Ejemplo n.º 1
0
bool TGlslOutputTraverser::parseInitializer( TIntermBinary *node )
{
   TIntermTyped *left, *right;

   left = node->getLeft();
   right = node->getRight();

   if (!left->getAsSymbolNode())
      return false; //Something is likely seriously wrong

   TIntermSymbol *symNode = left->getAsSymbolNode();
   

   if (symNode->getBasicType() == EbtStruct)
      return false;

   GlslSymbol * sym = NULL;

   if ( !current->hasSymbol( symNode->getId() ) )
   {
      int array = symNode->getTypePointer()->isArray() ? symNode->getTypePointer()->getArraySize() : 0;
      const char* semantic = "";

      if (symNode->getInfo())
         semantic = symNode->getInfo()->getSemantic().c_str();

      sym = new GlslSymbol( symNode->getSymbol().c_str(), semantic, symNode->getId(),
                            translateType(symNode->getTypePointer()), m_UsePrecision?node->getPrecision():EbpUndefined, translateQualifier(symNode->getQualifier()), array);

      current->addSymbol(sym);
   }
   else
      return false; //can't init already declared variable
	
	if (right->getAsTyped())
	{
		std::stringstream ss;
		std::stringstream* oldOut = &current->getActiveOutput();
		current->pushDepth(0);
		current->setActiveOutput(&ss);
		right->getAsTyped()->traverse(this);
		current->setActiveOutput(oldOut);
		current->popDepth();
		
		sym->setInitializer(ss.str());
	}

   return true;
}
Ejemplo n.º 2
0
void TLoopIndexInfo::fillInfo(TIntermLoop *node)
{
    if (node == NULL)
        return;

    // Here we assume all the operations are valid, because the loop node is
    // already validated in ValidateLimitations.
    TIntermSequence *declSeq =
        node->getInit()->getAsAggregate()->getSequence();
    TIntermBinary *declInit = (*declSeq)[0]->getAsBinaryNode();
    TIntermSymbol *symbol = declInit->getLeft()->getAsSymbolNode();

    mId = symbol->getId();
    mType = symbol->getBasicType();

    if (mType == EbtInt)
    {
        TIntermConstantUnion* initNode = declInit->getRight()->getAsConstantUnion();
        mInitValue = EvaluateIntConstant(initNode);
        mCurrentValue = mInitValue;
        mIncrementValue = GetLoopIntIncrement(node);

        TIntermBinary* binOp = node->getCondition()->getAsBinaryNode();
        mStopValue = EvaluateIntConstant(
            binOp->getRight()->getAsConstantUnion());
        mOp = binOp->getOp();
    }
}
Ejemplo n.º 3
0
bool ValidateLimitations::validateForLoopCond(TIntermLoop *node,
                                              int indexSymbolId)
{
    TIntermNode *cond = node->getCondition();
    if (cond == NULL)
    {
        error(node->getLine(), "Missing condition", "for");
        return false;
    }
    //
    // condition has the form:
    //     loop_index relational_operator constant_expression
    //
    TIntermBinary *binOp = cond->getAsBinaryNode();
    if (binOp == NULL)
    {
        error(node->getLine(), "Invalid condition", "for");
        return false;
    }
    // Loop index should be to the left of relational operator.
    TIntermSymbol *symbol = binOp->getLeft()->getAsSymbolNode();
    if (symbol == NULL)
    {
        error(binOp->getLine(), "Invalid condition", "for");
        return false;
    }
    if (symbol->getId() != indexSymbolId)
    {
        error(symbol->getLine(),
              "Expected loop index", symbol->getSymbol().c_str());
        return false;
    }
    // Relational operator is one of: > >= < <= == or !=.
    switch (binOp->getOp())
    {
      case EOpEqual:
      case EOpNotEqual:
      case EOpLessThan:
      case EOpGreaterThan:
      case EOpLessThanEqual:
      case EOpGreaterThanEqual:
        break;
      default:
        error(binOp->getLine(),
              "Invalid relational operator",
              GetOperatorString(binOp->getOp()));
        break;
    }
    // Loop index must be compared with a constant.
    if (!isConstExpr(binOp->getRight()))
    {
        error(binOp->getLine(),
              "Loop index cannot be compared with non-constant expression",
              symbol->getSymbol().c_str());
        return false;
    }

    return true;
}
Ejemplo n.º 4
0
int ValidateLimitations::validateForLoopInit(TIntermLoop *node)
{
    TIntermNode *init = node->getInit();
    if (init == NULL)
    {
        error(node->getLine(), "Missing init declaration", "for");
        return -1;
    }

    //
    // init-declaration has the form:
    //     type-specifier identifier = constant-expression
    //
    TIntermAggregate *decl = init->getAsAggregate();
    if ((decl == NULL) || (decl->getOp() != EOpDeclaration))
    {
        error(init->getLine(), "Invalid init declaration", "for");
        return -1;
    }
    // To keep things simple do not allow declaration list.
    TIntermSequence &declSeq = decl->getSequence();
    if (declSeq.size() != 1)
    {
        error(decl->getLine(), "Invalid init declaration", "for");
        return -1;
    }
    TIntermBinary *declInit = declSeq[0]->getAsBinaryNode();
    if ((declInit == NULL) || (declInit->getOp() != EOpInitialize))
    {
        error(decl->getLine(), "Invalid init declaration", "for");
        return -1;
    }
    TIntermSymbol *symbol = declInit->getLeft()->getAsSymbolNode();
    if (symbol == NULL)
    {
        error(declInit->getLine(), "Invalid init declaration", "for");
        return -1;
    }
    // The loop index has type int or float.
    TBasicType type = symbol->getBasicType();
    if ((type != EbtInt) && (type != EbtFloat))
    {
        error(symbol->getLine(),
              "Invalid type for loop index", getBasicString(type));
        return -1;
    }
    // The loop index is initialized with constant expression.
    if (!isConstExpr(declInit->getRight()))
    {
        error(declInit->getLine(),
              "Loop index cannot be initialized with non-constant expression",
              symbol->getSymbol().c_str());
        return -1;
    }

    return symbol->getId();
}
Ejemplo n.º 5
0
void TSamplerTraverser::typeSampler( TIntermTyped *node, TBasicType samp )
{
   TIntermSymbol *symNode = node->getAsSymbolNode();

   if ( !symNode)
   {
      //TODO: add logic to handle sampler arrays and samplers as struct members

      //Don't try typing this one, it is a complex expression
      TIntermBinary *biNode = node->getAsBinaryNode();

      if ( biNode )
      {
         switch (biNode->getOp())
         {
         case EOpIndexDirect:
         case EOpIndexIndirect:
            infoSink.info << "Warning: " << node->getLine() <<  ": typing of sampler arrays presently unsupported\n";
            break;

         case EOpIndexDirectStruct:
            infoSink.info << "Warning: " << node->getLine() <<  ": typing of samplers as struct members presently unsupported\n";
            break;
         }
      }
      else
      {
         infoSink.info << "Warning: " << node->getLine() <<  ": unexpected expression type for sampler, cannot type\n";
      }
      abort = false;
   }
   else
   {
      // We really have something to type, abort this traverse and activate typing
      abort = true;
      id = symNode->getId();
      sampType = samp;
   }
}
Ejemplo n.º 6
0
void ForLoopUnroll::FillLoopIndexInfo(TIntermLoop* node, TLoopIndexInfo& info)
{
    ASSERT(node->getType() == ELoopFor);
    ASSERT(node->getUnrollFlag());

    TIntermNode* init = node->getInit();
    ASSERT(init != NULL);
    TIntermAggregate* decl = init->getAsAggregate();
    ASSERT((decl != NULL) && (decl->getOp() == EOpDeclaration));
    TIntermSequence& declSeq = decl->getSequence();
    ASSERT(declSeq.size() == 1);
    TIntermBinary* declInit = declSeq[0]->getAsBinaryNode();
    ASSERT((declInit != NULL) && (declInit->getOp() == EOpInitialize));
    TIntermSymbol* symbol = declInit->getLeft()->getAsSymbolNode();
    ASSERT(symbol != NULL);
    ASSERT(symbol->getBasicType() == EbtInt);

    info.id = symbol->getId();

    ASSERT(declInit->getRight() != NULL);
    TIntermConstantUnion* initNode = declInit->getRight()->getAsConstantUnion();
    ASSERT(initNode != NULL);

    info.initValue = evaluateIntConstant(initNode);
    info.currentValue = info.initValue;

    TIntermNode* cond = node->getCondition();
    ASSERT(cond != NULL);
    TIntermBinary* binOp = cond->getAsBinaryNode();
    ASSERT(binOp != NULL);
    ASSERT(binOp->getRight() != NULL);
    ASSERT(binOp->getRight()->getAsConstantUnion() != NULL);

    info.incrementValue = getLoopIncrement(node);
    info.stopValue = evaluateIntConstant(
        binOp->getRight()->getAsConstantUnion());
    info.op = binOp->getOp();
}
Ejemplo n.º 7
0
bool ValidateLimitations::validateForLoopExpr(TIntermLoop *node,
                                              int indexSymbolId)
{
    TIntermNode *expr = node->getExpression();
    if (expr == NULL)
    {
        error(node->getLine(), "Missing expression", "for");
        return false;
    }

    // for expression has one of the following forms:
    //     loop_index++
    //     loop_index--
    //     loop_index += constant_expression
    //     loop_index -= constant_expression
    //     ++loop_index
    //     --loop_index
    // The last two forms are not specified in the spec, but I am assuming
    // its an oversight.
    TIntermUnary *unOp = expr->getAsUnaryNode();
    TIntermBinary *binOp = unOp ? NULL : expr->getAsBinaryNode();

    TOperator op = EOpNull;
    TIntermSymbol *symbol = NULL;
    if (unOp != NULL)
    {
        op = unOp->getOp();
        symbol = unOp->getOperand()->getAsSymbolNode();
    }
    else if (binOp != NULL)
    {
        op = binOp->getOp();
        symbol = binOp->getLeft()->getAsSymbolNode();
    }

    // The operand must be loop index.
    if (symbol == NULL)
    {
        error(expr->getLine(), "Invalid expression", "for");
        return false;
    }
    if (symbol->getId() != indexSymbolId)
    {
        error(symbol->getLine(),
              "Expected loop index", symbol->getSymbol().c_str());
        return false;
    }

    // The operator is one of: ++ -- += -=.
    switch (op)
    {
      case EOpPostIncrement:
      case EOpPostDecrement:
      case EOpPreIncrement:
      case EOpPreDecrement:
        ASSERT((unOp != NULL) && (binOp == NULL));
        break;
      case EOpAddAssign:
      case EOpSubAssign:
        ASSERT((unOp == NULL) && (binOp != NULL));
        break;
      default:
        error(expr->getLine(), "Invalid operator", GetOperatorString(op));
        return false;
    }

    // Loop index must be incremented/decremented with a constant.
    if (binOp != NULL)
    {
        if (!isConstExpr(binOp->getRight()))
        {
            error(binOp->getLine(),
                  "Loop index cannot be modified by non-constant expression",
                  symbol->getSymbol().c_str());
            return false;
        }
    }

    return true;
}