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//
// Copyright (c) 2002-2010 The ANGLE Project Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
//
//
// Definition of the in-memory high-level intermediate representation
// of shaders. This is a tree that parser creates.
//
// Nodes in the tree are defined as a hierarchy of classes derived from
// TIntermNode. Each is a node in a tree. There is no preset branching factor;
// each node can have it's own type of list of children.
//
#ifndef __INTERMEDIATE_H
#define __INTERMEDIATE_H
#include "compiler/Common.h"
#include "compiler/Types.h"
#include "compiler/ConstantUnion.h"
//
// Operators used by the high-level (parse tree) representation.
//
enum TOperator {
EOpNull, // if in a node, should only mean a node is still being built
EOpSequence, // denotes a list of statements, or parameters, etc.
EOpFunctionCall,
EOpFunction, // For function definition
EOpParameters, // an aggregate listing the parameters to a function
EOpDeclaration,
EOpPrototype,
//
// Unary operators
//
EOpNegative,
EOpLogicalNot,
EOpVectorLogicalNot,
EOpPostIncrement,
EOpPostDecrement,
EOpPreIncrement,
EOpPreDecrement,
EOpConvIntToBool,
EOpConvFloatToBool,
EOpConvBoolToFloat,
EOpConvIntToFloat,
EOpConvFloatToInt,
EOpConvBoolToInt,
//
// binary operations
//
EOpAdd,
EOpSub,
EOpMul,
EOpDiv,
EOpEqual,
EOpNotEqual,
EOpVectorEqual,
EOpVectorNotEqual,
EOpLessThan,
EOpGreaterThan,
EOpLessThanEqual,
EOpGreaterThanEqual,
EOpComma,
EOpVectorTimesScalar,
EOpVectorTimesMatrix,
EOpMatrixTimesVector,
EOpMatrixTimesScalar,
EOpLogicalOr,
EOpLogicalXor,
EOpLogicalAnd,
EOpIndexDirect,
EOpIndexIndirect,
EOpIndexDirectStruct,
EOpVectorSwizzle,
//
// Built-in functions potentially mapped to operators
//
EOpRadians,
EOpDegrees,
EOpSin,
EOpCos,
EOpTan,
EOpAsin,
EOpAcos,
EOpAtan,
EOpPow,
EOpExp,
EOpLog,
EOpExp2,
EOpLog2,
EOpSqrt,
EOpInverseSqrt,
EOpAbs,
EOpSign,
EOpFloor,
EOpCeil,
EOpFract,
EOpMod,
EOpMin,
EOpMax,
EOpClamp,
EOpMix,
EOpStep,
EOpSmoothStep,
EOpLength,
EOpDistance,
EOpDot,
EOpCross,
EOpNormalize,
EOpFaceForward,
EOpReflect,
EOpRefract,
EOpDFdx, // Fragment only, OES_standard_derivatives extension
EOpDFdy, // Fragment only, OES_standard_derivatives extension
EOpFwidth, // Fragment only, OES_standard_derivatives extension
EOpMatrixTimesMatrix,
EOpAny,
EOpAll,
//
// Branch
//
EOpKill, // Fragment only
EOpReturn,
EOpBreak,
EOpContinue,
//
// Constructors
//
EOpConstructInt,
EOpConstructBool,
EOpConstructFloat,
EOpConstructVec2,
EOpConstructVec3,
EOpConstructVec4,
EOpConstructBVec2,
EOpConstructBVec3,
EOpConstructBVec4,
EOpConstructIVec2,
EOpConstructIVec3,
EOpConstructIVec4,
EOpConstructMat2,
EOpConstructMat3,
EOpConstructMat4,
EOpConstructStruct,
//
// moves
//
EOpAssign,
EOpInitialize,
EOpAddAssign,
EOpSubAssign,
EOpMulAssign,
EOpVectorTimesMatrixAssign,
EOpVectorTimesScalarAssign,
EOpMatrixTimesScalarAssign,
EOpMatrixTimesMatrixAssign,
EOpDivAssign
};
extern const char* getOperatorString(TOperator op);
class TIntermTraverser;
class TIntermAggregate;
class TIntermBinary;
class TIntermUnary;
class TIntermConstantUnion;
class TIntermSelection;
class TIntermTyped;
class TIntermSymbol;
class TIntermLoop;
class TInfoSink;
//
// Base class for the tree nodes
//
class TIntermNode {
public:
POOL_ALLOCATOR_NEW_DELETE(GlobalPoolAllocator)
TIntermNode() : line(0) {}
TSourceLoc getLine() const { return line; }
void setLine(TSourceLoc l) { line = l; }
virtual void traverse(TIntermTraverser*) = 0;
virtual TIntermTyped* getAsTyped() { return 0; }
virtual TIntermConstantUnion* getAsConstantUnion() { return 0; }
virtual TIntermAggregate* getAsAggregate() { return 0; }
virtual TIntermBinary* getAsBinaryNode() { return 0; }
virtual TIntermUnary* getAsUnaryNode() { return 0; }
virtual TIntermSelection* getAsSelectionNode() { return 0; }
virtual TIntermSymbol* getAsSymbolNode() { return 0; }
virtual TIntermLoop* getAsLoopNode() { return 0; }
virtual ~TIntermNode() { }
protected:
TSourceLoc line;
};
//
// This is just to help yacc.
//
struct TIntermNodePair {
TIntermNode* node1;
TIntermNode* node2;
};
//
// Intermediate class for nodes that have a type.
//
class TIntermTyped : public TIntermNode {
public:
TIntermTyped(const TType& t) : type(t) { }
virtual TIntermTyped* getAsTyped() { return this; }
void setType(const TType& t) { type = t; }
const TType& getType() const { return type; }
TType* getTypePointer() { return &type; }
TBasicType getBasicType() const { return type.getBasicType(); }
TQualifier getQualifier() const { return type.getQualifier(); }
TPrecision getPrecision() const { return type.getPrecision(); }
int getNominalSize() const { return type.getNominalSize(); }
bool isMatrix() const { return type.isMatrix(); }
bool isArray() const { return type.isArray(); }
bool isVector() const { return type.isVector(); }
bool isScalar() const { return type.isScalar(); }
const char* getBasicString() const { return type.getBasicString(); }
const char* getQualifierString() const { return type.getQualifierString(); }
TString getCompleteString() const { return type.getCompleteString(); }
protected:
TType type;
};
//
// Handle for, do-while, and while loops.
//
enum TLoopType {
ELoopFor,
ELoopWhile,
ELoopDoWhile
};
class TIntermLoop : public TIntermNode {
public:
TIntermLoop(TLoopType aType,
TIntermNode *aInit, TIntermTyped* aCond, TIntermTyped* aExpr,
TIntermNode* aBody) :
type(aType),
init(aInit),
cond(aCond),
expr(aExpr),
body(aBody),
unrollFlag(false) { }
virtual TIntermLoop* getAsLoopNode() { return this; }
virtual void traverse(TIntermTraverser*);
TLoopType getType() const { return type; }
TIntermNode* getInit() { return init; }
TIntermTyped* getCondition() { return cond; }
TIntermTyped* getExpression() { return expr; }
TIntermNode* getBody() { return body; }
void setUnrollFlag(bool flag) { unrollFlag = flag; }
bool getUnrollFlag() { return unrollFlag; }
protected:
TLoopType type;
TIntermNode* init; // for-loop initialization
TIntermTyped* cond; // loop exit condition
TIntermTyped* expr; // for-loop expression
TIntermNode* body; // loop body
bool unrollFlag; // Whether the loop should be unrolled or not.
};
//
// Handle break, continue, return, and kill.
//
class TIntermBranch : public TIntermNode {
public:
TIntermBranch(TOperator op, TIntermTyped* e) :
flowOp(op),
expression(e) { }
virtual void traverse(TIntermTraverser*);
TOperator getFlowOp() { return flowOp; }
TIntermTyped* getExpression() { return expression; }
protected:
TOperator flowOp;
TIntermTyped* expression; // non-zero except for "return exp;" statements
};
//
// Nodes that correspond to symbols or constants in the source code.
//
class TIntermSymbol : public TIntermTyped {
public:
// if symbol is initialized as symbol(sym), the memory comes from the poolallocator of sym. If sym comes from
// per process globalpoolallocator, then it causes increased memory usage per compile
// it is essential to use "symbol = sym" to assign to symbol
TIntermSymbol(int i, const TString& sym, const TType& t) :
TIntermTyped(t), id(i) { symbol = sym; originalSymbol = sym; }
int getId() const { return id; }
const TString& getSymbol() const { return symbol; }
void setId(int newId) { id = newId; }
void setSymbol(const TString& sym) { symbol = sym; }
const TString& getOriginalSymbol() const { return originalSymbol; }
virtual void traverse(TIntermTraverser*);
virtual TIntermSymbol* getAsSymbolNode() { return this; }
protected:
int id;
TString symbol;
TString originalSymbol;
};
class TIntermConstantUnion : public TIntermTyped {
public:
TIntermConstantUnion(ConstantUnion *unionPointer, const TType& t) : TIntermTyped(t), unionArrayPointer(unionPointer) { }
ConstantUnion* getUnionArrayPointer() const { return unionArrayPointer; }
void setUnionArrayPointer(ConstantUnion *c) { unionArrayPointer = c; }
virtual TIntermConstantUnion* getAsConstantUnion() { return this; }
virtual void traverse(TIntermTraverser*);
TIntermTyped* fold(TOperator, TIntermTyped*, TInfoSink&);
protected:
ConstantUnion *unionArrayPointer;
};
//
// Intermediate class for node types that hold operators.
//
class TIntermOperator : public TIntermTyped {
public:
TOperator getOp() const { return op; }
void setOp(TOperator o) { op = o; }
bool modifiesState() const;
bool isConstructor() const;
protected:
TIntermOperator(TOperator o) : TIntermTyped(TType(EbtFloat, EbpUndefined)), op(o) {}
TIntermOperator(TOperator o, TType& t) : TIntermTyped(t), op(o) {}
TOperator op;
};
//
// Nodes for all the basic binary math operators.
//
class TIntermBinary : public TIntermOperator {
public:
TIntermBinary(TOperator o) : TIntermOperator(o) {}
virtual TIntermBinary* getAsBinaryNode() { return this; }
virtual void traverse(TIntermTraverser*);
void setLeft(TIntermTyped* n) { left = n; }
void setRight(TIntermTyped* n) { right = n; }
TIntermTyped* getLeft() const { return left; }
TIntermTyped* getRight() const { return right; }
bool promote(TInfoSink&);
protected:
TIntermTyped* left;
TIntermTyped* right;
};
//
// Nodes for unary math operators.
//
class TIntermUnary : public TIntermOperator {
public:
TIntermUnary(TOperator o, TType& t) : TIntermOperator(o, t), operand(0), useEmulatedFunction(false) {}
TIntermUnary(TOperator o) : TIntermOperator(o), operand(0), useEmulatedFunction(false) {}
virtual void traverse(TIntermTraverser*);
virtual TIntermUnary* getAsUnaryNode() { return this; }
void setOperand(TIntermTyped* o) { operand = o; }
TIntermTyped* getOperand() { return operand; }
bool promote(TInfoSink&);
void setUseEmulatedFunction() { useEmulatedFunction = true; }
bool getUseEmulatedFunction() { return useEmulatedFunction; }
protected:
TIntermTyped* operand;
// If set to true, replace the built-in function call with an emulated one
// to work around driver bugs.
bool useEmulatedFunction;
};
typedef TVector<TIntermNode*> TIntermSequence;
typedef TVector<int> TQualifierList;
//
// Nodes that operate on an arbitrary sized set of children.
//
class TIntermAggregate : public TIntermOperator {
public:
TIntermAggregate() : TIntermOperator(EOpNull), userDefined(false), endLine(0), useEmulatedFunction(false) { }
TIntermAggregate(TOperator o) : TIntermOperator(o), useEmulatedFunction(false) { }
~TIntermAggregate() { }
virtual TIntermAggregate* getAsAggregate() { return this; }
virtual void traverse(TIntermTraverser*);
TIntermSequence& getSequence() { return sequence; }
void setName(const TString& n) { name = n; }
const TString& getName() const { return name; }
void setUserDefined() { userDefined = true; }
bool isUserDefined() const { return userDefined; }
void setOptimize(bool o) { optimize = o; }
bool getOptimize() { return optimize; }
void setDebug(bool d) { debug = d; }
bool getDebug() { return debug; }
void setEndLine(TSourceLoc line) { endLine = line; }
TSourceLoc getEndLine() const { return endLine; }
void setUseEmulatedFunction() { useEmulatedFunction = true; }
bool getUseEmulatedFunction() { return useEmulatedFunction; }
protected:
TIntermAggregate(const TIntermAggregate&); // disallow copy constructor
TIntermAggregate& operator=(const TIntermAggregate&); // disallow assignment operator
TIntermSequence sequence;
TString name;
bool userDefined; // used for user defined function names
bool optimize;
bool debug;
TSourceLoc endLine;
// If set to true, replace the built-in function call with an emulated one
// to work around driver bugs.
bool useEmulatedFunction;
};
//
// For if tests. Simplified since there is no switch statement.
//
class TIntermSelection : public TIntermTyped {
public:
TIntermSelection(TIntermTyped* cond, TIntermNode* trueB, TIntermNode* falseB) :
TIntermTyped(TType(EbtVoid, EbpUndefined)), condition(cond), trueBlock(trueB), falseBlock(falseB) {}
TIntermSelection(TIntermTyped* cond, TIntermNode* trueB, TIntermNode* falseB, const TType& type) :
TIntermTyped(type), condition(cond), trueBlock(trueB), falseBlock(falseB) {}
virtual void traverse(TIntermTraverser*);
bool usesTernaryOperator() const { return getBasicType() != EbtVoid; }
TIntermNode* getCondition() const { return condition; }
TIntermNode* getTrueBlock() const { return trueBlock; }
TIntermNode* getFalseBlock() const { return falseBlock; }
TIntermSelection* getAsSelectionNode() { return this; }
protected:
TIntermTyped* condition;
TIntermNode* trueBlock;
TIntermNode* falseBlock;
};
enum Visit
{
PreVisit,
InVisit,
PostVisit
};
//
// For traversing the tree. User should derive from this,
// put their traversal specific data in it, and then pass
// it to a Traverse method.
//
// When using this, just fill in the methods for nodes you want visited.
// Return false from a pre-visit to skip visiting that node's subtree.
//
class TIntermTraverser
{
public:
POOL_ALLOCATOR_NEW_DELETE(GlobalPoolAllocator)
TIntermTraverser(bool preVisit = true, bool inVisit = false, bool postVisit = false, bool rightToLeft = false) :
preVisit(preVisit),
inVisit(inVisit),
postVisit(postVisit),
rightToLeft(rightToLeft),
depth(0) {}
virtual ~TIntermTraverser() {};
virtual void visitSymbol(TIntermSymbol*) {}
virtual void visitConstantUnion(TIntermConstantUnion*) {}
virtual bool visitBinary(Visit visit, TIntermBinary*) {return true;}
virtual bool visitUnary(Visit visit, TIntermUnary*) {return true;}
virtual bool visitSelection(Visit visit, TIntermSelection*) {return true;}
virtual bool visitAggregate(Visit visit, TIntermAggregate*) {return true;}
virtual bool visitLoop(Visit visit, TIntermLoop*) {return true;}
virtual bool visitBranch(Visit visit, TIntermBranch*) {return true;}
void incrementDepth() {depth++;}
void decrementDepth() {depth--;}
const bool preVisit;
const bool inVisit;
const bool postVisit;
const bool rightToLeft;
protected:
int depth;
};
#endif // __INTERMEDIATE_H
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