| Index: tests_lit/assembler/mips32/encoding_test_fcmp.ll
|
| diff --git a/tests_lit/assembler/mips32/encoding_test_fcmp.ll b/tests_lit/assembler/mips32/encoding_test_fcmp.ll
|
| new file mode 100644
|
| index 0000000000000000000000000000000000000000..9b8ffb9c28ac83034d99b94b17e9cd761cd9f01e
|
| --- /dev/null
|
| +++ b/tests_lit/assembler/mips32/encoding_test_fcmp.ll
|
| @@ -0,0 +1,1247 @@
|
| +; Test encoding of MIPS32 floating point comparison
|
| +
|
| +; REQUIRES: allow_dump
|
| +
|
| +; Compile using standalone assembler.
|
| +; RUN: %p2i --filetype=asm -i %s --target=mips32 --args -O2 \
|
| +; RUN: --allow-externally-defined-symbols --skip-unimplemented \
|
| +; RUN: | FileCheck %s --check-prefix=ASM
|
| +
|
| +; Show bytes in assembled standalone code.
|
| +; RUN: %p2i --filetype=asm -i %s --target=mips32 --assemble --disassemble \
|
| +; RUN: --args -O2 --allow-externally-defined-symbols --skip-unimplemented \
|
| +; RUN: | FileCheck %s --check-prefix=DIS
|
| +
|
| +; Compile using integrated assembler.
|
| +; RUN: %p2i --filetype=iasm -i %s --target=mips32 --args -O2 \
|
| +; RUN: --allow-externally-defined-symbols --skip-unimplemented \
|
| +; RUN: | FileCheck %s --check-prefix=IASM
|
| +
|
| +; Show bytes in assembled integrated code.
|
| +; RUN: %p2i --filetype=iasm -i %s --target=mips32 --assemble --disassemble \
|
| +; RUN: --args -O2 --allow-externally-defined-symbols --skip-unimplemented \
|
| +; RUN: | FileCheck %s --check-prefix=DIS
|
| +
|
| +define internal i32 @fcmpFalseFloat(float %a, float %b) {
|
| +entry:
|
| + %cmp = fcmp false float %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpFalseFloat:
|
| +; ASM-NEXT: .LfcmpFalseFloat$entry:
|
| +; ASM-NEXT: addiu $v0, $zero, 0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000000 <fcmpFalseFloat>:
|
| +; DIS-NEXT: 0: 24020000 li v0,0
|
| +; DIS-NEXT: 4: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 8: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpFalseFloat:
|
| +; IASM-NEXT: .LfcmpFalseFloat$entry:
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x2
|
| +; IASM-NEXT: .byte 0x24
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpFalseDouble(double %a, double %b) {
|
| +entry:
|
| + %cmp = fcmp false double %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpFalseDouble:
|
| +; ASM-NEXT: .LfcmpFalseDouble$entry:
|
| +; ASM-NEXT: addiu $v0, $zero, 0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000010 <fcmpFalseDouble>:
|
| +; DIS-NEXT: 10: 24020000 li v0,0
|
| +; DIS-NEXT: 14: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 18: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpFalseDouble:
|
| +; IASM-NEXT: .LfcmpFalseDouble$entry:
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x2
|
| +; IASM-NEXT: .byte 0x24
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpOeqFloat(float %a, float %b) {
|
| +entry:
|
| + %cmp = fcmp oeq float %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpOeqFloat
|
| +; ASM-NEXT: .LfcmpOeqFloat$entry:
|
| +; ASM-NEXT: c.eq.s $f12, $f14
|
| +; ASM-NEXT: movf $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000020 <fcmpOeqFloat>:
|
| +; DIS-NEXT: 20: 460e6032 c.eq.s $f12,$f14
|
| +; DIS-NEXT: 24: 00001001 movf v0,zero,$fcc0
|
| +; DIS-NEXT: 28: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 2c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpOeqFloat:
|
| +; IASM-NEXT: .LfcmpOeqFloat$entry:
|
| +; IASM-NEXT: .byte 0x32
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0xe
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpOeqDouble(double %a, double %b) {
|
| +entry:
|
| + %cmp = fcmp oeq double %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpOeqDouble
|
| +; ASM-NEXT: .LfcmpOeqDouble$entry:
|
| +; ASM-NEXT: c.eq.d $f12, $f14
|
| +; ASM-NEXT: movf $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000040 <fcmpOeqDouble>:
|
| +; DIS-NEXT: 40: 462e6032 c.eq.d $f12,$f14
|
| +; DIS-NEXT: 44: 00001001 movf v0,zero,$fcc0
|
| +; DIS-NEXT: 48: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 4c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpOeqDouble:
|
| +; IASM-NEXT: .LfcmpOeqDouble$entry:
|
| +; IASM-NEXT: .byte 0x32
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0x2e
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpOgtFloat(float %a, float %b) {
|
| +entry:
|
| + %cmp = fcmp ogt float %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpOgtFloat
|
| +; ASM-NEXT: .LfcmpOgtFloat$entry:
|
| +; ASM-NEXT: c.ule.s $f12, $f14
|
| +; ASM-NEXT: movt $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000060 <fcmpOgtFloat>:
|
| +; DIS-NEXT: 60: 460e6037 c.ule.s $f12,$f14
|
| +; DIS-NEXT: 64: 00011001 movt v0,zero,$fcc0
|
| +; DIS-NEXT: 68: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 6c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpOgtFloat:
|
| +; IASM-NEXT: .LfcmpOgtFloat$entry:
|
| +; IASM-NEXT: .byte 0x37
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0xe
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpOgtDouble(double %a, double %b) {
|
| +entry:
|
| + %cmp = fcmp ogt double %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpOgtDouble
|
| +; ASM-NEXT: .LfcmpOgtDouble$entry:
|
| +; ASM-NEXT: c.ule.d $f12, $f14
|
| +; ASM-NEXT: movt $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000080 <fcmpOgtDouble>:
|
| +; DIS-NEXT: 80: 462e6037 c.ule.d $f12,$f14
|
| +; DIS-NEXT: 84: 00011001 movt v0,zero,$fcc0
|
| +; DIS-NEXT: 88: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 8c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpOgtDouble:
|
| +; IASM-NEXT: .LfcmpOgtDouble$entry:
|
| +; IASM-NEXT: .byte 0x37
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0x2e
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpOgeFloat(float %a, float %b) {
|
| +entry:
|
| + %cmp = fcmp oge float %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpOgeFloat
|
| +; ASM-NEXT: .LfcmpOgeFloat$entry:
|
| +; ASM-NEXT: c.ult.s $f12, $f14
|
| +; ASM-NEXT: movt $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 000000a0 <fcmpOgeFloat>:
|
| +; DIS-NEXT: a0: 460e6035 c.ult.s $f12,$f14
|
| +; DIS-NEXT: a4: 00011001 movt v0,zero,$fcc0
|
| +; DIS-NEXT: a8: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: ac: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpOgeFloat:
|
| +; IASM-NEXT: .LfcmpOgeFloat$entry:
|
| +; IASM-NEXT: .byte 0x35
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0xe
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpOgeDouble(double %a, double %b) {
|
| +entry:
|
| + %cmp = fcmp oge double %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpOgeDouble
|
| +; ASM-NEXT: .LfcmpOgeDouble$entry:
|
| +; ASM-NEXT: c.ult.d $f12, $f14
|
| +; ASM-NEXT: movt $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 000000c0 <fcmpOgeDouble>:
|
| +; DIS-NEXT: c0: 462e6035 c.ult.d $f12,$f14
|
| +; DIS-NEXT: c4: 00011001 movt v0,zero,$fcc0
|
| +; DIS-NEXT: c8: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: cc: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpOgeDouble:
|
| +; IASM-NEXT: .LfcmpOgeDouble$entry:
|
| +; IASM-NEXT: .byte 0x35
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0x2e
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpOltFloat(float %a, float %b) {
|
| +entry:
|
| + %cmp = fcmp olt float %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpOltFloat
|
| +; ASM-NEXT: .LfcmpOltFloat$entry:
|
| +; ASM-NEXT: c.olt.s $f12, $f14
|
| +; ASM-NEXT: movf $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 000000e0 <fcmpOltFloat>:
|
| +; DIS-NEXT: e0: 460e6034 c.olt.s $f12,$f14
|
| +; DIS-NEXT: e4: 00001001 movf v0,zero,$fcc0
|
| +; DIS-NEXT: e8: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: ec: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpOltFloat:
|
| +; IASM-NEXT: .LfcmpOltFloat$entry:
|
| +; IASM-NEXT: .byte 0x34
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0xe
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpOltDouble(double %a, double %b) {
|
| +entry:
|
| + %cmp = fcmp olt double %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpOltDouble
|
| +; ASM-NEXT: .LfcmpOltDouble$entry:
|
| +; ASM-NEXT: c.olt.d $f12, $f14
|
| +; ASM-NEXT: movf $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000100 <fcmpOltDouble>:
|
| +; DIS-NEXT: 100: 462e6034 c.olt.d $f12,$f14
|
| +; DIS-NEXT: 104: 00001001 movf v0,zero,$fcc0
|
| +; DIS-NEXT: 108: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 10c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpOltDouble:
|
| +; IASM-NEXT: .LfcmpOltDouble$entry:
|
| +; IASM-NEXT: .byte 0x34
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0x2e
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpOleFloat(float %a, float %b) {
|
| +entry:
|
| + %cmp = fcmp ole float %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpOleFloat
|
| +; ASM-NEXT: .LfcmpOleFloat$entry:
|
| +; ASM-NEXT: c.ole.s $f12, $f14
|
| +; ASM-NEXT: movf $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000120 <fcmpOleFloat>:
|
| +; DIS-NEXT: 120: 460e6036 c.ole.s $f12,$f14
|
| +; DIS-NEXT: 124: 00001001 movf v0,zero,$fcc0
|
| +; DIS-NEXT: 128: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 12c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpOleFloat:
|
| +; IASM-NEXT: .LfcmpOleFloat$entry:
|
| +; IASM-NEXT: .byte 0x36
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0xe
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpOleDouble(double %a, double %b) {
|
| +entry:
|
| + %cmp = fcmp ole double %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpOleDouble
|
| +; ASM-NEXT: .LfcmpOleDouble$entry:
|
| +; ASM-NEXT: c.ole.d $f12, $f14
|
| +; ASM-NEXT: movf $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000140 <fcmpOleDouble>:
|
| +; DIS-NEXT: 140: 462e6036 c.ole.d $f12,$f14
|
| +; DIS-NEXT: 144: 00001001 movf v0,zero,$fcc0
|
| +; DIS-NEXT: 148: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 14c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpOleDouble:
|
| +; IASM-NEXT: .LfcmpOleDouble$entry:
|
| +; IASM-NEXT: .byte 0x36
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0x2e
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpOneFloat(float %a, float %b) {
|
| +entry:
|
| + %cmp = fcmp one float %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpOneFloat
|
| +; ASM-NEXT: .LfcmpOneFloat$entry:
|
| +; ASM-NEXT: c.ueq.s $f12, $f14
|
| +; ASM-NEXT: movt $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000160 <fcmpOneFloat>:
|
| +; DIS-NEXT: 160: 460e6033 c.ueq.s $f12,$f14
|
| +; DIS-NEXT: 164: 00011001 movt v0,zero,$fcc0
|
| +; DIS-NEXT: 168: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 16c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpOneFloat:
|
| +; IASM-NEXT: .LfcmpOneFloat$entry:
|
| +; IASM-NEXT: .byte 0x33
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0xe
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpOneDouble(double %a, double %b) {
|
| +entry:
|
| + %cmp = fcmp one double %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpOneDouble
|
| +; ASM-NEXT: .LfcmpOneDouble$entry:
|
| +; ASM-NEXT: c.ueq.d $f12, $f14
|
| +; ASM-NEXT: movt $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000180 <fcmpOneDouble>:
|
| +; DIS-NEXT: 180: 462e6033 c.ueq.d $f12,$f14
|
| +; DIS-NEXT: 184: 00011001 movt v0,zero,$fcc0
|
| +; DIS-NEXT: 188: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 18c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpOneDouble:
|
| +; IASM-NEXT: .LfcmpOneDouble$entry:
|
| +; IASM-NEXT: .byte 0x33
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0x2e
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpOrdFloat(float %a, float %b) {
|
| +entry:
|
| + %cmp = fcmp ord float %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpOrdFloat:
|
| +; ASM-NEXT: .LfcmpOrdFloat$entry:
|
| +; ASM-NEXT: c.un.s $f12, $f14
|
| +; ASM-NEXT: movt $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 000001a0 <fcmpOrdFloat>:
|
| +; DIS-NEXT: 1a0: 460e6031 c.un.s $f12,$f14
|
| +; DIS-NEXT: 1a4: 00011001 movt v0,zero,$fcc0
|
| +; DIS-NEXT: 1a8: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 1ac: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpOrdFloat:
|
| +; IASM-NEXT: .LfcmpOrdFloat$entry:
|
| +; IASM-NEXT: .byte 0x31
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0xe
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpOrdDouble(double %a, double %b) {
|
| +entry:
|
| + %cmp = fcmp ord double %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpOrdDouble:
|
| +; ASM-NEXT: .LfcmpOrdDouble$entry:
|
| +; ASM-NEXT: c.un.d $f12, $f14
|
| +; ASM-NEXT: movt $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 000001c0 <fcmpOrdDouble>:
|
| +; DIS-NEXT: 1c0: 462e6031 c.un.d $f12,$f14
|
| +; DIS-NEXT: 1c4: 00011001 movt v0,zero,$fcc0
|
| +; DIS-NEXT: 1c8: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 1cc: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpOrdDouble:
|
| +; IASM-NEXT: .LfcmpOrdDouble$entry:
|
| +; IASM-NEXT: .byte 0x31
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0x2e
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpUeqFloat(float %a, float %b) {
|
| +entry:
|
| + %cmp = fcmp ueq float %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpUeqFloat
|
| +; ASM-NEXT: .LfcmpUeqFloat$entry:
|
| +; ASM-NEXT: c.ueq.s $f12, $f14
|
| +; ASM-NEXT: movf $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 000001e0 <fcmpUeqFloat>:
|
| +; DIS-NEXT: 1e0: 460e6033 c.ueq.s $f12,$f14
|
| +; DIS-NEXT: 1e4: 00001001 movf v0,zero,$fcc0
|
| +; DIS-NEXT: 1e8: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 1ec: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpUeqFloat:
|
| +; IASM-NEXT: .LfcmpUeqFloat$entry:
|
| +; IASM-NEXT: .byte 0x33
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0xe
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpUeqDouble(double %a, double %b) {
|
| +entry:
|
| + %cmp = fcmp ueq double %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpUeqDouble
|
| +; ASM-NEXT: .LfcmpUeqDouble$entry:
|
| +; ASM-NEXT: c.ueq.d $f12, $f14
|
| +; ASM-NEXT: movf $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000200 <fcmpUeqDouble>:
|
| +; DIS-NEXT: 200: 462e6033 c.ueq.d $f12,$f14
|
| +; DIS-NEXT: 204: 00001001 movf v0,zero,$fcc0
|
| +; DIS-NEXT: 208: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 20c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpUeqDouble:
|
| +; IASM-NEXT: .LfcmpUeqDouble$entry:
|
| +; IASM-NEXT: .byte 0x33
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0x2e
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpUgtFloat(float %a, float %b) {
|
| +entry:
|
| + %cmp = fcmp ugt float %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpUgtFloat
|
| +; ASM-NEXT: .LfcmpUgtFloat$entry:
|
| +; ASM-NEXT: c.ole.s $f12, $f14
|
| +; ASM-NEXT: movt $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000220 <fcmpUgtFloat>:
|
| +; DIS-NEXT: 220: 460e6036 c.ole.s $f12,$f14
|
| +; DIS-NEXT: 224: 00011001 movt v0,zero,$fcc0
|
| +; DIS-NEXT: 228: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 22c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpUgtFloat:
|
| +; IASM-NEXT: .LfcmpUgtFloat$entry:
|
| +; IASM-NEXT: .byte 0x36
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0xe
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpUgtDouble(double %a, double %b) {
|
| +entry:
|
| + %cmp = fcmp ugt double %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpUgtDouble
|
| +; ASM-NEXT: .LfcmpUgtDouble$entry:
|
| +; ASM-NEXT: c.ole.d $f12, $f14
|
| +; ASM-NEXT: movt $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000240 <fcmpUgtDouble>:
|
| +; DIS-NEXT: 240: 462e6036 c.ole.d $f12,$f14
|
| +; DIS-NEXT: 244: 00011001 movt v0,zero,$fcc0
|
| +; DIS-NEXT: 248: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 24c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpUgtDouble:
|
| +; IASM-NEXT: .LfcmpUgtDouble$entry:
|
| +; IASM-NEXT: .byte 0x36
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0x2e
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpUgeFloat(float %a, float %b) {
|
| +entry:
|
| + %cmp = fcmp uge float %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpUgeFloat
|
| +; ASM-NEXT: .LfcmpUgeFloat$entry:
|
| +; ASM-NEXT: c.olt.s $f12, $f14
|
| +; ASM-NEXT: movt $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000260 <fcmpUgeFloat>:
|
| +; DIS-NEXT: 260: 460e6034 c.olt.s $f12,$f14
|
| +; DIS-NEXT: 264: 00011001 movt v0,zero,$fcc0
|
| +; DIS-NEXT: 268: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 26c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpUgeFloat:
|
| +; IASM-NEXT: .LfcmpUgeFloat$entry:
|
| +; IASM-NEXT: .byte 0x34
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0xe
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpUgeDouble(double %a, double %b) {
|
| +entry:
|
| + %cmp = fcmp uge double %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpUgeDouble
|
| +; ASM-NEXT: .LfcmpUgeDouble$entry:
|
| +; ASM-NEXT: c.olt.d $f12, $f14
|
| +; ASM-NEXT: movt $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000280 <fcmpUgeDouble>:
|
| +; DIS-NEXT: 280: 462e6034 c.olt.d $f12,$f14
|
| +; DIS-NEXT: 284: 00011001 movt v0,zero,$fcc0
|
| +; DIS-NEXT: 288: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 28c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpUgeDouble:
|
| +; IASM-NEXT: .LfcmpUgeDouble$entry:
|
| +; IASM-NEXT: .byte 0x34
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0x2e
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpUltFloat(float %a, float %b) {
|
| +entry:
|
| + %cmp = fcmp ult float %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpUltFloat
|
| +; ASM-NEXT: .LfcmpUltFloat$entry:
|
| +; ASM-NEXT: c.ult.s $f12, $f14
|
| +; ASM-NEXT: movf $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 000002a0 <fcmpUltFloat>:
|
| +; DIS-NEXT: 2a0: 460e6035 c.ult.s $f12,$f14
|
| +; DIS-NEXT: 2a4: 00001001 movf v0,zero,$fcc0
|
| +; DIS-NEXT: 2a8: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 2ac: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpUltFloat:
|
| +; IASM-NEXT: .LfcmpUltFloat$entry:
|
| +; IASM-NEXT: .byte 0x35
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0xe
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpUltDouble(double %a, double %b) {
|
| +entry:
|
| + %cmp = fcmp ult double %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpUltDouble
|
| +; ASM-NEXT: .LfcmpUltDouble$entry:
|
| +; ASM-NEXT: c.ult.d $f12, $f14
|
| +; ASM-NEXT: movf $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 000002c0 <fcmpUltDouble>:
|
| +; DIS-NEXT: 2c0: 462e6035 c.ult.d $f12,$f14
|
| +; DIS-NEXT: 2c4: 00001001 movf v0,zero,$fcc0
|
| +; DIS-NEXT: 2c8: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 2cc: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpUltDouble:
|
| +; IASM-NEXT: .LfcmpUltDouble$entry:
|
| +; IASM-NEXT: .byte 0x35
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0x2e
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpUleFloat(float %a, float %b) {
|
| +entry:
|
| + %cmp = fcmp ule float %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpUleFloat
|
| +; ASM-NEXT: .LfcmpUleFloat$entry:
|
| +; ASM-NEXT: c.ule.s $f12, $f14
|
| +; ASM-NEXT: movf $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 000002e0 <fcmpUleFloat>:
|
| +; DIS-NEXT: 2e0: 460e6037 c.ule.s $f12,$f14
|
| +; DIS-NEXT: 2e4: 00001001 movf v0,zero,$fcc0
|
| +; DIS-NEXT: 2e8: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 2ec: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpUleFloat:
|
| +; IASM-NEXT: .LfcmpUleFloat$entry:
|
| +; IASM-NEXT: .byte 0x37
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0xe
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpUleDouble(double %a, double %b) {
|
| +entry:
|
| + %cmp = fcmp ule double %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpUleDouble
|
| +; ASM-NEXT: .LfcmpUleDouble$entry:
|
| +; ASM-NEXT: c.ule.d $f12, $f14
|
| +; ASM-NEXT: movf $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000300 <fcmpUleDouble>:
|
| +; DIS-NEXT: 300: 462e6037 c.ule.d $f12,$f14
|
| +; DIS-NEXT: 304: 00001001 movf v0,zero,$fcc0
|
| +; DIS-NEXT: 308: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 30c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpUleDouble:
|
| +; IASM-NEXT: .LfcmpUleDouble$entry:
|
| +; IASM-NEXT: .byte 0x37
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0x2e
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpUneFloat(float %a, float %b) {
|
| +entry:
|
| + %cmp = fcmp une float %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpUneFloat
|
| +; ASM-NEXT: .LfcmpUneFloat$entry:
|
| +; ASM-NEXT: c.eq.s $f12, $f14
|
| +; ASM-NEXT: movt $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000320 <fcmpUneFloat>:
|
| +; DIS-NEXT: 320: 460e6032 c.eq.s $f12,$f14
|
| +; DIS-NEXT: 324: 00011001 movt v0,zero,$fcc0
|
| +; DIS-NEXT: 328: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 32c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpUneFloat:
|
| +; IASM-NEXT: .LfcmpUneFloat$entry:
|
| +; IASM-NEXT: .byte 0x32
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0xe
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpUneDouble(double %a, double %b) {
|
| +entry:
|
| + %cmp = fcmp une double %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpUneDouble
|
| +; ASM-NEXT: .LfcmpUneDouble$entry:
|
| +; ASM-NEXT: c.eq.d $f12, $f14
|
| +; ASM-NEXT: movt $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000340 <fcmpUneDouble>:
|
| +; DIS-NEXT: 340: 462e6032 c.eq.d $f12,$f14
|
| +; DIS-NEXT: 344: 00011001 movt v0,zero,$fcc0
|
| +; DIS-NEXT: 348: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 34c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpUneDouble:
|
| +; IASM-NEXT: .LfcmpUneDouble$entry:
|
| +; IASM-NEXT: .byte 0x32
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0x2e
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpUnoFloat(float %a, float %b) {
|
| +entry:
|
| + %cmp = fcmp uno float %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpUnoFloat
|
| +; ASM-NEXT: .LfcmpUnoFloat$entry:
|
| +; ASM-NEXT: c.un.s $f12, $f14
|
| +; ASM-NEXT: movf $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000360 <fcmpUnoFloat>:
|
| +; DIS-NEXT: 360: 460e6031 c.un.s $f12,$f14
|
| +; DIS-NEXT: 364: 00001001 movf v0,zero,$fcc0
|
| +; DIS-NEXT: 368: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 36c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpUnoFloat:
|
| +; IASM-NEXT: .LfcmpUnoFloat$entry:
|
| +; IASM-NEXT: .byte 0x31
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0xe
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpUnoDouble(double %a, double %b) {
|
| +entry:
|
| + %cmp = fcmp uno double %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpUnoDouble
|
| +; ASM-NEXT: .LfcmpUnoDouble$entry:
|
| +; ASM-NEXT: c.un.d $f12, $f14
|
| +; ASM-NEXT: movf $v0, $zero, $fcc0
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 00000380 <fcmpUnoDouble>:
|
| +; DIS-NEXT: 380: 462e6031 c.un.d $f12,$f14
|
| +; DIS-NEXT: 384: 00001001 movf v0,zero,$fcc0
|
| +; DIS-NEXT: 388: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 38c: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpUnoDouble:
|
| +; IASM-NEXT: .LfcmpUnoDouble$entry:
|
| +; IASM-NEXT: .byte 0x31
|
| +; IASM-NEXT: .byte 0x60
|
| +; IASM-NEXT: .byte 0x2e
|
| +; IASM-NEXT: .byte 0x46
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x10
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpTrueFloat(float %a, float %b) {
|
| +entry:
|
| + %cmp = fcmp true float %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpTrueFloat
|
| +; ASM-NEXT: .LfcmpTrueFloat$entry:
|
| +; ASM-NEXT: addiu $v0, $zero, 1
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 000003a0 <fcmpTrueFloat>:
|
| +; DIS-NEXT: 3a0: 24020001 li v0,1
|
| +; DIS-NEXT: 3a4: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 3a8: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpTrueFloat:
|
| +; IASM-NEXT: .LfcmpTrueFloat$entry:
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x2
|
| +; IASM-NEXT: .byte 0x24
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
| +
|
| +define internal i32 @fcmpTrueDouble(double %a, double %b) {
|
| +entry:
|
| + %cmp = fcmp true double %a, %b
|
| + %cmp.ret_ext = zext i1 %cmp to i32
|
| + ret i32 %cmp.ret_ext
|
| +}
|
| +
|
| +; ASM-LABEL: fcmpTrueDouble
|
| +; ASM-NEXT: .LfcmpTrueDouble$entry:
|
| +; ASM-NEXT: addiu $v0, $zero, 1
|
| +; ASM-NEXT: andi $v0, $v0, 1
|
| +; ASM-NEXT: jr $ra
|
| +
|
| +; DIS-LABEL: 000003b0 <fcmpTrueDouble>:
|
| +; DIS-NEXT: 3b0: 24020001 li v0,1
|
| +; DIS-NEXT: 3b4: 30420001 andi v0,v0,0x1
|
| +; DIS-NEXT: 3b8: 03e00008 jr ra
|
| +
|
| +; IASM-LABEL: fcmpTrueDouble:
|
| +; IASM-NEXT: .LfcmpTrueDouble$entry:
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x2
|
| +; IASM-NEXT: .byte 0x24
|
| +; IASM-NEXT: .byte 0x1
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0x42
|
| +; IASM-NEXT: .byte 0x30
|
| +; IASM-NEXT: .byte 0x8
|
| +; IASM-NEXT: .byte 0x0
|
| +; IASM-NEXT: .byte 0xe0
|
| +; IASM-NEXT: .byte 0x3
|
|
|
Chromium Code Reviews
Issue 2350833002:
Subzero, MIPS32: Encoding of FP comparison instructions (Closed)
Base URL: https://chromium.googlesource.com/native_client/pnacl-subzero.git@master