Пример #1
0
void SimpleFunctionCall::analyzeProgram(AnalysisResultPtr ar) {
  if (m_className.empty()) {
    addUserFunction(ar, m_name);
  } else if (m_className != "parent") {
    addUserClass(ar, m_className);
  } else {
    m_parentClass = true;
  }

  if (ar->getPhase() == AnalysisResult::AnalyzeInclude) {

    CHECK_HOOK(onSimpleFunctionCallAnalyzeInclude);

    ConstructPtr self = shared_from_this();

    // We need to know the name of the constant so that we can associate it
    // with this file before we do type inference.
    if (m_className.empty() && m_type == DefineFunction) {
      ScalarExpressionPtr name =
        dynamic_pointer_cast<ScalarExpression>((*m_params)[0]);
      string varName;
      if (name) {
        varName = name->getIdentifier();
        if (!varName.empty()) {
          ar->getFileScope()->declareConstant(ar, varName);
        }
      }
      // handling define("CONSTANT", ...);
      if (m_params && m_params->getCount() >= 2) {
        ScalarExpressionPtr name =
          dynamic_pointer_cast<ScalarExpression>((*m_params)[0]);
        string varName;
        if (name) {
          varName = name->getIdentifier();
          if (!varName.empty()) {
            ExpressionPtr value = (*m_params)[1];
            ConstantTablePtr constants =
              ar->findConstantDeclarer(varName)->getConstants();
            if (constants != ar->getConstants()) {
              constants->add(varName, NEW_TYPE(Some), value, ar, self);

              if (name->hasHphpNote("Dynamic")) {
                constants->setDynamic(ar, varName);
              }
            }
          }
        }
      }
    }

    if (m_type == UnserializeFunction) {
      ar->forceClassVariants();
    }
  }

  if (ar->getPhase() == AnalysisResult::AnalyzeAll) {
    // Look up the corresponding FunctionScope and ClassScope
    // for this function call
    {
      FunctionScopePtr func;
      ClassScopePtr cls;
      if (m_className.empty()) {
        func = ar->findFunction(m_name);
      } else {
        cls = ar->resolveClass(m_className);
        if (cls) {
          if (m_name == "__construct") {
            func = cls->findConstructor(ar, true);
          } else {
            func = cls->findFunction(ar, m_name, true, true);
          }
        }
      }
      if (func && !func->isRedeclaring()) {
        if (m_funcScope != func) {
          m_funcScope = func;
          Construct::recomputeEffects();
        }
      }
      if (cls && !cls->isRedeclaring())
        m_classScope = cls;
    }
    // check for dynamic constant and volatile function/class
    if (m_className.empty() &&
      (m_type == DefinedFunction ||
       m_type == FunctionExistsFunction ||
       m_type == ClassExistsFunction ||
       m_type == InterfaceExistsFunction) &&
      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()) {
          string symbol = name->getLiteralString();
          switch (m_type) {
          case DefinedFunction: {
            ConstantTablePtr constants = ar->getConstants();
            if (!constants->isPresent(symbol)) {
              // user constant
              BlockScopePtr block = ar->findConstantDeclarer(symbol);
              if (block) { // found the constant
                constants = block->getConstants();
                // set to be dynamic
                constants->setDynamic(ar, symbol);
              }
            }
            break;
          }
          case FunctionExistsFunction: {
            FunctionScopePtr func = ar->findFunction(Util::toLower(symbol));
            if (func && func->isUserFunction()) {
              func->setVolatile();
            }
            break;
          }
          case InterfaceExistsFunction:
          case ClassExistsFunction: {
            ClassScopePtr cls = ar->findClass(Util::toLower(symbol));
            if (cls && cls->isUserClass()) {
              cls->setVolatile();
            }
            break;
          }
          default:
            ASSERT(false);
          }
        }
      }
    }
  }
  if (m_params) {
    if (ar->getPhase() == AnalysisResult::AnalyzeAll) {
      if (m_funcScope) {
        ExpressionList &params = *m_params;
        int mpc = m_funcScope->getMaxParamCount();
        for (int i = params.getCount(); i--; ) {
          ExpressionPtr p = params[i];
          if (i < mpc ? m_funcScope->isRefParam(i) :
              m_funcScope->isReferenceVariableArgument()) {
            p->setContext(Expression::RefValue);
          } else if (!(p->getContext() & Expression::RefParameter)) {
            p->clearContext(Expression::RefValue);
          }
        }
      } else {
        FunctionScopePtr func = ar->findFunction(m_name);
        if (func && func->isRedeclaring()) {
          FunctionScope::RefParamInfoPtr info =
            FunctionScope::GetRefParamInfo(m_name);
          if (info) {
            for (int i = m_params->getCount(); i--; ) {
              if (info->isRefParam(i)) {
                m_params->markParam(i, canInvokeFewArgs());
              }
            }
          }
        } else {
          m_params->markParams(false);
        }
      }
    }

    m_params->analyzeProgram(ar);
  }
}