void ClassStatement::outputCPPClassDecl(CodeGenerator &cg, AnalysisResultPtr ar, const char *clsName, const char *originalName, const char *parent) { ClassScopeRawPtr classScope = getClassScope(); VariableTablePtr variables = classScope->getVariables(); ConstantTablePtr constants = classScope->getConstants(); const char *sweep = classScope->isUserClass() && !classScope->isSepExtension() ? "_NO_SWEEP" : ""; if (variables->hasAllJumpTables() && classScope->hasAllJumpTables()) { cg_printf("DECLARE_CLASS%s(%s, %s, %s)\n", sweep, clsName, CodeGenerator::EscapeLabel(originalName).c_str(), parent); return; } // Now we start to break down DECLARE_CLASS into lines of code that could // be generated differently... cg_printf("DECLARE_CLASS_COMMON%s(%s, %s)\n", sweep, clsName, CodeGenerator::EscapeLabel(originalName).c_str()); }
void ClassStatement::outputCPPClassDecl(CodeGenerator &cg, AnalysisResultPtr ar, const char *clsName, const char *originalName, const char *parent) { ClassScopeRawPtr classScope = getClassScope(); VariableTablePtr variables = classScope->getVariables(); ConstantTablePtr constants = classScope->getConstants(); const char *sweep = classScope->isUserClass() && !classScope->isSepExtension() ? "_NO_SWEEP" : ""; if (variables->hasAllJumpTables() && classScope->hasAllJumpTables()) { cg_printf("DECLARE_CLASS%s(%s, %s, %s)\n", sweep, clsName, CodeGenerator::EscapeLabel(originalName).c_str(), parent); return; } // Now we start to break down DECLARE_CLASS into lines of code that could // be generated differently... cg_printf("DECLARE_CLASS_COMMON%s(%s, %s)\n", sweep, clsName, CodeGenerator::EscapeLabel(originalName).c_str()); cg.printSection("DECLARE_STATIC_PROP_OPS"); cg_printf("public:\n"); cg.printSection("DECLARE_COMMON_INVOKE"); if (classScope->hasJumpTable(ClassScope::JumpTableCallInfo)) { cg.printf("static const MethodCallInfoTable s_call_info_table[];\n"); cg.printf("static const int s_call_info_index[];\n"); } else { cg.printf("static const int s_call_info_table = 0;\n"); cg.printf("static const int s_call_info_index = 0;\n"); } cg_printf("\n"); cg_printf("public:\n"); }
void ClassStatement::outputCPPImpl(CodeGenerator &cg, AnalysisResultPtr ar) { ClassScopeRawPtr classScope = getClassScope(); if (cg.getContext() == CodeGenerator::NoContext) { if (classScope->isRedeclaring()) { cg_printf("g->%s%s = ClassStaticsPtr(NEW(%s%s)());\n", Option::ClassStaticsObjectPrefix, cg.formatLabel(m_name).c_str(), Option::ClassStaticsPrefix, classScope->getId(cg).c_str()); cg_printf("g->%s%s = &%s%s;\n", Option::ClassStaticsCallbackPrefix, cg.formatLabel(m_name).c_str(), Option::ClassWrapperFunctionPrefix, classScope->getId(cg).c_str()); } if (classScope->isVolatile()) { cg_printf("g->CDEC(%s) = true;\n", m_name.c_str()); } const vector<string> &bases = classScope->getBases(); for (vector<string>::const_iterator it = bases.begin(); it != bases.end(); ++it) { ClassScopePtr base = ar->findClass(*it); if (base && base->isVolatile()) { cg_printf("checkClassExists("); cg_printString(base->getOriginalName(), ar, shared_from_this()); string lname = Util::toLower(base->getOriginalName()); cg_printf(", &%s->CDEC(%s), %s->FVF(__autoload));\n", cg.getGlobals(ar), cg.formatLabel(lname).c_str(), cg.getGlobals(ar)); } } return; } if (cg.getContext() != CodeGenerator::CppForwardDeclaration) { printSource(cg); } string clsNameStr = classScope->getId(cg); const char *clsName = clsNameStr.c_str(); bool redeclared = classScope->isRedeclaring(); switch (cg.getContext()) { case CodeGenerator::CppForwardDeclaration: { if (Option::GenerateCPPMacros) { cg_printf("FORWARD_DECLARE_CLASS(%s);\n", clsName); if (redeclared) { cg_printf("FORWARD_DECLARE_REDECLARED_CLASS(%s);\n", clsName); } } if (m_stmt) { cg.setContext(CodeGenerator::CppClassConstantsDecl); m_stmt->outputCPP(cg, ar); cg.setContext(CodeGenerator::CppForwardDeclaration); } } break; case CodeGenerator::CppDeclaration: { bool system = cg.getOutput() == CodeGenerator::SystemCPP; ClassScopePtr parCls; if (!m_parent.empty()) { parCls = ar->findClass(m_parent); if (parCls && parCls->isRedeclaring()) parCls.reset(); } if (Option::GenerateCppLibCode) { cg.printDocComment(classScope->getDocComment()); } cg_printf("class %s%s", Option::ClassPrefix, clsName); if (!m_parent.empty() && classScope->derivesDirectlyFrom(ar, m_parent)) { if (!parCls) { cg_printf(" : public DynamicObjectData"); } else { cg_printf(" : public %s%s", Option::ClassPrefix, parCls->getId(cg).c_str()); } } else { if (classScope->derivesFromRedeclaring()) { cg_printf(" : public DynamicObjectData"); } else if (system) { cg_printf(" : public ExtObjectData"); } else { cg_printf(" : public ObjectData"); } } if (m_base && Option::UseVirtualDispatch) { for (int i = 0; i < m_base->getCount(); i++) { ScalarExpressionPtr exp = dynamic_pointer_cast<ScalarExpression>((*m_base)[i]); const char *intf = exp->getString().c_str(); ClassScopePtr intfClassScope = ar->findClass(intf); if (intfClassScope && !intfClassScope->isRedeclaring() && classScope->derivesDirectlyFrom(ar, intf) && (!parCls || !parCls->derivesFrom(ar, intf, true, false))) { string id = intfClassScope->getId(cg); cg_printf(", public %s%s", Option::ClassPrefix, id.c_str()); } } } cg_indentBegin(" {\n"); cg_printf("public:\n"); cg.printSection("Properties"); classScope->getVariables()->outputCPPPropertyDecl(cg, ar, classScope->derivesFromRedeclaring()); if (Option::GenerateCppLibCode) { cg.printSection("Methods"); classScope->outputMethodWrappers(cg, ar); cg.printSection(">>>>>>>>>> Internal Implementation <<<<<<<<<<"); cg_printf("// NOTE: Anything below is subject to change. " "Use everything above instead.\n"); } cg.printSection("Class Map"); if (Option::GenerateCPPMacros) { cg_printf("virtual bool o_instanceof(CStrRef s) const;\n"); } if (Option::GenerateCPPMacros) { bool dyn = (!parCls && !m_parent.empty()) || classScope->derivesFromRedeclaring() == ClassScope::DirectFromRedeclared; bool idyn = parCls && classScope->derivesFromRedeclaring() == ClassScope::IndirectFromRedeclared; bool redec = classScope->isRedeclaring(); if (!classScope->derivesFromRedeclaring()) { outputCPPClassDecl(cg, ar, clsName, m_originalName.c_str(), parCls ? parCls->getId(cg).c_str() : "ObjectData"); } else { cg_printf("DECLARE_DYNAMIC_CLASS(%s, %s, %s)\n", clsName, m_originalName.c_str(), dyn || !parCls ? "DynamicObjectData" : parCls->getId(cg).c_str()); } if (system || Option::EnableEval >= Option::LimitedEval) { cg_printf("DECLARE_INVOKES_FROM_EVAL\n"); } bool hasGet = classScope->getAttribute( ClassScope::HasUnknownPropGetter); bool hasSet = classScope->getAttribute( ClassScope::HasUnknownPropSetter); bool hasCall = classScope->getAttribute( ClassScope::HasUnknownMethodHandler); bool hasCallStatic = classScope->getAttribute( ClassScope::HasUnknownStaticMethodHandler); if (dyn || idyn || redec || hasGet || hasSet || hasCall || hasCallStatic) { if (redec && classScope->derivedByDynamic()) { cg_printf("DECLARE_ROOT;\n"); if (!dyn && !idyn) { cg_printf("private: ObjectData* root;\n"); cg_printf("public:\n"); cg_printf("virtual ObjectData *getRoot() { return root; }\n"); } } string conInit = ""; bool hasParam = false; if (dyn) { conInit = " : DynamicObjectData(\"" + m_parent + "\", r)"; hasParam = true; } else if (idyn) { conInit = " : " + string(Option::ClassPrefix) + parCls->getId(cg) + "(r ? r : this)"; hasParam = true; } else { if (redec && classScope->derivedByDynamic()) { conInit = " : root(r ? r : this)"; } hasParam = true; } cg_indentBegin("%s%s(%s)%s {%s", Option::ClassPrefix, clsName, hasParam ? "ObjectData* r = NULL" : "", conInit.c_str(), hasGet || hasSet ? "\n" : ""); if (hasGet) cg_printf("setAttribute(UseGet);\n"); if (hasSet) cg_printf("setAttribute(UseSet);\n"); if (hasCall) cg_printf("setAttribute(HasCall);\n"); if (hasCallStatic) cg_printf("setAttribute(HasCallStatic);\n"); cg_indentEnd("}\n"); } } cg_printf("void init();\n"); if (classScope->needLazyStaticInitializer()) { cg_printf("static GlobalVariables *lazy_initializer" "(GlobalVariables *g);\n"); } if (!classScope->getAttribute(ClassScope::HasConstructor)) { FunctionScopePtr func = classScope->findFunction(ar, "__construct", false); if (func && !func->isAbstract() && !classScope->isInterface()) { func->outputCPPCreateDecl(cg, ar); } } if (classScope->getAttribute(ClassScope::HasDestructor)) { cg_printf("public: virtual void destruct();\n"); } // doCall if (classScope->getAttribute(ClassScope::HasUnknownMethodHandler)) { cg_printf("Variant doCall(Variant v_name, Variant v_arguments, " "bool fatal);\n"); } if (classScope->isRedeclaring() && !classScope->derivesFromRedeclaring() && classScope->derivedByDynamic()) { cg_printf("Variant doRootCall(Variant v_name, Variant v_arguments, " "bool fatal);\n"); } if (m_stmt) m_stmt->outputCPP(cg, ar); { set<string> done; classScope->outputCPPStaticMethodWrappers(cg, ar, done, clsName); } if (cg.getOutput() == CodeGenerator::SystemCPP && ar->isBaseSysRsrcClass(clsName) && !classScope->hasProperty("rsrc")) { cg_printf("public: Variant %srsrc;\n", Option::PropertyPrefix); } if (Option::GenerateCPPMacros) { classScope->outputCPPJumpTableDecl(cg, ar); } cg_indentEnd("};\n"); if (redeclared) { cg_indentBegin("class %s%s : public ClassStatics {\n", Option::ClassStaticsPrefix, clsName); cg_printf("public:\n"); cg_printf("DECLARE_OBJECT_ALLOCATION(%s%s);\n", Option::ClassStaticsPrefix, clsName); cg_printf("%s%s() : ClassStatics(%d) {}\n", Option::ClassStaticsPrefix, clsName, classScope->getRedeclaringId()); cg_indentBegin("Variant %sgetInit(CStrRef s) {\n", Option::ObjectStaticPrefix); cg_printf("return %s%s::%sgetInit(s);\n", Option::ClassPrefix, clsName, Option::ObjectStaticPrefix); cg_indentEnd("}\n"); cg_indentBegin("Variant %sget(CStrRef s) {\n", Option::ObjectStaticPrefix); cg_printf("return %s%s::%sget(s);\n", Option::ClassPrefix, clsName, Option::ObjectStaticPrefix); cg_indentEnd("}\n"); cg_indentBegin("Variant &%slval(CStrRef s) {\n", Option::ObjectStaticPrefix); cg_printf("return %s%s::%slval(s);\n", Option::ClassPrefix, clsName, Option::ObjectStaticPrefix); cg_indentEnd("}\n"); cg_indentBegin("Object createOnly(ObjectData* root = NULL) {\n"); cg_printf("Object r((NEW(%s%s)(root)));\n", Option::ClassPrefix, clsName); cg_printf("r->init();\n"); cg_printf("return r;\n"); cg_indentEnd("}\n"); cg_indentBegin("Variant %sconstant(const char* s) {\n", Option::ObjectStaticPrefix); cg_printf("return %s%s::%sconstant(s);\n", Option::ClassPrefix, clsName, Option::ObjectStaticPrefix); cg_indentEnd("}\n"); cg_indentBegin("Variant %sinvoke_from_eval(const char *c, " "const char *s, Eval::VariableEnvironment &env, " "const Eval::FunctionCallExpression *call, " "int64 hash = -1, bool fatal = true) " "{\n", Option::ObjectStaticPrefix); cg_printf("return %s%s::%sinvoke_from_eval(c, s, env, call, hash, " "fatal);\n", Option::ClassPrefix, clsName, Option::ObjectStaticPrefix); cg_indentEnd("}\n"); cg_indentBegin("bool %sget_call_info(MethodCallPackage &mcp, " "int64 hash = -1) {\n", Option::ObjectStaticPrefix); cg_printf("return %s%s::%sget_call_info(mcp, hash);\n", Option::ClassPrefix, clsName, Option::ObjectStaticPrefix); cg_indentEnd("}\n"); cg_indentEnd("};\n"); } classScope->outputCPPGlobalTableWrappersDecl(cg, ar); } break; case CodeGenerator::CppImplementation: if (m_stmt) { cg.setContext(CodeGenerator::CppClassConstantsImpl); m_stmt->outputCPP(cg, ar); cg.setContext(CodeGenerator::CppImplementation); } classScope->outputCPPSupportMethodsImpl(cg, ar); if (redeclared) { cg_printf("IMPLEMENT_OBJECT_ALLOCATION(%s%s);\n", Option::ClassStaticsPrefix, clsName); } cg_indentBegin("void %s%s::init() {\n", Option::ClassPrefix, clsName); if (!m_parent.empty()) { if (classScope->derivesFromRedeclaring() == ClassScope::DirectFromRedeclared) { cg_printf("parent->init();\n"); } else { ClassScopePtr parCls = ar->findClass(m_parent); cg_printf("%s%s::init();\n", Option::ClassPrefix, parCls->getId(cg).c_str()); } } if (classScope->getVariables()-> getAttribute(VariableTable::NeedGlobalPointer)) { cg.printDeclareGlobals(); } cg.setContext(CodeGenerator::CppConstructor); if (m_stmt) m_stmt->outputCPP(cg, ar); // This is lame. Exception base class needs to prepare stacktrace outside // of its PHP constructor. Every subclass of exception also needs this // stacktrace, so we're adding an artificial __init__ in exception.php // and calling it here. if (m_name == "exception") { cg_printf("{CountableHelper h(this); t___init__();}\n"); } cg_indentEnd("}\n"); if (classScope->needStaticInitializer()) { cg_indentBegin("void %s%s::os_static_initializer() {\n", Option::ClassPrefix, clsName); cg.printDeclareGlobals(); cg.setContext(CodeGenerator::CppStaticInitializer); if (m_stmt) m_stmt->outputCPP(cg, ar); cg_indentEnd("}\n"); cg_indentBegin("void %s%s() {\n", Option::ClassStaticInitializerPrefix, clsName); cg_printf("%s%s::os_static_initializer();\n", Option::ClassPrefix, clsName); cg_indentEnd("}\n"); } if (classScope->needLazyStaticInitializer()) { cg_indentBegin("GlobalVariables *%s%s::lazy_initializer(" "GlobalVariables *g) {\n", Option::ClassPrefix, clsName); cg_indentBegin("if (!g->%s%s) {\n", Option::ClassStaticInitializerFlagPrefix, clsName); cg_printf("g->%s%s = true;\n", Option::ClassStaticInitializerFlagPrefix, clsName); cg.setContext(CodeGenerator::CppLazyStaticInitializer); if (m_stmt) m_stmt->outputCPP(cg, ar); cg_indentEnd("}\n"); cg_printf("return g;\n"); cg_indentEnd("}\n"); } cg.setContext(CodeGenerator::CppImplementation); if (m_stmt) m_stmt->outputCPP(cg, ar); break; case CodeGenerator::CppFFIDecl: case CodeGenerator::CppFFIImpl: if (m_stmt) m_stmt->outputCPP(cg, ar); break; case CodeGenerator::JavaFFI: { if (classScope->isRedeclaring()) break; // TODO support PHP namespaces, once HPHP supports it string packageName = Option::JavaFFIRootPackage; string packageDir = packageName; Util::replaceAll(packageDir, ".", "/"); string outputDir = ar->getOutputPath() + "/" + Option::FFIFilePrefix + packageDir + "/"; Util::mkdir(outputDir); // uses a different cg to generate a separate file for each PHP class // also, uses the original capitalized class name string clsFile = outputDir + getOriginalName() + ".java"; ofstream fcls(clsFile.c_str()); CodeGenerator cgCls(&fcls, CodeGenerator::FileCPP); cgCls.setContext(CodeGenerator::JavaFFI); cgCls.printf("package %s;\n\n", packageName.c_str()); cgCls.printf("import hphp.*;\n\n"); printSource(cgCls); string clsModifier; switch (m_type) { case T_CLASS: break; case T_ABSTRACT: clsModifier = "abstract "; break; case T_FINAL: clsModifier = "final "; break; } cgCls.printf("public %sclass %s ", clsModifier.c_str(), getOriginalName().c_str()); ClassScopePtr parCls; if (!m_parent.empty()) parCls = ar->findClass(m_parent); if (!m_parent.empty() && classScope->derivesDirectlyFrom(ar, m_parent) && parCls && parCls->isUserClass() && !parCls->isRedeclaring()) { // system classes are not supported in static FFI translation // they shouldn't appear as superclasses as well cgCls.printf("extends %s", parCls->getOriginalName().c_str()); } else { cgCls.printf("extends HphpObject"); } if (m_base) { bool first = true; for (int i = 0; i < m_base->getCount(); i++) { ScalarExpressionPtr exp = dynamic_pointer_cast<ScalarExpression>((*m_base)[i]); const char *intf = exp->getString().c_str(); ClassScopePtr intfClassScope = ar->findClass(intf); if (intfClassScope && classScope->derivesFrom(ar, intf, false, false) && intfClassScope->isUserClass()) { if (first) { cgCls.printf(" implements "); first = false; } else { cgCls.printf(", "); } cgCls.printf(intfClassScope->getOriginalName().c_str()); } } } cgCls.indentBegin(" {\n"); // constructor for initializing the variant pointer cgCls.printf("protected %s(long ptr) { super(ptr); }\n\n", getOriginalName().c_str()); FunctionScopePtr cons = classScope->findConstructor(ar, true); if (cons && !cons->isAbstract() || m_type != T_ABSTRACT) { // if not an abstract class and not having an explicit constructor, // adds a default constructor outputJavaFFIConstructor(cgCls, ar, cons); } if (m_stmt) m_stmt->outputCPP(cgCls, ar); cgCls.indentEnd("}\n"); fcls.close(); } break; case CodeGenerator::JavaFFICppDecl: case CodeGenerator::JavaFFICppImpl: { if (classScope->isRedeclaring()) break; if (m_stmt) m_stmt->outputCPP(cg, ar); FunctionScopePtr cons = classScope->findConstructor(ar, true); if (cons && !cons->isAbstract() || m_type != T_ABSTRACT) { outputJavaFFICPPCreator(cg, ar, cons); } } break; default: ASSERT(false); break; } }
void ClassStatement::outputCPPClassDecl(CodeGenerator &cg, AnalysisResultPtr ar, const char *clsName, const char *originalName, const char *parent) { ClassScopeRawPtr classScope = getClassScope(); VariableTablePtr variables = classScope->getVariables(); ConstantTablePtr constants = classScope->getConstants(); if (variables->hasAllJumpTables() && constants->hasJumpTable() && classScope->hasAllJumpTables()) { cg_printf("DECLARE_CLASS(%s, %s, %s)\n", clsName, originalName, parent); return; } // Now we start to break down DECLARE_CLASS into lines of code that could // be generated differently... cg_printf("DECLARE_CLASS_COMMON(%s, %s)\n", clsName, originalName); cg_printf("DECLARE_INVOKE_EX%s(%s, %s, %s)\n", Option::UseMethodIndex ? "WITH_INDEX" : "", clsName, originalName, parent); cg.printSection("DECLARE_STATIC_PROP_OPS"); cg_printf("public:\n"); if (classScope->needStaticInitializer()) { cg_printf("static void os_static_initializer();\n"); } if (variables->hasJumpTable(VariableTable::JumpTableClassStaticGetInit)) { cg_printf("static Variant os_getInit(CStrRef s);\n"); } else { cg_printf("#define OMIT_JUMP_TABLE_CLASS_STATIC_GETINIT_%s 1\n", clsName); } if (variables->hasJumpTable(VariableTable::JumpTableClassStaticGet)) { cg_printf("static Variant os_get(CStrRef s);\n"); } else { cg_printf("#define OMIT_JUMP_TABLE_CLASS_STATIC_GET_%s 1\n", clsName); } if (variables->hasJumpTable(VariableTable::JumpTableClassStaticLval)) { cg_printf("static Variant &os_lval(CStrRef s);\n"); } else { cg_printf("#define OMIT_JUMP_TABLE_CLASS_STATIC_LVAL_%s 1\n", clsName); } if (constants->hasJumpTable()) { cg_printf("static Variant os_constant(const char *s);\n"); } else { cg_printf("#define OMIT_JUMP_TABLE_CLASS_CONSTANT_%s 1\n", clsName); } cg.printSection("DECLARE_INSTANCE_PROP_OPS"); cg_printf("public:\n"); if (variables->hasJumpTable(VariableTable::JumpTableClassGetArray)) { cg_printf("virtual void o_getArray(Array &props) const;\n"); } else { cg_printf("#define OMIT_JUMP_TABLE_CLASS_GETARRAY_%s 1\n", clsName); } if (variables->hasJumpTable(VariableTable::JumpTableClassSetArray)) { cg_printf("virtual void o_setArray(CArrRef props);\n"); } else { cg_printf("#define OMIT_JUMP_TABLE_CLASS_SETARRAY_%s 1\n", clsName); } if (variables->hasJumpTable(VariableTable::JumpTableClassRealProp)) { cg_printf("virtual Variant *o_realProp(CStrRef s, int flags,\n"); cg_printf(" CStrRef context = null_string) " "const;\n"); } else { cg_printf("#define OMIT_JUMP_TABLE_CLASS_realProp_%s 1\n", clsName); } if (variables->hasNonStaticPrivate()) { cg_printf("Variant *o_realPropPrivate(CStrRef s, int flags) const;\n"); } else { cg_printf("#define OMIT_JUMP_TABLE_CLASS_realProp_PRIVATE_%s 1\n", clsName); } cg.printSection("DECLARE_INSTANCE_PUBLIC_PROP_OPS"); cg_printf("public:\n"); if (variables->hasJumpTable(VariableTable::JumpTableClassRealPropPublic)) { cg_printf("virtual Variant *o_realPropPublic(CStrRef s, " "int flags) const;\n"); } else { cg_printf("#define OMIT_JUMP_TABLE_CLASS_realProp_PUBLIC_%s 1\n", clsName); } cg.printSection("DECLARE_COMMON_INVOKE"); cg.printf("static bool os_get_call_info(MethodCallPackage &mcp, " "int64 hash = -1);\n"); if (Option::UseMethodIndex) { cg.printf("virtual bool o_get_call_info_with_index(MethodCallPackage &mcp," " MethodIndex mi, int64 hash = -1);\n"); } else { cg_printf("#define OMIT_JUMP_TABLE_CLASS_STATIC_INVOKE_%s 1\n", clsName); } if (classScope->hasJumpTable(ClassScope::JumpTableInvoke)) { cg.printf("virtual bool o_get_call_info(MethodCallPackage &mcp, " "int64 hash = -1);\n"); } else { cg_printf("#define OMIT_JUMP_TABLE_CLASS_INVOKE_%s 1\n", clsName); } cg_printf("\n"); cg_printf("public:\n"); }
bool ClassStatement::hasImpl() const { ClassScopeRawPtr cls = getClassScope(); return cls->isVolatile() || cls->getVariables()->getAttribute(VariableTable::ContainsDynamicStatic); }
void ClassStatement::outputCPPImpl(CodeGenerator &cg, AnalysisResultPtr ar) { if (cg.getContext() == CodeGenerator::NoContext) { InterfaceStatement::outputCPPImpl(cg, ar); return; } ClassScopeRawPtr classScope = getClassScope(); if (cg.getContext() != CodeGenerator::CppForwardDeclaration) { printSource(cg); } string clsNameStr = classScope->getId(); const char *clsName = clsNameStr.c_str(); switch (cg.getContext()) { case CodeGenerator::CppDeclaration: { if (Option::GenerateCPPMacros) { classScope->outputForwardDeclaration(cg); } classScope->outputCPPGlobalTableWrappersDecl(cg, ar); bool system = cg.getOutput() == CodeGenerator::SystemCPP; ClassScopePtr parCls; if (!m_parent.empty()) { parCls = ar->findClass(m_parent); if (parCls && parCls->isRedeclaring()) parCls.reset(); } if (Option::GenerateCppLibCode) { cg.printDocComment(classScope->getDocComment()); } cg_printf("class %s%s", Option::ClassPrefix, clsName); if (!m_parent.empty() && classScope->derivesDirectlyFrom(m_parent)) { if (!parCls) { cg_printf(" : public DynamicObjectData"); } else { cg_printf(" : public %s%s", Option::ClassPrefix, parCls->getId().c_str()); } } else { if (classScope->derivesFromRedeclaring()) { cg_printf(" : public DynamicObjectData"); } else if (system) { cg_printf(" : public ExtObjectData"); } else { cg_printf(" : public ObjectData"); } } if (m_base && Option::UseVirtualDispatch) { for (int i = 0; i < m_base->getCount(); i++) { ScalarExpressionPtr exp = dynamic_pointer_cast<ScalarExpression>((*m_base)[i]); const char *intf = exp->getString().c_str(); ClassScopePtr intfClassScope = ar->findClass(intf); if (intfClassScope && !intfClassScope->isRedeclaring() && classScope->derivesDirectlyFrom(intf) && (!parCls || !parCls->derivesFrom(ar, intf, true, false))) { string id = intfClassScope->getId(); cg_printf(", public %s%s", Option::ClassPrefix, id.c_str()); } } } cg_indentBegin(" {\n"); cg_printf("public:\n"); cg.printSection("Properties"); if (classScope->getVariables()->outputCPPPropertyDecl( cg, ar, classScope->derivesFromRedeclaring())) { cg.printSection("Destructor"); cg_printf("~%s%s() NEVER_INLINE {}", Option::ClassPrefix, clsName); } if (Option::GenerateCppLibCode) { cg.printSection("Methods"); classScope->outputMethodWrappers(cg, ar); cg.printSection(">>>>>>>>>> Internal Implementation <<<<<<<<<<"); cg_printf("// NOTE: Anything below is subject to change. " "Use everything above instead.\n"); } cg.printSection("Class Map"); bool hasEmitCppCtor = false; bool needsCppCtor = classScope->needsCppCtor(); bool needsInit = classScope->needsInitMethod(); bool disableDestructor = !classScope->canSkipCreateMethod(ar) || (!classScope->derivesFromRedeclaring() && !classScope->hasAttribute(ClassScope::HasDestructor, ar)); if (Option::GenerateCPPMacros) { bool dyn = classScope->derivesFromRedeclaring() == ClassScope::DirectFromRedeclared; bool idyn = parCls && classScope->derivesFromRedeclaring() == ClassScope::IndirectFromRedeclared; bool redec = classScope->isRedeclaring(); if (!parCls && !m_parent.empty()) { assert(dyn); } if (!classScope->derivesFromRedeclaring()) { outputCPPClassDecl(cg, ar, clsName, m_originalName.c_str(), parCls ? parCls->getId().c_str() : "ObjectData"); } else { cg_printf("DECLARE_DYNAMIC_CLASS(%s, %s, %s)\n", clsName, m_originalName.c_str(), dyn || !parCls ? "DynamicObjectData" : parCls->getId().c_str()); } if (classScope->checkHasPropTable()) { cg_printf("static const ClassPropTable %sprop_table;\n", Option::ObjectStaticPrefix); } bool hasGet = classScope->getAttribute( ClassScope::HasUnknownPropGetter); bool hasSet = classScope->getAttribute( ClassScope::HasUnknownPropSetter); bool hasIsset = classScope->getAttribute( ClassScope::HasUnknownPropTester); bool hasUnset = classScope->getAttribute( ClassScope::HasPropUnsetter); bool hasCall = classScope->getAttribute( ClassScope::HasUnknownMethodHandler); bool hasCallStatic = classScope->getAttribute( ClassScope::HasUnknownStaticMethodHandler); bool hasRootParam = classScope->derivedByDynamic() && (redec || dyn || idyn); string lateInit = ""; if (redec && classScope->derivedByDynamic()) { if (!dyn && !idyn && (!parCls || parCls->isUserClass())) { cg_printf("private: ObjectData* root;\n"); cg_printf("public:\n"); cg_printf("virtual ObjectData *getRoot() { return root; }\n"); lateInit = "root(r ? r : this)"; } } string callbacks = Option::ClassStaticsCallbackPrefix + clsNameStr; string conInit = ""; if (dyn) { conInit = "DynamicObjectData(cb, \"" + CodeGenerator::EscapeLabel(m_parent) + "\", "; if (hasRootParam) { conInit += "r)"; } else { conInit += "this)"; } } else if (parCls) { conInit = string(Option::ClassPrefix) + parCls->getId() + "("; if (parCls->derivedByDynamic() && (parCls->isRedeclaring() || parCls->derivesFromRedeclaring() != ClassScope::FromNormal)) { if (hasRootParam) { conInit += "r ? r : "; } conInit += "this, "; } conInit += "cb)"; } else { if (system) { conInit = "ExtObjectData(cb)"; } else { if (hasRootParam) { conInit = "ObjectData(cb, r)"; } else { conInit = "ObjectData(cb, false)"; } } } cg_printf("%s%s(%sconst ObjectStaticCallbacks *cb = &%s%s) : %s", Option::ClassPrefix, clsName, hasRootParam ? "ObjectData* r = NULL," : "", callbacks.c_str(), redec ? ".oscb" : "", conInit.c_str()); if (needsCppCtor) { cg_printf(", "); cg.setContext(CodeGenerator::CppConstructor); ASSERT(!cg.hasInitListFirstElem()); m_stmt->outputCPP(cg, ar); cg.clearInitListFirstElem(); cg.setContext(CodeGenerator::CppDeclaration); } if (!lateInit.empty()) { cg_printf(", %s", lateInit.c_str()); } cg_indentBegin(" {%s", hasGet || hasSet || hasIsset || hasUnset || hasCall || hasCallStatic || disableDestructor || hasRootParam ? "\n" : ""); if (hasRootParam) { cg_printf("setId(r);\n"); } if (hasGet) cg_printf("setAttribute(UseGet);\n"); if (hasSet) cg_printf("setAttribute(UseSet);\n"); if (hasIsset) cg_printf("setAttribute(UseIsset);\n"); if (hasUnset) cg_printf("setAttribute(UseUnset);\n"); if (hasCall) cg_printf("setAttribute(HasCall);\n"); if (hasCallStatic) cg_printf("setAttribute(HasCallStatic);\n"); if (disableDestructor) { cg_printf("if (!hhvm) setAttribute(NoDestructor);\n"); } cg_indentEnd("}\n"); hasEmitCppCtor = true; } if (needsCppCtor && !hasEmitCppCtor) { cg_printf("%s%s() : ", Option::ClassPrefix, clsName); cg.setContext(CodeGenerator::CppConstructor); ASSERT(!cg.hasInitListFirstElem()); m_stmt->outputCPP(cg, ar); cg.clearInitListFirstElem(); cg.setContext(CodeGenerator::CppDeclaration); cg_printf(" {%s}\n", disableDestructor ? " if (!hhvm) setAttribute(NoDestructor); " : ""); } if (needsInit) { cg_printf("void init();\n"); } // doCall if (classScope->getAttribute(ClassScope::HasUnknownMethodHandler)) { cg_printf("Variant doCall(Variant v_name, Variant v_arguments, " "bool fatal);\n"); } if (classScope->getAttribute(ClassScope::HasInvokeMethod)) { FunctionScopePtr func = classScope->findFunction(ar, "__invoke", false); ASSERT(func); if (!func->isAbstract()) { cg_printf("const CallInfo *" "t___invokeCallInfoHelper(void *&extra);\n"); } } if (classScope->isRedeclaring() && !classScope->derivesFromRedeclaring() && classScope->derivedByDynamic()) { cg_printf("Variant doRootCall(Variant v_name, Variant v_arguments, " "bool fatal);\n"); } if (m_stmt) m_stmt->outputCPP(cg, ar); { std::set<string> done; classScope->outputCPPStaticMethodWrappers(cg, ar, done, clsName); } if (Option::GenerateCPPMacros) { classScope->outputCPPJumpTableDecl(cg, ar); } cg_indentEnd("};\n"); classScope->outputCPPDynamicClassDecl(cg); if (m_stmt) { cg.setContext(CodeGenerator::CppClassConstantsDecl); m_stmt->outputCPP(cg, ar); cg.setContext(CodeGenerator::CppDeclaration); } } break; case CodeGenerator::CppImplementation: { if (m_stmt) { cg.setContext(CodeGenerator::CppClassConstantsImpl); m_stmt->outputCPP(cg, ar); cg.setContext(CodeGenerator::CppImplementation); } classScope->outputCPPSupportMethodsImpl(cg, ar); bool needsInit = classScope->needsInitMethod(); if (needsInit) { cg_indentBegin("void %s%s::init() {\n", Option::ClassPrefix, clsName); if (!m_parent.empty()) { if (classScope->derivesFromRedeclaring() == ClassScope::DirectFromRedeclared) { cg_printf("parent->init();\n"); } else { ClassScopePtr parCls = ar->findClass(m_parent); cg_printf("%s%s::init();\n", Option::ClassPrefix, parCls->getId().c_str()); } } if (classScope->getVariables()-> getAttribute(VariableTable::NeedGlobalPointer)) { cg.printDeclareGlobals(); } cg.setContext(CodeGenerator::CppInitializer); if (m_stmt) m_stmt->outputCPP(cg, ar); // This is lame. Exception base class needs to prepare stacktrace // outside of its PHP constructor. Every subclass of exception also // needs this stacktrace, so we're adding an artificial __init__ in // exception.php and calling it here. if (m_name == "exception") { cg_printf("{CountableHelper h(this); t___init__();}\n"); } cg_indentEnd("}\n"); } cg.setContext(CodeGenerator::CppImplementation); if (m_stmt) m_stmt->outputCPP(cg, ar); } break; case CodeGenerator::CppFFIDecl: case CodeGenerator::CppFFIImpl: if (m_stmt) m_stmt->outputCPP(cg, ar); break; case CodeGenerator::JavaFFI: { if (classScope->isRedeclaring()) break; // TODO support PHP namespaces, once HPHP supports it string packageName = Option::JavaFFIRootPackage; string packageDir = packageName; Util::replaceAll(packageDir, ".", "/"); string outputDir = ar->getOutputPath() + "/" + Option::FFIFilePrefix + packageDir + "/"; Util::mkdir(outputDir); // uses a different cg to generate a separate file for each PHP class // also, uses the original capitalized class name string clsFile = outputDir + getOriginalName() + ".java"; std::ofstream fcls(clsFile.c_str()); CodeGenerator cgCls(&fcls, CodeGenerator::FileCPP); cgCls.setContext(CodeGenerator::JavaFFI); cgCls.printf("package %s;\n\n", packageName.c_str()); cgCls.printf("import hphp.*;\n\n"); printSource(cgCls); string clsModifier; switch (m_type) { case T_CLASS: break; case T_ABSTRACT: clsModifier = "abstract "; break; case T_FINAL: clsModifier = "final "; break; } cgCls.printf("public %sclass %s ", clsModifier.c_str(), getOriginalName().c_str()); ClassScopePtr parCls; if (!m_parent.empty()) parCls = ar->findClass(m_parent); if (!m_parent.empty() && classScope->derivesDirectlyFrom(m_parent) && parCls && parCls->isUserClass() && !parCls->isRedeclaring()) { // system classes are not supported in static FFI translation // they shouldn't appear as superclasses as well cgCls.printf("extends %s", parCls->getOriginalName().c_str()); } else { cgCls.printf("extends HphpObject"); } if (m_base) { bool first = true; for (int i = 0; i < m_base->getCount(); i++) { ScalarExpressionPtr exp = dynamic_pointer_cast<ScalarExpression>((*m_base)[i]); const char *intf = exp->getString().c_str(); ClassScopePtr intfClassScope = ar->findClass(intf); if (intfClassScope && classScope->derivesFrom(ar, intf, false, false) && intfClassScope->isUserClass()) { if (first) { cgCls.printf(" implements "); first = false; } else { cgCls.printf(", "); } cgCls.printf(intfClassScope->getOriginalName().c_str()); } } } cgCls.indentBegin(" {\n"); // constructor for initializing the variant pointer cgCls.printf("protected %s(long ptr) { super(ptr); }\n\n", getOriginalName().c_str()); FunctionScopePtr cons = classScope->findConstructor(ar, true); if (cons && !cons->isAbstract() || m_type != T_ABSTRACT) { // if not an abstract class and not having an explicit constructor, // adds a default constructor outputJavaFFIConstructor(cgCls, ar, cons); } if (m_stmt) m_stmt->outputCPP(cgCls, ar); cgCls.indentEnd("}\n"); fcls.close(); } break; case CodeGenerator::JavaFFICppDecl: case CodeGenerator::JavaFFICppImpl: { if (classScope->isRedeclaring()) break; if (m_stmt) m_stmt->outputCPP(cg, ar); FunctionScopePtr cons = classScope->findConstructor(ar, true); if (cons && !cons->isAbstract() || m_type != T_ABSTRACT) { outputJavaFFICPPCreator(cg, ar, cons); } } break; default: ASSERT(false); break; } }