//====--- SPU64InstrInfo.td - Cell SPU 64-bit operations -*- tablegen -*--====//
//
// Cell SPU 64-bit operations
//
//===----------------------------------------------------------------------===//
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
// 64-bit comparisons:
//
// 1. The instruction sequences for vector vice scalar differ by a
// constant. In the scalar case, we're only interested in the
// top two 32-bit slots, whereas we're interested in an exact
// all-four-slot match in the vector case.
//
// 2. There are no "immediate" forms, since loading 64-bit constants
// could be a constant pool load.
//
// 3. i64 setcc results are i32, which are subsequently converted to a FSM
// mask when used in a select pattern.
//
// 4. v2i64 setcc results are v4i32, which can be converted to a FSM mask (TODO)
// [Note: this may be moot, since gb produces v4i32 or r32.]
//
// 5. The code sequences for r64 and v2i64 are probably overly conservative,
// compared to the code that gcc produces.
//
// M00$E B!tes Kan be Pretty N@sTi!!!!! (appologies to Monty!)
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
// selb instruction definition for i64. Note that the selection mask is
// a vector, produced by various forms of FSM:
def SELBr64_cond:
SELBInst<(outs R64C:$rT), (ins R64C:$rA, R64C:$rB, VECREG:$rC),
[/* no pattern */]>;
// The generic i64 select pattern, which assumes that the comparison result
// is in a 32-bit register that contains a select mask pattern (i.e., gather
// bits result):
def : Pat<(select R32C:$rCond, R64C:$rFalse, R64C:$rTrue),
(SELBr64_cond R64C:$rTrue, R64C:$rFalse, (FSMr32 R32C:$rCond))>;
// select the negative condition:
class I64SELECTNegCond<PatFrag cond, CodeFrag compare>:
Pat<(select (i32 (cond R64C:$rA, R64C:$rB)), R64C:$rTrue, R64C:$rFalse),
(SELBr64_cond R64C:$rTrue, R64C:$rFalse, (FSMr32 compare.Fragment))>;
// setcc the negative condition:
class I64SETCCNegCond<PatFrag cond, CodeFrag compare>:
Pat<(cond R64C:$rA, R64C:$rB),
(XORIr32 compare.Fragment, -1)>;
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
// The i64 seteq fragment that does the scalar->vector conversion and
// comparison:
def CEQr64compare:
CodeFrag<(CGTIv4i32 (GBv4i32 (CEQv4i32 (ORv2i64_i64 R64C:$rA),
(ORv2i64_i64 R64C:$rB))), 0xb)>;
// The i64 seteq fragment that does the vector comparison
def CEQv2i64compare:
CodeFrag<(CEQIv4i32 (GBv4i32 (CEQv4i32 VECREG:$rA, VECREG:$rB)), 0xf)>;
// i64 seteq (equality): the setcc result is i32, which is converted to a
// vector FSM mask when used in a select pattern.
//
// v2i64 seteq (equality): the setcc result is v4i32
multiclass CompareEqual64 {
// Plain old comparison, converts back to i32 scalar
def r64: CodeFrag<(ORi32_v4i32 CEQr64compare.Fragment)>;
def v2i64: CodeFrag<(ORi32_v4i32 CEQv2i64compare.Fragment)>;
// SELB mask from FSM:
def r64mask: CodeFrag<(ORi32_v4i32 (FSMv4i32 CEQr64compare.Fragment))>;
def v2i64mask: CodeFrag<(ORi32_v4i32 (FSMv4i32 CEQv2i64compare.Fragment))>;
}
defm I64EQ: CompareEqual64;
def : Pat<(seteq R64C:$rA, R64C:$rB), I64EQr64.Fragment>;
def : Pat<(seteq (v2i64 VECREG:$rA), (v2i64 VECREG:$rB)), I64EQv2i64.Fragment>;
// i64 setne:
def : I64SETCCNegCond<setne, I64EQr64>;
def : I64SELECTNegCond<setne, I64EQr64>;
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
// i64 setugt/setule:
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
def CLGTr64ugt:
CodeFrag<(CLGTv4i32 (ORv2i64_i64 R64C:$rA), (ORv2i64_i64 R64C:$rB))>;
def CLGTr64eq:
CodeFrag<(CEQv4i32 (ORv2i64_i64 R64C:$rA), (ORv2i64_i64 R64C:$rB))>;
def CLGTr64compare:
CodeFrag<(SELBv2i64 CLGTr64ugt.Fragment,
(XSWDv2i64 CLGTr64ugt.Fragment),
CLGTr64eq.Fragment)>;
def CLGTv2i64ugt:
CodeFrag<(CLGTv4i32 VECREG:$rA, VECREG:$rB)>;
def CLGTv2i64eq:
CodeFrag<(CEQv4i32 VECREG:$rA, VECREG:$rB)>;
def CLGTv2i64compare:
CodeFrag<(SELBv2i64 CLGTv2i64ugt.Fragment,
(XSWDv2i64 CLGTr64ugt.Fragment),
CLGTv2i64eq.Fragment)>;
multiclass CompareLogicalGreaterThan64 {
// Plain old comparison, converts back to i32 scalar
def r64: CodeFrag<(ORi32_v4i32 CLGTr64compare.Fragment)>;
def v2i64: CodeFrag<CLGTv2i64compare.Fragment>;
// SELB mask from FSM:
def r64mask: CodeFrag<(ORi32_v4i32 (FSMv4i32 CLGTr64compare.Fragment))>;
def v2i64mask: CodeFrag<(ORi32_v4i32 (FSMv4i32 CLGTv2i64compare.Fragment))>;
}
defm I64LGT: CompareLogicalGreaterThan64;
def : Pat<(setugt R64C:$rA, R64C:$rB), I64LGTr64.Fragment>;
def : Pat<(setugt (v2i64 VECREG:$rA), (v2i64 VECREG:$rB)),
I64LGTv2i64.Fragment>;
// i64 setult:
def : I64SETCCNegCond<setule, I64LGTr64>;
def : I64SELECTNegCond<setule, I64LGTr64>;
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
// i64 setuge/setult:
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
def CLGEr64compare:
CodeFrag<(CGTIv4i32 (GBv4i32 (ORv4i32 CLGTr64ugt.Fragment,
CLGTr64eq.Fragment)), 0xb)>;
def CLGEv2i64compare:
CodeFrag<(CEQIv4i32 (GBv4i32 (ORv4i32 CLGTv2i64ugt.Fragment,
CLGTv2i64eq.Fragment)), 0xf)>;
multiclass CompareLogicalGreaterEqual64 {
// Plain old comparison, converts back to i32 scalar
def r64: CodeFrag<(ORi32_v4i32 CLGEr64compare.Fragment)>;
def v2i64: CodeFrag<CLGEv2i64compare.Fragment>;
// SELB mask from FSM:
def r64mask: CodeFrag<(ORi32_v4i32 (FSMv4i32 CLGEr64compare.Fragment))>;
def v2i64mask: CodeFrag<(ORi32_v4i32 (FSMv4i32 CLGEv2i64compare.Fragment))>;
}
defm I64LGE: CompareLogicalGreaterEqual64;
def : Pat<(setuge R64C:$rA, R64C:$rB), I64LGEr64.Fragment>;
def : Pat<(setuge (v2i64 VECREG:$rA), (v2i64 VECREG:$rB)),
I64LGEv2i64.Fragment>;
// i64 setult:
def : I64SETCCNegCond<setult, I64LGEr64>;
def : I64SELECTNegCond<setult, I64LGEr64>;
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
// i64 setgt/setle:
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
def CGTr64sgt:
CodeFrag<(CGTv4i32 (ORv2i64_i64 R64C:$rA), (ORv2i64_i64 R64C:$rB))>;
def CGTr64eq:
CodeFrag<(CEQv4i32 (ORv2i64_i64 R64C:$rA), (ORv2i64_i64 R64C:$rB))>;
def CGTr64compare:
CodeFrag<(SELBv2i64 CGTr64sgt.Fragment,
(XSWDv2i64 CGTr64sgt.Fragment),
CGTr64eq.Fragment)>;
def CGTv2i64sgt:
CodeFrag<(CGTv4i32 VECREG:$rA, VECREG:$rB)>;
def CGTv2i64eq:
CodeFrag<(CEQv4i32 VECREG:$rA, VECREG:$rB)>;
def CGTv2i64compare:
CodeFrag<(SELBv2i64 CGTv2i64sgt.Fragment,
(XSWDv2i64 CGTr64sgt.Fragment),
CGTv2i64eq.Fragment)>;
multiclass CompareGreaterThan64 {
// Plain old comparison, converts back to i32 scalar
def r64: CodeFrag<(ORi32_v4i32 CGTr64compare.Fragment)>;
def v2i64: CodeFrag<CGTv2i64compare.Fragment>;
// SELB mask from FSM:
def r64mask: CodeFrag<(ORi32_v4i32 (FSMv4i32 CGTr64compare.Fragment))>;
def v2i64mask: CodeFrag<(ORi32_v4i32 (FSMv4i32 CGTv2i64compare.Fragment))>;
}
defm I64GT: CompareLogicalGreaterThan64;
def : Pat<(setgt R64C:$rA, R64C:$rB), I64GTr64.Fragment>;
def : Pat<(setgt (v2i64 VECREG:$rA), (v2i64 VECREG:$rB)),
I64GTv2i64.Fragment>;
// i64 setult:
def : I64SETCCNegCond<setle, I64GTr64>;
def : I64SELECTNegCond<setle, I64GTr64>;
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
// i64 setge/setlt:
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
def CGEr64compare:
CodeFrag<(CGTIv4i32 (GBv4i32 (ORv4i32 CGTr64sgt.Fragment,
CGTr64eq.Fragment)), 0xb)>;
def CGEv2i64compare:
CodeFrag<(CEQIv4i32 (GBv4i32 (ORv4i32 CGTv2i64sgt.Fragment,
CGTv2i64eq.Fragment)), 0xf)>;
multiclass CompareGreaterEqual64 {
// Plain old comparison, converts back to i32 scalar
def r64: CodeFrag<(ORi32_v4i32 CGEr64compare.Fragment)>;
def v2i64: CodeFrag<CGEv2i64compare.Fragment>;
// SELB mask from FSM:
def r64mask: CodeFrag<(ORi32_v4i32 (FSMv4i32 CGEr64compare.Fragment))>;
def v2i64mask: CodeFrag<(ORi32_v4i32 (FSMv4i32 CGEv2i64compare.Fragment))>;
}
defm I64GE: CompareGreaterEqual64;
def : Pat<(setge R64C:$rA, R64C:$rB), I64GEr64.Fragment>;
def : Pat<(setge (v2i64 VECREG:$rA), (v2i64 VECREG:$rB)),
I64GEv2i64.Fragment>;
// i64 setult:
def : I64SETCCNegCond<setlt, I64GEr64>;
def : I64SELECTNegCond<setlt, I64GEr64>;
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
// v2i64, i64 add
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
class v2i64_add_cg<dag lhs, dag rhs>:
CodeFrag<(CGv4i32 lhs, rhs)>;
class v2i64_add_1<dag lhs, dag rhs, dag cg, dag cg_mask>:
CodeFrag<(ADDXv4i32 lhs, rhs, (SHUFBv4i32 cg, cg, cg_mask))>;
class v2i64_add<dag lhs, dag rhs, dag cg_mask>:
v2i64_add_1<lhs, rhs, v2i64_add_cg<lhs, rhs>.Fragment, cg_mask>;
def : Pat<(SPUadd64 R64C:$rA, R64C:$rB, (v4i32 VECREG:$rCGmask)),
(ORi64_v2i64 v2i64_add<(ORv2i64_i64 R64C:$rA),
(ORv2i64_i64 R64C:$rB),
(v4i32 VECREG:$rCGmask)>.Fragment)>;
def : Pat<(SPUadd64 (v2i64 VECREG:$rA), (v2i64 VECREG:$rB),
(v4i32 VECREG:$rCGmask)),
v2i64_add<(v2i64 VECREG:$rA),
(v2i64 VECREG:$rB),
(v4i32 VECREG:$rCGmask)>.Fragment>;
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
// v2i64, i64 subtraction
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
class v2i64_sub_bg<dag lhs, dag rhs>: CodeFrag<(BGv4i32 lhs, rhs)>;
class v2i64_sub<dag lhs, dag rhs, dag bg, dag bg_mask>:
CodeFrag<(SFXv4i32 lhs, rhs, (SHUFBv4i32 bg, bg, bg_mask))>;
def : Pat<(SPUsub64 R64C:$rA, R64C:$rB, (v4i32 VECREG:$rCGmask)),
(ORi64_v2i64 v2i64_sub<(ORv2i64_i64 R64C:$rA),
(ORv2i64_i64 R64C:$rB),
v2i64_sub_bg<(ORv2i64_i64 R64C:$rA),
(ORv2i64_i64 R64C:$rB)>.Fragment,
(v4i32 VECREG:$rCGmask)>.Fragment)>;
def : Pat<(SPUsub64 (v2i64 VECREG:$rA), (v2i64 VECREG:$rB),
(v4i32 VECREG:$rCGmask)),
v2i64_sub<(v2i64 VECREG:$rA),
(v2i64 VECREG:$rB),
v2i64_sub_bg<(v2i64 VECREG:$rA),
(v2i64 VECREG:$rB)>.Fragment,
(v4i32 VECREG:$rCGmask)>.Fragment>;
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
// v2i64, i64 multiply
//
// Note: i64 multiply is simply the vector->scalar conversion of the
// full-on v2i64 multiply, since the entire vector has to be manipulated
// anyway.
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
class v2i64_mul_ahi64<dag rA> :
CodeFrag<(SELBv4i32 rA, (ILv4i32 0), (FSMBIv4i32 0x0f0f))>;
class v2i64_mul_bhi64<dag rB> :
CodeFrag<(SELBv4i32 rB, (ILv4i32 0), (FSMBIv4i32 0x0f0f))>;
class v2i64_mul_alo64<dag rB> :
CodeFrag<(SELBv4i32 rB, (ILv4i32 0), (FSMBIv4i32 0xf0f0))>;
class v2i64_mul_blo64<dag rB> :
CodeFrag<(SELBv4i32 rB, (ILv4i32 0), (FSMBIv4i32 0xf0f0))>;
class v2i64_mul_ashlq2<dag rA>:
CodeFrag<(SHLQBYIv4i32 rA, 0x2)>;
class v2i64_mul_ashlq4<dag rA>:
CodeFrag<(SHLQBYIv4i32 rA, 0x4)>;
class v2i64_mul_bshlq2<dag rB> :
CodeFrag<(SHLQBYIv4i32 rB, 0x2)>;
class v2i64_mul_bshlq4<dag rB> :
CodeFrag<(SHLQBYIv4i32 rB, 0x4)>;
class v2i64_highprod<dag rA, dag rB>:
CodeFrag<(Av4i32
(Av4i32
(MPYUv4i32 v2i64_mul_bshlq4<rB>.Fragment, // a1 x b3
v2i64_mul_ahi64<rA>.Fragment),
(MPYHv4i32 v2i64_mul_ahi64<rA>.Fragment, // a0 x b3
v2i64_mul_bshlq4<rB>.Fragment)),
(Av4i32
(MPYHv4i32 v2i64_mul_bhi64<rB>.Fragment,
v2i64_mul_ashlq4<rA>.Fragment),
(Av4i32
(MPYHv4i32 v2i64_mul_ashlq4<rA>.Fragment,
v2i64_mul_bhi64<rB>.Fragment),
(Av4i32
(MPYUv4i32 v2i64_mul_ashlq4<rA>.Fragment,
v2i64_mul_bhi64<rB>.Fragment),
(Av4i32
(MPYHv4i32 v2i64_mul_ashlq2<rA>.Fragment,
v2i64_mul_bshlq2<rB>.Fragment),
(MPYUv4i32 v2i64_mul_ashlq2<rA>.Fragment,
v2i64_mul_bshlq2<rB>.Fragment))))))>;
class v2i64_mul_a3_b3<dag rA, dag rB>:
CodeFrag<(MPYUv4i32 v2i64_mul_alo64<rA>.Fragment,
v2i64_mul_blo64<rB>.Fragment)>;
class v2i64_mul_a2_b3<dag rA, dag rB>:
CodeFrag<(SELBv4i32 (SHLQBYIv4i32
(MPYHHUv4i32 v2i64_mul_alo64<rA>.Fragment,
v2i64_mul_bshlq2<rB>.Fragment), 0x2),
(ILv4i32 0),
(FSMBIv4i32 0xc3c3))>;
class v2i64_mul_a3_b2<dag rA, dag rB>:
CodeFrag<(SELBv4i32 (SHLQBYIv4i32
(MPYHHUv4i32 v2i64_mul_blo64<rB>.Fragment,
v2i64_mul_ashlq2<rA>.Fragment), 0x2),
(ILv4i32 0),
(FSMBIv4i32 0xc3c3))>;
class v2i64_lowsum<dag rA, dag rB, dag rCGmask>:
v2i64_add<v2i64_add<v2i64_mul_a3_b3<rA, rB>.Fragment,
v2i64_mul_a2_b3<rA, rB>.Fragment, rCGmask>.Fragment,
v2i64_mul_a3_b2<rA, rB>.Fragment, rCGmask>;
class v2i64_mul<dag rA, dag rB, dag rCGmask>:
v2i64_add<v2i64_lowsum<rA, rB, rCGmask>.Fragment,
(SELBv4i32 v2i64_highprod<rA, rB>.Fragment,
(ILv4i32 0),
(FSMBIv4i32 0x0f0f)),
rCGmask>;
def : Pat<(SPUmul64 R64C:$rA, R64C:$rB, (v4i32 VECREG:$rCGmask)),
(ORi64_v2i64 v2i64_mul<(ORv2i64_i64 R64C:$rA),
(ORv2i64_i64 R64C:$rB),
(v4i32 VECREG:$rCGmask)>.Fragment)>;
def : Pat<(SPUmul64 (v2i64 VECREG:$rA), (v2i64 VECREG:$rB),
(v4i32 VECREG:$rCGmask)),
v2i64_mul<(v2i64 VECREG:$rA), (v2i64 VECREG:$rB),
(v4i32 VECREG:$rCGmask)>.Fragment>;
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
// f64 comparisons
//-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~
// selb instruction definition for i64. Note that the selection mask is
// a vector, produced by various forms of FSM:
def SELBf64_cond:
SELBInst<(outs R64FP:$rT), (ins R64FP:$rA, R64FP:$rB, R32C:$rC),
[(set R64FP:$rT,
(select R32C:$rC, R64FP:$rB, R64FP:$rA))]>;