void MethodStatement::outputCPPStaticMethodWrapper(CodeGenerator &cg,
AnalysisResultPtr ar,
const char *cls) {
if (!m_modifiers->isStatic() || !m_stmt) return;
CodeGenerator::Context context = cg.getContext();
FunctionScopePtr funcScope = m_funcScope.lock();
bool isWrapper = context == CodeGenerator::CppTypedParamsWrapperDecl ||
context == CodeGenerator::CppTypedParamsWrapperImpl;
bool needsWrapper = isWrapper ||
(Option::HardTypeHints && funcScope->needsTypeCheckWrapper());
m_modifiers->outputCPP(cg, ar);
TypePtr type = funcScope->getReturnType();
if (type) {
type->outputCPPDecl(cg, ar);
} else {
cg_printf("void");
}
cg_printf(" %s%s(", needsWrapper && !isWrapper ?
Option::TypedMethodPrefix : Option::MethodPrefix,
cg.formatLabel(m_name).c_str());
if (!isWrapper) cg.setContext(CodeGenerator::CppStaticMethodWrapper);
funcScope->outputCPPParamsDecl(cg, ar, m_params, true);
cg_printf(") { %s%s%s(", type ? "return " : "",
needsWrapper && !isWrapper ?
Option::TypedMethodImplPrefix : Option::MethodImplPrefix,
cg.formatLabel(m_name).c_str());
cg_printf("%s%s::s_class_name", Option::ClassPrefix, cls);
cg.setContext(context);
if (funcScope->isVariableArgument()) {
cg_printf(", num_args");
}
if (m_params) {
for (int i = 0; i < m_params->getCount(); i++) {
ParameterExpressionPtr param =
dynamic_pointer_cast<ParameterExpression>((*m_params)[i]);
ASSERT(param);
cg_printf(", %s%s", Option::VariablePrefix, param->getName().c_str());
}
}
if (funcScope->isVariableArgument()) {
cg_printf(", args");
}
cg_printf("); }\n");
if (!isWrapper && needsWrapper) {
cg.setContext(CodeGenerator::CppTypedParamsWrapperDecl);
outputCPPStaticMethodWrapper(cg, ar, cls);
cg.setContext(context);
}
}
void MethodStatement::outputCPPStaticMethodWrapper(CodeGenerator &cg,
AnalysisResultPtr ar,
const char *cls) {
if (!m_modifiers->isStatic() || !m_stmt) return;
FunctionScopePtr funcScope = m_funcScope.lock();
ar->pushScope(funcScope);
m_modifiers->outputCPP(cg, ar);
TypePtr type = funcScope->getReturnType();
if (type) {
type->outputCPPDecl(cg, ar);
} else {
cg.printf("void");
}
cg.printf(" %s%s(", Option::MethodPrefix, m_name.c_str());
CodeGenerator::Context old = cg.getContext();
cg.setContext(CodeGenerator::CppStaticMethodWrapper);
funcScope->outputCPPParamsDecl(cg, ar, m_params, true);
cg.setContext(old);
cg.printf(") { %s%s%s(\"%s\"", type ? "return " : "",
Option::MethodImplPrefix, m_name.c_str(),
cls);
if (funcScope->isVariableArgument()) {
cg.printf(", num_args");
}
if (m_params) {
for (int i = 0; i < m_params->getCount(); i++) {
ParameterExpressionPtr param =
dynamic_pointer_cast<ParameterExpression>((*m_params)[i]);
ASSERT(param);
cg.printf(", %s%s", Option::VariablePrefix, param->getName().c_str());
}
}
if (funcScope->isVariableArgument()) {
cg.printf(", args");
}
cg.printf("); }\n");
ar->popScope();
}
void MethodStatement::outputCPPImpl(CodeGenerator &cg, AnalysisResultPtr ar) {
FunctionScopePtr funcScope = m_funcScope.lock();
ClassScopePtr scope = ar->getClassScope();
string origFuncName;
ar->pushScope(funcScope);
if (outputFFI(cg, ar)) return;
cg.setPHPLineNo(-1);
if (cg.getContext() == CodeGenerator::CppImplementation) {
printSource(cg);
}
switch (cg.getContext()) {
case CodeGenerator::CppDeclaration:
{
if (!m_stmt) {
cg.printf("// ");
}
m_modifiers->outputCPP(cg, ar);
if (m_name == "__offsetget_lval") {
cg.printf("virtual ");
}
TypePtr type = funcScope->getReturnType();
if (type) {
type->outputCPPDecl(cg, ar);
} else {
cg.printf("void");
}
if (m_name == "__lval") {
cg.printf(" &___lval(");
} else if (m_name == "__offsetget_lval") {
cg.printf(" &___offsetget_lval(");
} else if (m_modifiers->isStatic() && m_stmt) {
// Static method wrappers get generated as support methods
cg.printf(" %s%s(const char* cls%s", Option::MethodImplPrefix,
m_name.c_str(),
funcScope->isVariableArgument() ||
(m_params && m_params->getCount()) ? ", " : "");
} else {
cg.printf(" %s%s(", Option::MethodPrefix, m_name.c_str());
}
funcScope->outputCPPParamsDecl(cg, ar, m_params, true);
if (m_stmt) {
cg.printf(");\n");
} else {
cg.printf(") = 0;\n");
}
if (funcScope->isConstructor(scope)
&& !funcScope->isAbstract() && !scope->isInterface()) {
funcScope->outputCPPCreateDecl(cg, ar);
}
}
break;
case CodeGenerator::CppImplementation:
if (m_stmt) {
TypePtr type = funcScope->getReturnType();
if (type) {
type->outputCPPDecl(cg, ar);
} else {
cg.printf("void");
}
origFuncName = std::string(scope->getOriginalName()) +
"::" + m_originalName;
if (Option::HotFunctions.find(origFuncName) !=
Option::HotFunctions.end()) {
cg.printf(" __attribute((__section__(\".text.hot\")))");
} else if (Option::ColdFunctions.find(origFuncName) !=
Option::ColdFunctions.end()) {
cg.printf(" __attribute((__section__(\".text.cold\")))");
}
if (m_name == "__lval") {
cg.printf(" &%s%s::___lval(",
Option::ClassPrefix, scope->getId().c_str());
} else if (m_name == "__offsetget_lval") {
cg.printf(" &%s%s::___offsetget_lval(",
Option::ClassPrefix, scope->getId().c_str());
} else if (m_modifiers->isStatic()) {
cg.printf(" %s%s::%s%s(const char* cls%s", Option::ClassPrefix,
scope->getId().c_str(),
Option::MethodImplPrefix, m_name.c_str(),
funcScope->isVariableArgument() ||
(m_params && m_params->getCount()) ? ", " : "");
} else {
cg.printf(" %s%s::%s%s(", Option::ClassPrefix, scope->getId().c_str(),
Option::MethodPrefix, m_name.c_str());
}
funcScope->outputCPPParamsDecl(cg, ar, m_params, false);
cg.indentBegin(") {\n");
if (m_modifiers->isStatic()) {
cg.printf("STATIC_METHOD_INJECTION(%s, %s::%s);\n",
scope->getOriginalName(), scope->getOriginalName(),
m_originalName.c_str());
} else {
cg.printf("INSTANCE_METHOD_INJECTION(%s, %s::%s);\n",
scope->getOriginalName(), scope->getOriginalName(),
m_originalName.c_str());
}
if (Option::GenRTTIProfileData && m_params) {
for (int i = 0; i < m_params->getCount(); i++) {
ParameterExpressionPtr param =
dynamic_pointer_cast<ParameterExpression>((*m_params)[i]);
if (param->hasRTTI()) {
const string ¶mName = param->getName();
int id = ar->getParamRTTIEntryId(ar->getClassScope(), funcScope,
paramName);
if (id != -1) {
cg.printf("RTTI_INJECTION(%s%s, %d);\n",
Option::VariablePrefix, paramName.c_str(), id);
}
}
}
}
if (m_name == "__lval" || m_name == "__offsetget_lval") {
ParameterExpressionPtr param =
dynamic_pointer_cast<ParameterExpression>((*m_params)[0]);
cg.printf("Variant &v = %s->__lvalProxy;\n",
cg.getOutput() == CodeGenerator::SystemCPP ?
"get_system_globals()" : "get_global_variables()");
string lowered = Util::toLower(m_originalName);
cg.printf("v = %s%s(%s%s);\n",
Option::MethodPrefix, lowered.c_str(),
Option::VariablePrefix, param->getName().c_str());
cg.printf("return v;\n");
} else {
if (funcScope->isConstructor(scope)) {
cg.printf("bool oldInCtor = gasInCtor(true);\n");
} else if (m_name == "__destruct") {
cg.printf("setInDtor();\n");
} else if (m_name == "__call") {
ParameterExpressionPtr param;
if (m_params->getCount() > 0) {
param = dynamic_pointer_cast<ParameterExpression>((*m_params)[0]);
cg.printf("INCALL_HELPER(%s%s);\n",
Option::VariablePrefix, param->getName().c_str());
} else {
cg.printf("INCALL_HELPER(\"\");\n");
}
}
funcScope->outputCPP(cg, ar);
cg.setContext(CodeGenerator::NoContext); // no inner functions/classes
if (!funcScope->isStatic() && funcScope->getVariables()->
getAttribute(VariableTable::ContainsDynamicVariable)) {
cg.printf("%sthis = this;\n", Option::VariablePrefix);
}
outputCPPStmt(cg, ar);
cg.setContext(CodeGenerator::CppImplementation);
}
cg.indentEnd("} /* function */\n");
}
break;
default:
break;
}
ar->popScope();
}
void MethodStatement::outputCPPImpl(CodeGenerator &cg, AnalysisResultPtr ar) {
FunctionScopePtr funcScope = m_funcScope.lock();
ClassScopePtr scope = getClassScope();
if (outputFFI(cg, ar)) return;
cg.setPHPLineNo(-1);
CodeGenerator::Context context = cg.getContext();
if (context == CodeGenerator::CppImplementation) {
printSource(cg);
}
bool isWrapper = context == CodeGenerator::CppTypedParamsWrapperDecl ||
context == CodeGenerator::CppTypedParamsWrapperImpl;
bool needsWrapper = isWrapper ||
(Option::HardTypeHints && funcScope->needsTypeCheckWrapper());
const char *prefix = needsWrapper && !isWrapper ?
Option::TypedMethodPrefix : Option::MethodPrefix;
switch (context) {
case CodeGenerator::CppDeclaration:
case CodeGenerator::CppTypedParamsWrapperDecl:
{
if (!m_stmt && !funcScope->isPerfectVirtual()) {
cg_printf("// ");
}
m_modifiers->outputCPP(cg, ar);
if (!m_stmt || m_name == "__offsetget_lval" ||
funcScope->isPerfectVirtual()) {
cg_printf("virtual ");
}
TypePtr type = funcScope->getReturnType();
if (type) {
type->outputCPPDecl(cg, ar);
} else {
cg_printf("void");
}
if (m_name == "__offsetget_lval") {
cg_printf(" &___offsetget_lval(");
} else if (m_modifiers->isStatic() && m_stmt) {
// Static method wrappers get generated as support methods
cg_printf(" %s%s(CStrRef cls%s",
needsWrapper && !isWrapper ?
Option::TypedMethodImplPrefix : Option::MethodImplPrefix,
cg.formatLabel(m_name).c_str(),
funcScope->isVariableArgument() ||
(m_params && m_params->getCount()) ? ", " : "");
} else {
cg_printf(" %s%s(", prefix, cg.formatLabel(m_name).c_str());
}
funcScope->outputCPPParamsDecl(cg, ar, m_params, true);
if (m_stmt) {
cg_printf(");\n");
} else if (funcScope->isPerfectVirtual()) {
cg_printf(") { return throw_fatal(\"pure virtual\");}\n");
} else {
cg_printf(") = 0;\n");
}
if (context != CodeGenerator::CppTypedParamsWrapperDecl) {
if (funcScope->isConstructor(scope)
&& !funcScope->isAbstract() && !scope->isInterface()) {
funcScope->outputCPPCreateDecl(cg, ar);
}
if (Option::HardTypeHints && funcScope->needsTypeCheckWrapper()) {
cg.setContext(CodeGenerator::CppTypedParamsWrapperDecl);
outputCPPImpl(cg, ar);
cg.setContext(context);
}
}
}
break;
case CodeGenerator::CppImplementation:
case CodeGenerator::CppTypedParamsWrapperImpl:
if (m_stmt) {
TypePtr type = funcScope->getReturnType();
if (type) {
type->outputCPPDecl(cg, ar);
} else {
cg_printf("void");
}
string origFuncName = getOriginalFullName();
string funcSection = Option::FunctionSections[origFuncName];
if (!funcSection.empty()) {
cg_printf(" __attribute__ ((section (\".text.%s\")))",
funcSection.c_str());
}
if (m_name == "__offsetget_lval") {
cg_printf(" &%s%s::___offsetget_lval(",
Option::ClassPrefix, scope->getId(cg).c_str());
} else if (m_modifiers->isStatic()) {
cg_printf(" %s%s::%s%s(CStrRef cls%s", Option::ClassPrefix,
scope->getId(cg).c_str(),
needsWrapper && !isWrapper ?
Option::TypedMethodImplPrefix : Option::MethodImplPrefix,
cg.formatLabel(m_name).c_str(),
funcScope->isVariableArgument() ||
(m_params && m_params->getCount()) ? ", " : "");
} else {
cg_printf(" %s%s::%s%s(", Option::ClassPrefix,
scope->getId(cg).c_str(),
prefix, cg.formatLabel(m_name).c_str());
}
funcScope->outputCPPParamsDecl(cg, ar, m_params, false);
cg_indentBegin(") {\n");
if (context != CodeGenerator::CppTypedParamsWrapperImpl) {
if (m_stmt->hasBody()) {
const char *sys =
(cg.getOutput() == CodeGenerator::SystemCPP ? "_BUILTIN" : "");
if (m_modifiers->isStatic()) {
cg_printf("STATIC_METHOD_INJECTION%s(%s, %s);\n", sys,
scope->getOriginalName().c_str(), origFuncName.c_str());
} else if (cg.getOutput() != CodeGenerator::SystemCPP &&
!scope->isRedeclaring() && !scope->derivedByDynamic()) {
cg_printf("INSTANCE_METHOD_INJECTION_ROOTLESS(%s, %s);\n",
scope->getOriginalName().c_str(), origFuncName.c_str());
} else {
cg_printf("INSTANCE_METHOD_INJECTION%s(%s, %s);\n", sys,
scope->getOriginalName().c_str(), origFuncName.c_str());
}
}
outputCPPArgInjections(cg, ar, origFuncName.c_str(),
scope, funcScope);
if (m_name == "__offsetget_lval") {
ParameterExpressionPtr param =
dynamic_pointer_cast<ParameterExpression>((*m_params)[0]);
cg_printf("Variant &v = %s->__lvalProxy;\n", cg.getGlobals(ar));
string lowered = Util::toLower(m_originalName);
cg_printf("v = %s%s(%s%s);\n",
prefix, lowered.c_str(),
Option::VariablePrefix, param->getName().c_str());
cg_printf("return v;\n");
} else {
if (funcScope->isConstructor(scope)) {
cg_printf("bool oldInCtor = gasInCtor(true);\n");
} else if (m_name == "__destruct") {
cg_printf("setInDtor();\n");
}
funcScope->outputCPP(cg, ar);
cg.setContext(
CodeGenerator::NoContext); // no inner functions/classes
if (!funcScope->isStatic() && funcScope->getVariables()->
getAttribute(VariableTable::ContainsDynamicVariable)) {
cg_printf("%sthis = this;\n", Option::VariablePrefix);
}
outputCPPStmt(cg, ar);
}
cg_indentEnd("}\n");
if (Option::HardTypeHints && funcScope->needsTypeCheckWrapper()) {
cg.setContext(CodeGenerator::CppTypedParamsWrapperImpl);
outputCPPImpl(cg, ar);
}
} else {
outputCPPTypeCheckWrapper(cg, ar);
cg_indentEnd("}\n");
}
cg.setContext(context);
cg.printImplSplitter();
}
break;
default:
break;
}
}
void FunctionStatement::outputCPPImpl(CodeGenerator &cg,
AnalysisResultPtr ar) {
CodeGenerator::Context context = cg.getContext();
FunctionScopePtr funcScope = m_funcScope.lock();
string fname = funcScope->getId(cg).c_str();
bool pseudoMain = funcScope->inPseudoMain();
string origFuncName = !pseudoMain ? funcScope->getOriginalName() :
("run_init::" + funcScope->getFileScope()->getName());
string funcSection;
if (outputFFI(cg, ar)) return;
if (context == CodeGenerator::NoContext) {
string rname = cg.formatLabel(m_name);
if (funcScope->isRedeclaring()) {
cg.printf("g->%s%s = &%s%s;\n", Option::CallInfoPrefix, m_name.c_str(),
Option::CallInfoPrefix, fname.c_str());
}
if (funcScope->isVolatile()) {
cg_printf("g->declareFunctionLit(");
cg_printString(m_name, ar);
cg_printf(");\n");
cg_printf("g->FVF(%s) = true;\n", rname.c_str());
}
return;
}
if (context == CodeGenerator::CppDeclaration &&
!funcScope->isInlined()) return;
if (context == CodeGenerator::CppPseudoMain &&
!pseudoMain) return;
if (context == CodeGenerator::CppImplementation &&
(funcScope->isInlined() || pseudoMain)) return;
ar->pushScope(funcScope);
cg.setPHPLineNo(-1);
if (pseudoMain && !Option::GenerateCPPMain) {
if (context == CodeGenerator::CppPseudoMain) {
if (cg.getOutput() != CodeGenerator::SystemCPP) {
cg.setContext(CodeGenerator::NoContext); // no inner functions/classes
funcScope->getVariables()->setAttribute(VariableTable::ForceGlobal);
outputCPPStmt(cg, ar);
funcScope->getVariables()->clearAttribute(VariableTable::ForceGlobal);
cg.setContext(CodeGenerator::CppPseudoMain);
ar->popScope();
return;
}
} else if (context == CodeGenerator::CppForwardDeclaration &&
cg.getOutput() != CodeGenerator::SystemCPP) {
return;
}
}
if (context == CodeGenerator::CppImplementation) {
printSource(cg);
} else if (context == CodeGenerator::CppForwardDeclaration &&
Option::GenerateCppLibCode) {
cg_printf("\n");
printSource(cg);
cg.printDocComment(funcScope->getDocComment());
}
if (funcScope->isInlined()) cg_printf("inline ");
TypePtr type = funcScope->getReturnType();
if (type) {
type->outputCPPDecl(cg, ar);
} else {
cg_printf("void");
}
funcSection = Option::FunctionSections[origFuncName];
if (!funcSection.empty()) {
cg_printf(" __attribute__ ((section (\".text.%s\")))",
funcSection.c_str());
}
if (pseudoMain) {
cg_printf(" %s%s(", Option::PseudoMainPrefix,
funcScope->getFileScope()->pseudoMainName().c_str());
} else {
cg_printf(" %s%s(", Option::FunctionPrefix, fname.c_str());
}
switch (context) {
case CodeGenerator::CppForwardDeclaration:
funcScope->outputCPPParamsDecl(cg, ar, m_params, true);
cg_printf(");\n");
if (funcScope->hasDirectInvoke()) {
cg_printf("Variant %s%s(void *extra, CArrRef params);\n",
Option::InvokePrefix, fname.c_str());
}
break;
case CodeGenerator::CppDeclaration:
case CodeGenerator::CppImplementation:
case CodeGenerator::CppPseudoMain:
{
funcScope->outputCPPParamsDecl(cg, ar, m_params, false);
cg_indentBegin(") {\n");
const char *sys =
(cg.getOutput() == CodeGenerator::SystemCPP ? "_BUILTIN" : "");
if (pseudoMain) {
cg_printf("PSEUDOMAIN_INJECTION%s(%s, %s%s);\n",
sys, origFuncName.c_str(), Option::PseudoMainPrefix,
funcScope->getFileScope()->pseudoMainName().c_str());
} else {
if (m_stmt->hasBody()) {
cg_printf("FUNCTION_INJECTION%s(%s);\n", sys, origFuncName.c_str());
}
outputCPPArgInjections(cg, ar, origFuncName.c_str(), ClassScopePtr(),
funcScope);
}
funcScope->outputCPP(cg, ar);
cg.setContext(CodeGenerator::NoContext); // no inner functions/classes
outputCPPStmt(cg, ar);
cg.setContext(context);
cg_indentEnd("} /* function */\n");
}
break;
default:
ASSERT(false);
}
ar->popScope();
}
