left(\frac{Y_0 - y}{R_\theta}, \frac{x}{R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= R_\theta \sin A_\phi \\ y &= -R_\theta \cos A_\phi + Y_0$$ where: $$A_\phi &= \frac{180^\circ}{\pi R_\theta} \phi \cos \theta \\ R_\theta &= Y_0 - \theta \\ Y_0 &= \frac{180^\circ}{\pi} \cot \theta_1 + \theta_1$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudoconic-1.2.0" - type: object properties: theta1: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | Bonne conformal latitude, in degrees. default: 0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/box1d-1.0.0.yaml0000644000175100001770000000167114514267315025541 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/box1d-1.0.0" title: > One dimensional box model. description: > One dimensional box. examples: - - A 1D box of width 4.0, amplitude 10.0, centered at x=1.5. - | !transform/box1d-1.0.0 amplitude: 10.0 bounding_box: [-0.5, 3.5] width: 4.0 x_0: 1.5 allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Amplitude. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Position of the center of the box model. width: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Width of box. required: ['amplitude', 'x_0', 'width'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/box2d-1.0.0.yaml0000644000175100001770000000253514514267315025542 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/box2d-1.0.0" title: > Two dimensional box model. description: > Two dimensional box. examples: - - A 2D box with (x, y) dimensions (4.0, 2.0), centered at (0.5, 1.5) with amplitude 10.0. - | !transform/box2d-1.0.0 amplitude: 10.0 bounding_box: - [0.5, 2.5] - [-1.5, 2.5] x_0: 0.5 x_width: 4.0 y_0: 1.5 y_width: 2.0 allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Amplitude. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: x position of the center of the box model. x_width: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: x width of box. y_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: y position of the center of the box model. y_width: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: y width of box. required: ['amplitude', 'x_0', 'x_width', 'y_0', 'y_width'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/broken_power_law1d-1.0.0.yaml0000644000175100001770000000230014514267315030276 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/broken_power_law1d-1.0.0" title: > One dimensional power law model with a break. description: > One dimensional power law model with a break. examples: - - $f(x) = A (10.0 / 5.0) ^ {-2.0}$ for x < 5.0 and $f(x) = A (10.0 / 5.0) ^ {-3.0}$ for x > 5.0 - | !transform/broken_power_law1d-1.0.0 {alpha_1: 2.0, alpha_2: 3.0, amplitude: 10.0, x_break: 5.0} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Model amplitude at the break point. x_break: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Break point. alpha_1: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Power law index for x < x_break. alpha_2: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Power law index for x > x_break. required: ['amplitude', 'x_break', 'alpha_1', 'alpha_2'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/cobe_quad_spherical_cube-1.0.0.yaml0000644000175100001770000000064214514267315031473 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/cobe_quad_spherical_cube-1.0.0" title: | COBE quadrilateralized spherical cube projection. description: | Corresponds to the `CSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "quadcube-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/cobe_quad_spherical_cube-1.1.0.yaml0000644000175100001770000000064214514267315031474 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/cobe_quad_spherical_cube-1.1.0" title: | COBE quadrilateralized spherical cube projection. description: | Corresponds to the `CSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "quadcube-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/cobe_quad_spherical_cube-1.2.0.yaml0000644000175100001770000000064214514267315031475 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/cobe_quad_spherical_cube-1.2.0" title: | COBE quadrilateralized spherical cube projection. description: | Corresponds to the `CSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "quadcube-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/compose-1.0.0.yaml0000644000175100001770000000206714514267315026171 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/compose-1.0.0" title: > Perform a list of subtransforms in series. description: | The output of each subtransform is fed into the input of the next subtransform. The number of output dimensions of each subtransform must be equal to the number of input dimensions of the next subtransform in list. To reorder or add/drop axes, insert `remap_axes` transforms in the subtransform list. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, by reversing the list of transforms and applying the inverse of each. examples: - - A series of transforms - | !transform/compose-1.0.0 forward: - !transform/shift-1.0.0 offset: 2.0 - !transform/shift-1.0.0 offset: 3.0 allOf: - $ref: "transform-1.0.0" - properties: forward: type: array items: $ref: "transform-1.0.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/compose-1.1.0.yaml0000644000175100001770000000206714514267315026172 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/compose-1.1.0" title: > Perform a list of subtransforms in series. description: | The output of each subtransform is fed into the input of the next subtransform. The number of output dimensions of each subtransform must be equal to the number of input dimensions of the next subtransform in list. To reorder or add/drop axes, insert `remap_axes` transforms in the subtransform list. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, by reversing the list of transforms and applying the inverse of each. examples: - - A series of transforms - | !transform/compose-1.1.0 forward: - !transform/shift-1.1.0 offset: 2.0 - !transform/shift-1.1.0 offset: 3.0 allOf: - $ref: "transform-1.1.0" - properties: forward: type: array items: $ref: "transform-1.1.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/compose-1.2.0.yaml0000644000175100001770000000206714514267315026173 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/compose-1.2.0" title: > Perform a list of subtransforms in series. description: | The output of each subtransform is fed into the input of the next subtransform. The number of output dimensions of each subtransform must be equal to the number of input dimensions of the next subtransform in list. To reorder or add/drop axes, insert `remap_axes` transforms in the subtransform list. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, by reversing the list of transforms and applying the inverse of each. examples: - - A series of transforms - | !transform/compose-1.2.0 forward: - !transform/shift-1.2.0 offset: 2.0 - !transform/shift-1.2.0 offset: 3.0 allOf: - $ref: "transform-1.2.0" - properties: forward: type: array items: $ref: "transform-1.2.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/concatenate-1.0.0.yaml0000644000175100001770000000356614514267315027015 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/concatenate-1.0.0" title: > Send axes to different subtransforms. description: | Transforms a set of separable inputs by splitting the axes apart, sending them through the given subtransforms in parallel, and finally concatenating the subtransform output axes back together. The input axes are assigned to each subtransform in order. If the number of input axes is unequal to the sum of the number of input axes of all of the subtransforms, that is considered an error case. The output axes from each subtransform are appended together to make up the resulting output axes. For example, given 5 input axes, and 3 subtransforms with the following orders: 1. transform A: 2 in -> 2 out 1. transform B: 1 in -> 2 out 1. transform C: 2 in -> 1 out The transform is performed as follows: ``` : i0 i1 i2 i3 i4 : | | | | | : +---------+ +---------+ +----------+ : | A | | B | | C | : +---------+ +---------+ +----------+ : | | | | | : o0 o1 o2 o3 o4 ``` If reordering of the input or output axes is required, use in series with the `remap_axes` transform. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. examples: - - The example in the description - | !transform/concatenate-1.0.0 forward: - !transform/shift-1.0.0 offset: 2.0 - !transform/shift-1.0.0 offset: 3.0 - !transform/shift-1.0.0 offset: 5.0 allOf: - $ref: "transform-1.0.0" - properties: forward: type: array items: $ref: "transform-1.0.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/concatenate-1.1.0.yaml0000644000175100001770000000356614514267315027016 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/concatenate-1.1.0" title: > Send axes to different subtransforms. description: | Transforms a set of separable inputs by splitting the axes apart, sending them through the given subtransforms in parallel, and finally concatenating the subtransform output axes back together. The input axes are assigned to each subtransform in order. If the number of input axes is unequal to the sum of the number of input axes of all of the subtransforms, that is considered an error case. The output axes from each subtransform are appended together to make up the resulting output axes. For example, given 5 input axes, and 3 subtransforms with the following orders: 1. transform A: 2 in -> 2 out 1. transform B: 1 in -> 2 out 1. transform C: 2 in -> 1 out The transform is performed as follows: ``` : i0 i1 i2 i3 i4 : | | | | | : +---------+ +---------+ +----------+ : | A | | B | | C | : +---------+ +---------+ +----------+ : | | | | | : o0 o1 o2 o3 o4 ``` If reordering of the input or output axes is required, use in series with the `remap_axes` transform. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. examples: - - The example in the description - | !transform/concatenate-1.1.0 forward: - !transform/shift-1.1.0 offset: 2.0 - !transform/shift-1.1.0 offset: 3.0 - !transform/shift-1.1.0 offset: 5.0 allOf: - $ref: "transform-1.1.0" - properties: forward: type: array items: $ref: "transform-1.1.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/concatenate-1.2.0.yaml0000644000175100001770000000356614514267315027017 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/concatenate-1.2.0" title: > Send axes to different subtransforms. description: | Transforms a set of separable inputs by splitting the axes apart, sending them through the given subtransforms in parallel, and finally concatenating the subtransform output axes back together. The input axes are assigned to each subtransform in order. If the number of input axes is unequal to the sum of the number of input axes of all of the subtransforms, that is considered an error case. The output axes from each subtransform are appended together to make up the resulting output axes. For example, given 5 input axes, and 3 subtransforms with the following orders: 1. transform A: 2 in -> 2 out 1. transform B: 1 in -> 2 out 1. transform C: 2 in -> 1 out The transform is performed as follows: ``` : i0 i1 i2 i3 i4 : | | | | | : +---------+ +---------+ +----------+ : | A | | B | | C | : +---------+ +---------+ +----------+ : | | | | | : o0 o1 o2 o3 o4 ``` If reordering of the input or output axes is required, use in series with the `remap_axes` transform. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. examples: - - The example in the description - | !transform/concatenate-1.2.0 forward: - !transform/shift-1.2.0 offset: 2.0 - !transform/shift-1.2.0 offset: 3.0 - !transform/shift-1.2.0 offset: 5.0 allOf: - $ref: "transform-1.2.0" - properties: forward: type: array items: $ref: "transform-1.2.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic-1.0.0.yaml0000644000175100001770000000262014514267315025612 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic-1.0.0" title: | Base class of all conic projections. description: | In conic projections, the sphere is thought to be projected onto the surface of a cone which is then opened out. In a general sense, the pixel-to-sky transformation is defined as: $$\phi &= \arg\left(\frac{Y_0 - y}{R_\theta}, \frac{x}{R_\theta}\right) / C \\ R_\theta &= \mathrm{sign} \theta_a \sqrt{x^2 + (Y_0 - y)^2}$$ and the inverse (sky-to-pixel) is defined as: $$x &= R_\theta \sin (C \phi) \\ y &= R_\theta \cos (C \phi) + Y_0$$ where $C$ is the "constant of the cone": $$C = \frac{180^\circ \cos \theta}{\pi R_\theta}$$ allOf: - $ref: "transform-1.0.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky sigma: type: number description: | $(\theta_1 + \theta_2) / 2$ where $\theta_1$ and $\theta_2$ are the latitudes of the standard parallels, in degrees. This parameter is also referred to as `theta_A`. delta: type: number description: | $(\theta_1 - \theta_2) / 2$ where $\theta_1$ and $\theta_2$ are the latitudes of the standard parallels, in degrees. This parameter is also referred to as `delta`. default: 0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic-1.1.0.yaml0000644000175100001770000000262014514267315025613 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic-1.1.0" title: | Base class of all conic projections. description: | In conic projections, the sphere is thought to be projected onto the surface of a cone which is then opened out. In a general sense, the pixel-to-sky transformation is defined as: $$\phi &= \arg\left(\frac{Y_0 - y}{R_\theta}, \frac{x}{R_\theta}\right) / C \\ R_\theta &= \mathrm{sign} \theta_a \sqrt{x^2 + (Y_0 - y)^2}$$ and the inverse (sky-to-pixel) is defined as: $$x &= R_\theta \sin (C \phi) \\ y &= R_\theta \cos (C \phi) + Y_0$$ where $C$ is the "constant of the cone": $$C = \frac{180^\circ \cos \theta}{\pi R_\theta}$$ allOf: - $ref: "transform-1.1.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky sigma: type: number description: | $(\theta_1 + \theta_2) / 2$ where $\theta_1$ and $\theta_2$ are the latitudes of the standard parallels, in degrees. This parameter is also referred to as `theta_A`. delta: type: number description: | $(\theta_1 - \theta_2) / 2$ where $\theta_1$ and $\theta_2$ are the latitudes of the standard parallels, in degrees. This parameter is also referred to as `delta`. default: 0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic-1.2.0.yaml0000644000175100001770000000301414514267315025612 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic-1.2.0" title: | Base class of all conic projections. description: | In conic projections, the sphere is thought to be projected onto the surface of a cone which is then opened out. In a general sense, the pixel-to-sky transformation is defined as: $$\phi &= \arg\left(\frac{Y_0 - y}{R_\theta}, \frac{x}{R_\theta}\right) / C \\ R_\theta &= \mathrm{sign} \theta_a \sqrt{x^2 + (Y_0 - y)^2}$$ and the inverse (sky-to-pixel) is defined as: $$x &= R_\theta \sin (C \phi) \\ y &= R_\theta \cos (C \phi) + Y_0$$ where $C$ is the "constant of the cone": $$C = \frac{180^\circ \cos \theta}{\pi R_\theta}$$ allOf: - $ref: "transform-1.1.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky sigma: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | $(\theta_1 + \theta_2) / 2$ where $\theta_1$ and $\theta_2$ are the latitudes of the standard parallels, in degrees. This parameter is also referred to as `theta_A`. delta: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | $(\theta_1 - \theta_2) / 2$ where $\theta_1$ and $\theta_2$ are the latitudes of the standard parallels, in degrees. This parameter is also referred to as `delta`. default: 0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic-1.3.0.yaml0000644000175100001770000000301414514267315025613 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic-1.3.0" title: | Base class of all conic projections. description: | In conic projections, the sphere is thought to be projected onto the surface of a cone which is then opened out. In a general sense, the pixel-to-sky transformation is defined as: $$\phi &= \arg\left(\frac{Y_0 - y}{R_\theta}, \frac{x}{R_\theta}\right) / C \\ R_\theta &= \mathrm{sign} \theta_a \sqrt{x^2 + (Y_0 - y)^2}$$ and the inverse (sky-to-pixel) is defined as: $$x &= R_\theta \sin (C \phi) \\ y &= R_\theta \cos (C \phi) + Y_0$$ where $C$ is the "constant of the cone": $$C = \frac{180^\circ \cos \theta}{\pi R_\theta}$$ allOf: - $ref: "transform-1.2.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky sigma: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | $(\theta_1 + \theta_2) / 2$ where $\theta_1$ and $\theta_2$ are the latitudes of the standard parallels, in degrees. This parameter is also referred to as `theta_A`. delta: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | $(\theta_1 - \theta_2) / 2$ where $\theta_1$ and $\theta_2$ are the latitudes of the standard parallels, in degrees. This parameter is also referred to as `delta`. default: 0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic_equal_area-1.0.0.yaml0000644000175100001770000000152214514267315027771 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic_equal_area-1.0.0" title: | Alber's conic equal area projection. description: | Corresponds to the `COE` projection in the FITS WCS standard. See [conic](ref:schemas/conic-1.0.0) for the definition of the full transformation. The transformation is defined as: $$C &= \gamma / 2 \\ R_\theta &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin \theta} \\ Y_0 &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin((\theta_1 + \theta_2)/2)}$$ where: $$\gamma = \sin \theta_1 + \sin \theta_2$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "conic-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic_equal_area-1.1.0.yaml0000644000175100001770000000152214514267315027772 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic_equal_area-1.1.0" title: | Alber's conic equal area projection. description: | Corresponds to the `COE` projection in the FITS WCS standard. See [conic](ref:schemas/conic-1.1.0) for the definition of the full transformation. The transformation is defined as: $$C &= \gamma / 2 \\ R_\theta &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin \theta} \\ Y_0 &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin((\theta_1 + \theta_2)/2)}$$ where: $$\gamma = \sin \theta_1 + \sin \theta_2$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "conic-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic_equal_area-1.2.0.yaml0000644000175100001770000000152214514267315027773 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic_equal_area-1.2.0" title: | Alber's conic equal area projection. description: | Corresponds to the `COE` projection in the FITS WCS standard. See [conic](ref:schemas/conic-1.2.0) for the definition of the full transformation. The transformation is defined as: $$C &= \gamma / 2 \\ R_\theta &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin \theta} \\ Y_0 &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin((\theta_1 + \theta_2)/2)}$$ where: $$\gamma = \sin \theta_1 + \sin \theta_2$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "conic-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic_equal_area-1.3.0.yaml0000644000175100001770000000152214514267315027774 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic_equal_area-1.3.0" title: | Alber's conic equal area projection. description: | Corresponds to the `COE` projection in the FITS WCS standard. See [conic](ref:schemas/conic-1.3.0) for the definition of the full transformation. The transformation is defined as: $$C &= \gamma / 2 \\ R_\theta &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin \theta} \\ Y_0 &= \frac{180^\circ}{\pi} \frac{2}{\gamma} \sqrt{1 + \sin \theta_1 \sin \theta_2 - \gamma \sin((\theta_1 + \theta_2)/2)}$$ where: $$\gamma = \sin \theta_1 + \sin \theta_2$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "conic-1.3.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic_equidistant-1.0.0.yaml0000644000175100001770000000125614514267315030230 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic_equidistant-1.0.0" title: | Conic equidistant projection. description: | Corresponds to the `COD` projection in the FITS WCS standard. See [conic](ref:schemas/conic-1.0.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{180^\circ}{\pi} \frac{\sin\theta_a\sin\eta}{\eta} \\ R_\theta &= \theta_a - \theta + \eta\cot\eta\cot\theta_a \\ Y_0 = \eta\cot\eta\cot\theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "conic-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic_equidistant-1.1.0.yaml0000644000175100001770000000125614514267315030231 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic_equidistant-1.1.0" title: | Conic equidistant projection. description: | Corresponds to the `COD` projection in the FITS WCS standard. See [conic](ref:schemas/conic-1.1.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{180^\circ}{\pi} \frac{\sin\theta_a\sin\eta}{\eta} \\ R_\theta &= \theta_a - \theta + \eta\cot\eta\cot\theta_a \\ Y_0 = \eta\cot\eta\cot\theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "conic-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic_equidistant-1.2.0.yaml0000644000175100001770000000125614514267315030232 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic_equidistant-1.2.0" title: | Conic equidistant projection. description: | Corresponds to the `COD` projection in the FITS WCS standard. See [conic](ref:schemas/conic-1.2.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{180^\circ}{\pi} \frac{\sin\theta_a\sin\eta}{\eta} \\ R_\theta &= \theta_a - \theta + \eta\cot\eta\cot\theta_a \\ Y_0 = \eta\cot\eta\cot\theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "conic-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic_equidistant-1.3.0.yaml0000644000175100001770000000125614514267315030233 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic_equidistant-1.3.0" title: | Conic equidistant projection. description: | Corresponds to the `COD` projection in the FITS WCS standard. See [conic](ref:schemas/conic-1.3.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{180^\circ}{\pi} \frac{\sin\theta_a\sin\eta}{\eta} \\ R_\theta &= \theta_a - \theta + \eta\cot\eta\cot\theta_a \\ Y_0 = \eta\cot\eta\cot\theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "conic-1.3.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic_orthomorphic-1.0.0.yaml0000644000175100001770000000205414514267315030410 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic_orthomorphic-1.0.0" title: | Conic orthomorphic projection. description: | Corresponds to the `COO` projection in the FITS WCS standard. See [conic](ref:schemas/conic-1.0.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{\ln \left( \frac{\cos\theta_2}{\cos\theta_1} \right)} {\ln \left[ \frac{\tan\left(\frac{90^\circ-\theta_2}{2}\right)} {\tan\left(\frac{90^\circ-\theta_1}{2}\right)} \right] } \\ R_\theta &= \psi \left[ \tan \left( \frac{90^\circ - \theta}{2} \right) \right]^C \\ Y_0 &= \psi \left[ \tan \left( \frac{90^\circ - \theta_a}{2} \right) \right]^C$$ where: $$\psi = \frac{180^\circ}{\pi} \frac{\cos \theta} {C\left[\tan\left(\frac{90^\circ-\theta}{2}\right)\right]^C}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "conic-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic_orthomorphic-1.1.0.yaml0000644000175100001770000000205414514267315030411 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic_orthomorphic-1.1.0" title: | Conic orthomorphic projection. description: | Corresponds to the `COO` projection in the FITS WCS standard. See [conic](ref:schemas/conic-1.1.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{\ln \left( \frac{\cos\theta_2}{\cos\theta_1} \right)} {\ln \left[ \frac{\tan\left(\frac{90^\circ-\theta_2}{2}\right)} {\tan\left(\frac{90^\circ-\theta_1}{2}\right)} \right] } \\ R_\theta &= \psi \left[ \tan \left( \frac{90^\circ - \theta}{2} \right) \right]^C \\ Y_0 &= \psi \left[ \tan \left( \frac{90^\circ - \theta_a}{2} \right) \right]^C$$ where: $$\psi = \frac{180^\circ}{\pi} \frac{\cos \theta} {C\left[\tan\left(\frac{90^\circ-\theta}{2}\right)\right]^C}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "conic-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic_orthomorphic-1.2.0.yaml0000644000175100001770000000205414514267315030412 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic_orthomorphic-1.2.0" title: | Conic orthomorphic projection. description: | Corresponds to the `COO` projection in the FITS WCS standard. See [conic](ref:schemas/conic-1.2.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{\ln \left( \frac{\cos\theta_2}{\cos\theta_1} \right)} {\ln \left[ \frac{\tan\left(\frac{90^\circ-\theta_2}{2}\right)} {\tan\left(\frac{90^\circ-\theta_1}{2}\right)} \right] } \\ R_\theta &= \psi \left[ \tan \left( \frac{90^\circ - \theta}{2} \right) \right]^C \\ Y_0 &= \psi \left[ \tan \left( \frac{90^\circ - \theta_a}{2} \right) \right]^C$$ where: $$\psi = \frac{180^\circ}{\pi} \frac{\cos \theta} {C\left[\tan\left(\frac{90^\circ-\theta}{2}\right)\right]^C}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "conic-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic_orthomorphic-1.3.0.yaml0000644000175100001770000000205414514267315030413 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic_orthomorphic-1.3.0" title: | Conic orthomorphic projection. description: | Corresponds to the `COO` projection in the FITS WCS standard. See [conic](ref:schemas/conic-1.3.0) for the definition of the full transformation. The transformation is defined as: $$C &= \frac{\ln \left( \frac{\cos\theta_2}{\cos\theta_1} \right)} {\ln \left[ \frac{\tan\left(\frac{90^\circ-\theta_2}{2}\right)} {\tan\left(\frac{90^\circ-\theta_1}{2}\right)} \right] } \\ R_\theta &= \psi \left[ \tan \left( \frac{90^\circ - \theta}{2} \right) \right]^C \\ Y_0 &= \psi \left[ \tan \left( \frac{90^\circ - \theta_a}{2} \right) \right]^C$$ where: $$\psi = \frac{180^\circ}{\pi} \frac{\cos \theta} {C\left[\tan\left(\frac{90^\circ-\theta}{2}\right)\right]^C}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "conic-1.3.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic_perspective-1.0.0.yaml0000644000175100001770000000130014514267315030215 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic_perspective-1.0.0" title: | Colles' conic perspecitve projection. description: | Corresponds to the `COP` projection in the FITS WCS standard. See [conic](ref:schemas/conic-1.0.0) for the definition of the full transformation. The transformation is defined as: $$C &= \sin \theta_a \\ R_\theta &= \frac{180^\circ}{\pi} \cos \eta [ \cot \theta_a - \tan(\theta - \theta_a)] \\ Y_0 &= \frac{180^\circ}{\pi} \cos \eta \cot \theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "conic-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic_perspective-1.1.0.yaml0000644000175100001770000000130014514267315030216 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic_perspective-1.1.0" title: | Colles' conic perspecitve projection. description: | Corresponds to the `COP` projection in the FITS WCS standard. See [conic](ref:schemas/conic-1.1.0) for the definition of the full transformation. The transformation is defined as: $$C &= \sin \theta_a \\ R_\theta &= \frac{180^\circ}{\pi} \cos \eta [ \cot \theta_a - \tan(\theta - \theta_a)] \\ Y_0 &= \frac{180^\circ}{\pi} \cos \eta \cot \theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "conic-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic_perspective-1.2.0.yaml0000644000175100001770000000130014514267315030217 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic_perspective-1.2.0" title: | Colles' conic perspecitve projection. description: | Corresponds to the `COP` projection in the FITS WCS standard. See [conic](ref:schemas/conic-1.2.0) for the definition of the full transformation. The transformation is defined as: $$C &= \sin \theta_a \\ R_\theta &= \frac{180^\circ}{\pi} \cos \eta [ \cot \theta_a - \tan(\theta - \theta_a)] \\ Y_0 &= \frac{180^\circ}{\pi} \cos \eta \cot \theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "conic-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/conic_perspective-1.3.0.yaml0000644000175100001770000000130014514267315030220 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/conic_perspective-1.3.0" title: | Colles' conic perspecitve projection. description: | Corresponds to the `COP` projection in the FITS WCS standard. See [conic](ref:schemas/conic-1.3.0) for the definition of the full transformation. The transformation is defined as: $$C &= \sin \theta_a \\ R_\theta &= \frac{180^\circ}{\pi} \cos \eta [ \cot \theta_a - \tan(\theta - \theta_a)] \\ Y_0 &= \frac{180^\circ}{\pi} \cos \eta \cot \theta_a$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "conic-1.3.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/constant-1.0.0.yaml0000644000175100001770000000076514514267315026360 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/constant-1.0.0" title: > A transform that takes no inputs and always outputs a constant value. description: | Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, which always outputs zero values. allOf: - $ref: "transform-1.0.0" - type: object properties: value: type: number required: [value] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/constant-1.1.0.yaml0000644000175100001770000000076514514267315026361 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/constant-1.1.0" title: > A transform that takes no inputs and always outputs a constant value. description: | Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, which always outputs zero values. allOf: - $ref: "transform-1.1.0" - type: object properties: value: type: number required: [value] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/constant-1.2.0.yaml0000644000175100001770000000106314514267315026352 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/constant-1.2.0" title: > A transform that takes no inputs and always outputs a constant value. description: | Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, which always outputs zero values. allOf: - $ref: "transform-1.1.0" - type: object properties: value: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number required: [value] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/constant-1.3.0.yaml0000644000175100001770000000106314514267315026353 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/constant-1.3.0" title: > A transform that takes no inputs and always outputs a constant value. description: | Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform, which always outputs zero values. allOf: - $ref: "transform-1.2.0" - type: object properties: value: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number required: [value] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/constant-1.4.0.yaml0000644000175100001770000000106714514267315026360 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/constant-1.4.0" title: > A Constant transform. description: | Invertibility: A transform which takes one or two inputs based on dimensionality and returns a constant value. It has no analytical inverse. allOf: - $ref: "transform-1.2.0" - type: object properties: value: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number dimensions: type: integer required: [value, dimensions] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/cosine1d-1.0.0.yaml0000644000175100001770000000161414514267315026226 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/cosine1d-1.0.0" title: > One dimensional cosine model. description: > One dimensional cosine. examples: - - $$f(x)=10.0cos(2\pi *0.5x+2\pi*1.0)$$ - | !transform/cosine1d-1.0.0 {amplitude: 10.0, frequency: 0.5, phase: 1.0} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation amplitude. frequency: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation frequency. phase: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation phase. required: ['amplitude', 'frequency', 'phase'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/cylindrical-1.0.0.yaml0000644000175100001770000000063114514267315027014 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/cylindrical-1.0.0" title: | Base class of all cylindrical projections. description: | The surface of cylindrical projections is a cylinder. allOf: - $ref: "transform-1.0.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/cylindrical-1.1.0.yaml0000644000175100001770000000063114514267315027015 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/cylindrical-1.1.0" title: | Base class of all cylindrical projections. description: | The surface of cylindrical projections is a cylinder. allOf: - $ref: "transform-1.1.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/cylindrical-1.2.0.yaml0000644000175100001770000000063114514267315027016 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/cylindrical-1.2.0" title: | Base class of all cylindrical projections. description: | The surface of cylindrical projections is a cylinder. allOf: - $ref: "transform-1.2.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/cylindrical_equal_area-1.0.0.yaml0000644000175100001770000000152614514267315031177 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/cylindrical_equal_area-1.0.0" title: | The cylindrical equal area projection. description: | Corresponds to the `CEA` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^{\circ}}\lambda y\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\frac{\sin \theta}{\lambda}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "cylindrical-1.0.0" - type: object properties: lambda: type: number description: | Radius of the cylinder in spherical radii, default is 1. default: 1 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/cylindrical_equal_area-1.1.0.yaml0000644000175100001770000000152614514267315031200 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/cylindrical_equal_area-1.1.0" title: | The cylindrical equal area projection. description: | Corresponds to the `CEA` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^{\circ}}\lambda y\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\frac{\sin \theta}{\lambda}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "cylindrical-1.1.0" - type: object properties: lambda: type: number description: | Radius of the cylinder in spherical radii, default is 1. default: 1 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/cylindrical_equal_area-1.2.0.yaml0000644000175100001770000000162414514267315031200 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/cylindrical_equal_area-1.2.0" title: | The cylindrical equal area projection. description: | Corresponds to the `CEA` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^{\circ}}\lambda y\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\frac{\sin \theta}{\lambda}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "cylindrical-1.1.0" - type: object properties: lambda: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | Radius of the cylinder in spherical radii, default is 1. default: 1 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/cylindrical_equal_area-1.3.0.yaml0000644000175100001770000000162414514267315031201 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/cylindrical_equal_area-1.3.0" title: | The cylindrical equal area projection. description: | Corresponds to the `CEA` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^{\circ}}\lambda y\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\frac{\sin \theta}{\lambda}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "cylindrical-1.2.0" - type: object properties: lambda: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | Radius of the cylinder in spherical radii, default is 1. default: 1 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/cylindrical_perspective-1.0.0.yaml0000644000175100001770000000214714514267315031431 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/cylindrical_perspective-1.0.0" title: | The cylindrical perspective projection. description: | Corresponds to the `CYP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\lambda} \\ \theta &= \arg(1, \eta) + \sin{-1}\left(\frac{\eta \mu}{\sqrt{\eta^2 + 1}}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \lambda \phi \\ y &= \frac{180^{\circ}}{\pi}\left(\frac{\mu + \lambda}{\mu + \cos \theta}\right)\sin \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "cylindrical-1.0.0" - type: object properties: mu: type: number description: | Distance from center of sphere in the direction opposite the projected surface, in spherical radii. default: 1 lambda: type: number description: | Radius of the cylinder in spherical radii, default is 1. default: 1 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/cylindrical_perspective-1.1.0.yaml0000644000175100001770000000214714514267315031432 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/cylindrical_perspective-1.1.0" title: | The cylindrical perspective projection. description: | Corresponds to the `CYP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\lambda} \\ \theta &= \arg(1, \eta) + \sin{-1}\left(\frac{\eta \mu}{\sqrt{\eta^2 + 1}}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \lambda \phi \\ y &= \frac{180^{\circ}}{\pi}\left(\frac{\mu + \lambda}{\mu + \cos \theta}\right)\sin \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "cylindrical-1.1.0" - type: object properties: mu: type: number description: | Distance from center of sphere in the direction opposite the projected surface, in spherical radii. default: 1 lambda: type: number description: | Radius of the cylinder in spherical radii, default is 1. default: 1 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/cylindrical_perspective-1.2.0.yaml0000644000175100001770000000234314514267315031431 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/cylindrical_perspective-1.2.0" title: | The cylindrical perspective projection. description: | Corresponds to the `CYP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\lambda} \\ \theta &= \arg(1, \eta) + \sin{-1}\left(\frac{\eta \mu}{\sqrt{\eta^2 + 1}}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \lambda \phi \\ y &= \frac{180^{\circ}}{\pi}\left(\frac{\mu + \lambda}{\mu + \cos \theta}\right)\sin \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "cylindrical-1.1.0" - type: object properties: mu: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | Distance from center of sphere in the direction opposite the projected surface, in spherical radii. default: 1 lambda: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | Radius of the cylinder in spherical radii, default is 1. default: 1 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/cylindrical_perspective-1.3.0.yaml0000644000175100001770000000234314514267315031432 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/cylindrical_perspective-1.3.0" title: | The cylindrical perspective projection. description: | Corresponds to the `CYP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\lambda} \\ \theta &= \arg(1, \eta) + \sin{-1}\left(\frac{\eta \mu}{\sqrt{\eta^2 + 1}}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \lambda \phi \\ y &= \frac{180^{\circ}}{\pi}\left(\frac{\mu + \lambda}{\mu + \cos \theta}\right)\sin \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "cylindrical-1.2.0" - type: object properties: mu: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | Distance from center of sphere in the direction opposite the projected surface, in spherical radii. default: 1 lambda: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | Radius of the cylinder in spherical radii, default is 1. default: 1 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/disk2d-1.0.0.yaml0000644000175100001770000000230214514267315025674 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/disk2d-1.0.0" title: > Two dimensional disk model. description: > Two dimensional radially symmetric disk. examples: - - A 2D disk centered at (x, y) = (0.5, 1.5), of radius 5.0 and amplitude 10.0. - | !transform/disk2d-1.0.0 R_0: 5.0 amplitude: 10.0 bounding_box: - [-3.5, 6.5] - [-4.5, 5.5] x_0: 0.5 y_0: 1.5 allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Value of the disk function. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: x position of the center of the disk. y_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: y position of the center of the disk. R_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Radius of the disk. required: ['amplitude', 'x_0', 'y_0', 'R_0'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/divide-1.0.0.yaml0000644000175100001770000000146714514267315025773 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/divide-1.0.0" title: > Perform a list of subtransforms in parallel and then divide their results. description: | Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. examples: - - A list of transforms, performed in parallel, and then combined through division. - | !transform/divide-1.0.0 forward: - !transform/shift-1.0.0 offset: 2.0 - !transform/shift-1.0.0 offset: 2.0 allOf: - $ref: "transform-1.0.0" - properties: forward: type: array items: $ref: "transform-1.0.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/divide-1.1.0.yaml0000644000175100001770000000146714514267315025774 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/divide-1.1.0" title: > Perform a list of subtransforms in parallel and then divide their results. description: | Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. examples: - - A list of transforms, performed in parallel, and then combined through division. - | !transform/divide-1.1.0 forward: - !transform/shift-1.1.0 offset: 2.0 - !transform/shift-1.1.0 offset: 2.0 allOf: - $ref: "transform-1.1.0" - properties: forward: type: array items: $ref: "transform-1.1.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/divide-1.2.0.yaml0000644000175100001770000000146714514267315025775 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/divide-1.2.0" title: > Perform a list of subtransforms in parallel and then divide their results. description: | Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. examples: - - A list of transforms, performed in parallel, and then combined through division. - | !transform/divide-1.2.0 forward: - !transform/shift-1.2.0 offset: 2.0 - !transform/shift-1.2.0 offset: 2.0 allOf: - $ref: "transform-1.2.0" - properties: forward: type: array items: $ref: "transform-1.2.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/domain-1.0.0.yaml0000644000175100001770000000175514514267315025776 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/domain-1.0.0" title: > Defines the domain of an input axis. (deprecated since 1.1.0) description: > Describes the range of acceptable input values to a particular axis of a transform. examples: - - The domain `[0, 1)`. - | !transform/domain-1.0.0 lower: 0 upper: 1 includes_lower: true properties: lower: description: > The lower value of the domain. If not provided, the domain has no lower limit. type: number default: -.inf upper: description: > The upper value of the domain. If not provided, the domain has no upper limit. type: number default: .inf includes_lower: description: If `true`, the domain includes `lower`. type: boolean default: false includes_upper: description: If `true`, the domain includes `upper`. type: boolean default: false ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/drude1d-1.0.0.yaml0000644000175100001770000000177514514267315026061 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/drude1d-1.0.0" title: > One dimensional Drude model description: > Drude model based one the behavior of electons in materials (esp. metals). examples: - - $$f(x) = 10.0 \frac{(2.5/0.5)^2}{((x/0.5 - 0.5/x)^2 + (2.5/0.5)^2}$$ - | !transform/drude1d-1.0.0 amplitude: 10.0 bounding_box: [-124.5, 125.5] fwhm: 2.5 x_0: 0.5 allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Peak value. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: x position of the peak. fwhm: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Full width at half maximum required: ['amplitude', 'x_0', 'fwhm'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/ellipse2d-1.0.0.yaml0000644000175100001770000000341114514267315026401 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/ellipse2d-1.0.0" title: > Two dimensional ellipse model. description: > Two dimensional ellipse. examples: - - A 2D ellipse centered at (x, y) = (0.5, 1.5), with a semimajor axis of 2.0, semiminor axis of 4.0, oriented at 0.2 radians counterclockwise from the positive x-axis. - | !transform/ellipse2d-1.0.0 a: 2.0 amplitude: 10.0 b: 4.0 bounding_box: - [-2.4403509950278934, 5.440350995027893] - [-1.6150966966034175, 2.6150966966034175] theta: 0.2 x_0: 0.5 y_0: 1.5 allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Value of the ellipse. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: x position of the center of the ellipse. y_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: y position of the center of the ellipse. a: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: The length of the semimajor axis. b: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: The length of the seminor axis. theta: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: The rotation angle in radians of the semimajor axis. The rotation angle increase counterclockwise from the positive x axis. required: ['amplitude', 'x_0', 'y_0', 'a', 'b', 'theta'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/exponential1d-1.0.0.yaml0000644000175100001770000000136514514267315027277 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/exponential1d-1.0.0" title: > One dimensional exponential model. description: > One dimensional exponential model. examples: - - $$f(x) = 10.0e^{x/2.5}$$ - | !transform/exponential1d-1.0.0 {amplitude: 10.0, tau: 2.5} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Amplitude or scaling factor. r_core: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Denominator in exponent. required: ['amplitude', 'tau'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/exponential_cutoff_power_law1d-1.0.0.yaml0000644000175100001770000000221014514267315032712 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/exponential_cutoff_power_law1d-1.0.0" title: > One dimensional power law model with an exponential cutoff. description: > One dimensional power law model with an exponential cutoff. examples: - - $$f(x) = 10.0 (x / 5.0) ^ {-2.0} \exp (-x / 7.0)$$ - | !transform/exponential_cutoff_power_law1d-1.0.0 {alpha: 2.0, amplitude: 10.0, x_0: 5.0, x_cutoff: 7.0} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Model amplitude. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Reference point. alpha: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Power law index. x_cutoff: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Cutoff point. required: ['amplitude', 'x_0', 'alpha', 'x_cutoff'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/fix_inputs-1.1.0.yaml0000644000175100001770000000333214514267315026711 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/fix_inputs-1.1.0" title: > Set to a constant selected input arguments of a model. description: | This operation takes as the right hand side a dict equivalent that consists of key:value pairs where the key identifies the input argument to be set, either by position number (0 based) or name, and the value is the floating point value that should be assigned to that input. The result is a compound model with n fewer input arguments where n is the number of input values to be set (i.e., the number of keys in the dict). examples: - - Fix the 0-th coordinate. - | !transform/fix_inputs-1.1.0 forward: - !transform/compose-1.1.0 forward: - !transform/gnomonic-1.1.0 {direction: pix2sky} - !transform/rotate2d-1.2.0 {angle: 23.0} - keys: [0] values: [2] - - Fix the "x" coordinate. - | !transform/fix_inputs-1.1.0 forward: - !transform/compose-1.1.0 forward: - !transform/gnomonic-1.1.0 {direction: pix2sky} - !transform/rotate2d-1.2.0 {angle: 23.0} - keys: [x] values: [2] allOf: - $ref: "transform-1.1.0" - properties: forward: type: array items: - $ref: "transform-1.1.0" - type: object properties: keys: type: array items: type: [string, integer] values: type: array items: - type: number minItems: 2 maxItems: 2 required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/fix_inputs-1.2.0.yaml0000644000175100001770000000333214514267315026712 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/fix_inputs-1.2.0" title: > Set to a constant selected input arguments of a model. description: | This operation takes as the right hand side a dict equivalent that consists of key:value pairs where the key identifies the input argument to be set, either by position number (0 based) or name, and the value is the floating point value that should be assigned to that input. The result is a compound model with n fewer input arguments where n is the number of input values to be set (i.e., the number of keys in the dict). examples: - - Fix the 0-th coordinate. - | !transform/fix_inputs-1.2.0 forward: - !transform/compose-1.2.0 forward: - !transform/gnomonic-1.2.0 {direction: pix2sky} - !transform/rotate2d-1.3.0 {angle: 23.0} - keys: [0] values: [2] - - Fix the "x" coordinate. - | !transform/fix_inputs-1.2.0 forward: - !transform/compose-1.2.0 forward: - !transform/gnomonic-1.2.0 {direction: pix2sky} - !transform/rotate2d-1.3.0 {angle: 23.0} - keys: [x] values: [2] allOf: - $ref: "transform-1.2.0" - properties: forward: type: array items: - $ref: "transform-1.2.0" - type: object properties: keys: type: array items: type: [string, integer] values: type: array items: - type: number minItems: 2 maxItems: 2 required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/gaussian1d-1.0.0.yaml0000644000175100001770000000166314514267315026564 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/gaussian1d-1.0.0" title: > A 1D Gaussian model. description: > A 1D gaussian distribution. examples: - - $$f(x) = 10.0 e^{- \frac{\left(x - 1.5\right)^{2}}{2*0.25^{2}}}$$ - | !transform/gaussian1d-1.0.0 amplitude: 10.0 bounding_box: [0.125, 2.875] mean: 1.5 stddev: 0.25 allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Amplitude. mean: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Mean. stddev: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Standard deviation. required: [amplitude, mean, stddev] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/gaussian2d-1.0.0.yaml0000644000175100001770000000370014514267315026557 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/gaussian2d-1.0.0" title: > A 2D Gaussian model. description: > A 2D gaussian distribution. examples: - - $f(x, y) = 10.0 e^{-a\left(x - 1.5\right)^{2} -b\left(x - 1.5\right) \left(y - 2.5\right) -c\left(y - 2.5\right)^{2}}$ using the following definitions $a = \left(\frac{\cos^{2}{\left (0 \right )}}{2*0.25^{2}} +\frac{\sin^{2}{\left (0 \right )}}{2*0.375^{2}}\right)$, $b = \left(\frac{\sin{\left (2 *0 \right )}}{2 *0.25^{2}} -\frac{\sin{\left (2 *0 \right )}}{2*0.375^{2}}\right)$, $c = \left(\frac{\sin^{2}{\left (0\right )}}{2*0.25^{2}} +\frac{\cos^{2}{\left (0 \right )}}{2*0.375^{2}}\right)$ - | !transform/gaussian2d-1.0.0 amplitude: 10.0 bounding_box: - [0.4375, 4.5625] - [0.125, 2.875] theta: 0.0 x_mean: 1.5 x_stddev: 0.25 y_mean: 2.5 y_stddev: 0.375 allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Amplitude. x_mean: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Mean in x. y_mean: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Mean in y. x_stddev: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Standard deviation in x. y_stddev: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Standard deviation in y. theta: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Rotation angle in radians, increases counterclockwise. required: ['amplitude', 'x_mean', 'y_mean', 'x_stddev', 'y_stddev', 'theta'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/gnomonic-1.0.0.yaml0000644000175100001770000000127614514267315026336 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/gnomonic-1.0.0" title: | The gnomonic projection. description: | Corresponds to the `TAN` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.0.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/gnomonic-1.1.0.yaml0000644000175100001770000000127614514267315026337 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/gnomonic-1.1.0" title: | The gnomonic projection. description: | Corresponds to the `TAN` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/gnomonic-1.2.0.yaml0000644000175100001770000000127614514267315026340 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/gnomonic-1.2.0" title: | The gnomonic projection. description: | Corresponds to the `TAN` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/hammer_aitoff-1.0.0.yaml0000644000175100001770000000146314514267315027324 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/hammer_aitoff-1.0.0" title: | Hammer-Aitoff projection. description: | Corresponds to the `AIT` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= 2 \arg \left(2Z^2 - 1, \frac{\pi}{180^\circ} \frac{Z}{2}x\right) \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^\circ}yZ\right)$$ And the sky-to-pixel transformation is defined as: $$x &= 2 \gamma \cos \theta \sin \frac{\phi}{2} \\ y &= \gamma \sin \theta$$ where: $$\gamma = \frac{180^\circ}{\pi} \sqrt{\frac{2}{1 + \cos \theta \cos(\phi / 2)}}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudocylindrical-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/hammer_aitoff-1.1.0.yaml0000644000175100001770000000146314514267315027325 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/hammer_aitoff-1.1.0" title: | Hammer-Aitoff projection. description: | Corresponds to the `AIT` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= 2 \arg \left(2Z^2 - 1, \frac{\pi}{180^\circ} \frac{Z}{2}x\right) \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^\circ}yZ\right)$$ And the sky-to-pixel transformation is defined as: $$x &= 2 \gamma \cos \theta \sin \frac{\phi}{2} \\ y &= \gamma \sin \theta$$ where: $$\gamma = \frac{180^\circ}{\pi} \sqrt{\frac{2}{1 + \cos \theta \cos(\phi / 2)}}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudocylindrical-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/hammer_aitoff-1.2.0.yaml0000644000175100001770000000146314514267315027326 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/hammer_aitoff-1.2.0" title: | Hammer-Aitoff projection. description: | Corresponds to the `AIT` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= 2 \arg \left(2Z^2 - 1, \frac{\pi}{180^\circ} \frac{Z}{2}x\right) \\ \theta &= \sin^{-1}\left(\frac{\pi}{180^\circ}yZ\right)$$ And the sky-to-pixel transformation is defined as: $$x &= 2 \gamma \cos \theta \sin \frac{\phi}{2} \\ y &= \gamma \sin \theta$$ where: $$\gamma = \frac{180^\circ}{\pi} \sqrt{\frac{2}{1 + \cos \theta \cos(\phi / 2)}}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudocylindrical-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/healpix-1.0.0.yaml0000644000175100001770000000135314514267315026153 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/healpix-1.0.0" title: | HEALPix projection. description: | Corresponds to the `HPX` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "transform-1.0.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky H: type: number description: | The number of facets in the longitude direction. default: 4.0 X: type: number description: | The number of facets in the latitude direction. default: 3.0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/healpix-1.1.0.yaml0000644000175100001770000000135314514267315026154 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/healpix-1.1.0" title: | HEALPix projection. description: | Corresponds to the `HPX` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "transform-1.1.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky H: type: number description: | The number of facets in the longitude direction. default: 4.0 X: type: number description: | The number of facets in the latitude direction. default: 3.0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/healpix-1.2.0.yaml0000644000175100001770000000135314514267315026155 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/healpix-1.2.0" title: | HEALPix projection. description: | Corresponds to the `HPX` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "transform-1.2.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky H: type: number description: | The number of facets in the longitude direction. default: 4.0 X: type: number description: | The number of facets in the latitude direction. default: 3.0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/healpix_polar-1.0.0.yaml0000644000175100001770000000077614514267315027360 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/healpix_polar-1.0.0" title: | HEALPix polar, aka "butterfly", projection. description: | Corresponds to the `XPH` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "transform-1.0.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/healpix_polar-1.1.0.yaml0000644000175100001770000000077614514267315027361 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/healpix_polar-1.1.0" title: | HEALPix polar, aka "butterfly", projection. description: | Corresponds to the `XPH` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "transform-1.1.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/healpix_polar-1.2.0.yaml0000644000175100001770000000077614514267315027362 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/healpix_polar-1.2.0" title: | HEALPix polar, aka "butterfly", projection. description: | Corresponds to the `XPH` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "transform-1.2.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/identity-1.0.0.yaml0000644000175100001770000000070114514267315026346 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/identity-1.0.0" title: > The identity transform. description: > Invertibility: The inverse of this transform is also the identity transform. allOf: - $ref: "transform-1.0.0" - type: object properties: n_dims: type: integer default: 1 description: | The number of dimensions. ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/identity-1.1.0.yaml0000644000175100001770000000070114514267315026347 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/identity-1.1.0" title: > The identity transform. description: > Invertibility: The inverse of this transform is also the identity transform. allOf: - $ref: "transform-1.1.0" - type: object properties: n_dims: type: integer default: 1 description: | The number of dimensions. ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/identity-1.2.0.yaml0000644000175100001770000000070114514267315026350 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/identity-1.2.0" title: > The identity transform. description: > Invertibility: The inverse of this transform is also the identity transform. allOf: - $ref: "transform-1.2.0" - type: object properties: n_dims: type: integer default: 1 description: | The number of dimensions. ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/king_projected_analytic1d-1.0.0.yaml0000644000175100001770000000210714514267315031617 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/king_projected_analytic1d-1.0.0" title: > Projected (surface density) analytic King Model. description: > Projected (surface density) analytic King Model. examples: - - $$f(x)=f(x)=10.0(12.2)^2\left(\frac{1}{\sqrt{x^2+(12.2)^2}}-\frac{1}{\sqrt{(15.4)^2+(12.2)^2}}\right)^2$$ - | !transform/king_projected_analytic1d-1.0.0 amplitude: 10.0 bounding_box: [0.0, 15.4] r_core: 12.2 r_tide: 15.4 allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Amplitude or scaling factor. r_core: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Core radius. r_tide: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Tidal radius. required: ['amplitude', 'r_core', 'r_tide'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/label_mapper-1.0.0.yaml0000644000175100001770000000772314514267315027153 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/label_mapper-1.0.0" title: > Represents a mapping from a coordinate value to a label. description: | A label mapper instance maps inputs to a label. It is used together with [regions_selector](ref:schemas/regions_selector-1.0.0). The [label_mapper](ref:schemas/label_mapper-1.0.0) returns the label corresponding to given inputs. The [regions_selector](ref:schemas/regions_selector-1.0.0) returns the transform corresponding to this label. This maps inputs (e.g. pixels on a detector) to transforms uniquely. examples: - - Map array indices are to labels. - | !transform/label_mapper-1.0.0 mapper: !core/ndarray-1.0.0 [[1, 0, 2], [1, 0, 2], [1, 0, 2]] - - Map numbers dictionary to transforms which return labels. - | !transform/label_mapper-1.0.0 mapper: !!omap - !!omap labels: [-1.67833272, -1.9580548, -1.118888] - !!omap models: - !transform/compose-1.0.0 forward: - !transform/remap_axes-1.0.0 mapping: [1] - !transform/shift-1.0.0 {offset: 6.0} - !transform/compose-1.0.0 forward: - !transform/remap_axes-1.0.0 mapping: [1] - !transform/shift-1.0.0 {offset: 2.0} - !transform/compose-1.0.0 forward: - !transform/remap_axes-1.0.0 mapping: [1] - !transform/shift-1.0.0 {offset: 4.0} inputs: [x, y] inputs_mapping: !transform/remap_axes-1.0.0 mapping: [0] n_inputs: 2 - - Map a number within a range of numbers to transforms which return labels. - | !transform/label_mapper-1.0.0 mapper: !!omap - !!omap labels: - [3.2, 4.1] - [2.67, 2.98] - [1.95, 2.3] - !!omap models: - !transform/compose-1.0.0 forward: - !transform/remap_axes-1.0.0 mapping: [1] - !transform/shift-1.0.0 {offset: 6.0} - !transform/compose-1.0.0 forward: - !transform/remap_axes-1.0.0 mapping: [1] - !transform/shift-1.0.0 {offset: 2.0} - !transform/compose-1.0.0 forward: - !transform/remap_axes-1.0.0 mapping: [1] - !transform/shift-1.0.0 {offset: 4.0} inputs: [x, y] inputs_mapping: !transform/remap_axes-1.0.0 mapping: [0] n_inputs: 2 allOf: - $ref: "transform-1.0.0" - type: object properties: mapper: description: | An array with the shape of the detector/observation. Pixel values are of type integer or string and represent region labels. Pixels which are not within any region have value 0 or " ". anyOf: - $ref: "../core/ndarray-1.0.0" - type: object properties: labels: type: array items: anyOf: - type: number - type: array items: type: number minLength: 2 maxLength: 2 models: type: array items: $ref: "transform-1.0.0" inputs: type: array items: type: string description: | Names of inputs. inputs_mapping: $ref: "transform-1.0.0" description: | [mapping](ref:schemas/remap_axes-1.0.0) atol: type: number description: | absolute tolerance to compare keys in mapper. required: [mapper] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/label_mapper-1.1.0.yaml0000644000175100001770000001055514514267315027151 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/label_mapper-1.1.0" title: > Represents a mapping from a coordinate value to a label. description: | A label mapper instance maps inputs to a label. It is used together with [regions_selector](ref:schemas/regions_selector-1.1.0). The [label_mapper](ref:schemas/label_mapper-1.1.0) returns the label corresponding to given inputs. The [regions_selector](ref:schemas/regions_selector-1.1.0) returns the transform corresponding to this label. This maps inputs (e.g. pixels on a detector) to transforms uniquely. examples: - - Map array indices are to labels. - | !transform/label_mapper-1.1.0 mapper: !core/ndarray-1.0.0 [[1, 0, 2], [1, 0, 2], [1, 0, 2]] - - Map numbers dictionary to transforms which return labels. - | !transform/label_mapper-1.1.0 mapper: !!omap - !!omap labels: [-1.67833272, -1.9580548, -1.118888] - !!omap models: - !transform/compose-1.1.0 forward: - !transform/remap_axes-1.1.0 mapping: [1] - !transform/shift-1.1.0 {offset: 6.0} - !transform/compose-1.1.0 forward: - !transform/remap_axes-1.1.0 mapping: [1] - !transform/shift-1.1.0 {offset: 2.0} - !transform/compose-1.1.0 forward: - !transform/remap_axes-1.1.0 mapping: [1] - !transform/shift-1.1.0 {offset: 4.0} inputs: [x, y] inputs_mapping: !transform/remap_axes-1.1.0 mapping: [0] n_inputs: 2 - - Map a number within a range of numbers to transforms which return labels. - | !transform/label_mapper-1.1.0 mapper: !!omap - !!omap labels: - [3.2, 4.1] - [2.67, 2.98] - [1.95, 2.3] - !!omap models: - !transform/compose-1.1.0 forward: - !transform/remap_axes-1.1.0 mapping: [1] - !transform/shift-1.1.0 {offset: 6.0} - !transform/compose-1.1.0 forward: - !transform/remap_axes-1.1.0 mapping: [1] - !transform/shift-1.1.0 {offset: 2.0} - !transform/compose-1.1.0 forward: - !transform/remap_axes-1.1.0 mapping: [1] - !transform/shift-1.1.0 {offset: 4.0} inputs: [x, y] inputs_mapping: !transform/remap_axes-1.1.0 mapping: [0] n_inputs: 2 allOf: - $ref: "transform-1.1.0" - type: object properties: mapper: description: | A mapping of inputs to labels. In the general case this is a `astropy.modeling.core.Model`. It could be a numpy array with the shape of the detector/observation. Pixel values are of type integer or string and represent region labels. Pixels which are not within any region have value ``no_label``. It could be a dictionary which maps tuples to labels or floating point numbers to labels. anyOf: - $ref: "../core/ndarray-1.0.0" - $ref: "transform-1.1.0" - type: object properties: labels: type: array items: anyOf: - type: number - type: array items: type: number minLength: 2 maxLength: 2 models: type: array items: $ref: "transform-1.1.0" inputs: type: array items: type: string description: | Names of inputs. inputs_mapping: $ref: "transform-1.1.0" description: | [mapping](ref:schemas/remap_axes-1.1.0) atol: type: number description: | absolute tolerance to compare keys in mapper. no_label: description: | Fill in value for missing output. anyOf: - type: number - type: string required: [mapper] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/label_mapper-1.2.0.yaml0000644000175100001770000001055514514267315027152 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/label_mapper-1.2.0" title: > Represents a mapping from a coordinate value to a label. description: | A label mapper instance maps inputs to a label. It is used together with [regions_selector](ref:schemas/regions_selector-1.2.0). The [label_mapper](ref:schemas/label_mapper-1.2.0) returns the label corresponding to given inputs. The [regions_selector](ref:schemas/regions_selector-1.2.0) returns the transform corresponding to this label. This maps inputs (e.g. pixels on a detector) to transforms uniquely. examples: - - Map array indices are to labels. - | !transform/label_mapper-1.2.0 mapper: !core/ndarray-1.0.0 [[1, 0, 2], [1, 0, 2], [1, 0, 2]] - - Map numbers dictionary to transforms which return labels. - | !transform/label_mapper-1.2.0 mapper: !!omap - !!omap labels: [-1.67833272, -1.9580548, -1.118888] - !!omap models: - !transform/compose-1.2.0 forward: - !transform/remap_axes-1.2.0 mapping: [1] - !transform/shift-1.2.0 {offset: 6.0} - !transform/compose-1.2.0 forward: - !transform/remap_axes-1.2.0 mapping: [1] - !transform/shift-1.2.0 {offset: 2.0} - !transform/compose-1.2.0 forward: - !transform/remap_axes-1.2.0 mapping: [1] - !transform/shift-1.2.0 {offset: 4.0} inputs: [x, y] inputs_mapping: !transform/remap_axes-1.2.0 mapping: [0] n_inputs: 2 - - Map a number within a range of numbers to transforms which return labels. - | !transform/label_mapper-1.2.0 mapper: !!omap - !!omap labels: - [3.2, 4.1] - [2.67, 2.98] - [1.95, 2.3] - !!omap models: - !transform/compose-1.2.0 forward: - !transform/remap_axes-1.2.0 mapping: [1] - !transform/shift-1.2.0 {offset: 6.0} - !transform/compose-1.2.0 forward: - !transform/remap_axes-1.2.0 mapping: [1] - !transform/shift-1.2.0 {offset: 2.0} - !transform/compose-1.2.0 forward: - !transform/remap_axes-1.2.0 mapping: [1] - !transform/shift-1.2.0 {offset: 4.0} inputs: [x, y] inputs_mapping: !transform/remap_axes-1.2.0 mapping: [0] n_inputs: 2 allOf: - $ref: "transform-1.2.0" - type: object properties: mapper: description: | A mapping of inputs to labels. In the general case this is a `astropy.modeling.core.Model`. It could be a numpy array with the shape of the detector/observation. Pixel values are of type integer or string and represent region labels. Pixels which are not within any region have value ``no_label``. It could be a dictionary which maps tuples to labels or floating point numbers to labels. anyOf: - $ref: "../core/ndarray-1.0.0" - $ref: "transform-1.2.0" - type: object properties: labels: type: array items: anyOf: - type: number - type: array items: type: number minLength: 2 maxLength: 2 models: type: array items: $ref: "transform-1.2.0" inputs: type: array items: type: string description: | Names of inputs. inputs_mapping: $ref: "transform-1.2.0" description: | [mapping](ref:schemas/remap_axes-1.3.0) atol: type: number description: | absolute tolerance to compare keys in mapper. no_label: description: | Fill in value for missing output. anyOf: - type: number - type: string required: [mapper] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/linear1d-1.0.0.yaml0000644000175100001770000000111514514267315026214 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/linear1d-1.0.0" title: > A one dimensional line model description: > A one dimensional line model allOf: - $ref: "transform-1.2.0" - type: object properties: slope: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Slope of the straight line. intercept: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Intercept of the straight line. ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/log_parabola1d-1.0.0.yaml0000644000175100001770000000220614514267315027366 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/log_parabola1d-1.0.0" title: > One dimensional log parabola model (sometimes called curved power law). description: > One dimensional log parabola model (sometimes called curved power law). examples: - - $$f(x) = 10*(\frac{x}{0.5})^{-2.0-3.2\log{(\frac{x}{0.5})}}$$ - | !transform/log_parabola1d-1.0.0 {alpha: 2.0, amplitude: 10.0, beta: 3.2, x_0: 0.5} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Model amplitude. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Reference point. alpha: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Power law index. beta: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Power law curvature. required: ['amplitude', 'x_0', 'alpha', 'beta'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/logarithmic1d-1.0.0.yaml0000644000175100001770000000141414514267315027246 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/logarithmic1d-1.0.0" title: > One dimensional (natural) logarithmic model. description: > One dimensional (natural) logarithmic model. examples: - - $$f(x) = 10.0ln(\frac{x}{2.5})$$ - | !transform/logarithmic1d-1.0.0 {amplitude: 10.0, tau: 2.5} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Amplitude or scaling factor. r_core: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Denominator in log. required: ['amplitude', 'tau'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/lorentz1d-1.0.0.yaml0000644000175100001770000000173414514267315026446 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/lorentz1d-1.0.0" title: > One dimensional Lorentzian model. description: > One dimensional Lorentzian model. examples: - - $$f(x) = \frac{10.0 *5.0^{2}}{5.0^{2} + \left(x - 0.5\right)^{2}}$$ - | !transform/lorentz1d-1.0.0 amplitude: 10.0 bounding_box: [-124.5, 125.5] fwhm: 5.0 x_0: 0.5 allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Peak value. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Position of the peak. fwhm: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Full width at half maximum. required: ['amplitude', 'x_0', 'fwhm'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/math_functions-1.0.0.yaml0000644000175100001770000000074314514267315027544 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/math_functions-1.0.0" title: > Math functions. description: | Commonly used math funcitons. examples: - - Atan2 - | !transform/math_functions-1.0.0 func_name: arctan2 allOf: - $ref: "transform-1.2.0" - type: object properties: func_name: type: string description: | The name of a numpy ufunc. ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/mercator-1.0.0.yaml0000644000175100001770000000124514514267315026335 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/mercator-1.0.0" title: | The Mercator projection. description: | Corresponds to the `MER` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= 2 \tan^{-1}\left(e^{y \pi / 180^{\circ}}\right)-90^{\circ}$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\ln \tan \left(\frac{90^{\circ} + \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "cylindrical-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/mercator-1.1.0.yaml0000644000175100001770000000124514514267315026336 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/mercator-1.1.0" title: | The Mercator projection. description: | Corresponds to the `MER` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= 2 \tan^{-1}\left(e^{y \pi / 180^{\circ}}\right)-90^{\circ}$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\ln \tan \left(\frac{90^{\circ} + \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "cylindrical-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/mercator-1.2.0.yaml0000644000175100001770000000124514514267315026337 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/mercator-1.2.0" title: | The Mercator projection. description: | Corresponds to the `MER` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= 2 \tan^{-1}\left(e^{y \pi / 180^{\circ}}\right)-90^{\circ}$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \frac{180^{\circ}}{\pi}\ln \tan \left(\frac{90^{\circ} + \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "cylindrical-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/moffat1d-1.0.0.yaml0000644000175100001770000000217214514267315026222 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/moffat1d-1.0.0" title: > One dimensional Moffat model. description: > One dimensional Moffat distribution. examples: - - $$f(x)=10.0\left(1+\frac{\left(x-0.5\right)^{2}}{1.2^{2}}\right)^{-2}$$ - | !transform/moffat1d-1.0.0 {alpha: 2.5, amplitude: 10.0, gamma: 1.2, x_0: 0.5} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Amplitude of the model. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: x position of the maximum of the Moffat model. gamma: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Core width of the Moffat model. alpha: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Power index of the Moffat model. required: ['amplitude', 'x_0', 'gamma', 'alpha'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/moffat2d-1.0.0.yaml0000644000175100001770000000250514514267315026223 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/moffat2d-1.0.0" title: > Two dimensional Moffat model. description: > Two dimensional Moffat distribution. examples: - - $$f(x)=10.0\left(1+\frac{\left(x-0.5\right)^{2}+\left(y-1.5\right)^{2}}{1.2^{2}}\right)^{-2}$$ - | !transform/moffat2d-1.0.0 {alpha: 2.5, amplitude: 10.0, gamma: 1.2, x_0: 0.5, y_0: 1.5} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Amplitude of the model. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: x position of the maximum of the Moffat model. y_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: y position of the maximum of the Moffat model. gamma: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Core width of the Moffat model. alpha: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Power index of the Moffat model. required: ['amplitude', 'x_0', 'y_0', 'gamma', 'alpha'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/molleweide-1.0.0.yaml0000644000175100001770000000154414514267315026651 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/molleweide-1.0.0" title: | Molleweide's projection. description: | Corresponds to the `MOL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi x}{2 \sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}} \\ \theta &= \sin^{-1}\left(\frac{1}{90^\circ}\sin^{-1}\left(\frac{\pi}{180^\circ}\frac{y}{\sqrt{2}}\right) + \frac{y}{180^\circ}\sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \frac{2 \sqrt{2}}{\pi} \phi \cos \gamma \\ y &= \sqrt{2} \frac{180^\circ}{\pi} \sin \gamma$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudocylindrical-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/molleweide-1.1.0.yaml0000644000175100001770000000154414514267315026652 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/molleweide-1.1.0" title: | Molleweide's projection. description: | Corresponds to the `MOL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi x}{2 \sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}} \\ \theta &= \sin^{-1}\left(\frac{1}{90^\circ}\sin^{-1}\left(\frac{\pi}{180^\circ}\frac{y}{\sqrt{2}}\right) + \frac{y}{180^\circ}\sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \frac{2 \sqrt{2}}{\pi} \phi \cos \gamma \\ y &= \sqrt{2} \frac{180^\circ}{\pi} \sin \gamma$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudocylindrical-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/molleweide-1.2.0.yaml0000644000175100001770000000154414514267315026653 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/molleweide-1.2.0" title: | Molleweide's projection. description: | Corresponds to the `MOL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{\pi x}{2 \sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}} \\ \theta &= \sin^{-1}\left(\frac{1}{90^\circ}\sin^{-1}\left(\frac{\pi}{180^\circ}\frac{y}{\sqrt{2}}\right) + \frac{y}{180^\circ}\sqrt{2 - \left(\frac{\pi}{180^\circ}y\right)^2}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \frac{2 \sqrt{2}}{\pi} \phi \cos \gamma \\ y &= \sqrt{2} \frac{180^\circ}{\pi} \sin \gamma$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudocylindrical-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/multiply-1.0.0.yaml0000644000175100001770000000150314514267315026375 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/multiply-1.0.0" title: > Perform a list of subtransforms in parallel and then multiply their results. description: | Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. examples: - - A list of transforms, performed in parallel, and then combined through multiplication. - | !transform/multiply-1.0.0 forward: - !transform/shift-1.0.0 offset: 2.0 - !transform/shift-1.0.0 offset: 3.0 allOf: - $ref: "transform-1.0.0" - properties: forward: type: array items: $ref: "transform-1.0.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/multiply-1.1.0.yaml0000644000175100001770000000150314514267315026376 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/multiply-1.1.0" title: > Perform a list of subtransforms in parallel and then multiply their results. description: | Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. examples: - - A list of transforms, performed in parallel, and then combined through multiplication. - | !transform/multiply-1.1.0 forward: - !transform/shift-1.1.0 offset: 2.0 - !transform/shift-1.1.0 offset: 3.0 allOf: - $ref: "transform-1.1.0" - properties: forward: type: array items: $ref: "transform-1.1.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/multiply-1.2.0.yaml0000644000175100001770000000150314514267315026377 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/multiply-1.2.0" title: > Perform a list of subtransforms in parallel and then multiply their results. description: | Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. examples: - - A list of transforms, performed in parallel, and then combined through multiplication. - | !transform/multiply-1.2.0 forward: - !transform/shift-1.2.0 offset: 2.0 - !transform/shift-1.2.0 offset: 3.0 allOf: - $ref: "transform-1.2.0" - properties: forward: type: array items: $ref: "transform-1.2.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/multiplyscale-1.0.0.yaml0000644000175100001770000000123514514267315027407 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/multiplyscale-1.0.0" title: > A Multiply model. description: > Multiply the input by a factor. examples: - - Multiply the input by a pixel scale factor. - | !transform/multiplyscale-1.0.0 factor: !unit/quantity-1.1.0 {unit: !unit/unit-1.0.0 arcsec pixel-1, value: 0.06} allOf: - $ref: "transform-1.2.0" - type: object properties: factor: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Multiplication factor. required: [factor] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/ortho_polynomial-1.0.0.yaml0000644000175100001770000000314514514267315030120 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/ortho_polynomial-1.0.0" title: > Respresents various Orthogonal Polynomial models. description: | A polynomial model represented by its coefficients stored in an ndarray of shape $(n+1)$ for univariate polynomials or $(n+1, n+1)$ for polynomials with 2 variables, where $n$ is the highest total degree of the polynomial. The property polynomial_type defines what kind of polynomial is defined. $$P = \sum_{i, j=0}^{i+j=n}c_{ij} * x^{i} * y^{j}$$ Invertibility: This transform is not automatically invertible. examples: - - $P = 1.2 + 0.3 * x + 56.1 * x^{2}$ - | !transform/ortho_polynomial-1.0.0 polynomial_type: hermite coefficients: !core/ndarray-1.0.0 [1.2, 0.3, 56.1] - - $P = 1.2 + 0.3 * x + 3 * x * y + 2.1 * y^{2}$ - | !transform/ortho_polynomial-1.0.0 polynomial_type: chebyshev coefficients: !core/ndarray-1.0.0 [[1.2, 0.0, 2.1], [0.3, 3.0, 0.0], [0.0, 0.0, 0.0]] allOf: - $ref: "transform-1.2.0" - type: object properties: polynomial_type: description: | One of a selected set of polynomial types. type: string enum: [chebyshev, legendre, hermite] coefficients: description: | An array with coefficients. anyOf: - $ref: "../core/ndarray-1.0.0" - type: array required: [polynomial_type, coefficients] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/parabolic-1.0.0.yaml0000644000175100001770000000132014514267315026447 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/parabolic-1.0.0" title: | Parabolic projection. description: | Corresponds to the `PAR` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{180^\circ}{\pi} \frac{x}{1 - 4(y / 180^\circ)^2} \\ \theta &= 3 \sin^{-1}\left(\frac{y}{180^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \left(2\cos\frac{2\theta}{3} - 1\right) \\ y &= 180^\circ \sin \frac{\theta}{3}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudocylindrical-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/parabolic-1.1.0.yaml0000644000175100001770000000132014514267315026450 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/parabolic-1.1.0" title: | Parabolic projection. description: | Corresponds to the `PAR` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{180^\circ}{\pi} \frac{x}{1 - 4(y / 180^\circ)^2} \\ \theta &= 3 \sin^{-1}\left(\frac{y}{180^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \left(2\cos\frac{2\theta}{3} - 1\right) \\ y &= 180^\circ \sin \frac{\theta}{3}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudocylindrical-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/parabolic-1.2.0.yaml0000644000175100001770000000132014514267315026451 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/parabolic-1.2.0" title: | Parabolic projection. description: | Corresponds to the `PAR` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{180^\circ}{\pi} \frac{x}{1 - 4(y / 180^\circ)^2} \\ \theta &= 3 \sin^{-1}\left(\frac{y}{180^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \left(2\cos\frac{2\theta}{3} - 1\right) \\ y &= 180^\circ \sin \frac{\theta}{3}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudocylindrical-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/planar2d-1.0.0.yaml0000644000175100001770000000165314514267315026227 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/planar2d-1.0.0" title: > Two dimensional plane model. description: > Two dimensional plane model. examples: - - $$f(x, y)= a=5.0x + 2.5y + 11$$ - | !transform/planar2d-1.0.0 {intercept: 11.0, slope_x: 5.0, slope_y: 2.5} allOf: - $ref: "transform-1.2.0" - type: object properties: slope_x: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Slope of the stright line in x. slope_y: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Slope of the straight lie in y. intercept: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: z-intercept of the straight line. required: ['slope_x', 'slope_y', 'intercept'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/plate_carree-1.0.0.yaml0000644000175100001770000000115614514267315027150 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/plate_carree-1.0.0" title: | The plate carrée projection. description: | Corresponds to the `CAR` projection in the FITS WCS standard. The main virtue of this transformation is its simplicity. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "cylindrical-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/plate_carree-1.1.0.yaml0000644000175100001770000000115614514267315027151 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/plate_carree-1.1.0" title: | The plate carrée projection. description: | Corresponds to the `CAR` projection in the FITS WCS standard. The main virtue of this transformation is its simplicity. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "cylindrical-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/plate_carree-1.2.0.yaml0000644000175100001770000000115614514267315027152 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/plate_carree-1.2.0" title: | The plate carrée projection. description: | Corresponds to the `CAR` projection in the FITS WCS standard. The main virtue of this transformation is its simplicity. The pixel-to-sky transformation is defined as: $$\phi &= x \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "cylindrical-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/plummer1d-1.0.0.yaml0000644000175100001770000000146014514267315026426 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/plummer1d-1.0.0" title: > Two dimensional Plummer model. description: > One dimensional Plummer density profile model. examples: - - $$\rho(r)=\frac{3*15.0}{4\pi *5.5^3}(1+\frac{r^2}{5.5^2})^{-5/2}$$ - | !transform/plummer1d-1.0.0 {mass: 15.0, r_plum: 5.5} allOf: - $ref: "transform-1.2.0" - type: object properties: mass: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Total mass of cluster. r_plum: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Scale parameter which sets the size of the cluster core. required: ['mass', 'r_plum'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/polyconic-1.0.0.yaml0000644000175100001770000000057214514267315026522 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/polyconic-1.0.0" title: | Polyconic projection. description: | Corresponds to the `PCO` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudoconic-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/polyconic-1.1.0.yaml0000644000175100001770000000057214514267315026523 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/polyconic-1.1.0" title: | Polyconic projection. description: | Corresponds to the `PCO` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudoconic-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/polyconic-1.2.0.yaml0000644000175100001770000000057214514267315026524 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/polyconic-1.2.0" title: | Polyconic projection. description: | Corresponds to the `PCO` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudoconic-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/polynomial-1.0.0.yaml0000644000175100001770000000235414514267315026706 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/polynomial-1.0.0" title: > A Polynomial model. description: | A polynomial model represented by its coefficients stored in an ndarray of shape $(n+1)$ for univariate polynomials or $(n+1, n+1)$ for polynomials with 2 variables, where $n$ is the highest total degree of the polynomial. $$P = \sum_{i, j=0}^{i+j=n}c_{ij} * x^{i} * y^{j}$$ Invertibility: This transform is not automatically invertible. examples: - - $P = 1.2 + 0.3 * x + 56.1 * x^{2}$ - | !transform/polynomial-1.0.0 coefficients: !core/ndarray-1.0.0 [1.2, 0.3, 56.1] - - $P = 1.2 + 0.3 * x + 3 * x * y + 2.1 * y^{2}$ - | !transform/polynomial-1.0.0 coefficients: !core/ndarray-1.0.0 [[1.2, 0.0, 2.1], [0.3, 3.0, 0.0], [0.0, 0.0, 0.0]] allOf: - $ref: "transform-1.0.0" - type: object properties: coefficients: description: | An array with coefficients. anyOf: - $ref: "../core/ndarray-1.0.0" - type: array required: [coefficients] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/polynomial-1.1.0.yaml0000644000175100001770000000235414514267315026707 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/polynomial-1.1.0" title: > A Polynomial model. description: | A polynomial model represented by its coefficients stored in an ndarray of shape $(n+1)$ for univariate polynomials or $(n+1, n+1)$ for polynomials with 2 variables, where $n$ is the highest total degree of the polynomial. $$P = \sum_{i, j=0}^{i+j=n}c_{ij} * x^{i} * y^{j}$$ Invertibility: This transform is not automatically invertible. examples: - - $P = 1.2 + 0.3 * x + 56.1 * x^{2}$ - | !transform/polynomial-1.1.0 coefficients: !core/ndarray-1.0.0 [1.2, 0.3, 56.1] - - $P = 1.2 + 0.3 * x + 3 * x * y + 2.1 * y^{2}$ - | !transform/polynomial-1.1.0 coefficients: !core/ndarray-1.0.0 [[1.2, 0.0, 2.1], [0.3, 3.0, 0.0], [0.0, 0.0, 0.0]] allOf: - $ref: "transform-1.1.0" - type: object properties: coefficients: description: | An array with coefficients. anyOf: - $ref: "../core/ndarray-1.0.0" - type: array required: [coefficients] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/polynomial-1.2.0.yaml0000644000175100001770000000242714514267315026711 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/polynomial-1.2.0" title: > A Polynomial model. description: | A polynomial model represented by its coefficients stored in an ndarray of shape $(n+1)$ for univariate polynomials or $(n+1, n+1)$ for polynomials with 2 variables, where $n$ is the highest total degree of the polynomial. $$P = \sum_{i, j=0}^{i+j=n}c_{ij} * x^{i} * y^{j}$$ Invertibility: This transform is not automatically invertible. examples: - - $P = 1.2 + 0.3 * x + 56.1 * x^{2}$ - | !transform/polynomial-1.2.0 coefficients: !core/ndarray-1.0.0 [1.2, 0.3, 56.1] - - $P = 1.2 + 0.3 * x + 3 * x * y + 2.1 * y^{2}$ - | !transform/polynomial-1.2.0 coefficients: !core/ndarray-1.0.0 [[1.2, 0.0, 2.1], [0.3, 3.0, 0.0], [0.0, 0.0, 0.0]] allOf: - $ref: "transform-1.2.0" - type: object properties: coefficients: description: | An array with coefficients. anyOf: - $ref: "../core/ndarray-1.0.0" - $ref: "../unit/quantity-1.1.0" - type: array required: [coefficients] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/power-1.0.0.yaml0000644000175100001770000000106414514267315025654 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/power-1.0.0" title: > Perform a list of subtransforms in parallel and then raise each result to the power of the next. description: | Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. allOf: - $ref: "transform-1.0.0" - properties: forward: type: array items: $ref: "transform-1.0.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/power-1.1.0.yaml0000644000175100001770000000106414514267315025655 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/power-1.1.0" title: > Perform a list of subtransforms in parallel and then raise each result to the power of the next. description: | Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. allOf: - $ref: "transform-1.1.0" - properties: forward: type: array items: $ref: "transform-1.1.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/power-1.2.0.yaml0000644000175100001770000000106414514267315025656 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/power-1.2.0" title: > Perform a list of subtransforms in parallel and then raise each result to the power of the next. description: | Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. allOf: - $ref: "transform-1.2.0" - properties: forward: type: array items: $ref: "transform-1.2.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/power_law1d-1.0.0.yaml0000644000175100001770000000161214514267315026743 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/power_law1d-1.0.0" title: > One dimensional power law model. description: > One dimensional power law model. examples: - - $$f(x) = 10*(x/0.5)^{-2}$$ - | !transform/power_law1d-1.0.0 {alpha: 2.0, amplitude: 10.0, x_0: 0.5} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Model amplitude at the reference point. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Reference point. alpha: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Power law index. required: ['amplitude', 'x_0', 'alpha'] ... ././@PaxHeader0000000000000000000000000000003300000000000010211 xustar0027 mtime=1697738456.042479 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/property/0000755000175100001770000000000014514267330025062 5ustar00runnerdocker././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/property/bounding_box-1.0.0.yaml0000644000175100001770000000541214514267315031062 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/property/bounding_box-1.0.0" title: > Bounding box for a model. description: | This object contains the bounding box for a model, which defines the domain of valid inputs to the model. The bounds for each input is are listed as a map under the interval keyword as ordered pairs of lower/upper bounds with key being the input name. If any model inputs are to be ignored by the bounding box then they need to be listed under the ignore keyword. Finally, the tuple representation's input ordering can be listed under the order keyword, C for C-ordering, F for Fortran ordering. examples: - - A 1D bounding box - | !transform/constant-1.4.0 value: 1 dimensions: 1 bounding_box: !transform/property/bounding_box-1.0.0 intervals: x: [1.0, 2.0] - - A 2D bounding box - | !transform/constant-1.4.0 value: 1 dimensions: 2 bounding_box: !transform/property/bounding_box-1.0.0 intervals: x: [1.0, 2.0] y: [3.0, 4.0] order: C - - A 3D bounding box - | !transform/concatenate-1.2.0 forward: - !transform/concatenate-1.2.0 forward: - !transform/shift-1.2.0 offset: 1.0 - !transform/shift-1.2.0 offset: 2.0 - !transform/shift-1.2.0 offset: 3.0 bounding_box: !transform/property/bounding_box-1.0.0 intervals: x0: [1.0, 2.0] x1: [3.0, 4.0] x: [5.0, 6.0] order: F - - A 3D bounding box with ignored inputs - | !transform/concatenate-1.2.0 forward: - !transform/concatenate-1.2.0 forward: - !transform/shift-1.2.0 offset: 1.0 - !transform/shift-1.2.0 offset: 2.0 - !transform/shift-1.2.0 offset: 3.0 bounding_box: !transform/property/bounding_box-1.0.0 intervals: x: [1.0, 2.0] ignore: [x0, x1] order: F definitions: bound: anyOf: - tag: tag:stsci.edu:asdf/unit/quantity-1.1.0 - type: number interval: type: array minItems: 2 maxItems: 2 items: - $ref: "#/definitions/bound" - $ref: "#/definitions/bound" ignore: type: array items: type: string order: enum: ['C', 'F'] type: object properties: intervals: type: object additionalProperties: $ref: "#/definitions/interval" minProperties: 1 ignore: $ref: "#/definitions/ignore" order: $ref: "#/definitions/order" required: [intervals] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/property/compound_bounding_box-1.0.0.yaml0000644000175100001770000001613714514267315032774 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/property/compound_bounding_box-1.0.0" title: > Compound bounding box for a model. description: | This object contains a compound bounding box for a model, which defines a set of input-selectable bounding boxes. It consists of a list of selector_args together with a list of input-key bounding box pairs. The selector args are an ordered list of model inputs with an indication of whether or not to ignore the input in the bounding box selected. The key for each bounding box entry corresponds to the values of the selector args (in the order listed) which will select the accompanying bounding box. examples: - - A compound bounding box with one selector_args and 1D bounding_box - | !transform/constant-1.4.0 value: 1 dimensions: 2 bounding_box: !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x ignore: true cbbox: - key: [0] # value of input x is 0 to select this box bbox: !transform/property/bounding_box-1.0.0 intervals: y: [1.0, 2.0] - key: [3] # value of input x is 3 to select this box bbox: !transform/property/bounding_box-1.0.0 intervals: y: [4.0, 5.0] - - A compound bounding box with one selector_args and 2D bounding_box - | !transform/concatenate-1.2.0 forward: - !transform/concatenate-1.2.0 forward: - !transform/shift-1.2.0 offset: 1.0 - !transform/shift-1.2.0 offset: 2.0 - !transform/shift-1.2.0 offset: 3.0 bounding_box: !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x ignore: true cbbox: - key: [0] # value of input x is 0 to select this box bbox: !transform/property/bounding_box-1.0.0 intervals: x0: [1.0, 2.0] x1: [3.0, 4.0] - key: [5] # value of input x is 5 to select this box bbox: !transform/property/bounding_box-1.0.0 intervals: x0: [6.0, 7.0] x1: [8.0, 9.0] order: 'C' - - A compound bounding box with two selector_args and 1D bounding_box - | !transform/concatenate-1.2.0 forward: - !transform/concatenate-1.2.0 forward: - !transform/shift-1.2.0 offset: 1.0 - !transform/shift-1.2.0 offset: 2.0 - !transform/shift-1.2.0 offset: 3.0 bounding_box: !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x0 ignore: true - argument: x1 ignore: true cbbox: - key: [0, 1] # both value of input x0 is 0 and value of input x1 is 1 to select this box bbox: !transform/property/bounding_box-1.0.0 intervals: x: [2.0, 3.0] - key: [4, 5] # both value of input x0 is 4 and value of input x1 is 5 to select this box bbox: !transform/property/bounding_box-1.0.0 intervals: x: [6.0, 7.0] - - A compound bounding box with one selector_args and 1D bounding_box - | !transform/concatenate-1.2.0 forward: - !transform/concatenate-1.2.0 forward: - !transform/shift-1.2.0 offset: 1.0 - !transform/shift-1.2.0 offset: 2.0 - !transform/shift-1.2.0 offset: 3.0 bounding_box: !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x ignore: true cbbox: - key: [0] # both value of input x is 0 bbox: !transform/property/bounding_box-1.0.0 intervals: x0: [2.0, 3.0] - key: [1] # both value of input x is 1 bbox: !transform/property/bounding_box-1.0.0 intervals: x0: [6.0, 7.0] ignore: [x1] - - A compound bounding box with two selector_args and 2D bounding_box - | !transform/concatenate-1.2.0 forward: - !transform/concatenate-1.2.0 forward: - !transform/shift-1.2.0 offset: 1.0 - !transform/shift-1.2.0 offset: 2.0 - !transform/concatenate-1.2.0 forward: - !transform/shift-1.2.0 offset: 3.0 - !transform/shift-1.2.0 offset: 4.0 bounding_box: !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x00 ignore: true - argument: x10 ignore: true cbbox: - key: [0, 1] # both value of input x00 is 0 and value of input x10 is 1 to select this box bbox: !transform/property/bounding_box-1.0.0 intervals: x01: [2.0, 3.0] x11: [4.0, 5.0] - key: [6, 7] # both value of input x00 is 6 and value of input x10 is 7 to select this box bbox: !transform/property/bounding_box-1.0.0 intervals: x01: [8.0, 9.0] x11: [10.0, 11.0] order: 'F' definitions: selector_arg: description: | This object contains the description of a single selector argument. type: object properties: argument: type: string ignore: type: boolean required: [argument, ignore] selector_args: description: | This object contains a list of all the selector arguments. type: array minItems: 1 items: $ref: "#/definitions/selector_arg" cbbox_entry: description: | This object contains a single input-bounding_box entry for a compound_bounding_box. Note that each key must have the same number of items as the selector arguments. Moreover, each value for a key is the actual input value for the model, not the name of the input type: object properties: key: type: array minItems: 1 items: type: number bbox: tag: tag:stsci.edu:asdf/transform/property/bounding_box-1.0.0 required: [key, bbox] cbbox: description: | This object contains the map of the bounding boxes. Note that each compound_bounding_box entry should have bboxes of the same size type: array minItems: 1 items: $ref: "#/definitions/cbbox_entry" type: object properties: selector_args: $ref: "#/definitions/selector_args" cbbox: $ref: "#/definitions/cbbox" ignore: $ref: "bounding_box-1.0.0#/definitions/ignore" order: $ref: "bounding_box-1.0.0#/definitions/order" required: [selector_args, cbbox] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/pseudoconic-1.0.0.yaml0000644000175100001770000000064414514267315027036 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/pseudoconic-1.0.0" title: | Base class of all pseudoconic projections. description: | Pseudoconics are a subclass of conics with concentric parallels. allOf: - $ref: "transform-1.0.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/pseudoconic-1.1.0.yaml0000644000175100001770000000064414514267315027037 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/pseudoconic-1.1.0" title: | Base class of all pseudoconic projections. description: | Pseudoconics are a subclass of conics with concentric parallels. allOf: - $ref: "transform-1.1.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/pseudoconic-1.2.0.yaml0000644000175100001770000000064414514267315027040 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/pseudoconic-1.2.0" title: | Base class of all pseudoconic projections. description: | Pseudoconics are a subclass of conics with concentric parallels. allOf: - $ref: "transform-1.2.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/pseudocylindrical-1.0.0.yaml0000644000175100001770000000115114514267315030232 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/pseudocylindrical-1.0.0" title: | Base class of all pseudocylindrical projections. description: | Pseudocylindrical projections are like cylindrical projections except the parallels of latitude are projected at diminishing lengths toward the polar regions in order to reduce lateral distortion there. Consequently, the meridians are curved. allOf: - $ref: "transform-1.0.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/pseudocylindrical-1.1.0.yaml0000644000175100001770000000115114514267315030233 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/pseudocylindrical-1.1.0" title: | Base class of all pseudocylindrical projections. description: | Pseudocylindrical projections are like cylindrical projections except the parallels of latitude are projected at diminishing lengths toward the polar regions in order to reduce lateral distortion there. Consequently, the meridians are curved. allOf: - $ref: "transform-1.1.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/pseudocylindrical-1.2.0.yaml0000644000175100001770000000115114514267315030234 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/pseudocylindrical-1.2.0" title: | Base class of all pseudocylindrical projections. description: | Pseudocylindrical projections are like cylindrical projections except the parallels of latitude are projected at diminishing lengths toward the polar regions in order to reduce lateral distortion there. Consequently, the meridians are curved. allOf: - $ref: "transform-1.2.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/quad_spherical_cube-1.0.0.yaml0000644000175100001770000000063014514267315030500 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/quad_spherical_cube-1.0.0" title: | Quadrilateralized spherical cube projection. description: | Corresponds to the `QSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "quadcube-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/quad_spherical_cube-1.1.0.yaml0000644000175100001770000000063014514267315030501 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/quad_spherical_cube-1.1.0" title: | Quadrilateralized spherical cube projection. description: | Corresponds to the `QSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "quadcube-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/quad_spherical_cube-1.2.0.yaml0000644000175100001770000000063014514267315030502 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/quad_spherical_cube-1.2.0" title: | Quadrilateralized spherical cube projection. description: | Corresponds to the `QSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "quadcube-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/quadcube-1.0.0.yaml0000644000175100001770000000124714514267315026314 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/quadcube-1.0.0" title: | Base class of all quadcube projections. description: | Quadrilateralized spherical cube (quad-cube) projections belong to the class of polyhedral projections in which the sphere is projected onto the surface of an enclosing polyhedron. The six faces of the quad-cube projections are numbered and laid out as: ``` 0 4 3 2 1 4 3 2 5 ``` allOf: - $ref: "transform-1.0.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/quadcube-1.1.0.yaml0000644000175100001770000000124714514267315026315 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/quadcube-1.1.0" title: | Base class of all quadcube projections. description: | Quadrilateralized spherical cube (quad-cube) projections belong to the class of polyhedral projections in which the sphere is projected onto the surface of an enclosing polyhedron. The six faces of the quad-cube projections are numbered and laid out as: ``` 0 4 3 2 1 4 3 2 5 ``` allOf: - $ref: "transform-1.1.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/quadcube-1.2.0.yaml0000644000175100001770000000124714514267315026316 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/quadcube-1.2.0" title: | Base class of all quadcube projections. description: | Quadrilateralized spherical cube (quad-cube) projections belong to the class of polyhedral projections in which the sphere is projected onto the surface of an enclosing polyhedron. The six faces of the quad-cube projections are numbered and laid out as: ``` 0 4 3 2 1 4 3 2 5 ``` allOf: - $ref: "transform-1.2.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/redshift_scale_factor-1.0.0.yaml0000644000175100001770000000111414514267315031031 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/redshift_scale_factor-1.0.0" title: > One dimensional redshift scale factor model. description: > One dimensional redshift scale factor model. examples: - - $$f(x)=x(1+2.5)$$ - | !transform/redshift_scale_factor-1.0.0 {z: 2.5} allOf: - $ref: "transform-1.2.0" - type: object properties: z: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Redshift value. required: ['z'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/regions_selector-1.0.0.yaml0000644000175100001770000000574414514267315030077 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/regions_selector-1.0.0" title: > Represents a discontinuous transform. description: | Maps regions to transgorms and evaluates the transforms with the corresponding inputs. examples: - - Create a regions_selector schema for 2 regions, labeled "1" and "2". - | !transform/regions_selector-1.0.0 inputs: [x, y] label_mapper: !transform/label_mapper-1.0.0 mapper: !core/ndarray-1.0.0 datatype: int8 data: [[0, 1, 1, 0, 2, 0], [0, 1, 1, 0, 2, 0], [0, 1, 1, 0, 2, 0], [0, 1, 1, 0, 2, 0], [0, 1, 1, 0, 2, 0]] outputs: [ra, dec, lam] selector: 1: !transform/compose-1.0.0 forward: - !transform/remap_axes-1.0.0 mapping: [0, 1, 1] - !transform/concatenate-1.0.0 forward: - !transform/concatenate-1.0.0 forward: - !transform/shift-1.0.0 {offset: 1.0} - !transform/shift-1.0.0 {offset: 2.0} - !transform/shift-1.0.0 {offset: 3.0} 2: !transform/compose-1.0.0 forward: - !transform/remap_axes-1.0.0 mapping: [0, 1, 1] - !transform/concatenate-1.0.0 forward: - !transform/concatenate-1.0.0 forward: - !transform/scale-1.0.0 {factor: 2.0} - !transform/scale-1.0.0 {factor: 3.0} - !transform/scale-1.0.0 {factor: 3.0} undefined_transform_value: .nan allOf: - $ref: "transform-1.0.0" - type: object properties: label_mapper: description: | An instance of [label_mapper-1.0.0](ref:schemas/label_mapper-1.0.0) $ref: "./label_mapper-1.0.0" inputs: description: | Names of inputs. type: array items: type: string outputs: description: | Names of outputs. type: array items: type: string selector: description: | A mapping of regions to trransforms. type: object properties: labels: description: | An array of unique region labels. type: array items: type: - integer - string transforms: description: | A transform for each region. The order should match the order of labels. type: array items: $ref: "transform-1.0.0" undefined_transform_value: description: | Value to be returned if there's no transform defined for the inputs. type: number required: [label_mapper, inputs, outputs, selector] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/regions_selector-1.1.0.yaml0000644000175100001770000000574414514267315030100 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/regions_selector-1.1.0" title: > Represents a discontinuous transform. description: | Maps regions to transgorms and evaluates the transforms with the corresponding inputs. examples: - - Create a regions_selector schema for 2 regions, labeled "1" and "2". - | !transform/regions_selector-1.1.0 inputs: [x, y] label_mapper: !transform/label_mapper-1.1.0 mapper: !core/ndarray-1.0.0 datatype: int8 data: [[0, 1, 1, 0, 2, 0], [0, 1, 1, 0, 2, 0], [0, 1, 1, 0, 2, 0], [0, 1, 1, 0, 2, 0], [0, 1, 1, 0, 2, 0]] outputs: [ra, dec, lam] selector: 1: !transform/compose-1.1.0 forward: - !transform/remap_axes-1.1.0 mapping: [0, 1, 1] - !transform/concatenate-1.1.0 forward: - !transform/concatenate-1.1.0 forward: - !transform/shift-1.1.0 {offset: 1.0} - !transform/shift-1.1.0 {offset: 2.0} - !transform/shift-1.1.0 {offset: 3.0} 2: !transform/compose-1.1.0 forward: - !transform/remap_axes-1.1.0 mapping: [0, 1, 1] - !transform/concatenate-1.1.0 forward: - !transform/concatenate-1.1.0 forward: - !transform/scale-1.1.0 {factor: 2.0} - !transform/scale-1.1.0 {factor: 3.0} - !transform/scale-1.1.0 {factor: 3.0} undefined_transform_value: .nan allOf: - $ref: "transform-1.1.0" - type: object properties: label_mapper: description: | An instance of [label_mapper-1.1.0](ref:schemas/label_mapper-1.1.0) $ref: "./label_mapper-1.1.0" inputs: description: | Names of inputs. type: array items: type: string outputs: description: | Names of outputs. type: array items: type: string selector: description: | A mapping of regions to trransforms. type: object properties: labels: description: | An array of unique region labels. type: array items: type: - integer - string transforms: description: | A transform for each region. The order should match the order of labels. type: array items: $ref: "transform-1.1.0" undefined_transform_value: description: | Value to be returned if there's no transform defined for the inputs. type: number required: [label_mapper, inputs, outputs, selector] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/regions_selector-1.2.0.yaml0000644000175100001770000000574414514267315030101 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/regions_selector-1.2.0" title: > Represents a discontinuous transform. description: | Maps regions to transforms and evaluates the transforms with the corresponding inputs. examples: - - Create a regions_selector schema for 2 regions, labeled "1" and "2". - | !transform/regions_selector-1.2.0 inputs: [x, y] label_mapper: !transform/label_mapper-1.2.0 mapper: !core/ndarray-1.0.0 datatype: int8 data: [[0, 1, 1, 0, 2, 0], [0, 1, 1, 0, 2, 0], [0, 1, 1, 0, 2, 0], [0, 1, 1, 0, 2, 0], [0, 1, 1, 0, 2, 0]] outputs: [ra, dec, lam] selector: 1: !transform/compose-1.2.0 forward: - !transform/remap_axes-1.2.0 mapping: [0, 1, 1] - !transform/concatenate-1.2.0 forward: - !transform/concatenate-1.2.0 forward: - !transform/shift-1.2.0 {offset: 1.0} - !transform/shift-1.2.0 {offset: 2.0} - !transform/shift-1.2.0 {offset: 3.0} 2: !transform/compose-1.2.0 forward: - !transform/remap_axes-1.2.0 mapping: [0, 1, 1] - !transform/concatenate-1.2.0 forward: - !transform/concatenate-1.2.0 forward: - !transform/scale-1.2.0 {factor: 2.0} - !transform/scale-1.2.0 {factor: 3.0} - !transform/scale-1.2.0 {factor: 3.0} undefined_transform_value: .nan allOf: - $ref: "transform-1.2.0" - type: object properties: label_mapper: description: | An instance of [label_mapper-1.2.0](ref:schemas/label_mapper-1.2.0) $ref: "./label_mapper-1.2.0" inputs: description: | Names of inputs. type: array items: type: string outputs: description: | Names of outputs. type: array items: type: string selector: description: | A mapping of regions to trransforms. type: object properties: labels: description: | An array of unique region labels. type: array items: type: - integer - string transforms: description: | A transform for each region. The order should match the order of labels. type: array items: $ref: "transform-1.2.0" undefined_transform_value: description: | Value to be returned if there's no transform defined for the inputs. type: number required: [label_mapper, inputs, outputs, selector] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/remap_axes-1.0.0.yaml0000644000175100001770000000376014514267315026651 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/remap_axes-1.0.0" title: > Reorder, add and drop axes. description: | This transform allows the order of the input axes to be shuffled and returned as the output axes. It is a list made up of integers, each corresponding to an index of the input axis to send to the output axis. If only a list is provided, the number of input axes is automatically determined from the maximum index in the list. If an object with `mapping` and `n_inputs` properties is provided, the number of input axes is explicitly set by the `n_inputs` value. Invertibility: TBD examples: - - For 2 input axes, swap the axes - | !transform/remap_axes-1.0.0 mapping: [1, 0] - - For 2 input axes, return the second axis and drop the first - | !transform/remap_axes-1.0.0 mapping: [1] - - For 2 input axes, return the first axis twice, followed by the second - | !transform/remap_axes-1.0.0 mapping: [0, 0, 1] - - For 2 input axes, add a third axis which is a constant - | !transform/concatenate-1.0.0 forward: - !transform/remap_axes-1.0.0 mapping: [0] - !transform/remap_axes-1.0.0 mapping: [1] - !transform/constant-1.0.0 value: 42 - - Here we have 3 input axes, but we are explicitly dropping the last one - | !transform/remap_axes-1.0.0 mapping: [0, 1] n_inputs: 3 definitions: mapping: type: array items: type: integer allOf: - $ref: "transform-1.0.0" - properties: n_inputs: description: | Explicitly set the number of input axes. If not provided, it is determined from the maximum index value in the mapping list. type: integer mapping: $ref: "#/definitions/mapping" required: [mapping] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/remap_axes-1.1.0.yaml0000644000175100001770000000405214514267315026645 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/remap_axes-1.1.0" title: > Reorder, add and drop axes. description: | This transform allows the order of the input axes to be shuffled and returned as the output axes. It is a list made up of integers, each corresponding to an index of the input axis to send to the output axis. If only a list is provided, the number of input axes is automatically determined from the maximum index in the list. If an object with `mapping` and `n_inputs` properties is provided, the number of input axes is explicitly set by the `n_inputs` value. Invertibility: TBD examples: - - For 2 input axes, swap the axes - | !transform/remap_axes-1.1.0 mapping: [1, 0] - - For 2 input axes, return the second axis and drop the first - | !transform/remap_axes-1.1.0 mapping: [1] - - For 2 input axes, return the first axis twice, followed by the second - | !transform/remap_axes-1.1.0 mapping: [0, 0, 1] - - For 2 input axes, add a third axis which is a constant - | !transform/concatenate-1.1.0 forward: - !transform/remap_axes-1.1.0 mapping: [0] - !transform/remap_axes-1.1.0 mapping: [1] - !transform/constant-1.1.0 value: 42 - - Here we have 3 input axes, but we are explicitly dropping the last one - | !transform/remap_axes-1.1.0 mapping: [0, 1] n_inputs: 3 definitions: mapping: type: array items: anyOf: - type: integer - $ref: "../core/constant-1.0.0" allOf: - $ref: "transform-1.1.0" - properties: n_inputs: description: | Explicitly set the number of input axes. If not provided, it is determined from the maximum index value in the mapping list. type: integer mapping: $ref: "#/definitions/mapping" required: [mapping] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/remap_axes-1.2.0.yaml0000644000175100001770000000405214514267315026646 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/remap_axes-1.2.0" title: > Reorder, add and drop axes. description: | This transform allows the order of the input axes to be shuffled and returned as the output axes. It is a list made up of integers, each corresponding to an index of the input axis to send to the output axis. If only a list is provided, the number of input axes is automatically determined from the maximum index in the list. If an object with `mapping` and `n_inputs` properties is provided, the number of input axes is explicitly set by the `n_inputs` value. Invertibility: TBD examples: - - For 2 input axes, swap the axes - | !transform/remap_axes-1.2.0 mapping: [1, 0] - - For 2 input axes, return the second axis and drop the first - | !transform/remap_axes-1.2.0 mapping: [1] - - For 2 input axes, return the first axis twice, followed by the second - | !transform/remap_axes-1.2.0 mapping: [0, 0, 1] - - For 2 input axes, add a third axis which is a constant - | !transform/concatenate-1.2.0 forward: - !transform/remap_axes-1.2.0 mapping: [0] - !transform/remap_axes-1.2.0 mapping: [1] - !transform/constant-1.2.0 value: 42 - - Here we have 3 input axes, but we are explicitly dropping the last one - | !transform/remap_axes-1.2.0 mapping: [0, 1] n_inputs: 3 definitions: mapping: type: array items: anyOf: - type: integer - $ref: "../core/constant-1.0.0" allOf: - $ref: "transform-1.2.0" - properties: n_inputs: description: | Explicitly set the number of input axes. If not provided, it is determined from the maximum index value in the mapping list. type: integer mapping: $ref: "#/definitions/mapping" required: [mapping] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/remap_axes-1.3.0.yaml0000644000175100001770000000424214514267315026650 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/remap_axes-1.3.0" title: > Reorder, add and drop axes. description: | This transform allows the order of the input axes to be shuffled and returned as the output axes. It is a list made up of integers. Each item in the list corresponds to an output axis. Each item is the index of the input axis to send to the output axis. If an object with `mapping` and `n_inputs` properties is provided, the number of input axes is explicitly set by the `n_inputs` value. If only a list is provided, the number of input axes is automatically determined from the maximum index in the list. Invertibility: This transform does not have a general analytical inverse. In some well defined cases it is possible to invert automatically examples: - - For 2 input axes, swap the axes - | !transform/remap_axes-1.3.0 mapping: [1, 0] - - For 2 input axes, return the second axis and drop the first - | !transform/remap_axes-1.3.0 mapping: [1] - - For 2 input axes, return the first axis twice, followed by the second - | !transform/remap_axes-1.3.0 mapping: [0, 0, 1] - - | The above example is equivalent to the following, and ASDF implementations are free to normalize it thusly: - | !transform/concatenate-1.2.0 forward: - !transform/remap_axes-1.3.0 mapping: [0] - !transform/remap_axes-1.3.0 mapping: [1] - - Here we have 3 input axes, but we are explicitly dropping the last one - | !transform/remap_axes-1.3.0 mapping: [0, 1] n_inputs: 3 definitions: mapping: type: array items: type: integer allOf: - $ref: "transform-1.2.0" - properties: n_inputs: description: | Explicitly set the number of input axes. If not provided, it is determined from the maximum index value in the mapping list. type: integer mapping: $ref: "#/definitions/mapping" required: [mapping] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/ricker_wavelet1d-1.0.0.yaml0000644000175100001770000000175114514267315027756 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/ricker_wavelet1d-1.0.0" title: > One dimensional Ricker Wavelet model. description: > One dimensional Ricker Wavelet model examples: - - $$f(x)={10.0\left(1-\frac{\left(x-0.5\right)^{2}}{2.0^{2}}\right)e^{-\frac{\left(x-0.5\right)^{2}}{2*2.0^{2}}}}$$ - | !transform/ricker_wavelet1d-1.0.0 {amplitude: 10.0, sigma: 2.0, x_0: 0.5} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Peak value. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Position of the peak. sigma: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Width of the Ricker wavelet. required: ['amplitude', 'x_0', 'sigma'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/ricker_wavelet2d-1.0.0.yaml0000644000175100001770000000223414514267315027754 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/ricker_wavelet2d-1.0.0" title: > Two dimensional Ricker Wavelet model. description: > Two dimensional Ricker Wavelet model. examples: - - $$f(x)={10.0\left(1-\frac{\left(x-0.5\right)^{2}-(y-1.5)^2}{2.0^{2}}\right)e^{-\frac{\left(x-0.5\right)^{2}-(y-1.5)^2)}{2*2.0^{2}}}}$$ - | !transform/ricker_wavelet2d-1.0.0 {amplitude: 10.0, sigma: 2.0, x_0: 0.5, y_0: 1.5} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Amplitude. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: x position of the peak. y_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: y position of the peak. sigma: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Width of the Ricker wavelet. required: ['amplitude', 'x_0', 'y_0', 'sigma'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/ring2d-1.0.0.yaml0000644000175100001770000000262714514267315025713 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/ring2d-1.0.0" title: > Two dimensional radially symmetric ring model. description: > Two dimensional radially symmetric ring. examples: - - A 2D disk centered at (x, y) = (0.5, 1.5), with an inner radius of 5.0, outer radius of 7.5 and amplitude 10.0. - | !transform/ring2d-1.0.0 amplitude: 10.0 bounding_box: - [-6.0, 9.0] - [-7.0, 8.0] r_in: 5.0 width: 2.5 x_0: 0.5 y_0: 1.5 allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Value of the disk function. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: x center position of the disk. y_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: y center position of the disk. r_in: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Inner radius of the ring. width: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Width of the ring. required: ['amplitude', 'x_0', 'y_0', 'r_in', 'width'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/rotate2d-1.0.0.yaml0000644000175100001770000000076214514267315026250 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/rotate2d-1.0.0" title: > A 2D rotation. description: > A 2D rotation around the origin, in degrees. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. allOf: - $ref: "transform-1.0.0" - type: object properties: angle: type: number description: Angle, in degrees. required: [angle] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/rotate2d-1.1.0.yaml0000644000175100001770000000076214514267315026251 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/rotate2d-1.1.0" title: > A 2D rotation. description: > A 2D rotation around the origin, in degrees. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. allOf: - $ref: "transform-1.1.0" - type: object properties: angle: type: number description: Angle, in degrees. required: [angle] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/rotate2d-1.2.0.yaml0000644000175100001770000000106014514267315026242 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/rotate2d-1.2.0" title: > A 2D rotation. description: > A 2D rotation around the origin, in degrees. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. allOf: - $ref: "transform-1.1.0" - type: object properties: angle: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Angle, in degrees. required: [angle] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/rotate2d-1.3.0.yaml0000644000175100001770000000106014514267315026243 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/rotate2d-1.3.0" title: > A 2D rotation. description: > A 2D rotation around the origin, in degrees. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. allOf: - $ref: "transform-1.2.0" - type: object properties: angle: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Angle, in degrees. required: [angle] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/rotate3d-1.0.0.yaml0000644000175100001770000000277614514267315026260 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/rotate3d-1.0.0" title: > Rotation in 3D space. description: | Euler angle rotation around 3 axes. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. examples: - - The three Euler angles are 12.3, 34 and -1.2 in degrees. - | !transform/rotate3d-1.0.0 phi: 12.3 theta: 34 psi: -1.2 direction: zxz allOf: - $ref: "transform-1.0.0" - type: object properties: phi: type: number description: Angle, in degrees. theta: type: number description: Angle, in degrees. psi: type: number description: Angle, in degrees. direction: description: | Sequence of rotation axes: one of 'zxz', 'xyx', 'yzy', 'zyz', 'xzx', 'yxy', 'xyz', 'yzx', 'zxy', 'xzy', 'zyx', 'yxz' or `native2celestial`, `celestial2native`. If `direction` is `native2celestial` or `celestial2native`, `phi`, `theta` are the longitude and latitude of the native pole in the celestial system and `psi` is the longitude of the celestial pole in the native system. enum: ['zxz', 'xyx', 'yzy', 'zyz', 'xzx', 'yxy', 'xyz', 'yzx', 'zxy', 'xzy', 'zyx', 'yxz', native2celestial, celestial2native] default: native2celestial required: [phi, theta, psi, direction] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/rotate3d-1.1.0.yaml0000644000175100001770000000277614514267315026261 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/rotate3d-1.1.0" title: > Rotation in 3D space. description: | Euler angle rotation around 3 axes. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. examples: - - The three Euler angles are 12.3, 34 and -1.2 in degrees. - | !transform/rotate3d-1.1.0 phi: 12.3 theta: 34 psi: -1.2 direction: zxz allOf: - $ref: "transform-1.1.0" - type: object properties: phi: type: number description: Angle, in degrees. theta: type: number description: Angle, in degrees. psi: type: number description: Angle, in degrees. direction: description: | Sequence of rotation axes: one of 'zxz', 'xyx', 'yzy', 'zyz', 'xzx', 'yxy', 'xyz', 'yzx', 'zxy', 'xzy', 'zyx', 'yxz' or `native2celestial`, `celestial2native`. If `direction` is `native2celestial` or `celestial2native`, `phi`, `theta` are the longitude and latitude of the native pole in the celestial system and `psi` is the longitude of the celestial pole in the native system. enum: ['zxz', 'xyx', 'yzy', 'zyz', 'xzx', 'yxy', 'xyz', 'yzx', 'zxy', 'xzy', 'zyx', 'yxz', native2celestial, celestial2native] default: native2celestial required: [phi, theta, psi, direction] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/rotate3d-1.2.0.yaml0000644000175100001770000000327014514267315026250 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/rotate3d-1.2.0" title: > Rotation in 3D space. description: | Euler angle rotation around 3 axes. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. examples: - - The three Euler angles are 12.3, 34 and -1.2 in degrees. - | !transform/rotate3d-1.2.0 phi: 12.3 theta: 34 psi: -1.2 direction: zxz allOf: - $ref: "transform-1.1.0" - type: object properties: phi: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Angle, in degrees. theta: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Angle, in degrees. psi: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Angle, in degrees. direction: description: | Sequence of rotation axes: one of 'zxz', 'xyx', 'yzy', 'zyz', 'xzx', 'yxy', 'xyz', 'yzx', 'zxy', 'xzy', 'zyx', 'yxz' or `native2celestial`, `celestial2native`. If `direction` is `native2celestial` or `celestial2native`, `phi`, `theta` are the longitude and latitude of the native pole in the celestial system and `psi` is the longitude of the celestial pole in the native system. enum: ['zxz', 'xyx', 'yzy', 'zyz', 'xzx', 'yxy', 'xyz', 'yzx', 'zxy', 'xzy', 'zyx', 'yxz', native2celestial, celestial2native] default: native2celestial required: [phi, theta, psi, direction] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/rotate3d-1.3.0.yaml0000644000175100001770000000327014514267315026251 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/rotate3d-1.3.0" title: > Rotation in 3D space. description: | Euler angle rotation around 3 axes. Invertibility: All ASDF tools are required to be able to compute the analytic inverse of this transform. examples: - - The three Euler angles are 12.3, 34 and -1.2 in degrees. - | !transform/rotate3d-1.3.0 phi: 12.3 theta: 34 psi: -1.2 direction: zxz allOf: - $ref: "transform-1.2.0" - type: object properties: phi: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Angle, in degrees. theta: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Angle, in degrees. psi: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Angle, in degrees. direction: description: | Sequence of rotation axes: one of 'zxz', 'xyx', 'yzy', 'zyz', 'xzx', 'yxy', 'xyz', 'yzx', 'zxy', 'xzy', 'zyx', 'yxz' or `native2celestial`, `celestial2native`. If `direction` is `native2celestial` or `celestial2native`, `phi`, `theta` are the longitude and latitude of the native pole in the celestial system and `psi` is the longitude of the celestial pole in the native system. enum: ['zxz', 'xyx', 'yzy', 'zyz', 'xzx', 'yxy', 'xyz', 'yzx', 'zxy', 'xzy', 'zyx', 'yxz', native2celestial, celestial2native] default: native2celestial required: [phi, theta, psi, direction] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/rotate_sequence_3d-1.0.0.yaml0000644000175100001770000000234614514267315030300 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/rotate_sequence_3d-1.0.0" title: > Rotation in 3D space. description: | Rotation in 3D space by arbitrary number of angles about arbitrary order of "x", "y", "z" axes. examples: - - A sequence of rotation around 5 axes.. - | !transform/rotate_sequence_3d-1.0.0 angles: [-0.0193, -0.1432, -0.04, -65.60, 273.089] axes_order: zyxyz rotation_type: cartesian allOf: - $ref: "transform-1.2.0" - type: object properties: angles: type: array items: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | The angles of rotation in units of deg. axes_order: description: | A sequence of "x", "y" or "z" characters representing an axis of rotation. The number of characters must equal the number of angles. For the JWST V23 to sky transform the axes are zyxyz. type: string rotation_type: description: | The type of rotation class to nitialize type: str enum: [spherical, cartesian] required: [angles, axes_order, rotation_type] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/sanson_flamsteed-1.0.0.yaml0000644000175100001770000000113514514267315030044 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/sanson_flamsteed-1.0.0" title: | The Sanson-Flamsteed projection. description: | Corresponds to the `SFL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\cos y} \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \cos \theta \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudocylindrical-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/sanson_flamsteed-1.1.0.yaml0000644000175100001770000000113514514267315030045 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/sanson_flamsteed-1.1.0" title: | The Sanson-Flamsteed projection. description: | Corresponds to the `SFL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\cos y} \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \cos \theta \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudocylindrical-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/sanson_flamsteed-1.2.0.yaml0000644000175100001770000000113514514267315030046 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/sanson_flamsteed-1.2.0" title: | The Sanson-Flamsteed projection. description: | Corresponds to the `SFL` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \frac{x}{\cos y} \\ \theta &= y$$ And the sky-to-pixel transformation is defined as: $$x &= \phi \cos \theta \\ y &= \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "pseudocylindrical-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/scale-1.0.0.yaml0000644000175100001770000000057314514267315025613 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/scale-1.0.0" title: > A Scale model. description: > Multiply the input by a factor. allOf: - $ref: "transform-1.0.0" - type: object properties: factor: type: number description: Multiplication factor. required: [factor] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/scale-1.1.0.yaml0000644000175100001770000000057314514267315025614 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/scale-1.1.0" title: > A Scale model. description: > Multiply the input by a factor. allOf: - $ref: "transform-1.1.0" - type: object properties: factor: type: number description: Multiplication factor. required: [factor] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/scale-1.2.0.yaml0000644000175100001770000000067314514267315025616 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/scale-1.2.0" title: > A Scale model. description: > Scale the input by a dimensionless factor. allOf: - $ref: "transform-1.2.0" - type: object properties: factor: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Scale factor. required: [factor] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/schechter1d-1.0.0.yaml0000644000175100001770000000244714514267315026723 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/schechter1d-1.0.0" title: > Schechter luminosity function description: > Schechter luminosity function ([Schechter 1976](https://ui.adsabs.harvard.edu/abs/1976ApJ...203..297S/abstract)), parameterized in terms of magnitudes. examples: - - $$n(M) \ dM = (0.4 \ln 10) \ \phi^{*} \ [{10^{0.4 (M^{*} - M)}}]^{\alpha + 1} \ \exp{[-10^{0.4 (M^{*} - M)}]} \ dM$$ - | !transform/schechter1d-1.0.0 {phi_star: 1.0, m_star: -20.0, alpha: -1.0} allOf: - $ref: "transform-1.2.0" - type: object properties: phi_star: anyOf: - tag: tag:stsci.edu:asdf/unit/quantity-1.1.0 - type: number description: > The normalization factor in units of number density. m_star: type: number description: > The characteristic magnitude where the power-law form of the function cuts off into the exponential form. alpha: anyOf: - tag: tag:stsci.edu:asdf/unit/quantity-1.1.0 - type: number description: > The power-law index, defining the faint-end slope of the luminosity function required: ['phi_star', 'm_star', 'alpha'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/sersic1d-1.0.0.yaml0000644000175100001770000000211014514267315026226 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/sersic1d-1.0.0" title: > One dimensional Sersic surface brightness profile. description: > One dimensional Sersic surface brightness profile. examples: - - $I(r)=10.0\exp\left\{-b_n\left[\left(\frac{r}{1.0}\right)^{(1/4)}-1\right]\right\}$, where $b_n$ is defined such that $r_e$ contains half the total luminosity (can be solved for numeriacally). - | !transform/sersic1d-1.0.0 {amplitude: 10.0, n: 4.0, r_eff: 1.0} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Surface brightness at r_eff. r_eff: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Effective (half-light) radius. n: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Sersic index. required: ['amplitude', 'r_eff', 'n'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/sersic2d-1.0.0.yaml0000644000175100001770000000344514514267315026243 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/sersic2d-1.0.0" title: > Two dimensional Sersic surface brightness profile. description: > Two dimensional Sersic surface brightness profile. examples: - - $I(x, y)=I(r)=I(x, y)=I(r)=10.0\exp\left\{-b_n\left[\left(\frac{(\sqrt{(x-0.5)^2 + (y-1.5)^2})}{1.0}\right)^{(1/4)}-1\right]\right\}$ where $b_n$ is defined such that $r_e$ contains half the total luminosity (can be solved for numerically). - | !transform/sersic2d-1.0.0 {amplitude: 10.0, ellip: 0.0, n: 4.0, r_eff: 1.0, theta: 0.0, x_0: 0.5, y_0: 1.5} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Surface brightness at r_eff. r_eff: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Effective (half-light) radius. n: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Sersic index. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: x position of the center. y_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: y position of the center. ellip: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Ellipticity. theta: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Rotation angle in radians, increases counterclockwise from the positive x-axis. required: ['amplitude', 'r_eff', 'n', 'x_0', 'y_0', 'ellip', 'theta'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/shift-1.0.0.yaml0000644000175100001770000000060314514267315025633 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/shift-1.0.0" title: > A Shift opeartion. description: > Apply an offset in one direction. allOf: - $ref: "transform-1.0.0" - type: object properties: offset: type: number description: Offset in one direction. required: [offset] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/shift-1.1.0.yaml0000644000175100001770000000060314514267315025634 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/shift-1.1.0" title: > A Shift opeartion. description: > Apply an offset in one direction. allOf: - $ref: "transform-1.1.0" - type: object properties: offset: type: number description: Offset in one direction. required: [offset] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/shift-1.2.0.yaml0000644000175100001770000000070114514267315025634 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/shift-1.2.0" title: > A Shift opeartion. description: > Apply an offset in one direction. allOf: - $ref: "transform-1.2.0" - type: object properties: offset: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Offset in one direction. required: [offset] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/sine1d-1.0.0.yaml0000644000175100001770000000160414514267315025703 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/sine1d-1.0.0" title: > One dimensional sine model. description: > One dimensional sine. examples: - - $$f(x)=10.0sin(2\pi *0.5x+2\pi*1.0)$$ - | !transform/sine1d-1.0.0 {amplitude: 10.0, frequency: 0.5, phase: 1.0} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation amplitude. frequency: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation frequency. phase: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation phase. required: ['amplitude', 'frequency', 'phase'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/slant_orthographic-1.0.0.yaml0000644000175100001770000000210514514267315030407 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/slant_orthographic-1.0.0" title: | The slant orthographic projection. description: | Corresponds to the `SIN` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.0.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \cos^{-1}\left(\frac{\pi}{180^{\circ}}R_\theta\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cos \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.0.0" - type: object properties: xi: type: number description: Obliqueness parameter, first equation of the slant orthographic projection. default: 0 eta: type: number description: Obliqueness parameter, second equation of the slant orthographic projection. default: 0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/slant_orthographic-1.1.0.yaml0000644000175100001770000000230114514267315030406 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/slant_orthographic-1.1.0" title: | The slant orthographic projection. description: | Corresponds to the `SIN` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \cos^{-1}\left(\frac{\pi}{180^{\circ}}R_\theta\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cos \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.1.0" - type: object properties: xi: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Obliqueness parameter, first equation of the slant orthographic projection. default: 0 eta: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Obliqueness parameter, second equation of the slant orthographic projection. default: 0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/slant_orthographic-1.2.0.yaml0000644000175100001770000000230114514267315030407 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/slant_orthographic-1.2.0" title: | The slant orthographic projection. description: | Corresponds to the `SIN` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \cos^{-1}\left(\frac{\pi}{180^{\circ}}R_\theta\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cos \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.2.0" - type: object properties: xi: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Obliqueness parameter, first equation of the slant orthographic projection. default: 0 eta: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Obliqueness parameter, second equation of the slant orthographic projection. default: 0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/slant_zenithal_perspective-1.0.0.yaml0000644000175100001770000000232014514267315032144 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/slant_zenithal_perspective-1.0.0" title: | The slant zenithal perspective projection. description: | Corresponds to the `SZP` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.0.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.0.0" - type: object properties: mu: type: number description: | Distance from point of projection to center of sphere in spherical radii. default: 0 phi0: type: number description: | The longitude $\phi_0$ of the reference point, in degrees. default: 0 theta0: type: number description: | The latitude $\theta_0$ of the reference point, in degrees. default: 90 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/slant_zenithal_perspective-1.1.0.yaml0000644000175100001770000000232014514267315032145 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/slant_zenithal_perspective-1.1.0" title: | The slant zenithal perspective projection. description: | Corresponds to the `SZP` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.1.0" - type: object properties: mu: type: number description: | Distance from point of projection to center of sphere in spherical radii. default: 0 phi0: type: number description: | The longitude $\phi_0$ of the reference point, in degrees. default: 0 theta0: type: number description: | The latitude $\theta_0$ of the reference point, in degrees. default: 90 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/slant_zenithal_perspective-1.2.0.yaml0000644000175100001770000000261214514267315032152 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/slant_zenithal_perspective-1.2.0" title: | The slant zenithal perspective projection. description: | Corresponds to the `SZP` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = \tan^{-1}\left(\frac{180^{\circ}}{\pi R_\theta}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\cot \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.2.0" - type: object properties: mu: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | Distance from point of projection to center of sphere in spherical radii. default: 0 phi0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | The longitude $\phi_0$ of the reference point, in degrees. default: 0 theta0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | The latitude $\theta_0$ of the reference point, in degrees. default: 90 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/smoothly_broken_power_law1d-1.0.0.yaml0000644000175100001770000000257114514267315032246 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/smoothly_broken_power_law1d-1.0.0" title: > One dimensional smoothly broken power law model. description: > One dimensional smoothly broken power law model. examples: - - $$f(x) = 10*(\frac{x}{5.0})^{-2.0}\{\frac{1}{2}[1+(\frac{x}{5.0})^{1/0.5}]\}^{(2.0- 3.0)0.5}$$ - | !transform/smoothly_broken_power_law1d-1.0.0 {alpha_1: 2.0, alpha_2: 2.0, amplitude: 10.0, delta: 0.5, x_break: 5.0} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Model amplitude at the break point. x_break: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Break point. alpha_1: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Power law index for x < x_break. alpha_2: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Power law index for x > x_break. delta: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Smoothness parameter. required: ['amplitude', 'x_break', 'alpha_1', 'alpha_2', 'delta'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/spline1d-1.0.0.yaml0000644000175100001770000000230414514267315026235 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/spline1d-1.0.0" title: > A spline1d model. description: | A spline1d model represented by an array of its knots, an array of its coefficients, and its degree. In addition the bounding endpoints of the spline can be represented as well examples: - - Example spline - | !transform/spline1d-1.0.0 knots: !core/ndarray-1.0.0 [0.0, 0.0, 0.0, 0.0, 0.5, 1.0, 1.0, 1.0, 1.0] coefficients: !core/ndarray-1.0.0 [1.2, 1.2, 1.2, 1.2, 0.3, 56.1, 56.1, 56.1, 56.1] degree: 3 definitions: coeffs: tag: tag:stsci.edu:asdf/core/ndarray-1.0.0 ndim: 1 datatype: float64 allOf: - $ref: "transform-1.2.0" - type: object properties: knots: description: | The spline knots $ref: "#/definitions/coeffs" coefficients: description: | The spline coefficients $ref: "#/definitions/coeffs" degree: description: | The spline degree type: integer minimum: 1 maximum: 5 required: [knots, coefficients, degree] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/stereographic-1.0.0.yaml0000644000175100001770000000136114514267315027357 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/stereographic-1.0.0" title: | The stereographic projection. description: | Corresponds to the `STG` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.0.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^{\circ} - 2 \tan^{-1}\left(\frac{\pi R_\theta}{360^{\circ}}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\frac{2 \cos \theta}{1 + \sin \theta}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/stereographic-1.1.0.yaml0000644000175100001770000000136114514267315027360 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/stereographic-1.1.0" title: | The stereographic projection. description: | Corresponds to the `STG` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^{\circ} - 2 \tan^{-1}\left(\frac{\pi R_\theta}{360^{\circ}}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\frac{2 \cos \theta}{1 + \sin \theta}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/stereographic-1.2.0.yaml0000644000175100001770000000136114514267315027361 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/stereographic-1.2.0" title: | The stereographic projection. description: | Corresponds to the `STG` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^{\circ} - 2 \tan^{-1}\left(\frac{\pi R_\theta}{360^{\circ}}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta = \frac{180^{\circ}}{\pi}\frac{2 \cos \theta}{1 + \sin \theta}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/subtract-1.0.0.yaml0000644000175100001770000000150014514267315026342 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/subtract-1.0.0" title: > Perform a list of subtransforms in parallel and then subtract their results. description: | Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. examples: - - A list of transforms, performed in parallel, and then combined through subtraction. - | !transform/subtract-1.0.0 forward: - !transform/shift-1.0.0 offset: 2.0 - !transform/shift-1.0.0 offset: 3.0 allOf: - $ref: "transform-1.0.0" - properties: forward: type: array items: $ref: "transform-1.0.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/subtract-1.1.0.yaml0000644000175100001770000000150014514267315026343 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/subtract-1.1.0" title: > Perform a list of subtransforms in parallel and then subtract their results. description: | Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. examples: - - A list of transforms, performed in parallel, and then combined through subtraction. - | !transform/subtract-1.1.0 forward: - !transform/shift-1.1.0 offset: 2.0 - !transform/shift-1.1.0 offset: 3.0 allOf: - $ref: "transform-1.1.0" - properties: forward: type: array items: $ref: "transform-1.1.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/subtract-1.2.0.yaml0000644000175100001770000000150014514267315026344 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/subtract-1.2.0" title: > Perform a list of subtransforms in parallel and then subtract their results. description: | Each of the subtransforms must have the same number of inputs and outputs. Invertibility: This transform is not automatically invertible. examples: - - A list of transforms, performed in parallel, and then combined through subtraction. - | !transform/subtract-1.2.0 forward: - !transform/shift-1.2.0 offset: 2.0 - !transform/shift-1.2.0 offset: 3.0 allOf: - $ref: "transform-1.2.0" - properties: forward: type: array items: $ref: "transform-1.2.0" required: [forward] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/tabular-1.0.0.yaml0000644000175100001770000000345414514267315026157 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/tabular-1.0.0" title: > A Tabular model. description: | Tabular represents a lookup table with values corresponding to some grid points. It computes the interpolated values corresponding to the given inputs. Three methods of interpolation are supported - "linear", "nearest" and "splinef2d". It supports extrapolation. allOf: - $ref: "transform-1.0.0" - type: object properties: lookup_table: description: > Table values. anyOf: - $ref: ../core/ndarray-1.0.0 - type: array points: type: array items: anyOf: - type: array - $ref: ../core/ndarray-1.0.0 description: | Grid values - each row in the array corresponds to a dimension in the lookup table. The grid does not have to be regular. method: description: | Method of interpolation. Supported are "linear" and "nearest", and "splinef2d". "splinef2d" is only supported for 2-dimensional data. type: string enum: ["linear", "nearest", "splinef2d"] default: "linear" bounds_error: description: | If True, when interpolated values are requested outside of the domain of the input data, a ValueError is raised. If False, then "fill_value" is used. type: boolean default: true fill_value: description: | If provided, the value to use for points outside of the interpolation domain. If None, values outside the domain are extrapolated. Extrapolation is not supported by method "splinef2d". type: number required: [lookup_table] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/tabular-1.1.0.yaml0000644000175100001770000000345414514267315026160 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/tabular-1.1.0" title: > A Tabular model. description: | Tabular represents a lookup table with values corresponding to some grid points. It computes the interpolated values corresponding to the given inputs. Three methods of interpolation are supported - "linear", "nearest" and "splinef2d". It supports extrapolation. allOf: - $ref: "transform-1.1.0" - type: object properties: lookup_table: description: > Table values. anyOf: - $ref: ../core/ndarray-1.0.0 - type: array points: type: array items: anyOf: - type: array - $ref: ../core/ndarray-1.0.0 description: | Grid values - each row in the array corresponds to a dimension in the lookup table. The grid does not have to be regular. method: description: | Method of interpolation. Supported are "linear" and "nearest", and "splinef2d". "splinef2d" is only supported for 2-dimensional data. type: string enum: ["linear", "nearest", "splinef2d"] default: "linear" bounds_error: description: | If True, when interpolated values are requested outside of the domain of the input data, a ValueError is raised. If False, then "fill_value" is used. type: boolean default: true fill_value: description: | If provided, the value to use for points outside of the interpolation domain. If None, values outside the domain are extrapolated. Extrapolation is not supported by method "splinef2d". type: number required: [lookup_table] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/tabular-1.2.0.yaml0000644000175100001770000000357714514267315026167 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/tabular-1.2.0" title: > A Tabular model. description: | Tabular represents a lookup table with values corresponding to some grid points. It computes the interpolated values corresponding to the given inputs. Three methods of interpolation are supported - "linear", "nearest" and "splinef2d". It supports extrapolation. allOf: - $ref: "transform-1.2.0" - type: object properties: lookup_table: description: > Table values. anyOf: - type: array - $ref: ../core/ndarray-1.0.0 - $ref: ../unit/quantity-1.1.0 points: type: array items: anyOf: - type: array - $ref: ../core/ndarray-1.0.0 - $ref: ../unit/quantity-1.1.0 description: | Grid values - each row in the array corresponds to a dimension in the lookup table. The grid does not have to be regular. method: description: | Method of interpolation. Supported are "linear" and "nearest", and "splinef2d". "splinef2d" is only supported for 2-dimensional data. type: string enum: ["linear", "nearest", "splinef2d"] default: "linear" bounds_error: description: | If True, when interpolated values are requested outside of the domain of the input data, a ValueError is raised. If False, then "fill_value" is used. type: boolean default: true fill_value: description: | If provided, the value to use for points outside of the interpolation domain. If None, values outside the domain are extrapolated. Extrapolation is not supported by method "splinef2d". type: number required: [lookup_table] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/tangent1d-1.0.0.yaml0000644000175100001770000000162014514267315026403 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/tangent1d-1.0.0" title: > One dimensional tangent model. description: > One dimensional tangent. examples: - - $$f(x)=10.0tan(2\pi *0.5x+2\pi*1.0)$$ - | !transform/tangent1d-1.0.0 {amplitude: 10.0, frequency: 0.5, phase: 1.0} allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation amplitude. frequency: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation frequency. phase: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Oscillation phase. required: ['amplitude', 'frequency', 'phase'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/tangential_spherical_cube-1.0.0.yaml0000644000175100001770000000062714514267315031702 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/tangential_spherical_cube-1.0.0" title: | Tangential spherical cube projection. description: | Corresponds to the `TSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "quadcube-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/tangential_spherical_cube-1.1.0.yaml0000644000175100001770000000062714514267315031703 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/tangential_spherical_cube-1.1.0" title: | Tangential spherical cube projection. description: | Corresponds to the `TSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "quadcube-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/tangential_spherical_cube-1.2.0.yaml0000644000175100001770000000062714514267315031704 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/tangential_spherical_cube-1.2.0" title: | Tangential spherical cube projection. description: | Corresponds to the `TSC` projection in the FITS WCS standard. Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "quadcube-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/transform-1.0.0.yaml0000644000175100001770000000201014514267315026523 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/transform-1.0.0" title: > A generic type used to mark where other transforms are accepted. description: > These objects are designed to be nested in arbitrary ways to build up transformation pipelines out of a number of low-level pieces. type: object properties: name: description: | A user-friendly name for the transform, to give it extra meaning. type: string domain: description: | The domain (range of valid inputs) to the transform. Each entry in the list corresponds to an input dimension. type: array items: $ref: "domain-1.0.0" inverse: description: | Explicitly sets the inverse transform of this transform. If the transform has a direct analytic inverse, this property is usually not necessary, as the ASDF-reading tool can provide it automatically. $ref: "transform-1.0.0" additionalProperties: true ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/transform-1.1.0.yaml0000644000175100001770000000201014514267315026524 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/transform-1.1.0" title: > A generic type used to mark where other transforms are accepted. description: > These objects are designed to be nested in arbitrary ways to build up transformation pipelines out of a number of low-level pieces. type: object properties: name: description: | A user-friendly name for the transform, to give it extra meaning. type: string domain: description: | The domain (range of valid inputs) to the transform. Each entry in the list corresponds to an input dimension. type: array items: $ref: "domain-1.0.0" inverse: description: | Explicitly sets the inverse transform of this transform. If the transform has a direct analytic inverse, this property is usually not necessary, as the ASDF-reading tool can provide it automatically. $ref: "transform-1.1.0" additionalProperties: true ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/transform-1.2.0.yaml0000644000175100001770000001124614514267315026540 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/transform-1.2.0" title: > A generic type used to mark where other transforms are accepted. description: > These objects are designed to be nested in arbitrary ways to build up transformation pipelines out of a number of low-level pieces. examples: - - A transform with no bounding_box or compound_bounding_box - | !transform/transform-1.2.0 name: test inputs: ['x', 'y'] outputs: ['z'] fixed: a: True b: False bounds: c: [-1, 2] d: [-3, null] - - A transform with old-style 1D bounding_box - | !transform/transform-1.2.0 name: test inputs: ['x'] outputs: ['y'] bounding_box: [1.0, 2.0] - - A transform with new-style 1D bounding_box - | !transform/constant-1.4.0 name: test value: 1 dimensions: 1 inputs: ['x'] outputs: ['y'] bounding_box: !transform/property/bounding_box-1.0.0 intervals: x: [1.0, 2.0] - - A transform with old-style 2D bounding_box - | !transform/transform-1.2.0 name: test inputs: ['x', 'y'] outputs: ['z'] bounding_box: - [1.0, 2.0] - [3.0, 4.0] - - A transform with new-style 2D bounding_box - | !transform/constant-1.4.0 name: test value: 1 dimensions: 2 inputs: ['x', 'y'] outputs: ['z'] bounding_box: !transform/property/bounding_box-1.0.0 intervals: x: [1.0, 2.0] y: [3.0, 4.0] - - A transform with compound_bounding_box - | !transform/concatenate-1.2.0 name: test forward: - !transform/concatenate-1.2.0 forward: - !transform/shift-1.2.0 offset: 1.0 - !transform/shift-1.2.0 offset: 2.0 - !transform/concatenate-1.2.0 forward: - !transform/shift-1.2.0 offset: 3.0 - !transform/shift-1.2.0 offset: 4.0 inputs: ['x', 'y', 'a', 'b'] bounding_box: !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x ignore: true - argument: y ignore: true cbbox: - key: [0, 1] bbox: !transform/property/bounding_box-1.0.0 intervals: a: [2.0, 3.0] b: [4.0, 5.0] - key: [6, 7] bbox: !transform/property/bounding_box-1.0.0 intervals: a: [8.0, 9.0] b: [10.0, 11.0] definitions: bound: anyOf: - type: number - type: "null" type: object properties: name: description: | A user-friendly name for the transform, to give it extra meaning. type: string inverse: description: | Explicitly sets the inverse transform of this transform. If the transform has a direct analytic inverse, this property is usually not necessary, as the ASDF-reading tool can provide it automatically. $ref: "transform-1.2.0" inputs: description: | The names of the model's evaluation input variables. type: array items: type: string outputs: description: | The names of the model's evaluation output variables. type: array items: type: string bounding_box: description: | Bounding box for model the transform oneOf: - $ref: "property/bounding_box-1.0.0#/definitions/interval" - type: array minItems: 2 items: $ref: "property/bounding_box-1.0.0#/definitions/interval" - tag: tag:stsci.edu:asdf/transform/property/bounding_box-1.0.0 - tag: tag:stsci.edu:asdf/transform/property/compound_bounding_box-1.0.0 fixed: description: | The parameters which are fixed when fitting the transform to data. type: object additionalProperties: type: boolean bounds: description: | The parameters which are bounded when fitting the transform to data. type: object additionalProperties: type: array minItems: 2 maxItems: 2 items: - $ref: "#/definitions/bound" - $ref: "#/definitions/bound" input_units_equivalencies: description: | The units that are accepted for inputs to be converted into. type: object additionalProperties: tag: tag:astropy.org:astropy/units/equivalency-1.0.0 additionalProperties: true ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/trapezoid1d-1.0.0.yaml0000644000175100001770000000231714514267315026750 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/trapezoid1d-1.0.0" title: > One dimensional trapezoid model. description: > One dimensional trapezoid. examples: - - A 1D trapezoid centered at x=0.5, of width 5.0, slope of tails 1.0, and amplitude 10.0 - | !transform/trapezoid1d-1.0.0 amplitude: 10.0 bounding_box: [-12.0, 13.0] slope: 1.0 width: 5.0 x_0: 0.5 allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Amplitude of the trapezoid. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Center position of the trapezoid. width: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Width of the constant part of the trapezoid. slope: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Slope of the tails of the trapezoid. required: ['amplitude', 'x_0', 'width', 'slope'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/trapezoid_disk2d-1.0.0.yaml0000644000175100001770000000300014514267315027751 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/trapezoid_disk2d-1.0.0" title: > Two dimensional circular trapezoid model. description: > Two dimensional circular trapezoid. examples: - - A 2D trapezoid disk centered at (x, y) = (0.5, 1.5), of radius (distance between constant segments) 5.0, slope of tails 1.0, and amplitude 10.0 - | !transform/trapezoid_disk2d-1.0.0 R_0: 5.0 amplitude: 10.0 bounding_box: - [-13.5, 16.5] - [-14.5, 15.5] slope: 1.0 x_0: 0.5 y_0: 1.5 allOf: - $ref: "transform-1.2.0" - type: object properties: amplitude: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Amplitude of the trapezoid. x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: x center position of the trapezoid. y_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: y center position of the trapezoid. R_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Radius of the constant part of the trapezoid. slope: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Slope of the tails of the trapezoid in x direction. required: ['amplitude', 'x_0', 'y_0', 'R_0', 'slope'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/voigt1d-1.0.0.yaml0000644000175100001770000000230514514267315026074 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/voigt1d-1.0.0" title: > One dimensional model for the Voigt profile. description: > One dimensional model for the Voigt profile. examples: - - 1D Voigt model with a Lorentzian amplitude of 10.0, Lorentzian FWHM of 0.5, Gaussian FWHM of 0.9, centered at x=0.5. - | !transform/voigt1d-1.0.0 {amplitude_L: 10.0, fwhm_G: 0.9, fwhm_L: 0.5, x_0: 0.55} allOf: - $ref: "transform-1.2.0" - type: object properties: x_0: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: Position of the peak. amplitude_L: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: The Lorentzian amplitude. fwhm_L: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: The Lorentzian full width at half maximum. fwhm_G: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: The Gaussian full width at half maximum. required: ['x_0', 'amplitude_L', 'fwhm_L', 'fwhm_G'] ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/zenithal-1.0.0.yaml0000644000175100001770000000127514514267315026342 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/zenithal-1.0.0" title: | Base class of all zenithal (or azimuthal) projections. description: | Zenithal projections are completely specified by defining the radius as a function of native latitude, $R_\theta$. The pixel-to-sky transformation is defined as: $$\phi &= \arg(-y, x) \\ R_\theta &= \sqrt{x^2 + y^2}$$ and the inverse (sky-to-pixel) is defined as: $$x &= R_\theta \sin \phi \\ y &= R_\theta \cos \phi$$ allOf: - $ref: "transform-1.0.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/zenithal-1.1.0.yaml0000644000175100001770000000127514514267315026343 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/zenithal-1.1.0" title: | Base class of all zenithal (or azimuthal) projections. description: | Zenithal projections are completely specified by defining the radius as a function of native latitude, $R_\theta$. The pixel-to-sky transformation is defined as: $$\phi &= \arg(-y, x) \\ R_\theta &= \sqrt{x^2 + y^2}$$ and the inverse (sky-to-pixel) is defined as: $$x &= R_\theta \sin \phi \\ y &= R_\theta \cos \phi$$ allOf: - $ref: "transform-1.1.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/zenithal-1.2.0.yaml0000644000175100001770000000127514514267315026344 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/zenithal-1.2.0" title: | Base class of all zenithal (or azimuthal) projections. description: | Zenithal projections are completely specified by defining the radius as a function of native latitude, $R_\theta$. The pixel-to-sky transformation is defined as: $$\phi &= \arg(-y, x) \\ R_\theta &= \sqrt{x^2 + y^2}$$ and the inverse (sky-to-pixel) is defined as: $$x &= R_\theta \sin \phi \\ y &= R_\theta \cos \phi$$ allOf: - $ref: "transform-1.2.0" - type: object properties: direction: enum: [pix2sky, sky2pix] default: pix2sky ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/zenithal_equal_area-1.0.0.yaml0000644000175100001770000000150314514267315030513 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/zenithal_equal_area-1.0.0" title: | The zenithal equal area projection. description: | Corresponds to the `ZEA` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.0.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - 2 \sin^{-1} \left(\frac{\pi R_\theta}{360^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta &= \frac{180^\circ}{\pi} \sqrt{2(1 - \sin\theta)} \\ &= \frac{360^\circ}{\pi} \sin\left(\frac{90^\circ - \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/zenithal_equal_area-1.1.0.yaml0000644000175100001770000000150314514267315030514 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/zenithal_equal_area-1.1.0" title: | The zenithal equal area projection. description: | Corresponds to the `ZEA` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - 2 \sin^{-1} \left(\frac{\pi R_\theta}{360^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta &= \frac{180^\circ}{\pi} \sqrt{2(1 - \sin\theta)} \\ &= \frac{360^\circ}{\pi} \sin\left(\frac{90^\circ - \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/zenithal_equal_area-1.2.0.yaml0000644000175100001770000000150314514267315030515 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/zenithal_equal_area-1.2.0" title: | The zenithal equal area projection. description: | Corresponds to the `ZEA` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - 2 \sin^{-1} \left(\frac{\pi R_\theta}{360^\circ}\right)$$ And the sky-to-pixel transformation is defined as: $$R_\theta &= \frac{180^\circ}{\pi} \sqrt{2(1 - \sin\theta)} \\ &= \frac{360^\circ}{\pi} \sin\left(\frac{90^\circ - \theta}{2}\right)$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/zenithal_equidistant-1.0.0.yaml0000644000175100001770000000124214514267315030746 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/zenithal_equidistant-1.0.0" title: | The zenithal equidistant projection. description: | Corresponds to the `ARC` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.0.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - R_\theta$$ And the sky-to-pixel transformation is defined as: $$R_\theta = 90^\circ - \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.0.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/zenithal_equidistant-1.1.0.yaml0000644000175100001770000000124214514267315030747 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/zenithal_equidistant-1.1.0" title: | The zenithal equidistant projection. description: | Corresponds to the `ARC` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.1.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - R_\theta$$ And the sky-to-pixel transformation is defined as: $$R_\theta = 90^\circ - \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.1.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/zenithal_equidistant-1.2.0.yaml0000644000175100001770000000124214514267315030750 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/zenithal_equidistant-1.2.0" title: | The zenithal equidistant projection. description: | Corresponds to the `ARC` projection in the FITS WCS standard. See [zenithal](ref:schemas/zenithal-1.2.0) for the definition of the full transformation. The pixel-to-sky transformation is defined as: $$\theta = 90^\circ - R_\theta$$ And the sky-to-pixel transformation is defined as: $$R_\theta = 90^\circ - \theta$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.2.0" ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/zenithal_perspective-1.0.0.yaml0000644000175100001770000000252414514267315030751 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/zenithal_perspective-1.0.0" title: | The zenithal perspective projection. description: | Corresponds to the `AZP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \arg(-y \cos \gamma, x) \\ \theta &= \left\{\genfrac{}{}{0pt}{}{\psi - \omega}{\psi + \omega + 180^{\circ}}\right.$$ where: $$\psi &= \arg(\rho, 1) \\ \omega &= \sin^{-1}\left(\frac{\rho \mu}{\sqrt{\rho^2 + 1}}\right) \\ \rho &= \frac{R}{\frac{180^{\circ}}{\pi}(\mu + 1) + y \sin \gamma} \\ R &= \sqrt{x^2 + y^2 \cos^2 \gamma}$$ And the sky-to-pixel transformation is defined as: $$x &= R \sin \phi \\ y &= -R \sec \gamma \cos \theta$$ where: $$R = \frac{180^{\circ}}{\pi} \frac{(\mu + 1) \cos \theta}{(\mu + \sin \theta) + \cos \theta \cos \phi \tan \gamma}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.0.0" - type: object properties: mu: type: number description: | Distance from point of projection to center of sphere in spherical radii. default: 0 gamma: type: number description: | Look angle, in degrees. default: 0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/zenithal_perspective-1.1.0.yaml0000644000175100001770000000252414514267315030752 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/zenithal_perspective-1.1.0" title: | The zenithal perspective projection. description: | Corresponds to the `AZP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \arg(-y \cos \gamma, x) \\ \theta &= \left\{\genfrac{}{}{0pt}{}{\psi - \omega}{\psi + \omega + 180^{\circ}}\right.$$ where: $$\psi &= \arg(\rho, 1) \\ \omega &= \sin^{-1}\left(\frac{\rho \mu}{\sqrt{\rho^2 + 1}}\right) \\ \rho &= \frac{R}{\frac{180^{\circ}}{\pi}(\mu + 1) + y \sin \gamma} \\ R &= \sqrt{x^2 + y^2 \cos^2 \gamma}$$ And the sky-to-pixel transformation is defined as: $$x &= R \sin \phi \\ y &= -R \sec \gamma \cos \theta$$ where: $$R = \frac{180^{\circ}}{\pi} \frac{(\mu + 1) \cos \theta}{(\mu + \sin \theta) + \cos \theta \cos \phi \tan \gamma}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.1.0" - type: object properties: mu: type: number description: | Distance from point of projection to center of sphere in spherical radii. default: 0 gamma: type: number description: | Look angle, in degrees. default: 0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/zenithal_perspective-1.2.0.yaml0000644000175100001770000000272014514267315030751 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/zenithal_perspective-1.2.0" title: | The zenithal perspective projection. description: | Corresponds to the `AZP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \arg(-y \cos \gamma, x) \\ \theta &= \left\{\genfrac{}{}{0pt}{}{\psi - \omega}{\psi + \omega + 180^{\circ}}\right.$$ where: $$\psi &= \arg(\rho, 1) \\ \omega &= \sin^{-1}\left(\frac{\rho \mu}{\sqrt{\rho^2 + 1}}\right) \\ \rho &= \frac{R}{\frac{180^{\circ}}{\pi}(\mu + 1) + y \sin \gamma} \\ R &= \sqrt{x^2 + y^2 \cos^2 \gamma}$$ And the sky-to-pixel transformation is defined as: $$x &= R \sin \phi \\ y &= -R \sec \gamma \cos \theta$$ where: $$R = \frac{180^{\circ}}{\pi} \frac{(\mu + 1) \cos \theta}{(\mu + \sin \theta) + \cos \theta \cos \phi \tan \gamma}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.1.0" - type: object properties: mu: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | Distance from point of projection to center of sphere in spherical radii. default: 0 gamma: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | Look angle, in degrees. default: 0 ... ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/resources/stsci.edu/schemas/zenithal_perspective-1.3.0.yaml0000644000175100001770000000272014514267315030752 0ustar00runnerdocker%YAML 1.1 --- $schema: "http://stsci.edu/schemas/yaml-schema/draft-01" id: "http://stsci.edu/schemas/asdf/transform/zenithal_perspective-1.3.0" title: | The zenithal perspective projection. description: | Corresponds to the `AZP` projection in the FITS WCS standard. The pixel-to-sky transformation is defined as: $$\phi &= \arg(-y \cos \gamma, x) \\ \theta &= \left\{\genfrac{}{}{0pt}{}{\psi - \omega}{\psi + \omega + 180^{\circ}}\right.$$ where: $$\psi &= \arg(\rho, 1) \\ \omega &= \sin^{-1}\left(\frac{\rho \mu}{\sqrt{\rho^2 + 1}}\right) \\ \rho &= \frac{R}{\frac{180^{\circ}}{\pi}(\mu + 1) + y \sin \gamma} \\ R &= \sqrt{x^2 + y^2 \cos^2 \gamma}$$ And the sky-to-pixel transformation is defined as: $$x &= R \sin \phi \\ y &= -R \sec \gamma \cos \theta$$ where: $$R = \frac{180^{\circ}}{\pi} \frac{(\mu + 1) \cos \theta}{(\mu + \sin \theta) + \cos \theta \cos \phi \tan \gamma}$$ Invertibility: All ASDF tools are required to provide the inverse of this transform. allOf: - $ref: "zenithal-1.2.0" - type: object properties: mu: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | Distance from point of projection to center of sphere in spherical radii. default: 0 gamma: anyOf: - $ref: "../unit/quantity-1.1.0" - type: number description: | Look angle, in degrees. default: 0 ... ././@PaxHeader0000000000000000000000000000003300000000000010211 xustar0027 mtime=1697738456.042479 asdf_transform_schemas-0.4.0/scripts/0000755000175100001770000000000014514267330017327 5ustar00runnerdocker././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/scripts/generate_manifest.py0000644000175100001770000000362014514267315023365 0ustar00runnerdocker""" Script that creates initial transform manifests from the version_map files in the asdf-standard repo. This file can be removed once the format of the manifest files has been finalized. """ import argparse import asdf import yaml def parse_args(): parser = argparse.ArgumentParser() parser.add_argument("version_map_path") parser.add_argument("output_path") return parser.parse_args() class MultilineString(str): pass def represent_multiline_string(dumper, data): return dumper.represent_scalar("tag:yaml.org,2002:str", data, style="|") yaml.add_representer(MultilineString, represent_multiline_string) args = parse_args() asdf_standard_version = args.version_map_path.split("/")[-1].rsplit(".", 1)[0].split("-")[-1] with open(args.version_map_path) as f: version_map = yaml.safe_load(f.read()) manifest = {} manifest["id"] = f"http://stsci.edu/asdf/extensions/transform/manifests/transform-{asdf_standard_version}" manifest["extension_uri"] = f"http://stsci.edu/asdf/extensions/transform-{asdf_standard_version}" manifest["title"] = f"Transform extension {asdf_standard_version}" manifest["description"] = MultilineString("A set of tags for serializing data transforms.") manifest["tags"] = [] for tag_base, tag_version in version_map["tags"].items(): if tag_base.startswith("tag:stsci.edu:asdf/transform/"): tag_uri = f"{tag_base}-{tag_version}" schema_uri = tag_uri.replace("tag:stsci.edu:asdf/transform/", "http://stsci.edu/schemas/asdf/transform/") schema = asdf.schema.load_schema(schema_uri) manifest["tags"].append( { "tag_uri": tag_uri, "schema_uri": schema_uri, "title": schema["title"].strip(), "description": MultilineString(schema["description"].strip()), } ) with open(args.output_path, "w") as f: yaml.dump(manifest, f, sort_keys=False) ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/scripts/import_transforms.py0000644000175100001770000000606314514267315023501 0ustar00runnerdocker""" Script that imports transform schemas from asdf-standard. This file can be removed once the format of the new schemas is finalized. """ import argparse import glob import os import re import pkg_resources TAG_PATTERN = re.compile(r"^tag: .*?\n", re.MULTILINE | re.DOTALL) ID_PATTERN = re.compile(r"^id: .*?/([^/-]+)-.*?\n", re.MULTILINE | re.DOTALL) METASCHEMA_PATTERN = re.compile(r"^\$schema: .*?\n", re.MULTILINE | re.DOTALL) # References to schemas outside of the transforms directory. EXTERNAL_REF_PATTERN = re.compile(r'\$ref: "?\.\./(.*?[0-9]\.[0-9]\.[0-9])"?') # Any $ref that hasn't been converted to an http URI by the # previous regex will be a reference to another transform. INTERNAL_REF_PATTERN = re.compile(r'\$ref: "?(?!http)(.*?)-[0-8]\.[0-9]\.[0-9]"?') # These (found in the examples) will be updated to absolute tags: BANG_TRANSFORM = re.compile(r"!transform/([^ \n-]*)-[^ \n]*") BANG_UNIT = re.compile(r"!unit/([^ \n]*)") BANG_CORE = re.compile(r"!core/([^ \n]*)") # URI prefix (both id and tag) of new schemas. URI_PREFIX = "http://asdf-format.org/schemas/transform" # Initial version of new schemas. VERSION = "2.0.0" # For now just leave this at draft-01, but when we remove tag # we'll need to bring in draft-02. METASCHEMA = "http://stsci.edu/schemas/yaml-schema/draft-01" def parse_args(): parser = argparse.ArgumentParser() parser.add_argument("source_path") parser.add_argument("dest_path") return parser.parse_args() args = parse_args() paths = list(glob.glob(os.path.join(args.source_path, "*.yaml"))) paths_by_name = {} for path in paths: filename = os.path.basename(path) name = filename.split("-")[0] version = filename.split("-")[-1].rsplit(".", 1)[0] if name not in paths_by_name: paths_by_name[name] = [] paths_by_name[name].append((path, version)) latest_paths = [] for name, name_paths in paths_by_name.items(): latest_paths.append(sorted(name_paths, key=lambda p: pkg_resources.parse_version(p[-1]))[-1][0]) for path in latest_paths: with open(path) as f: content = f.read() filename = os.path.basename(path) new_filename = filename.split("-")[0] + f"-{VERSION}.yaml" schema_name = ID_PATTERN.search(content).group(1) new_uri = f"{URI_PREFIX}/{schema_name}-{VERSION}" new_id = f"id: {new_uri}\n" content = ID_PATTERN.sub(new_id, content) new_tag = f"tag: {new_uri}\n" content = TAG_PATTERN.sub(new_tag, content) content = METASCHEMA_PATTERN.sub(f"$schema: {METASCHEMA}\n", content) content = EXTERNAL_REF_PATTERN.sub(r"$ref: http://stsci.edu/schemas/asdf/\1", content) content = INTERNAL_REF_PATTERN.sub(rf"$ref: \1-{VERSION}", content) content = BANG_TRANSFORM.sub(rf"!<{URI_PREFIX}/\1-{VERSION}>", content) # TODO: Update these once core schemas start using http:// URIs: content = BANG_UNIT.sub(r"!", content) content = BANG_CORE.sub(r"!", content) output_path = os.path.join(args.dest_path, new_filename) with open(output_path, "w") as f: f.write(content) ././@PaxHeader0000000000000000000000000000003300000000000010211 xustar0027 mtime=1697738456.050479 asdf_transform_schemas-0.4.0/setup.cfg0000644000175100001770000000004614514267330017461 0ustar00runnerdocker[egg_info] tag_build = tag_date = 0 ././@PaxHeader0000000000000000000000000000003400000000000010212 xustar0028 mtime=1697738455.9824793 asdf_transform_schemas-0.4.0/src/0000755000175100001770000000000014514267330016427 5ustar00runnerdocker././@PaxHeader0000000000000000000000000000003300000000000010211 xustar0027 mtime=1697738456.042479 asdf_transform_schemas-0.4.0/src/asdf_transform_schemas/0000755000175100001770000000000014514267330023142 5ustar00runnerdocker././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/src/asdf_transform_schemas/__init__.py0000644000175100001770000000011014514267315025246 0ustar00runnerdockerfrom ._version import version as __version__ __all__ = ["__version__"] ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738455.0 asdf_transform_schemas-0.4.0/src/asdf_transform_schemas/_version.py0000644000175100001770000000063314514267327025350 0ustar00runnerdocker# file generated by setuptools_scm # don't change, don't track in version control TYPE_CHECKING = False if TYPE_CHECKING: from typing import Tuple, Union VERSION_TUPLE = Tuple[Union[int, str], ...] else: VERSION_TUPLE = object version: str __version__: str __version_tuple__: VERSION_TUPLE version_tuple: VERSION_TUPLE __version__ = version = '0.4.0' __version_tuple__ = version_tuple = (0, 4, 0) ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/src/asdf_transform_schemas/integration.py0000644000175100001770000000202314514267315026037 0ustar00runnerdockerimport sys from pathlib import Path if sys.version_info < (3, 9): import importlib_resources else: import importlib.resources as importlib_resources from asdf_standard import DirectoryResourceMapping import asdf_transform_schemas def get_resource_mappings(): resources_root = importlib_resources.files(asdf_transform_schemas) / "resources" if not resources_root.is_dir(): # In an editable install, the resources directory will exist off the # repository root: resources_root = Path(__file__).parent.parent.parent / "resources" if not resources_root.is_dir(): raise RuntimeError("Missing resources directory") return [ DirectoryResourceMapping( resources_root / "stsci.edu" / "schemas", "http://stsci.edu/schemas/asdf/transform/", recursive=True, ), DirectoryResourceMapping( resources_root / "asdf-format.org" / "manifests", "asdf://asdf-format.org/transform/manifests/", ), ] ././@PaxHeader0000000000000000000000000000003300000000000010211 xustar0027 mtime=1697738456.046479 asdf_transform_schemas-0.4.0/src/asdf_transform_schemas.egg-info/0000755000175100001770000000000014514267330024634 5ustar00runnerdocker././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738455.0 asdf_transform_schemas-0.4.0/src/asdf_transform_schemas.egg-info/PKG-INFO0000644000175100001770000001000314514267327025731 0ustar00runnerdockerMetadata-Version: 2.1 Name: asdf-transform-schemas Version: 0.4.0 Summary: ASDF schemas for transforms Author-email: The ASDF Developers License: Copyright (c) 2021 Association of Universities for Research in Astronomy. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the copyright holder nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. Project-URL: tracker, https://github.com/asdf-format/asdf-transform-schemas/issues Project-URL: documentation, https://asdf-transform-schemas.readthedocs.io/en/stable Project-URL: repository, https://github.com/asdf-format/asdf-transform-schemas Classifier: Programming Language :: Python Classifier: Programming Language :: Python :: 3 Classifier: Programming Language :: Python :: 3.8 Classifier: Programming Language :: Python :: 3.9 Classifier: Programming Language :: Python :: 3.10 Classifier: Development Status :: 5 - Production/Stable Requires-Python: >=3.8 Description-Content-Type: text/markdown License-File: LICENSE Requires-Dist: asdf-standard>=1.0.1 Requires-Dist: importlib_resources>=3; python_version < "3.9" Provides-Extra: docs Requires-Dist: tomli; extra == "docs" Requires-Dist: sphinx; extra == "docs" Requires-Dist: sphinx-asdf>=0.1.3; extra == "docs" Requires-Dist: sphinx-astropy; extra == "docs" Requires-Dist: astropy>=5.0.4; extra == "docs" Requires-Dist: graphviz; extra == "docs" Requires-Dist: matplotlib; extra == "docs" Requires-Dist: docutils; extra == "docs" Requires-Dist: sphinx-rtd-theme; extra == "docs" Provides-Extra: test Requires-Dist: asdf>=2.8.0; extra == "test" Requires-Dist: asdf-astropy; extra == "test" Requires-Dist: scipy; extra == "test" Requires-Dist: pytest; extra == "test" # asdf-transform-schemas ![CI](https://github.com/asdf-format/asdf-transform-schemas/workflows/CI/badge.svg) ![Downstream](https://github.com/asdf-format/asdf-transform-schemas/workflows/Downstream/badge.svg) [![pre-commit](https://img.shields.io/badge/pre--commit-enabled-brightgreen?logo=pre-commit&logoColor=white)](https://github.com/pre-commit/pre-commit) [![Code style: black](https://img.shields.io/badge/code%20style-black-000000.svg)](https://github.com/psf/black) [![Imports: isort](https://img.shields.io/badge/%20imports-isort-%231674b1?style=flat&labelColor=ef8336)](https://pycqa.github.io/isort/) This package provides ASDF schemas for validating transform tags. Users should not need to install this directly; instead, install an implementation package such as asdf-astropy, which includes asdf-transform-schemas as a dependency. ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738455.0 asdf_transform_schemas-0.4.0/src/asdf_transform_schemas.egg-info/SOURCES.txt0000644000175100001770000003155714514267327026541 0ustar00runnerdocker.flake8 .gitattributes .gitignore .pre-commit-config.yaml .readthedocs.yml CHANGES.rst CONTRIBUTING.rst LICENSE README.md bandit.yaml pyproject.toml tox.ini .github/workflows/changelog.yml .github/workflows/ci.yml .github/workflows/downstream.yml .github/workflows/publish-to-pypi.yml docs/Makefile docs/changes.rst docs/conf.py docs/contributing.rst docs/index.rst docs/legacy.rst docs/make.bat docs/manifests.rst docs/transforms.rst docs/_static/custom.css docs/_static/logo.ico docs/_static/logo.pdf docs/_static/logo.png docs/_templates/autosummary/base.rst docs/_templates/autosummary/class.rst docs/_templates/autosummary/module.rst resources/asdf-format.org/manifests/transform-1.0.0.yaml resources/asdf-format.org/manifests/transform-1.1.0.yaml resources/asdf-format.org/manifests/transform-1.2.0.yaml resources/asdf-format.org/manifests/transform-1.3.0.yaml resources/asdf-format.org/manifests/transform-1.4.0.yaml resources/asdf-format.org/manifests/transform-1.5.0.yaml resources/stsci.edu/schemas/add-1.0.0.yaml resources/stsci.edu/schemas/add-1.1.0.yaml resources/stsci.edu/schemas/add-1.2.0.yaml resources/stsci.edu/schemas/affine-1.0.0.yaml resources/stsci.edu/schemas/affine-1.1.0.yaml resources/stsci.edu/schemas/affine-1.2.0.yaml resources/stsci.edu/schemas/affine-1.3.0.yaml resources/stsci.edu/schemas/airy-1.0.0.yaml resources/stsci.edu/schemas/airy-1.1.0.yaml resources/stsci.edu/schemas/airy-1.2.0.yaml resources/stsci.edu/schemas/airy_disk2d-1.0.0.yaml resources/stsci.edu/schemas/arccosine1d-1.0.0.yaml resources/stsci.edu/schemas/arcsine1d-1.0.0.yaml resources/stsci.edu/schemas/arctangent1d-1.0.0.yaml resources/stsci.edu/schemas/blackbody-1.0.0.yaml resources/stsci.edu/schemas/bonne_equal_area-1.0.0.yaml resources/stsci.edu/schemas/bonne_equal_area-1.1.0.yaml resources/stsci.edu/schemas/bonne_equal_area-1.2.0.yaml resources/stsci.edu/schemas/bonne_equal_area-1.3.0.yaml resources/stsci.edu/schemas/box1d-1.0.0.yaml resources/stsci.edu/schemas/box2d-1.0.0.yaml resources/stsci.edu/schemas/broken_power_law1d-1.0.0.yaml resources/stsci.edu/schemas/cobe_quad_spherical_cube-1.0.0.yaml resources/stsci.edu/schemas/cobe_quad_spherical_cube-1.1.0.yaml resources/stsci.edu/schemas/cobe_quad_spherical_cube-1.2.0.yaml resources/stsci.edu/schemas/compose-1.0.0.yaml resources/stsci.edu/schemas/compose-1.1.0.yaml resources/stsci.edu/schemas/compose-1.2.0.yaml resources/stsci.edu/schemas/concatenate-1.0.0.yaml resources/stsci.edu/schemas/concatenate-1.1.0.yaml resources/stsci.edu/schemas/concatenate-1.2.0.yaml resources/stsci.edu/schemas/conic-1.0.0.yaml resources/stsci.edu/schemas/conic-1.1.0.yaml resources/stsci.edu/schemas/conic-1.2.0.yaml resources/stsci.edu/schemas/conic-1.3.0.yaml resources/stsci.edu/schemas/conic_equal_area-1.0.0.yaml resources/stsci.edu/schemas/conic_equal_area-1.1.0.yaml resources/stsci.edu/schemas/conic_equal_area-1.2.0.yaml resources/stsci.edu/schemas/conic_equal_area-1.3.0.yaml resources/stsci.edu/schemas/conic_equidistant-1.0.0.yaml resources/stsci.edu/schemas/conic_equidistant-1.1.0.yaml resources/stsci.edu/schemas/conic_equidistant-1.2.0.yaml resources/stsci.edu/schemas/conic_equidistant-1.3.0.yaml resources/stsci.edu/schemas/conic_orthomorphic-1.0.0.yaml resources/stsci.edu/schemas/conic_orthomorphic-1.1.0.yaml resources/stsci.edu/schemas/conic_orthomorphic-1.2.0.yaml resources/stsci.edu/schemas/conic_orthomorphic-1.3.0.yaml resources/stsci.edu/schemas/conic_perspective-1.0.0.yaml resources/stsci.edu/schemas/conic_perspective-1.1.0.yaml resources/stsci.edu/schemas/conic_perspective-1.2.0.yaml resources/stsci.edu/schemas/conic_perspective-1.3.0.yaml resources/stsci.edu/schemas/constant-1.0.0.yaml resources/stsci.edu/schemas/constant-1.1.0.yaml resources/stsci.edu/schemas/constant-1.2.0.yaml resources/stsci.edu/schemas/constant-1.3.0.yaml resources/stsci.edu/schemas/constant-1.4.0.yaml resources/stsci.edu/schemas/cosine1d-1.0.0.yaml resources/stsci.edu/schemas/cylindrical-1.0.0.yaml resources/stsci.edu/schemas/cylindrical-1.1.0.yaml resources/stsci.edu/schemas/cylindrical-1.2.0.yaml resources/stsci.edu/schemas/cylindrical_equal_area-1.0.0.yaml resources/stsci.edu/schemas/cylindrical_equal_area-1.1.0.yaml resources/stsci.edu/schemas/cylindrical_equal_area-1.2.0.yaml resources/stsci.edu/schemas/cylindrical_equal_area-1.3.0.yaml resources/stsci.edu/schemas/cylindrical_perspective-1.0.0.yaml resources/stsci.edu/schemas/cylindrical_perspective-1.1.0.yaml resources/stsci.edu/schemas/cylindrical_perspective-1.2.0.yaml resources/stsci.edu/schemas/cylindrical_perspective-1.3.0.yaml resources/stsci.edu/schemas/disk2d-1.0.0.yaml resources/stsci.edu/schemas/divide-1.0.0.yaml resources/stsci.edu/schemas/divide-1.1.0.yaml resources/stsci.edu/schemas/divide-1.2.0.yaml resources/stsci.edu/schemas/domain-1.0.0.yaml resources/stsci.edu/schemas/drude1d-1.0.0.yaml resources/stsci.edu/schemas/ellipse2d-1.0.0.yaml resources/stsci.edu/schemas/exponential1d-1.0.0.yaml resources/stsci.edu/schemas/exponential_cutoff_power_law1d-1.0.0.yaml resources/stsci.edu/schemas/fix_inputs-1.1.0.yaml resources/stsci.edu/schemas/fix_inputs-1.2.0.yaml resources/stsci.edu/schemas/gaussian1d-1.0.0.yaml resources/stsci.edu/schemas/gaussian2d-1.0.0.yaml resources/stsci.edu/schemas/gnomonic-1.0.0.yaml resources/stsci.edu/schemas/gnomonic-1.1.0.yaml resources/stsci.edu/schemas/gnomonic-1.2.0.yaml resources/stsci.edu/schemas/hammer_aitoff-1.0.0.yaml resources/stsci.edu/schemas/hammer_aitoff-1.1.0.yaml resources/stsci.edu/schemas/hammer_aitoff-1.2.0.yaml resources/stsci.edu/schemas/healpix-1.0.0.yaml resources/stsci.edu/schemas/healpix-1.1.0.yaml resources/stsci.edu/schemas/healpix-1.2.0.yaml resources/stsci.edu/schemas/healpix_polar-1.0.0.yaml resources/stsci.edu/schemas/healpix_polar-1.1.0.yaml resources/stsci.edu/schemas/healpix_polar-1.2.0.yaml resources/stsci.edu/schemas/identity-1.0.0.yaml resources/stsci.edu/schemas/identity-1.1.0.yaml resources/stsci.edu/schemas/identity-1.2.0.yaml resources/stsci.edu/schemas/king_projected_analytic1d-1.0.0.yaml resources/stsci.edu/schemas/label_mapper-1.0.0.yaml resources/stsci.edu/schemas/label_mapper-1.1.0.yaml resources/stsci.edu/schemas/label_mapper-1.2.0.yaml resources/stsci.edu/schemas/linear1d-1.0.0.yaml resources/stsci.edu/schemas/log_parabola1d-1.0.0.yaml resources/stsci.edu/schemas/logarithmic1d-1.0.0.yaml resources/stsci.edu/schemas/lorentz1d-1.0.0.yaml resources/stsci.edu/schemas/math_functions-1.0.0.yaml resources/stsci.edu/schemas/mercator-1.0.0.yaml resources/stsci.edu/schemas/mercator-1.1.0.yaml resources/stsci.edu/schemas/mercator-1.2.0.yaml resources/stsci.edu/schemas/moffat1d-1.0.0.yaml resources/stsci.edu/schemas/moffat2d-1.0.0.yaml resources/stsci.edu/schemas/molleweide-1.0.0.yaml resources/stsci.edu/schemas/molleweide-1.1.0.yaml resources/stsci.edu/schemas/molleweide-1.2.0.yaml resources/stsci.edu/schemas/multiply-1.0.0.yaml resources/stsci.edu/schemas/multiply-1.1.0.yaml resources/stsci.edu/schemas/multiply-1.2.0.yaml resources/stsci.edu/schemas/multiplyscale-1.0.0.yaml resources/stsci.edu/schemas/ortho_polynomial-1.0.0.yaml resources/stsci.edu/schemas/parabolic-1.0.0.yaml resources/stsci.edu/schemas/parabolic-1.1.0.yaml resources/stsci.edu/schemas/parabolic-1.2.0.yaml resources/stsci.edu/schemas/planar2d-1.0.0.yaml resources/stsci.edu/schemas/plate_carree-1.0.0.yaml resources/stsci.edu/schemas/plate_carree-1.1.0.yaml resources/stsci.edu/schemas/plate_carree-1.2.0.yaml resources/stsci.edu/schemas/plummer1d-1.0.0.yaml resources/stsci.edu/schemas/polyconic-1.0.0.yaml resources/stsci.edu/schemas/polyconic-1.1.0.yaml resources/stsci.edu/schemas/polyconic-1.2.0.yaml resources/stsci.edu/schemas/polynomial-1.0.0.yaml resources/stsci.edu/schemas/polynomial-1.1.0.yaml resources/stsci.edu/schemas/polynomial-1.2.0.yaml resources/stsci.edu/schemas/power-1.0.0.yaml resources/stsci.edu/schemas/power-1.1.0.yaml resources/stsci.edu/schemas/power-1.2.0.yaml resources/stsci.edu/schemas/power_law1d-1.0.0.yaml resources/stsci.edu/schemas/pseudoconic-1.0.0.yaml resources/stsci.edu/schemas/pseudoconic-1.1.0.yaml resources/stsci.edu/schemas/pseudoconic-1.2.0.yaml resources/stsci.edu/schemas/pseudocylindrical-1.0.0.yaml resources/stsci.edu/schemas/pseudocylindrical-1.1.0.yaml resources/stsci.edu/schemas/pseudocylindrical-1.2.0.yaml resources/stsci.edu/schemas/quad_spherical_cube-1.0.0.yaml resources/stsci.edu/schemas/quad_spherical_cube-1.1.0.yaml resources/stsci.edu/schemas/quad_spherical_cube-1.2.0.yaml resources/stsci.edu/schemas/quadcube-1.0.0.yaml resources/stsci.edu/schemas/quadcube-1.1.0.yaml resources/stsci.edu/schemas/quadcube-1.2.0.yaml resources/stsci.edu/schemas/redshift_scale_factor-1.0.0.yaml resources/stsci.edu/schemas/regions_selector-1.0.0.yaml resources/stsci.edu/schemas/regions_selector-1.1.0.yaml resources/stsci.edu/schemas/regions_selector-1.2.0.yaml resources/stsci.edu/schemas/remap_axes-1.0.0.yaml resources/stsci.edu/schemas/remap_axes-1.1.0.yaml resources/stsci.edu/schemas/remap_axes-1.2.0.yaml resources/stsci.edu/schemas/remap_axes-1.3.0.yaml resources/stsci.edu/schemas/ricker_wavelet1d-1.0.0.yaml resources/stsci.edu/schemas/ricker_wavelet2d-1.0.0.yaml resources/stsci.edu/schemas/ring2d-1.0.0.yaml resources/stsci.edu/schemas/rotate2d-1.0.0.yaml resources/stsci.edu/schemas/rotate2d-1.1.0.yaml resources/stsci.edu/schemas/rotate2d-1.2.0.yaml resources/stsci.edu/schemas/rotate2d-1.3.0.yaml resources/stsci.edu/schemas/rotate3d-1.0.0.yaml resources/stsci.edu/schemas/rotate3d-1.1.0.yaml resources/stsci.edu/schemas/rotate3d-1.2.0.yaml resources/stsci.edu/schemas/rotate3d-1.3.0.yaml resources/stsci.edu/schemas/rotate_sequence_3d-1.0.0.yaml resources/stsci.edu/schemas/sanson_flamsteed-1.0.0.yaml resources/stsci.edu/schemas/sanson_flamsteed-1.1.0.yaml resources/stsci.edu/schemas/sanson_flamsteed-1.2.0.yaml resources/stsci.edu/schemas/scale-1.0.0.yaml resources/stsci.edu/schemas/scale-1.1.0.yaml resources/stsci.edu/schemas/scale-1.2.0.yaml resources/stsci.edu/schemas/schechter1d-1.0.0.yaml resources/stsci.edu/schemas/sersic1d-1.0.0.yaml resources/stsci.edu/schemas/sersic2d-1.0.0.yaml resources/stsci.edu/schemas/shift-1.0.0.yaml resources/stsci.edu/schemas/shift-1.1.0.yaml resources/stsci.edu/schemas/shift-1.2.0.yaml resources/stsci.edu/schemas/sine1d-1.0.0.yaml resources/stsci.edu/schemas/slant_orthographic-1.0.0.yaml resources/stsci.edu/schemas/slant_orthographic-1.1.0.yaml resources/stsci.edu/schemas/slant_orthographic-1.2.0.yaml resources/stsci.edu/schemas/slant_zenithal_perspective-1.0.0.yaml resources/stsci.edu/schemas/slant_zenithal_perspective-1.1.0.yaml resources/stsci.edu/schemas/slant_zenithal_perspective-1.2.0.yaml resources/stsci.edu/schemas/smoothly_broken_power_law1d-1.0.0.yaml resources/stsci.edu/schemas/spline1d-1.0.0.yaml resources/stsci.edu/schemas/stereographic-1.0.0.yaml resources/stsci.edu/schemas/stereographic-1.1.0.yaml resources/stsci.edu/schemas/stereographic-1.2.0.yaml resources/stsci.edu/schemas/subtract-1.0.0.yaml resources/stsci.edu/schemas/subtract-1.1.0.yaml resources/stsci.edu/schemas/subtract-1.2.0.yaml resources/stsci.edu/schemas/tabular-1.0.0.yaml resources/stsci.edu/schemas/tabular-1.1.0.yaml resources/stsci.edu/schemas/tabular-1.2.0.yaml resources/stsci.edu/schemas/tangent1d-1.0.0.yaml resources/stsci.edu/schemas/tangential_spherical_cube-1.0.0.yaml resources/stsci.edu/schemas/tangential_spherical_cube-1.1.0.yaml resources/stsci.edu/schemas/tangential_spherical_cube-1.2.0.yaml resources/stsci.edu/schemas/transform-1.0.0.yaml resources/stsci.edu/schemas/transform-1.1.0.yaml resources/stsci.edu/schemas/transform-1.2.0.yaml resources/stsci.edu/schemas/trapezoid1d-1.0.0.yaml resources/stsci.edu/schemas/trapezoid_disk2d-1.0.0.yaml resources/stsci.edu/schemas/voigt1d-1.0.0.yaml resources/stsci.edu/schemas/zenithal-1.0.0.yaml resources/stsci.edu/schemas/zenithal-1.1.0.yaml resources/stsci.edu/schemas/zenithal-1.2.0.yaml resources/stsci.edu/schemas/zenithal_equal_area-1.0.0.yaml resources/stsci.edu/schemas/zenithal_equal_area-1.1.0.yaml resources/stsci.edu/schemas/zenithal_equal_area-1.2.0.yaml resources/stsci.edu/schemas/zenithal_equidistant-1.0.0.yaml resources/stsci.edu/schemas/zenithal_equidistant-1.1.0.yaml resources/stsci.edu/schemas/zenithal_equidistant-1.2.0.yaml resources/stsci.edu/schemas/zenithal_perspective-1.0.0.yaml resources/stsci.edu/schemas/zenithal_perspective-1.1.0.yaml resources/stsci.edu/schemas/zenithal_perspective-1.2.0.yaml resources/stsci.edu/schemas/zenithal_perspective-1.3.0.yaml resources/stsci.edu/schemas/property/bounding_box-1.0.0.yaml resources/stsci.edu/schemas/property/compound_bounding_box-1.0.0.yaml scripts/generate_manifest.py scripts/import_transforms.py src/asdf_transform_schemas/__init__.py src/asdf_transform_schemas/_version.py src/asdf_transform_schemas/integration.py src/asdf_transform_schemas.egg-info/PKG-INFO src/asdf_transform_schemas.egg-info/SOURCES.txt src/asdf_transform_schemas.egg-info/dependency_links.txt src/asdf_transform_schemas.egg-info/entry_points.txt src/asdf_transform_schemas.egg-info/requires.txt src/asdf_transform_schemas.egg-info/top_level.txt tests/.gitignore tests/test_integration.py tests/test_invalid.py././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738455.0 asdf_transform_schemas-0.4.0/src/asdf_transform_schemas.egg-info/dependency_links.txt0000644000175100001770000000000114514267327030710 0ustar00runnerdocker ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738455.0 asdf_transform_schemas-0.4.0/src/asdf_transform_schemas.egg-info/entry_points.txt0000644000175100001770000000015314514267327030137 0ustar00runnerdocker[asdf.resource_mappings] asdf_transform_schemas = asdf_transform_schemas.integration:get_resource_mappings ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738455.0 asdf_transform_schemas-0.4.0/src/asdf_transform_schemas.egg-info/requires.txt0000644000175100001770000000035114514267327027241 0ustar00runnerdockerasdf-standard>=1.0.1 [:python_version < "3.9"] importlib_resources>=3 [docs] tomli sphinx sphinx-asdf>=0.1.3 sphinx-astropy astropy>=5.0.4 graphviz matplotlib docutils sphinx-rtd-theme [test] asdf>=2.8.0 asdf-astropy scipy pytest ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738455.0 asdf_transform_schemas-0.4.0/src/asdf_transform_schemas.egg-info/top_level.txt0000644000175100001770000000002714514267327027373 0ustar00runnerdockerasdf_transform_schemas ././@PaxHeader0000000000000000000000000000003300000000000010211 xustar0027 mtime=1697738456.046479 asdf_transform_schemas-0.4.0/tests/0000755000175100001770000000000014514267330017002 5ustar00runnerdocker././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/tests/.gitignore0000644000175100001770000000000014514267315020763 0ustar00runnerdocker././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/tests/test_integration.py0000644000175100001770000000312214514267315022737 0ustar00runnerdockerfrom pathlib import Path import asdf import pytest import yaml def get_resources(): resources_root = Path(__file__).parent.parent / "resources" return {str(path.relative_to(resources_root)): path for path in resources_root.glob("**/*.yaml")} RESOURCES = get_resources() @pytest.mark.parametrize("resource", RESOURCES) def test_resource(resource): resource_path = RESOURCES[resource] resource_manager = asdf.get_config().resource_manager with resource_path.open("rb") as f: resource_content = f.read() resource = yaml.safe_load(resource_content) resource_uri = resource["id"] assert resource_manager[resource_uri] == resource_content def get_manifests(): manifests_root = Path(__file__).parent.parent / "resources" / "asdf-format.org" / "manifests" return {str(path.relative_to(manifests_root)): path for path in manifests_root.glob("*.yaml")} MANIFESTS = get_manifests() @pytest.mark.parametrize("manifest", MANIFESTS) def test_manifest(manifest): manifest_path = MANIFESTS[manifest] resource_manager = asdf.get_config().resource_manager with manifest_path.open("rb") as f: manifest_content = f.read() manifest = yaml.safe_load(manifest_content) manifest_schema = asdf.schema.load_schema("asdf://asdf-format.org/core/schemas/extension_manifest-1.0.0") # The manifest must be valid against its own schema: asdf.schema.validate(manifest, schema=manifest_schema) for tag_definition in manifest["tags"]: # The tag's schema must be available: assert tag_definition["schema_uri"] in resource_manager ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/tests/test_invalid.py0000644000175100001770000001655014514267315022053 0ustar00runnerdockerimport asdf import pytest from asdf.testing import helpers purposefully_failing = [ # old-style bounding box fails # 1D string bound """ !transform/shift-1.2.0 offset: 1 bounding_box: [1.0, test] """, # 1D only one bound """ !transform/shift-1.2.0 offset: 1 bounding_box: [1.0] """, # 1D more than two bounds """ !transform/shift-1.2.0 offset: 1 bounding_box: [1.0, 2.0, 3.0] """, # 2D only one intervals """ !transform/shift-1.2.0 offset: 1 bounding_box: - [1.0, 2.0] """, # 2D string bound """ !transform/shift-1.2.0 offset: 1 bounding_box: - [1.0, 2.0] - [3.0, test] """, # 2D only one bound """ !transform/shift-1.2.0 offset: 1 bounding_box: - [1.0, 2.0] - [3.0] """, # 2D more than two bounds """ !transform/shift-1.2.0 offset: 1 bounding_box: - [1.0, 2.0] - [3.0, 4.0, 5.0] """, # new-style bounding box fails # Missing intervals """ !transform/property/bounding_box-1.0.0 ignore: [x, y] order: C """, # No intervals """ !transform/property/bounding_box-1.0.0 intervals: {} ignore: [x, y] order: C """, # Bad interval """ !transform/property/bounding_box-1.0.0 intervals: x: [1.0, 2.0, 3.0] ignore: [x, y] order: C """, # Non-string ignore """ !transform/property/bounding_box-1.0.0 intervals: x: [1.0, 2.0] ignore: [x, y, 3] order: C """, # Non-list ignore """ !transform/property/bounding_box-1.0.0 intervals: x: [1.0, 2.0] ignore: y order: C """, # Order is not F or C """ !transform/property/bounding_box-1.0.0 intervals: x: [1.0, 2.0] ignore: [x, y] order: test """, # compound bounding box fails # missing ignore in selector """ !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x cbbox: - key: [0] bbox: !transform/property/bounding_box-1.0.0 intervals: y: [1.0, 2.0] """, # missing argument in selector """ !transform/property/compound_bounding_box-1.0.0 selector_args: - ignore: true cbbox: - key: [0] bbox: !transform/property/bounding_box-1.0.0 intervals: y: [1.0, 2.0] """, # argument is not a string """ !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: 5 ignore: true cbbox: - key: [0] bbox: !transform/property/bounding_box-1.0.0 intervals: y: [1.0, 2.0] """, # ignore is not a boolean """ !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x ignore: test cbbox: - key: [0] bbox: !transform/property/bounding_box-1.0.0 intervals: y: [1.0, 2.0] """, # Nothing in selector_args array """ !transform/property/compound_bounding_box-1.0.0 selector_args: [] cbbox: - key: [0] bbox: !transform/property/bounding_box-1.0.0 intervals: y: [1.0, 2.0] """, # Missing selector_args array """ !transform/property/compound_bounding_box-1.0.0 cbbox: - key: [0] bbox: !transform/property/bounding_box-1.0.0 intervals: y: [1.0, 2.0] """, # Nothing in key array """ !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x ignore: true cbbox: - key: [] bbox: !transform/property/bounding_box-1.0.0 intervals: y: [1.0, 2.0] """, # Non-numeric key entry """ !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x ignore: true cbbox: - key: [test] bbox: !transform/property/bounding_box-1.0.0 intervals: y: [1.0, 2.0] """, # Missing key entry """ !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x ignore: true cbbox: - bbox: !transform/property/bounding_box-1.0.0 intervals: y: [1.0, 2.0] """, # Invalid bbox entry """ !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x ignore: true cbbox: - key: [0] bbox: !transform/property/bounding_box-1.0.0 intervals: y: [1.0, 2.0, 3.0] """, # Missing bbox entry """ !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x ignore: true cbbox: - key: [0] """, # Empty cbbox array """ !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x ignore: true cbbox: [] """, # Missing cbbox entry """ !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x ignore: true """, # Non-string ignore """ !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x ignore: true cbbox: - key: [0] bbox: !transform/property/bounding_box-1.0.0 intervals: y: [1.0, 2.0] ignore: [z, 3] """, # Non-list ignore """ !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x ignore: true cbbox: - key: [0] bbox: !transform/property/bounding_box-1.0.0 intervals: y: [1.0, 2.0] ignore: z """, # Order is not F or C """ !transform/property/compound_bounding_box-1.0.0 selector_args: - argument: x ignore: true cbbox: - key: [0] bbox: !transform/property/bounding_box-1.0.0 intervals: y: [1.0, 2.0] ignore: [z] order: test """, # Spline degree is too high """ !transform/spline1d-1.0.0 knots: !core/ndarray-1.0.0 [0.0, 0.5, 1] coefficients: !core/ndarray-1.0.0 [1.2, 0.3, 56.1] degree: 6 """, # Spline degree is too small """ !transform/spline1d-1.0.0 knots: !core/ndarray-1.0.0 [0.0, 0.5, 1] coefficients: !core/ndarray-1.0.0 [1.2, 0.3, 56.1] degree: 0 """, # Spline knots are not 1D arrays """ !transform/spline1d-1.0.0 knots: !core/ndarray-1.0.0 [[0.0, 0.5, 1], [0.0, 0.5, 1]] coefficients: !core/ndarray-1.0.0 [1.2, 0.3, 56.1] degree: 3 """, # Spline coefficients are not 1D arrays """ !transform/spline1d-1.0.0 knots: !core/ndarray-1.0.0 [0.0, 0.5, 1] coefficients: !core/ndarray-1.0.0 [[1.2, 0.3, 56.1], [3.5, 7.1, 4.3]] degree: 3 """, ] @pytest.mark.parametrize("yaml", purposefully_failing) def test_failing_schema(yaml): buff = helpers.yaml_to_asdf(f"example: {yaml.strip()}") with pytest.raises(asdf.ValidationError, match=r"Failed validating *"): asdf.open(buff) ././@PaxHeader0000000000000000000000000000002600000000000010213 xustar0022 mtime=1697738445.0 asdf_transform_schemas-0.4.0/tox.ini0000644000175100001770000000113314514267315017154 0ustar00runnerdocker[tox] envlist = py39, black, flake8 isolated_build = True [testenv] extras = test commands = pip freeze pytest [testenv:black] deps = black commands= black --check src tests scripts [testenv:flake8] deps = flake8 commands = flake8 --count [testenv:twine] deps= twine commands= twine check {work_dir}/{package_env}/dist/* [testenv:codestyle] skip_install = true description = Run all style and file checks with pre-commit deps = pre-commit commands = pre-commit install-hooks pre-commit run {posargs:--color always --all-files --show-diff-on-failure}