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llvm-6502/lib/Transforms/Scalar/ConstantProp.cpp
Chris Lattner 9b644cc627 * Supoprt global constants 
* Remove support for local constant pools
* Eliminate constant pool merging method, which is no longer neccesary
* Disable invalid optimization (todo: fix it)


git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@452 91177308-0d34-0410-b5e6-96231b3b80d8
2001-09-07 16:41:30 +00:00

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//===- ConstantProp.cpp - Code to perform Constant Propogation ------------===//
//
// This file implements constant propogation and merging:
//
// Specifically, this:
// * Folds multiple identical constants in the constant pool together
// Note that if one is named and the other is not, that the result gets the
// original name.
// * Converts instructions like "add int %1, %2" into a direct def of %3 in
// the constant pool
// * Converts conditional branches on a constant boolean value into direct
// branches.
// * Converts phi nodes with one incoming def to the incoming def directly
// . Converts switch statements with one entry into a test & conditional
// branch
// . Converts switches on constant values into an unconditional branch.
//
// Notice that:
// * This pass has a habit of making definitions be dead. It is a good idea
// to to run a DCE pass sometime after running this pass.
//
//===----------------------------------------------------------------------===//
#include "llvm/Optimizations/ConstantProp.h"
#include "llvm/Optimizations/ConstantHandling.h"
#include "llvm/Module.h"
#include "llvm/Method.h"
#include "llvm/BasicBlock.h"
#include "llvm/iTerminators.h"
#include "llvm/iOther.h"
#include "llvm/ConstPoolVals.h"
inline static bool
ConstantFoldUnaryInst(Method *M, Method::inst_iterator &DI,
UnaryOperator *Op, ConstPoolVal *D) {
ConstPoolVal *ReplaceWith =
opt::ConstantFoldUnaryInstruction(Op->getOpcode(), D);
if (!ReplaceWith) return false; // Nothing new to change...
// Replaces all of the uses of a variable with uses of the constant.
Op->replaceAllUsesWith(ReplaceWith);
// Remove the operator from the list of definitions...
Op->getParent()->getInstList().remove(DI.getInstructionIterator());
// The new constant inherits the old name of the operator...
if (Op->hasName())
ReplaceWith->setName(Op->getName(), M->getSymbolTableSure());
// Delete the operator now...
delete Op;
return true;
}
inline static bool
ConstantFoldBinaryInst(Method *M, Method::inst_iterator &DI,
BinaryOperator *Op,
ConstPoolVal *D1, ConstPoolVal *D2) {
ConstPoolVal *ReplaceWith =
opt::ConstantFoldBinaryInstruction(Op->getOpcode(), D1, D2);
if (!ReplaceWith) return false; // Nothing new to change...
// Replaces all of the uses of a variable with uses of the constant.
Op->replaceAllUsesWith(ReplaceWith);
// Remove the operator from the list of definitions...
Op->getParent()->getInstList().remove(DI.getInstructionIterator());
// The new constant inherits the old name of the operator...
if (Op->hasName())
ReplaceWith->setName(Op->getName(), M->getSymbolTableSure());
// Delete the operator now...
delete Op;
return true;
}
// ConstantFoldTerminator - If a terminator instruction is predicated on a
// constant value, convert it into an unconditional branch to the constant
// destination.
//
bool opt::ConstantFoldTerminator(TerminatorInst *T) {
// Branch - See if we are conditional jumping on constant
if (T->getOpcode() == Instruction::Br) {
BranchInst *BI = (BranchInst*)T;
if (BI->isUnconditional()) return false; // Can't optimize uncond branch
BasicBlock *Dest1 = BI->getOperand(0)->castBasicBlockAsserting();
BasicBlock *Dest2 = BI->getOperand(1)->castBasicBlockAsserting();
if (BI->getCondition()->isConstant()) { // Are we branching on constant?
// YES. Change to unconditional branch...
ConstPoolBool *Cond = (ConstPoolBool*)BI->getCondition();
BasicBlock *Destination = Cond->getValue() ? Dest1 : Dest2;
BasicBlock *OldDest = Cond->getValue() ? Dest2 : Dest1;
//cerr << "Method: " << T->getParent()->getParent()
// << "\nRemoving branch from " << T->getParent()
// << "\n\nTo: " << OldDest << endl;
// Let the basic block know that we are letting go of it. Based on this,
// it will adjust it's PHI nodes.
assert(BI->getParent() && "Terminator not inserted in block!");
OldDest->removePredecessor(BI->getParent());
// Set the unconditional destination, and change the insn to be an
// unconditional branch.
BI->setUnconditionalDest(Destination);
return true;
}
#if 0
// FIXME: TODO: This doesn't work if the destination has PHI nodes with
// different incoming values on each branch!
//
else if (Dest2 == Dest1) { // Conditional branch to same location?
// This branch matches something like this:
// br bool %cond, label %Dest, label %Dest
// and changes it into: br label %Dest
// Let the basic block know that we are letting go of one copy of it.
assert(BI->getParent() && "Terminator not inserted in block!");
Dest1->removePredecessor(BI->getParent());
// Change a conditional branch to unconditional.
BI->setUnconditionalDest(Dest1);
return true;
}
#endif
}
return false;
}
// ConstantFoldInstruction - If an instruction references constants, try to fold
// them together...
//
inline static bool
ConstantFoldInstruction(Method *M, Method::inst_iterator &II) {
Instruction *Inst = *II;
if (Inst->isBinaryOp()) {
ConstPoolVal *D1 = Inst->getOperand(0)->castConstant();
ConstPoolVal *D2 = Inst->getOperand(1)->castConstant();
if (D1 && D2)
return ConstantFoldBinaryInst(M, II, (BinaryOperator*)Inst, D1, D2);
} else if (Inst->isUnaryOp()) {
ConstPoolVal *D = Inst->getOperand(0)->castConstant();
if (D) return ConstantFoldUnaryInst(M, II, (UnaryOperator*)Inst, D);
} else if (Inst->isTerminator()) {
return opt::ConstantFoldTerminator((TerminatorInst*)Inst);
} else if (Inst->isPHINode()) {
PHINode *PN = (PHINode*)Inst; // If it's a PHI node and only has one operand
// Then replace it directly with that operand.
assert(PN->getOperand(0) && "PHI Node must have at least one operand!");
if (PN->getNumOperands() == 1) { // If the PHI Node has exactly 1 operand
Value *V = PN->getOperand(0);
PN->replaceAllUsesWith(V); // Replace all uses of this PHI
// Unlink from basic block
PN->getParent()->getInstList().remove(II.getInstructionIterator());
if (PN->hasName()) // Inherit PHINode name
V->setName(PN->getName(), M->getSymbolTableSure());
delete PN; // Finally, delete the node...
return true;
}
}
return false;
}
// DoConstPropPass - Propogate constants and do constant folding on instructions
// this returns true if something was changed, false if nothing was changed.
//
static bool DoConstPropPass(Method *M) {
bool SomethingChanged = false;
#if 1
Method::inst_iterator It = M->inst_begin();
while (It != M->inst_end())
if (ConstantFoldInstruction(M, It)) {
SomethingChanged = true; // If returned true, iter is already incremented
// Incrementing the iterator in an unchecked manner could mess up the
// internals of 'It'. To make sure everything is happy, tell it we might
// have broken it.
It.resyncInstructionIterator();
} else {
++It;
}
#else
for (Method::iterator BBIt = M->begin(); BBIt != M->end(); ++BBIt) {
BasicBlock *BB = *BBIt;
reduce_apply_bool(BB->begin(), BB->end(),
bind1st(ConstantFoldInstruction, M));
}
#endif
return SomethingChanged;
}
// returns true on failure, false on success...
//
bool opt::DoConstantPropogation(Method *M) {
bool Modified = false;
// Fold constants until we make no progress...
while (DoConstPropPass(M)) Modified = true;
return Modified;
}
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