llvm-project/llvm/lib/VMCore/Instruction.cpp

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//===-- Instruction.cpp - Implement the Instruction class --------*- C++ -*--=//
//
// This file implements the Instruction class for the VMCore library.
//
//===----------------------------------------------------------------------===//
#include "llvm/Function.h"
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#include "llvm/SymbolTable.h"
#include "llvm/Type.h"
#include "Support/LeakDetector.h"
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Instruction::Instruction(const Type *ty, unsigned it, const std::string &Name,
Instruction *InsertBefore)
: User(ty, Value::InstructionVal, Name) {
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Parent = 0;
iType = it;
// Make sure that we get added to a basicblock
LeakDetector::addGarbageObject(this);
// If requested, insert this instruction into a basic block...
if (InsertBefore) {
assert(InsertBefore->getParent() &&
"Instruction to insert before is not in a basic block!");
InsertBefore->getParent()->getInstList().insert(InsertBefore, this);
}
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}
void Instruction::setParent(BasicBlock *P) {
if (getParent())
LeakDetector::addGarbageObject(this);
Parent = P;
if (getParent())
LeakDetector::removeGarbageObject(this);
}
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// Specialize setName to take care of symbol table majik
void Instruction::setName(const std::string &name, SymbolTable *ST) {
BasicBlock *P = 0; Function *PP = 0;
assert((ST == 0 || !getParent() || !getParent()->getParent() ||
ST == &getParent()->getParent()->getSymbolTable()) &&
"Invalid symtab argument!");
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if ((P = getParent()) && (PP = P->getParent()) && hasName())
PP->getSymbolTable().remove(this);
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Value::setName(name);
if (PP && hasName()) PP->getSymbolTable().insert(this);
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}
const char *Instruction::getOpcodeName(unsigned OpCode) {
switch (OpCode) {
// Terminators
case Ret: return "ret";
case Br: return "br";
case Switch: return "switch";
case Invoke: return "invoke";
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case Unwind: return "unwind";
// Standard binary operators...
case Add: return "add";
case Sub: return "sub";
case Mul: return "mul";
case Div: return "div";
case Rem: return "rem";
// Logical operators...
case And: return "and";
case Or : return "or";
case Xor: return "xor";
// SetCC operators...
case SetLE: return "setle";
case SetGE: return "setge";
case SetLT: return "setlt";
case SetGT: return "setgt";
case SetEQ: return "seteq";
case SetNE: return "setne";
// Memory instructions...
case Malloc: return "malloc";
case Free: return "free";
case Alloca: return "alloca";
case Load: return "load";
case Store: return "store";
case GetElementPtr: return "getelementptr";
// Other instructions...
case PHINode: return "phi";
case Cast: return "cast";
case Call: return "call";
case Shl: return "shl";
case Shr: return "shr";
case VarArg: return "va_arg";
default: return "<Invalid operator> ";
}
return 0;
}
/// isAssociative - Return true if the instruction is associative:
///
/// Associative operators satisfy: x op (y op z) === (x op y) op z)
///
/// In LLVM, the Add, Mul, And, Or, and Xor operators are associative, when not
/// applied to floating point types.
///
bool Instruction::isAssociative(unsigned Opcode, const Type *Ty) {
if (Opcode == Add || Opcode == Mul ||
Opcode == And || Opcode == Or || Opcode == Xor) {
// Floating point operations do not associate!
return !Ty->isFloatingPoint();
}
return 0;
}
/// isCommutative - Return true if the instruction is commutative:
///
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/// Commutative operators satisfy: (x op y) === (y op x)
///
/// In LLVM, these are the associative operators, plus SetEQ and SetNE, when
/// applied to any type.
///
bool Instruction::isCommutative(unsigned op) {
switch (op) {
case Add:
case Mul:
case And:
case Or:
case Xor:
case SetEQ:
case SetNE:
return true;
default:
return false;
}
}
/// isTrappingInstruction - Return true if the instruction may trap.
///
bool Instruction::isTrapping(unsigned op) {
switch(op) {
case Div:
case Rem:
case Load:
case Store:
case Call:
case Invoke:
return true;
default:
return false;
}
}