CMake/Tests/ComplexRelativePaths/Executable/complex.cxx

1269 lines
37 KiB
C++

#include "cmTestConfigure.h"
#include "cmTestConfigureEscape.h"
#include "cmTestGeneratedHeader.h"
#include "cmVersion.h"
#include "ExtraSources/file1.h"
#include "file2.h"
#include "sharedFile.h"
extern "C" {
#include "testConly.h"
}
#ifndef CMAKE_TEST_DIFFERENT_GENERATOR
#include "cmStandardIncludes.h"
#include "cmSystemTools.h"
#include "cmDynamicLoader.h"
#include "cmSystemTools.h"
#include "cmOrderLinkDirectories.h"
#include "cmGeneratedFileStream.h"
#include <cmsys/DynamicLoader.hxx>
#else
#include <vector>
#include <string>
#include <iostream>
#include <string.h>
#endif
int cm_passed = 0;
int cm_failed = 0;
// ======================================================================
void cmFailed(const char* Message, const char* m2= "", const char* m3 = "")
{
std::cout << "FAILED: " << Message << m2 << m3 << "\n";
cm_failed++;
}
// ======================================================================
void cmPassed(const char* Message, const char* m2="")
{
std::cout << "Passed: " << Message << m2 << "\n";
cm_passed++;
}
#ifndef CMAKE_IS_REALLY_FUN
This is a problem. Looks like ADD_DEFINITIONS and REMOVE_DEFINITIONS does not work
#endif
#ifndef CMAKE_TEST_DIFFERENT_GENERATOR
// Here is a stupid function that tries to use std::string methods
// so that the dec cxx compiler will instantiate the stuff that
// we are using from the CMakeLib library....
bool TestLibraryOrder(bool shouldFail)
{
std::string Adir = std::string(BINARY_DIR) + std::string("/A");
std::string Bdir = std::string(BINARY_DIR) + std::string("/B");
std::string Cdir = std::string(BINARY_DIR) + std::string("/C");
#ifdef _WIN32
// Avoid case problems for windows paths.
if(Adir[0] >= 'A' && Adir[0] <= 'Z') { Adir[0] += 'a' - 'A'; }
if(Bdir[0] >= 'A' && Bdir[0] <= 'Z') { Bdir[0] += 'a' - 'A'; }
if(Cdir[0] >= 'A' && Cdir[0] <= 'Z') { Cdir[0] += 'a' - 'A'; }
Adir = cmSystemTools::GetActualCaseForPath(Adir.c_str());
Bdir = cmSystemTools::GetActualCaseForPath(Bdir.c_str());
Cdir = cmSystemTools::GetActualCaseForPath(Cdir.c_str());
#endif
if(!shouldFail)
{
std::string rm = Bdir;
rm += "/libA.a";
cmSystemTools::RemoveFile(rm.c_str());
}
std::vector<std::string> linkLibraries;
std::vector<std::string> linkDirectories;
linkDirectories.push_back(Adir);
linkDirectories.push_back(Bdir);
linkDirectories.push_back(Cdir);
linkDirectories.push_back("/lib/extra/stuff");
Adir += "/libA.a";
Bdir += "/libB.a";
Cdir += "/libC.a";
linkLibraries.push_back(Adir);
linkLibraries.push_back(Bdir);
linkLibraries.push_back(Cdir);
linkLibraries.push_back("-lm");
std::vector<cmStdString> sortedpaths;
std::vector<cmStdString> linkItems;
cmOrderLinkDirectories orderLibs;
orderLibs.DebugOn();
orderLibs.AddLinkExtension(".so");
orderLibs.AddLinkExtension(".a");
orderLibs.SetLinkPrefix("lib");
cmTargetManifest manifest;
orderLibs.SetLinkInformation("test", linkLibraries, linkDirectories,
manifest, "");
bool ret = orderLibs.DetermineLibraryPathOrder();
if(!ret)
{
std::cout << orderLibs.GetWarnings() << "\n";
}
orderLibs.GetLinkerInformation(sortedpaths, linkItems);
std::cout << "Sorted Link Paths:\n";
for(std::vector<cmStdString>::iterator i = sortedpaths.begin();
i != sortedpaths.end(); ++i)
{
std::cout << *i << "\n";
}
std::cout << "Link Items: \n";
for(std::vector<cmStdString>::iterator i = linkItems.begin();
i != linkItems.end(); ++i)
{
std::cout << *i << "\n";
}
if(!(linkItems[0] == "A" &&
linkItems[1] == "B" &&
linkItems[2] == "C" &&
linkItems[3] == "-lm" ))
{
std::cout << "fail because link items should be A B C -lm and the are not\n";
return shouldFail;
}
// if this is not the fail test then the order should be f B C A
if(!shouldFail)
{
char order[5];
order[4] = 0;
for(int i =0; i < 4; ++i)
{
order[i] = sortedpaths[i][sortedpaths[i].size()-1];
}
if(!(strcmp(order, "fBCA") == 0 || strcmp(order, "BCAf") == 0))
{
std::cout << "fail because order should be /lib/extra/stuff B C A and it is not\n";
return false;
}
}
return ret;
}
// ======================================================================
void TestAndRemoveFile(const char* filename)
{
if (!cmSystemTools::FileExists(filename))
{
cmFailed("Could not find file: ", filename);
}
else
{
if (!cmSystemTools::RemoveFile(filename))
{
cmFailed("Unable to remove file. It does not imply that this test failed, but it *will* be corrupted thereafter if this file is not removed: ", filename);
}
else
{
cmPassed("Find and remove file: ", filename);
}
}
}
// ======================================================================
void TestDir(const char* filename)
{
if (!cmSystemTools::FileExists(filename))
{
cmFailed("Could not find dir: ", filename);
}
else
{
if (!cmSystemTools::FileIsDirectory(filename))
{
cmFailed("Unable to check if file is a directory: ", filename);
}
else
{
cmPassed("Find dir: ", filename);
}
}
}
// ======================================================================
void TestCMGeneratedFileSTream()
{
cmGeneratedFileStream gm;
std::string file1 = std::string(BINARY_DIR) + std::string("/generatedFile1");
std::string file2 = std::string(BINARY_DIR) + std::string("/generatedFile2");
std::string file3 = std::string(BINARY_DIR) + std::string("/generatedFile3");
std::string file4 = std::string(BINARY_DIR) + std::string("/generatedFile4");
std::string file1tmp = file1 + ".tmp";
std::string file2tmp = file2 + ".tmp";
std::string file3tmp = file3 + ".tmp";
std::string file4tmp = file4 + ".tmp";
gm.Open(file1.c_str());
gm << "This is generated file 1";
gm.Close();
gm.Open(file2.c_str());
gm << "This is generated file 2";
gm.Close();
gm.Open(file3.c_str());
gm << "This is generated file 3";
gm.Close();
gm.Open(file4.c_str());
gm << "This is generated file 4";
gm.Close();
if ( cmSystemTools::FileExists(file1.c_str()) )
{
if ( cmSystemTools::FileExists(file2.c_str()) )
{
if ( cmSystemTools::FileExists(file3.c_str()) )
{
if ( cmSystemTools::FileExists(file4.c_str()) )
{
if ( cmSystemTools::FileExists(file1tmp.c_str()) )
{
cmFailed("Something wrong with cmGeneratedFileStream. Temporary file is still here: ", file1tmp.c_str());
}
else if ( cmSystemTools::FileExists(file2tmp.c_str()) )
{
cmFailed("Something wrong with cmGeneratedFileStream. Temporary file is still here: ", file2tmp.c_str());
}
else if ( cmSystemTools::FileExists(file3tmp.c_str()) )
{
cmFailed("Something wrong with cmGeneratedFileStream. Temporary file is still here: ", file3tmp.c_str());
}
else if ( cmSystemTools::FileExists(file4tmp.c_str()) )
{
cmFailed("Something wrong with cmGeneratedFileStream. Temporary file is still here: ", file4tmp.c_str());
}
else
{
cmPassed("cmGeneratedFileStream works.");
}
}
else
{
cmFailed("Something wrong with cmGeneratedFileStream. Cannot find file: ", file4.c_str());
}
}
else
{
cmFailed("Something wrong with cmGeneratedFileStream. Found file: ", file3.c_str());
}
}
else
{
cmFailed("Something wrong with cmGeneratedFileStream. Cannot find file: ", file2.c_str());
}
}
else
{
cmFailed("Something wrong with cmGeneratedFileStream. Cannot find file: ", file1.c_str());
}
cmSystemTools::RemoveFile(file1.c_str());
cmSystemTools::RemoveFile(file2.c_str());
cmSystemTools::RemoveFile(file3.c_str());
cmSystemTools::RemoveFile(file1tmp.c_str());
cmSystemTools::RemoveFile(file2tmp.c_str());
cmSystemTools::RemoveFile(file3tmp.c_str());
}
#endif
void ForceStringUse()
{
std::vector<std::string> v;
std::vector<std::string> v2;
v = v2;
std::string cachetest = CACHE_TEST_VAR_INTERNAL;
v.push_back(cachetest);
v2 = v;
std::string x(5,'x');
char buff[5];
x.copy(buff, 1, 0);
x[0] = 'a';
std::string::size_type pos = 0;
x.replace(pos, pos, pos, 'x');
std::string copy = cachetest;
cachetest.find("bar");
cachetest.rfind("bar");
copy.append(cachetest);
copy = cachetest.substr(0, cachetest.size());
}
// defined in testcflags.c
extern "C" int TestCFlags(char* m);
extern "C" int TestTargetCompileFlags(char* m);
// defined in Sub1/NameConflictTest.c
extern "C" int NameConflictTest1();
// defined in Sub2/NameConflictTest.c
extern "C" int NameConflictTest2();
// ======================================================================
int main()
{
std::string lib = BINARY_DIR;
lib += "/bin/";
#ifdef CMAKE_INTDIR
lib += CMAKE_INTDIR;
lib += "/";
#endif
std::string exe = lib;
#ifndef CMAKE_TEST_DIFFERENT_GENERATOR
// Test a single character executable to test a: in makefiles
exe += "A";
exe += cmSystemTools::GetExecutableExtension();
int ret;
std::string errorMessage;
exe = cmSystemTools::ConvertToRunCommandPath(exe.c_str());
if(cmSystemTools::RunSingleCommand(exe.c_str(), 0, &ret))
{
if(ret != 10)
{
errorMessage += exe;
errorMessage += " did not return 10";
}
}
else
{
errorMessage += exe;
errorMessage += ": failed to run.";
}
if(errorMessage.size())
{
cmFailed(errorMessage.c_str());
}
else
{
cmPassed("run Single Character executable A returned 10 as expected.");
}
lib += CMAKE_SHARED_MODULE_PREFIX;
lib += "CMakeTestModule";
lib += CMAKE_SHARED_MODULE_SUFFIX;
cmsys::DynamicLoader::LibraryHandle handle = cmDynamicLoader::OpenLibrary(lib.c_str());
if(!handle)
{
std::string err = "Can not open CMakeTestModule:\n";
err += lib;
cmFailed(err.c_str());
}
else
{
cmsys::DynamicLoader::SymbolPointer fun =
cmsys::DynamicLoader::GetSymbolAddress(handle, "ModuleFunction");
if(!fun)
{
fun = cmsys::DynamicLoader::GetSymbolAddress(handle, "_ModuleFunction");
}
typedef int (*TEST_FUNCTION)();
TEST_FUNCTION testFun = (TEST_FUNCTION)fun;
if(!testFun)
{
cmFailed("Could not find symbol ModuleFunction in library ");
}
else
{
int ret = (*testFun)();
if(!ret)
{
cmFailed("ModuleFunction call did not return valid return.");
}
cmPassed("Module loaded and ModuleFunction called correctly.");
}
}
if(sharedFunction() != 1)
{
cmFailed("Call to sharedFunction from shared library failed.");
}
else
{
cmPassed("Call to sharedFunction from shared library worked.");
}
if(CsharedFunction() != 1)
{
cmFailed("Call to C sharedFunction from shared library failed.");
}
else
{
cmPassed("Call to C sharedFunction from shared library worked.");
}
// ----------------------------------------------------------------------
// Test cmSystemTools::UpperCase
std::string str = "abc";
std::string strupper = "ABC";
if(cmSystemTools::UpperCase(str) == strupper)
{
cmPassed("cmSystemTools::UpperCase is working");
}
else
{
cmFailed("cmSystemTools::UpperCase is working");
}
#endif
if(NameConflictTest1() == 0 && NameConflictTest2() == 0)
{
cmPassed("Sub dir with same named source works");
}
else
{
cmFailed("Sub dir with same named source fails");
}
if(file1() != 1)
{
cmFailed("Call to file1 function from library failed.");
}
else
{
cmPassed("Call to file1 function returned 1.");
}
#ifndef COMPLEX_TARGET_FLAG
cmFailed("COMPILE_FLAGS did not work with SET_TARGET_PROPERTIES");
#else
cmPassed("COMPILE_FLAGS did work with SET_TARGET_PROPERTIES");
#endif
if(file2() != 1)
{
cmFailed("Call to file2 function from library failed.");
}
else
{
cmPassed("Call to file2 function returned 1.");
}
#ifndef TEST_CXX_FLAGS
cmFailed("CMake CMAKE_CXX_FLAGS is not being passed to the compiler!");
#else
cmPassed("CMake CMAKE_CXX_FLAGS is being passed to the compiler.");
#endif
std::string gen = CMAKE_GENERATOR;
// visual studio is currently broken for c flags
char msg[1024];
if(gen.find("Visual") == gen.npos)
{
#ifdef TEST_C_FLAGS
cmFailed("CMake CMAKE_C_FLAGS are being passed to c++ files the compiler!");
#else
cmPassed("CMake CMAKE_C_FLAGS are not being passed to c++ files.");
#endif
if(TestCFlags(msg))
{
cmPassed(
"CMake CMAKE_C_FLAGS are being passed to c files and CXX flags are not.");
}
else
{
cmFailed(msg);
}
}
if(TestTargetCompileFlags(msg))
{
cmPassed(msg);
}
else
{
cmFailed(msg);
}
// ----------------------------------------------------------------------
// Test ADD_DEFINITIONS
#ifndef CMAKE_IS_FUN
cmFailed("CMake is not fun, so it is broken and should be fixed.");
#else
cmPassed("CMAKE_IS_FUN is defined.");
#endif
#if defined(CMAKE_ARGV1) && defined(CMAKE_ARGV2) && defined(CMAKE_ARGV3) && defined(CMAKE_ARGV4)
cmPassed("Variable args for MACROs are working.");
#else
cmFailed("Variable args for MACROs are failing.");
#endif
// ----------------------------------------------------------------------
// Test GET_SOURCE_FILE_PROPERTY for location
#ifndef CMAKE_FOUND_ACXX
cmFailed("CMake did not get the location of A.cxx correctly");
#else
cmPassed("CMake found A.cxx properly");
#endif
// ----------------------------------------------------------------------
// Test GET_DIRECTORY_PROPERTY for parent
#ifndef CMAKE_FOUND_PARENT
cmFailed("CMake did not get the location of the parent directory properly");
#else
cmPassed("CMake found the parent directory properly");
#endif
// ----------------------------------------------------------------------
// Test GET_DIRECTORY_PROPERTY for listfiles
#ifndef CMAKE_FOUND_LISTFILE_STACK
cmFailed("CMake did not get the listfile stack properly");
#else
cmPassed("CMake found the listfile stack properly");
#endif
// ----------------------------------------------------------------------
// Test SET, VARIABLE_REQUIRES
#ifdef SHOULD_NOT_BE_DEFINED
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED is defined.");
#endif
#ifndef ONE_VAR
cmFailed("cmakedefine is broken, ONE_VAR is not defined.");
#else
cmPassed("ONE_VAR is defined.");
#endif
#ifndef ONE_VAR_IS_DEFINED
cmFailed("cmakedefine, SET or VARIABLE_REQUIRES is broken, "
"ONE_VAR_IS_DEFINED is not defined.");
#else
cmPassed("ONE_VAR_IS_DEFINED is defined.");
#endif
#ifdef ZERO_VAR
cmFailed("cmakedefine is broken, ZERO_VAR is defined.");
#else
cmPassed("ZERO_VAR is not defined.");
#endif
#ifndef STRING_VAR
cmFailed("the CONFIGURE_FILE command is broken, STRING_VAR is not defined.");
#else
if(strcmp(STRING_VAR, "CMake is great") != 0)
{
cmFailed("the SET or CONFIGURE_FILE command is broken. STRING_VAR == ",
STRING_VAR);
}
else
{
cmPassed("STRING_VAR == ", STRING_VAR);
}
#endif
// ----------------------------------------------------------------------
// Test various IF/ELSE combinations
#ifdef SHOULD_NOT_BE_DEFINED_NOT
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_NOT is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_NOT is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_NOT
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_NOT is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_NOT is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_NOT2
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_NOT2 is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_NOT2 is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_NOT2
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_NOT2 is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_NOT2 is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_AND
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_AND is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_AND is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_AND
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_AND is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_AND is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_AND2
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_AND2 is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_AND2 is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_AND2
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_AND2 is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_AND2 is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_OR
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_OR is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_OR is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_OR
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_OR is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_OR is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_OR2
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_OR2 is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_OR2 is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_OR2
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_OR2 is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_OR2 is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_MATCHES
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_MATCHES is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_MATCHES is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_MATCHES
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_MATCHES is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_MATCHES is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_MATCHES2
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_MATCHES2 is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_MATCHES2 is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_MATCHES2
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_MATCHES2 is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_MATCHES2 is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_COMMAND
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_COMMAND is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_COMMAND is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_COMMAND
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_COMMAND is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_COMMAND is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_COMMAND2
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_COMMAND2 is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_COMMAND2 is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_COMMAND2
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_COMMAND2 is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_COMMAND2 is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_EXISTS
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_EXISTS is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_EXISTS is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_EXISTS
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_EXISTS is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_EXISTS is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_EXISTS2
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_EXISTS2 is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_EXISTS2 is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_EXISTS2
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_EXISTS2 is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_EXISTS2 is defined.");
#endif
#ifndef SHOULD_BE_DEFINED_IS_DIRECTORY
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_IS_DIRECTORY is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_IS_DIRECTORY is defined.");
#endif
#ifndef SHOULD_BE_DEFINED_IS_DIRECTORY2
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_IS_DIRECTORY2 is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_IS_DIRECTORY2 is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_LESS
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_LESS is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_LESS is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_LESS
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_LESS is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_LESS is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_LESS2
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_LESS2 is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_LESS2 is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_LESS2
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_LESS2 is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_LESS2 is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_GREATER
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_GREATER is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_GREATER is not defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_EQUAL
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_EQUAL is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_EQUAL is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_EQUAL
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_EQUAL is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_EQUAL is defined.");
#endif
#ifndef SHOULD_BE_DEFINED_GREATER
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_GREATER is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_GREATER is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_GREATER2
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_GREATER2 is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_GREATER2 is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_GREATER2
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_GREATER2 is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_GREATER2 is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_STRLESS
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_STRLESS is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_STRLESS is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_STRLESS
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_STRLESS is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_STRLESS is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_STRLESS2
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_STRLESS2 is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_STRLESS2 is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_STRLESS2
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_STRLESS2 is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_STRLESS2 is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_STRGREATER
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_STRGREATER is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_STRGREATER is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_STRGREATER
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_STRGREATER is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_STRGREATER is defined.");
#endif
#ifdef SHOULD_NOT_BE_DEFINED_STRGREATER2
cmFailed("IF or SET is broken, SHOULD_NOT_BE_DEFINED_STRGREATER2 is defined.");
#else
cmPassed("SHOULD_NOT_BE_DEFINED_STRGREATER2 is not defined.");
#endif
#ifndef SHOULD_BE_DEFINED_STRGREATER2
cmFailed("IF or SET is broken, SHOULD_BE_DEFINED_STRGREATER2 is not defined.\n");
#else
cmPassed("SHOULD_BE_DEFINED_STRGREATER2 is defined.");
#endif
// ----------------------------------------------------------------------
// Test FOREACH
#ifndef FOREACH_VAR1
cmFailed("the FOREACH, SET or CONFIGURE_FILE command is broken, "
"FOREACH_VAR1 is not defined.");
#else
if(strcmp(FOREACH_VAR1, "VALUE1") != 0)
{
cmFailed("the FOREACH, SET or CONFIGURE_FILE command is broken, "
"FOREACH_VAR1 == ", FOREACH_VAR1);
}
else
{
cmPassed("FOREACH_VAR1 == ", FOREACH_VAR1);
}
#endif
#ifndef FOREACH_VAR2
cmFailed("the FOREACH, SET or CONFIGURE_FILE command is broken, "
"FOREACH_VAR2 is not defined.");
#else
if(strcmp(FOREACH_VAR2, "VALUE2") != 0)
{
cmFailed("the FOREACH, SET or CONFIGURE_FILE command is broken, "
"FOREACH_VAR2 == ", FOREACH_VAR2);
}
else
{
cmPassed("FOREACH_VAR2 == ", FOREACH_VAR2);
}
#endif
#ifndef FOREACH_CONCAT
cmFailed("the FOREACH, SET or CONFIGURE_FILE command is broken, "
"FOREACH_CONCAT is not defined.");
#else
if(strcmp(FOREACH_CONCAT, "abcdefg") != 0)
{
cmFailed("the FOREACH, SET or CONFIGURE_FILE command is broken, "
"FOREACH_CONCAT == ", FOREACH_CONCAT);
}
else
{
cmPassed("FOREACH_CONCAT == ", FOREACH_CONCAT);
}
#endif
// ----------------------------------------------------------------------
// Test WHILE
if(WHILE_VALUE != 1000)
{
cmFailed("WHILE command is not working");
}
else
{
cmPassed("WHILE command is working");
}
// ----------------------------------------------------------------------
// Test FIND_FILE, FIND_PATH and various GET_FILENAME_COMPONENT combinations
#ifndef FILENAME_VAR_PATH_NAME
cmFailed("the FIND_FILE or GET_FILENAME_COMPONENT command is broken, "
"FILENAME_VAR_PATH_NAME is not defined.");
#else
if((strcmp(FILENAME_VAR_PATH_NAME, "Complex") == 0) ||
(strcmp(FILENAME_VAR_PATH_NAME, "ComplexOneConfig") == 0) ||
(strcmp(FILENAME_VAR_PATH_NAME, "ComplexRelativePaths") == 0))
{
cmPassed("FILENAME_VAR_PATH_NAME == ", FILENAME_VAR_PATH_NAME);
}
else
{
cmFailed("the FIND_FILE or GET_FILENAME_COMPONENT command is broken, "
"FILENAME_VAR_PATH_NAME == ", FILENAME_VAR_PATH_NAME);
}
#endif
#ifndef FILENAME_VAR_NAME
cmFailed("the FIND_FILE or GET_FILENAME_COMPONENT command is broken, "
"FILENAME_VAR_NAME is not defined.");
#else
if(strcmp(FILENAME_VAR_NAME, "VarTests.cmake") != 0)
{
cmFailed("the FIND_FILE or GET_FILENAME_COMPONENT command is broken, "
"FILENAME_VAR_NAME == ", FILENAME_VAR_NAME);
}
else
{
cmPassed("FILENAME_VAR_NAME == ", FILENAME_VAR_NAME);
}
#endif
#ifndef FILENAME_VAR_EXT
cmFailed("the FIND_FILE or GET_FILENAME_COMPONENT command is broken, "
"FILENAME_VAR_EXT is not defined.");
#else
if(strcmp(FILENAME_VAR_EXT, ".cmake") != 0)
{
cmFailed("the FIND_FILE or GET_FILENAME_COMPONENT command is broken, "
"FILENAME_VAR_EXT == ", FILENAME_VAR_EXT);
}
else
{
cmPassed("FILENAME_VAR_EXT == ", FILENAME_VAR_EXT);
}
#endif
#ifndef FILENAME_VAR_NAME_WE
cmFailed("the FIND_FILE or GET_FILENAME_COMPONENT command is broken, "
"FILENAME_VAR_NAME_WE is not defined.");
#else
if(strcmp(FILENAME_VAR_NAME_WE, "VarTests") != 0)
{
cmFailed("the FIND_FILE or GET_FILENAME_COMPONENT command is broken, "
"FILENAME_VAR_NAME_WE == ", FILENAME_VAR_NAME_WE);
}
else
{
cmPassed("FILENAME_VAR_NAME_WE == ", FILENAME_VAR_NAME_WE);
}
#endif
#ifndef PATH_VAR_NAME
cmFailed("the FIND_FILE or GET_FILENAME_COMPONENT command is broken, "
"PATH_VAR_NAME is not defined.");
#else
if((strcmp(PATH_VAR_NAME, "Complex") == 0) ||
(strcmp(PATH_VAR_NAME, "ComplexOneConfig") == 0) ||
(strcmp(PATH_VAR_NAME, "ComplexRelativePaths") == 0))
{
cmPassed("PATH_VAR_NAME == ", PATH_VAR_NAME);
}
else
{
cmFailed("the FIND_FILE or GET_FILENAME_COMPONENT command is broken, "
"PATH_VAR_NAME == ", PATH_VAR_NAME);
}
#endif
// ----------------------------------------------------------------------
// Test LOAD_CACHE
#ifndef CACHE_TEST_VAR1
cmFailed("the LOAD_CACHE or CONFIGURE_FILE command is broken, "
"CACHE_TEST_VAR1 is not defined.");
#else
if(strcmp(CACHE_TEST_VAR1, "foo") != 0)
{
cmFailed("the LOAD_CACHE or CONFIGURE_FILE command is broken, "
"CACHE_TEST_VAR1 == ", CACHE_TEST_VAR1);
}
else
{
cmPassed("CACHE_TEST_VAR1 == ", CACHE_TEST_VAR1);
}
#endif
#ifndef CACHE_TEST_VAR2
cmFailed("the LOAD_CACHE or CONFIGURE_FILE command is broken, "
"CACHE_TEST_VAR2 is not defined.");
#else
if(strcmp(CACHE_TEST_VAR2, "bar") != 0)
{
cmFailed("the LOAD_CACHE or CONFIGURE_FILE command is broken, "
"CACHE_TEST_VAR2 == ", CACHE_TEST_VAR2);
}
else
{
cmPassed("CACHE_TEST_VAR2 == ", CACHE_TEST_VAR2);
}
#endif
#ifndef CACHE_TEST_VAR3
cmFailed("the LOAD_CACHE or CONFIGURE_FILE command is broken, "
"CACHE_TEST_VAR3 is not defined.");
#else
if(strcmp(CACHE_TEST_VAR3, "1") != 0)
{
cmFailed("the LOAD_CACHE or CONFIGURE_FILE command is broken, "
"CACHE_TEST_VAR3 == ", CACHE_TEST_VAR3);
}
else
{
cmPassed("CACHE_TEST_VAR3 == ", CACHE_TEST_VAR3);
}
#endif
#ifdef CACHE_TEST_VAR_EXCLUDED
cmFailed("the LOAD_CACHE or CONFIGURE_FILE command or cmakedefine is broken, "
"CACHE_TEST_VAR_EXCLUDED is defined (should not have been loaded).");
#else
cmPassed("CACHE_TEST_VAR_EXCLUDED is not defined.");
#endif
#ifndef CACHE_TEST_VAR_INTERNAL
cmFailed("the LOAD_CACHE or CONFIGURE_FILE command is broken, "
"CACHE_TEST_VAR_INTERNAL is not defined.");
#else
std::string cachetest = CACHE_TEST_VAR_INTERNAL;
if(cachetest != "bar")
{
cmFailed("the LOAD_CACHE or CONFIGURE_FILE command is broken, "
"CACHE_TEST_VAR_INTERNAL == ", CACHE_TEST_VAR_INTERNAL);
}
else
{
cmPassed("CACHE_TEST_VAR_INTERNAL == ", CACHE_TEST_VAR_INTERNAL);
}
#endif
#ifndef CMAKE_TEST_DIFFERENT_GENERATOR
// ----------------------------------------------------------------------
// Some pre-build/pre-link/post-build custom-commands have been
// attached to the lib (see Library/).
// Each runs ${CREATE_FILE_EXE} which will create a file.
// It also copies that file again using cmake -E.
// Similar rules have been added to this executable.
//
// WARNING: if you run 'complex' manually, this *will* fail, because
// the file was removed the last time 'complex' was run, and it is
// only created during a build.
TestAndRemoveFile(BINARY_DIR "/Library/prebuild.txt");
TestAndRemoveFile(BINARY_DIR "/Library/prelink.txt");
TestAndRemoveFile(BINARY_DIR "/Library/postbuild.txt");
TestAndRemoveFile(BINARY_DIR "/Library/postbuild2.txt");
TestAndRemoveFile(BINARY_DIR "/Executable/prebuild.txt");
TestAndRemoveFile(BINARY_DIR "/Executable/prelink.txt");
TestAndRemoveFile(BINARY_DIR "/Executable/postbuild.txt");
TestAndRemoveFile(BINARY_DIR "/Executable/postbuild2.txt");
// ----------------------------------------------------------------------
// A custom target has been created (see Library/).
// It runs ${CREATE_FILE_EXE} which will create a file.
//
// WARNING: if you run 'complex' manually, this *will* fail, because
// the file was removed the last time 'complex' was run, and it is
// only created during a build.
TestAndRemoveFile(BINARY_DIR "/Library/custom_target1.txt");
// ----------------------------------------------------------------------
// A directory has been created.
TestDir(BINARY_DIR "/make_dir");
// ----------------------------------------------------------------------
// Test OUTPUT_REQUIRED_FILES
// The files required by 'complex' have been output to a file.
// The contents of this file is not tested (absolute paths).
//
// WARNING: if you run 'complex' manually, this *will* fail, because
// the file was removed the last time 'complex' was run, and it is
// only created during a build.
TestAndRemoveFile(BINARY_DIR "/Executable/Temp/complex-required.txt");
#endif
// ----------------------------------------------------------------------
// Test FIND_LIBRARY
#ifndef FIND_DUMMY_LIB
cmFailed("the CONFIGURE_FILE command is broken, "
"FIND_DUMMY_LIB is not defined.");
#else
if(strstr(FIND_DUMMY_LIB, "dummylib") == NULL)
{
cmFailed("the FIND_LIBRARY or CONFIGURE_FILE command is broken, "
"FIND_DUMMY_LIB == ", FIND_DUMMY_LIB);
}
else
{
cmPassed("FIND_DUMMY_LIB == ", FIND_DUMMY_LIB);
}
#endif
// ----------------------------------------------------------------------
// Test SET_SOURCE_FILES_PROPERTIES
#ifndef FILE_HAS_EXTRA_COMPILE_FLAGS
cmFailed("SET_SOURCE_FILES_PROPERTIES failed at setting FILE_HAS_EXTRA_COMPILE_FLAGS flag");
#else
cmPassed("SET_SOURCE_FILES_PROPERTIES succeeded in setting FILE_HAS_EXTRA_COMPILE_FLAGS flag");
#endif
#ifndef FILE_HAS_ABSTRACT
cmFailed("SET_SOURCE_FILES_PROPERTIES failed at setting ABSTRACT flag");
#else
cmPassed("SET_SOURCE_FILES_PROPERTIES succeeded in setting ABSTRACT flag");
#endif
#ifndef FILE_HAS_WRAP_EXCLUDE
cmFailed("FILE_HAS_WRAP_EXCLUDE failed at setting WRAP_EXCLUDE flag");
#else
cmPassed("FILE_HAS_WRAP_EXCLUDE succeeded in setting WRAP_EXCLUDE flag");
#endif
#ifndef FILE_COMPILE_FLAGS
cmFailed("the CONFIGURE_FILE command is broken, FILE_COMPILE_FLAGS is not defined.");
#else
if(strcmp(FILE_COMPILE_FLAGS, "-foo -bar") != 0)
{
cmFailed("the SET_SOURCE_FILES_PROPERTIES or CONFIGURE_FILE command is broken. FILE_COMPILE_FLAGS == ",
FILE_COMPILE_FLAGS);
}
else
{
cmPassed("SET_SOURCE_FILES_PROPERTIES succeeded in setting extra flags == ", FILE_COMPILE_FLAGS);
}
#endif
// ----------------------------------------------------------------------
// Test registry (win32)
#if defined(_WIN32) && !defined(__CYGWIN__)
#ifndef REGISTRY_TEST_PATH
cmFailed("the CONFIGURE_FILE command is broken, REGISTRY_TEST_PATH is not defined.");
#else
std::cout << "REGISTRY_TEST_PATH == " << REGISTRY_TEST_PATH << "\n";
if(stricmp(REGISTRY_TEST_PATH, BINARY_DIR "/registry_dir") != 0)
{
cmFailed("the 'read registry value' function or CONFIGURE_FILE command is broken. REGISTRY_TEST_PATH == ",
REGISTRY_TEST_PATH, " is not " BINARY_DIR "/registry_dir");
}
else
{
cmPassed("REGISTRY_TEST_PATH == ", REGISTRY_TEST_PATH);
}
#endif
#endif // defined(_WIN32) && !defined(__CYGWIN__)
if(strcmp(CMAKE_MINIMUM_REQUIRED_VERSION, "1.3") == 0)
{
cmPassed("CMAKE_MINIMUM_REQUIRED_VERSION is set to 1.3");
}
else
{
cmFailed("CMAKE_MINIMUM_REQUIRED_VERSION is not set to the expected 1.3");
}
// ----------------------------------------------------------------------
// Test REMOVE command
if (strcmp("a;b;d",REMOVE_STRING) == 0)
{
cmPassed("REMOVE is working");
}
else
{
cmFailed("REMOVE is not working");
}
// ----------------------------------------------------------------------
// Test SEPARATE_ARGUMENTS
if(strcmp("a;b;c", TEST_SEP) == 0)
{
cmPassed("SEPARATE_ARGUMENTS is working");
}
else
{
cmFailed("SEPARATE_ARGUMENTS is not working");
}
// ----------------------------------------------------------------------
// Test Escape Quotes
if(strcmp("\"hello world\"", STRING_WITH_QUOTES) == 0)
{
cmPassed("ESCAPE_QUOTES is working");
}
else
{
cmFailed("ESCAPE_QUOTES is not working");
}
// ----------------------------------------------------------------------
// Test if IF command inside a FOREACH works.
#if defined(IF_INSIDE_FOREACH_THEN_EXECUTED) && !defined(IF_INSIDE_FOREACH_ELSE_EXECUTED)
cmPassed("IF inside a FOREACH block works");
#else
cmFailed("IF inside a FOREACH block is broken");
#endif
#if defined(GENERATED_HEADER_INCLUDED)
cmPassed("Generated header included by non-generated source works.");
#else
cmFailed("Generated header included by non-generated source failed.");
#endif
if(SHOULD_BE_ZERO == 0)
{
cmPassed("cmakedefine01 is working for 0");
}
else
{
cmFailed("cmakedefine01 is not working for 0");
}
if(SHOULD_BE_ONE == 1)
{
cmPassed("cmakedefine01 is working for 1");
}
else
{
cmFailed("cmakedefine01 is not working for 1");
}
#ifdef FORCE_TEST
cmFailed("CMake SET CACHE FORCE");
#else
cmPassed("CMake SET CACHE FORCE");
#endif
#ifndef CMAKE_TEST_DIFFERENT_GENERATOR
// first run with shouldFail = true, this will
// run with A B C as set by the CMakeList.txt file.
if(!TestLibraryOrder(true))
{
cmPassed("CMake cmOrderLinkDirectories failed when it should.");
}
else
{
cmFailed("CMake cmOrderLinkDirectories failed to fail when given an impossible set of paths.");
}
// next run with shouldPass = true, this will
// run with B/libA.a removed and should create the order
// B C A
if(TestLibraryOrder(false))
{
cmPassed("CMake cmOrderLinkDirectories worked.");
}
else
{
cmFailed("CMake cmOrderLinkDirectories failed.");
}
// Test the generated file stream.
TestCMGeneratedFileSTream();
#endif
// ----------------------------------------------------------------------
// Summary
std::cout << "Passed: " << cm_passed << "\n";
if(cm_failed)
{
std::cout << "Failed: " << cm_failed << "\n";
return cm_failed;
}
return 0;
}