bool SimpleFunctionCall::isDefineWithoutImpl(AnalysisResultPtr ar) { if (!m_className.empty()) return false; if (m_type == DefineFunction && m_params && m_params->getCount() >= 2) { if (m_dynamicConstant) return false; ScalarExpressionPtr name = dynamic_pointer_cast<ScalarExpression>((*m_params)[0]); if (!name) return false; string varName = name->getIdentifier(); if (varName.empty()) return false; if (ar->getConstants()->isSystem(varName)) return true; ExpressionPtr value = (*m_params)[1]; return (!ar->isConstantRedeclared(varName)) && value->isScalar(); } else { return false; } }
void SimpleFunctionCall::outputCPPImpl(CodeGenerator &cg, AnalysisResultPtr ar) { bool linemap = outputLineMap(cg, ar, true); if (!m_lambda.empty()) { cg.printf("\"%s\"", m_lambda.c_str()); if (linemap) cg.printf(")"); return; } if (m_className.empty()) { if (m_type == DefineFunction && m_params && m_params->getCount() >= 2) { ScalarExpressionPtr name = dynamic_pointer_cast<ScalarExpression>((*m_params)[0]); string varName; if (name) { varName = name->getIdentifier(); ExpressionPtr value = (*m_params)[1]; if (varName.empty()) { cg.printf("throw_fatal(\"bad define\")"); } else if (m_dynamicConstant) { cg.printf("g->declareConstant(\"%s\", g->%s%s, ", varName.c_str(), Option::ConstantPrefix, varName.c_str()); value->outputCPP(cg, ar); cg.printf(")"); } else { bool needAssignment = true; bool isSystem = ar->getConstants()->isSystem(varName); if (isSystem || ((!ar->isConstantRedeclared(varName)) && value->isScalar())) { needAssignment = false; } if (needAssignment) { cg.printf("%s%s = ", Option::ConstantPrefix, varName.c_str()); value->outputCPP(cg, ar); } } } else { cg.printf("throw_fatal(\"bad define\")"); } if (linemap) cg.printf(")"); return; } if (m_name == "func_num_args") { cg.printf("num_args"); if (linemap) cg.printf(")"); return; } switch (m_type) { case VariableArgumentFunction: { FunctionScopePtr func = dynamic_pointer_cast<FunctionScope>(ar->getScope()); if (func) { cg.printf("%s(", m_name.c_str()); func->outputCPPParamsCall(cg, ar, true); if (m_params) { cg.printf(","); m_params->outputCPP(cg, ar); } cg.printf(")"); if (linemap) cg.printf(")"); return; } } break; case FunctionExistsFunction: case ClassExistsFunction: case InterfaceExistsFunction: { bool literalString = false; string symbol; if (m_params && m_params->getCount() == 1) { ExpressionPtr value = (*m_params)[0]; if (value->isScalar()) { ScalarExpressionPtr name = dynamic_pointer_cast<ScalarExpression>(value); if (name && name->isLiteralString()) { literalString = true; symbol = name->getLiteralString(); } } } if (literalString) { switch (m_type) { case FunctionExistsFunction: { const std::string &lname = Util::toLower(symbol); bool dynInvoke = Option::DynamicInvokeFunctions.find(lname) != Option::DynamicInvokeFunctions.end(); if (!dynInvoke) { FunctionScopePtr func = ar->findFunction(lname); if (func) { if (!func->isDynamic()) { if (func->isRedeclaring()) { const char *name = func->getName().c_str(); cg.printf("(%s->%s%s != invoke_failed_%s)", cg.getGlobals(ar), Option::InvokePrefix, name, name); break; } cg.printf("true"); break; } } else { cg.printf("false"); break; } } cg.printf("f_function_exists(\"%s\")", lname.c_str()); } break; case ClassExistsFunction: { ClassScopePtr cls = ar->findClass(Util::toLower(symbol)); if (cls && !cls->isInterface()) { const char *name = cls->getName().c_str(); cg.printf("f_class_exists(\"%s\")", name); } else { cg.printf("false"); } } break; case InterfaceExistsFunction: { ClassScopePtr cls = ar->findClass(Util::toLower(symbol)); if (cls && cls->isInterface()) { const char *name = cls->getName().c_str(); cg.printf("f_interface_exists(\"%s\")", name); } else { cg.printf("false"); } } break; default: break; } if (linemap) cg.printf(")"); return; } } break; case GetDefinedVarsFunction: cg.printf("get_defined_vars(variables)"); if (linemap) cg.printf(")"); return; default: break; } } outputCPPParamOrderControlled(cg, ar); if (linemap) cg.printf(")"); }