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Thanks to Hugo Heuzard for the bug report! 2012-07-20: Downgraded findlib version requirement to support the Debian testing branch. 2012-07-16: Replaced String.trim function in myocamlbuild.ml to allow compiling with OCaml 3.12.1. 2012-07-15: New major release version 2.0.0: * Upgraded to OCaml 4.00 * Switched to Oasis for packaging * Switched to OCamlBuild for the build process * Rewrote README in Markdown * Added stricter compilation flags 2012-05-19: Fixed cpp warnings and removed superfluous check for dynamic linking library. The latter improves portability to FreeBSD. Thanks to Stéphane Legrand for the bug report! 2011-03-10: Added sqlite3_open_v2 functionality. Thanks to Mike Lin for the initial patch! 2010-12-20: Fixed linking problem with loadable module support. Thanks to Adrien Nader for the patch! 2010-09-18: Fixed segfault related to incorrect handling of exceptions raised from user callbacks. Thanks to William Le Ferrand for the bug report! 2009-12-15: Fixed segfault related to exceptions raised from C. Thanks to Gareth Smith for the bug report! 2009-09-14: Fixed build problem. 2009-09-13: Removed deprecated functions and improved build process. 2009-09-08: Added "changes" function. Thanks to for this patch! 2009-08-22: enable_load_extension now raises an exception if unsupported. 2009-07-28: Added better support for compiling with MSVC and ocamlbuild. Thanks to for this patch! 2009-05-23: Fixed example to be consistent with new API. 2009-05-16: Fixed mishandling of OCaml-runtime lock when callbacks raise exceptions, and correctly handle NULL-pointer results when getting column type declarations. Thanks to Bruno Daniel for this patch! Changed API to expose optional results. 2009-03-09: Fixed potential build problem. 2009-03-01: Added support for user-defined aggregate functions. Thanks to Anil Madhavapeddy for the initial version of the patch! 2009-02-21: Added new function: * busy_timeout Thanks to Paolo Donadeo for the patch! 2009-01-05: Switched to generational global root registration of callbacks for better performance. Requires OCaml 3.11 or higher!!! 2008-12-02: Added function enable_load_extension if it is available. Thanks to Pietro Abate for the patch! 2008-05-11: Added function column_count, used it internally in place of data_count, and improved documentation of associated functions. Thanks to James Cheney for the patch! 2008-05-07: Renamed Data.to_string to Data.to_string_debug for converting fields to strings with their data constructor. Replaced the previous function with one that behaves more like users would expect. Thanks to Stefano Zacchiroli for the suggestion. 2008-04-18: Improved backwards compatibility to older versions of SQLite. 2008-04-04: Fixed a build problem on Mac OS X. 2008-03-27: Fixed a build problem on FreeBSD. Thanks to Jaap Boender for the patch! 2008-03-14: Synced with Jane Street tree. 2008-03-05: Added a patch to improve Windows support. Thanks to Alain Frisch for the patch! 2007-09-04: Fixed a minor bug converting status codes. 2007-08-20: Fixed a GC-bug related to user-defined SQL-functions. Thanks to Enrico Tassi for the test case to replicate this problem! 2007-06-17: Added support for user-defined scalar functions. Thanks to Enrico Tassi for the patch! Switched to sqlite3_prepare_v2 internally to avoid the older, deprecated sqlite3_prepare-function. Thanks to Gabriel Kerneis for the hint! Removed exec_sql-function, which was buggy in the last release anyway (thanks to Paul Stodghill for pointing this out!). Its interface hides too much important information from the user (e.g. BUSY-steps, etc.). It did not seem possible to design a function that made it as simple as exec_sql to run an SQL-statement without inviting the user to write buggy/incomplete code, or that wouldn't make the interface almost as complicated as just writing the correct code that handles all cases by oneself. 2007-05-07: Further GC-bug fixes. There was a design bug in the library that was causing all these GC issues (C-structs allocated in the OCaml-heap). This obviously seemed safe (and more efficient) to the initial author, but after extensive checking it became apparent that this just does not work if C-structs reference each other, because the GC might move these memory regions. It seems safer to allocate C-structs with "malloc", and use an indirection to access them. 2007-05-04: Fixed several GC-bugs, and improved thread interaction. 2007-04-23: callback_exn -> caml_callback_exn. 2007-03-30: Fixed a GC-bug. 2007-03-19: Fixed an installation problem on Cygwin. Thanks to James Cheney for the hint! 2007-02-27: Small API-change: the callback for exec is now an optional argument. Added three more "exec"-functions, which do or do not take headers or handle NULL-values. Improved quality of C-code (removed warnings). 2007-02-23: Fixed a bug in the "db_close"-function. Improved documentation. 2007-02-19: Added check for out of memory after malloc. 2007-01-31: Fixed build problem on x86_64: added -fPIC flag to compilation of C-stubs. 2007-01-17: Complete rewrite by Markus Mottl . 2005-04-??: Initial coding (0.1) by Christian Szegedy . sqlite3-ocaml-2.0.5/COPYING.txt0000644000000000000000000000253412253667662014215 0ustar 00000000000000Copyright (c) 2005 Christian Szegedy Copyright (c) 2007 Jane Street Holding, LLC 1 New York Plaza, 33rd Floor New York, NY 10004 USA Author: Markus Mottl Copyright (c) 2007 Enrico Tassi Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. sqlite3-ocaml-2.0.5/INSTALL.txt0000644000000000000000000000170312253667662014210 0ustar 00000000000000(* OASIS_START *) (* DO NOT EDIT (digest: 704ae4be7b33e10c4d412e1626b8d8b5) *) This is the INSTALL file for the sqlite3-ocaml distribution. This package uses OASIS to generate its build system. See section OASIS for full information. Dependencies ============ In order to compile this package, you will need: * ocaml (>= 3.12) for all, test test_agg, test test_db, test test_exec, test test_fun, test test_stmt, doc API * findlib (>= 1.3.1) Installing ========== 1. Uncompress the source archive and go to the root of the package 2. Run 'ocaml setup.ml -configure' 3. Run 'ocaml setup.ml -build' 4. Run 'ocaml setup.ml -install' Uninstalling ============ 1. Go to the root of the package 2. Run 'ocaml setup.ml -uninstall' OASIS ===== OASIS is a program that generates a setup.ml file using a simple '_oasis' configuration file. The generated setup only depends on the standard OCaml installation: no additional library is required. (* OASIS_STOP *) sqlite3-ocaml-2.0.5/Makefile0000644000000000000000000000127312253667662014003 0ustar 00000000000000# OASIS_START # DO NOT EDIT (digest: 7b2408909643717852b95f994b273fee) SETUP = ocaml setup.ml build: setup.data $(SETUP) -build $(BUILDFLAGS) doc: setup.data build $(SETUP) -doc $(DOCFLAGS) test: setup.data build $(SETUP) -test $(TESTFLAGS) all: $(SETUP) -all $(ALLFLAGS) install: setup.data $(SETUP) -install $(INSTALLFLAGS) uninstall: setup.data $(SETUP) -uninstall $(UNINSTALLFLAGS) reinstall: setup.data $(SETUP) -reinstall $(REINSTALLFLAGS) clean: $(SETUP) -clean $(CLEANFLAGS) distclean: $(SETUP) -distclean $(DISTCLEANFLAGS) setup.data: $(SETUP) -configure $(CONFIGUREFLAGS) .PHONY: build doc test all install uninstall reinstall clean distclean configure # OASIS_STOP sqlite3-ocaml-2.0.5/README.md0000644000000000000000000000411512253667662013620 0ustar 00000000000000SQLite3-OCaml - SQLite3 Bindings for OCaml ========================================== --------------------------------------------------------------------------- What is SQLite3-OCaml? ---------------------- SQLite3-OCaml is an [OCaml](http://www.ocaml.org) library with bindings to the [SQLite3](http://www.sqlite.org) client API. Sqlite3 is a self-contained, serverless, zero-configuration, transactional SQL database engine with outstanding performance for many use cases. These bindings are written in a way that enables a friendly coexistence with the old (version 2) SQLite and its OCaml wrapper `ocaml-sqlite`. Usage ----- The API in file `lib/sqlite3.mli` is fully documented, and HTML-documentation can be built using `make doc` and installed with this distribution. It can also be found [online](http://mmottl.bitbucket.org/projects/sqlite3-ocaml/api/). SQLite3 has its own [online documentation](http://www.sqlite.org/docs.html). ### Examples The `test`-directory in this distribution contains a few simple examples for testing various features of this library. Credits ------- * Enrico Tassi contributed support for user-defined scalar functions. * Markus Mottl rewrote Christian's bindings for Jane Street Holding, LLC to clean up a few things and to make it perform better in multi-threaded environments. * Christian Szegedy wrote the initial release for SQLite version 3. * Mikhail Fedotov wrote ocaml-sqlite for SQLite version 2. His bindings served as a reference for this wrapper, but sqlite3 is written completely from scratch since the C interface changed significantly. --------------------------------------------------------------------------- Contact Information and Contributing ------------------------------------ In the case of bugs, feature requests, contributions and similar, please contact the maintainers: * Markus Mottl * Christian Szegedy Up-to-date information should be available at: Enjoy! Markus Mottl in Rutherford, NJ on July 10, 2012 sqlite3-ocaml-2.0.5/TODO.md0000644000000000000000000000102512253667662013425 0ustar 000000000000001. More testing 2. An even higher level function for execution of queries in a more convenient way. It should handle busy queries and expired statements automatically. 3. TODO: Add the following wrappers: a. Better SQL Function support (aggregating ones) b. Collation support c. Authorization support d. Trace/profile support e. progress handler support f. commit hook support g. global_recover, get_autocommit, db_handle, temp_directory h. encryption support (not in SQLite anyway) sqlite3-ocaml-2.0.5/_oasis0000644000000000000000000000634412253667662013547 0ustar 00000000000000OASISFormat: 0.4 Name: sqlite3-ocaml Version: 2.0.5 Synopsis: sqlite3-ocaml - bindings to the SQLite3 library Description: sqlite3-ocaml offers library functions for accessing SQLite3 database Authors: Markus Mottl , Christian Szegedy Copyrights: (C) 2007-2010 Jane Street Holding LLC , (C) 2010-2012 Markus Mottl , (C) 2005-2012 Christian Szegedy Maintainers: Markus Mottl , Christian Szegedy LicenseFile: COPYING.txt License: LGPL-2.1+ with OCaml linking exception OCamlVersion: >= 3.12 FindlibVersion: >= 1.3.1 Homepage: https://bitbucket.org/mmottl/sqlite3-ocaml #Categories: #FilesAB: Plugins: META (0.4), StdFiles (0.4), DevFiles (0.4) XStdFilesREADME: false BuildTools: ocamldoc, ocamlbuild Flag strict Description: Strict compile-time checks Default: true Library sqlite3 Path: lib FindlibName: sqlite3 Modules: Sqlite3 CSources: sqlite3_stubs.c CCOpt: -g -O2 -fPIC -DPIC if flag(strict) && ccomp_type(cc) CCOpt+: -Wall -pedantic -Wextra -Wunused -Wno-long-long CCLib: -lsqlite3 # Tests Executable test_agg Path: test MainIs: test_agg.ml Build$: flag(tests) Install: false BuildDepends: sqlite3 CompiledObject: best Test test_agg Run$: flag(tests) Command: $test_agg WorkingDirectory: test Executable test_db Path: test MainIs: test_db.ml Build$: flag(tests) Install: false BuildDepends: sqlite3 CompiledObject: best Test test_db Run$: flag(tests) Command: $test_db WorkingDirectory: test Executable test_exec Path: test MainIs: test_exec.ml Build$: flag(tests) Install: false BuildDepends: sqlite3 CompiledObject: best Test test_exec Run$: flag(tests) Command: $test_exec WorkingDirectory: test Executable test_fun Path: test MainIs: test_fun.ml Build$: flag(tests) Install: false BuildDepends: sqlite3, str CompiledObject: best Test test_fun Run$: flag(tests) Command: $test_fun WorkingDirectory: test Executable test_stmt Path: test MainIs: test_stmt.ml Build$: flag(tests) Install: false BuildDepends: sqlite3 CompiledObject: best Test test_stmt Run$: flag(tests) Command: $test_stmt WorkingDirectory: test PostCommand: rm t # Document API Title: API reference for sqlite3-ocaml Type: OCamlbuild (0.4) InstallDir: $docdir/api XOCamlbuildPath: . XOCamlbuildLibraries: sqlite3 SourceRepository trunk Type: hg Location: ssh://hg@bitbucket.org/mmottl/sqlite3-ocaml Browser: https://bitbucket.org/mmottl/sqlite3-ocaml Tag: release-$(pkg_version) sqlite3-ocaml-2.0.5/_tags0000644000000000000000000000271512253667662013365 0ustar 00000000000000# OASIS_START # DO NOT EDIT (digest: 4ea316e333012fd4d6e656443c3dba8b) # Ignore VCS directories, you can use the same kind of rule outside # OASIS_START/STOP if you want to exclude directories that contains # useless stuff for the build process <**/.svn>: -traverse <**/.svn>: not_hygienic ".bzr": -traverse ".bzr": not_hygienic ".hg": -traverse ".hg": not_hygienic ".git": -traverse ".git": not_hygienic "_darcs": -traverse "_darcs": not_hygienic # Library sqlite3 "lib/sqlite3.cmxs": use_sqlite3 : oasis_library_sqlite3_ccopt "lib/sqlite3_stubs.c": oasis_library_sqlite3_ccopt : oasis_library_sqlite3_cclib "lib/libsqlite3_stubs.lib": oasis_library_sqlite3_cclib "lib/dllsqlite3_stubs.dll": oasis_library_sqlite3_cclib "lib/libsqlite3_stubs.a": oasis_library_sqlite3_cclib "lib/dllsqlite3_stubs.so": oasis_library_sqlite3_cclib : use_libsqlite3_stubs # Executable test_agg : use_sqlite3 # Executable test_db : use_sqlite3 # Executable test_exec : use_sqlite3 # Executable test_fun : use_sqlite3 : pkg_str : pkg_str # Executable test_stmt : use_sqlite3 : use_sqlite3 # OASIS_STOP true: -traverse <{lib,test}/**>: traverse <**/*.ml{,i}>: warn(Aer-44), strict_sequence, annot "lib/sqlite3.cmxs": use_libsqlite3_stubs sqlite3-ocaml-2.0.5/configure0000755000000000000000000000055312253667662014252 0ustar 00000000000000#!/bin/sh # OASIS_START # DO NOT EDIT (digest: dc86c2ad450f91ca10c931b6045d0499) set -e FST=true for i in "$@"; do if $FST; then set -- FST=false fi case $i in --*=*) ARG=${i%%=*} VAL=${i##*=} set -- "$@" "$ARG" "$VAL" ;; *) set -- "$@" "$i" ;; esac done ocaml setup.ml -configure "$@" # OASIS_STOP sqlite3-ocaml-2.0.5/lib/META0000644000000000000000000000051712253667662013562 0ustar 00000000000000# OASIS_START # DO NOT EDIT (digest: 0a629b7ee471c32d3048c0a6e8d3c583) version = "2.0.5" description = "sqlite3-ocaml - bindings to the SQLite3 library" archive(byte) = "sqlite3.cma" archive(byte, plugin) = "sqlite3.cma" archive(native) = "sqlite3.cmxa" archive(native, plugin) = "sqlite3.cmxs" exists_if = "sqlite3.cma" # OASIS_STOP sqlite3-ocaml-2.0.5/lib/libsqlite3_stubs.clib0000644000000000000000000000014412253667662017233 0ustar 00000000000000# OASIS_START # DO NOT EDIT (digest: e12e628215e422013686163f52a643d2) sqlite3_stubs.o # OASIS_STOP sqlite3-ocaml-2.0.5/lib/sqlite3.ml0000644000000000000000000002160112253667662015024 0ustar 00000000000000(**************************************************************************) (* Copyright (c) 2003 Christian Szegedy *) (* *) (* Copyright (c) 2007 Jane Street Holding, LLC *) (* Author: Markus Mottl *) (* *) (* Permission is hereby granted, free of charge, to any person *) (* obtaining a copy of this software and associated documentation files *) (* (the "Software"), to deal in the Software without restriction, *) (* including without limitation the rights to use, copy, modify, merge, *) (* publish, distribute, sublicense, and/or sell copies of the Software, *) (* and to permit persons to whom the Software is furnished to do so, *) (* subject to the following conditions: *) (* *) (* The above copyright notice and this permission notice shall be *) (* included in all copies or substantial portions of the Software. *) (* *) (* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, *) (* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES *) (* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND *) (* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS *) (* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN *) (* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN *) (* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE *) (* SOFTWARE. *) (**************************************************************************) open Printf exception InternalError of string exception Error of string exception RangeError of int * int type db type stmt module Rc = struct type unknown external int_of_unknown : unknown -> int = "%identity" type t = | OK | ERROR | INTERNAL | PERM | ABORT | BUSY | LOCKED | NOMEM | READONLY | INTERRUPT | IOERR | CORRUPT | NOTFOUND | FULL | CANTOPEN | PROTOCOL | EMPTY | SCHEMA | TOOBIG | CONSTRAINT | MISMATCH | MISUSE | NOFLS | AUTH | FORMAT | RANGE | NOTADB | ROW | DONE | UNKNOWN of unknown let to_string = function | OK -> "OK" | ERROR -> "ERROR" | INTERNAL -> "INTERNAL" | PERM -> "PERM" | ABORT -> "ABORT" | BUSY -> "BUSY" | LOCKED -> "LOCKED" | NOMEM -> "NOMEM" | READONLY -> "READONLY" | INTERRUPT -> "INTERRUPT" | IOERR -> "IOERR" | CORRUPT -> "CORRUPT" | NOTFOUND -> "NOTFOUND" | FULL -> "FULL" | CANTOPEN -> "CANTOPEN" | PROTOCOL -> "PROTOCOL" | EMPTY -> "EMPTY" | SCHEMA -> "SCHEMA" | TOOBIG -> "TOOBIG" | CONSTRAINT -> "CONSTRAINT" | MISMATCH -> "MISMATCH" | MISUSE -> "MISUSE" | NOFLS -> "NOLFS" | AUTH -> "AUTH" | FORMAT -> "FORMAT" | RANGE -> "RANGE" | NOTADB -> "NOTADB" | ROW -> "ROW" | DONE -> "DONE" | UNKNOWN n -> sprintf "UNKNOWN %d" (int_of_unknown n) end module Data = struct type t = | NONE | NULL | INT of int64 | FLOAT of float | TEXT of string | BLOB of string let to_string = function | NONE | NULL -> "" | INT i -> Int64.to_string i | FLOAT f -> string_of_float f | TEXT t | BLOB t -> t let to_string_debug = function | NONE -> "NONE" | NULL -> "NULL" | INT i -> sprintf "INT <%Ld>" i | FLOAT f -> sprintf "FLOAT <%f>" f | TEXT t -> sprintf "TEXT <%S>" t | BLOB b -> sprintf "BLOB <%d>" (String.length b) end type header = string type headers = header array type row = string option array type row_not_null = string array module Mode = struct type t = Read_write_create | Read_write | Read_only let lift = function | None -> Read_write_create | Some `READONLY -> Read_only | Some `NO_CREATE -> Read_write end module Mut = struct type t = NOTHING | NO | FULL let lift = function None -> NOTHING | Some `NO -> NO | Some `FULL -> FULL end module Cache = struct type t = NOTHING | SHARED | PRIVATE let lift = function None -> NOTHING | Some `SHARED -> SHARED | Some `PRIVATE -> PRIVATE end external db_open : mode : Mode.t -> mutex : Mut.t -> cache : Cache.t -> ?vfs : string -> string -> db = "caml_sqlite3_open" let db_open ?mode ?mutex ?cache ?vfs name = let mode = Mode.lift mode in let mutex = Mut.lift mutex in let cache = Cache.lift cache in db_open ~mode ~mutex ~cache ?vfs name external db_close : db -> bool = "caml_sqlite3_close" external errcode : db -> Rc.t = "caml_sqlite3_errcode" external errmsg : db -> string = "caml_sqlite3_errmsg" external last_insert_rowid : db -> int64 = "caml_sqlite3_last_insert_rowid" external exec : db -> ?cb : (string option array -> headers -> unit) -> string -> Rc.t = "caml_sqlite3_exec" external exec_no_headers : db -> cb : (string option array -> unit) -> string -> Rc.t = "caml_sqlite3_exec_no_headers" external exec_not_null : db -> cb : (string array -> headers -> unit) -> string -> Rc.t = "caml_sqlite3_exec_not_null" external exec_not_null_no_headers : db -> cb : (string array -> unit) -> string -> Rc.t = "caml_sqlite3_exec_not_null_no_headers" external changes : db -> int = "caml_sqlite3_changes" external prepare : db -> string -> stmt = "caml_sqlite3_prepare" external prepare_tail : stmt -> stmt option = "caml_sqlite3_prepare_tail" external recompile : stmt -> unit = "caml_sqlite3_recompile" external step : stmt -> Rc.t = "caml_sqlite3_step" external reset : stmt -> Rc.t = "caml_sqlite3_stmt_reset" external sleep : int -> int = "caml_sqlite3_sleep" external finalize : stmt -> Rc.t = "caml_sqlite3_stmt_finalize" external data_count : stmt -> int = "caml_sqlite3_data_count" external column_count : stmt -> int = "caml_sqlite3_column_count" external column : stmt -> int -> Data.t = "caml_sqlite3_column" external column_name : stmt -> int -> string = "caml_sqlite3_column_name" external column_decltype : stmt -> int -> string option = "caml_sqlite3_column_decltype" external bind : stmt -> int -> Data.t -> Rc.t = "caml_sqlite3_bind" external bind_parameter_count : stmt -> int = "caml_sqlite3_bind_parameter_count" external bind_parameter_name : stmt -> int -> string option = "caml_sqlite3_bind_parameter_name" external bind_parameter_index : stmt -> string -> int = "caml_sqlite3_bind_parameter_index" external clear_bindings : stmt -> Rc.t = "caml_sqlite3_clear_bindings" external busy_timeout : db -> int -> unit = "caml_sqlite3_busy_timeout" external enable_load_extension : db -> bool -> bool = "caml_sqlite3_enable_load_extension" "noalloc" let row_data stmt = Array.init (data_count stmt) (column stmt) let row_names stmt = Array.init (data_count stmt) (column_name stmt) let row_decltypes stmt = Array.init (data_count stmt) (column_decltype stmt) (* Function registration *) external create_function : db -> string -> int -> (Data.t array -> Data.t) -> unit = "caml_sqlite3_create_function" let create_funN db name f = create_function db name (-1) f let create_fun0 db name f = create_function db name 0 (fun _ -> f ()) let create_fun1 db name f = create_function db name 1 (fun args -> f args.(0)) let create_fun2 db name f = create_function db name 2 (fun args -> f args.(0) args.(1)) let create_fun3 db name f = create_function db name 3 (fun args -> f args.(0) args.(1) args.(2)) external delete_function : db -> string -> unit = "caml_sqlite3_delete_function" module Aggregate = struct external create_function : db -> string -> int -> 'a -> ('a -> Data.t array -> 'a) -> ('a -> Data.t) -> unit = "caml_sqlite3_create_aggregate_function_bc" "caml_sqlite3_create_aggregate_function_nc" let create_funN db name ~init ~step ~final = create_function db name (-1) init step final let create_fun0 db name ~init ~step ~final = create_function db name 0 init (fun acc _ -> step acc) final let create_fun1 db name ~init ~step ~final = create_function db name 1 init (fun acc args -> step acc args.(0)) final let create_fun2 db name ~init ~step ~final = create_function db name 2 init (fun acc args -> step acc args.(0) args.(1)) final let create_fun3 db name ~init ~step ~final = create_function db name 3 init (fun acc args -> step acc args.(0) args.(1) args.(2)) final end (* Initialisation *) external init : unit -> unit = "caml_sqlite3_init" let () = Callback.register_exception "Sqlite3.InternalError" (InternalError ""); Callback.register_exception "Sqlite3.Error" (Error ""); Callback.register_exception "Sqlite3.RangeError" (RangeError (0, 0)); init () sqlite3-ocaml-2.0.5/lib/sqlite3.mldylib0000644000000000000000000000001012253667662016037 0ustar 00000000000000Sqlite3 sqlite3-ocaml-2.0.5/lib/sqlite3.mli0000644000000000000000000005074112253667662015204 0ustar 00000000000000(**************************************************************************) (* Copyright (c) 2005 Christian Szegedy *) (* *) (* Copyright (c) 2007 Jane Street Holding, LLC *) (* Author: Markus Mottl *) (* *) (* Permission is hereby granted, free of charge, to any person *) (* obtaining a copy of this software and associated documentation files *) (* (the "Software"), to deal in the Software without restriction, *) (* including without limitation the rights to use, copy, modify, merge, *) (* publish, distribute, sublicense, and/or sell copies of the Software, *) (* and to permit persons to whom the Software is furnished to do so, *) (* subject to the following conditions: *) (* *) (* The above copyright notice and this permission notice shall be *) (* included in all copies or substantial portions of the Software. *) (* *) (* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, *) (* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES *) (* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND *) (* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS *) (* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN *) (* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN *) (* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE *) (* SOFTWARE. *) (**************************************************************************) (** API for Sqlite 3.* databases *) (** {2 Exceptions} *) exception InternalError of string (** [InternalError reason] is raised when the bindings detect an unknown/unsupported situation. *) exception Error of string (** [Error reason] is raised when some SQL operation is called on a nonexistent handle and the functions does not return a return code, or if there is no error code corresponding to this error. Functions returning return codes communicate errors by returning the specific error code. *) exception RangeError of int * int (** [RangeError (index, maximum)] is raised if some column or bind operation refers to a nonexistent column or binding. The first entry of the returned tuple is the specified index, the second is the limit which was violated. *) (** {2 Types} *) type db (** Database handle. Used to store information regarding open databases and the error code from the last operation if the function implementing that operation takes a database handle as a parameter. NOTE: DO NOT USE THIS HANDLE WITHIN THREADS OTHER THAN THE ONE THAT CREATED IT!!! NOTE: database handles are closed (see {!db_close}) automatically when they are reclaimed by the GC unless they have already been closed earlier by the user. It is good practice to manually close database handles to free resources as quickly as possible. *) type stmt (** Compiled statement handle. Stores information about compiled statements created by the [prepare] or [prepare_tail] functions. NOTE: DO NOT USE THIS HANDLE WITHIN THREADS OTHER THAN THE ONE THAT CREATED IT!!! *) type header = string (** Type of name of a column returned by queries. *) type headers = header array (** Type of names of columns returned by queries. *) type row = string option array (** Type of row data (with potential NULL-values) *) type row_not_null = string array (** Type of row data (without NULL-values) *) (** {2 Return codes} *) module Rc : sig type unknown (** Type of unknown return codes *) external int_of_unknown : unknown -> int = "%identity" (** [int_of_unknown n] converts unknown return code [rc] to an integer. *) (** Type of return codes from failed or successful operations. *) type t = | OK | ERROR | INTERNAL | PERM | ABORT | BUSY | LOCKED | NOMEM | READONLY | INTERRUPT | IOERR | CORRUPT | NOTFOUND | FULL | CANTOPEN | PROTOCOL | EMPTY | SCHEMA | TOOBIG | CONSTRAINT | MISMATCH | MISUSE | NOFLS | AUTH | FORMAT | RANGE | NOTADB | ROW | DONE | UNKNOWN of unknown val to_string : t -> string (** [to_string rc] converts return code [rc] to a string. *) end (** {2 Column data types} *) module Data : sig (** Type of columns *) type t = | NONE | NULL | INT of int64 | FLOAT of float | TEXT of string | BLOB of string val to_string : t -> string (** [to_string data] converts [data] to a string. Both [NONE] and [NULL] are converted to the empty string. *) val to_string_debug : t -> string (** [to_string_debug data] converts [data] to a string including the data constructor. The contents of blobs will not be printed, only its length. Useful for debugging. *) end (** {2 General database operations} *) val db_open : ?mode : [ `READONLY | `NO_CREATE ] -> ?mutex : [ `NO | `FULL ] -> ?cache : [ `SHARED | `PRIVATE ] -> ?vfs : string -> string -> db (** [db_open ?mode ?mutex ?cache ?vfs filename] opens the database file [filename], and returns a database handle. The optional arguments [mode] and [mutex] are only meaningful with SQlite versions >= 3.5, [cache] only for versions >= 3.6.18. For older versions an exception will be raised if any of them is set to a non-default value. The database is opened read-only if [`READONLY] is passed as mode. The database file will not be created if it is missing and [`NO_CREATE] is set. [mutex] determines how the database is accessed. The mutex parameters [`NO] and [`FULL] correspond to [SQLITE_OPEN_NOMUTEX] and [SQLITE_OPEN_FULLMUTEX] in the SQLite3 API respectively. The cache parameters [`SHARED] and [`PRIVATE] correspond to [SQLITE_OPEN_SHAREDCACHE] and [SQLITE_OPEN_PRIVATECACHE] in the SQLite3 API respectively. @param mode default = read-write, create @param mutex default = nothing @param cache default = nothing @param vfs default = nothing *) external db_close : db -> bool = "caml_sqlite3_close" (** [db_close db] closes database [db] and invalidates the handle. @return [false] if database was busy (database not closed in this case!), [true] otherwise. @raise SqliteError if an invalid database handle is passed. *) external enable_load_extension : db -> bool -> bool = "caml_sqlite3_enable_load_extension" "noalloc" (** [enable_load_extension db onoff] enable/disable the sqlite3 load extension. @return [false] if the operation fails, [true] otherwise. *) external errcode : db -> Rc.t = "caml_sqlite3_errcode" (** [errcode db] @return the error code of the last operation on database [db]. @raise SqliteError if an invalid database handle is passed. *) external errmsg : db -> string = "caml_sqlite3_errmsg" (** [errmsg db] @return the error message of the last operation on database [db]. @raise SqliteError if an invalid database handle is passed. *) external last_insert_rowid : db -> int64 = "caml_sqlite3_last_insert_rowid" (** [last_insert_rowid db] @return the index of the row inserted by the last operation on database [db]. @raise SqliteError if an invalid database handle is passed. *) external exec : db -> ?cb : (row -> headers -> unit) -> string -> Rc.t = "caml_sqlite3_exec" (** [exec db ?cb sql] performs SQL-operation [sql] on database [db]. If the operation contains query statements, then the callback function [cb] will be called for each matching row. The first parameter of the callback is the contents of the row, the second paramater are the headers of the columns associated with the row. Exceptions raised within the callback will abort the execution and escape {!exec}. @return the return code of the operation. @param cb default = no callback @raise SqliteError if an invalid database handle is passed. *) external exec_no_headers : db -> cb : (row -> unit) -> string -> Rc.t = "caml_sqlite3_exec_no_headers" (** [exec_no_headers db ?cb sql] performs SQL-operation [sql] on database [db]. If the operation contains query statements, then the callback function [cb] will be called for each matching row. The parameter of the callback is the contents of the row. Exceptions raised within the callback will abort the execution and escape {!exec_no_headers}. @return the return code of the operation. @raise SqliteError if an invalid database handle is passed. *) external exec_not_null : db -> cb : (row_not_null -> headers -> unit) -> string -> Rc.t = "caml_sqlite3_exec_not_null" (** [exec_not_null db ~cb sql] performs SQL-operation [sql] on database [db]. If the operation contains query statements, then the callback function [cb] will be called for each matching row. The first parameter of the callback is the contents of the row, which must not contain NULL-values, the second paramater are the headers of the columns associated with the row. Exceptions raised within the callback will abort the execution and escape {!exec_not_null}. @return the return code of the operation. @raise SqliteError if an invalid database handle is passed. @raise SqliteError if a row contains NULL. *) external exec_not_null_no_headers : db -> cb : (row_not_null -> unit) -> string -> Rc.t = "caml_sqlite3_exec_not_null_no_headers" (** [exec_not_null_no_headers db ~cb sql] performs SQL-operation [sql] on database [db]. If the operation contains query statements, then the callback function [cb] will be called for each matching row. The parameter of the callback is the contents of the row, which must not contain NULL-values. Exceptions raised within the callback will abort the execution and escape {!exec_not_null_no_headers}. @return the return code of the operation. @raise SqliteError if an invalid database handle is passed. @raise SqliteError if a row contains NULL. *) external changes : db -> int = "caml_sqlite3_changes" (** [changes db] @return the number of rows that were changed or inserted or deleted by the most recently completed SQL statement on database [db]. *) (** {2 Fine grained query operations} *) external prepare : db -> string -> stmt = "caml_sqlite3_prepare" (** [prepare db sql] compile SQL-statement [sql] for database [db] into bytecode. The statement may be only partially compiled. In this case {!prepare_tail} can be called on the returned statement to compile the remaining part of the SQL-statement. NOTE: this really uses the C-function [sqlite3_prepare_v2], i.e. avoids the older, deprecated [sqlite3_prepare]-function. @raise SqliteError if an invalid database handle is passed. @raise SqliteError if the statement could not be prepared. *) external prepare_tail : stmt -> stmt option = "caml_sqlite3_prepare_tail" (** [prepare_tail stmt] compile the remaining part of the SQL-statement [stmt] to bytecode. @return [None] if there was no remaining part, or [Some remaining_part] otherwise. NOTE: this really uses the C-function [sqlite3_prepare_v2], i.e. avoids the older, deprecated [sqlite3_prepare]-function. @raise SqliteError if the statement could not be prepared. *) external recompile : stmt -> unit = "caml_sqlite3_recompile" (** [recompile stmt] recompiles the SQL-statement associated with [stmt] to bytecode. The statement may be only partially compiled. In this case {!prepare_tail} can be called on the statement to compile the remaining part of the SQL-statement. Call this function if the statement expires due to some schema change. @raise SqliteError if the statement could not be recompiled. *) external step : stmt -> Rc.t = "caml_sqlite3_step" (** [step stmt] performs one step of the query associated with SQL-statement [stmt]. @return the return code of this operation. @raise SqliteError if the step could not be executed. *) external finalize : stmt -> Rc.t = "caml_sqlite3_stmt_finalize" (** [finalize stmt] finalizes the statement [stmt]. After finalization, the only valid usage of the statement is to use it in {!prepare_tail}, or to {!recompile} it. @return the return code of this operation. @raise SqliteError if the statement could not be finalized. *) external reset : stmt -> Rc.t = "caml_sqlite3_stmt_reset" (** [reset stmt] resets the statement [stmt], e.g. to restart the query, perhaps with different bindings. @return the return code of this operation. @raise SqliteError if the statement could not be reset. *) external sleep : int -> int = "caml_sqlite3_sleep" (** [sleep ms] sleeps at least [ms] milliseconds. @return the number of milliseconds of sleep actually requested from the operating system. *) (** {2 Data query} *) external data_count : stmt -> int = "caml_sqlite3_data_count" (** [data_count stmt] @return the number of columns in the result of the last step of statement [stmt]. @raise SqliteError if the statement is invalid. *) external column_count : stmt -> int = "caml_sqlite3_column_count" (** [column_count stmt] @return the number of columns that would be returned by executing statement [stmt]. @raise SqliteError if the statement is invalid. *) external column : stmt -> int -> Data.t = "caml_sqlite3_column" (** [column stmt n] @return the data in column [n] of the result of the last step of statement [stmt]. @raise RangeError if [n] is out of range. @raise SqliteError if the statement is invalid. *) external column_name : stmt -> int -> header = "caml_sqlite3_column_name" (** [column_name stmt n] @return the header of column [n] in the result set of statement [stmt]. @raise RangeError if [n] is out of range. @raise SqliteError if the statement is invalid. *) external column_decltype : stmt -> int -> string option = "caml_sqlite3_column_decltype" (** [column_decltype stmt n] @return the declared type of the specified column in the result set of statement [stmt]. @raise RangeError if [n] is out of range. @raise SqliteError if the statement is invalid. *) (** {2 Binding data to the query} *) external bind : stmt -> int -> Data.t -> Rc.t = "caml_sqlite3_bind" (** [bind stmt n data] binds the value [data] to the free variable at position [n] of statement [stmt]. NOTE: the first variable has index [1]! @return the return code of this operation. @raise RangeError if [n] is out of range. @raise SqliteError if the statement is invalid. *) external bind_parameter_count : stmt -> int = "caml_sqlite3_bind_parameter_count" (** [bind_parameter_count stmt] @return the number of free variables in statement [stmt]. @raise SqliteError if the statement is invalid. *) external bind_parameter_name : stmt -> int -> string option = "caml_sqlite3_bind_parameter_name" (** [bind_parameter_name stmt n] @return [Some parameter_name] of the free variable at position [n] of statement [stmt], or [None] if it is ordinary ("?"). @raise RangeError if [n] is out of range. @raise SqliteError if the statement is invalid. *) external bind_parameter_index : stmt -> string -> int = "caml_sqlite3_bind_parameter_index" (** [bind_parameter_index stmt name] @return the position of the free variable with name [name] in statement [stmt]. @raise Not_found if [name] was not found. @raise SqliteError if the statement is invalid. *) external clear_bindings : stmt -> Rc.t = "caml_sqlite3_clear_bindings" (** [clear_bindings stmt] resets all bindings associated with prepared statement [stmt]. @return the return code of this operation. @raise SqliteError if the statement is invalid. *) (** {2 Stepwise query convenience functions} *) val row_data : stmt -> Data.t array (** [row_data stmt] @return all data values in the row returned by the last query step performed with statement [stmt]. @raise SqliteError if the statement is invalid. *) val row_names : stmt -> headers (** [row_names stmt] @return all column headers of the row returned by the last query step performed with statement [stmt]. @raise SqliteError if the statement is invalid. *) val row_decltypes : stmt -> string option array (** [row_decltypes stmt] @return all column type declarations of the row returned by the last query step performed with statement [stmt]. @raise SqliteError if the statement is invalid. *) (** {2 User-defined functions} *) val create_funN : db -> string -> (Data.t array -> Data.t) -> unit (** [create_funN db name f] registers function [f] under name [name] with database handle [db]. The function has arity [N]. @raise SqliteError if an invalid database handle is passed. *) val create_fun0 : db -> string -> (unit -> Data.t) -> unit (** [create_funN db name f] registers function [f] under name [name] with database handle [db]. The function has arity [0]. @raise SqliteError if an invalid database handle is passed. *) val create_fun1 : db -> string -> (Data.t -> Data.t) -> unit (** [create_fun1 db name f] registers function [f] under name [name] with database handle [db]. The function has arity [1]. @raise SqliteError if an invalid database handle is passed. *) val create_fun2 : db -> string -> (Data.t -> Data.t -> Data.t) -> unit (** [create_fun2 db name f] registers function [f] under name [name] with database handle [db]. The function has arity [2]. @raise SqliteError if an invalid database handle is passed. *) val create_fun3 : db -> string -> (Data.t -> Data.t -> Data.t-> Data.t) -> unit (** [create_fun3 db name f] registers function [f] under name [name] with database handle [db]. The function has arity [3]. @raise SqliteError if an invalid database handle is passed. *) external delete_function : db -> string -> unit = "caml_sqlite3_delete_function" (** [delete_function db name] deletes function with name [name] from database handle [db]. @raise SqliteError if an invalid database handle is passed. *) val busy_timeout : db -> int -> unit (** [busy_timeout db ms] sets a busy handler that sleeps for a specified amount of time when a table is locked. The handler will sleep multiple times until at least [ms] milliseconds of sleeping have accumulated. @raise SqliteError if an invalid database handle is passed. *) module Aggregate : sig val create_fun0 : db -> string -> init : 'a -> step : ('a -> 'a) -> final : ('a -> Data.t) -> unit (** [create_fun0 db name ~init ~step ~final] registers the step and finalizer functions under name [name] with database handle [db]. This function has arity [0]. @raise SqliteError if an invalid database handle is passed. *) val create_fun1 : db -> string -> init : 'a -> step : ('a -> Data.t -> 'a) -> final : ('a -> Data.t) -> unit (** [create_fun1 db name ~init ~step ~final] registers the step and finalizer functions under name [name] with database handle [db]. This function has arity [1]. @raise SqliteError if an invalid database handle is passed. *) val create_fun2 : db -> string -> init : 'a -> step : ('a -> Data.t -> Data.t -> 'a) -> final : ('a -> Data.t) -> unit (** [create_fun2 db name ~init ~step ~final] registers the step and finalizer functions under name [name] with database handle [db]. This function has arity [2]. @raise SqliteError if an invalid database handle is passed. *) val create_fun3 : db -> string -> init : 'a -> step : ('a -> Data.t -> Data.t -> Data.t -> 'a) -> final : ('a -> Data.t) -> unit (** [create_fun3 db name ~init ~step ~final] registers the step and finalizer functions under name [name] with database handle [db]. This function has arity [3]. @raise SqliteError if an invalid database handle is passed. *) val create_funN : db -> string -> init : 'a -> step : ('a -> Data.t array -> 'a) -> final : ('a -> Data.t) -> unit (** [create_funN db name ~init ~step ~final] registers the step and finalizer functions under name [name] with database handle [db]. This function has arity [N]. @raise SqliteError if an invalid database handle is passed. *) end sqlite3-ocaml-2.0.5/lib/sqlite3.mllib0000644000000000000000000000013412253667662015511 0ustar 00000000000000# OASIS_START # DO NOT EDIT (digest: c2117dbb22b44d2701e6e7ccdcd8b97b) Sqlite3 # OASIS_STOP sqlite3-ocaml-2.0.5/lib/sqlite3_stubs.c0000644000000000000000000010215512253667662016062 0ustar 00000000000000/**************************************************************************/ /* Copyright (c) 2005 Christian Szegedy */ /* */ /* Copyright (c) 2007 Jane Street Holding, LLC */ /* Author: Markus Mottl */ /* */ /* Permission is hereby granted, free of charge, to any person */ /* obtaining a copy of this software and associated documentation files */ /* (the "Software"), to deal in the Software without restriction, */ /* including without limitation the rights to use, copy, modify, merge, */ /* publish, distribute, sublicense, and/or sell copies of the Software, */ /* and to permit persons to whom the Software is furnished to do so, */ /* subject to the following conditions: */ /* */ /* The above copyright notice and this permission notice shall be */ /* included in all copies or substantial portions of the Software. */ /* */ /* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */ /* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES */ /* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND */ /* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS */ /* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN */ /* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN */ /* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE */ /* SOFTWARE. */ /**************************************************************************/ #include #include #include #include #include #include #include #include #include #include #if __GNUC__ >= 3 # define inline inline __attribute__ ((always_inline)) # if !defined(__FreeBSD__) && !__APPLE__ # define __unused __attribute__ ((unused)) # endif #else # define __unused # define inline #endif #if SQLITE_VERSION_NUMBER >= 3003007 # define SQLITE_HAS_ENABLE_LOAD_EXTENSION #endif #if SQLITE_VERSION_NUMBER >= 3003009 # define my_sqlite3_prepare sqlite3_prepare_v2 #else # define my_sqlite3_prepare sqlite3_prepare #endif #if SQLITE_VERSION_NUMBER >= 3005000 # define SQLITE_HAS_OPEN_V2 #endif #if SQLITE_VERSION_NUMBER >= 3006018 # define SQLITE_HAS_OPEN_CACHE_PARAMS #endif /* Utility definitions */ static const value Val_None = Val_int(0); static inline value Val_Some(value v_arg) { CAMLparam1(v_arg); value v_res = caml_alloc_small(1, 0); Field(v_res, 0) = v_arg; CAMLreturn(v_res); } static inline value Val_string_option(const char *str) { return (str == NULL) ? Val_None : Val_Some(caml_copy_string(str)); } /* Type definitions */ typedef struct user_function { value v_fun; struct user_function *next; } user_function; typedef struct db_wrap { sqlite3 *db; int rc; int ref_count; user_function *user_functions; } db_wrap; typedef struct stmt_wrap { sqlite3_stmt *stmt; char *sql; int sql_len; char *tail; db_wrap *db_wrap; } stmt_wrap; /* Macros to access the wrapper structures stored in the custom blocks */ #define Sqlite3_val(x) (*((db_wrap **) (Data_custom_val(x)))) #define Sqlite3_stmtw_val(x) (*((stmt_wrap **) (Data_custom_val(x)))) /* Exceptions */ static value *caml_sqlite3_InternalError = NULL; static value *caml_sqlite3_Error = NULL; static value *caml_sqlite3_RangeError = NULL; static inline void raise_with_two_args(value v_tag, value v_arg1, value v_arg2) { CAMLparam3(v_tag, v_arg1, v_arg2); value v_exc = caml_alloc_small(3, 0); Field(v_exc, 0) = v_tag; Field(v_exc, 1) = v_arg1; Field(v_exc, 2) = v_arg2; caml_raise(v_exc); CAMLnoreturn; } static inline void raise_sqlite3_InternalError(char *msg) Noreturn; static inline void raise_sqlite3_InternalError(char *msg) { caml_raise_with_string(*caml_sqlite3_InternalError, msg); } static inline void range_check(int v, int max) { if (v < 0 || v >= max) raise_with_two_args(*caml_sqlite3_RangeError, Val_int(v), Val_int(max)); } static void raise_sqlite3_Error(const char *fmt, ...) Noreturn; static void raise_sqlite3_Error(const char *fmt, ...) { char buf[1024]; va_list args; va_start(args, fmt); vsnprintf(buf, sizeof buf, fmt, args); va_end(args); caml_raise_with_string(*caml_sqlite3_Error, buf); } static void raise_sqlite3_misuse_db(db_wrap *dbw, const char *fmt, ...) { char buf[1024]; va_list args; dbw->rc = SQLITE_MISUSE; va_start(args, fmt); vsnprintf(buf, sizeof buf, fmt, args); va_end(args); raise_sqlite3_Error("%s", buf); } static inline void raise_sqlite3_current(sqlite3 *db, char *loc) { const char *what = sqlite3_errmsg(db); if (!what) what = ""; raise_sqlite3_Error("Sqlite3.%s: %s", loc, what); } static inline void check_db(db_wrap *dbw, char *loc) { if (!dbw->db) raise_sqlite3_misuse_db(dbw, "Sqlite3.%s called with closed database", loc); } static void raise_sqlite3_misuse_stmt(const char *fmt, ...) { char buf[1024]; va_list args; va_start(args, fmt); vsnprintf(buf, sizeof buf, fmt, args); va_end(args); caml_raise_with_string(*caml_sqlite3_Error, buf); } static inline void check_stmt(stmt_wrap *stw, char *loc) { if (stw->stmt == NULL) raise_sqlite3_misuse_stmt("Sqlite3.%s called with finalized stmt", loc); } static inline stmt_wrap * safe_get_stmtw(char *loc, value v_stmt) { stmt_wrap *stmtw = Sqlite3_stmtw_val(v_stmt); check_stmt(stmtw, loc); return stmtw; } /* Initialisation */ CAMLprim value caml_sqlite3_init(value __unused v_unit) { caml_sqlite3_InternalError = caml_named_value("Sqlite3.InternalError"); caml_sqlite3_Error = caml_named_value("Sqlite3.Error"); caml_sqlite3_RangeError = caml_named_value("Sqlite3.RangeError"); return Val_unit; } /* Conversion from return values */ static inline value Val_rc(int rc) { value v_res; if (rc >= 0) { if (rc <= 26) return Val_int(rc); if (rc == 100 || rc == 101) return Val_int(rc - 73); } v_res = caml_alloc_small(1, 0); Field(v_res, 0) = Val_int(rc); return v_res; } /* Copying rows */ static inline value copy_string_option_array(const char** strs, int len) { if (!len) return Atom(0); else { CAMLparam0(); CAMLlocal2(v_str, v_res); int i; v_res = caml_alloc(len, 0); for (i = 0; i < len; ++i) { const char *str = strs[i]; if (str == NULL) Field(v_res, i) = Val_None; else { value v_opt; v_str = caml_copy_string(str); v_opt = caml_alloc_small(1, 0); Field(v_opt, 0) = v_str; Store_field(v_res, i, v_opt); } } CAMLreturn(v_res); } } static inline value copy_not_null_string_array(const char** strs, int len) { if (!len) return Atom(0); else { CAMLparam0(); CAMLlocal1(v_res); int i; v_res = caml_alloc(len, 0); for (i = 0; i < len; ++i) { const char *str = strs[i]; if (str == NULL) { v_res = (value) NULL; break; } else Store_field(v_res, i, caml_copy_string(str)); } CAMLreturn(v_res); } } static inline value safe_copy_string_array(const char** strs, int len) { value v_res = copy_not_null_string_array(strs, len); if (v_res == (value) NULL) raise_sqlite3_Error("Null element in row"); return v_res; } /* Databases */ static inline void ref_count_finalize_dbw(db_wrap *dbw) { if (--dbw->ref_count == 0) { user_function *link; for (link = dbw->user_functions; link != NULL; link = link->next) { caml_remove_generational_global_root(&link->v_fun); free(link); } dbw->user_functions = NULL; sqlite3_close(dbw->db); free(dbw); } } static inline void dbw_finalize_gc(value v_dbw) { db_wrap *dbw = Sqlite3_val(v_dbw); if (dbw->db) ref_count_finalize_dbw(dbw); } #ifdef SQLITE_HAS_OPEN_V2 static inline int get_open_flags(value v_mode, value v_mutex, value v_cache) { int flags; switch (Int_val(v_mode)) { case 0 : flags = (SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE); break; case 1 : flags = SQLITE_OPEN_READWRITE; break; default : flags = SQLITE_OPEN_READONLY; break; } switch (Int_val(v_mutex)) { case 0 : break; case 1 : flags |= SQLITE_OPEN_NOMUTEX; break; default : flags |= SQLITE_OPEN_FULLMUTEX; break; } switch (Int_val(v_cache)) { case 0 : break; #ifdef SQLITE_HAS_OPEN_CACHE_PARAMS case 1 : flags |= SQLITE_OPEN_SHAREDCACHE; break; default : flags |= SQLITE_OPEN_PRIVATECACHE; break; #else default : caml_failwith( "SQLite3 version < 3.6.18 does not support cache parameters for open"); #endif } return flags; } #endif CAMLprim value caml_sqlite3_open( value v_mode, value v_mutex, value v_cache, value v_vfs_opt, value v_file) { sqlite3 *db; int res; #ifdef SQLITE_HAS_OPEN_V2 int flags = get_open_flags(v_mode, v_mutex, v_cache); char *vfs; #endif int file_len = caml_string_length(v_file) + 1; char *file; #ifdef SQLITE_HAS_OPEN_V2 if (v_vfs_opt == Val_None) vfs = NULL; else { value v_vfs = Field(v_vfs_opt, 0); int vfs_len = caml_string_length(v_vfs) + 1; vfs = caml_stat_alloc(vfs_len); memcpy(vfs, String_val(v_vfs), vfs_len); } #else if (Int_val(v_mode) || Int_val(v_mutex) || Int_val(v_cache)) caml_failwith("SQlite3 version < 3.5 does not support open flags"); if (v_vfs_opt != Val_None) caml_failwith("SQLite3 version < 3.5 does not support VFS modules"); #endif file = caml_stat_alloc(file_len); memcpy(file, String_val(v_file), file_len); caml_enter_blocking_section(); #ifdef SQLITE_HAS_OPEN_V2 res = sqlite3_open_v2(file, &db, flags, vfs); free(vfs); #else res = sqlite3_open(file, &db); #endif free(file); caml_leave_blocking_section(); if (res) { const char *msg; if (db) { msg = sqlite3_errmsg(db); sqlite3_close(db); } else msg = ""; raise_sqlite3_Error("error opening database: %s", msg); } else if (db == NULL) raise_sqlite3_InternalError( "open returned neither a database nor an error"); /* "open" succeded */ { db_wrap *dbw; value v_res = caml_alloc_final(2, dbw_finalize_gc, 1, 100); Sqlite3_val(v_res) = NULL; dbw = caml_stat_alloc(sizeof(db_wrap)); dbw->db = db; dbw->rc = SQLITE_OK; dbw->ref_count = 1; dbw->user_functions = NULL; Sqlite3_val(v_res) = dbw; return v_res; } } CAMLprim value caml_sqlite3_close(value v_db) { int ret, not_busy; db_wrap *dbw = Sqlite3_val(v_db); check_db(dbw, "close"); ret = sqlite3_close(dbw->db); not_busy = ret != SQLITE_BUSY; if (not_busy) dbw->db = NULL; return Val_bool(not_busy); } #ifdef SQLITE_HAS_ENABLE_LOAD_EXTENSION CAMLprim value caml_sqlite3_enable_load_extension(value v_db, value v_onoff) { int ret; db_wrap *dbw = Sqlite3_val(v_db); ret = sqlite3_enable_load_extension(dbw->db, Bool_val(v_onoff)); return Val_bool(ret); } #else CAMLprim value caml_sqlite3_enable_load_extension( value __unused v_db, value __unused v_onoff) { caml_failwith("enable_load_extension: unsupported"); } #endif /* Informational functions */ CAMLprim value caml_sqlite3_errcode(value v_db) { db_wrap *dbw = Sqlite3_val(v_db); check_db(dbw, "errcode"); return Val_rc(sqlite3_errcode(dbw->db)); } CAMLprim value caml_sqlite3_errmsg(value v_db) { db_wrap *dbw = Sqlite3_val(v_db); check_db(dbw, "errmsg"); return caml_copy_string(sqlite3_errmsg(dbw->db)); } CAMLprim value caml_sqlite3_last_insert_rowid(value v_db) { db_wrap *dbw = Sqlite3_val(v_db); check_db(dbw, "last_insert_rowid"); return caml_copy_int64(sqlite3_last_insert_rowid(dbw->db)); } /* Execution and callbacks */ typedef struct callback_with_exn { value *cbp; value *exn; } callback_with_exn; static inline int exec_callback( void *cbx_, int num_columns, char **row, char **header) { callback_with_exn *cbx = cbx_; value v_row, v_header, v_ret; caml_leave_blocking_section(); v_row = copy_string_option_array((const char **) row, num_columns); Begin_roots1(v_row); v_header = safe_copy_string_array((const char **) header, num_columns); End_roots(); v_ret = caml_callback2_exn(*cbx->cbp, v_row, v_header); if (Is_exception_result(v_ret)) { *cbx->exn = Extract_exception(v_ret); caml_enter_blocking_section(); return 1; } caml_enter_blocking_section(); return 0; } CAMLprim value caml_sqlite3_exec(value v_db, value v_maybe_cb, value v_sql) { CAMLparam1(v_db); CAMLlocal2(v_cb, v_exn); callback_with_exn cbx; db_wrap *dbw = Sqlite3_val(v_db); int len = caml_string_length(v_sql) + 1; char *sql; int rc; sqlite3_callback cb = NULL; check_db(dbw, "exec"); sql = caml_stat_alloc(len); memcpy(sql, String_val(v_sql), len); cbx.cbp = &v_cb; cbx.exn = &v_exn; if (v_maybe_cb != Val_None) { v_cb = Field(v_maybe_cb, 0); cb = exec_callback; } caml_enter_blocking_section(); rc = sqlite3_exec(dbw->db, sql, cb, (void *) &cbx, NULL); free(sql); caml_leave_blocking_section(); if (rc == SQLITE_ABORT) caml_raise(*cbx.exn); CAMLreturn(Val_rc(rc)); } static inline int exec_callback_no_headers( void *cbx_, int num_columns, char **row, char __unused **header) { callback_with_exn *cbx = cbx_; value v_row, v_ret; caml_leave_blocking_section(); v_row = copy_string_option_array((const char **) row, num_columns); v_ret = caml_callback_exn(*cbx->cbp, v_row); if (Is_exception_result(v_ret)) { *cbx->exn = Extract_exception(v_ret); caml_enter_blocking_section(); return 1; } caml_enter_blocking_section(); return 0; } CAMLprim value caml_sqlite3_exec_no_headers(value v_db, value v_cb, value v_sql) { CAMLparam2(v_db, v_cb); CAMLlocal1(v_exn); callback_with_exn cbx; db_wrap *dbw = Sqlite3_val(v_db); int len = caml_string_length(v_sql) + 1; char *sql; int rc; check_db(dbw, "exec_no_headers"); sql = caml_stat_alloc(len); memcpy(sql, String_val(v_sql), len); cbx.cbp = &v_cb; cbx.exn = &v_exn; caml_enter_blocking_section(); rc = sqlite3_exec(dbw->db, sql, exec_callback_no_headers, (void *) &cbx, NULL); free(sql); caml_leave_blocking_section(); if (rc == SQLITE_ABORT) caml_raise(*cbx.exn); CAMLreturn(Val_rc(rc)); } static inline int exec_not_null_callback( void *cbx_, int num_columns, char **row, char **header) { callback_with_exn *cbx = cbx_; value v_row, v_header, v_ret; caml_leave_blocking_section(); v_row = copy_not_null_string_array((const char **) row, num_columns); if (v_row == (value) NULL) return 1; Begin_roots1(v_row); v_header = safe_copy_string_array((const char **) header, num_columns); End_roots(); v_ret = caml_callback2_exn(*cbx->cbp, v_row, v_header); if (Is_exception_result(v_ret)) { *cbx->exn = Extract_exception(v_ret); caml_enter_blocking_section(); return 1; } caml_enter_blocking_section(); return 0; } CAMLprim value caml_sqlite3_exec_not_null(value v_db, value v_cb, value v_sql) { CAMLparam2(v_db, v_cb); CAMLlocal1(v_exn); callback_with_exn cbx; db_wrap *dbw = Sqlite3_val(v_db); int len = caml_string_length(v_sql) + 1; char *sql; int rc; check_db(dbw, "exec_not_null"); sql = caml_stat_alloc(len); memcpy(sql, String_val(v_sql), len); cbx.cbp = &v_cb; cbx.exn = &v_exn; caml_enter_blocking_section(); rc = sqlite3_exec(dbw->db, sql, exec_not_null_callback, (void *) &cbx, NULL); free(sql); caml_leave_blocking_section(); if (rc == SQLITE_ABORT) { if (*cbx.exn != 0) caml_raise(*cbx.exn); else raise_sqlite3_Error("Null element in row"); } CAMLreturn(Val_rc(rc)); } static inline int exec_not_null_no_headers_callback( void *cbx_, int num_columns, char **row, char __unused **header) { callback_with_exn *cbx = cbx_; value v_row, v_ret; caml_leave_blocking_section(); v_row = copy_not_null_string_array((const char **) row, num_columns); if (v_row == (value) NULL) return 1; v_ret = caml_callback_exn(*cbx->cbp, v_row); if (Is_exception_result(v_ret)) { *cbx->exn = Extract_exception(v_ret); caml_enter_blocking_section(); return 1; } caml_enter_blocking_section(); return 0; } CAMLprim value caml_sqlite3_exec_not_null_no_headers( value v_db, value v_cb, value v_sql) { CAMLparam2(v_db, v_cb); CAMLlocal1(v_exn); callback_with_exn cbx; db_wrap *dbw = Sqlite3_val(v_db); int len = caml_string_length(v_sql) + 1; char *sql; int rc; check_db(dbw, "exec_not_null_no_headers"); sql = caml_stat_alloc(len); memcpy(sql, String_val(v_sql), len); cbx.cbp = &v_cb; cbx.exn = &v_exn; caml_enter_blocking_section(); rc = sqlite3_exec( dbw->db, sql, exec_not_null_no_headers_callback, (void *) &cbx, NULL); free(sql); caml_leave_blocking_section(); if (rc == SQLITE_ABORT) { if (*cbx.exn != 0) caml_raise(*cbx.exn); else raise_sqlite3_Error("Null element in row"); } CAMLreturn(Val_rc(rc)); } /* Statements */ static inline void finalize_stmt_gc(value v_stmt) { stmt_wrap *stmtw = Sqlite3_stmtw_val(v_stmt); sqlite3_stmt *stmt = stmtw->stmt; if (stmt) sqlite3_finalize(stmt); if (stmtw->sql) free(stmtw->sql); ref_count_finalize_dbw(stmtw->db_wrap); free(stmtw); } CAMLprim value caml_sqlite3_stmt_finalize(value v_stmt) { stmt_wrap *stmtw = safe_get_stmtw("finalize", v_stmt); int rc = sqlite3_finalize(stmtw->stmt); stmtw->stmt = NULL; return Val_rc(rc); } CAMLprim value caml_sqlite3_stmt_reset(value v_stmt) { sqlite3_stmt *stmt = safe_get_stmtw("reset", v_stmt)->stmt; return Val_rc(sqlite3_reset(stmt)); } static inline value alloc_stmt(db_wrap *dbw) { value v_stmt = caml_alloc_final(2, finalize_stmt_gc, 1, 100); stmt_wrap *stmtw; Sqlite3_stmtw_val(v_stmt) = NULL; stmtw = caml_stat_alloc(sizeof(stmt_wrap)); stmtw->db_wrap = dbw; dbw->ref_count++; stmtw->stmt = NULL; stmtw->sql = NULL; Sqlite3_stmtw_val(v_stmt) = stmtw; return v_stmt; } static inline void prepare_it( db_wrap *dbw, value v_stmt, const char *sql, int sql_len, char *loc) { int rc; stmt_wrap *stmtw = Sqlite3_stmtw_val(v_stmt); stmtw->sql = caml_stat_alloc(sql_len + 1); memcpy(stmtw->sql, sql, sql_len); stmtw->sql[sql_len] = '\0'; stmtw->sql_len = sql_len; rc = my_sqlite3_prepare(dbw->db, stmtw->sql, sql_len, &(stmtw->stmt), (const char **) &(stmtw->tail)); if (rc != SQLITE_OK) raise_sqlite3_current(dbw->db, loc); if (!stmtw->stmt) raise_sqlite3_Error("No code compiled from %s", sql); } CAMLprim value caml_sqlite3_prepare(value v_db, value v_sql) { CAMLparam2(v_db, v_sql); char *loc = "prepare"; db_wrap *dbw = Sqlite3_val(v_db); value v_stmt; check_db(dbw, loc); v_stmt = alloc_stmt(dbw); prepare_it(dbw, v_stmt, String_val(v_sql), caml_string_length(v_sql), loc); CAMLreturn(v_stmt); } CAMLprim value caml_sqlite3_prepare_tail(value v_stmt) { CAMLparam1(v_stmt); char *loc = "prepare_tail"; stmt_wrap *stmtw = Sqlite3_stmtw_val(v_stmt); if (stmtw->sql && stmtw->tail && *(stmtw->tail)) { db_wrap *dbw = stmtw->db_wrap; value v_new_stmt = alloc_stmt(dbw); int tail_len = stmtw->sql_len - (stmtw->tail - stmtw->sql); prepare_it(dbw, v_new_stmt, stmtw->tail, tail_len, loc); CAMLreturn(Val_Some(v_new_stmt)); } else CAMLreturn(Val_None); } CAMLprim value caml_sqlite3_recompile(value v_stmt) { CAMLparam1(v_stmt); stmt_wrap *stmtw = Sqlite3_stmtw_val(v_stmt); sqlite3_stmt *stmt = stmtw->stmt; int rc; if (stmt) { sqlite3_finalize(stmt); stmtw->stmt = NULL; } rc = my_sqlite3_prepare(stmtw->db_wrap->db, stmtw->sql, stmtw->sql_len, &(stmtw->stmt), (const char **) &(stmtw->tail)); if (rc != SQLITE_OK) raise_sqlite3_current(stmtw->db_wrap->db, "recompile"); else if (!stmtw->stmt) raise_sqlite3_Error("No code recompiled from %s", stmtw->sql); CAMLreturn(Val_unit); } CAMLprim value caml_sqlite3_bind_parameter_name(value v_stmt, value v_index) { CAMLparam1(v_stmt); sqlite3_stmt *stmt = safe_get_stmtw("bind_parameter_name", v_stmt)->stmt; int i = Int_val(v_index); range_check(i - 1, sqlite3_bind_parameter_count(stmt)); CAMLreturn(Val_string_option(sqlite3_bind_parameter_name(stmt, i))); } CAMLprim value caml_sqlite3_bind_parameter_index(value v_stmt, value v_name) { sqlite3_stmt *stmt = safe_get_stmtw("bind_parameter_index", v_stmt)->stmt; char *parm_name = String_val(v_name); int index = sqlite3_bind_parameter_index(stmt, parm_name); if (!index) caml_raise_not_found(); return Val_int(index); } CAMLprim value caml_sqlite3_bind_parameter_count(value v_stmt) { sqlite3_stmt *stmt = safe_get_stmtw("bind_parameter_count", v_stmt)->stmt; return Val_int(sqlite3_bind_parameter_count(stmt)); } CAMLprim value caml_sqlite3_bind(value v_stmt, value v_index, value v_data) { sqlite3_stmt *stmt = safe_get_stmtw("bind", v_stmt)->stmt; int i = Int_val(v_index); range_check(i - 1, sqlite3_bind_parameter_count(stmt)); if (Is_long(v_data)) { switch Int_val(v_data) { case 1 : return Val_rc(sqlite3_bind_null(stmt, i)); default : return Val_rc(SQLITE_ERROR); } } else { value v_field = Field(v_data, 0); switch (Tag_val(v_data)) { case 0 : return Val_rc(sqlite3_bind_int64(stmt, i, Int64_val(v_field))); case 1 : return Val_rc(sqlite3_bind_double(stmt, i, Double_val(v_field))); case 2 : return Val_rc(sqlite3_bind_text(stmt, i, String_val(v_field), caml_string_length(v_field), SQLITE_TRANSIENT)); case 3 : return Val_rc(sqlite3_bind_blob(stmt, i, String_val(v_field), caml_string_length(v_field), SQLITE_TRANSIENT)); } } return Val_rc(SQLITE_ERROR); } CAMLprim value caml_sqlite3_clear_bindings(value v_stmt) { sqlite3_stmt *stmt = safe_get_stmtw("clear_bindings", v_stmt)->stmt; return Val_rc(sqlite3_clear_bindings(stmt)); } CAMLprim value caml_sqlite3_column_name(value v_stmt, value v_index) { CAMLparam1(v_stmt); sqlite3_stmt *stmt = safe_get_stmtw("column_name", v_stmt)->stmt; int i = Int_val(v_index); range_check(i, sqlite3_column_count(stmt)); CAMLreturn(caml_copy_string(sqlite3_column_name(stmt, i))); } CAMLprim value caml_sqlite3_column_decltype(value v_stmt, value v_index) { CAMLparam1(v_stmt); sqlite3_stmt *stmt = safe_get_stmtw("column_decltype", v_stmt)->stmt; int i = Int_val(v_index); range_check(i, sqlite3_column_count(stmt)); CAMLreturn(Val_string_option(sqlite3_column_decltype(stmt, i))); } CAMLprim value caml_sqlite3_step(value v_stmt) { CAMLparam1(v_stmt); sqlite3_stmt *stmt = safe_get_stmtw("step", v_stmt)->stmt; int rc; caml_enter_blocking_section(); rc = sqlite3_step(stmt); caml_leave_blocking_section(); CAMLreturn(Val_rc(rc)); } CAMLprim value caml_sqlite3_data_count(value v_stmt) { sqlite3_stmt *stmt = safe_get_stmtw("data_count", v_stmt)->stmt; return Val_int(sqlite3_data_count(stmt)); } CAMLprim value caml_sqlite3_column_count(value v_stmt) { sqlite3_stmt *stmt = safe_get_stmtw("column_count", v_stmt)->stmt; return Val_int(sqlite3_column_count(stmt)); } CAMLprim value caml_sqlite3_column(value v_stmt, value v_index) { CAMLparam1(v_stmt); CAMLlocal1(v_tmp); value v_res; sqlite3_stmt *stmt = safe_get_stmtw("column", v_stmt)->stmt; int len, i = Int_val(v_index); range_check(i, sqlite3_column_count(stmt)); switch (sqlite3_column_type(stmt, i)) { case SQLITE_INTEGER : v_tmp = caml_copy_int64(sqlite3_column_int64(stmt, i)); v_res = caml_alloc_small(1, 0); Field(v_res, 0) = v_tmp; break; case SQLITE_FLOAT : v_tmp = caml_copy_double(sqlite3_column_double(stmt, i)); v_res = caml_alloc_small(1, 1); Field(v_res, 0) = v_tmp; break; case SQLITE3_TEXT : len = sqlite3_column_bytes(stmt, i); v_tmp = caml_alloc_string(len); memcpy(String_val(v_tmp), (char *) sqlite3_column_text(stmt, i), len); v_res = caml_alloc_small(1, 2); Field(v_res, 0) = v_tmp; break; case SQLITE_BLOB : len = sqlite3_column_bytes(stmt, i); v_tmp = caml_alloc_string(len); memcpy(String_val(v_tmp), (char *) sqlite3_column_blob(stmt, i), len); v_res = caml_alloc_small(1, 3); Field(v_res, 0) = v_tmp; break; case SQLITE_NULL : v_res = Val_int(1); break; default: v_res = Val_None; } CAMLreturn(v_res); } CAMLprim value caml_sqlite3_sleep(value v_duration) { int res; caml_enter_blocking_section(); res = sqlite3_sleep(Int_val(v_duration)); caml_leave_blocking_section(); return Val_int(res); } /* User-defined functions */ static inline value caml_sqlite3_wrap_values(int argc, sqlite3_value **args) { if (argc <= 0 || args == NULL) return Atom(0); else { int i, len; CAMLparam0(); CAMLlocal2(v_arr, v_tmp); value v_res; v_arr = caml_alloc(argc, 0); for (i = 0; i < argc; ++i) { sqlite3_value *arg = args[i]; switch (sqlite3_value_type(arg)) { case SQLITE_INTEGER : v_tmp = caml_copy_int64(sqlite3_value_int64(arg)); v_res = caml_alloc_small(1, 0); Field(v_res, 0) = v_tmp; break; case SQLITE_FLOAT : v_tmp = caml_copy_double(sqlite3_value_double(arg)); v_res = caml_alloc_small(1, 1); Field(v_res, 0) = v_tmp; break; case SQLITE3_TEXT : len = sqlite3_value_bytes(arg); v_tmp = caml_alloc_string(len); memcpy(String_val(v_tmp), (char *) sqlite3_value_text(arg), len); v_res = caml_alloc_small(1, 2); Field(v_res, 0) = v_tmp; break; case SQLITE_BLOB : len = sqlite3_value_bytes(arg); v_tmp = caml_alloc_string(len); memcpy(String_val(v_tmp), (char *) sqlite3_value_blob(arg), len); v_res = caml_alloc_small(1, 3); Field(v_res, 0) = v_tmp; break; case SQLITE_NULL : v_res = Val_int(1); break; default: v_res = Val_None; } Store_field(v_arr, i, v_res); } CAMLreturn(v_arr); } } static inline void exception_result(sqlite3_context *ctx) { sqlite3_result_error(ctx, "OCaml callback raised an exception", -1); } static inline void set_sqlite3_result(sqlite3_context *ctx, value v_res) { if (Is_exception_result(v_res)) exception_result(ctx); else if (Is_long(v_res)) sqlite3_result_null(ctx); else { value v = Field(v_res, 0); switch (Tag_val(v_res)) { case 0 : sqlite3_result_int64(ctx, Int64_val(v)); break; case 1 : sqlite3_result_double(ctx, Double_val(v)); break; case 2 : sqlite3_result_text( ctx, String_val(v), caml_string_length(v), SQLITE_TRANSIENT); break; case 3 : sqlite3_result_blob( ctx, String_val(v), caml_string_length(v), SQLITE_TRANSIENT); break; default : sqlite3_result_error(ctx, "unknown value returned by callback", -1); } } } static inline void caml_sqlite3_user_function(sqlite3_context *ctx, int argc, sqlite3_value **argv) { user_function *data = sqlite3_user_data(ctx); value v_args, v_res; caml_leave_blocking_section(); v_args = caml_sqlite3_wrap_values(argc, argv); v_res = caml_callback_exn(Field(data->v_fun, 1), v_args); set_sqlite3_result(ctx, v_res); caml_enter_blocking_section(); } typedef struct agg_ctx { int initialized; value v_acc; } agg_ctx; static inline void caml_sqlite3_user_function_step( sqlite3_context *ctx, int argc, sqlite3_value **argv) { value v_args, v_res; user_function *data = sqlite3_user_data(ctx); agg_ctx *agg_ctx = sqlite3_aggregate_context(ctx, sizeof(agg_ctx)); caml_leave_blocking_section(); if (!agg_ctx->initialized) { agg_ctx->v_acc = Field(data->v_fun, 1); /* Not a generational global root, because it is hard to imagine that there will ever be more than at most a few instances (quite probably only one in most cases). */ caml_register_global_root(&agg_ctx->v_acc); agg_ctx->initialized = 1; } v_args = caml_sqlite3_wrap_values(argc, argv); v_res = caml_callback2_exn(Field(data->v_fun, 2), agg_ctx->v_acc, v_args); if (Is_exception_result(v_res)) exception_result(ctx); else agg_ctx->v_acc = v_res; caml_enter_blocking_section(); } static inline void caml_sqlite3_user_function_final(sqlite3_context *ctx) { user_function *data = sqlite3_user_data(ctx); agg_ctx *agg_ctx = sqlite3_aggregate_context(ctx, sizeof(agg_ctx)); value v_res; caml_leave_blocking_section(); v_res = caml_callback_exn(Field(data->v_fun, 3), agg_ctx->v_acc); set_sqlite3_result(ctx, v_res); caml_remove_global_root(&agg_ctx->v_acc); caml_enter_blocking_section(); } static inline void unregister_user_function(db_wrap *db_data, value v_name) { user_function *prev = NULL, *link = db_data->user_functions; char *name = String_val(v_name); while (link != NULL) { if (strcmp(String_val(Field(link->v_fun, 0)), name) == 0) { if (prev == NULL) db_data->user_functions = link->next; else prev->next = link->next; caml_remove_generational_global_root(&link->v_fun); free(link); break; } prev = link; link = link->next; } } static inline user_function * register_user_function( db_wrap *db_data, value v_cell) { /* Assume parameters are already protected */ user_function *link = caml_stat_alloc(sizeof *link); link->v_fun = v_cell; link->next = db_data->user_functions; caml_register_generational_global_root(&link->v_fun); db_data->user_functions = link; return link; } static inline user_function * register_scalar_user_function( db_wrap *db_data, value v_name, value v_fun) { /* Assume parameters are already protected */ value v_cell = caml_alloc_small(2, 0); Field(v_cell, 0) = v_name; Field(v_cell, 1) = v_fun; return register_user_function(db_data, v_cell); } static inline user_function * register_aggregate_user_function( db_wrap *db_data, value v_name, value v_init, value v_step, value v_final) { /* Assume parameters are already protected */ value v_cell = caml_alloc_small(4, 0); Field(v_cell, 0) = v_name; Field(v_cell, 1) = v_init; Field(v_cell, 2) = v_step; Field(v_cell, 3) = v_final; return register_user_function(db_data, v_cell); } CAMLprim value caml_sqlite3_create_function( value v_db, value v_name, value v_n_args, value v_fun) { CAMLparam3(v_db, v_name, v_fun); user_function *param; int rc; db_wrap *dbw = Sqlite3_val(v_db); check_db(dbw, "create_function"); param = register_scalar_user_function(dbw, v_name, v_fun); rc = sqlite3_create_function(dbw->db, String_val(v_name), Int_val(v_n_args), SQLITE_UTF8, param, caml_sqlite3_user_function, NULL, NULL); if (rc != SQLITE_OK) { unregister_user_function(dbw, v_name); raise_sqlite3_current(dbw->db, "create_function"); } CAMLreturn(Val_unit); } CAMLprim value caml_sqlite3_create_aggregate_function_nc( value v_db, value v_name, value v_n_args, value v_init, value v_stepfn, value v_finalfn) { CAMLparam4(v_db, v_name, v_stepfn, v_finalfn); user_function *param; int rc; db_wrap *dbw = Sqlite3_val(v_db); check_db(dbw, "create_aggregate_function"); param = register_aggregate_user_function(dbw, v_name, v_init, v_stepfn, v_finalfn); rc = sqlite3_create_function(dbw->db, String_val(v_name), Int_val(v_n_args), SQLITE_UTF8, param, NULL, caml_sqlite3_user_function_step, caml_sqlite3_user_function_final); if (rc != SQLITE_OK) { unregister_user_function(dbw, v_name); raise_sqlite3_current(dbw->db, "create_aggregate_function"); } CAMLreturn(Val_unit); } CAMLprim value caml_sqlite3_create_aggregate_function_bc( value *argv, int __unused argn) { return caml_sqlite3_create_aggregate_function_nc( argv[0], argv[1], argv[2], argv[3], argv[4], argv[5]); } CAMLprim value caml_sqlite3_delete_function(value v_db, value v_name) { int rc; db_wrap *dbw = Sqlite3_val(v_db); check_db(dbw, "delete_function"); rc = sqlite3_create_function(dbw->db, String_val(v_name), 0, SQLITE_UTF8, NULL, NULL, NULL, NULL); if (rc != SQLITE_OK) raise_sqlite3_current(dbw->db, "delete_function"); unregister_user_function(dbw, v_name); return Val_unit; } CAMLprim value caml_sqlite3_busy_timeout(value v_db, value v_ms) { int rc; db_wrap *dbw = Sqlite3_val(v_db); check_db(dbw, "busy_timeout"); rc = sqlite3_busy_timeout(dbw->db, Int_val(v_ms)); if (rc != SQLITE_OK) raise_sqlite3_current(dbw->db, "busy_timeout"); return Val_unit; } CAMLprim value caml_sqlite3_changes(value v_db) { db_wrap *dbw = Sqlite3_val(v_db); check_db(dbw, "changes"); return Val_int(sqlite3_changes(dbw->db)); } sqlite3-ocaml-2.0.5/myocamlbuild.ml0000644000000000000000000004630012253667662015356 0ustar 00000000000000(* OASIS_START *) (* DO NOT EDIT (digest: 6a3109c001e970f1389c435d8acec86c) *) module OASISGettext = struct (* # 22 "src/oasis/OASISGettext.ml" *) let ns_ str = str let s_ str = str let f_ (str: ('a, 'b, 'c, 'd) format4) = str let fn_ fmt1 fmt2 n = if n = 1 then fmt1^^"" else fmt2^^"" let init = [] end module OASISExpr = struct (* # 22 "src/oasis/OASISExpr.ml" *) open OASISGettext type test = string type flag = string type t = | EBool of bool | ENot of t | EAnd of t * t | EOr of t * t | EFlag of flag | ETest of test * string type 'a choices = (t * 'a) list let eval var_get t = let rec eval' = function | EBool b -> b | ENot e -> not (eval' e) | EAnd (e1, e2) -> (eval' e1) && (eval' e2) | EOr (e1, e2) -> (eval' e1) || (eval' e2) | EFlag nm -> let v = var_get nm in assert(v = "true" || v = "false"); (v = "true") | ETest (nm, vl) -> let v = var_get nm in (v = vl) in eval' t let choose ?printer ?name var_get lst = let rec choose_aux = function | (cond, vl) :: tl -> if eval var_get cond then vl else choose_aux tl | [] -> let str_lst = if lst = [] then s_ "" else String.concat (s_ ", ") (List.map (fun (cond, vl) -> match printer with | Some p -> p vl | None -> s_ "") lst) in match name with | Some nm -> failwith (Printf.sprintf (f_ "No result for the choice list '%s': %s") nm str_lst) | None -> failwith (Printf.sprintf (f_ "No result for a choice list: %s") str_lst) in choose_aux (List.rev lst) end # 132 "myocamlbuild.ml" module BaseEnvLight = struct (* # 22 "src/base/BaseEnvLight.ml" *) module MapString = Map.Make(String) type t = string MapString.t let default_filename = Filename.concat (Sys.getcwd ()) "setup.data" let load ?(allow_empty=false) ?(filename=default_filename) () = if Sys.file_exists filename then begin let chn = open_in_bin filename in let st = Stream.of_channel chn in let line = ref 1 in let st_line = Stream.from (fun _ -> try match Stream.next st with | '\n' -> incr line; Some '\n' | c -> Some c with Stream.Failure -> None) in let lexer = Genlex.make_lexer ["="] st_line in let rec read_file mp = match Stream.npeek 3 lexer with | [Genlex.Ident nm; Genlex.Kwd "="; Genlex.String value] -> Stream.junk lexer; Stream.junk lexer; Stream.junk lexer; read_file (MapString.add nm value mp) | [] -> mp | _ -> failwith (Printf.sprintf "Malformed data file '%s' line %d" filename !line) in let mp = read_file MapString.empty in close_in chn; mp end else if allow_empty then begin MapString.empty end else begin failwith (Printf.sprintf "Unable to load environment, the file '%s' doesn't exist." filename) end let var_get name env = let rec var_expand str = let buff = Buffer.create ((String.length str) * 2) in Buffer.add_substitute buff (fun var -> try var_expand (MapString.find var env) with Not_found -> failwith (Printf.sprintf "No variable %s defined when trying to expand %S." var str)) str; Buffer.contents buff in var_expand (MapString.find name env) let var_choose lst env = OASISExpr.choose (fun nm -> var_get nm env) lst end # 236 "myocamlbuild.ml" module MyOCamlbuildFindlib = struct (* # 22 "src/plugins/ocamlbuild/MyOCamlbuildFindlib.ml" *) (** OCamlbuild extension, copied from * http://brion.inria.fr/gallium/index.php/Using_ocamlfind_with_ocamlbuild * by N. Pouillard and others * * Updated on 2009/02/28 * * Modified by Sylvain Le Gall *) open Ocamlbuild_plugin (* these functions are not really officially exported *) let run_and_read = Ocamlbuild_pack.My_unix.run_and_read let blank_sep_strings = Ocamlbuild_pack.Lexers.blank_sep_strings let split s ch = let buf = Buffer.create 13 in let x = ref [] in let flush () = x := (Buffer.contents buf) :: !x; Buffer.clear buf in String.iter (fun c -> if c = ch then flush () else Buffer.add_char buf c) s; flush (); List.rev !x let split_nl s = split s '\n' let before_space s = try String.before s (String.index s ' ') with Not_found -> s (* ocamlfind command *) let ocamlfind x = let ocamlfind_prog = let env_filename = Pathname.basename BaseEnvLight.default_filename in let env = BaseEnvLight.load ~filename:env_filename ~allow_empty:true () in try BaseEnvLight.var_get "ocamlfind" env with Not_found -> Printf.eprintf "W: Cannot get variable ocamlfind"; "ocamlfind" in S[Sh ocamlfind_prog; x] (* This lists all supported packages. *) let find_packages () = List.map before_space (split_nl & run_and_read "ocamlfind list") (* Mock to list available syntaxes. *) let find_syntaxes () = ["camlp4o"; "camlp4r"] let dispatch = function | Before_options -> (* By using Before_options one let command line options have an higher * priority on the contrary using After_options will guarantee to have * the higher priority override default commands by ocamlfind ones *) Options.ocamlc := ocamlfind & A"ocamlc"; Options.ocamlopt := ocamlfind & A"ocamlopt"; Options.ocamldep := ocamlfind & A"ocamldep"; Options.ocamldoc := ocamlfind & A"ocamldoc"; Options.ocamlmktop := ocamlfind & A"ocamlmktop"; Options.ocamlmklib := ocamlfind & A"ocamlmklib" | After_rules -> (* When one link an OCaml library/binary/package, one should use * -linkpkg *) flag ["ocaml"; "link"; "program"] & A"-linkpkg"; (* For each ocamlfind package one inject the -package option when * compiling, computing dependencies, generating documentation and * linking. *) List.iter begin fun pkg -> let base_args = [A"-package"; A pkg] in let syn_args = [A"-syntax"; A "camlp4o"] in let args = (* Heuristic to identify syntax extensions: whether they end in * ".syntax"; some might not *) if Filename.check_suffix pkg "syntax" then syn_args @ base_args else base_args in flag ["ocaml"; "compile"; "pkg_"^pkg] & S args; flag ["ocaml"; "ocamldep"; "pkg_"^pkg] & S args; flag ["ocaml"; "doc"; "pkg_"^pkg] & S args; flag ["ocaml"; "link"; "pkg_"^pkg] & S base_args; flag ["ocaml"; "infer_interface"; "pkg_"^pkg] & S args; end (find_packages ()); (* Like -package but for extensions syntax. Morover -syntax is useless * when linking. *) List.iter begin fun syntax -> flag ["ocaml"; "compile"; "syntax_"^syntax] & S[A"-syntax"; A syntax]; flag ["ocaml"; "ocamldep"; "syntax_"^syntax] & S[A"-syntax"; A syntax]; flag ["ocaml"; "doc"; "syntax_"^syntax] & S[A"-syntax"; A syntax]; flag ["ocaml"; "infer_interface"; "syntax_"^syntax] & S[A"-syntax"; A syntax]; end (find_syntaxes ()); (* The default "thread" tag is not compatible with ocamlfind. * Indeed, the default rules add the "threads.cma" or "threads.cmxa" * options when using this tag. When using the "-linkpkg" option with * ocamlfind, this module will then be added twice on the command line. * * To solve this, one approach is to add the "-thread" option when using * the "threads" package using the previous plugin. *) flag ["ocaml"; "pkg_threads"; "compile"] (S[A "-thread"]); flag ["ocaml"; "pkg_threads"; "doc"] (S[A "-I"; A "+threads"]); flag ["ocaml"; "pkg_threads"; "link"] (S[A "-thread"]); flag ["ocaml"; "pkg_threads"; "infer_interface"] (S[A "-thread"]) | _ -> () end module MyOCamlbuildBase = struct (* # 22 "src/plugins/ocamlbuild/MyOCamlbuildBase.ml" *) (** Base functions for writing myocamlbuild.ml @author Sylvain Le Gall *) open Ocamlbuild_plugin module OC = Ocamlbuild_pack.Ocaml_compiler type dir = string type file = string type name = string type tag = string (* # 62 "src/plugins/ocamlbuild/MyOCamlbuildBase.ml" *) type t = { lib_ocaml: (name * dir list * string list) list; lib_c: (name * dir * file list) list; flags: (tag list * (spec OASISExpr.choices)) list; (* Replace the 'dir: include' from _tags by a precise interdepends in * directory. *) includes: (dir * dir list) list; } let env_filename = Pathname.basename BaseEnvLight.default_filename let dispatch_combine lst = fun e -> List.iter (fun dispatch -> dispatch e) lst let tag_libstubs nm = "use_lib"^nm^"_stubs" let nm_libstubs nm = nm^"_stubs" let dispatch t e = let env = BaseEnvLight.load ~filename:env_filename ~allow_empty:true () in match e with | Before_options -> let no_trailing_dot s = if String.length s >= 1 && s.[0] = '.' then String.sub s 1 ((String.length s) - 1) else s in List.iter (fun (opt, var) -> try opt := no_trailing_dot (BaseEnvLight.var_get var env) with Not_found -> Printf.eprintf "W: Cannot get variable %s" var) [ Options.ext_obj, "ext_obj"; Options.ext_lib, "ext_lib"; Options.ext_dll, "ext_dll"; ] | After_rules -> (* Declare OCaml libraries *) List.iter (function | nm, [], intf_modules -> ocaml_lib nm; let cmis = List.map (fun m -> (String.uncapitalize m) ^ ".cmi") intf_modules in dep ["ocaml"; "link"; "library"; "file:"^nm^".cma"] cmis | nm, dir :: tl, intf_modules -> ocaml_lib ~dir:dir (dir^"/"^nm); List.iter (fun dir -> List.iter (fun str -> flag ["ocaml"; "use_"^nm; str] (S[A"-I"; P dir])) ["compile"; "infer_interface"; "doc"]) tl; let cmis = List.map (fun m -> dir^"/"^(String.uncapitalize m)^".cmi") intf_modules in dep ["ocaml"; "link"; "library"; "file:"^dir^"/"^nm^".cma"] cmis) t.lib_ocaml; (* Declare directories dependencies, replace "include" in _tags. *) List.iter (fun (dir, include_dirs) -> Pathname.define_context dir include_dirs) t.includes; (* Declare C libraries *) List.iter (fun (lib, dir, headers) -> (* Handle C part of library *) flag ["link"; "library"; "ocaml"; "byte"; tag_libstubs lib] (S[A"-dllib"; A("-l"^(nm_libstubs lib)); A"-cclib"; A("-l"^(nm_libstubs lib))]); flag ["link"; "library"; "ocaml"; "native"; tag_libstubs lib] (S[A"-cclib"; A("-l"^(nm_libstubs lib))]); flag ["link"; "program"; "ocaml"; "byte"; tag_libstubs lib] (S[A"-dllib"; A("dll"^(nm_libstubs lib))]); (* When ocaml link something that use the C library, then one need that file to be up to date. *) dep ["link"; "ocaml"; "program"; tag_libstubs lib] [dir/"lib"^(nm_libstubs lib)^"."^(!Options.ext_lib)]; dep ["compile"; "ocaml"; "program"; tag_libstubs lib] [dir/"lib"^(nm_libstubs lib)^"."^(!Options.ext_lib)]; (* TODO: be more specific about what depends on headers *) (* Depends on .h files *) dep ["compile"; "c"] headers; (* Setup search path for lib *) flag ["link"; "ocaml"; "use_"^lib] (S[A"-I"; P(dir)]); ) t.lib_c; (* Add flags *) List.iter (fun (tags, cond_specs) -> let spec = BaseEnvLight.var_choose cond_specs env in flag tags & spec) t.flags | _ -> () let dispatch_default t = dispatch_combine [ dispatch t; MyOCamlbuildFindlib.dispatch; ] end # 550 "myocamlbuild.ml" open Ocamlbuild_plugin;; let package_default = { MyOCamlbuildBase.lib_ocaml = [("sqlite3", ["lib"], [])]; lib_c = [("sqlite3", "lib", [])]; flags = [ (["oasis_library_sqlite3_ccopt"; "compile"], [ (OASISExpr.EBool true, S [ A "-ccopt"; A "-g"; A "-ccopt"; A "-O2"; A "-ccopt"; A "-fPIC"; A "-ccopt"; A "-DPIC" ]); (OASISExpr.EAnd (OASISExpr.EFlag "strict", OASISExpr.ETest ("ccomp_type", "cc")), S [ A "-ccopt"; A "-g"; A "-ccopt"; A "-O2"; A "-ccopt"; A "-fPIC"; A "-ccopt"; A "-DPIC"; A "-ccopt"; A "-Wall"; A "-ccopt"; A "-pedantic"; A "-ccopt"; A "-Wextra"; A "-ccopt"; A "-Wunused"; A "-ccopt"; A "-Wno-long-long" ]) ]); (["oasis_library_sqlite3_cclib"; "link"], [(OASISExpr.EBool true, S [A "-cclib"; A "-lsqlite3"])]); (["oasis_library_sqlite3_cclib"; "ocamlmklib"; "c"], [(OASISExpr.EBool true, S [A "-lsqlite3"])]) ]; includes = [("test", ["lib"])] } ;; let dispatch_default = MyOCamlbuildBase.dispatch_default package_default;; # 609 "myocamlbuild.ml" (* OASIS_STOP *) let read_lines_from_cmd ~max_lines cmd = let ic = Unix.open_process_in cmd in let lines_ref = ref [] in let rec loop n = if n <= 0 then () else begin lines_ref := input_line ic :: !lines_ref; loop (n - 1) end in begin try loop max_lines with | End_of_file -> () | exc -> close_in_noerr ic; raise exc end; close_in ic; List.rev !lines_ref (* TODO: remove once split-function in generated code is fixed *) let rec split_string s = match try Some (String.index s ' ') with Not_found -> None with | Some pos -> String.before s pos :: split_string (String.after s (pos + 1)) | None -> [s] (* string_trim taken from OCaml 4.00 standard library (String.trim) *) let is_space = function | ' ' | '\012' | '\n' | '\r' | '\t' -> true | _ -> false let string_trim s = let len = String.length s in let i = ref 0 in while !i < len && is_space s.[!i] do incr i done; let j = ref (len - 1) in while !j >= !i && is_space s.[!j] do decr j done; if !i = 0 && !j = len - 1 then s else if !j >= !i then String.sub s !i (!j - !i + 1) else "" let () = let additional_rules = function | After_rules -> (* Add correct SQLite3 compilation and link flags *) let rec split_string s = match try Some (String.index s ' ') with Not_found -> None with | Some pos -> let before = string_trim (String.before s pos) in let after = String.after s (pos + 1) in if before = "" then split_string after else before :: split_string after | None when s = "" -> [] | None -> [s] in let ocamlify ~ocaml_flag flags = let chunks = split_string flags in let cnv flag = [A ocaml_flag; A flag] in List.concat (List.map cnv chunks) in let split_flags flags = let chunks = split_string flags in let cnv flag = A flag in List.map cnv chunks in let osqlite3_cflags = let cmd = "pkg-config --cflags sqlite3" in match read_lines_from_cmd ~max_lines:1 cmd with | [cflags] -> S (ocamlify ~ocaml_flag:"-ccopt" cflags) | _ -> failwith "pkg-config failed for cflags" in let sqlite3_clibs, osqlite3_clibs = let cmd = "pkg-config --libs sqlite3" in match read_lines_from_cmd ~max_lines:1 cmd with | [libs] -> S (split_flags libs), S (ocamlify ~ocaml_flag:"-cclib" libs) | _ -> failwith "pkg-config failed for libs" in flag ["compile"; "c"] osqlite3_cflags; flag ["link"; "ocaml"; "library"] osqlite3_clibs; flag ["oasis_library_sqlite3_cclib"; "ocamlmklib"; "c"] sqlite3_clibs; flag ["oasis_library_sqlite3_cclib"; "link"] osqlite3_clibs | _ -> () in dispatch ( MyOCamlbuildBase.dispatch_combine [MyOCamlbuildBase.dispatch_default package_default; additional_rules]) sqlite3-ocaml-2.0.5/setup.ml0000644000000000000000000057657612253667662014064 0ustar 00000000000000(* setup.ml generated for the first time by OASIS v0.3.0 *) (* OASIS_START *) (* DO NOT EDIT (digest: 6088e3014e1fb467fa241b7ffdace563) *) (* Regenerated by OASIS v0.4.0 Visit http://oasis.forge.ocamlcore.org for more information and documentation about functions used in this file. *) module OASISGettext = struct (* # 22 "src/oasis/OASISGettext.ml" *) let ns_ str = str let s_ str = str let f_ (str: ('a, 'b, 'c, 'd) format4) = str let fn_ fmt1 fmt2 n = if n = 1 then fmt1^^"" else fmt2^^"" let init = [] end module OASISContext = struct (* # 22 "src/oasis/OASISContext.ml" *) open OASISGettext type level = [ `Debug | `Info | `Warning | `Error] type t = { quiet: bool; info: bool; debug: bool; ignore_plugins: bool; ignore_unknown_fields: bool; printf: level -> string -> unit; } let printf lvl str = let beg = match lvl with | `Error -> s_ "E: " | `Warning -> s_ "W: " | `Info -> s_ "I: " | `Debug -> s_ "D: " in prerr_endline (beg^str) let default = ref { quiet = false; info = false; debug = false; ignore_plugins = false; ignore_unknown_fields = false; printf = printf; } let quiet = {!default with quiet = true} let args () = ["-quiet", Arg.Unit (fun () -> default := {!default with quiet = true}), (s_ " Run quietly"); "-info", Arg.Unit (fun () -> default := {!default with info = true}), (s_ " Display information message"); "-debug", Arg.Unit (fun () -> default := {!default with debug = true}), (s_ " Output debug message")] end module OASISString = struct (* # 22 "src/oasis/OASISString.ml" *) (** Various string utilities. Mostly inspired by extlib and batteries ExtString and BatString libraries. @author Sylvain Le Gall *) let nsplitf str f = if str = "" then [] else let buf = Buffer.create 13 in let lst = ref [] in let push () = lst := Buffer.contents buf :: !lst; Buffer.clear buf in let str_len = String.length str in for i = 0 to str_len - 1 do if f str.[i] then push () else Buffer.add_char buf str.[i] done; push (); List.rev !lst (** [nsplit c s] Split the string [s] at char [c]. It doesn't include the separator. *) let nsplit str c = nsplitf str ((=) c) let find ~what ?(offset=0) str = let what_idx = ref 0 in let str_idx = ref offset in while !str_idx < String.length str && !what_idx < String.length what do if str.[!str_idx] = what.[!what_idx] then incr what_idx else what_idx := 0; incr str_idx done; if !what_idx <> String.length what then raise Not_found else !str_idx - !what_idx let sub_start str len = let str_len = String.length str in if len >= str_len then "" else String.sub str len (str_len - len) let sub_end ?(offset=0) str len = let str_len = String.length str in if len >= str_len then "" else String.sub str 0 (str_len - len) let starts_with ~what ?(offset=0) str = let what_idx = ref 0 in let str_idx = ref offset in let ok = ref true in while !ok && !str_idx < String.length str && !what_idx < String.length what do if str.[!str_idx] = what.[!what_idx] then incr what_idx else ok := false; incr str_idx done; if !what_idx = String.length what then true else false let strip_starts_with ~what str = if starts_with ~what str then sub_start str (String.length what) else raise Not_found let ends_with ~what ?(offset=0) str = let what_idx = ref ((String.length what) - 1) in let str_idx = ref ((String.length str) - 1) in let ok = ref true in while !ok && offset <= !str_idx && 0 <= !what_idx do if str.[!str_idx] = what.[!what_idx] then decr what_idx else ok := false; decr str_idx done; if !what_idx = -1 then true else false let strip_ends_with ~what str = if ends_with ~what str then sub_end str (String.length what) else raise Not_found let replace_chars f s = let buf = String.make (String.length s) 'X' in for i = 0 to String.length s - 1 do buf.[i] <- f s.[i] done; buf end module OASISUtils = struct (* # 22 "src/oasis/OASISUtils.ml" *) open OASISGettext module MapString = Map.Make(String) let map_string_of_assoc assoc = List.fold_left (fun acc (k, v) -> MapString.add k v acc) MapString.empty assoc module SetString = Set.Make(String) let set_string_add_list st lst = List.fold_left (fun acc e -> SetString.add e acc) st lst let set_string_of_list = set_string_add_list SetString.empty let compare_csl s1 s2 = String.compare (String.lowercase s1) (String.lowercase s2) module HashStringCsl = Hashtbl.Make (struct type t = string let equal s1 s2 = (String.lowercase s1) = (String.lowercase s2) let hash s = Hashtbl.hash (String.lowercase s) end) let varname_of_string ?(hyphen='_') s = if String.length s = 0 then begin invalid_arg "varname_of_string" end else begin let buf = OASISString.replace_chars (fun c -> if ('a' <= c && c <= 'z') || ('A' <= c && c <= 'Z') || ('0' <= c && c <= '9') then c else hyphen) s; in let buf = (* Start with a _ if digit *) if '0' <= s.[0] && s.[0] <= '9' then "_"^buf else buf in String.lowercase buf end let varname_concat ?(hyphen='_') p s = let what = String.make 1 hyphen in let p = try OASISString.strip_ends_with ~what p with Not_found -> p in let s = try OASISString.strip_starts_with ~what s with Not_found -> s in p^what^s let is_varname str = str = varname_of_string str let failwithf fmt = Printf.ksprintf failwith fmt end module PropList = struct (* # 22 "src/oasis/PropList.ml" *) open OASISGettext type name = string exception Not_set of name * string option exception No_printer of name exception Unknown_field of name * name let () = Printexc.register_printer (function | Not_set (nm, Some rsn) -> Some (Printf.sprintf (f_ "Field '%s' is not set: %s") nm rsn) | Not_set (nm, None) -> Some (Printf.sprintf (f_ "Field '%s' is not set") nm) | No_printer nm -> Some (Printf.sprintf (f_ "No default printer for value %s") nm) | Unknown_field (nm, schm) -> Some (Printf.sprintf (f_ "Field %s is not defined in schema %s") nm schm) | _ -> None) module Data = struct type t = (name, unit -> unit) Hashtbl.t let create () = Hashtbl.create 13 let clear t = Hashtbl.clear t (* # 78 "src/oasis/PropList.ml" *) end module Schema = struct type ('ctxt, 'extra) value = { get: Data.t -> string; set: Data.t -> ?context:'ctxt -> string -> unit; help: (unit -> string) option; extra: 'extra; } type ('ctxt, 'extra) t = { name: name; fields: (name, ('ctxt, 'extra) value) Hashtbl.t; order: name Queue.t; name_norm: string -> string; } let create ?(case_insensitive=false) nm = { name = nm; fields = Hashtbl.create 13; order = Queue.create (); name_norm = (if case_insensitive then String.lowercase else fun s -> s); } let add t nm set get extra help = let key = t.name_norm nm in if Hashtbl.mem t.fields key then failwith (Printf.sprintf (f_ "Field '%s' is already defined in schema '%s'") nm t.name); Hashtbl.add t.fields key { set = set; get = get; help = help; extra = extra; }; Queue.add nm t.order let mem t nm = Hashtbl.mem t.fields nm let find t nm = try Hashtbl.find t.fields (t.name_norm nm) with Not_found -> raise (Unknown_field (nm, t.name)) let get t data nm = (find t nm).get data let set t data nm ?context x = (find t nm).set data ?context x let fold f acc t = Queue.fold (fun acc k -> let v = find t k in f acc k v.extra v.help) acc t.order let iter f t = fold (fun () -> f) () t let name t = t.name end module Field = struct type ('ctxt, 'value, 'extra) t = { set: Data.t -> ?context:'ctxt -> 'value -> unit; get: Data.t -> 'value; sets: Data.t -> ?context:'ctxt -> string -> unit; gets: Data.t -> string; help: (unit -> string) option; extra: 'extra; } let new_id = let last_id = ref 0 in fun () -> incr last_id; !last_id let create ?schema ?name ?parse ?print ?default ?update ?help extra = (* Default value container *) let v = ref None in (* If name is not given, create unique one *) let nm = match name with | Some s -> s | None -> Printf.sprintf "_anon_%d" (new_id ()) in (* Last chance to get a value: the default *) let default () = match default with | Some d -> d | None -> raise (Not_set (nm, Some (s_ "no default value"))) in (* Get data *) let get data = (* Get value *) try (Hashtbl.find data nm) (); match !v with | Some x -> x | None -> default () with Not_found -> default () in (* Set data *) let set data ?context x = let x = match update with | Some f -> begin try f ?context (get data) x with Not_set _ -> x end | None -> x in Hashtbl.replace data nm (fun () -> v := Some x) in (* Parse string value, if possible *) let parse = match parse with | Some f -> f | None -> fun ?context s -> failwith (Printf.sprintf (f_ "Cannot parse field '%s' when setting value %S") nm s) in (* Set data, from string *) let sets data ?context s = set ?context data (parse ?context s) in (* Output value as string, if possible *) let print = match print with | Some f -> f | None -> fun _ -> raise (No_printer nm) in (* Get data, as a string *) let gets data = print (get data) in begin match schema with | Some t -> Schema.add t nm sets gets extra help | None -> () end; { set = set; get = get; sets = sets; gets = gets; help = help; extra = extra; } let fset data t ?context x = t.set data ?context x let fget data t = t.get data let fsets data t ?context s = t.sets data ?context s let fgets data t = t.gets data end module FieldRO = struct let create ?schema ?name ?parse ?print ?default ?update ?help extra = let fld = Field.create ?schema ?name ?parse ?print ?default ?update ?help extra in fun data -> Field.fget data fld end end module OASISMessage = struct (* # 22 "src/oasis/OASISMessage.ml" *) open OASISGettext open OASISContext let generic_message ~ctxt lvl fmt = let cond = if ctxt.quiet then false else match lvl with | `Debug -> ctxt.debug | `Info -> ctxt.info | _ -> true in Printf.ksprintf (fun str -> if cond then begin ctxt.printf lvl str end) fmt let debug ~ctxt fmt = generic_message ~ctxt `Debug fmt let info ~ctxt fmt = generic_message ~ctxt `Info fmt let warning ~ctxt fmt = generic_message ~ctxt `Warning fmt let error ~ctxt fmt = generic_message ~ctxt `Error fmt end module OASISVersion = struct (* # 22 "src/oasis/OASISVersion.ml" *) open OASISGettext type s = string type t = string type comparator = | VGreater of t | VGreaterEqual of t | VEqual of t | VLesser of t | VLesserEqual of t | VOr of comparator * comparator | VAnd of comparator * comparator (* Range of allowed characters *) let is_digit c = '0' <= c && c <= '9' let is_alpha c = ('a' <= c && c <= 'z') || ('A' <= c && c <= 'Z') let is_special = function | '.' | '+' | '-' | '~' -> true | _ -> false let rec version_compare v1 v2 = if v1 <> "" || v2 <> "" then begin (* Compare ascii string, using special meaning for version * related char *) let val_ascii c = if c = '~' then -1 else if is_digit c then 0 else if c = '\000' then 0 else if is_alpha c then Char.code c else (Char.code c) + 256 in let len1 = String.length v1 in let len2 = String.length v2 in let p = ref 0 in (** Compare ascii part *) let compare_vascii () = let cmp = ref 0 in while !cmp = 0 && !p < len1 && !p < len2 && not (is_digit v1.[!p] && is_digit v2.[!p]) do cmp := (val_ascii v1.[!p]) - (val_ascii v2.[!p]); incr p done; if !cmp = 0 && !p < len1 && !p = len2 then val_ascii v1.[!p] else if !cmp = 0 && !p = len1 && !p < len2 then - (val_ascii v2.[!p]) else !cmp in (** Compare digit part *) let compare_digit () = let extract_int v p = let start_p = !p in while !p < String.length v && is_digit v.[!p] do incr p done; let substr = String.sub v !p ((String.length v) - !p) in let res = match String.sub v start_p (!p - start_p) with | "" -> 0 | s -> int_of_string s in res, substr in let i1, tl1 = extract_int v1 (ref !p) in let i2, tl2 = extract_int v2 (ref !p) in i1 - i2, tl1, tl2 in match compare_vascii () with | 0 -> begin match compare_digit () with | 0, tl1, tl2 -> if tl1 <> "" && is_digit tl1.[0] then 1 else if tl2 <> "" && is_digit tl2.[0] then -1 else version_compare tl1 tl2 | n, _, _ -> n end | n -> n end else begin 0 end let version_of_string str = str let string_of_version t = t let version_compare_string s1 s2 = version_compare (version_of_string s1) (version_of_string s2) let chop t = try let pos = String.rindex t '.' in String.sub t 0 pos with Not_found -> t let rec comparator_apply v op = match op with | VGreater cv -> (version_compare v cv) > 0 | VGreaterEqual cv -> (version_compare v cv) >= 0 | VLesser cv -> (version_compare v cv) < 0 | VLesserEqual cv -> (version_compare v cv) <= 0 | VEqual cv -> (version_compare v cv) = 0 | VOr (op1, op2) -> (comparator_apply v op1) || (comparator_apply v op2) | VAnd (op1, op2) -> (comparator_apply v op1) && (comparator_apply v op2) let rec string_of_comparator = function | VGreater v -> "> "^(string_of_version v) | VEqual v -> "= "^(string_of_version v) | VLesser v -> "< "^(string_of_version v) | VGreaterEqual v -> ">= "^(string_of_version v) | VLesserEqual v -> "<= "^(string_of_version v) | VOr (c1, c2) -> (string_of_comparator c1)^" || "^(string_of_comparator c2) | VAnd (c1, c2) -> (string_of_comparator c1)^" && "^(string_of_comparator c2) let rec varname_of_comparator = let concat p v = OASISUtils.varname_concat p (OASISUtils.varname_of_string (string_of_version v)) in function | VGreater v -> concat "gt" v | VLesser v -> concat "lt" v | VEqual v -> concat "eq" v | VGreaterEqual v -> concat "ge" v | VLesserEqual v -> concat "le" v | VOr (c1, c2) -> (varname_of_comparator c1)^"_or_"^(varname_of_comparator c2) | VAnd (c1, c2) -> (varname_of_comparator c1)^"_and_"^(varname_of_comparator c2) let rec comparator_ge v' = let cmp v = version_compare v v' >= 0 in function | VEqual v | VGreaterEqual v | VGreater v -> cmp v | VLesserEqual _ | VLesser _ -> false | VOr (c1, c2) -> comparator_ge v' c1 || comparator_ge v' c2 | VAnd (c1, c2) -> comparator_ge v' c1 && comparator_ge v' c2 end module OASISLicense = struct (* # 22 "src/oasis/OASISLicense.ml" *) (** License for _oasis fields @author Sylvain Le Gall *) type license = string type license_exception = string type license_version = | Version of OASISVersion.t | VersionOrLater of OASISVersion.t | NoVersion type license_dep_5_unit = { license: license; excption: license_exception option; version: license_version; } type license_dep_5 = | DEP5Unit of license_dep_5_unit | DEP5Or of license_dep_5 list | DEP5And of license_dep_5 list type t = | DEP5License of license_dep_5 | OtherLicense of string (* URL *) end module OASISExpr = struct (* # 22 "src/oasis/OASISExpr.ml" *) open OASISGettext type test = string type flag = string type t = | EBool of bool | ENot of t | EAnd of t * t | EOr of t * t | EFlag of flag | ETest of test * string type 'a choices = (t * 'a) list let eval var_get t = let rec eval' = function | EBool b -> b | ENot e -> not (eval' e) | EAnd (e1, e2) -> (eval' e1) && (eval' e2) | EOr (e1, e2) -> (eval' e1) || (eval' e2) | EFlag nm -> let v = var_get nm in assert(v = "true" || v = "false"); (v = "true") | ETest (nm, vl) -> let v = var_get nm in (v = vl) in eval' t let choose ?printer ?name var_get lst = let rec choose_aux = function | (cond, vl) :: tl -> if eval var_get cond then vl else choose_aux tl | [] -> let str_lst = if lst = [] then s_ "" else String.concat (s_ ", ") (List.map (fun (cond, vl) -> match printer with | Some p -> p vl | None -> s_ "") lst) in match name with | Some nm -> failwith (Printf.sprintf (f_ "No result for the choice list '%s': %s") nm str_lst) | None -> failwith (Printf.sprintf (f_ "No result for a choice list: %s") str_lst) in choose_aux (List.rev lst) end module OASISTypes = struct (* # 22 "src/oasis/OASISTypes.ml" *) type name = string type package_name = string type url = string type unix_dirname = string type unix_filename = string type host_dirname = string type host_filename = string type prog = string type arg = string type args = string list type command_line = (prog * arg list) type findlib_name = string type findlib_full = string type compiled_object = | Byte | Native | Best type dependency = | FindlibPackage of findlib_full * OASISVersion.comparator option | InternalLibrary of name type tool = | ExternalTool of name | InternalExecutable of name type vcs = | Darcs | Git | Svn | Cvs | Hg | Bzr | Arch | Monotone | OtherVCS of url type plugin_kind = [ `Configure | `Build | `Doc | `Test | `Install | `Extra ] type plugin_data_purpose = [ `Configure | `Build | `Install | `Clean | `Distclean | `Install | `Uninstall | `Test | `Doc | `Extra | `Other of string ] type 'a plugin = 'a * name * OASISVersion.t option type all_plugin = plugin_kind plugin type plugin_data = (all_plugin * plugin_data_purpose * (unit -> unit)) list (* # 115 "src/oasis/OASISTypes.ml" *) type 'a conditional = 'a OASISExpr.choices type custom = { pre_command: (command_line option) conditional; post_command: (command_line option) conditional; } type common_section = { cs_name: name; cs_data: PropList.Data.t; cs_plugin_data: plugin_data; } type build_section = { bs_build: bool conditional; bs_install: bool conditional; bs_path: unix_dirname; bs_compiled_object: compiled_object; bs_build_depends: dependency list; bs_build_tools: tool list; bs_c_sources: unix_filename list; bs_data_files: (unix_filename * unix_filename option) list; bs_ccopt: args conditional; bs_cclib: args conditional; bs_dlllib: args conditional; bs_dllpath: args conditional; bs_byteopt: args conditional; bs_nativeopt: args conditional; } type library = { lib_modules: string list; lib_pack: bool; lib_internal_modules: string list; lib_findlib_parent: findlib_name option; lib_findlib_name: findlib_name option; lib_findlib_containers: findlib_name list; } type object_ = { obj_modules: string list; obj_findlib_fullname: findlib_name list option; } type executable = { exec_custom: bool; exec_main_is: unix_filename; } type flag = { flag_description: string option; flag_default: bool conditional; } type source_repository = { src_repo_type: vcs; src_repo_location: url; src_repo_browser: url option; src_repo_module: string option; src_repo_branch: string option; src_repo_tag: string option; src_repo_subdir: unix_filename option; } type test = { test_type: [`Test] plugin; test_command: command_line conditional; test_custom: custom; test_working_directory: unix_filename option; test_run: bool conditional; test_tools: tool list; } type doc_format = | HTML of unix_filename | DocText | PDF | PostScript | Info of unix_filename | DVI | OtherDoc type doc = { doc_type: [`Doc] plugin; doc_custom: custom; doc_build: bool conditional; doc_install: bool conditional; doc_install_dir: unix_filename; doc_title: string; doc_authors: string list; doc_abstract: string option; doc_format: doc_format; doc_data_files: (unix_filename * unix_filename option) list; doc_build_tools: tool list; } type section = | Library of common_section * build_section * library | Object of common_section * build_section * object_ | Executable of common_section * build_section * executable | Flag of common_section * flag | SrcRepo of common_section * source_repository | Test of common_section * test | Doc of common_section * doc type section_kind = [ `Library | `Object | `Executable | `Flag | `SrcRepo | `Test | `Doc ] type package = { oasis_version: OASISVersion.t; ocaml_version: OASISVersion.comparator option; findlib_version: OASISVersion.comparator option; alpha_features: string list; beta_features: string list; name: package_name; version: OASISVersion.t; license: OASISLicense.t; license_file: unix_filename option; copyrights: string list; maintainers: string list; authors: string list; homepage: url option; synopsis: string; description: string option; categories: url list; conf_type: [`Configure] plugin; conf_custom: custom; build_type: [`Build] plugin; build_custom: custom; install_type: [`Install] plugin; install_custom: custom; uninstall_custom: custom; clean_custom: custom; distclean_custom: custom; files_ab: unix_filename list; sections: section list; plugins: [`Extra] plugin list; schema_data: PropList.Data.t; plugin_data: plugin_data; } end module OASISFeatures = struct (* # 22 "src/oasis/OASISFeatures.ml" *) open OASISTypes open OASISUtils open OASISGettext open OASISVersion module MapPlugin = Map.Make (struct type t = plugin_kind * name let compare = Pervasives.compare end) module Data = struct type t = { oasis_version: OASISVersion.t; plugin_versions: OASISVersion.t option MapPlugin.t; alpha_features: string list; beta_features: string list; } let create oasis_version alpha_features beta_features = { oasis_version = oasis_version; plugin_versions = MapPlugin.empty; alpha_features = alpha_features; beta_features = beta_features } let of_package pkg = create pkg.OASISTypes.oasis_version pkg.OASISTypes.alpha_features pkg.OASISTypes.beta_features let add_plugin (plugin_kind, plugin_name, plugin_version) t = {t with plugin_versions = MapPlugin.add (plugin_kind, plugin_name) plugin_version t.plugin_versions} let plugin_version plugin_kind plugin_name t = MapPlugin.find (plugin_kind, plugin_name) t.plugin_versions end type origin = | Field of string * string | Section of string | NoOrigin type stage = Alpha | Beta let string_of_stage = function | Alpha -> "alpha" | Beta -> "beta" let field_of_stage = function | Alpha -> "AlphaFeatures" | Beta -> "BetaFeatures" type publication = InDev of stage | SinceVersion of OASISVersion.t type t = { name: string; plugin: all_plugin option; publication: publication; description: unit -> string; } (* TODO: mutex protect this. *) let all_features = Hashtbl.create 13 let since_version ver_str = SinceVersion (version_of_string ver_str) let alpha = InDev Alpha let beta = InDev Beta let data_check t data origin = let no_message = "no message" in let check_feature features stage = let has_feature = List.mem t.name features in if not has_feature then match origin with | Field (fld, where) -> Some (Printf.sprintf (f_ "Field %s in %s is only available when feature %s \ is in field %s.") fld where t.name (field_of_stage stage)) | Section sct -> Some (Printf.sprintf (f_ "Section %s is only available when features %s \ is in field %s.") sct t.name (field_of_stage stage)) | NoOrigin -> Some no_message else None in let version_is_good ~min_version version fmt = let version_is_good = OASISVersion.comparator_apply version (OASISVersion.VGreaterEqual min_version) in Printf.ksprintf (fun str -> if version_is_good then None else Some str) fmt in match origin, t.plugin, t.publication with | _, _, InDev Alpha -> check_feature data.Data.alpha_features Alpha | _, _, InDev Beta -> check_feature data.Data.beta_features Beta | Field(fld, where), None, SinceVersion min_version -> version_is_good ~min_version data.Data.oasis_version (f_ "Field %s in %s is only valid since OASIS v%s, update \ OASISFormat field from '%s' to '%s' after checking \ OASIS changelog.") fld where (string_of_version min_version) (string_of_version data.Data.oasis_version) (string_of_version min_version) | Field(fld, where), Some(plugin_knd, plugin_name, _), SinceVersion min_version -> begin try let plugin_version_current = try match Data.plugin_version plugin_knd plugin_name data with | Some ver -> ver | None -> failwithf (f_ "Field %s in %s is only valid for the OASIS \ plugin %s since v%s, but no plugin version is \ defined in the _oasis file, change '%s' to \ '%s (%s)' in your _oasis file.") fld where plugin_name (string_of_version min_version) plugin_name plugin_name (string_of_version min_version) with Not_found -> failwithf (f_ "Field %s in %s is only valid when the OASIS plugin %s \ is defined.") fld where plugin_name in version_is_good ~min_version plugin_version_current (f_ "Field %s in %s is only valid for the OASIS plugin %s \ since v%s, update your plugin from '%s (%s)' to \ '%s (%s)' after checking the plugin's changelog.") fld where plugin_name (string_of_version min_version) plugin_name (string_of_version plugin_version_current) plugin_name (string_of_version min_version) with Failure msg -> Some msg end | Section sct, None, SinceVersion min_version -> version_is_good ~min_version data.Data.oasis_version (f_ "Section %s is only valid for since OASIS v%s, update \ OASISFormat field from '%s' to '%s' after checking OASIS \ changelog.") sct (string_of_version min_version) (string_of_version data.Data.oasis_version) (string_of_version min_version) | Section sct, Some(plugin_knd, plugin_name, _), SinceVersion min_version -> begin try let plugin_version_current = try match Data.plugin_version plugin_knd plugin_name data with | Some ver -> ver | None -> failwithf (f_ "Section %s is only valid for the OASIS \ plugin %s since v%s, but no plugin version is \ defined in the _oasis file, change '%s' to \ '%s (%s)' in your _oasis file.") sct plugin_name (string_of_version min_version) plugin_name plugin_name (string_of_version min_version) with Not_found -> failwithf (f_ "Section %s is only valid when the OASIS plugin %s \ is defined.") sct plugin_name in version_is_good ~min_version plugin_version_current (f_ "Section %s is only valid for the OASIS plugin %s \ since v%s, update your plugin from '%s (%s)' to \ '%s (%s)' after checking the plugin's changelog.") sct plugin_name (string_of_version min_version) plugin_name (string_of_version plugin_version_current) plugin_name (string_of_version min_version) with Failure msg -> Some msg end | NoOrigin, None, SinceVersion min_version -> version_is_good ~min_version data.Data.oasis_version "%s" no_message | NoOrigin, Some(plugin_knd, plugin_name, _), SinceVersion min_version -> begin try let plugin_version_current = match Data.plugin_version plugin_knd plugin_name data with | Some ver -> ver | None -> raise Not_found in version_is_good ~min_version plugin_version_current "%s" no_message with Not_found -> Some no_message end let data_assert t data origin = match data_check t data origin with | None -> () | Some str -> failwith str let data_test t data = match data_check t data NoOrigin with | None -> true | Some str -> false let package_test t pkg = data_test t (Data.of_package pkg) let create ?plugin name publication description = let () = if Hashtbl.mem all_features name then failwithf "Feature '%s' is already declared." name in let t = { name = name; plugin = plugin; publication = publication; description = description; } in Hashtbl.add all_features name t; t let get_stage name = try (Hashtbl.find all_features name).publication with Not_found -> failwithf (f_ "Feature %s doesn't exist.") name let list () = Hashtbl.fold (fun _ v acc -> v :: acc) all_features [] (* * Real flags. *) let features = create "features_fields" (since_version "0.4") (fun () -> s_ "Enable to experiment not yet official features.") let flag_docs = create "flag_docs" (since_version "0.3") (fun () -> s_ "Building docs require '-docs' flag at configure.") let flag_tests = create "flag_tests" (since_version "0.3") (fun () -> s_ "Running tests require '-tests' flag at configure.") let pack = create "pack" (since_version "0.3") (fun () -> s_ "Allow to create packed library.") let section_object = create "section_object" beta (fun () -> s_ "Implement an object section.") end module OASISUnixPath = struct (* # 22 "src/oasis/OASISUnixPath.ml" *) type unix_filename = string type unix_dirname = string type host_filename = string type host_dirname = string let current_dir_name = "." let parent_dir_name = ".." let is_current_dir fn = fn = current_dir_name || fn = "" let concat f1 f2 = if is_current_dir f1 then f2 else let f1' = try OASISString.strip_ends_with ~what:"/" f1 with Not_found -> f1 in f1'^"/"^f2 let make = function | hd :: tl -> List.fold_left (fun f p -> concat f p) hd tl | [] -> invalid_arg "OASISUnixPath.make" let dirname f = try String.sub f 0 (String.rindex f '/') with Not_found -> current_dir_name let basename f = try let pos_start = (String.rindex f '/') + 1 in String.sub f pos_start ((String.length f) - pos_start) with Not_found -> f let chop_extension f = try let last_dot = String.rindex f '.' in let sub = String.sub f 0 last_dot in try let last_slash = String.rindex f '/' in if last_slash < last_dot then sub else f with Not_found -> sub with Not_found -> f let capitalize_file f = let dir = dirname f in let base = basename f in concat dir (String.capitalize base) let uncapitalize_file f = let dir = dirname f in let base = basename f in concat dir (String.uncapitalize base) end module OASISHostPath = struct (* # 22 "src/oasis/OASISHostPath.ml" *) open Filename module Unix = OASISUnixPath let make = function | [] -> invalid_arg "OASISHostPath.make" | hd :: tl -> List.fold_left Filename.concat hd tl let of_unix ufn = if Sys.os_type = "Unix" then ufn else make (List.map (fun p -> if p = Unix.current_dir_name then current_dir_name else if p = Unix.parent_dir_name then parent_dir_name else p) (OASISString.nsplit ufn '/')) end module OASISSection = struct (* # 22 "src/oasis/OASISSection.ml" *) open OASISTypes let section_kind_common = function | Library (cs, _, _) -> `Library, cs | Object (cs, _, _) -> `Object, cs | Executable (cs, _, _) -> `Executable, cs | Flag (cs, _) -> `Flag, cs | SrcRepo (cs, _) -> `SrcRepo, cs | Test (cs, _) -> `Test, cs | Doc (cs, _) -> `Doc, cs let section_common sct = snd (section_kind_common sct) let section_common_set cs = function | Library (_, bs, lib) -> Library (cs, bs, lib) | Object (_, bs, obj) -> Object (cs, bs, obj) | Executable (_, bs, exec) -> Executable (cs, bs, exec) | Flag (_, flg) -> Flag (cs, flg) | SrcRepo (_, src_repo) -> SrcRepo (cs, src_repo) | Test (_, tst) -> Test (cs, tst) | Doc (_, doc) -> Doc (cs, doc) (** Key used to identify section *) let section_id sct = let k, cs = section_kind_common sct in k, cs.cs_name let string_of_section sct = let k, nm = section_id sct in (match k with | `Library -> "library" | `Object -> "object" | `Executable -> "executable" | `Flag -> "flag" | `SrcRepo -> "src repository" | `Test -> "test" | `Doc -> "doc") ^" "^nm let section_find id scts = List.find (fun sct -> id = section_id sct) scts module CSection = struct type t = section let id = section_id let compare t1 t2 = compare (id t1) (id t2) let equal t1 t2 = (id t1) = (id t2) let hash t = Hashtbl.hash (id t) end module MapSection = Map.Make(CSection) module SetSection = Set.Make(CSection) end module OASISBuildSection = struct (* # 22 "src/oasis/OASISBuildSection.ml" *) end module OASISExecutable = struct (* # 22 "src/oasis/OASISExecutable.ml" *) open OASISTypes let unix_exec_is (cs, bs, exec) is_native ext_dll suffix_program = let dir = OASISUnixPath.concat bs.bs_path (OASISUnixPath.dirname exec.exec_main_is) in let is_native_exec = match bs.bs_compiled_object with | Native -> true | Best -> is_native () | Byte -> false in OASISUnixPath.concat dir (cs.cs_name^(suffix_program ())), if not is_native_exec && not exec.exec_custom && bs.bs_c_sources <> [] then Some (dir^"/dll"^cs.cs_name^"_stubs"^(ext_dll ())) else None end module OASISLibrary = struct (* # 22 "src/oasis/OASISLibrary.ml" *) open OASISTypes open OASISUtils open OASISGettext open OASISSection (* Look for a module file, considering capitalization or not. *) let find_module source_file_exists bs modul = let possible_base_fn = List.map (OASISUnixPath.concat bs.bs_path) [modul; OASISUnixPath.uncapitalize_file modul; OASISUnixPath.capitalize_file modul] in (* TODO: we should be able to be able to determine the source for every * files. Hence we should introduce a Module(source: fn) for the fields * Modules and InternalModules *) List.fold_left (fun acc base_fn -> match acc with | `No_sources _ -> begin let file_found = List.fold_left (fun acc ext -> if source_file_exists (base_fn^ext) then (base_fn^ext) :: acc else acc) [] [".ml"; ".mli"; ".mll"; ".mly"] in match file_found with | [] -> acc | lst -> `Sources (base_fn, lst) end | `Sources _ -> acc) (`No_sources possible_base_fn) possible_base_fn let source_unix_files ~ctxt (cs, bs, lib) source_file_exists = List.fold_left (fun acc modul -> match find_module source_file_exists bs modul with | `Sources (base_fn, lst) -> (base_fn, lst) :: acc | `No_sources _ -> OASISMessage.warning ~ctxt (f_ "Cannot find source file matching \ module '%s' in library %s") modul cs.cs_name; acc) [] (lib.lib_modules @ lib.lib_internal_modules) let generated_unix_files ~ctxt ~is_native ~has_native_dynlink ~ext_lib ~ext_dll ~source_file_exists (cs, bs, lib) = let find_modules lst ext = let find_module modul = match find_module source_file_exists bs modul with | `Sources (base_fn, [fn]) when ext <> "cmi" && Filename.check_suffix fn ".mli" -> None (* No implementation files for pure interface. *) | `Sources (base_fn, _) -> Some [base_fn] | `No_sources lst -> OASISMessage.warning ~ctxt (f_ "Cannot find source file matching \ module '%s' in library %s") modul cs.cs_name; Some lst in List.fold_left (fun acc nm -> match find_module nm with | None -> acc | Some base_fns -> List.map (fun base_fn -> base_fn ^"."^ext) base_fns :: acc) [] lst in (* The headers that should be compiled along *) let headers = if lib.lib_pack then [] else find_modules lib.lib_modules "cmi" in (* The .cmx that be compiled along *) let cmxs = let should_be_built = match bs.bs_compiled_object with | Native -> true | Best -> is_native | Byte -> false in if should_be_built then if lib.lib_pack then find_modules [cs.cs_name] "cmx" else find_modules (lib.lib_modules @ lib.lib_internal_modules) "cmx" else [] in let acc_nopath = [] in (* Compute what libraries should be built *) let acc_nopath = (* Add the packed header file if required *) let add_pack_header acc = if lib.lib_pack then [cs.cs_name^".cmi"] :: acc else acc in let byte acc = add_pack_header ([cs.cs_name^".cma"] :: acc) in let native acc = let acc = add_pack_header (if has_native_dynlink then [cs.cs_name^".cmxs"] :: acc else acc) in [cs.cs_name^".cmxa"] :: [cs.cs_name^ext_lib] :: acc in match bs.bs_compiled_object with | Native -> byte (native acc_nopath) | Best when is_native -> byte (native acc_nopath) | Byte | Best -> byte acc_nopath in (* Add C library to be built *) let acc_nopath = if bs.bs_c_sources <> [] then begin ["lib"^cs.cs_name^"_stubs"^ext_lib] :: ["dll"^cs.cs_name^"_stubs"^ext_dll] :: acc_nopath end else acc_nopath in (* All the files generated *) List.rev_append (List.rev_map (List.rev_map (OASISUnixPath.concat bs.bs_path)) acc_nopath) (headers @ cmxs) end module OASISObject = struct (* # 22 "src/oasis/OASISObject.ml" *) open OASISTypes open OASISGettext let source_unix_files ~ctxt (cs, bs, obj) source_file_exists = List.fold_left (fun acc modul -> match OASISLibrary.find_module source_file_exists bs modul with | `Sources (base_fn, lst) -> (base_fn, lst) :: acc | `No_sources _ -> OASISMessage.warning ~ctxt (f_ "Cannot find source file matching \ module '%s' in object %s") modul cs.cs_name; acc) [] obj.obj_modules let generated_unix_files ~ctxt ~is_native ~source_file_exists (cs, bs, obj) = let find_module ext modul = match OASISLibrary.find_module source_file_exists bs modul with | `Sources (base_fn, _) -> [base_fn ^ ext] | `No_sources lst -> OASISMessage.warning ~ctxt (f_ "Cannot find source file matching \ module '%s' in object %s") modul cs.cs_name ; lst in let header, byte, native, c_object, f = match obj.obj_modules with | [ m ] -> (find_module ".cmi" m, find_module ".cmo" m, find_module ".cmx" m, find_module ".o" m, fun x -> x) | _ -> ([cs.cs_name ^ ".cmi"], [cs.cs_name ^ ".cmo"], [cs.cs_name ^ ".cmx"], [cs.cs_name ^ ".o"], OASISUnixPath.concat bs.bs_path) in List.map (List.map f) ( match bs.bs_compiled_object with | Native -> native :: c_object :: byte :: header :: [] | Best when is_native -> native :: c_object :: byte :: header :: [] | Byte | Best -> byte :: header :: []) end module OASISFindlib = struct (* # 22 "src/oasis/OASISFindlib.ml" *) open OASISTypes open OASISUtils open OASISGettext open OASISSection type library_name = name type findlib_part_name = name type 'a map_of_findlib_part_name = 'a OASISUtils.MapString.t exception InternalLibraryNotFound of library_name exception FindlibPackageNotFound of findlib_name type group_t = | Container of findlib_name * group_t list | Package of (findlib_name * common_section * build_section * [`Library of library | `Object of object_] * group_t list) type data = common_section * build_section * [`Library of library | `Object of object_] type tree = | Node of (data option) * (tree MapString.t) | Leaf of data let findlib_mapping pkg = (* Map from library name to either full findlib name or parts + parent. *) let fndlb_parts_of_lib_name = let fndlb_parts cs lib = let name = match lib.lib_findlib_name with | Some nm -> nm | None -> cs.cs_name in let name = String.concat "." (lib.lib_findlib_containers @ [name]) in name in List.fold_left (fun mp -> function | Library (cs, _, lib) -> begin let lib_name = cs.cs_name in let fndlb_parts = fndlb_parts cs lib in if MapString.mem lib_name mp then failwithf (f_ "The library name '%s' is used more than once.") lib_name; match lib.lib_findlib_parent with | Some lib_name_parent -> MapString.add lib_name (`Unsolved (lib_name_parent, fndlb_parts)) mp | None -> MapString.add lib_name (`Solved fndlb_parts) mp end | Object (cs, _, obj) -> begin let obj_name = cs.cs_name in if MapString.mem obj_name mp then failwithf (f_ "The object name '%s' is used more than once.") obj_name; let findlib_full_name = match obj.obj_findlib_fullname with | Some ns -> String.concat "." ns | None -> obj_name in MapString.add obj_name (`Solved findlib_full_name) mp end | Executable _ | Test _ | Flag _ | SrcRepo _ | Doc _ -> mp) MapString.empty pkg.sections in (* Solve the above graph to be only library name to full findlib name. *) let fndlb_name_of_lib_name = let rec solve visited mp lib_name lib_name_child = if SetString.mem lib_name visited then failwithf (f_ "Library '%s' is involved in a cycle \ with regard to findlib naming.") lib_name; let visited = SetString.add lib_name visited in try match MapString.find lib_name mp with | `Solved fndlb_nm -> fndlb_nm, mp | `Unsolved (lib_nm_parent, post_fndlb_nm) -> let pre_fndlb_nm, mp = solve visited mp lib_nm_parent lib_name in let fndlb_nm = pre_fndlb_nm^"."^post_fndlb_nm in fndlb_nm, MapString.add lib_name (`Solved fndlb_nm) mp with Not_found -> failwithf (f_ "Library '%s', which is defined as the findlib parent of \ library '%s', doesn't exist.") lib_name lib_name_child in let mp = MapString.fold (fun lib_name status mp -> match status with | `Solved _ -> (* Solved initialy, no need to go further *) mp | `Unsolved _ -> let _, mp = solve SetString.empty mp lib_name "" in mp) fndlb_parts_of_lib_name fndlb_parts_of_lib_name in MapString.map (function | `Solved fndlb_nm -> fndlb_nm | `Unsolved _ -> assert false) mp in (* Convert an internal library name to a findlib name. *) let findlib_name_of_library_name lib_nm = try MapString.find lib_nm fndlb_name_of_lib_name with Not_found -> raise (InternalLibraryNotFound lib_nm) in (* Add a library to the tree. *) let add sct mp = let fndlb_fullname = let cs, _, _ = sct in let lib_name = cs.cs_name in findlib_name_of_library_name lib_name in let rec add_children nm_lst (children: tree MapString.t) = match nm_lst with | (hd :: tl) -> begin let node = try add_node tl (MapString.find hd children) with Not_found -> (* New node *) new_node tl in MapString.add hd node children end | [] -> (* Should not have a nameless library. *) assert false and add_node tl node = if tl = [] then begin match node with | Node (None, children) -> Node (Some sct, children) | Leaf (cs', _, _) | Node (Some (cs', _, _), _) -> (* TODO: allow to merge Package, i.e. * archive(byte) = "foo.cma foo_init.cmo" *) let cs, _, _ = sct in failwithf (f_ "Library '%s' and '%s' have the same findlib name '%s'") cs.cs_name cs'.cs_name fndlb_fullname end else begin match node with | Leaf data -> Node (Some data, add_children tl MapString.empty) | Node (data_opt, children) -> Node (data_opt, add_children tl children) end and new_node = function | [] -> Leaf sct | hd :: tl -> Node (None, MapString.add hd (new_node tl) MapString.empty) in add_children (OASISString.nsplit fndlb_fullname '.') mp in let rec group_of_tree mp = MapString.fold (fun nm node acc -> let cur = match node with | Node (Some (cs, bs, lib), children) -> Package (nm, cs, bs, lib, group_of_tree children) | Node (None, children) -> Container (nm, group_of_tree children) | Leaf (cs, bs, lib) -> Package (nm, cs, bs, lib, []) in cur :: acc) mp [] in let group_mp = List.fold_left (fun mp -> function | Library (cs, bs, lib) -> add (cs, bs, `Library lib) mp | Object (cs, bs, obj) -> add (cs, bs, `Object obj) mp | _ -> mp) MapString.empty pkg.sections in let groups = group_of_tree group_mp in let library_name_of_findlib_name = Lazy.lazy_from_fun (fun () -> (* Revert findlib_name_of_library_name. *) MapString.fold (fun k v mp -> MapString.add v k mp) fndlb_name_of_lib_name MapString.empty) in let library_name_of_findlib_name fndlb_nm = try MapString.find fndlb_nm (Lazy.force library_name_of_findlib_name) with Not_found -> raise (FindlibPackageNotFound fndlb_nm) in groups, findlib_name_of_library_name, library_name_of_findlib_name let findlib_of_group = function | Container (fndlb_nm, _) | Package (fndlb_nm, _, _, _, _) -> fndlb_nm let root_of_group grp = let rec root_lib_aux = (* We do a DFS in the group. *) function | Container (_, children) -> List.fold_left (fun res grp -> if res = None then root_lib_aux grp else res) None children | Package (_, cs, bs, lib, _) -> Some (cs, bs, lib) in match root_lib_aux grp with | Some res -> res | None -> failwithf (f_ "Unable to determine root library of findlib library '%s'") (findlib_of_group grp) end module OASISFlag = struct (* # 22 "src/oasis/OASISFlag.ml" *) end module OASISPackage = struct (* # 22 "src/oasis/OASISPackage.ml" *) end module OASISSourceRepository = struct (* # 22 "src/oasis/OASISSourceRepository.ml" *) end module OASISTest = struct (* # 22 "src/oasis/OASISTest.ml" *) end module OASISDocument = struct (* # 22 "src/oasis/OASISDocument.ml" *) end module OASISExec = struct (* # 22 "src/oasis/OASISExec.ml" *) open OASISGettext open OASISUtils open OASISMessage (* TODO: I don't like this quote, it is there because $(rm) foo expands to * 'rm -f' foo... *) let run ~ctxt ?f_exit_code ?(quote=true) cmd args = let cmd = if quote then if Sys.os_type = "Win32" then if String.contains cmd ' ' then (* Double the 1st double quote... win32... sigh *) "\""^(Filename.quote cmd) else cmd else Filename.quote cmd else cmd in let cmdline = String.concat " " (cmd :: args) in info ~ctxt (f_ "Running command '%s'") cmdline; match f_exit_code, Sys.command cmdline with | None, 0 -> () | None, i -> failwithf (f_ "Command '%s' terminated with error code %d") cmdline i | Some f, i -> f i let run_read_output ~ctxt ?f_exit_code cmd args = let fn = Filename.temp_file "oasis-" ".txt" in try begin let () = run ~ctxt ?f_exit_code cmd (args @ [">"; Filename.quote fn]) in let chn = open_in fn in let routput = ref [] in begin try while true do routput := (input_line chn) :: !routput done with End_of_file -> () end; close_in chn; Sys.remove fn; List.rev !routput end with e -> (try Sys.remove fn with _ -> ()); raise e let run_read_one_line ~ctxt ?f_exit_code cmd args = match run_read_output ~ctxt ?f_exit_code cmd args with | [fst] -> fst | lst -> failwithf (f_ "Command return unexpected output %S") (String.concat "\n" lst) end module OASISFileUtil = struct (* # 22 "src/oasis/OASISFileUtil.ml" *) open OASISGettext let file_exists_case fn = let dirname = Filename.dirname fn in let basename = Filename.basename fn in if Sys.file_exists dirname then if basename = Filename.current_dir_name then true else List.mem basename (Array.to_list (Sys.readdir dirname)) else false let find_file ?(case_sensitive=true) paths exts = (* Cardinal product of two list *) let ( * ) lst1 lst2 = List.flatten (List.map (fun a -> List.map (fun b -> a, b) lst2) lst1) in let rec combined_paths lst = match lst with | p1 :: p2 :: tl -> let acc = (List.map (fun (a, b) -> Filename.concat a b) (p1 * p2)) in combined_paths (acc :: tl) | [e] -> e | [] -> [] in let alternatives = List.map (fun (p, e) -> if String.length e > 0 && e.[0] <> '.' then p ^ "." ^ e else p ^ e) ((combined_paths paths) * exts) in List.find (fun file -> (if case_sensitive then file_exists_case file else Sys.file_exists file) && not (Sys.is_directory file) ) alternatives let which ~ctxt prg = let path_sep = match Sys.os_type with | "Win32" -> ';' | _ -> ':' in let path_lst = OASISString.nsplit (Sys.getenv "PATH") path_sep in let exec_ext = match Sys.os_type with | "Win32" -> "" :: (OASISString.nsplit (Sys.getenv "PATHEXT") path_sep) | _ -> [""] in find_file ~case_sensitive:false [path_lst; [prg]] exec_ext (**/**) let rec fix_dir dn = (* Windows hack because Sys.file_exists "src\\" = false when * Sys.file_exists "src" = true *) let ln = String.length dn in if Sys.os_type = "Win32" && ln > 0 && dn.[ln - 1] = '\\' then fix_dir (String.sub dn 0 (ln - 1)) else dn let q = Filename.quote (**/**) let cp ~ctxt ?(recurse=false) src tgt = if recurse then match Sys.os_type with | "Win32" -> OASISExec.run ~ctxt "xcopy" [q src; q tgt; "/E"] | _ -> OASISExec.run ~ctxt "cp" ["-r"; q src; q tgt] else OASISExec.run ~ctxt (match Sys.os_type with | "Win32" -> "copy" | _ -> "cp") [q src; q tgt] let mkdir ~ctxt tgt = OASISExec.run ~ctxt (match Sys.os_type with | "Win32" -> "md" | _ -> "mkdir") [q tgt] let rec mkdir_parent ~ctxt f tgt = let tgt = fix_dir tgt in if Sys.file_exists tgt then begin if not (Sys.is_directory tgt) then OASISUtils.failwithf (f_ "Cannot create directory '%s', a file of the same name already \ exists") tgt end else begin mkdir_parent ~ctxt f (Filename.dirname tgt); if not (Sys.file_exists tgt) then begin f tgt; mkdir ~ctxt tgt end end let rmdir ~ctxt tgt = if Sys.readdir tgt = [||] then begin match Sys.os_type with | "Win32" -> OASISExec.run ~ctxt "rd" [q tgt] | _ -> OASISExec.run ~ctxt "rm" ["-r"; q tgt] end let glob ~ctxt fn = let basename = Filename.basename fn in if String.length basename >= 2 && basename.[0] = '*' && basename.[1] = '.' then begin let ext_len = (String.length basename) - 2 in let ext = String.sub basename 2 ext_len in let dirname = Filename.dirname fn in Array.fold_left (fun acc fn -> try let fn_ext = String.sub fn ((String.length fn) - ext_len) ext_len in if fn_ext = ext then (Filename.concat dirname fn) :: acc else acc with Invalid_argument _ -> acc) [] (Sys.readdir dirname) end else begin if file_exists_case fn then [fn] else [] end end # 2760 "setup.ml" module BaseEnvLight = struct (* # 22 "src/base/BaseEnvLight.ml" *) module MapString = Map.Make(String) type t = string MapString.t let default_filename = Filename.concat (Sys.getcwd ()) "setup.data" let load ?(allow_empty=false) ?(filename=default_filename) () = if Sys.file_exists filename then begin let chn = open_in_bin filename in let st = Stream.of_channel chn in let line = ref 1 in let st_line = Stream.from (fun _ -> try match Stream.next st with | '\n' -> incr line; Some '\n' | c -> Some c with Stream.Failure -> None) in let lexer = Genlex.make_lexer ["="] st_line in let rec read_file mp = match Stream.npeek 3 lexer with | [Genlex.Ident nm; Genlex.Kwd "="; Genlex.String value] -> Stream.junk lexer; Stream.junk lexer; Stream.junk lexer; read_file (MapString.add nm value mp) | [] -> mp | _ -> failwith (Printf.sprintf "Malformed data file '%s' line %d" filename !line) in let mp = read_file MapString.empty in close_in chn; mp end else if allow_empty then begin MapString.empty end else begin failwith (Printf.sprintf "Unable to load environment, the file '%s' doesn't exist." filename) end let var_get name env = let rec var_expand str = let buff = Buffer.create ((String.length str) * 2) in Buffer.add_substitute buff (fun var -> try var_expand (MapString.find var env) with Not_found -> failwith (Printf.sprintf "No variable %s defined when trying to expand %S." var str)) str; Buffer.contents buff in var_expand (MapString.find name env) let var_choose lst env = OASISExpr.choose (fun nm -> var_get nm env) lst end # 2864 "setup.ml" module BaseContext = struct (* # 22 "src/base/BaseContext.ml" *) open OASISContext let args = args let default = default end module BaseMessage = struct (* # 22 "src/base/BaseMessage.ml" *) (** Message to user, overrid for Base @author Sylvain Le Gall *) open OASISMessage open BaseContext let debug fmt = debug ~ctxt:!default fmt let info fmt = info ~ctxt:!default fmt let warning fmt = warning ~ctxt:!default fmt let error fmt = error ~ctxt:!default fmt end module BaseEnv = struct (* # 22 "src/base/BaseEnv.ml" *) open OASISGettext open OASISUtils open PropList module MapString = BaseEnvLight.MapString type origin_t = | ODefault | OGetEnv | OFileLoad | OCommandLine type cli_handle_t = | CLINone | CLIAuto | CLIWith | CLIEnable | CLIUser of (Arg.key * Arg.spec * Arg.doc) list type definition_t = { hide: bool; dump: bool; cli: cli_handle_t; arg_help: string option; group: string option; } let schema = Schema.create "environment" (* Environment data *) let env = Data.create () (* Environment data from file *) let env_from_file = ref MapString.empty (* Lexer for var *) let var_lxr = Genlex.make_lexer [] let rec var_expand str = let buff = Buffer.create ((String.length str) * 2) in Buffer.add_substitute buff (fun var -> try (* TODO: this is a quick hack to allow calling Test.Command * without defining executable name really. I.e. if there is * an exec Executable toto, then $(toto) should be replace * by its real name. It is however useful to have this function * for other variable that depend on the host and should be * written better than that. *) let st = var_lxr (Stream.of_string var) in match Stream.npeek 3 st with | [Genlex.Ident "utoh"; Genlex.Ident nm] -> OASISHostPath.of_unix (var_get nm) | [Genlex.Ident "utoh"; Genlex.String s] -> OASISHostPath.of_unix s | [Genlex.Ident "ocaml_escaped"; Genlex.Ident nm] -> String.escaped (var_get nm) | [Genlex.Ident "ocaml_escaped"; Genlex.String s] -> String.escaped s | [Genlex.Ident nm] -> var_get nm | _ -> failwithf (f_ "Unknown expression '%s' in variable expansion of %s.") var str with | Unknown_field (_, _) -> failwithf (f_ "No variable %s defined when trying to expand %S.") var str | Stream.Error e -> failwithf (f_ "Syntax error when parsing '%s' when trying to \ expand %S: %s") var str e) str; Buffer.contents buff and var_get name = let vl = try Schema.get schema env name with Unknown_field _ as e -> begin try MapString.find name !env_from_file with Not_found -> raise e end in var_expand vl let var_choose ?printer ?name lst = OASISExpr.choose ?printer ?name var_get lst let var_protect vl = let buff = Buffer.create (String.length vl) in String.iter (function | '$' -> Buffer.add_string buff "\\$" | c -> Buffer.add_char buff c) vl; Buffer.contents buff let var_define ?(hide=false) ?(dump=true) ?short_desc ?(cli=CLINone) ?arg_help ?group name (* TODO: type constraint on the fact that name must be a valid OCaml id *) dflt = let default = [ OFileLoad, (fun () -> MapString.find name !env_from_file); ODefault, dflt; OGetEnv, (fun () -> Sys.getenv name); ] in let extra = { hide = hide; dump = dump; cli = cli; arg_help = arg_help; group = group; } in (* Try to find a value that can be defined *) let var_get_low lst = let errors, res = List.fold_left (fun (errors, res) (o, v) -> if res = None then begin try errors, Some (v ()) with | Not_found -> errors, res | Failure rsn -> (rsn :: errors), res | e -> (Printexc.to_string e) :: errors, res end else errors, res) ([], None) (List.sort (fun (o1, _) (o2, _) -> Pervasives.compare o2 o1) lst) in match res, errors with | Some v, _ -> v | None, [] -> raise (Not_set (name, None)) | None, lst -> raise (Not_set (name, Some (String.concat (s_ ", ") lst))) in let help = match short_desc with | Some fs -> Some fs | None -> None in let var_get_lst = FieldRO.create ~schema ~name ~parse:(fun ?(context=ODefault) s -> [context, fun () -> s]) ~print:var_get_low ~default ~update:(fun ?context x old_x -> x @ old_x) ?help extra in fun () -> var_expand (var_get_low (var_get_lst env)) let var_redefine ?hide ?dump ?short_desc ?cli ?arg_help ?group name dflt = if Schema.mem schema name then begin (* TODO: look suspsicious, we want to memorize dflt not dflt () *) Schema.set schema env ~context:ODefault name (dflt ()); fun () -> var_get name end else begin var_define ?hide ?dump ?short_desc ?cli ?arg_help ?group name dflt end let var_ignore (e: unit -> string) = () let print_hidden = var_define ~hide:true ~dump:false ~cli:CLIAuto ~arg_help:"Print even non-printable variable. (debug)" "print_hidden" (fun () -> "false") let var_all () = List.rev (Schema.fold (fun acc nm def _ -> if not def.hide || bool_of_string (print_hidden ()) then nm :: acc else acc) [] schema) let default_filename = BaseEnvLight.default_filename let load ?allow_empty ?filename () = env_from_file := BaseEnvLight.load ?allow_empty ?filename () let unload () = env_from_file := MapString.empty; Data.clear env let dump ?(filename=default_filename) () = let chn = open_out_bin filename in let output nm value = Printf.fprintf chn "%s=%S\n" nm value in let mp_todo = (* Dump data from schema *) Schema.fold (fun mp_todo nm def _ -> if def.dump then begin try let value = Schema.get schema env nm in output nm value with Not_set _ -> () end; MapString.remove nm mp_todo) !env_from_file schema in (* Dump data defined outside of schema *) MapString.iter output mp_todo; (* End of the dump *) close_out chn let print () = let printable_vars = Schema.fold (fun acc nm def short_descr_opt -> if not def.hide || bool_of_string (print_hidden ()) then begin try let value = Schema.get schema env nm in let txt = match short_descr_opt with | Some s -> s () | None -> nm in (txt, value) :: acc with Not_set _ -> acc end else acc) [] schema in let max_length = List.fold_left max 0 (List.rev_map String.length (List.rev_map fst printable_vars)) in let dot_pad str = String.make ((max_length - (String.length str)) + 3) '.' in Printf.printf "\nConfiguration: \n"; List.iter (fun (name, value) -> Printf.printf "%s: %s %s\n" name (dot_pad name) value) (List.rev printable_vars); Printf.printf "\n%!" let args () = let arg_concat = OASISUtils.varname_concat ~hyphen:'-' in [ "--override", Arg.Tuple ( let rvr = ref "" in let rvl = ref "" in [ Arg.Set_string rvr; Arg.Set_string rvl; Arg.Unit (fun () -> Schema.set schema env ~context:OCommandLine !rvr !rvl) ] ), "var+val Override any configuration variable."; ] @ List.flatten (Schema.fold (fun acc name def short_descr_opt -> let var_set s = Schema.set schema env ~context:OCommandLine name s in let arg_name = OASISUtils.varname_of_string ~hyphen:'-' name in let hlp = match short_descr_opt with | Some txt -> txt () | None -> "" in let arg_hlp = match def.arg_help with | Some s -> s | None -> "str" in let default_value = try Printf.sprintf (f_ " [%s]") (Schema.get schema env name) with Not_set _ -> "" in let args = match def.cli with | CLINone -> [] | CLIAuto -> [ arg_concat "--" arg_name, Arg.String var_set, Printf.sprintf (f_ "%s %s%s") arg_hlp hlp default_value ] | CLIWith -> [ arg_concat "--with-" arg_name, Arg.String var_set, Printf.sprintf (f_ "%s %s%s") arg_hlp hlp default_value ] | CLIEnable -> let dflt = if default_value = " [true]" then s_ " [default: enabled]" else s_ " [default: disabled]" in [ arg_concat "--enable-" arg_name, Arg.Unit (fun () -> var_set "true"), Printf.sprintf (f_ " %s%s") hlp dflt; arg_concat "--disable-" arg_name, Arg.Unit (fun () -> var_set "false"), Printf.sprintf (f_ " %s%s") hlp dflt ] | CLIUser lst -> lst in args :: acc) [] schema) end module BaseArgExt = struct (* # 22 "src/base/BaseArgExt.ml" *) open OASISUtils open OASISGettext let parse argv args = (* Simulate command line for Arg *) let current = ref 0 in try Arg.parse_argv ~current:current (Array.concat [[|"none"|]; argv]) (Arg.align args) (failwithf (f_ "Don't know what to do with arguments: '%s'")) (s_ "configure options:") with | Arg.Help txt -> print_endline txt; exit 0 | Arg.Bad txt -> prerr_endline txt; exit 1 end module BaseCheck = struct (* # 22 "src/base/BaseCheck.ml" *) open BaseEnv open BaseMessage open OASISUtils open OASISGettext let prog_best prg prg_lst = var_redefine prg (fun () -> let alternate = List.fold_left (fun res e -> match res with | Some _ -> res | None -> try Some (OASISFileUtil.which ~ctxt:!BaseContext.default e) with Not_found -> None) None prg_lst in match alternate with | Some prg -> prg | None -> raise Not_found) let prog prg = prog_best prg [prg] let prog_opt prg = prog_best prg [prg^".opt"; prg] let ocamlfind = prog "ocamlfind" let version var_prefix cmp fversion () = (* Really compare version provided *) let var = var_prefix^"_version_"^(OASISVersion.varname_of_comparator cmp) in var_redefine ~hide:true var (fun () -> let version_str = match fversion () with | "[Distributed with OCaml]" -> begin try (var_get "ocaml_version") with Not_found -> warning (f_ "Variable ocaml_version not defined, fallback \ to default"); Sys.ocaml_version end | res -> res in let version = OASISVersion.version_of_string version_str in if OASISVersion.comparator_apply version cmp then version_str else failwithf (f_ "Cannot satisfy version constraint on %s: %s (version: %s)") var_prefix (OASISVersion.string_of_comparator cmp) version_str) () let package_version pkg = OASISExec.run_read_one_line ~ctxt:!BaseContext.default (ocamlfind ()) ["query"; "-format"; "%v"; pkg] let package ?version_comparator pkg () = let var = OASISUtils.varname_concat "pkg_" (OASISUtils.varname_of_string pkg) in let findlib_dir pkg = let dir = OASISExec.run_read_one_line ~ctxt:!BaseContext.default (ocamlfind ()) ["query"; "-format"; "%d"; pkg] in if Sys.file_exists dir && Sys.is_directory dir then dir else failwithf (f_ "When looking for findlib package %s, \ directory %s return doesn't exist") pkg dir in let vl = var_redefine var (fun () -> findlib_dir pkg) () in ( match version_comparator with | Some ver_cmp -> ignore (version var ver_cmp (fun _ -> package_version pkg) ()) | None -> () ); vl end module BaseOCamlcConfig = struct (* # 22 "src/base/BaseOCamlcConfig.ml" *) open BaseEnv open OASISUtils open OASISGettext module SMap = Map.Make(String) let ocamlc = BaseCheck.prog_opt "ocamlc" let ocamlc_config_map = (* Map name to value for ocamlc -config output (name ^": "^value) *) let rec split_field mp lst = match lst with | line :: tl -> let mp = try let pos_semicolon = String.index line ':' in if pos_semicolon > 1 then ( let name = String.sub line 0 pos_semicolon in let linelen = String.length line in let value = if linelen > pos_semicolon + 2 then String.sub line (pos_semicolon + 2) (linelen - pos_semicolon - 2) else "" in SMap.add name value mp ) else ( mp ) with Not_found -> ( mp ) in split_field mp tl | [] -> mp in let cache = lazy (var_protect (Marshal.to_string (split_field SMap.empty (OASISExec.run_read_output ~ctxt:!BaseContext.default (ocamlc ()) ["-config"])) [])) in var_redefine "ocamlc_config_map" ~hide:true ~dump:false (fun () -> (* TODO: update if ocamlc change !!! *) Lazy.force cache) let var_define nm = (* Extract data from ocamlc -config *) let avlbl_config_get () = Marshal.from_string (ocamlc_config_map ()) 0 in let chop_version_suffix s = try String.sub s 0 (String.index s '+') with _ -> s in let nm_config, value_config = match nm with | "ocaml_version" -> "version", chop_version_suffix | _ -> nm, (fun x -> x) in var_redefine nm (fun () -> try let map = avlbl_config_get () in let value = SMap.find nm_config map in value_config value with Not_found -> failwithf (f_ "Cannot find field '%s' in '%s -config' output") nm (ocamlc ())) end module BaseStandardVar = struct (* # 22 "src/base/BaseStandardVar.ml" *) open OASISGettext open OASISTypes open OASISExpr open BaseCheck open BaseEnv let ocamlfind = BaseCheck.ocamlfind let ocamlc = BaseOCamlcConfig.ocamlc let ocamlopt = prog_opt "ocamlopt" let ocamlbuild = prog "ocamlbuild" (**/**) let rpkg = ref None let pkg_get () = match !rpkg with | Some pkg -> pkg | None -> failwith (s_ "OASIS Package is not set") let var_cond = ref [] let var_define_cond ~since_version f dflt = let holder = ref (fun () -> dflt) in let since_version = OASISVersion.VGreaterEqual (OASISVersion.version_of_string since_version) in var_cond := (fun ver -> if OASISVersion.comparator_apply ver since_version then holder := f ()) :: !var_cond; fun () -> !holder () (**/**) let pkg_name = var_define ~short_desc:(fun () -> s_ "Package name") "pkg_name" (fun () -> (pkg_get ()).name) let pkg_version = var_define ~short_desc:(fun () -> s_ "Package version") "pkg_version" (fun () -> (OASISVersion.string_of_version (pkg_get ()).version)) let c = BaseOCamlcConfig.var_define let os_type = c "os_type" let system = c "system" let architecture = c "architecture" let ccomp_type = c "ccomp_type" let ocaml_version = c "ocaml_version" (* TODO: Check standard variable presence at runtime *) let standard_library_default = c "standard_library_default" let standard_library = c "standard_library" let standard_runtime = c "standard_runtime" let bytecomp_c_compiler = c "bytecomp_c_compiler" let native_c_compiler = c "native_c_compiler" let model = c "model" let ext_obj = c "ext_obj" let ext_asm = c "ext_asm" let ext_lib = c "ext_lib" let ext_dll = c "ext_dll" let default_executable_name = c "default_executable_name" let systhread_supported = c "systhread_supported" let flexlink = BaseCheck.prog "flexlink" let flexdll_version = var_define ~short_desc:(fun () -> "FlexDLL version (Win32)") "flexdll_version" (fun () -> let lst = OASISExec.run_read_output ~ctxt:!BaseContext.default (flexlink ()) ["-help"] in match lst with | line :: _ -> Scanf.sscanf line "FlexDLL version %s" (fun ver -> ver) | [] -> raise Not_found) (**/**) let p name hlp dflt = var_define ~short_desc:hlp ~cli:CLIAuto ~arg_help:"dir" name dflt let (/) a b = if os_type () = Sys.os_type then Filename.concat a b else if os_type () = "Unix" then OASISUnixPath.concat a b else OASISUtils.failwithf (f_ "Cannot handle os_type %s filename concat") (os_type ()) (**/**) let prefix = p "prefix" (fun () -> s_ "Install architecture-independent files dir") (fun () -> match os_type () with | "Win32" -> let program_files = Sys.getenv "PROGRAMFILES" in program_files/(pkg_name ()) | _ -> "/usr/local") let exec_prefix = p "exec_prefix" (fun () -> s_ "Install architecture-dependent files in dir") (fun () -> "$prefix") let bindir = p "bindir" (fun () -> s_ "User executables") (fun () -> "$exec_prefix"/"bin") let sbindir = p "sbindir" (fun () -> s_ "System admin executables") (fun () -> "$exec_prefix"/"sbin") let libexecdir = p "libexecdir" (fun () -> s_ "Program executables") (fun () -> "$exec_prefix"/"libexec") let sysconfdir = p "sysconfdir" (fun () -> s_ "Read-only single-machine data") (fun () -> "$prefix"/"etc") let sharedstatedir = p "sharedstatedir" (fun () -> s_ "Modifiable architecture-independent data") (fun () -> "$prefix"/"com") let localstatedir = p "localstatedir" (fun () -> s_ "Modifiable single-machine data") (fun () -> "$prefix"/"var") let libdir = p "libdir" (fun () -> s_ "Object code libraries") (fun () -> "$exec_prefix"/"lib") let datarootdir = p "datarootdir" (fun () -> s_ "Read-only arch-independent data root") (fun () -> "$prefix"/"share") let datadir = p "datadir" (fun () -> s_ "Read-only architecture-independent data") (fun () -> "$datarootdir") let infodir = p "infodir" (fun () -> s_ "Info documentation") (fun () -> "$datarootdir"/"info") let localedir = p "localedir" (fun () -> s_ "Locale-dependent data") (fun () -> "$datarootdir"/"locale") let mandir = p "mandir" (fun () -> s_ "Man documentation") (fun () -> "$datarootdir"/"man") let docdir = p "docdir" (fun () -> s_ "Documentation root") (fun () -> "$datarootdir"/"doc"/"$pkg_name") let htmldir = p "htmldir" (fun () -> s_ "HTML documentation") (fun () -> "$docdir") let dvidir = p "dvidir" (fun () -> s_ "DVI documentation") (fun () -> "$docdir") let pdfdir = p "pdfdir" (fun () -> s_ "PDF documentation") (fun () -> "$docdir") let psdir = p "psdir" (fun () -> s_ "PS documentation") (fun () -> "$docdir") let destdir = p "destdir" (fun () -> s_ "Prepend a path when installing package") (fun () -> raise (PropList.Not_set ("destdir", Some (s_ "undefined by construct")))) let findlib_version = var_define "findlib_version" (fun () -> BaseCheck.package_version "findlib") let is_native = var_define "is_native" (fun () -> try let _s: string = ocamlopt () in "true" with PropList.Not_set _ -> let _s: string = ocamlc () in "false") let ext_program = var_define "suffix_program" (fun () -> match os_type () with | "Win32" | "Cygwin" -> ".exe" | _ -> "") let rm = var_define ~short_desc:(fun () -> s_ "Remove a file.") "rm" (fun () -> match os_type () with | "Win32" -> "del" | _ -> "rm -f") let rmdir = var_define ~short_desc:(fun () -> s_ "Remove a directory.") "rmdir" (fun () -> match os_type () with | "Win32" -> "rd" | _ -> "rm -rf") let debug = var_define ~short_desc:(fun () -> s_ "Turn ocaml debug flag on") ~cli:CLIEnable "debug" (fun () -> "true") let profile = var_define ~short_desc:(fun () -> s_ "Turn ocaml profile flag on") ~cli:CLIEnable "profile" (fun () -> "false") let tests = var_define_cond ~since_version:"0.3" (fun () -> var_define ~short_desc:(fun () -> s_ "Compile tests executable and library and run them") ~cli:CLIEnable "tests" (fun () -> "false")) "true" let docs = var_define_cond ~since_version:"0.3" (fun () -> var_define ~short_desc:(fun () -> s_ "Create documentations") ~cli:CLIEnable "docs" (fun () -> "true")) "true" let native_dynlink = var_define ~short_desc:(fun () -> s_ "Compiler support generation of .cmxs.") ~cli:CLINone "native_dynlink" (fun () -> let res = let ocaml_lt_312 () = OASISVersion.comparator_apply (OASISVersion.version_of_string (ocaml_version ())) (OASISVersion.VLesser (OASISVersion.version_of_string "3.12.0")) in let flexdll_lt_030 () = OASISVersion.comparator_apply (OASISVersion.version_of_string (flexdll_version ())) (OASISVersion.VLesser (OASISVersion.version_of_string "0.30")) in let has_native_dynlink = let ocamlfind = ocamlfind () in try let fn = OASISExec.run_read_one_line ~ctxt:!BaseContext.default ocamlfind ["query"; "-predicates"; "native"; "dynlink"; "-format"; "%d/%a"] in Sys.file_exists fn with _ -> false in if not has_native_dynlink then false else if ocaml_lt_312 () then false else if (os_type () = "Win32" || os_type () = "Cygwin") && flexdll_lt_030 () then begin BaseMessage.warning (f_ ".cmxs generation disabled because FlexDLL needs to be \ at least 0.30. Please upgrade FlexDLL from %s to 0.30.") (flexdll_version ()); false end else true in string_of_bool res) let init pkg = rpkg := Some pkg; List.iter (fun f -> f pkg.oasis_version) !var_cond end module BaseFileAB = struct (* # 22 "src/base/BaseFileAB.ml" *) open BaseEnv open OASISGettext open BaseMessage let to_filename fn = let fn = OASISHostPath.of_unix fn in if not (Filename.check_suffix fn ".ab") then warning (f_ "File '%s' doesn't have '.ab' extension") fn; Filename.chop_extension fn let replace fn_lst = let buff = Buffer.create 13 in List.iter (fun fn -> let fn = OASISHostPath.of_unix fn in let chn_in = open_in fn in let chn_out = open_out (to_filename fn) in ( try while true do Buffer.add_string buff (var_expand (input_line chn_in)); Buffer.add_char buff '\n' done with End_of_file -> () ); Buffer.output_buffer chn_out buff; Buffer.clear buff; close_in chn_in; close_out chn_out) fn_lst end module BaseLog = struct (* # 22 "src/base/BaseLog.ml" *) open OASISUtils let default_filename = Filename.concat (Filename.dirname BaseEnv.default_filename) "setup.log" module SetTupleString = Set.Make (struct type t = string * string let compare (s11, s12) (s21, s22) = match String.compare s11 s21 with | 0 -> String.compare s12 s22 | n -> n end) let load () = if Sys.file_exists default_filename then begin let chn = open_in default_filename in let scbuf = Scanf.Scanning.from_file default_filename in let rec read_aux (st, lst) = if not (Scanf.Scanning.end_of_input scbuf) then begin let acc = try Scanf.bscanf scbuf "%S %S\n" (fun e d -> let t = e, d in if SetTupleString.mem t st then st, lst else SetTupleString.add t st, t :: lst) with Scanf.Scan_failure _ -> failwith (Scanf.bscanf scbuf "%l" (fun line -> Printf.sprintf "Malformed log file '%s' at line %d" default_filename line)) in read_aux acc end else begin close_in chn; List.rev lst end in read_aux (SetTupleString.empty, []) end else begin [] end let register event data = let chn_out = open_out_gen [Open_append; Open_creat; Open_text] 0o644 default_filename in Printf.fprintf chn_out "%S %S\n" event data; close_out chn_out let unregister event data = if Sys.file_exists default_filename then begin let lst = load () in let chn_out = open_out default_filename in let write_something = ref false in List.iter (fun (e, d) -> if e <> event || d <> data then begin write_something := true; Printf.fprintf chn_out "%S %S\n" e d end) lst; close_out chn_out; if not !write_something then Sys.remove default_filename end let filter events = let st_events = List.fold_left (fun st e -> SetString.add e st) SetString.empty events in List.filter (fun (e, _) -> SetString.mem e st_events) (load ()) let exists event data = List.exists (fun v -> (event, data) = v) (load ()) end module BaseBuilt = struct (* # 22 "src/base/BaseBuilt.ml" *) open OASISTypes open OASISGettext open BaseStandardVar open BaseMessage type t = | BExec (* Executable *) | BExecLib (* Library coming with executable *) | BLib (* Library *) | BObj (* Library *) | BDoc (* Document *) let to_log_event_file t nm = "built_"^ (match t with | BExec -> "exec" | BExecLib -> "exec_lib" | BLib -> "lib" | BObj -> "obj" | BDoc -> "doc")^ "_"^nm let to_log_event_done t nm = "is_"^(to_log_event_file t nm) let register t nm lst = BaseLog.register (to_log_event_done t nm) "true"; List.iter (fun alt -> let registered = List.fold_left (fun registered fn -> if OASISFileUtil.file_exists_case fn then begin BaseLog.register (to_log_event_file t nm) (if Filename.is_relative fn then Filename.concat (Sys.getcwd ()) fn else fn); true end else registered) false alt in if not registered then warning (f_ "Cannot find an existing alternative files among: %s") (String.concat (s_ ", ") alt)) lst let unregister t nm = List.iter (fun (e, d) -> BaseLog.unregister e d) (BaseLog.filter [to_log_event_file t nm; to_log_event_done t nm]) let fold t nm f acc = List.fold_left (fun acc (_, fn) -> if OASISFileUtil.file_exists_case fn then begin f acc fn end else begin warning (f_ "File '%s' has been marked as built \ for %s but doesn't exist") fn (Printf.sprintf (match t with | BExec | BExecLib -> (f_ "executable %s") | BLib -> (f_ "library %s") | BObj -> (f_ "object %s") | BDoc -> (f_ "documentation %s")) nm); acc end) acc (BaseLog.filter [to_log_event_file t nm]) let is_built t nm = List.fold_left (fun is_built (_, d) -> (try bool_of_string d with _ -> false)) false (BaseLog.filter [to_log_event_done t nm]) let of_executable ffn (cs, bs, exec) = let unix_exec_is, unix_dll_opt = OASISExecutable.unix_exec_is (cs, bs, exec) (fun () -> bool_of_string (is_native ())) ext_dll ext_program in let evs = (BExec, cs.cs_name, [[ffn unix_exec_is]]) :: (match unix_dll_opt with | Some fn -> [BExecLib, cs.cs_name, [[ffn fn]]] | None -> []) in evs, unix_exec_is, unix_dll_opt let of_library ffn (cs, bs, lib) = let unix_lst = OASISLibrary.generated_unix_files ~ctxt:!BaseContext.default ~source_file_exists:(fun fn -> OASISFileUtil.file_exists_case (OASISHostPath.of_unix fn)) ~is_native:(bool_of_string (is_native ())) ~has_native_dynlink:(bool_of_string (native_dynlink ())) ~ext_lib:(ext_lib ()) ~ext_dll:(ext_dll ()) (cs, bs, lib) in let evs = [BLib, cs.cs_name, List.map (List.map ffn) unix_lst] in evs, unix_lst let of_object ffn (cs, bs, obj) = let unix_lst = OASISObject.generated_unix_files ~ctxt:!BaseContext.default ~source_file_exists:(fun fn -> OASISFileUtil.file_exists_case (OASISHostPath.of_unix fn)) ~is_native:(bool_of_string (is_native ())) (cs, bs, obj) in let evs = [BObj, cs.cs_name, List.map (List.map ffn) unix_lst] in evs, unix_lst end module BaseCustom = struct (* # 22 "src/base/BaseCustom.ml" *) open BaseEnv open BaseMessage open OASISTypes open OASISGettext let run cmd args extra_args = OASISExec.run ~ctxt:!BaseContext.default ~quote:false (var_expand cmd) (List.map var_expand (args @ (Array.to_list extra_args))) let hook ?(failsafe=false) cstm f e = let optional_command lst = let printer = function | Some (cmd, args) -> String.concat " " (cmd :: args) | None -> s_ "No command" in match var_choose ~name:(s_ "Pre/Post Command") ~printer lst with | Some (cmd, args) -> begin try run cmd args [||] with e when failsafe -> warning (f_ "Command '%s' fail with error: %s") (String.concat " " (cmd :: args)) (match e with | Failure msg -> msg | e -> Printexc.to_string e) end | None -> () in let res = optional_command cstm.pre_command; f e in optional_command cstm.post_command; res end module BaseDynVar = struct (* # 22 "src/base/BaseDynVar.ml" *) open OASISTypes open OASISGettext open BaseEnv open BaseBuilt let init pkg = (* TODO: disambiguate exec vs other variable by adding exec_VARNAME. *) (* TODO: provide compile option for library libary_byte_args_VARNAME... *) List.iter (function | Executable (cs, bs, exec) -> if var_choose bs.bs_build then var_ignore (var_redefine (* We don't save this variable *) ~dump:false ~short_desc:(fun () -> Printf.sprintf (f_ "Filename of executable '%s'") cs.cs_name) (OASISUtils.varname_of_string cs.cs_name) (fun () -> let fn_opt = fold BExec cs.cs_name (fun _ fn -> Some fn) None in match fn_opt with | Some fn -> fn | None -> raise (PropList.Not_set (cs.cs_name, Some (Printf.sprintf (f_ "Executable '%s' not yet built.") cs.cs_name))))) | Library _ | Object _ | Flag _ | Test _ | SrcRepo _ | Doc _ -> ()) pkg.sections end module BaseTest = struct (* # 22 "src/base/BaseTest.ml" *) open BaseEnv open BaseMessage open OASISTypes open OASISExpr open OASISGettext let test lst pkg extra_args = let one_test (failure, n) (test_plugin, cs, test) = if var_choose ~name:(Printf.sprintf (f_ "test %s run") cs.cs_name) ~printer:string_of_bool test.test_run then begin let () = info (f_ "Running test '%s'") cs.cs_name in let back_cwd = match test.test_working_directory with | Some dir -> let cwd = Sys.getcwd () in let chdir d = info (f_ "Changing directory to '%s'") d; Sys.chdir d in chdir dir; fun () -> chdir cwd | None -> fun () -> () in try let failure_percent = BaseCustom.hook test.test_custom (test_plugin pkg (cs, test)) extra_args in back_cwd (); (failure_percent +. failure, n + 1) with e -> begin back_cwd (); raise e end end else begin info (f_ "Skipping test '%s'") cs.cs_name; (failure, n) end in let failed, n = List.fold_left one_test (0.0, 0) lst in let failure_percent = if n = 0 then 0.0 else failed /. (float_of_int n) in let msg = Printf.sprintf (f_ "Tests had a %.2f%% failure rate") (100. *. failure_percent) in if failure_percent > 0.0 then failwith msg else info "%s" msg; (* Possible explanation why the tests where not run. *) if OASISFeatures.package_test OASISFeatures.flag_tests pkg && not (bool_of_string (BaseStandardVar.tests ())) && lst <> [] then BaseMessage.warning "Tests are turned off, consider enabling with \ 'ocaml setup.ml -configure --enable-tests'" end module BaseDoc = struct (* # 22 "src/base/BaseDoc.ml" *) open BaseEnv open BaseMessage open OASISTypes open OASISGettext let doc lst pkg extra_args = let one_doc (doc_plugin, cs, doc) = if var_choose ~name:(Printf.sprintf (f_ "documentation %s build") cs.cs_name) ~printer:string_of_bool doc.doc_build then begin info (f_ "Building documentation '%s'") cs.cs_name; BaseCustom.hook doc.doc_custom (doc_plugin pkg (cs, doc)) extra_args end in List.iter one_doc lst; if OASISFeatures.package_test OASISFeatures.flag_docs pkg && not (bool_of_string (BaseStandardVar.docs ())) && lst <> [] then BaseMessage.warning "Docs are turned off, consider enabling with \ 'ocaml setup.ml -configure --enable-docs'" end module BaseSetup = struct (* # 22 "src/base/BaseSetup.ml" *) open BaseEnv open BaseMessage open OASISTypes open OASISSection open OASISGettext open OASISUtils type std_args_fun = package -> string array -> unit type ('a, 'b) section_args_fun = name * (package -> (common_section * 'a) -> string array -> 'b) type t = { configure: std_args_fun; build: std_args_fun; doc: ((doc, unit) section_args_fun) list; test: ((test, float) section_args_fun) list; install: std_args_fun; uninstall: std_args_fun; clean: std_args_fun list; clean_doc: (doc, unit) section_args_fun list; clean_test: (test, unit) section_args_fun list; distclean: std_args_fun list; distclean_doc: (doc, unit) section_args_fun list; distclean_test: (test, unit) section_args_fun list; package: package; oasis_fn: string option; oasis_version: string; oasis_digest: Digest.t option; oasis_exec: string option; oasis_setup_args: string list; setup_update: bool; } (* Associate a plugin function with data from package *) let join_plugin_sections filter_map lst = List.rev (List.fold_left (fun acc sct -> match filter_map sct with | Some e -> e :: acc | None -> acc) [] lst) (* Search for plugin data associated with a section name *) let lookup_plugin_section plugin action nm lst = try List.assoc nm lst with Not_found -> failwithf (f_ "Cannot find plugin %s matching section %s for %s action") plugin nm action let configure t args = (* Run configure *) BaseCustom.hook t.package.conf_custom (fun () -> (* Reload if preconf has changed it *) begin try unload (); load (); with _ -> () end; (* Run plugin's configure *) t.configure t.package args; (* Dump to allow postconf to change it *) dump ()) (); (* Reload environment *) unload (); load (); (* Save environment *) print (); (* Replace data in file *) BaseFileAB.replace t.package.files_ab let build t args = BaseCustom.hook t.package.build_custom (t.build t.package) args let doc t args = BaseDoc.doc (join_plugin_sections (function | Doc (cs, e) -> Some (lookup_plugin_section "documentation" (s_ "build") cs.cs_name t.doc, cs, e) | _ -> None) t.package.sections) t.package args let test t args = BaseTest.test (join_plugin_sections (function | Test (cs, e) -> Some (lookup_plugin_section "test" (s_ "run") cs.cs_name t.test, cs, e) | _ -> None) t.package.sections) t.package args let all t args = let rno_doc = ref false in let rno_test = ref false in let arg_rest = ref [] in Arg.parse_argv ~current:(ref 0) (Array.of_list ((Sys.executable_name^" all") :: (Array.to_list args))) [ "-no-doc", Arg.Set rno_doc, s_ "Don't run doc target"; "-no-test", Arg.Set rno_test, s_ "Don't run test target"; "--", Arg.Rest (fun arg -> arg_rest := arg :: !arg_rest), s_ "All arguments for configure."; ] (failwithf (f_ "Don't know what to do with '%s'")) ""; info "Running configure step"; configure t (Array.of_list (List.rev !arg_rest)); info "Running build step"; build t [||]; (* Load setup.log dynamic variables *) BaseDynVar.init t.package; if not !rno_doc then begin info "Running doc step"; doc t [||]; end else begin info "Skipping doc step" end; if not !rno_test then begin info "Running test step"; test t [||] end else begin info "Skipping test step" end let install t args = BaseCustom.hook t.package.install_custom (t.install t.package) args let uninstall t args = BaseCustom.hook t.package.uninstall_custom (t.uninstall t.package) args let reinstall t args = uninstall t args; install t args let clean, distclean = let failsafe f a = try f a with e -> warning (f_ "Action fail with error: %s") (match e with | Failure msg -> msg | e -> Printexc.to_string e) in let generic_clean t cstm mains docs tests args = BaseCustom.hook ~failsafe:true cstm (fun () -> (* Clean section *) List.iter (function | Test (cs, test) -> let f = try List.assoc cs.cs_name tests with Not_found -> fun _ _ _ -> () in failsafe (f t.package (cs, test)) args | Doc (cs, doc) -> let f = try List.assoc cs.cs_name docs with Not_found -> fun _ _ _ -> () in failsafe (f t.package (cs, doc)) args | Library _ | Object _ | Executable _ | Flag _ | SrcRepo _ -> ()) t.package.sections; (* Clean whole package *) List.iter (fun f -> failsafe (f t.package) args) mains) () in let clean t args = generic_clean t t.package.clean_custom t.clean t.clean_doc t.clean_test args in let distclean t args = (* Call clean *) clean t args; (* Call distclean code *) generic_clean t t.package.distclean_custom t.distclean t.distclean_doc t.distclean_test args; (* Remove generated file *) List.iter (fun fn -> if Sys.file_exists fn then begin info (f_ "Remove '%s'") fn; Sys.remove fn end) (BaseEnv.default_filename :: BaseLog.default_filename :: (List.rev_map BaseFileAB.to_filename t.package.files_ab)) in clean, distclean let version t _ = print_endline t.oasis_version let update_setup_ml, no_update_setup_ml_cli = let b = ref true in b, ("-no-update-setup-ml", Arg.Clear b, s_ " Don't try to update setup.ml, even if _oasis has changed.") let update_setup_ml t = let oasis_fn = match t.oasis_fn with | Some fn -> fn | None -> "_oasis" in let oasis_exec = match t.oasis_exec with | Some fn -> fn | None -> "oasis" in let ocaml = Sys.executable_name in let setup_ml, args = match Array.to_list Sys.argv with | setup_ml :: args -> setup_ml, args | [] -> failwith (s_ "Expecting non-empty command line arguments.") in let ocaml, setup_ml = if Sys.executable_name = Sys.argv.(0) then (* We are not running in standard mode, probably the script * is precompiled. *) "ocaml", "setup.ml" else ocaml, setup_ml in let no_update_setup_ml_cli, _, _ = no_update_setup_ml_cli in let do_update () = let oasis_exec_version = OASISExec.run_read_one_line ~ctxt:!BaseContext.default ~f_exit_code: (function | 0 -> () | 1 -> failwithf (f_ "Executable '%s' is probably an old version \ of oasis (< 0.3.0), please update to version \ v%s.") oasis_exec t.oasis_version | 127 -> failwithf (f_ "Cannot find executable '%s', please install \ oasis v%s.") oasis_exec t.oasis_version | n -> failwithf (f_ "Command '%s version' exited with code %d.") oasis_exec n) oasis_exec ["version"] in if OASISVersion.comparator_apply (OASISVersion.version_of_string oasis_exec_version) (OASISVersion.VGreaterEqual (OASISVersion.version_of_string t.oasis_version)) then begin (* We have a version >= for the executable oasis, proceed with * update. *) (* TODO: delegate this check to 'oasis setup'. *) if Sys.os_type = "Win32" then failwithf (f_ "It is not possible to update the running script \ setup.ml on Windows. Please update setup.ml by \ running '%s'.") (String.concat " " (oasis_exec :: "setup" :: t.oasis_setup_args)) else begin OASISExec.run ~ctxt:!BaseContext.default ~f_exit_code: (function | 0 -> () | n -> failwithf (f_ "Unable to update setup.ml using '%s', \ please fix the problem and retry.") oasis_exec) oasis_exec ("setup" :: t.oasis_setup_args); OASISExec.run ~ctxt:!BaseContext.default ocaml (setup_ml :: args) end end else failwithf (f_ "The version of '%s' (v%s) doesn't match the version of \ oasis used to generate the %s file. Please install at \ least oasis v%s.") oasis_exec oasis_exec_version setup_ml t.oasis_version in if !update_setup_ml then begin try match t.oasis_digest with | Some dgst -> if Sys.file_exists oasis_fn && dgst <> Digest.file "_oasis" then begin do_update (); true end else false | None -> false with e -> error (f_ "Error when updating setup.ml. If you want to avoid this error, \ you can bypass the update of %s by running '%s %s %s %s'") setup_ml ocaml setup_ml no_update_setup_ml_cli (String.concat " " args); raise e end else false let setup t = let catch_exn = ref true in try let act_ref = ref (fun _ -> failwithf (f_ "No action defined, run '%s %s -help'") Sys.executable_name Sys.argv.(0)) in let extra_args_ref = ref [] in let allow_empty_env_ref = ref false in let arg_handle ?(allow_empty_env=false) act = Arg.Tuple [ Arg.Rest (fun str -> extra_args_ref := str :: !extra_args_ref); Arg.Unit (fun () -> allow_empty_env_ref := allow_empty_env; act_ref := act); ] in Arg.parse (Arg.align ([ "-configure", arg_handle ~allow_empty_env:true configure, s_ "[options*] Configure the whole build process."; "-build", arg_handle build, s_ "[options*] Build executables and libraries."; "-doc", arg_handle doc, s_ "[options*] Build documents."; "-test", arg_handle test, s_ "[options*] Run tests."; "-all", arg_handle ~allow_empty_env:true all, s_ "[options*] Run configure, build, doc and test targets."; "-install", arg_handle install, s_ "[options*] Install libraries, data, executables \ and documents."; "-uninstall", arg_handle uninstall, s_ "[options*] Uninstall libraries, data, executables \ and documents."; "-reinstall", arg_handle reinstall, s_ "[options*] Uninstall and install libraries, data, \ executables and documents."; "-clean", arg_handle ~allow_empty_env:true clean, s_ "[options*] Clean files generated by a build."; "-distclean", arg_handle ~allow_empty_env:true distclean, s_ "[options*] Clean files generated by a build and configure."; "-version", arg_handle ~allow_empty_env:true version, s_ " Display version of OASIS used to generate this setup.ml."; "-no-catch-exn", Arg.Clear catch_exn, s_ " Don't catch exception, useful for debugging."; ] @ (if t.setup_update then [no_update_setup_ml_cli] else []) @ (BaseContext.args ()))) (failwithf (f_ "Don't know what to do with '%s'")) (s_ "Setup and run build process current package\n"); (* Build initial environment *) load ~allow_empty:!allow_empty_env_ref (); (** Initialize flags *) List.iter (function | Flag (cs, {flag_description = hlp; flag_default = choices}) -> begin let apply ?short_desc () = var_ignore (var_define ~cli:CLIEnable ?short_desc (OASISUtils.varname_of_string cs.cs_name) (fun () -> string_of_bool (var_choose ~name:(Printf.sprintf (f_ "default value of flag %s") cs.cs_name) ~printer:string_of_bool choices))) in match hlp with | Some hlp -> apply ~short_desc:(fun () -> hlp) () | None -> apply () end | _ -> ()) t.package.sections; BaseStandardVar.init t.package; BaseDynVar.init t.package; if t.setup_update && update_setup_ml t then () else !act_ref t (Array.of_list (List.rev !extra_args_ref)) with e when !catch_exn -> error "%s" (Printexc.to_string e); exit 1 end # 5271 "setup.ml" module InternalConfigurePlugin = struct (* # 22 "src/plugins/internal/InternalConfigurePlugin.ml" *) (** Configure using internal scheme @author Sylvain Le Gall *) open BaseEnv open OASISTypes open OASISUtils open OASISGettext open BaseMessage (** Configure build using provided series of check to be done * and then output corresponding file. *) let configure pkg argv = let var_ignore_eval var = let _s: string = var () in () in let errors = ref SetString.empty in let buff = Buffer.create 13 in let add_errors fmt = Printf.kbprintf (fun b -> errors := SetString.add (Buffer.contents b) !errors; Buffer.clear b) buff fmt in let warn_exception e = warning "%s" (Printexc.to_string e) in (* Check tools *) let check_tools lst = List.iter (function | ExternalTool tool -> begin try var_ignore_eval (BaseCheck.prog tool) with e -> warn_exception e; add_errors (f_ "Cannot find external tool '%s'") tool end | InternalExecutable nm1 -> (* Check that matching tool is built *) List.iter (function | Executable ({cs_name = nm2}, {bs_build = build}, _) when nm1 = nm2 -> if not (var_choose build) then add_errors (f_ "Cannot find buildable internal executable \ '%s' when checking build depends") nm1 | _ -> ()) pkg.sections) lst in let build_checks sct bs = if var_choose bs.bs_build then begin if bs.bs_compiled_object = Native then begin try var_ignore_eval BaseStandardVar.ocamlopt with e -> warn_exception e; add_errors (f_ "Section %s requires native compilation") (OASISSection.string_of_section sct) end; (* Check tools *) check_tools bs.bs_build_tools; (* Check depends *) List.iter (function | FindlibPackage (findlib_pkg, version_comparator) -> begin try var_ignore_eval (BaseCheck.package ?version_comparator findlib_pkg) with e -> warn_exception e; match version_comparator with | None -> add_errors (f_ "Cannot find findlib package %s") findlib_pkg | Some ver_cmp -> add_errors (f_ "Cannot find findlib package %s (%s)") findlib_pkg (OASISVersion.string_of_comparator ver_cmp) end | InternalLibrary nm1 -> (* Check that matching library is built *) List.iter (function | Library ({cs_name = nm2}, {bs_build = build}, _) when nm1 = nm2 -> if not (var_choose build) then add_errors (f_ "Cannot find buildable internal library \ '%s' when checking build depends") nm1 | _ -> ()) pkg.sections) bs.bs_build_depends end in (* Parse command line *) BaseArgExt.parse argv (BaseEnv.args ()); (* OCaml version *) begin match pkg.ocaml_version with | Some ver_cmp -> begin try var_ignore_eval (BaseCheck.version "ocaml" ver_cmp BaseStandardVar.ocaml_version) with e -> warn_exception e; add_errors (f_ "OCaml version %s doesn't match version constraint %s") (BaseStandardVar.ocaml_version ()) (OASISVersion.string_of_comparator ver_cmp) end | None -> () end; (* Findlib version *) begin match pkg.findlib_version with | Some ver_cmp -> begin try var_ignore_eval (BaseCheck.version "findlib" ver_cmp BaseStandardVar.findlib_version) with e -> warn_exception e; add_errors (f_ "Findlib version %s doesn't match version constraint %s") (BaseStandardVar.findlib_version ()) (OASISVersion.string_of_comparator ver_cmp) end | None -> () end; (* Make sure the findlib version is fine for the OCaml compiler. *) begin let ocaml_ge4 = OASISVersion.version_compare (OASISVersion.version_of_string (BaseStandardVar.ocaml_version())) (OASISVersion.version_of_string "4.0.0") >= 0 in if ocaml_ge4 then let findlib_lt132 = OASISVersion.version_compare (OASISVersion.version_of_string (BaseStandardVar.findlib_version())) (OASISVersion.version_of_string "1.3.2") < 0 in if findlib_lt132 then add_errors "OCaml >= 4.0.0 requires Findlib version >= 1.3.2" end; (* FlexDLL *) if BaseStandardVar.os_type () = "Win32" || BaseStandardVar.os_type () = "Cygwin" then begin try var_ignore_eval BaseStandardVar.flexlink with e -> warn_exception e; add_errors (f_ "Cannot find 'flexlink'") end; (* Check build depends *) List.iter (function | Executable (_, bs, _) | Library (_, bs, _) as sct -> build_checks sct bs | Doc (_, doc) -> if var_choose doc.doc_build then check_tools doc.doc_build_tools | Test (_, test) -> if var_choose test.test_run then check_tools test.test_tools | _ -> ()) pkg.sections; (* Check if we need native dynlink (presence of libraries that compile to * native) *) begin let has_cmxa = List.exists (function | Library (_, bs, _) -> var_choose bs.bs_build && (bs.bs_compiled_object = Native || (bs.bs_compiled_object = Best && bool_of_string (BaseStandardVar.is_native ()))) | _ -> false) pkg.sections in if has_cmxa then var_ignore_eval BaseStandardVar.native_dynlink end; (* Check errors *) if SetString.empty != !errors then begin List.iter (fun e -> error "%s" e) (SetString.elements !errors); failwithf (fn_ "%d configuration error" "%d configuration errors" (SetString.cardinal !errors)) (SetString.cardinal !errors) end end module InternalInstallPlugin = struct (* # 22 "src/plugins/internal/InternalInstallPlugin.ml" *) (** Install using internal scheme @author Sylvain Le Gall *) open BaseEnv open BaseStandardVar open BaseMessage open OASISTypes open OASISFindlib open OASISGettext open OASISUtils let exec_hook = ref (fun (cs, bs, exec) -> cs, bs, exec) let lib_hook = ref (fun (cs, bs, lib) -> cs, bs, lib, []) let obj_hook = ref (fun (cs, bs, obj) -> cs, bs, obj, []) let doc_hook = ref (fun (cs, doc) -> cs, doc) let install_file_ev = "install-file" let install_dir_ev = "install-dir" let install_findlib_ev = "install-findlib" let win32_max_command_line_length = 8000 let split_install_command ocamlfind findlib_name meta files = if Sys.os_type = "Win32" then (* Arguments for the first command: *) let first_args = ["install"; findlib_name; meta] in (* Arguments for remaining commands: *) let other_args = ["install"; findlib_name; "-add"] in (* Extract as much files as possible from [files], [len] is the current command line length: *) let rec get_files len acc files = match files with | [] -> (List.rev acc, []) | file :: rest -> let len = len + 1 + String.length file in if len > win32_max_command_line_length then (List.rev acc, files) else get_files len (file :: acc) rest in (* Split the command into several commands. *) let rec split args files = match files with | [] -> [] | _ -> (* Length of "ocamlfind install [META|-add]" *) let len = List.fold_left (fun len arg -> len + 1 (* for the space *) + String.length arg) (String.length ocamlfind) args in match get_files len [] files with | ([], _) -> failwith (s_ "Command line too long.") | (firsts, others) -> let cmd = args @ firsts in (* Use -add for remaining commands: *) let () = let findlib_ge_132 = OASISVersion.comparator_apply (OASISVersion.version_of_string (BaseStandardVar.findlib_version ())) (OASISVersion.VGreaterEqual (OASISVersion.version_of_string "1.3.2")) in if not findlib_ge_132 then failwithf (f_ "Installing the library %s require to use the \ flag '-add' of ocamlfind because the command \ line is too long. This flag is only available \ for findlib 1.3.2. Please upgrade findlib from \ %s to 1.3.2") findlib_name (BaseStandardVar.findlib_version ()) in let cmds = split other_args others in cmd :: cmds in (* The first command does not use -add: *) split first_args files else ["install" :: findlib_name :: meta :: files] let install pkg argv = let in_destdir = try let destdir = destdir () in (* Practically speaking destdir is prepended * at the beginning of the target filename *) fun fn -> destdir^fn with PropList.Not_set _ -> fun fn -> fn in let install_file ?tgt_fn src_file envdir = let tgt_dir = in_destdir (envdir ()) in let tgt_file = Filename.concat tgt_dir (match tgt_fn with | Some fn -> fn | None -> Filename.basename src_file) in (* Create target directory if needed *) OASISFileUtil.mkdir_parent ~ctxt:!BaseContext.default (fun dn -> info (f_ "Creating directory '%s'") dn; BaseLog.register install_dir_ev dn) tgt_dir; (* Really install files *) info (f_ "Copying file '%s' to '%s'") src_file tgt_file; OASISFileUtil.cp ~ctxt:!BaseContext.default src_file tgt_file; BaseLog.register install_file_ev tgt_file in (* Install data into defined directory *) let install_data srcdir lst tgtdir = let tgtdir = OASISHostPath.of_unix (var_expand tgtdir) in List.iter (fun (src, tgt_opt) -> let real_srcs = OASISFileUtil.glob ~ctxt:!BaseContext.default (Filename.concat srcdir src) in if real_srcs = [] then failwithf (f_ "Wildcard '%s' doesn't match any files") src; List.iter (fun fn -> install_file fn (fun () -> match tgt_opt with | Some s -> OASISHostPath.of_unix (var_expand s) | None -> tgtdir)) real_srcs) lst in (** Install all libraries *) let install_libs pkg = let files_of_library (f_data, acc) data_lib = let cs, bs, lib, lib_extra = !lib_hook data_lib in if var_choose bs.bs_install && BaseBuilt.is_built BaseBuilt.BLib cs.cs_name then begin let acc = (* Start with acc + lib_extra *) List.rev_append lib_extra acc in let acc = (* Add uncompiled header from the source tree *) let path = OASISHostPath.of_unix bs.bs_path in List.fold_left (fun acc modul -> try List.find OASISFileUtil.file_exists_case (List.map (Filename.concat path) [modul^".mli"; modul^".ml"; String.uncapitalize modul^".mli"; String.capitalize modul^".mli"; String.uncapitalize modul^".ml"; String.capitalize modul^".ml"]) :: acc with Not_found -> begin warning (f_ "Cannot find source header for module %s \ in library %s") modul cs.cs_name; acc end) acc lib.lib_modules in let acc = (* Get generated files *) BaseBuilt.fold BaseBuilt.BLib cs.cs_name (fun acc fn -> fn :: acc) acc in let f_data () = (* Install data associated with the library *) install_data bs.bs_path bs.bs_data_files (Filename.concat (datarootdir ()) pkg.name); f_data () in (f_data, acc) end else begin (f_data, acc) end and files_of_object (f_data, acc) data_obj = let cs, bs, obj, obj_extra = !obj_hook data_obj in if var_choose bs.bs_install && BaseBuilt.is_built BaseBuilt.BObj cs.cs_name then begin let acc = (* Start with acc + obj_extra *) List.rev_append obj_extra acc in let acc = (* Add uncompiled header from the source tree *) let path = OASISHostPath.of_unix bs.bs_path in List.fold_left (fun acc modul -> try List.find OASISFileUtil.file_exists_case (List.map (Filename.concat path) [modul^".mli"; modul^".ml"; String.uncapitalize modul^".mli"; String.capitalize modul^".mli"; String.uncapitalize modul^".ml"; String.capitalize modul^".ml"]) :: acc with Not_found -> begin warning (f_ "Cannot find source header for module %s \ in object %s") modul cs.cs_name; acc end) acc obj.obj_modules in let acc = (* Get generated files *) BaseBuilt.fold BaseBuilt.BObj cs.cs_name (fun acc fn -> fn :: acc) acc in let f_data () = (* Install data associated with the object *) install_data bs.bs_path bs.bs_data_files (Filename.concat (datarootdir ()) pkg.name); f_data () in (f_data, acc) end else begin (f_data, acc) end in (* Install one group of library *) let install_group_lib grp = (* Iterate through all group nodes *) let rec install_group_lib_aux data_and_files grp = let data_and_files, children = match grp with | Container (_, children) -> data_and_files, children | Package (_, cs, bs, `Library lib, children) -> files_of_library data_and_files (cs, bs, lib), children | Package (_, cs, bs, `Object obj, children) -> files_of_object data_and_files (cs, bs, obj), children in List.fold_left install_group_lib_aux data_and_files children in (* Findlib name of the root library *) let findlib_name = findlib_of_group grp in (* Determine root library *) let root_lib = root_of_group grp in (* All files to install for this library *) let f_data, files = install_group_lib_aux (ignore, []) grp in (* Really install, if there is something to install *) if files = [] then begin warning (f_ "Nothing to install for findlib library '%s'") findlib_name end else begin let meta = (* Search META file *) let _, bs, _ = root_lib in let res = Filename.concat bs.bs_path "META" in if not (OASISFileUtil.file_exists_case res) then failwithf (f_ "Cannot find file '%s' for findlib library %s") res findlib_name; res in let files = (* Make filename shorter to avoid hitting command max line length * too early, esp. on Windows. *) let remove_prefix p n = let plen = String.length p in let nlen = String.length n in if plen <= nlen && String.sub n 0 plen = p then begin let fn_sep = if Sys.os_type = "Win32" then '\\' else '/' in let cutpoint = plen + (if plen < nlen && n.[plen] = fn_sep then 1 else 0) in String.sub n cutpoint (nlen - cutpoint) end else n in List.map (remove_prefix (Sys.getcwd ())) files in info (f_ "Installing findlib library '%s'") findlib_name; let ocamlfind = ocamlfind () in let commands = split_install_command ocamlfind findlib_name meta files in List.iter (OASISExec.run ~ctxt:!BaseContext.default ocamlfind) commands; BaseLog.register install_findlib_ev findlib_name end; (* Install data files *) f_data (); in let group_libs, _, _ = findlib_mapping pkg in (* We install libraries in groups *) List.iter install_group_lib group_libs in let install_execs pkg = let install_exec data_exec = let cs, bs, exec = !exec_hook data_exec in if var_choose bs.bs_install && BaseBuilt.is_built BaseBuilt.BExec cs.cs_name then begin let exec_libdir () = Filename.concat (libdir ()) pkg.name in BaseBuilt.fold BaseBuilt.BExec cs.cs_name (fun () fn -> install_file ~tgt_fn:(cs.cs_name ^ ext_program ()) fn bindir) (); BaseBuilt.fold BaseBuilt.BExecLib cs.cs_name (fun () fn -> install_file fn exec_libdir) (); install_data bs.bs_path bs.bs_data_files (Filename.concat (datarootdir ()) pkg.name) end in List.iter (function | Executable (cs, bs, exec)-> install_exec (cs, bs, exec) | _ -> ()) pkg.sections in let install_docs pkg = let install_doc data = let cs, doc = !doc_hook data in if var_choose doc.doc_install && BaseBuilt.is_built BaseBuilt.BDoc cs.cs_name then begin let tgt_dir = OASISHostPath.of_unix (var_expand doc.doc_install_dir) in BaseBuilt.fold BaseBuilt.BDoc cs.cs_name (fun () fn -> install_file fn (fun () -> tgt_dir)) (); install_data Filename.current_dir_name doc.doc_data_files doc.doc_install_dir end in List.iter (function | Doc (cs, doc) -> install_doc (cs, doc) | _ -> ()) pkg.sections in install_libs pkg; install_execs pkg; install_docs pkg (* Uninstall already installed data *) let uninstall _ argv = List.iter (fun (ev, data) -> if ev = install_file_ev then begin if OASISFileUtil.file_exists_case data then begin info (f_ "Removing file '%s'") data; Sys.remove data end else begin warning (f_ "File '%s' doesn't exist anymore") data end end else if ev = install_dir_ev then begin if Sys.file_exists data && Sys.is_directory data then begin if Sys.readdir data = [||] then begin info (f_ "Removing directory '%s'") data; OASISFileUtil.rmdir ~ctxt:!BaseContext.default data end else begin warning (f_ "Directory '%s' is not empty (%s)") data (String.concat ", " (Array.to_list (Sys.readdir data))) end end else begin warning (f_ "Directory '%s' doesn't exist anymore") data end end else if ev = install_findlib_ev then begin info (f_ "Removing findlib library '%s'") data; OASISExec.run ~ctxt:!BaseContext.default (ocamlfind ()) ["remove"; data] end else failwithf (f_ "Unknown log event '%s'") ev; BaseLog.unregister ev data) (* We process event in reverse order *) (List.rev (BaseLog.filter [install_file_ev; install_dir_ev; install_findlib_ev])) end # 6120 "setup.ml" module OCamlbuildCommon = struct (* # 22 "src/plugins/ocamlbuild/OCamlbuildCommon.ml" *) (** Functions common to OCamlbuild build and doc plugin *) open OASISGettext open BaseEnv open BaseStandardVar let ocamlbuild_clean_ev = "ocamlbuild-clean" let ocamlbuildflags = var_define ~short_desc:(fun () -> "OCamlbuild additional flags") "ocamlbuildflags" (fun () -> "") (** Fix special arguments depending on environment *) let fix_args args extra_argv = List.flatten [ if (os_type ()) = "Win32" then [ "-classic-display"; "-no-log"; "-no-links"; "-install-lib-dir"; (Filename.concat (standard_library ()) "ocamlbuild") ] else []; if not (bool_of_string (is_native ())) || (os_type ()) = "Win32" then [ "-byte-plugin" ] else []; args; if bool_of_string (debug ()) then ["-tag"; "debug"] else []; if bool_of_string (profile ()) then ["-tag"; "profile"] else []; OASISString.nsplit (ocamlbuildflags ()) ' '; Array.to_list extra_argv; ] (** Run 'ocamlbuild -clean' if not already done *) let run_clean extra_argv = let extra_cli = String.concat " " (Array.to_list extra_argv) in (* Run if never called with these args *) if not (BaseLog.exists ocamlbuild_clean_ev extra_cli) then begin OASISExec.run ~ctxt:!BaseContext.default (ocamlbuild ()) (fix_args ["-clean"] extra_argv); BaseLog.register ocamlbuild_clean_ev extra_cli; at_exit (fun () -> try BaseLog.unregister ocamlbuild_clean_ev extra_cli with _ -> ()) end (** Run ocamlbuild, unregister all clean events *) let run_ocamlbuild args extra_argv = (* TODO: enforce that target in args must be UNIX encoded i.e. toto/index.html *) OASISExec.run ~ctxt:!BaseContext.default (ocamlbuild ()) (fix_args args extra_argv); (* Remove any clean event, we must run it again *) List.iter (fun (e, d) -> BaseLog.unregister e d) (BaseLog.filter [ocamlbuild_clean_ev]) (** Determine real build directory *) let build_dir extra_argv = let rec search_args dir = function | "-build-dir" :: dir :: tl -> search_args dir tl | _ :: tl -> search_args dir tl | [] -> dir in search_args "_build" (fix_args [] extra_argv) end module OCamlbuildPlugin = struct (* # 22 "src/plugins/ocamlbuild/OCamlbuildPlugin.ml" *) (** Build using ocamlbuild @author Sylvain Le Gall *) open OASISTypes open OASISGettext open OASISUtils open OASISString open BaseEnv open OCamlbuildCommon open BaseStandardVar open BaseMessage let cond_targets_hook = ref (fun lst -> lst) type ocamlbuild_plugin = { plugin_tags: string option; extra_args: string list; } let check_ocaml_version version pkg = match pkg.ocaml_version with | Some ocaml_version -> let min_ocaml_version = OASISVersion.version_of_string version in OASISVersion.comparator_ge min_ocaml_version ocaml_version | None -> false let ocamlbuild_supports_ocamlfind = check_ocaml_version "3.12.1" let ocamlbuild_supports_plugin_tags = check_ocaml_version "4.01" let build t pkg argv = (* Return the filename in build directory *) let in_build_dir fn = Filename.concat (build_dir argv) fn in (* Return the unix filename in host build directory *) let in_build_dir_of_unix fn = in_build_dir (OASISHostPath.of_unix fn) in let cond_targets = List.fold_left (fun acc -> function | Library (cs, bs, lib) when var_choose bs.bs_build -> begin let evs, unix_files = BaseBuilt.of_library in_build_dir_of_unix (cs, bs, lib) in let tgts = List.flatten (List.filter (fun l -> l <> []) (List.map (List.filter (fun fn -> ends_with ~what:".cma" fn || ends_with ~what:".cmxs" fn || ends_with ~what:".cmxa" fn || ends_with ~what:(ext_lib ()) fn || ends_with ~what:(ext_dll ()) fn)) unix_files)) in match tgts with | _ :: _ -> (evs, tgts) :: acc | [] -> failwithf (f_ "No possible ocamlbuild targets for library %s") cs.cs_name end | Object (cs, bs, obj) when var_choose bs.bs_build -> begin let evs, unix_files = BaseBuilt.of_object in_build_dir_of_unix (cs, bs, obj) in let tgts = List.flatten (List.filter (fun l -> l <> []) (List.map (List.filter (fun fn -> ends_with ".cmo" fn || ends_with ".cmx" fn)) unix_files)) in match tgts with | _ :: _ -> (evs, tgts) :: acc | [] -> failwithf (f_ "No possible ocamlbuild targets for object %s") cs.cs_name end | Executable (cs, bs, exec) when var_choose bs.bs_build -> begin let evs, unix_exec_is, unix_dll_opt = BaseBuilt.of_executable in_build_dir_of_unix (cs, bs, exec) in let target ext = let unix_tgt = (OASISUnixPath.concat bs.bs_path (OASISUnixPath.chop_extension exec.exec_main_is))^ext in let evs = (* Fix evs, we want to use the unix_tgt, without copying *) List.map (function | BaseBuilt.BExec, nm, lst when nm = cs.cs_name -> BaseBuilt.BExec, nm, [[in_build_dir_of_unix unix_tgt]] | ev -> ev) evs in evs, [unix_tgt] in (* Add executable *) let acc = match bs.bs_compiled_object with | Native -> (target ".native") :: acc | Best when bool_of_string (is_native ()) -> (target ".native") :: acc | Byte | Best -> (target ".byte") :: acc in acc end | Library _ | Object _ | Executable _ | Test _ | SrcRepo _ | Flag _ | Doc _ -> acc) [] (* Keep the pkg.sections ordered *) (List.rev pkg.sections); in (* Check and register built files *) let check_and_register (bt, bnm, lst) = List.iter (fun fns -> if not (List.exists OASISFileUtil.file_exists_case fns) then failwithf (fn_ "Expected built file %s doesn't exist." "None of expected built files %s exists." (List.length fns)) (String.concat (s_ " or ") (List.map (Printf.sprintf "'%s'") fns))) lst; (BaseBuilt.register bt bnm lst) in let cond_targets = (* Run the hook *) !cond_targets_hook cond_targets in let extra_args = match t.plugin_tags with | Some tags -> "-plugin-tags" :: ("'" ^ tags ^ "'") :: t.extra_args | None -> t.extra_args in let extra_args = if ocamlbuild_supports_ocamlfind pkg then "-use-ocamlfind" :: extra_args else extra_args in (* Run a list of target... *) run_ocamlbuild (List.flatten (List.map snd cond_targets) @ extra_args) argv; (* ... and register events *) List.iter check_and_register (List.flatten (List.map fst cond_targets)) let clean pkg extra_args = run_clean extra_args; List.iter (function | Library (cs, _, _) -> BaseBuilt.unregister BaseBuilt.BLib cs.cs_name | Executable (cs, _, _) -> BaseBuilt.unregister BaseBuilt.BExec cs.cs_name; BaseBuilt.unregister BaseBuilt.BExecLib cs.cs_name | _ -> ()) pkg.sections end module OCamlbuildDocPlugin = struct (* # 22 "src/plugins/ocamlbuild/OCamlbuildDocPlugin.ml" *) (* Create documentation using ocamlbuild .odocl files @author Sylvain Le Gall *) open OASISTypes open OASISGettext open OASISMessage open OCamlbuildCommon open BaseStandardVar let doc_build path pkg (cs, doc) argv = let index_html = OASISUnixPath.make [ path; cs.cs_name^".docdir"; "index.html"; ] in let tgt_dir = OASISHostPath.make [ build_dir argv; OASISHostPath.of_unix path; cs.cs_name^".docdir"; ] in run_ocamlbuild [index_html] argv; List.iter (fun glb -> BaseBuilt.register BaseBuilt.BDoc cs.cs_name [OASISFileUtil.glob ~ctxt:!BaseContext.default (Filename.concat tgt_dir glb)]) ["*.html"; "*.css"] let doc_clean t pkg (cs, doc) argv = run_clean argv; BaseBuilt.unregister BaseBuilt.BDoc cs.cs_name end # 6522 "setup.ml" module CustomPlugin = struct (* # 22 "src/plugins/custom/CustomPlugin.ml" *) (** Generate custom configure/build/doc/test/install system @author *) open BaseEnv open OASISGettext open OASISTypes type t = { cmd_main: command_line conditional; cmd_clean: (command_line option) conditional; cmd_distclean: (command_line option) conditional; } let run = BaseCustom.run let main t _ extra_args = let cmd, args = var_choose ~name:(s_ "main command") t.cmd_main in run cmd args extra_args let clean t pkg extra_args = match var_choose t.cmd_clean with | Some (cmd, args) -> run cmd args extra_args | _ -> () let distclean t pkg extra_args = match var_choose t.cmd_distclean with | Some (cmd, args) -> run cmd args extra_args | _ -> () module Build = struct let main t pkg extra_args = main t pkg extra_args; List.iter (fun sct -> let evs = match sct with | Library (cs, bs, lib) when var_choose bs.bs_build -> begin let evs, _ = BaseBuilt.of_library OASISHostPath.of_unix (cs, bs, lib) in evs end | Executable (cs, bs, exec) when var_choose bs.bs_build -> begin let evs, _, _ = BaseBuilt.of_executable OASISHostPath.of_unix (cs, bs, exec) in evs end | _ -> [] in List.iter (fun (bt, bnm, lst) -> BaseBuilt.register bt bnm lst) evs) pkg.sections let clean t pkg extra_args = clean t pkg extra_args; (* TODO: this seems to be pretty generic (at least wrt to ocamlbuild * considering moving this to BaseSetup? *) List.iter (function | Library (cs, _, _) -> BaseBuilt.unregister BaseBuilt.BLib cs.cs_name | Executable (cs, _, _) -> BaseBuilt.unregister BaseBuilt.BExec cs.cs_name; BaseBuilt.unregister BaseBuilt.BExecLib cs.cs_name | _ -> ()) pkg.sections let distclean t pkg extra_args = distclean t pkg extra_args end module Test = struct let main t pkg (cs, test) extra_args = try main t pkg extra_args; 0.0 with Failure s -> BaseMessage.warning (f_ "Test '%s' fails: %s") cs.cs_name s; 1.0 let clean t pkg (cs, test) extra_args = clean t pkg extra_args let distclean t pkg (cs, test) extra_args = distclean t pkg extra_args end module Doc = struct let main t pkg (cs, _) extra_args = main t pkg extra_args; BaseBuilt.register BaseBuilt.BDoc cs.cs_name [] let clean t pkg (cs, _) extra_args = clean t pkg extra_args; BaseBuilt.unregister BaseBuilt.BDoc cs.cs_name let distclean t pkg (cs, _) extra_args = distclean t pkg extra_args end end # 6670 "setup.ml" open OASISTypes;; let setup_t = { BaseSetup.configure = InternalConfigurePlugin.configure; build = OCamlbuildPlugin.build {OCamlbuildPlugin.plugin_tags = None; extra_args = []}; test = [ ("test_agg", CustomPlugin.Test.main { CustomPlugin.cmd_main = [(OASISExpr.EBool true, ("$test_agg", []))]; cmd_clean = [(OASISExpr.EBool true, None)]; cmd_distclean = [(OASISExpr.EBool true, None)] }); ("test_db", CustomPlugin.Test.main { CustomPlugin.cmd_main = [(OASISExpr.EBool true, ("$test_db", []))]; cmd_clean = [(OASISExpr.EBool true, None)]; cmd_distclean = [(OASISExpr.EBool true, None)] }); ("test_exec", CustomPlugin.Test.main { CustomPlugin.cmd_main = [(OASISExpr.EBool true, ("$test_exec", []))]; cmd_clean = [(OASISExpr.EBool true, None)]; cmd_distclean = [(OASISExpr.EBool true, None)] }); ("test_fun", CustomPlugin.Test.main { CustomPlugin.cmd_main = [(OASISExpr.EBool true, ("$test_fun", []))]; cmd_clean = [(OASISExpr.EBool true, None)]; cmd_distclean = [(OASISExpr.EBool true, None)] }); ("test_stmt", CustomPlugin.Test.main { CustomPlugin.cmd_main = [(OASISExpr.EBool true, ("$test_stmt", []))]; cmd_clean = [(OASISExpr.EBool true, None)]; cmd_distclean = [(OASISExpr.EBool true, None)] }) ]; doc = [("API", OCamlbuildDocPlugin.doc_build ".")]; install = InternalInstallPlugin.install; uninstall = InternalInstallPlugin.uninstall; clean = [OCamlbuildPlugin.clean]; clean_test = [ ("test_agg", CustomPlugin.Test.clean { CustomPlugin.cmd_main = [(OASISExpr.EBool true, ("$test_agg", []))]; cmd_clean = [(OASISExpr.EBool true, None)]; cmd_distclean = [(OASISExpr.EBool true, None)] }); ("test_db", CustomPlugin.Test.clean { CustomPlugin.cmd_main = [(OASISExpr.EBool true, ("$test_db", []))]; cmd_clean = [(OASISExpr.EBool true, None)]; cmd_distclean = [(OASISExpr.EBool true, None)] }); ("test_exec", CustomPlugin.Test.clean { CustomPlugin.cmd_main = [(OASISExpr.EBool true, ("$test_exec", []))]; cmd_clean = [(OASISExpr.EBool true, None)]; cmd_distclean = [(OASISExpr.EBool true, None)] }); ("test_fun", CustomPlugin.Test.clean { CustomPlugin.cmd_main = [(OASISExpr.EBool true, ("$test_fun", []))]; cmd_clean = [(OASISExpr.EBool true, None)]; cmd_distclean = [(OASISExpr.EBool true, None)] }); ("test_stmt", CustomPlugin.Test.clean { CustomPlugin.cmd_main = [(OASISExpr.EBool true, ("$test_stmt", []))]; cmd_clean = [(OASISExpr.EBool true, None)]; cmd_distclean = [(OASISExpr.EBool true, None)] }) ]; clean_doc = [("API", OCamlbuildDocPlugin.doc_clean ".")]; distclean = []; distclean_test = [ ("test_agg", CustomPlugin.Test.distclean { CustomPlugin.cmd_main = [(OASISExpr.EBool true, ("$test_agg", []))]; cmd_clean = [(OASISExpr.EBool true, None)]; cmd_distclean = [(OASISExpr.EBool true, None)] }); ("test_db", CustomPlugin.Test.distclean { CustomPlugin.cmd_main = [(OASISExpr.EBool true, ("$test_db", []))]; cmd_clean = [(OASISExpr.EBool true, None)]; cmd_distclean = [(OASISExpr.EBool true, None)] }); ("test_exec", CustomPlugin.Test.distclean { CustomPlugin.cmd_main = [(OASISExpr.EBool true, ("$test_exec", []))]; cmd_clean = [(OASISExpr.EBool true, None)]; cmd_distclean = [(OASISExpr.EBool true, None)] }); ("test_fun", CustomPlugin.Test.distclean { CustomPlugin.cmd_main = [(OASISExpr.EBool true, ("$test_fun", []))]; cmd_clean = [(OASISExpr.EBool true, None)]; cmd_distclean = [(OASISExpr.EBool true, None)] }); ("test_stmt", CustomPlugin.Test.distclean { CustomPlugin.cmd_main = [(OASISExpr.EBool true, ("$test_stmt", []))]; cmd_clean = [(OASISExpr.EBool true, None)]; cmd_distclean = [(OASISExpr.EBool true, None)] }) ]; distclean_doc = []; package = { oasis_version = "0.4"; ocaml_version = Some (OASISVersion.VGreaterEqual "3.12"); findlib_version = Some (OASISVersion.VGreaterEqual "1.3.1"); alpha_features = []; beta_features = []; name = "sqlite3-ocaml"; version = "2.0.5"; license = OASISLicense.DEP5License (OASISLicense.DEP5Unit { OASISLicense.license = "LGPL"; excption = Some "OCaml linking"; version = OASISLicense.VersionOrLater "2.1" }); license_file = Some "COPYING.txt"; copyrights = [ "(C) 2007-2010 Jane Street Holding LLC "; "(C) 2010-2012 Markus Mottl "; "(C) 2005-2012 Christian Szegedy " ]; maintainers = [ "Markus Mottl "; "Christian Szegedy " ]; authors = [ "Markus Mottl "; "Christian Szegedy " ]; homepage = Some "https://bitbucket.org/mmottl/sqlite3-ocaml"; synopsis = "sqlite3-ocaml - bindings to the SQLite3 library"; description = Some "sqlite3-ocaml offers library functions for accessing SQLite3 database"; categories = []; conf_type = (`Configure, "internal", Some "0.4"); conf_custom = { pre_command = [(OASISExpr.EBool true, None)]; post_command = [(OASISExpr.EBool true, None)] }; build_type = (`Build, "ocamlbuild", Some "0.4"); build_custom = { pre_command = [(OASISExpr.EBool true, None)]; post_command = [(OASISExpr.EBool true, None)] }; install_type = (`Install, "internal", Some "0.4"); install_custom = { pre_command = [(OASISExpr.EBool true, None)]; post_command = [(OASISExpr.EBool true, None)] }; uninstall_custom = { pre_command = [(OASISExpr.EBool true, None)]; post_command = [(OASISExpr.EBool true, None)] }; clean_custom = { pre_command = [(OASISExpr.EBool true, None)]; post_command = [(OASISExpr.EBool true, None)] }; distclean_custom = { pre_command = [(OASISExpr.EBool true, None)]; post_command = [(OASISExpr.EBool true, None)] }; files_ab = []; sections = [ Flag ({ cs_name = "strict"; cs_data = PropList.Data.create (); cs_plugin_data = [] }, { flag_description = Some "Strict compile-time checks"; flag_default = [(OASISExpr.EBool true, true)] }); Library ({ cs_name = "sqlite3"; cs_data = PropList.Data.create (); cs_plugin_data = [] }, { bs_build = [(OASISExpr.EBool true, true)]; bs_install = [(OASISExpr.EBool true, true)]; bs_path = "lib"; bs_compiled_object = Best; bs_build_depends = []; bs_build_tools = [ExternalTool "ocamldoc"; ExternalTool "ocamlbuild"]; bs_c_sources = ["sqlite3_stubs.c"]; bs_data_files = []; bs_ccopt = [ (OASISExpr.EBool true, ["-g"; "-O2"; "-fPIC"; "-DPIC"]); (OASISExpr.EAnd (OASISExpr.EFlag "strict", OASISExpr.ETest ("ccomp_type", "cc")), [ "-g"; "-O2"; "-fPIC"; "-DPIC"; "-Wall"; "-pedantic"; "-Wextra"; "-Wunused"; "-Wno-long-long" ]) ]; bs_cclib = [(OASISExpr.EBool true, ["-lsqlite3"])]; bs_dlllib = [(OASISExpr.EBool true, [])]; bs_dllpath = [(OASISExpr.EBool true, [])]; bs_byteopt = [(OASISExpr.EBool true, [])]; bs_nativeopt = [(OASISExpr.EBool true, [])] }, { lib_modules = ["Sqlite3"]; lib_pack = false; lib_internal_modules = []; lib_findlib_parent = None; lib_findlib_name = Some "sqlite3"; lib_findlib_containers = [] }); Executable ({ cs_name = "test_agg"; cs_data = PropList.Data.create (); cs_plugin_data = [] }, { bs_build = [ (OASISExpr.EBool true, false); (OASISExpr.EFlag "tests", true) ]; bs_install = [(OASISExpr.EBool true, false)]; bs_path = "test"; bs_compiled_object = Best; bs_build_depends = [InternalLibrary "sqlite3"]; bs_build_tools = [ExternalTool "ocamldoc"; ExternalTool "ocamlbuild"]; bs_c_sources = []; bs_data_files = []; bs_ccopt = [(OASISExpr.EBool true, [])]; bs_cclib = [(OASISExpr.EBool true, [])]; bs_dlllib = [(OASISExpr.EBool true, [])]; bs_dllpath = [(OASISExpr.EBool true, [])]; bs_byteopt = [(OASISExpr.EBool true, [])]; bs_nativeopt = [(OASISExpr.EBool true, [])] }, {exec_custom = false; exec_main_is = "test_agg.ml"}); Test ({ cs_name = "test_agg"; cs_data = PropList.Data.create (); cs_plugin_data = [] }, { test_type = (`Test, "custom", Some "0.4"); test_command = [(OASISExpr.EBool true, ("$test_agg", []))]; test_custom = { pre_command = [(OASISExpr.EBool true, None)]; post_command = [(OASISExpr.EBool true, None)] }; test_working_directory = Some "test"; test_run = [ (OASISExpr.ENot (OASISExpr.EFlag "tests"), false); (OASISExpr.EFlag "tests", false); (OASISExpr.EAnd (OASISExpr.EFlag "tests", OASISExpr.EFlag "tests"), true) ]; test_tools = [ExternalTool "ocamldoc"; ExternalTool "ocamlbuild"] }); Executable ({ cs_name = "test_db"; cs_data = PropList.Data.create (); cs_plugin_data = [] }, { bs_build = [ (OASISExpr.EBool true, false); (OASISExpr.EFlag "tests", true) ]; bs_install = [(OASISExpr.EBool true, false)]; bs_path = "test"; bs_compiled_object = Best; bs_build_depends = [InternalLibrary "sqlite3"]; bs_build_tools = [ExternalTool "ocamldoc"; ExternalTool "ocamlbuild"]; bs_c_sources = []; bs_data_files = []; bs_ccopt = [(OASISExpr.EBool true, [])]; bs_cclib = [(OASISExpr.EBool true, [])]; bs_dlllib = [(OASISExpr.EBool true, [])]; bs_dllpath = [(OASISExpr.EBool true, [])]; bs_byteopt = [(OASISExpr.EBool true, [])]; bs_nativeopt = [(OASISExpr.EBool true, [])] }, {exec_custom = false; exec_main_is = "test_db.ml"}); Test ({ cs_name = "test_db"; cs_data = PropList.Data.create (); cs_plugin_data = [] }, { test_type = (`Test, "custom", Some "0.4"); test_command = [(OASISExpr.EBool true, ("$test_db", []))]; test_custom = { pre_command = [(OASISExpr.EBool true, None)]; post_command = [(OASISExpr.EBool true, None)] }; test_working_directory = Some "test"; test_run = [ (OASISExpr.ENot (OASISExpr.EFlag "tests"), false); (OASISExpr.EFlag "tests", false); (OASISExpr.EAnd (OASISExpr.EFlag "tests", OASISExpr.EFlag "tests"), true) ]; test_tools = [ExternalTool "ocamldoc"; ExternalTool "ocamlbuild"] }); Executable ({ cs_name = "test_exec"; cs_data = PropList.Data.create (); cs_plugin_data = [] }, { bs_build = [ (OASISExpr.EBool true, false); (OASISExpr.EFlag "tests", true) ]; bs_install = [(OASISExpr.EBool true, false)]; bs_path = "test"; bs_compiled_object = Best; bs_build_depends = [InternalLibrary "sqlite3"]; bs_build_tools = [ExternalTool "ocamldoc"; ExternalTool "ocamlbuild"]; bs_c_sources = []; bs_data_files = []; bs_ccopt = [(OASISExpr.EBool true, [])]; bs_cclib = [(OASISExpr.EBool true, [])]; bs_dlllib = [(OASISExpr.EBool true, [])]; bs_dllpath = [(OASISExpr.EBool true, [])]; bs_byteopt = [(OASISExpr.EBool true, [])]; bs_nativeopt = [(OASISExpr.EBool true, [])] }, {exec_custom = false; exec_main_is = "test_exec.ml"}); Test ({ cs_name = "test_exec"; cs_data = PropList.Data.create (); cs_plugin_data = [] }, { test_type = (`Test, "custom", Some "0.4"); test_command = [(OASISExpr.EBool true, ("$test_exec", []))]; test_custom = { pre_command = [(OASISExpr.EBool true, None)]; post_command = [(OASISExpr.EBool true, None)] }; test_working_directory = Some "test"; test_run = [ (OASISExpr.ENot (OASISExpr.EFlag "tests"), false); (OASISExpr.EFlag "tests", false); (OASISExpr.EAnd (OASISExpr.EFlag "tests", OASISExpr.EFlag "tests"), true) ]; test_tools = [ExternalTool "ocamldoc"; ExternalTool "ocamlbuild"] }); Executable ({ cs_name = "test_fun"; cs_data = PropList.Data.create (); cs_plugin_data = [] }, { bs_build = [ (OASISExpr.EBool true, false); (OASISExpr.EFlag "tests", true) ]; bs_install = [(OASISExpr.EBool true, false)]; bs_path = "test"; bs_compiled_object = Best; bs_build_depends = [ InternalLibrary "sqlite3"; FindlibPackage ("str", None) ]; bs_build_tools = [ExternalTool "ocamldoc"; ExternalTool "ocamlbuild"]; bs_c_sources = []; bs_data_files = []; bs_ccopt = [(OASISExpr.EBool true, [])]; bs_cclib = [(OASISExpr.EBool true, [])]; bs_dlllib = [(OASISExpr.EBool true, [])]; bs_dllpath = [(OASISExpr.EBool true, [])]; bs_byteopt = [(OASISExpr.EBool true, [])]; bs_nativeopt = [(OASISExpr.EBool true, [])] }, {exec_custom = false; exec_main_is = "test_fun.ml"}); Test ({ cs_name = "test_fun"; cs_data = PropList.Data.create (); cs_plugin_data = [] }, { test_type = (`Test, "custom", Some "0.4"); test_command = [(OASISExpr.EBool true, ("$test_fun", []))]; test_custom = { pre_command = [(OASISExpr.EBool true, None)]; post_command = [(OASISExpr.EBool true, None)] }; test_working_directory = Some "test"; test_run = [ (OASISExpr.ENot (OASISExpr.EFlag "tests"), false); (OASISExpr.EFlag "tests", false); (OASISExpr.EAnd (OASISExpr.EFlag "tests", OASISExpr.EFlag "tests"), true) ]; test_tools = [ExternalTool "ocamldoc"; ExternalTool "ocamlbuild"] }); Executable ({ cs_name = "test_stmt"; cs_data = PropList.Data.create (); cs_plugin_data = [] }, { bs_build = [ (OASISExpr.EBool true, false); (OASISExpr.EFlag "tests", true) ]; bs_install = [(OASISExpr.EBool true, false)]; bs_path = "test"; bs_compiled_object = Best; bs_build_depends = [InternalLibrary "sqlite3"]; bs_build_tools = [ExternalTool "ocamldoc"; ExternalTool "ocamlbuild"]; bs_c_sources = []; bs_data_files = []; bs_ccopt = [(OASISExpr.EBool true, [])]; bs_cclib = [(OASISExpr.EBool true, [])]; bs_dlllib = [(OASISExpr.EBool true, [])]; bs_dllpath = [(OASISExpr.EBool true, [])]; bs_byteopt = [(OASISExpr.EBool true, [])]; bs_nativeopt = [(OASISExpr.EBool true, [])] }, {exec_custom = false; exec_main_is = "test_stmt.ml"}); Test ({ cs_name = "test_stmt"; cs_data = PropList.Data.create (); cs_plugin_data = [] }, { test_type = (`Test, "custom", Some "0.4"); test_command = [(OASISExpr.EBool true, ("$test_stmt", []))]; test_custom = { pre_command = [(OASISExpr.EBool true, None)]; post_command = [(OASISExpr.EBool true, Some (("rm", ["t"])))] }; test_working_directory = Some "test"; test_run = [ (OASISExpr.ENot (OASISExpr.EFlag "tests"), false); (OASISExpr.EFlag "tests", false); (OASISExpr.EAnd (OASISExpr.EFlag "tests", OASISExpr.EFlag "tests"), true) ]; test_tools = [ExternalTool "ocamldoc"; ExternalTool "ocamlbuild"] }); Doc ({ cs_name = "API"; cs_data = PropList.Data.create (); cs_plugin_data = [] }, { doc_type = (`Doc, "OCamlbuild", Some "0.4"); doc_custom = { pre_command = [(OASISExpr.EBool true, None)]; post_command = [(OASISExpr.EBool true, None)] }; doc_build = [ (OASISExpr.ENot (OASISExpr.EFlag "docs"), false); (OASISExpr.EFlag "docs", true) ]; doc_install = [(OASISExpr.EBool true, true)]; doc_install_dir = "$docdir/api"; doc_title = "API reference for sqlite3-ocaml"; doc_authors = []; doc_abstract = None; doc_format = OtherDoc; doc_data_files = []; doc_build_tools = [ExternalTool "ocamldoc"; ExternalTool "ocamlbuild"] }); SrcRepo ({ cs_name = "trunk"; cs_data = PropList.Data.create (); cs_plugin_data = [] }, { src_repo_type = Hg; src_repo_location = "ssh://hg@bitbucket.org/mmottl/sqlite3-ocaml"; src_repo_browser = Some "https://bitbucket.org/mmottl/sqlite3-ocaml"; src_repo_module = None; src_repo_branch = None; src_repo_tag = Some "release-$(pkg_version)"; src_repo_subdir = None }) ]; plugins = [ (`Extra, "META", Some "0.4"); (`Extra, "StdFiles", Some "0.4"); (`Extra, "DevFiles", Some "0.4") ]; schema_data = PropList.Data.create (); plugin_data = [] }; oasis_fn = Some "_oasis"; oasis_version = "0.4.0"; oasis_digest = Some "\n¬\146Kç<'\015¸\nÀ`ÆY\r\029"; oasis_exec = None; oasis_setup_args = []; setup_update = false };; let setup () = BaseSetup.setup setup_t;; # 7301 "setup.ml" (* OASIS_STOP *) let () = setup ();; sqlite3-ocaml-2.0.5/test/test_agg.ml0000644000000000000000000000212112253667662015442 0ustar 00000000000000open Sqlite3 let () = let db = db_open "t" in Aggregate.create_fun2 db "STRREPEAT" ~init:[] ~step:(fun l s i -> match s, i with | Data.TEXT s, Data.INT i -> let suffix = String.make (Int64.to_int i) s.[0] in (s ^ suffix) :: l | _ -> raise (Error "wrong types to 'STRREPEAT'")) ~final:(fun l -> Data.TEXT (String.concat " | " (List.rev l))); let sqls = [ "DROP TABLE IF EXISTS tbl"; "CREATE TABLE tbl (a varchar(10), a2 varchar(10), b INTEGER, c FLOAT)"; "INSERT INTO tbl VALUES ('pippo', 'foo', 3, 3.14)"; "INSERT INTO tbl VALUES ('bar', 'onion', 5, 3.14)"; "SELECT STRREPEAT(a, b) FROM tbl"; "SELECT STRREPEAT(a2, b) FROM tbl"; ] in List.iter (fun sql -> try let res = exec db sql ~cb:(fun row _ -> match row.(0) with | Some a -> print_endline a | _ -> ()) in match res with | Rc.OK -> () | r -> prerr_endline (Rc.to_string r); prerr_endline (errmsg db) with Error s -> prerr_endline s) sqls sqlite3-ocaml-2.0.5/test/test_db.ml0000644000000000000000000000021712253667662015275 0ustar 00000000000000open Sqlite3 let () = for i = 1 to 1000 do Printf.printf "->%d\n%!" i; ignore (db_open "t"); Printf.printf "<-%d\n%!" i; done sqlite3-ocaml-2.0.5/test/test_exec.ml0000644000000000000000000000261612253667662015641 0ustar 00000000000000open Printf open Sqlite3 exception Dummy let () = let db = db_open "t" in for i = 0 to 10 do try let sql = sprintf "CREATE TABLE tbl%d (a varchar(1), b INTEGER, c FLOAT)" i in printf "%d %s\n%!" i sql; match exec db sql ~cb:(fun _ _ -> print_endline "???") with | Rc.OK -> () | _ -> assert false with xcp -> print_endline (Printexc.to_string xcp) done; for i = 0 to 3 do let sql = sprintf "SYNTACTICALLY INCORRECT SQL STATEMENT" in printf "%d %s\n%!" i sql; try match exec db sql ~cb:(fun _ _ -> print_endline "???") with | Rc.ERROR -> printf "Identified error: %s\n" (errmsg db) | _ -> assert false with xcp -> print_endline (Printexc.to_string xcp) done; for i = 0 to 3 do let sql = sprintf "INSERT INTO tbl%d VALUES ('a', 3, 3.14)" i in printf "%d %s\n%!" i sql; try match exec db sql ~cb:(fun _ _ -> print_endline "???") with | Rc.OK -> printf "Inserted %d rows\n%!" (changes db) | _ -> assert false with xcp -> print_endline (Printexc.to_string xcp) done; let sql = sprintf "SELECT * FROM tbl0" in for _i = 0 to 3 do try print_endline "TESTING!"; match exec db sql ~cb:(fun _ _ -> print_endline "FOUND!"; raise Dummy) with | Rc.OK -> print_endline "OK" | _ -> assert false with xcp -> print_endline (Printexc.to_string xcp) done sqlite3-ocaml-2.0.5/test/test_fun.ml0000644000000000000000000000211612253667662015500 0ustar 00000000000000open Printf open Sqlite3 let () = let db = db_open "t" in create_fun2 db "REGEX" (fun s rex -> match rex, s with | Data.TEXT rex, Data.BLOB s | Data.TEXT rex, Data.TEXT s -> let r = Str.regexp rex in if Str.string_match r s 0 then Data.INT 1L else Data.INT 0L | _ -> raise (Error "wrong types to 'REGEX'")); let sqls = [ "DROP TABLE IF EXISTS tbl"; "CREATE TABLE tbl (a varchar(10), b INTEGER, c FLOAT)"; "INSERT INTO tbl VALUES ('pippo', 3, 3.14)"; "SELECT * FROM tbl where REGEX(a,'^pippo$')"; "SELECT * FROM tbl where REGEX(a,'^ippo')"; "SELECT * FROM tbl where REGEX(a,'[^z]*')"; ] in List.iter (fun sql -> try let res = exec db sql ~cb:(fun row _ -> match row.(0), row.(1), row.(2) with | Some a, Some b, Some c -> printf "%s|%s|%s\n" a b c | _ -> ()) in match res with | Rc.OK -> () | r -> prerr_endline (Rc.to_string r); prerr_endline (errmsg db) with Error s -> prerr_endline s) sqls sqlite3-ocaml-2.0.5/test/test_stmt.ml0000644000000000000000000000463012253667662015702 0ustar 00000000000000open Sqlite3 let column_decltype s i = match column_decltype s i with | None -> "" | Some str -> str let stepbystep s = while step s = Rc.ROW do for i = 0 to data_count s - 1 do Printf.printf "%s column[%d] %s = %s\n%!" (column_decltype s i) i (column_name s i) (Data.to_string (column s i)) done done let stepbystep_wrong s = while step s = Rc.ROW do for i = 0 to data_count s do Printf.printf "%s column[%d] %s = %s\n%!" (column_decltype s i) i (column_name s i) (Data.to_string (column s i)) done done let () = let db = db_open "t" in (* Test the finalization... *) for _i = 0 to 100 do (* Printf.printf "Create statement %d\n%!" i; *) let sql = Printf.sprintf "SELECT * FROM tbl0" in ignore (prepare db sql) done; for _i = 0 to 100 do (* Printf.printf "Create statement %d\n%!" i; *) let sql = Printf.sprintf "SELECT * FROM tbl0" in ignore (finalize (prepare db sql)) done; for _i = 0 to 100 do (* Printf.printf "Create statement %d\n%!" i; *) let sql = Printf.sprintf "SELECT * FROM tbl0; SELECT * FROM tbl1;" in ignore (prepare_tail (prepare db sql)) done; for _i = 1 to 10 do (* Printf.printf "Create statement %d\n%!" i; *) let sql = Printf.sprintf "SELECT * FROM tbl0; SELECT * FROM tbl1;" in let stmt = prepare db sql in ignore (finalize stmt); try ignore (prepare_tail stmt) with _xcp -> () done; let sql = Printf.sprintf "SELECT * FROM tbl0; SELECT * FROM tbl0;" in let stmt = prepare db sql in print_endline "A-------------------------------------------"; stepbystep stmt; print_endline "B-------------------------------------------"; (match prepare_tail stmt with | Some s -> stepbystep s | None -> failwith "Tail not found!"); ignore (reset stmt); print_endline "C-------------------------------------------"; stepbystep stmt; print_endline "D-------------------------------------------"; (match prepare_tail stmt with | Some s -> stepbystep s | None -> failwith "Tail not found!"); (match prepare_tail stmt with | Some s -> stepbystep s | None -> failwith "Tail not found!"); print_endline "E-------------------------------------------"; try match prepare_tail stmt with | Some s -> stepbystep_wrong s | None -> failwith "Tail not found!" with xcp -> Printf.printf "Ok: %s\n" (Printexc.to_string xcp)