string Type::getCPPDecl(AnalysisResultConstPtr ar, BlockScopeRawPtr scope, CodeGenerator *cg /* = 0 */) { switch (m_kindOf) { case KindOfBoolean: return "bool"; case KindOfInt32: return "int"; case KindOfInt64: return "int64"; case KindOfDouble: return "double"; case KindOfString: return "String"; case KindOfArray: return "Array"; case KindOfObject:{ ClassScopePtr cls(getClass(ar, scope)); if (!cls) return "Object"; if (cg && cg->isFileOrClassHeader() && scope) { if (scope->getContainingClass()) { scope->getContainingClass()->addUsedClassHeader(cls); } else if (scope->getContainingFile()) { scope->getContainingFile()->addUsedClassHeader(cls); } } return Option::SmartPtrPrefix + cls->getId(); } case KindOfNumeric: return "Numeric"; case KindOfPrimitive: return "Primitive"; case KindOfPlusOperand: return "PlusOperand"; case KindOfSequence: return "Sequence"; default: return "Variant"; } }
void Type::outputCPPDecl(CodeGenerator &cg, AnalysisResultConstPtr ar, BlockScopeRawPtr scope) { cg_printf(getCPPDecl(cg, ar, scope).c_str()); if (isSpecificObject() && cg.isFileOrClassHeader() && scope) { if (scope->getContainingClass()) { scope->getContainingClass()->addUsedClassHeader(m_name); } else if (scope->getContainingFile()) { scope->getContainingFile()->addUsedClassHeader(m_name); } } }
static inline void DumpScope(BlockScopeRawPtr scope, const char *prefix, bool newline = true) { assert(scope->is(BlockScope::FunctionScope) || scope->is(BlockScope::ClassScope)); const char *type = scope->is(BlockScope::FunctionScope) ? "function" : "class"; std::cout << prefix << type << " " << scope->getName() << " @ " << scope->getContainingFile()->getName(); if (newline) std::cout << std::endl; }
ClassScopePtr StaticClassName::resolveClass() { m_present = false; m_unknown = true; if (m_class) return ClassScopePtr(); BlockScopeRawPtr scope = originalScope(this); if (m_self) { if (ClassScopePtr self = scope->getContainingClass()) { m_className = self->getName(); m_origClassName = self->getOriginalName(); m_present = true; m_unknown = false; return self; } } else if (m_parent) { if (ClassScopePtr self = scope->getContainingClass()) { if (!self->getOriginalParent().empty()) { m_className = Util::toLower(self->getOriginalParent()); m_origClassName = self->getOriginalParent(); m_present = true; } } else { m_parent = false; } } ClassScopePtr cls = scope->getContainingProgram()->findClass(m_className); if (cls) { m_unknown = false; if (cls->isVolatile()) { ClassScopeRawPtr c = scope->getContainingFile()->resolveClass(cls); if (!c) { c = scope->getContainingClass(); if (c && c->getName() != m_className) c.reset(); } m_present = c.get() != 0; if (cls->isRedeclaring()) { cls = c; if (!m_present) m_redeclared = true; } } else { m_present = true; } } return cls; }
bool StaticClassName::checkPresent() { if (m_self || m_parent || m_static) return true; BlockScopeRawPtr scope = originalScope(this); FileScopeRawPtr currentFile = scope->getContainingFile(); if (currentFile) { AnalysisResultPtr ar = currentFile->getContainingProgram(); ClassScopeRawPtr cls = ar->findClass(m_className); if (!cls) return false; if (!cls->isVolatile()) return true; if (currentFile->resolveClass(cls)) return true; if (currentFile->checkClass(m_className)) return true; } if (ClassScopePtr self = scope->getContainingClass()) { if (m_className == self->getName() || self->derivesFrom(scope->getContainingProgram(), m_className, true, false)) { return true; } } return false; }