%default { "naninst":"li rTEMP, -1" }
/*
* Compare two floating-point values. Puts 0(==), 1(>), or -1(<)
* into the destination register (rTEMP) based on the comparison results.
*
* Provide a "naninst" instruction that puts 1 or -1 into rTEMP depending
* on what value we'd like to return when one of the operands is NaN.
*
* See op_cmpl_float for more details.
*
* For: cmpl-double, cmpg-double
*/
/* op vAA, vBB, vCC */
FETCH(a0, 1) # a0 <- CCBB
and rOBJ, a0, 255 # s5 <- BB
srl t0, a0, 8 # t0 <- CC
EAS2(rOBJ, rFP, rOBJ) # s5 <- &fp[BB]
EAS2(t0, rFP, t0) # t0 <- &fp[CC]
LOAD64_F(ft0, ft0f, rOBJ)
LOAD64_F(ft1, ft1f, t0)
#ifdef MIPS32REVGE6
cmp.ult.d ft2, ft0, ft1
li rTEMP, -1
bc1nez ft2, .L${opcode}_finish
cmp.ult.d ft2, ft1, ft0
li rTEMP, 1
bc1nez ft2, .L${opcode}_finish
cmp.eq.d ft2, ft0, ft1
li rTEMP, 0
bc1nez ft2, .L${opcode}_finish
b .L${opcode}_nan
#else
c.olt.d fcc0, ft0, ft1
li rTEMP, -1
bc1t fcc0, .L${opcode}_finish
c.olt.d fcc0, ft1, ft0
li rTEMP, 1
bc1t fcc0, .L${opcode}_finish
c.eq.d fcc0, ft0, ft1
li rTEMP, 0
bc1t fcc0, .L${opcode}_finish
b .L${opcode}_nan
#endif
%break
.L${opcode}_nan:
$naninst
.L${opcode}_finish:
GET_OPA(rOBJ)
FETCH_ADVANCE_INST(2) # advance rPC, load rINST
GET_INST_OPCODE(t0) # extract opcode from rINST
SET_VREG_GOTO(rTEMP, rOBJ, t0) # vAA <- rTEMP