boost/tools/build/test/stage.py - nest-cam/4320010/boost - Git at Google

 #!/usr/bin/python

 # Copyright 2003 Dave Abrahams
 # Copyright 2002, 2003, 2004, 2005, 2006 Vladimir Prus
 # Distributed under the Boost Software License, Version 1.0.
 # (See accompanying file LICENSE_1_0.txt or http://www.boost.org/LICENSE_1_0.txt)

 # Test staging.

 import BoostBuild

 t = BoostBuild.Tester(use_test_config=False)

 t.write("jamroot.jam", "")
 t.write("jamfile.jam", """\
 lib a : a.cpp ;
 stage dist : a a.h auxilliary/1 ;
 """)
 t.write("a.cpp", """\
 int
 #ifdef _WIN32
 __declspec(dllexport)
 #endif
 must_export_something;
 """)
 t.write("a.h", "")
 t.write("auxilliary/1", "")

 t.run_build_system()
 t.expect_addition(["dist/a.dll", "dist/a.h", "dist/1"])


 # Regression test: the following was causing a "duplicate target name" error.
 t.write("jamfile.jam", """\
 project : requirements <hardcode-dll-paths>true ;
 lib a : a.cpp ;
 stage dist : a a.h auxilliary/1 ;
 alias dist-alias : dist ;
 """)

 t.run_build_system()


 # Test the <location> property.
 t.write("jamfile.jam", """\
 lib a : a.cpp ;
 stage dist : a : <variant>debug:<location>ds <variant>release:<location>rs ;
 """)

 t.run_build_system()
 t.expect_addition("ds/a.dll")

 t.run_build_system(["release"])
 t.expect_addition("rs/a.dll")


 # Test the <location> property in subprojects. Thanks to Kirill Lapshin for the
 # bug report.

 t.write("jamroot.jam", "path-constant DIST : dist ;")
 t.write("jamfile.jam", "build-project d ;")
 t.write("d/jamfile.jam", """\
 exe a : a.cpp ;
 stage dist : a : <location>$(DIST) ;
 """)
 t.write("d/a.cpp", "int main() {}\n")

 t.run_build_system()
 t.expect_addition("dist/a.exe")

 t.rm("dist")

 # Workaround a BIG BUG: the response file is not deleted, even if application
 # *is* deleted. We will try to use the same response file when building from
 # subdir, with very bad results.
 t.rm("d/bin")
 t.run_build_system(subdir="d")
 t.expect_addition("dist/a.exe")


 # Check that 'stage' does not incorrectly reset target suffixes.
 t.write("a.cpp", "int main() {}\n")
 t.write("jamroot.jam", """\
 import type ;
 type.register MYEXE : : EXE ;
 type.set-generated-target-suffix MYEXE : <optimization>off : myexe ;
 """)

 # Since <optimization>off is in properties when 'a' is built and staged, its
 # suffix should be "myexe".
 t.write("jamfile.jam", """\
 stage dist : a ;
 myexe a : a.cpp ;
 """)

 t.run_build_system()
 t.expect_addition("dist/a.myexe")

 # Test 'stage's ability to traverse dependencies.
 t.write("a.cpp", "int main() {}\n")
 t.write("l.cpp", """\
 void
 #if defined(_WIN32)
 __declspec(dllexport)
 #endif
 foo() {}
 """)
 t.write("jamfile.jam", """\
 lib l : l.cpp ;
 exe a : a.cpp l ;
 stage dist : a : <install-dependencies>on <install-type>EXE <install-type>LIB ;
 """)
 t.write("jamroot.jam", "")
 t.rm("dist")

 t.run_build_system()
 t.expect_addition("dist/a.exe")
 t.expect_addition("dist/l.dll")

 # Check that <use> properties are ignored the traversing target for staging.
 t.copy("l.cpp", "l2.cpp")
 t.copy("l.cpp", "l3.cpp")
 t.write("jamfile.jam", """\
 lib l2 : l2.cpp ;
 lib l3 : l3.cpp ;
 lib l : l.cpp : <use>l2 <dependency>l3 ;
 exe a : a.cpp l ;
 stage dist : a : <install-dependencies>on <install-type>EXE <install-type>LIB ;
 """)
 t.rm("dist")

 t.run_build_system()
 t.expect_addition("dist/l3.dll")
 t.expect_nothing("dist/l2.dll")

 # Check if <dependency> on 'stage' works.
 t.rm(".")
 t.write("jamroot.jam", """\
 stage a1 : a1.txt : <location>dist ;
 stage a2 : a2.txt : <location>dist <dependency>a1 ;
 """)
 t.write("a1.txt", "")
 t.write("a2.txt", "")
 t.run_build_system(["a2"])
 t.expect_addition(["dist/a1.txt", "dist/a2.txt"])

 # Regression test: check that <location>. works.
 t.rm(".")
 t.write("jamroot.jam", "stage a1 : d/a1.txt : <location>. ;")
 t.write("d/a1.txt", "")

 t.run_build_system()
 t.expect_addition("a1.txt")

 # Test that relative paths of sources can be preserved.
 t.rm(".")
 t.write("jamroot.jam", "install dist : a/b/c.h : <install-source-root>. ;")
 t.write("a/b/c.h", "")

 t.run_build_system()
 t.expect_addition("dist/a/b/c.h")

 t.write("jamroot.jam", "install dist : a/b/c.h : <install-source-root>a ;")
 t.write("a/b/c.h", "")

 t.run_build_system()
 t.expect_addition("dist/b/c.h")

 t.rm(".")
 t.write("build/jamroot.jam", """\
 install dist : ../a/b/c.h : <location>../dist <install-source-root>../a ;
 """)
 t.write("a/b/c.h", "")

 t.run_build_system(subdir="build")
 t.expect_addition("dist/b/c.h")

 t.write("jamroot.jam", "install dist2 : a/b/c.h : <install-source-root>a ;")
 t.write("a/b/c.h", "")
 t.write("sub/jamfile.jam", "alias h : ..//dist2 ;")

 t.run_build_system(subdir="sub")
 t.expect_addition("dist2/b/c.h")

 # Test that when installing .cpp files, we do not scan include dependencies.
 t.rm(".")
 t.write("jamroot.jam", "install dist : a.cpp ;")
 t.write("a.cpp", '#include "a.h"')
 t.write("a.h", "")

 t.run_build_system()
 t.expect_addition("dist/a.cpp")

 t.touch("a.h")

 t.run_build_system()
 t.expect_nothing("dist/a.cpp")

 # Test that <name> property works, when there is just one file in sources.
 t.rm(".")
 t.write("jamroot.jam", "install dist : a.cpp : <name>b.cpp ;")
 t.write("a.cpp", "test file")

 t.run_build_system()
 t.expect_addition("dist/b.cpp")

 t.cleanup()
	#!/usr/bin/python

	# Copyright 2003 Dave Abrahams
	# Copyright 2002, 2003, 2004, 2005, 2006 Vladimir Prus
	# Distributed under the Boost Software License, Version 1.0.
	# (See accompanying file LICENSE_1_0.txt or http://www.boost.org/LICENSE_1_0.txt)

	# Test staging.

	import BoostBuild

	t = BoostBuild.Tester(use_test_config=False)

	t.write("jamroot.jam", "")
	t.write("jamfile.jam", """\
	lib a : a.cpp ;
	stage dist : a a.h auxilliary/1 ;
	""")
	t.write("a.cpp", """\
	int
	#ifdef _WIN32
	__declspec(dllexport)
	#endif
	must_export_something;
	""")
	t.write("a.h", "")
	t.write("auxilliary/1", "")

	t.run_build_system()
	t.expect_addition(["dist/a.dll", "dist/a.h", "dist/1"])


	# Regression test: the following was causing a "duplicate target name" error.
	t.write("jamfile.jam", """\
	project : requirements <hardcode-dll-paths>true ;
	lib a : a.cpp ;
	stage dist : a a.h auxilliary/1 ;
	alias dist-alias : dist ;
	""")

	t.run_build_system()


	# Test the <location> property.
	t.write("jamfile.jam", """\
	lib a : a.cpp ;
	stage dist : a : <variant>debug:<location>ds <variant>release:<location>rs ;
	""")

	t.run_build_system()
	t.expect_addition("ds/a.dll")

	t.run_build_system(["release"])
	t.expect_addition("rs/a.dll")


	# Test the <location> property in subprojects. Thanks to Kirill Lapshin for the
	# bug report.

	t.write("jamroot.jam", "path-constant DIST : dist ;")
	t.write("jamfile.jam", "build-project d ;")
	t.write("d/jamfile.jam", """\
	exe a : a.cpp ;
	stage dist : a : <location>$(DIST) ;
	""")
	t.write("d/a.cpp", "int main() {}\n")

	t.run_build_system()
	t.expect_addition("dist/a.exe")

	t.rm("dist")

	# Workaround a BIG BUG: the response file is not deleted, even if application
	# is deleted. We will try to use the same response file when building from
	# subdir, with very bad results.
	t.rm("d/bin")
	t.run_build_system(subdir="d")
	t.expect_addition("dist/a.exe")


	# Check that 'stage' does not incorrectly reset target suffixes.
	t.write("a.cpp", "int main() {}\n")
	t.write("jamroot.jam", """\
	import type ;
	type.register MYEXE : : EXE ;
	type.set-generated-target-suffix MYEXE : <optimization>off : myexe ;
	""")

	# Since <optimization>off is in properties when 'a' is built and staged, its
	# suffix should be "myexe".
	t.write("jamfile.jam", """\
	stage dist : a ;
	myexe a : a.cpp ;
	""")

	t.run_build_system()
	t.expect_addition("dist/a.myexe")

	# Test 'stage's ability to traverse dependencies.
	t.write("a.cpp", "int main() {}\n")
	t.write("l.cpp", """\
	void
	#if defined(_WIN32)
	__declspec(dllexport)
	#endif
	foo() {}
	""")
	t.write("jamfile.jam", """\
	lib l : l.cpp ;
	exe a : a.cpp l ;
	stage dist : a : <install-dependencies>on <install-type>EXE <install-type>LIB ;
	""")
	t.write("jamroot.jam", "")
	t.rm("dist")

	t.run_build_system()
	t.expect_addition("dist/a.exe")
	t.expect_addition("dist/l.dll")

	# Check that <use> properties are ignored the traversing target for staging.
	t.copy("l.cpp", "l2.cpp")
	t.copy("l.cpp", "l3.cpp")
	t.write("jamfile.jam", """\
	lib l2 : l2.cpp ;
	lib l3 : l3.cpp ;
	lib l : l.cpp : <use>l2 <dependency>l3 ;
	exe a : a.cpp l ;
	stage dist : a : <install-dependencies>on <install-type>EXE <install-type>LIB ;
	""")
	t.rm("dist")

	t.run_build_system()
	t.expect_addition("dist/l3.dll")
	t.expect_nothing("dist/l2.dll")

	# Check if <dependency> on 'stage' works.
	t.rm(".")
	t.write("jamroot.jam", """\
	stage a1 : a1.txt : <location>dist ;
	stage a2 : a2.txt : <location>dist <dependency>a1 ;
	""")
	t.write("a1.txt", "")
	t.write("a2.txt", "")
	t.run_build_system(["a2"])
	t.expect_addition(["dist/a1.txt", "dist/a2.txt"])

	# Regression test: check that <location>. works.
	t.rm(".")
	t.write("jamroot.jam", "stage a1 : d/a1.txt : <location>. ;")
	t.write("d/a1.txt", "")

	t.run_build_system()
	t.expect_addition("a1.txt")

	# Test that relative paths of sources can be preserved.
	t.rm(".")
	t.write("jamroot.jam", "install dist : a/b/c.h : <install-source-root>. ;")
	t.write("a/b/c.h", "")

	t.run_build_system()
	t.expect_addition("dist/a/b/c.h")

	t.write("jamroot.jam", "install dist : a/b/c.h : <install-source-root>a ;")
	t.write("a/b/c.h", "")

	t.run_build_system()
	t.expect_addition("dist/b/c.h")

	t.rm(".")
	t.write("build/jamroot.jam", """\
	install dist : ../a/b/c.h : <location>../dist <install-source-root>../a ;
	""")
	t.write("a/b/c.h", "")

	t.run_build_system(subdir="build")
	t.expect_addition("dist/b/c.h")

	t.write("jamroot.jam", "install dist2 : a/b/c.h : <install-source-root>a ;")
	t.write("a/b/c.h", "")
	t.write("sub/jamfile.jam", "alias h : ..//dist2 ;")

	t.run_build_system(subdir="sub")
	t.expect_addition("dist2/b/c.h")

	# Test that when installing .cpp files, we do not scan include dependencies.
	t.rm(".")
	t.write("jamroot.jam", "install dist : a.cpp ;")
	t.write("a.cpp", '#include "a.h"')
	t.write("a.h", "")

	t.run_build_system()
	t.expect_addition("dist/a.cpp")

	t.touch("a.h")

	t.run_build_system()
	t.expect_nothing("dist/a.cpp")

	# Test that <name> property works, when there is just one file in sources.
	t.rm(".")
	t.write("jamroot.jam", "install dist : a.cpp : <name>b.cpp ;")
	t.write("a.cpp", "test file")

	t.run_build_system()
	t.expect_addition("dist/b.cpp")

	t.cleanup()