| /external/valgrind/none/tests/s390x/ |
| bfp-4.stdout.exp | 0 cfebr: 3.140000 == 3.140000
2 cfebr: 3.140000 < 13.140000
3 cfebr: 3.140000 > -96.860001
|
| rounding-3.stdout.exp | 2 cfebr 1.250000 -> 1 cc = 2
3 cfebr 1.500000 -> 2 cc = 2
4 cfebr 2.500000 -> 2 cc = 2
5 cfebr 1.750000 -> 2 cc = 2
6 cfebr -1.250000 -> -1 cc = 1
7 cfebr -1.500000 -> -2 cc = 1
8 cfebr -2.500000 -> -2 cc = 1
9 cfebr -1.750000 -> -2 cc = 1
10 cfebr 0.000000 -> 0 cc = 0
39 cfebr 1.250000 -> 1 cc =
[all...] |
| fpconv.stdout.exp | 47 cfebr -1.000000 -> -1 cc = 1
48 cfebr 0.000000 -> 0 cc = 0
49 cfebr 1.000000 -> 1 cc = 2
50 cfebr 1.400000 -> 1 cc = 2
51 cfebr 1.500000 -> 2 cc = 2
52 cfebr 1.600000 -> 2 cc = 2
53 cfebr 16000.000000 -> 16000 cc = 2
54 cfebr 160000000.000000 -> 160000000 cc = 2
55 cfebr 0.000160 -> 0 cc = 2
56 cfebr 340282346638528859811704183484516925440.000000 -> 2147483647 cc =
[all...] |
| rounding-6.stdout.exp | 0 cfebr 1.250000 -> 1 cc = 2 [-> nearest even]
2 cfebr 1.250000 -> 1 cc = 2 [-> 0]
3 cfebr 1.250000 -> 2 cc = 2 [-> +inf]
4 cfebr 1.250000 -> 1 cc = 2 [-> -inf]
5 cfebr 1.500000 -> 2 cc = 2 [-> nearest even]
6 cfebr 1.500000 -> 1 cc = 2 [-> 0]
7 cfebr 1.500000 -> 2 cc = 2 [-> +inf]
8 cfebr 1.500000 -> 1 cc = 2 [-> -inf]
9 cfebr 2.500000 -> 2 cc = 2 [-> nearest even]
10 cfebr 2.500000 -> 2 cc = 2 [-> 0
[all...] |
| bfp-4.c | 14 printf("cfebr: %f == %f\n", v1, v2);
16 printf("cfebr: %f < %f\n", v1, v2);
18 printf("cfebr: %f > %f\n", v1, v2);
|
| rounding-3.c | 60 #define cfebr(value) \ macro
61 convert_to_int("cfebr",float,int32_t,PRId32,0,value)
88 cfebr(fval[j]);
|
| rounding-6.c | 61 #define cfebr(value, round) \ macro
62 convert_to_int("cfebr",float,int32_t,PRId32,round,value)
101 cfebr(fval[j], M3_BFP_ROUND_NEAREST_EVEN);
103 cfebr(fval[j], M3_BFP_ROUND_ZERO);
104 cfebr(fval[j], M3_BFP_ROUND_POSINF);
105 cfebr(fval[j], M3_BFP_ROUND_NEGINF);
|
| fpconv.c | 9 Convert to fixed: cfebr, cgebr, cfdbr, cgdbr
106 DO_INSN_F32_TO_I("cfebr", int32_t); \
|
| rounding.h | 8 /* instructions (e.g. CFEBR) */
|
| /external/llvm/test/CodeGen/SystemZ/ |
| fp-conv-09.ll | 8 ; CHECK: cfebr %r2, 5, %f0
|
| fp-conv-10.ll | 15 ; CHECK: cfebr
|
| /external/valgrind/VEX/priv/ |
| s390_defs.h | 66 instructions (e.g. CFEBR) */
|
| /external/valgrind/auxprogs/ |
| s390-check-opcodes.pl | 65 next if ($mnemonic eq "cfebra"); # indistinguishable from cfebr
131 next if ($mnemonic eq "cfebra"); # indistinguishable from cfebr
|
| /external/llvm/lib/Target/SystemZ/ |
| SystemZInstrFP.td | 210 def CFEBR : UnaryRRF<"cfeb", 0xB398, GR32, FP32>;
220 def : Pat<(i32 (fp_to_sint FP32:$src)), (CFEBR 5, FP32:$src)>;
|
| /external/v8/src/s390/ |
| disasm-s390.cc | 910 case CFEBR:
911 Format(instr, "cfebr\t'r5,'m2,'f6");
[all...] |
| assembler-s390.h | [all...] |
| constants-s390.h | 282 CFEBR = 0xB398, // Convert To Fixed (short BFP to 32)
[all...] |
| assembler-s390.cc | 2921 void Assembler::cfebr(Condition m3, Register r1, DoubleRegister r2) { function in class:v8::internal::Assembler
[all...] |
| /toolchain/binutils/binutils-2.25/gas/testsuite/gas/s390/ |
| esa-g5.s | 102 cfebr %r6,5,%f9
|
| esa-g5.d | 108 .*: b3 98 50 69 [ ]*cfebr %r6,5,%f9
|
| /external/llvm/test/MC/SystemZ/ |
| insn-bad.s | 426 #CHECK: cfebr %r0, -1, %f0
428 #CHECK: cfebr %r0, 16, %f0
430 cfebr %r0, -1, %f0
431 cfebr %r0, 16, %f0
[all...] |
| insn-good.s | [all...] |
| /external/valgrind/docs/internals/ |
| s390-opcodes.csv | 281 cfebr,"convert to fixed short bfp to 32",implemented,
[all...] |
| /toolchain/binutils/binutils-2.25/opcodes/ |
| s390-opc.c | 355 #define INSTR_RRF_U0RF 4, { R_24,U4_16,F_28,0,0,0 } /* e.g. cfebr */
[all...] |
| i370-opc.c | 654 { "cfebr", 4, {{RRF(0xb398,0,0,0), 0}}, {{RRF_MASK, 0}}, IBF, {RRF_R1, RRF_R3, RRF_R2} },
[all...] |
