JitIL: Commented out folding rules which are not tested. This commit is for the check of the bug reported in Issue 3097. The bug was introduced in r6110 by myself. In r6110, I added a function to convert andx, nandx, andcx, orx, norx, orcx, xorx, and eqvx into IRs. It is clear that the function has the bug. However I could not find the bug in the function. Then I thought there may be bugs in folding rules in IRBuilder because there are some untested folding rules which fold and, or, xor, etc. (This is also written by myself. I'm sorry.) I tested some folding rules and commented out the other untested rules.

git-svn-id: https://dolphin-emu.googlecode.com/svn/trunk@6130 8ced0084-cf51-0410-be5f-012b33b47a6e
This commit is contained in:
nodchip 2010-08-26 11:32:30 +00:00
parent ea7004ffa7
commit 60696ffe30
1 changed files with 94 additions and 101 deletions

View File

@ -364,7 +364,6 @@ InstLoc IRBuilder::FoldAdd(InstLoc Op1, InstLoc Op2) {
return Op1;
}
// TODO: Test the folding below
// x + (y - x) --> y
if (getOpcode(*Op2) == Sub && isSameValue(Op1, getOp2(Op2))) {
return getOp1(Op2);
@ -376,11 +375,11 @@ InstLoc IRBuilder::FoldAdd(InstLoc Op1, InstLoc Op2) {
}
if (InstLoc negOp1 = isNeg(Op1)) {
// TODO: Test the folding below
// -A + -B --> -(A + B)
if (InstLoc negOp2 = isNeg(Op2)) {
return FoldSub(EmitIntConst(0), FoldAdd(negOp1, negOp2));
}
//// TODO: Test the folding below
//// -A + -B --> -(A + B)
//if (InstLoc negOp2 = isNeg(Op2)) {
// return FoldSub(EmitIntConst(0), FoldAdd(negOp1, negOp2));
//}
// -A + B --> B - A
return FoldSub(Op2, negOp1);
@ -391,19 +390,17 @@ InstLoc IRBuilder::FoldAdd(InstLoc Op1, InstLoc Op2) {
return FoldSub(Op1, negOp2);
}
// TODO: Test the folding below
// (x * i0) + x => x * (i0 + 1)
if (getOpcode(*Op1) == Mul && isImm(*getOp2(Op1)) && isSameValue(getOp1(Op1), Op2)) {
return FoldMul(getOp1(Op1), EmitIntConst(GetImmValue(getOp2(Op1)) + 1));
}
// TODO: Test the folding below
// (x * i0) + (x * i1) => x * (i0 + i1)
if (getOpcode(*Op1) == Mul && getOpcode(*Op2) == Mul && isSameValue(getOp1(Op1), getOp1(Op2)) && isImm(*getOp2(Op1)) && isImm(*getOp2(Op2))) {
return FoldMul(getOp1(Op1), EmitIntConst(GetImmValue(getOp2(Op1)) + GetImmValue(getOp2(Op2))));
}
//// TODO: Test the folding below
//// (x * i0) + (x * i1) => x * (i0 + i1)
//if (getOpcode(*Op1) == Mul && getOpcode(*Op2) == Mul && isSameValue(getOp1(Op1), getOp1(Op2)) && isImm(*getOp2(Op1)) && isImm(*getOp2(Op2))) {
// return FoldMul(getOp1(Op1), EmitIntConst(GetImmValue(getOp2(Op1)) + GetImmValue(getOp2(Op2))));
//}
// TODO: Test the folding below
// x + x * i0 => x * (i0 + 1)
if (getOpcode(*Op2) == Mul && isImm(*getOp2(Op2)) && isSameValue(Op1, getOp1(Op2))) {
return FoldMul(Op1, EmitIntConst(GetImmValue(getOp2(Op2)) + 1));
@ -442,7 +439,6 @@ InstLoc IRBuilder::FoldSub(InstLoc Op1, InstLoc Op2) {
return EmitIntConst(0);
}
// TODO: Test the folding below
// x - (-A) => x + A
if (InstLoc negOp2 = isNeg(Op2)) {
return FoldAdd(Op1, negOp2);
@ -470,17 +466,17 @@ InstLoc IRBuilder::FoldSub(InstLoc Op1, InstLoc Op2) {
}
}
// TODO: Test the folding below
// 0 - (C << X) -> (-C << X)
if (isImm(*Op1) && GetImmValue(Op1) == 0 && getOpcode(*Op2) == Shl && isImm(*getOp1(Op2))) {
return FoldShl(EmitIntConst(-GetImmValue(getOp1(Op2))), getOp2(Op2));
}
//// TODO: Test the folding below
//// 0 - (C << X) -> (-C << X)
//if (isImm(*Op1) && GetImmValue(Op1) == 0 && getOpcode(*Op2) == Shl && isImm(*getOp1(Op2))) {
// return FoldShl(EmitIntConst(-GetImmValue(getOp1(Op2))), getOp2(Op2));
//}
// TODO: Test the folding below
// x - x * i0 = x * (1 - i0)
if (getOpcode(*Op2) == Mul && isImm(*getOp2(Op2)) && isSameValue(Op1, getOp1(Op2))) {
return FoldMul(Op1, EmitIntConst(1 - GetImmValue(getOp2(Op2))));
}
//// TODO: Test the folding below
//// x - x * i0 = x * (1 - i0)
//if (getOpcode(*Op2) == Mul && isImm(*getOp2(Op2)) && isSameValue(Op1, getOp1(Op2))) {
// return FoldMul(Op1, EmitIntConst(1 - GetImmValue(getOp2(Op2))));
//}
if (getOpcode(*Op1) == Add) {
// (x + y) - x => y
@ -494,13 +490,13 @@ InstLoc IRBuilder::FoldSub(InstLoc Op1, InstLoc Op2) {
}
}
if (getOpcode(*Op1) == Sub) {
// TODO: Test the folding below
// (x - y) - x => -y
if (isSameValue(getOp1(Op1), Op2)) {
return FoldSub(EmitIntConst(0), getOp2(Op1));
}
}
//if (getOpcode(*Op1) == Sub) {
// // TODO: Test the folding below
// // (x - y) - x => -y
// if (isSameValue(getOp1(Op1), Op2)) {
// return FoldSub(EmitIntConst(0), getOp2(Op1));
// }
//}
if (getOpcode(*Op1) == Mul) {
// x * i0 - x => x * (i0 - 1)
@ -508,11 +504,11 @@ InstLoc IRBuilder::FoldSub(InstLoc Op1, InstLoc Op2) {
return FoldMul(getOp1(Op1), EmitIntConst(GetImmValue(getOp2(Op1)) - 1));
}
// TODO: Test the folding below
// x * i0 - x * i1 => x * (i0 - i1)
if (getOpcode(*Op2) == Mul && isSameValue(getOp1(Op1), getOp1(Op2)) && isImm(*getOp2(Op1)) && isImm(*getOp2(Op2))) {
return FoldMul(getOp1(Op1), EmitIntConst(GetImmValue(getOp2(Op1)) + GetImmValue(getOp2(Op2))));
}
//// TODO: Test the folding below
//// x * i0 - x * i1 => x * (i0 - i1)
//if (getOpcode(*Op2) == Mul && isSameValue(getOp1(Op1), getOp1(Op2)) && isImm(*getOp2(Op1)) && isImm(*getOp2(Op2))) {
// return FoldMul(getOp1(Op1), EmitIntConst(GetImmValue(getOp2(Op1)) + GetImmValue(getOp2(Op2))));
//}
}
// (x + i0) - (y + i1) => (x - y) + (i0 - i1)
@ -588,25 +584,25 @@ InstLoc IRBuilder::FoldMul(InstLoc Op1, InstLoc Op2) {
return FoldAdd(FoldMul(getOp1(Op1), Op2), EmitIntConst(GetImmValue(getOp2(Op1)) * GetImmValue(Op2)));
}
// TODO: Test the folding below
// -X * -Y => X * Y
if (InstLoc negOp1 = isNeg(Op1)) {
if (InstLoc negOp2 = isNeg(Op2)) {
return FoldMul(negOp1, negOp2);
}
}
//// TODO: Test the folding below
//// -X * -Y => X * Y
//if (InstLoc negOp1 = isNeg(Op1)) {
// if (InstLoc negOp2 = isNeg(Op2)) {
// return FoldMul(negOp1, negOp2);
// }
//}
// TODO: Test the folding below
// x * (1 << y) => x << y
if (getOpcode(*Op2) == Shl && isImm(*getOp1(Op2)) && GetImmValue(getOp1(Op2)) == 1) {
return FoldShl(Op1, getOp2(Op2));
}
//// TODO: Test the folding below
//// x * (1 << y) => x << y
//if (getOpcode(*Op2) == Shl && isImm(*getOp1(Op2)) && GetImmValue(getOp1(Op2)) == 1) {
// return FoldShl(Op1, getOp2(Op2));
//}
// TODO: Test the folding below
// (1 << y) * x => x << y
if (getOpcode(*Op1) == Shl && isImm(*getOp1(Op1)) && GetImmValue(getOp1(Op1)) == 1) {
return FoldShl(Op2, getOp2(Op1));
}
//// TODO: Test the folding below
//// (1 << y) * x => x << y
//if (getOpcode(*Op1) == Shl && isImm(*getOp1(Op1)) && GetImmValue(getOp1(Op1)) == 1) {
// return FoldShl(Op2, getOp2(Op1));
//}
// x * y (where y is 0 or 1) => (0 - y) & x
if (ComputeKnownZeroBits(Op2) == -2U) {
@ -648,58 +644,57 @@ InstLoc IRBuilder::FoldAnd(InstLoc Op1, InstLoc Op2) {
return Op1;
}
if (getOpcode(*Op1) == Xor || getOpcode(*Op1) == Or) {
// TODO: Test the folding below
// (x op y) & z => (x & z) op y if (y & z) == 0
if ((~ComputeKnownZeroBits(getOp2(Op1)) & ~ComputeKnownZeroBits(Op2)) == 0) {
return FoldBiOp(getOpcode(*Op1), FoldAnd(getOp1(Op1), Op2), getOp2(Op1));
}
//if (getOpcode(*Op1) == Xor || getOpcode(*Op1) == Or) {
// // TODO: Test the folding below
// // (x op y) & z => (x & z) op y if (y & z) == 0
// if ((~ComputeKnownZeroBits(getOp2(Op1)) & ~ComputeKnownZeroBits(Op2)) == 0) {
// return FoldBiOp(getOpcode(*Op1), FoldAnd(getOp1(Op1), Op2), getOp2(Op1));
// }
// TODO: Test the folding below
// (x op y) & z => (y & z) op x if (x & z) == 0
if ((~ComputeKnownZeroBits(getOp1(Op1)) & ~ComputeKnownZeroBits(Op2)) == 0) {
return FoldBiOp(getOpcode(*Op1), FoldAnd(getOp2(Op1), Op2), getOp1(Op1));
}
}
// // TODO: Test the folding below
// // (x op y) & z => (y & z) op x if (x & z) == 0
// if ((~ComputeKnownZeroBits(getOp1(Op1)) & ~ComputeKnownZeroBits(Op2)) == 0) {
// return FoldBiOp(getOpcode(*Op1), FoldAnd(getOp2(Op1), Op2), getOp1(Op1));
// }
//}
}
// TODO: Test the folding below
// (x >> z) & (y >> z) => (x & y) >> z
if (getOpcode(*Op1) == Shrl && getOpcode(*Op2) == Shrl && isSameValue(getOp2(Op1), getOp2(Op2))) {
return FoldShl(FoldAnd(getOp1(Op1), getOp2(Op1)), getOp2(Op1));
}
//// TODO: Test the folding below
//// (x >> z) & (y >> z) => (x & y) >> z
//if (getOpcode(*Op1) == Shrl && getOpcode(*Op2) == Shrl && isSameValue(getOp2(Op1), getOp2(Op2))) {
// return FoldShl(FoldAnd(getOp1(Op1), getOp2(Op1)), getOp2(Op1));
//}
// TODO: Test the folding below
// ((A | N) + B) & AndRHS -> (A + B) & AndRHS iff N&AndRHS == 0
// ((A ^ N) + B) & AndRHS -> (A + B) & AndRHS iff N&AndRHS == 0
// ((A | N) - B) & AndRHS -> (A - B) & AndRHS iff N&AndRHS == 0
// ((A ^ N) - B) & AndRHS -> (A - B) & AndRHS iff N&AndRHS == 0
if ((getOpcode(*Op1) == Add || getOpcode(*Op1) == Sub) &&
(getOpcode(*getOp1(Op1)) == Or || getOpcode(*getOp1(Op1)) == Xor))
{
const InstLoc A = getOp1(getOp1(Op1));
const InstLoc N = getOp2(getOp1(Op1));
const InstLoc B = getOp2(Op1);
const InstLoc AndRHS = Op2;
//// TODO: Test the folding below
//// ((A | N) + B) & AndRHS -> (A + B) & AndRHS iff N&AndRHS == 0
//// ((A ^ N) + B) & AndRHS -> (A + B) & AndRHS iff N&AndRHS == 0
//// ((A | N) - B) & AndRHS -> (A - B) & AndRHS iff N&AndRHS == 0
//// ((A ^ N) - B) & AndRHS -> (A - B) & AndRHS iff N&AndRHS == 0
//if ((getOpcode(*Op1) == Add || getOpcode(*Op1) == Sub) &&
// (getOpcode(*getOp1(Op1)) == Or || getOpcode(*getOp1(Op1)) == Xor))
//{
// const InstLoc A = getOp1(getOp1(Op1));
// const InstLoc N = getOp2(getOp1(Op1));
// const InstLoc B = getOp2(Op1);
// const InstLoc AndRHS = Op2;
// if ((~ComputeKnownZeroBits(N) & ~ComputeKnownZeroBits(AndRHS)) == 0) {
// return FoldAnd(FoldBiOp(getOpcode(*Op1), A, B), AndRHS);
// }
//}
if ((~ComputeKnownZeroBits(N) & ~ComputeKnownZeroBits(AndRHS)) == 0) {
return FoldAnd(FoldBiOp(getOpcode(*Op1), A, B), AndRHS);
}
}
//// TODO: Test the folding below
//// (~A & ~B) == (~(A | B)) - De Morgan's Law
//if (InstLoc notOp1 = isNot(Op1)) {
// if (InstLoc notOp2 = isNot(Op2)) {
// return FoldXor(EmitIntConst(-1U), FoldOr(notOp1, notOp2));
// }
//}
// TODO: Test the folding below
// (~A & ~B) == (~(A | B)) - De Morgan's Law
if (InstLoc notOp1 = isNot(Op1)) {
if (InstLoc notOp2 = isNot(Op2)) {
return FoldXor(EmitIntConst(-1U), FoldOr(notOp1, notOp2));
}
}
// TODO: Test the folding below
// (X^C)|Y -> (X|Y)^C iff Y&C == 0
if (getOpcode(*Op1) == Xor && isImm(*getOp2(Op1)) && (~ComputeKnownZeroBits(Op2) & GetImmValue(getOp2(Op1))) == 0) {
return FoldXor(FoldOr(getOp1(Op1), Op2), getOp2(Op1));
}
//// TODO: Test the folding below
//// (X^C)|Y -> (X|Y)^C iff Y&C == 0
//if (getOpcode(*Op1) == Xor && isImm(*getOp2(Op1)) && (~ComputeKnownZeroBits(Op2) & GetImmValue(getOp2(Op1))) == 0) {
// return FoldXor(FoldOr(getOp1(Op1), Op2), getOp2(Op1));
//}
if (Op1 == Op2) return Op1;
@ -727,8 +722,6 @@ InstLoc IRBuilder::FoldOr(InstLoc Op1, InstLoc Op2) {
return FoldAnd(FoldOr(getOp1(Op1), Op2), EmitIntConst(GetImmValue(getOp2(Op1)) | GetImmValue(Op2)));
}
// TODO: Test the folding below
// (X ^ C1) | C2 --> (X | C2) ^ (C1&~C2)
if (getOpcode(*Op1) == Xor && isImm(*getOp2(Op1)) && isImm(*Op2)) {
return FoldXor(FoldOr(getOp1(Op1), Op2), EmitIntConst(GetImmValue(getOp2(Op1)) & ~GetImmValue(Op2)));