poco/build.gradle.kampbell

buildscript {
}

plugins {
	id 'com.ullink.nuget' version '2.15'
}
apply plugin: 	'base' 

def os = org.gradle.internal.os.OperatingSystem.current()
def String version = file("VERSION").text.replaceAll("[\n\r]", "")

File appendDebugSuffix(File binaryFile) {
	String name = binaryFile.getName()
	File parent = binaryFile.getParentFile()
	int extensionSeparatorIndex = name.lastIndexOf('.')
	if (extensionSeparatorIndex == -1) {
		return new File(parent, name + "d")
	}
	return new File(parent, name.substring(0, extensionSeparatorIndex) + "d" + name.substring(extensionSeparatorIndex))
}
 
File appendStaticSuffix(File binaryFile) {
    def os = org.gradle.internal.os.OperatingSystem.current()
	if (!os.windows) {
		return binaryFile
    }
    String name = binaryFile.getName()
    File parent = binaryFile.getParentFile()
    int extensionSeparatorIndex = name.lastIndexOf('.')
    if (extensionSeparatorIndex == -1) {
    	return new File(parent, name + "MT")
    }
    return new File(parent, name.substring(0, extensionSeparatorIndex) + "MT" + name.substring(extensionSeparatorIndex))
}
File prefixByPoco(File binaryFile) {
	String name = binaryFile.getName()
	String prefix = ''
	if (name.startsWith('lib')) {
		prefix = 'lib'
		name = name.substring(3)
	}
	File parent = binaryFile.getParentFile()
	return new File(parent, prefix + "Poco" + name);
}
File suffixByArch(File binaryFile, Platform platform) {
	if (!platform.operatingSystem.windows) {
		return binaryFile
	}
	String name = binaryFile.getName()
	String suffix = ''
	if (platform.architecture.name == 'x86') {
		suffix = ''
	} else
	if (platform.architecture.name == 'x86-64') {
		suffix = '64'
	} else {
		throw new GradleException("Unknown architecture: " + platform.architecture.name)
	}
	int extensionSeparatorIndex = name.lastIndexOf('.')
	if (extensionSeparatorIndex == -1) {
		return new File(parent, name + suffix)
	}
	File parent = binaryFile.getParentFile()
	return new File(parent, name.substring(0, extensionSeparatorIndex) + suffix + name.substring(extensionSeparatorIndex));
}
File toLocalBin(File binaryFile, Platform platform) {
	String name = binaryFile.getName()
	String target
	if (platform.architecture.name == 'x86') {
		target = 'bin'
	} else
	if (platform.architecture.name == 'x86-64') {
		target = 'bin64'
	} else {
		throw new GradleException("Unknown architecture: " + platform.architecture.name)
	}
	File parent = new File(target)
	return new File(parent, name);
}
File toBin(File sharedFile, Platform platform) {
	File parent = sharedFile.parentFile
	if (parent.canonicalPath.contains("testsuite"))
		return sharedFile;
	if (parent.canonicalPath.contains("sample"))
		return sharedFile;
		
	if (platform.operatingSystem.linux) {
		return toLib(sharedFile, platform)
	}

	String name = sharedFile.getName()
	String target
	if (platform.architecture.name == 'x86') {
		target = 'bin'
	} else
	if (platform.architecture.name == 'x86-64') {
		target = 'bin64'
	} else {
		throw new GradleException("Unknown architecture: " + platform.architecture.name)
	}
	File newParent = new File(rootDir, target)
	return new File(newParent, name);
}
File toLib(File linkFile, Platform platform) {
	File parent = linkFile.parentFile
	if (parent.canonicalPath.contains("testsuite"))
		return linkFile;
	if (parent.canonicalPath.contains("sample"))
		return linkFile;
		
	// On macOS, it creates a dylib file which is the shared and import library
	if (platform.operatingSystem.macOsX) {
		return toBin(linkFile, platform)
	}

	String name = linkFile.getName()
	String target
	if (platform.architecture.name == 'x86') {
		target = 'lib'
	} else
	if (platform.architecture.name == 'x86-64') {
		target = 'lib64'
	} else {
		throw new GradleException("Unknown architecture: " + platform.architecture.name)
	}
	File newParent = new File(rootDir, target )
	return new File(newParent, name);
}
File toStatic(File staticFile, Platform platform) {
	String name = staticFile.getName()
	String target
	if (platform.architecture.name == 'x86') {
		target = 'lib'
	} else
	if (platform.architecture.name == 'x86-64') {
		target = 'lib64'
	} else {
		throw new GradleException("Unknown architecture: " + platform.architecture.name)
	}
	File parent = new File(rootDir, target)
	return new File(parent, name);
}
File toPDB(File binaryFile) {
	String name = binaryFile.getName()
	File parent = binaryFile.getParentFile()
	int extensionSeparatorIndex = name.lastIndexOf('.')
	return new File(parent, name.substring(0, extensionSeparatorIndex) + ".pdb")
}
File makePreBuildLibrary(String name, Platform platform) {
	File pbl
	if (platform.architecture.name == 'x86') {
		pbl = new File(WDKHome + "/Lib/" + WDKVers + "/um/x86/" + name + ".lib")
	} else
	if (platform.architecture.name == 'x86-64') {
		pbl = new File(WDKHome + "/Lib/" + WDKVers + "/um/x64/" + name + ".lib")
	} else
	if (platform.architecture.name == 'arm-v7') {
		pbl = new File(WDKHome + "/Lib/" + WDKVers + "/um/arm-v7/" + name + ".lib")
	} else
	if (platform.architecture.name == 'ia-64') {
		pbl = new File(WDKHome + "/Lib/" + WDKVers + "/um/ia-64/" + name + ".lib")
	} else {
		throw new GradleException("Unknown architecture: " + platform.architecture.name)
	}
	return pbl
}
class SliceTasksPlugin extends RuleSource {
	@Mutate
	void createBuildSliceTask(ModelMap<Task> tasks, BinaryContainer binaries, BuildTypeContainer buildTypes) {
		tasks.create("slice") {
			dependsOn binaries.withType(NativeBinarySpec).findAll { 
				it.buildable && 
				it.buildType == buildTypes.debug && 
				it.targetPlatform.architecture.name == 'x86' &&
				it instanceof SharedLibraryBinarySpec
			}
		}
	}
}


allprojects {
	buildDir = new File('guild')	            // DO NOT REMOVE OR CHANGE to 'build' since 'build' is a Poco directory
	file('bin').mkdirs()
	file('bin64').mkdirs()
	file('lib').mkdirs()
	file('lib64').mkdirs()
/*
	clean.doFirst {
		file(projectDir, 'bin').delete()
		file(projectDir, 'bin64').delete() 
		file(projectDir, 'lib').delete() 
		file(projectDir, 'lib64').delete() 
	}
*/
}
subprojects {
	apply plugin:	'c'
	apply plugin:	'cpp'
	apply plugin:	'cppunit-test-suite'
 	apply plugin:	'windows-resources'
	apply plugin:	'windows-messages'
	apply plugin: 	SliceTasksPlugin
	
	buildDir = new File("guild")	
	

	model {
		buildTypes {
			release
			debug
		}

/*
		toolChains {
			visualCpp(VisualCpp) {
				// Specify the installDir if Visual Studio cannot be located
//				installDir "C:/Program Files (x86)/Microsoft Visual Studio/2017/Community"
//				installDir "C:/Program Files (x86)/Microsoft Visual Studio 14.0"
			}

			gcc(Gcc) {
				// Uncomment to use a GCC install that is not in the PATH
				// path "/usr/bin/gcc"
			}
			clang(Clang)
		}
*/
		platforms {
			win32 {
				operatingSystem "windows"
				architecture 'x86'
			}
			win64 {
				operatingSystem "windows"
				architecture 'x64'
			}
			linux32 {
				operatingSystem "linux"
				architecture 'x86'
			}
			linux64 {
				operatingSystem "linux"
				architecture 'x64'
			}
			macos {
				operatingSystem "macosx"
				architecture 'x64'
			}
		}

		flavors {
			bundled
//			unbundled
		}
		repositories {
			libs(PrebuiltLibraries) {
				WS2_32 {
					headers.srcDir WDKHome + "/Include/" + WDKVers + "/um/x86"
					binaries.withType(StaticLibraryBinary) {
						if (targetPlatform.operatingSystem.windows) {
							staticLibraryFile = makePreBuildLibrary("WS2_32", targetPlatform)
							println "staticLibraryFile=" + staticLibraryFile
						}
					}
				}
				crypto {
					binaries.withType(StaticLibraryBinary) {
						def libName = "foobar"
						if (buildType == buildTypes.debug) {
							if (targetPlatform.name == 'win32') {
					            		headers.srcDir "$openSSLWindowsHome/include"
								libName = 'libcryptod.lib'
								staticLibraryFile = new File("$openSSLWindowsHome/win32/lib/debug/$libName")
							} else if (targetPlatform.name == 'win64') {
					            		headers.srcDir "$openSSLWindowsHome/include"
								libName = 'libcryptod.lib'
								staticLibraryFile = new File("$openSSLWindowsHome/win64/lib/debug/$libName")
							} else if (targetPlatform.operatingSystem.macOsX) {
								headers.srcDir "$openSSLBrewHome/include"
								libName = 'libcrypto.a'
								staticLibraryFile = new File("$openSSLBrewHome/lib/$libName")
							} else if (targetPlatform.operatingSystem.linux) {
					            		headers.srcDir "$openSSL64LinuxInc/include"
								libName = 'libcrypto.a'
								staticLibraryFile = new File("$openSSL64LinuxLib/$libName")
							}
						} else
						if (buildType == buildTypes.release) {
							if (targetPlatform.name == 'win32') {
								libName = 'libcrypto.lib'
								staticLibraryFile = new File("$openSSLWindowsHome/win32/lib/release/$libName")
							} else if (targetPlatform.name == 'win64') {
								libName = 'libcrypto.lib'
								staticLibraryFile = new File("$openSSLWindowsHome/win64/lib/release/$libName")
							} else if (targetPlatform.operatingSystem.macOsX) {
								headers.srcDir "$openSSLBrewHome/include"
								libName = 'libcrypto.a'
								staticLibraryFile = new File("$openSSLBrewHome/lib/$libName")
							} else if (targetPlatform.operatingSystem.linux) {
					            		headers.srcDir "$openSSL64LinuxInc/include"
								libName = 'libcrypto.a'
								staticLibraryFile = new File("$openSSL64LinuxLib/$libName")
							}
						} else {
							throw new GradleException("Unknown buildType" + buildType)
						}
					}
					binaries.withType(SharedLibraryBinary) {
						def dllName
						def linkName
						if (buildType == buildTypes.debug) {
							if (targetPlatform.name == 'win32') {
								dllName = 'libcryptod.dll'
								linkName = 'libcryptod.lib'
								sharedLibraryFile	 = new File("$openSSLWindowsHome/win32/bin/debug/$dllName")
								sharedLibraryLinkFile = new File("$openSSLWindowsHome/win32/bin/debug/$linkName")
							} else if (targetPlatform.name == 'win64') {
								dllName = 'libcryptod.dll'
								linkName = 'libcryptod.lib'
								sharedLibraryFile	 = new File("$openSSLWindowsHome/win64/bin/debug/$dllName")
								sharedLibraryLinkFile = new File("$openSSLWindowsHome/win64/bin/debug/$linkName")
							} else if (targetPlatform.operatingSystem.macOsX) {
								headers.srcDir "$openSSLBrewHome/include"
								dllName = 'libcrypto.dylib'
								linkName = 'libcrypto.dylib'
								sharedLibraryFile	 = new File("$openSSLBrewHome/lib/$dllName")
								sharedLibraryLinkFile = new File("$openSSLBrewHome/lib/$linkName")
							} else if (targetPlatform.operatingSystem.linux) {
					            		headers.srcDir "$openSSL64LinuxInc/include"
								dllName = 'libcrypto.so'
								linkName = 'libcrypto.a'
								sharedLibraryFile	 = new File("$openSSL64LinuxLib/$dllName")
								sharedLibraryLinkFile = new File("$openSSL64LinuxLib/$linkName")
							}
						} else
						if (buildType == buildTypes.release) {
							if (targetPlatform.name == 'win32') {
								dllName = 'libcrypto.dll'
								linkName = 'libcrypto.lib'
								sharedLibraryFile	 = new File("$openSSLWindowsHome/win32/bin/release/$dllName")
								sharedLibraryLinkFile = new File("$openSSLWindowsHome/win32/bin/release/$linkName")
							} else if (targetPlatform.name == 'win64') {
								dllName = 'libcrypto.dll'
								linkName = 'libcrypto.lib'
								sharedLibraryFile	 = new File("$openSSLWindowsHome/win64/bin/release/$dllName")
								sharedLibraryLinkFile = new File("$openSSLWindowsHome/win64/bin/release/$linkName")
							} else if (targetPlatform.operatingSystem.macOsX) {
								headers.srcDir "$openSSLBrewHome/include"
								dllName = 'libcrypto.dylib'
								linkName = 'libcrypto.dylib'
								sharedLibraryFile	 = new File("$openSSLBrewHome/lib/$dllName")
								sharedLibraryLinkFile = new File("$openSSLBrewHome/lib/$linkName")
							} else if (targetPlatform.operatingSystem.linux) {
					            		headers.srcDir "$openSSL64LinuxInc/include"
								dllName = 'libcrypto.so'
								linkName = 'libcrypto.a'
								sharedLibraryFile	 = new File("$openSSL64LinuxLib/$dllName")
								sharedLibraryLinkFile = new File("$openSSL64LinuxLib/$linkName")
							}
						} else {
							throw new GradleException("Unknown buildType" + buildType)
						}
					}
				}
				ssl {
					binaries.withType(StaticLibraryBinary) {
						def libName
						if (buildType == buildTypes.debug) {
							if (targetPlatform.name == 'win32') {
					            		headers.srcDir "$openSSLWindowsHome/include"
								libName = 'libssld.lib'
								staticLibraryFile = new File("$openSSLWindowsHome/win32/lib/debug/$libName")
							} else if (targetPlatform.name == 'win64') {
					            		headers.srcDir "$openSSLWindowsHome/include"
								libName = 'libssl.lib'
								staticLibraryFile = new File("$openSSLWindowsHome/win64/lib/debug/$libName")
							} else if (targetPlatform.operatingSystem.macOsX) {
								headers.srcDir "$openSSLBrewHome/include"
								libName = 'libssl.a'
								staticLibraryFile = new File("$openSSLBrewHome/lib/$libName")
							} else if (targetPlatform.operatingSystem.linux) {
					            		headers.srcDir "$openSSL64LinuxInc/include"
								libName = 'libssl.a'
								staticLibraryFile = new File("$openSSL64LinuxLib", "$libName")
							}
						} else
						if (buildType == buildTypes.release) {
							if (targetPlatform.name == 'win32') {
								libName = 'libssl.lib'
								staticLibraryFile = new File("$openSSLWindowsHome/win32/lib/release/$libName")
							} else if (targetPlatform.name == 'win64') {
								libName = 'libssl.lib'
								staticLibraryFile = new File("$openSSLWindowsHome/win64/lib/release/$libName")
							} else if (targetPlatform.operatingSystem.macOsX) {
								headers.srcDir "$openSSLBrewHome/include"
								libName = 'libssl.a'
								staticLibraryFile = new File("$openSSLBrewHome/lib/$libName")
							} else if (targetPlatform.operatingSystem.linux) {
					            		headers.srcDir "$openSSL64LinuxInc/include"
								libName = 'libssl.a'
								staticLibraryFile = new File("$openSSL64LinuxLib/$libName")
							}
						} else {
							throw new GradleException("Unknown buildType" + buildType)
						}
					}
					binaries.withType(SharedLibraryBinary) {
						def dllName
						def linkName
						if (buildType == buildTypes.debug) {
							if (targetPlatform.name == 'win32') {
								dllName = 'libssld.dll'
								linkName = 'libssld.lib'
								sharedLibraryFile	 = new File("$openSSLWindowsHome/win32/bin/debug/$dllName")
								sharedLibraryLinkFile = new File("$openSSLWindowsHome/win32/bin/debug/$linkName")
							} else if (targetPlatform.name == 'win64') {
								dllName = 'libssld.dll'
								linkName = 'libssld.lib'
								sharedLibraryFile	 = new File("$openSSLWindowsHome/win64/bin/debug/$dllName")
								sharedLibraryLinkFile = new File("$openSSLWindowsHome/win64/bin/debug/$linkName")
							} else if (targetPlatform.operatingSystem.macOsX) {
								headers.srcDir "$openSSLBrewHome/include"
								dllName = 'libssl.dylib'
								linkName = 'libssl.dylib'
								sharedLibraryFile	 = new File("$openSSLBrewHome/lib/$dllName")
								sharedLibraryLinkFile = new File("$openSSLBrewHome/lib/$linkName")
							} else if (targetPlatform.operatingSystem.linux) {
                                				def File openSSL64LinuxLibFile = new File("$openSSL64LinuxLib")
					            		headers.srcDir "$openSSL64LinuxInc/include"
								dllName  = "libssl.so"
								linkName = "libssl.a"
								sharedLibraryFile	 = new File(openSSL64LinuxLibFile, dllName)
								sharedLibraryLinkFile = new File(openSSL64LinuxLibFile, linkName)
							}
						} else if (buildType == buildTypes.release) {
							if (targetPlatform.name == 'win32') {
								dllName = 'libssl.dll'
								linkName = 'libssl.lib'
								sharedLibraryFile	 = new File("$openSSLWindowsHome/win32/bin/release/$dllName")
								sharedLibraryLinkFile = new File("$openSSLWindowsHome/win32/bin/release/$linkName")
							} else if (targetPlatform.name == 'win64') {
								dllName = 'libssl.dll'
								linkName = 'libssl.lib'
								sharedLibraryFile	 = new File("$openSSLWindowsHome/win64/bin/release/$dllName")
								sharedLibraryLinkFile = new File("$openSSLWindowsHome/win64/bin/release/$linkName")
							} else if (targetPlatform.operatingSystem.macOsX) {
								headers.srcDir "$openSSLBrewHome/include"
								dllName = 'libssl.dylib'
								linkName = 'libssl.dylib'
								sharedLibraryFile	 = new File("$openSSLBrewHome/lib/$dllName")
								sharedLibraryLinkFile = new File("$openSSLBrewHome/lib/$linkName")
							} else if (targetPlatform.operatingSystem.linux) {
					            		headers.srcDir "$openSSL64LinuxInc/include"
								dllName = 'libssl.so'
								linkName = 'libssl.a'
								sharedLibraryFile	 = new File("$openSSL64LinuxLib/$dllName")
								sharedLibraryLinkFile = new File("$openSSL64LinuxLib/$linkName")
							}
						} else {
							throw new GradleException("Unknown buildType" + buildType)
						}
					}
				}
			}
		}
		components {
			withType(NativeComponentSpec) {
				//targetPlatform "linux32"
				targetPlatform "linux64"
				targetPlatform "macos"

				binaries.withType(NativeTestSuiteBinarySpec) {
					if (buildType == buildTypes.debug) {
						if (it instanceof NativeExecutableBinarySpec) {
							executable.file = toLocalBin(appendDebugSuffix(executable.file), targetPlatform)
						}
					} else
					if (buildType == buildTypes.release) {
						if (it instanceof NativeExecutableBinarySpec) {
							executable.file = toLocalBin(executable.file, targetPlatform)
						} 
					}
				}
				binaries.withType(NativeBinarySpec) {

					if (toolChain in Clang) {
						cppCompiler.args "-std=c++11"
					}
					if (buildType == buildTypes.debug) {
						if (it instanceof SharedLibraryBinarySpec) {
							sharedLibraryFile	 = toBin(prefixByPoco(appendDebugSuffix(suffixByArch(sharedLibraryFile, targetPlatform))), targetPlatform)
							sharedLibraryLinkFile = toLib(prefixByPoco(appendDebugSuffix(sharedLibraryLinkFile)), targetPlatform)

							if (targetPlatform.operatingSystem.windows) {
								// WINDOWS ONLY
								linker.args "/implib:${sharedLibraryLinkFile}"  // For MSVC only
								// use the following for MinGW
								// linker.args "-Wl,--out-implib,${sharedLibraryLinkFile}"
								// This next part is simply to ensure the directory is created as the compiler (tested on MSVC only) won't create it
								def binary = it  // Simply to expose the binary in the `doFirst`
								tasks.withType(LinkSharedLibrary) {
									doFirst {
										binary.sharedLibraryLinkFile.parentFile.mkdirs()
									}
								}
							}
						} else
						if (it instanceof StaticLibraryBinarySpec) {
							staticLibraryFile = toStatic(prefixByPoco(appendDebugSuffix(appendStaticSuffix(staticLibraryFile))), targetPlatform)
							def binary = it
							tasks.withType(CreateStaticLibrary) {
								doFirst {
									binary.staticLibraryFile.parentFile.mkdirs()
								}
							}
						} else
						if (it instanceof NativeExecutableBinarySpec) {
							executable.file = toBin(appendDebugSuffix(executable.file), targetPlatform)
						}
					} else
					if (buildType == buildTypes.release) {
						if (it instanceof SharedLibraryBinarySpec) {
							sharedLibraryFile = toBin(prefixByPoco(suffixByArch(sharedLibraryFile, targetPlatform)), targetPlatform)
							sharedLibraryLinkFile = toLib(prefixByPoco(sharedLibraryLinkFile), targetPlatform)

							if (targetPlatform.operatingSystem.windows) {
								// WINDOWS ONLY
								linker.args "/implib:${sharedLibraryLinkFile}"  // For MSVC only
								// use the following for MinGW
								// linker.args "-Wl,--out-implib,${sharedLibraryLinkFile}"
								// This next part is simply to ensure the directory is created as the compiler (tested on MSVC only) won't create it
								def binary = it  // Simply to expose the binary in the `doFirst`
								tasks.withType(LinkSharedLibrary) {
									doFirst {
										binary.sharedLibraryLinkFile.parentFile.mkdirs()
									}
								}
							}
						} else
						if (it instanceof StaticLibraryBinarySpec) {
							staticLibraryFile = toStatic(prefixByPoco(appendStaticSuffix(staticLibraryFile)), targetPlatform)
							def binary = it
							tasks.withType(CreateStaticLibrary) {
								doFirst {
									binary.staticLibraryFile.parentFile.mkdirs()
								}
							}
						} else
						if (it instanceof NativeExecutableBinarySpec) {
							executable.file = toBin(executable.file, targetPlatform)
						} 
					} else {
						throw new GradleException("Unknown buildType" + buildType)
					}
				}
			}
		}


		binaries {
			all {
				if (flavor != flavors.bundled) {
					cCompiler.define 'POCO_UNBUNDLED'
					cppCompiler.define 'POCO_UNBUNDLED'
				}
				if (buildType == buildTypes.debug) {
					cCompiler.define '_DEBUG'
					cppCompiler.define '_DEBUG'
				} else 
				if (buildType == buildTypes.release) {
					cCompiler.define 'NDEBUG'
					cppCompiler.define 'NDEBUG'
				}
			
				if (toolChain in Gcc) {
					cppCompiler.define "_XOPEN_SOURCE=600"
					cppCompiler.define "_REENTRANT"
					cppCompiler.define "_THREAD_SAFE"
					cppCompiler.define "_FILE_OFFSET_BITS=64"
					cppCompiler.define "_LARGEFILE64_SOURCE"
					cppCompiler.define "POCO_HAVE_FD_EPOLL"
					cppCompiler.define "POCO_HAVE_ADDRINFO"
					cppCompiler.define "POCO_HAVE_LIBRESOLV"
					cppCompiler.args "-std=c++11"
					cppCompiler.args "-fPIC"

					linker.args "-lrt"
					linker.args "-ldl"
					linker.args "-lpthread"
				}
				if (toolChain in VisualCpp) {
					if (targetPlatform == platforms.win64) {
						linker.args '/MACHINE:X64'
					} else {
						linker.args '/MACHINE:X86'
					}
					if (buildType == buildTypes.debug) {
						cCompiler.args '/Zi'
						cppCompiler.args '/Zi'
						linker.args '/DEBUG'
					}
					cCompiler.args '/RTC1'
					cCompiler.args '/FS'
					cCompiler.args '/Zc:wchar_t'
					cCompiler.args '/Zc:inline'
					cCompiler.args '/Zc:forScope'
					cCompiler.args '/GR'
					cCompiler.args '/GF'
					cCompiler.args '/EHsc'
					cCompiler.args '/bigobj'
					cCompiler.define 'WIN32'
					cCompiler.define '_WIN32'
					cCompiler.define '_WINDOWS'
					cCompiler.define '_MBCS'

					cppCompiler.args '/RTC1'
					cppCompiler.args '/FS'
					cppCompiler.args '/Zc:wchar_t'
					cppCompiler.args '/Zc:inline'
					cppCompiler.args '/Zc:forScope'
					cppCompiler.args '/GR'
					cppCompiler.args '/GF'
					cppCompiler.args '/EHsc'
					cppCompiler.args '/bigobj'
					cppCompiler.define 'WIN32'
					cppCompiler.define '_WIN32'
					cppCompiler.define '_WINDOWS'
					cppCompiler.define '_MBCS'
					
					linker.args 'kernel32.lib'
					linker.args 'user32.lib'
					linker.args 'gdi32.lib'
					linker.args 'winspool.lib'
					linker.args 'comdlg32.lib'
					linker.args 'advapi32.lib'
					linker.args 'shell32.lib'
					linker.args 'ole32.lib'
					linker.args 'oleaut32.lib'
					linker.args 'uuid.lib'
					
					linker.args '/NXCOMPAT' 
					linker.args '/OPT:REF' 
					linker.args '/INCREMENTAL:NO' 
//					linker.args '/MANIFEST' 
//					linker.args '/MANIFESTUAC:"level='asInvoker' uiAccess='false'"' 
					linker.args '/OPT:ICF' 
					linker.args '/NOLOGO' 
					linker.args '/SUBSYSTEM:CONSOLE'
				}
			}
			withType(SharedLibraryBinarySpec) {
				if (toolChain in VisualCpp) {
					cCompiler.define   '_USRDLL'
					cCompiler.define   '_WINDLL'
					cppCompiler.define '_USRDLL'
					cppCompiler.define '_WINDLL'
					if (buildType == buildTypes.debug) {
						cCompiler.args "/MDd"
						cppCompiler.args "/MDd"
					} else 
					if (buildType == buildTypes.release) {
						cCompiler.args "/MD"
						cppCompiler.args "/MD"
					}
				}
				if (toolChain in Gcc) {
					if (targetPlatform == platforms.linux32) {
					    linker.args "-Wl,-rpath,$rootDir/lib"   //FIXME
                    } else
					if (targetPlatform == platforms.linux64) {
					    linker.args "-Wl,-rpath,$rootDir/lib64"   //FIXME
                    }
				}
			}
			withType(StaticLibraryBinarySpec) {
				if (toolChain in VisualCpp) {
					cCompiler.define   '_LIB'
					cCompiler.define   'POCO_STATIC'
					cppCompiler.define '_LIB'
					cppCompiler.define 'POCO_STATIC'
					if (buildType == buildTypes.debug) {
						cCompiler.args "/MTd"
						cCompiler.args "/Fd" + toStatic(toPDB(staticLibraryFile), targetPlatform)
						cppCompiler.args "/MTd"
						cppCompiler.args "/Fd" + toStatic(toPDB(staticLibraryFile), targetPlatform)
					} else 
					if (buildType == buildTypes.release) {
						cCompiler.args "/MT"
						cppCompiler.args "/MT"
					} else {
						throw new GradleException("Unknown buildType" + buildType)
					}
				}
				if (toolChain in Gcc) {
					linker.args "-Wl,-rpath,$rootDir/lib64"   //FIXME
				}
			}
			withType(NativeExecutableBinarySpec) {
				if (toolChain in VisualCpp) {
					if (buildType == buildTypes.debug) {
						cCompiler.args "/MDd"
						cppCompiler.args "/MDd"
					} else 
					if (buildType == buildTypes.release) {
						cCompiler.args "/MD"
						cppCompiler.args "/MD"
					} else {
						throw new GradleException("Unknown buildType" + buildType)
					}
				}
				if (toolChain in Gcc) {
					if (targetPlatform == platforms.linux32) {
					    linker.args "-Wl,-rpath,$rootDir/lib"   //FIXME
                    } else
					if (targetPlatform == platforms.linux64) {
					    linker.args "-Wl,-rpath,$rootDir/lib64"   //FIXME
                    }
				}
			}
		}
	}
	tasks.withType(RunTestExecutable) {
		String PATH = System.getenv("PATH")
		String name = getName();
		if (name.contains('Win32')) {
			PATH = "$rootDir\\bin;$PATH"
			PATH = "$rootDir\\openssl\\build\\win32\\bin\\release;$PATH"
			PATH = "$rootDir\\openssl\\build\\win32\\bin\\debug;$PATH"
			PATH = "$mysql32Home".replace('/','\\') + "\\bin;$PATH"
			PATH = "$postgres32Home".replace('/','\\') + "\\bin;$PATH"

		} else
		if (name.contains('Win64')) {
			PATH = "$rootDir\\bin64;$PATH"
			PATH = "$rootDir\\openssl\\build\\win64\\bin\\release;$PATH"
			PATH = "$rootDir\\openssl\\build\\win64\\bin\\debug;$PATH"
			PATH = "$mysql64Home".replace('/','\\') + "\\bin;$PATH"
			PATH = "$postgres64Home".replace('/','\\') + "\\bin;$PATH"
		}

		environment "Path", "$PATH"

		String CPPUNIT_IGNORE = "";
		if (name.contains('Win32') || name.contains('Win64')) {
		    CPPUNIT_IGNORE =' class CppUnit::TestCaller<class NTPClientTest>.testTimeSync';
	    	CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class RawSocketTest>.testEchoIPv4';
	    	CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class RawSocketTest>.testSendToReceiveFromIPv4';
	    	CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class ICMPClientTest>.testPing';
	    	CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class ICMPClientTest>.testBigPing';
	    	CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class HTTPSClientSessionTest>.testProxy';
    		CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class HTTPSStreamFactoryTest>.testProxy';
    		CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class TCPServerTest>.testReuseSocket';

	    	//FIXME Those tests below should work
	    	CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class ProcessTest>.testLaunch';
	    	CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class ProcessTest>.testLaunchRedirectIn';
	    	CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class ProcessTest>.testLaunchRedirectOut';
	    	CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class ProcessTest>.testLaunchEnv';
	    	CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class ProcessTest>.testLaunchArgs';
	    	CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class ProcessTest>.testIsRunning';
	    	CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class ProcessTest>.testIsRunningAllowsForTermination';
    
    		//FIXME won't work until SharedLibraries be properly generated
    		CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class SharedLibraryTest>.testSharedLibrary1';
    		CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class SharedLibraryTest>.testSharedLibrary2';
    		CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class SharedLibraryTest>.testSharedLibrary3';
    		CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class ClassLoaderTest>.testClassLoader2';
    		CPPUNIT_IGNORE+=' class CppUnit::TestCaller<class ClassLoaderTest>.testClassLoader3';
	    }
		if (name.contains('Linux32') || name.contains('Linux64')) {
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI8PathTestEE.testExpand';
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI13RawSocketTestEE.testEchoIPv4';
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI13RawSocketTestEE.testSendToReceiveFromIPv4';
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI14ICMPClientTestEE.testPing';
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI14ICMPClientTestEE.testBigPing';
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI22HTTPSClientSessionTestEE.testProxy';
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI22HTTPSStreamFactoryTestEE.testProxy';
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI19MulticastSocketTestEE.testMulticast';
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI13NTPClientTestEE.testTimeSync';
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI9TimerTestEE.testTimer';

    		//FIXME won't work until SharedLibraries be properly generated
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI17SharedLibraryTestEE.testSharedLibrary1';
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI17SharedLibraryTestEE.testSharedLibrary2';
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI17SharedLibraryTestEE.testSharedLibrary3';
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI15ClassLoaderTestEE.testClassLoader2';
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI15ClassLoaderTestEE.testClassLoader3';

	    	//FIXME Those tests below should work
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI11ProcessTestEE.testLaunch';
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI11ProcessTestEE.testLaunchRedirectIn';
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI11ProcessTestEE.testLaunchRedirectOut';
            CPPUNIT_IGNORE+=' N7CppUnit10TestCallerI11ProcessTestEE.testLaunchEnv';
		}
        CPPUNIT_IGNORE+=' ';

        environment "CPPUNIT_IGNORE", "\"$CPPUNIT_IGNORE\""
		environment "POCO_BASE", "$rootDir"

		args test
	}
}

tasks.withType(CppCompile) {
	maxParallelForks = 2
}

task PocoDocIni() {
    def file = new File("$rootDir/PocoDoc/PocoDoc.ini")
    file.createNewFile()
    file.text = """
Includes=-I$rootDir/CppParser/include,-I$rootDir/CppUnit/include,-I$rootDir/Encodings/include,-I$rootDir/Crypto/include,-I$rootDir/Data/include,-I$rootDir/Data/include,-I$rootDir/Data/MySQL/include,-I$rootDir/Data/ODBC/include,-I$rootDir/Data/PostgreSQL/include,-I$rootDir/Data/SQLite/include, -I$rootDir/Data/SQLite/src,-I$rootDir/Foundation/include,-I$rootDir/JSON/include,-I$rootDir/MongoDB/include,-I$rootDir/Net/include,-I$rootDir/NetSSL_OpenSSL/include,-I$rootDir/NetSSL_Win/include,-I$rootDir/Redis/include,-I$rootDir/Util/include,-I$rootDir/XML/include,-I$rootDir/Zip/include,-I$rootDir/SevenZip/include,-I$rootDir/PDF/include
PocoBuild=$rootDir
PocoBase=$rootDir
PocoDoc.output=releases/poco-${version}-all-doc
PocoDoc.version=${version}-all
"""
	if (os.windows) {
		def	String javaVCH = VCHome.replace('\\','/')
		def	String javaCLP = CLPath.replace('\\','/')
		def	String javaWDK = WDKHome + "/Include/" + WDKVers
		javaWDK = javaWDK.replace('\\','/')
		
 		file.text += """
VCH=${javaVCH}
WDK=${javaWDK}
CLP=${javaCLP}
"""
	} else 
    if (os.linux) {
 		file.text += """
CXX=g++
CXXFLAGS=-std=c++11
"""
	} else 
    if (os.macOsX) {
	}
}
task pocoDoc(type: Exec) {
	dependsOn ':PocoDoc::assemble'
	dependsOn PocoDocIni
	if (os.windows) {
		environment "Path", "$rootDir\\bin;$Path"
		println environment.Path
		
		executable "PocoDoc/bin/PocoDoc.exe"
		args "/config=$rootDir/PocoDoc/cfg/mkdoc-gradle.xml"
		args "/config=$rootDir/PocoDoc/PocoDoc.ini"
	} 
	if (os.linux) {
		environment "LD_LIBRARY_PATH", "$rootDir/lib64:$LD_LIBRARY_PATH"
		executable "PocoDoc/bin64/PocoDoc"
		args "--config=$rootDir/PocoDoc/cfg/mkdoc-gradle.xml"
		args "--config=$rootDir/PocoDoc/PocoDoc.ini"
	}
	if (os.macOsX) {
		//FIXME environment "LD_LIBRARY_PATH", "$rootDir/bin:$LD_LIBRARY_PATH"
		executable "PocoDoc/bin64/PocoDoc"
		args "--config=$rootDir/PocoDoc/cfg/mkdoc-gradle.xml"
		args "--config=$rootDir/PocoDoc/PocoDoc.ini"
	}
//	inputs.files(tasks.getByPath(':production').outputs.files)
	inputs.files(executable)
	inputs.files(fileTree("doc").filter { it.isFile() })
	inputs.files(new File("$rootDir/PocoDoc/cfg/mkdoc-gradle.xml"))
	outputs.files(new File("releases/poco-${version}-all-doc/index.html"))
}
task zipDoc(type: Zip) {
	from "releases/poco-${version}-all-doc/"
	include '*'
	include '*/*'
	archiveName "poco-${version}-all-doc.zip"
	destinationDir(file('releases'))
	inputs.files(new File("releases/$version-all-doc/index.html"))
	outputs.files(new File("releases/poco-${version}-all-doc.zip"))
	dependsOn pocoDoc
}

task packaging() {
}
//
//	gradle\bin\gradle Zip:testsuite:check -Ptest=-all
//
def cover(os, Directory, Module) {
	return tasks.create("cover-${Module}", Exec) {
		String PATH = System.getenv("PATH")
		PATH = "$rootDir\\bin;$PATH"
		PATH = "$rootDir\\openssl\\build\\win32\\bin\\release;$PATH"
		PATH = "$rootDir\\openssl\\build\\win32\\bin\\debug;$PATH"
		PATH = "$mysql32Home".replace('/','\\') + "\\lib;$PATH"
		PATH = "$postgres32Home".replace('/','\\') + "\\lib;$PATH"
		environment "Path", "$PATH"
//		println environment.Path

		environment "POCO_BASE", "$rootDir"
//		println "POCO_BASE=" + environment.POCO_BASE

		String CPPUNIT_IGNORE;
		CPPUNIT_IGNORE =  'class CppUnit::TestCaller<class NTPClientTest>.testTimeSync';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class RawSocketTest>.testEchoIPv4';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class RawSocketTest>.testSendToReceiveFromIPv4';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class ICMPClientTest>.testPing';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class ICMPClientTest>.testBigPing';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class HTTPSClientSessionTest>.testProxy';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class HTTPSStreamFactoryTest>.testProxy';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class TCPServerTest>.testReuseSocket';

		//FIXME Those test below should work
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class ProcessTest>.testLaunch';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class ProcessTest>.testLaunchRedirectIn';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class ProcessTest>.testLaunchRedirectOut';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class ProcessTest>.testLaunchEnv';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class ProcessTest>.testLaunchArgs';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class ProcessTest>.testIsRunning';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class ProcessTest>.testIsRunningAllowsForTermination';
		
		//FIXME won't work until SharedLibraries be properly generated
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class SharedLibraryTest>.testSharedLibrary1';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class SharedLibraryTest>.testSharedLibrary2';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class SharedLibraryTest>.testSharedLibrary3';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class ClassLoaderTest>.testClassLoader2';
		CPPUNIT_IGNORE+=', class CppUnit::TestCaller<class ClassLoaderTest>.testClassLoader3';
		
		environment "CPPUNIT_IGNORE", "\"$CPPUNIT_IGNORE\""
//		println "CPPUNIT_IGNORE=" + environment.CPPUNIT_IGNORE


		def Set<Task> tests = project.getTasksByName("testsuite:${Module}", true)
		setDependsOn(tests)

		workingDir "coverage/${Directory}"
		file(workingDir).mkdirs()

		executable "${OpenCppCoverageHome}/OpenCppCoverage.exe"
		args "-q"
		args "$rootDir/${Directory}/testsuite/gradle/exe/${Module}TestSuite/win32/debug/${Module}TestSuite.exe"
		args "--modules", "Poco*d.dll"
		args "--export_type", "cobertura"
		args "--continue_after_cpp_exception"
		args "--"
		args "-all"

		outputs.files(new File(workingDir,"${Module}TestSuite.xml"))
		
		onlyIf(new Spec<Exec>() {
			boolean isSatisfiedBy(Exec task) {
				   return os.windows;
			}
		});
	}
}
def report(os, Directory, Module) {
	return tasks.create("report-${Module}", Exec) {
		dependsOn cover(os, Directory, Module)
		
		executable "${ReportGeneratorHome}/ReportGenerator.exe"
		args "-verbosity:Verbose"
		args "-reports:coverage/${Module}/${Module}TestSuiteCoverage.xml"
		args "-targetdir:coverage/${Module}"
//		args "-sourcedirs:XML/src;XML/include;CppUnit/src;CppUnit/include;Foundation/src;Foundation/include"

		File targetDir = new File("coverage/${Module}")
		inputs.files(new File(targetDir,"${Module}TestSuite.xml"))

		onlyIf(new Spec<Exec>() {
			boolean isSatisfiedBy(Exec task) {
				   return os.windows;
			}
		});
	}
}
task coverage() {
	if (os.windows) {
		def Set<Task> tasksSet = project.getTasksByName('testsuite', true)
		println "task coverage: covered modules"
		println "--------------------------------------"
		tasksSet.each { task -> println task.project.parent.path.replace(':','/').substring(1) }
		println "--------------------------------------"
		tasksSet.each { task -> dependsOn report(os, task.project.parent.path.replace(':','/').substring(1), task.project.parent.name) }
	}
}
/*
task all() {
        FileCollection incs = task.includes;
        incs.each { dir -> fileTree(dir).files.each { file -> inputs.files(file) }};
        inputs.files.each { file -> println file.path }
}
*/
/*
    tasks { t ->
        $.components.main.binaries.each { binary ->
            def stripTask = binary.tasks.taskName("strip")
            t.create(stripTask) {
                dependsOn binary.tasks.link
                doFirst {
                    if (binary.toolChain in Gcc) {
                        ["strip", binary.tasks.link.outputFile].execute().waitForOrKill(1000)
                    }
                }
            }
            binary.tasks.build.dependsOn stripTask
        }
    }
*/