コード例 #1
0
//
// Make sure there is enough data provided to the constructor to build
// something of the type of the constructor.  Also returns the type of
// the constructor.
//
// Returns true if there was an error in construction.
//
bool TParseContext::constructorErrorCheck(int line, TIntermNode* node, TFunction& function, TOperator op, TType* type)
{
    *type = function.getReturnType();

    bool constructingMatrix = false;
    switch(op) {
    case EOpConstructMat2:
    case EOpConstructMat3:
    case EOpConstructMat4:
        constructingMatrix = true;
        break;
    default: 
        break;
    }

    //
    // Note: It's okay to have too many components available, but not okay to have unused
    // arguments.  'full' will go to true when enough args have been seen.  If we loop
    // again, there is an extra argument, so 'overfull' will become true.
    //

    int size = 0;
    bool constType = true;
    bool full = false;
    bool overFull = false;
    bool matrixInMatrix = false;
    bool arrayArg = false;
    for (int i = 0; i < function.getParamCount(); ++i) {
        const TParameter& param = function.getParam(i);
        size += param.type->getObjectSize();
        
        if (constructingMatrix && param.type->isMatrix())
            matrixInMatrix = true;
        if (full)
            overFull = true;
        if (op != EOpConstructStruct && !type->isArray() && size >= type->getObjectSize())
            full = true;
        if (param.type->getQualifier() != EvqConst)
            constType = false;
        if (param.type->isArray())
            arrayArg = true;
    }
    
    if (constType)
        type->setQualifier(EvqConst);

    if (type->isArray() && type->getArraySize() != function.getParamCount()) {
        error(line, "array constructor needs one argument per array element", "constructor", "");
        return true;
    }

    if (arrayArg && op != EOpConstructStruct) {
        error(line, "constructing from a non-dereferenced array", "constructor", "");
        return true;
    }

    if (matrixInMatrix && !type->isArray()) {
        if (function.getParamCount() != 1) {
          error(line, "constructing matrix from matrix can only take one argument", "constructor", "");
          return true;
        }
    }

    if (overFull) {
        error(line, "too many arguments", "constructor", "");
        return true;
    }
    
    if (op == EOpConstructStruct && !type->isArray() && int(type->getStruct()->size()) != function.getParamCount()) {
        error(line, "Number of constructor parameters does not match the number of structure fields", "constructor", "");
        return true;
    }

    if (!type->isMatrix() || !matrixInMatrix) {
        if ((op != EOpConstructStruct && size != 1 && size < type->getObjectSize()) ||
            (op == EOpConstructStruct && size < type->getObjectSize())) {
            error(line, "not enough data provided for construction", "constructor", "");
            return true;
        }
    }

    TIntermTyped *typed = node ? node->getAsTyped() : 0;
    if (typed == 0) {
        error(line, "constructor argument does not have a type", "constructor", "");
        return true;
    }
    if (op != EOpConstructStruct && IsSampler(typed->getBasicType())) {
        error(line, "cannot convert a sampler", "constructor", "");
        return true;
    }
    if (typed->getBasicType() == EbtVoid) {
        error(line, "cannot convert a void", "constructor", "");
        return true;
    }

    return false;
}
コード例 #2
0
void TLValueTrackingTraverser::traverseAggregate(TIntermAggregate *node)
{
    bool visit = true;

    TIntermSequence *sequence = node->getSequence();
    if (node->getOp() == EOpPrototype)
    {
        addToFunctionMap(node->getFunctionSymbolInfo()->getNameObj(), sequence);
    }

    if (preVisit)
        visit = visitAggregate(PreVisit, node);

    if (visit)
    {
        bool inFunctionMap = false;
        if (node->getOp() == EOpFunctionCall)
        {
            inFunctionMap = isInFunctionMap(node);
            if (!inFunctionMap)
            {
                // The function is not user-defined - it is likely built-in texture function.
                // Assume that those do not have out parameters.
                setInFunctionCallOutParameter(false);
            }
        }

        incrementDepth(node);

        if (inFunctionMap)
        {
            TIntermSequence *params             = getFunctionParameters(node);
            TIntermSequence::iterator paramIter = params->begin();
            for (auto *child : *sequence)
            {
                ASSERT(paramIter != params->end());
                TQualifier qualifier = (*paramIter)->getAsTyped()->getQualifier();
                setInFunctionCallOutParameter(qualifier == EvqOut || qualifier == EvqInOut);

                child->traverse(this);
                if (visit && inVisit)
                {
                    if (child != sequence->back())
                        visit = visitAggregate(InVisit, node);
                }

                ++paramIter;
            }

            setInFunctionCallOutParameter(false);
        }
        else
        {
            // Find the built-in function corresponding to this op so that we can determine the
            // in/out qualifiers of its parameters.
            TFunction *builtInFunc = nullptr;
            TString opString = GetOperatorString(node->getOp());
            if (!node->isConstructor() && !opString.empty())
            {
                // The return type doesn't affect the mangled name of the function, which is used
                // to look it up from the symbol table.
                TType dummyReturnType;
                TFunction call(&opString, &dummyReturnType, node->getOp());
                for (auto *child : *sequence)
                {
                    TType *paramType = child->getAsTyped()->getTypePointer();
                    TConstParameter p(paramType);
                    call.addParameter(p);
                }

                TSymbol *sym = mSymbolTable.findBuiltIn(call.getMangledName(), mShaderVersion);
                if (sym != nullptr && sym->isFunction())
                {
                    builtInFunc = static_cast<TFunction *>(sym);
                    ASSERT(builtInFunc->getParamCount() == sequence->size());
                }
            }

            size_t paramIndex = 0;

            for (auto *child : *sequence)
            {
                TQualifier qualifier = EvqIn;
                if (builtInFunc != nullptr)
                    qualifier = builtInFunc->getParam(paramIndex).type->getQualifier();
                setInFunctionCallOutParameter(qualifier == EvqOut || qualifier == EvqInOut);
                child->traverse(this);

                if (visit && inVisit)
                {
                    if (child != sequence->back())
                        visit = visitAggregate(InVisit, node);
                }

                ++paramIndex;
            }

            setInFunctionCallOutParameter(false);
        }

        decrementDepth();
    }

    if (visit && postVisit)
        visitAggregate(PostVisit, node);
}