// export the "get_module" function that will be called by the Zend engine PHPCPP_EXPORT void *get_module() { // create extension static Php::Extension extension("my_function_with_parameters","1.0"); // add function, with undefined parameters, to extension extension.add("my_with_undefined_parameters_function", my_with_undefined_parameters_function); // add function, with defined numeric parameters, to extension extension.add("my_with_defined_parameters_function", my_with_defined_parameters_function, { Php::ByVal("x", Php::numericType), Php::ByVal("y", Php::numericType) }); // add function, with defined parameter by reference, to extension extension.add("my_with_defined_parameters_reference_function", my_with_defined_parameters_reference_function, { Php::ByRef("string", Php::stringType) }); // add function, with defined array parameter, to extension extension.add("my_with_defined_array_parameters_function", my_with_defined_array_parameters_function, { Php::ByVal("array", Php::arrayType) }); // add function, with defined object parameter, to extension extension.add("my_with_defined_object_parameters_function", my_with_defined_object_parameters_function, { Php::ByVal("myClassObjVar", "MyPhpClass") }); // return the extension module return extension.module(); }
// export the "get_module" function that will be called by the Zend engine PHPCPP_EXPORT void *get_module() { // create extension static Php::Extension extension("elmars", "1.0"); extension.add("hallo", hello, { Php::ByVal("firstname", Php::Type::Numeric), Php::ByVal("lastname", Php::Type::String) }); extension.add("sum_all", sumAll); // return the extension module return extension.module(); }
/** * Function that is called by PHP right after the PHP process * has started, and that returns an address of an internal PHP * structure with all the details and features of your extension * * @return void* a pointer to an address that is understood by PHP */ PHPCPP_EXPORT void *get_module() { static Php::Extension extension("dbreader", "0.2"); Php::Class<DBReader<int32_t>> intDB("IntDBReader"); intDB.method("__construct", &DBReader<int32_t>::__construct); intDB.method("__destruct", &DBReader<int32_t>::__destruct); intDB.method("getDataSize", &DBReader<int32_t>::getDataSize); intDB.method("getSize", &DBReader<int32_t>::getSize); intDB.method("getData", &DBReader<int32_t>::getData); intDB.method("getDbKey", &DBReader<int32_t>::getDbKey); intDB.method("getLength", &DBReader<int32_t>::getLength); intDB.method("getOffset", &DBReader<int32_t>::getOffset); intDB.method("getId", &DBReader<int32_t>::getId); intDB.property("USE_DATA", "1", Php::Public | Php::Static); intDB.property("USE_WRITABLE", "2", Php::Public | Php::Static); extension.add(std::move(intDB)); Php::Class<DBReader<char[32]>> stringDB("StringDBReader"); stringDB.method("__construct", &DBReader<char[32]>::__construct); stringDB.method("__destruct", &DBReader<char[32]>::__destruct); stringDB.method("getDataSize", &DBReader<char[32]>::getDataSize); stringDB.method("getSize", &DBReader<char[32]>::getSize); stringDB.method("getData", &DBReader<char[32]>::getData); stringDB.method("getDbKey", &DBReader<char[32]>::getDbKey); stringDB.method("getLength", &DBReader<char[32]>::getLength); stringDB.method("getOffset", &DBReader<char[32]>::getOffset); stringDB.method("getId", &DBReader<char[32]>::getId); stringDB.property("USE_DATA", "1", Php::Public | Php::Static); stringDB.property("USE_WRITABLE", "2", Php::Public | Php::Static); extension.add(std::move(stringDB)); Php::Class<PhpDBWriter> intDBWriter("IntDBWriter"); intDBWriter.method("__construct", &PhpDBWriter::__construct); intDBWriter.method("__destruct", &PhpDBWriter::__destruct); intDBWriter.method("write", &PhpDBWriter::write); intDBWriter.property("ASCII_MODE", "0", Php::Public | Php::Static); intDBWriter.property("BINARY_MODE", "1", Php::Public | Php::Static); extension.add(std::move(intDBWriter)); return extension; }
/** * Startup function that is called by the Zend engine * to retrieve all information about the extension * @return void* */ PHPCPP_EXPORT void *get_module() { // create static instance of the extension object static Php::Extension myExtension("complex", "1.0"); Php::Namespace myNamespace("trComplex"); // description of the class so that PHP knows which methods are accessible Php::Class<Complex> complex("Complex"); // register the increment method, and specify its parameters complex.method("mod", &Complex::mod, {}); complex.method("__construct", &Complex::__construct); //complex.method("getReal", &Complex::getReal); complex.method("add", &Complex::add, { Php::ByVal("op", "trComplex\\Complex", false, true) }); myNamespace.add(std::move(complex)); // add the class to the extension //myExtension.add(std::move(complex)); myExtension.add(std::move(myNamespace)); // return the extension return myExtension; }
PHPCPP_EXPORT void *get_module() { static Php::Extension extension("PHP Osu Performance Points", "1.0"); Php::Class<POPP> POPP("POPP"); POPP.method<&POPP::__construct>("__construct"); POPP.method<&POPP::calculate>("calculate"); POPP.method<&POPP::calculateAcc>("calculateAcc"); extension.add(POPP); return extension; }
/** * Function that is called by PHP right after the PHP process * has started, and that returns an address of an internal PHP * strucure with all the details and features of your extension * * @return void* a pointer to an address that is understood by PHP */ PHPCPP_EXPORT void *get_module() { // static(!) Php::Extension object that should stay in memory // for the entire duration of the process (that's why it's static) static Php::Extension extension("skeleton", "1.0"); extension.add("helloWorld", helloWorld); extension.add("swap", swap,{ Php::ByRef("a", Php::Type::Numeric), Php::ByRef("b", Php::Type::Numeric) }); extension.add("swapObject", swap,{ Php::ByRef("a", "sampleClass"), Php::ByRef("b", "sampleClass") }); // @todo add your own functions, classes, namespaces to the extension // return the extension return extension; }
// export the "get_module" function that will be called by the Zend engine PHPCPP_EXPORT void *get_module() { // create extension static Php::Extension extension("my_function_void","1.0"); // add function to extension extension.add("my_void_function", my_function_void); // return the extension module return extension.module(); }
/** * Function that is called by PHP right after the PHP process * has started, and that returns an address of an internal PHP * strucure with all the details and features of your extension * * @return void* a pointer to an address that is understood by PHP */ PHPCPP_EXPORT void *get_module() { // static(!) Php::Extension object that should stay in memory // for the entire duration of the process (that's why it's static) static Php::Extension extension("returnobjecy", "1.0"); // we have to class - master and child Php::Class<Master> master("master"); Php::Class<Child> child("child"); // the master class has one method - to return a child master.method("child", &Master::child); // add all classes to the extension extension.add(master); extension.add(child); // return the extension return extension; }
// export the "get_module" function that will be called by the Zend engine PHPCPP_EXPORT void *get_module() { // create extension static Php::Extension extension("globals","1.0"); // add function to extension extension.add("process_globals", process_globals); // return the extension module return extension.module(); }
// export the "get_module" function that will be called by the Zend engine PHPCPP_EXPORT void *get_module() { // create extension static Php::Extension extension("call_php_function","1.0"); // add function to extension extension.add("call_php_function", call_php_function, { Php::ByVal("addFunc", Php::Type::Callable), Php::ByVal("x", Php::Type::Numeric) }); // return the extension module return extension.module(); }
/** * Function that is called by PHP right after the PHP process * has started, and that returns an address of an internal PHP * strucure with all the details and features of your extension * * @return void* a pointer to an address that is understood by PHP */ PHPCPP_EXPORT void *get_module() { // static(!) Php::Extension object that should stay in memory // for the entire duration of the process (that's why it's static) static Php::Extension extension("complex", "0.0.1"); Php::Namespace myNamespace("tr"); Php::Class<Complex> complex("Complex"); complex.method("mod", &Complex::mod,{}); complex.method("phi", &Complex::phi,{}); complex.method("real", &Complex::getReal,{}); complex.method("image", &Complex::getImage,{}); complex.method("__construct", &Complex::__construct); complex.method("add", &Complex::add,{ Php::ByVal("op", "tr\\Complex", false, true) }); complex.method("sub", &Complex::sub,{ Php::ByVal("op", "tr\\Complex", false, true) }); complex.method("mul", &Complex::mul,{ Php::ByVal("op", "tr\\Complex", false, true) }); complex.method("div", &Complex::div,{ Php::ByVal("op", "tr\\Complex", false, true) }); complex.method("conjugate", &Complex::conjugate,{}); complex.method("__toString", &Complex::__toString); myNamespace.add(std::move(complex)); extension.add(std::move(myNamespace)); //extension.add(std::move(complex)); // return the extension return extension; }
// export the "get_module" function that will be called by the Zend engine PHPCPP_EXPORT void *get_module() { // create extension static Php::Extension extension("extension_for_tests","0.1"); // build an interface //Php::Interface interface("MyInterface"); // add methods to the interface //interface.method("method1"); //interface.method("method2"); // add the interface to the extension //extension.add(interface); /** * Classes and objects * */ // we are going to define a class Php::Class<TestBaseClass::MyCustomClass> customClass("TestBaseClass\\MyClass"); // add methods to it customClass.method("myMethod", &TestBaseClass::MyCustomClass::myMethod, Php::Final, {}); customClass.property("property1", "prop1"); customClass.property("property2", "prop2", Php::Protected); customClass.property("CONSTANT1", "some string", Php::Const); customClass.property("EXP", 2.718281828459, Php::Const); customClass.property("CONSTANT2", -2582341, Php::Const); customClass.property("CONSTANT3", true, Php::Const); customClass.property("StatProp1", "some string", Php::Static); customClass.property("Exp", 2.718281828459, Php::Static); customClass.property("StatProp2", -2582341, Php::Static); customClass.property("StatProp3", true, Php::Static); // add the class to the extension extension.add(customClass); // Comparable extension.add( Php::Class<TestBaseClass::Comparable>("TestBaseClass\\Comparable") ); // test static functions // // description of the class so that PHP knows which methods are accessible Php::Class<TestBaseClass::testStaticPubClass> ClassWithStatic("TestBaseClass\\ClassWithStatic"); // register the testStaticPubClass::staticMethod to be a static method callable from PHP ClassWithStatic.method("static1", &TestBaseClass::testStaticPubClass::staticMethod); // regular functions have the same signatures as static methods. So nothing forbids you to register a normal function as static method too ClassWithStatic.method("static2", TestBaseClass::testStaticRegFunc); // and even static methods from completely different classes have the same function signature and can thus be registered ClassWithStatic.method("static3", &TestBaseClass::testStaticPrivClass::staticMethod); // add the class to the extension extension.add(std::move(ClassWithStatic)); // In fact, because a static method has the same signature // as a regular function, you can also register static // C++ methods as regular global PHP functions extension.add("TestBaseClass\\staticFun1", &TestBaseClass::testStaticPrivClass::staticMethod); /** * tests for Iterators * */ // add function to extension //extension.add("TestValueIterator\\loopValue", TestValueIterator::loopValue/*, { extension.add("TestValueIterator\\loopValue", TestValueIterator::loopValue); extension.add("TestValueIterator\\loopArray", TestValueIterator::loopArray); /** * tests for variables * */ // create a nested namespace extension.add("TestVariables\\process_globals", TestVariables::process_globals); extension.add("TestVariables\\get_complex_array", TestVariables::get_complex_array); extension.add("TestVariables\\value_types", TestVariables::value_types); extension.add("TestVariables\\scalar_store", TestVariables::scalar_store); extension.add("TestVariables\\value_casting", TestVariables::value_casting); extension.add("TestVariables\\value_cast2double", TestVariables::value_cast2double); extension.add("TestVariables\\value_cast2str", TestVariables::value_cast2str); extension.add("TestVariables\\overloaded_op", TestVariables::overloaded_op); extension.add("TestVariables\\value_arrays", TestVariables::value_arrays); extension.add("TestVariables\\value_object1", TestVariables::value_object1); extension.add("TestVariables\\value_object2", TestVariables::value_object2); extension.add("TestVariables\\fnFromUserSpace", TestVariables::fnFromUserSpace); extension.add("TestVariables\\fnFromUserSpace2", TestVariables::fnFromUserSpace2); extension.add("TestVariables\\fnCallback", TestVariables::fnCallback); extension.add("TestVariables\\test_HashMember_1", TestVariables::test_HashMember_1); extension.add("TestVariables\\test_HashMember_2", TestVariables::test_HashMember_2); extension.add("TestVariables\\test_HashMember_3", TestVariables::test_HashMember_3); extension.add("TestVariables\\test_HashMember_4", TestVariables::test_HashMember_4); extension.add("TestVariables\\getCookie", TestVariables::getCookie); extension.add("TestVariables\\get_post", TestVariables::get_post); extension.add("TestVariables\\post_raw1", TestVariables::post_raw1); extension.add("TestVariables\\post_raw2", TestVariables::post_raw2); extension.add("TestVariables\\test_env", TestVariables::test_env); extension.add("TestVariables\\test_compare1", TestVariables::test_compare1); extension.add("TestVariables\\test_compare2", TestVariables::test_compare2); // A sample class, with methods to cast objects to scalars Php::Class<TestVariables::Obj2Scalar> cObj2Scalar("TestVariables\\Obj2Scalar"); extension.add(std::move(cObj2Scalar)); /** * tests ini entries * */ extension .add(Php::Ini("ini1", "valIni1")) .add(Php::Ini("ini2", "valIni2", "OrigValIni2")) .add(Php::Ini("ini3", "valIni3", "OrigValIni3", Php::Ini::System)) .add(Php::Ini("ini4", true, false, Php::Ini::Place::User)) .add(Php::Ini("ini5", false)); Php::Ini ini6("ini6", 55, 11); extension .add(ini6) .add(Php::Ini("ini7", 74,5)); Php::Ini ini8("ini8", 3.1415926, 6.2831852); Php::Ini ini9("ini9", 2.7182818, 5.4365636, Php::Ini::User); //extension.add(Php::Ini("ini9", 0.333333, 0.777777, Php::Ini::Perdir)); extension.add(ini8); extension.add(std::move(ini9)); extension.add("TestIniEntries\\iniTest1", TestIniEntries::iniTest1); extension.onStartup([](){ // Retrieve a value at boot extension TestIniEntries::ini6val = Php::ini_get("ini6"); }); // return the extension module return extension; }
PHPCPP_EXPORT void *get_module() { static Php::Extension extension("Phalcon++", "0.0.1"); Php::Ini ini("phalcon.debug.enable_debug", false); extension.add(std::move(ini)); /** * Define Phalcon namespace */ Php::Namespace phalconNamespace("Phalcon"); /* Class Phalcon\Di\Injectable */ Php::Class<Phalcon::Injectable> injectable("Injectable", Php::Abstract); phalconNamespace.add(injectable); /* Class Phalcon\Version */ Php::Class<Phalcon::Version> version("Version"); phalconNamespace.add(std::move(version)); /* Class Phalcon\Debug */ Php::Class<Phalcon::Debug> debug("Debug"); phalconNamespace.add(std::move(debug)); /* Class Phalcon\Acl */ Php::Class<Phalcon::Acl> acl("Acl", Php::Abstract); phalconNamespace.add(std::move(acl)); /* Class Phalcon\Application */ Php::Class<Phalcon::Application> application("Application", Php::Abstract); phalconNamespace.add(std::move(application)); /* Class Phalcon\Arr */ Php::Class<Phalcon::Arr> arr("Arr"); phalconNamespace.add(std::move(arr)); /* Class Phalcon\Config */ Php::Class<Phalcon::Config> config("Config"); phalconNamespace.add(std::move(config)); /* Class Phalcon\Loader */ Php::Class<Phalcon::Loader> loader("Loader", injectable); phalconNamespace.add(std::move(loader)); /* Interface Phalcon\DiInterface */ Phalcon::DiInterface diInterface("DiInterface"); phalconNamespace.add(std::move(diInterface)); /* Class Phalcon\Di */ Php::Class<Phalcon::Di> di("Di", diInterface); phalconNamespace.add(std::move(di)); /* Interface Phalcon\DiInterface */ Phalcon::DispatcherInterface dispatcherInterface("DispatcherInterface"); phalconNamespace.add(std::move(dispatcherInterface)); /* Class Phalcon\Dispatcher */ Php::Class<Phalcon::Dispatcher> dispatcher("Dispatcher", dispatcherInterface); phalconNamespace.add(std::move(dispatcher)); /* Class Phalcon\Db */ Php::Class<Phalcon::Db> db("Db"); phalconNamespace.add(std::move(db)); /** * Define Di namespace */ Php::Namespace diNamespace("Di"); /* Interface Phalcon\Di\ServiceInterface */ Phalcon::Di_ServiceInterface diServiceInterface("ServiceInterface"); diNamespace.add(std::move(diServiceInterface)); /* Class Phalcon\Di\Service */ Php::Class<Phalcon::Di_Service> di_service("Service", diServiceInterface); diNamespace.add(std::move(di_service)); phalconNamespace.add(std::move(diNamespace)); extension.add(std::move(phalconNamespace)); return extension; }