1; Test that the FP64A ABI performs double precision moves via a spill/reload. 2; The requirement is really that odd-numbered double precision registers do not 3; use mfc1/mtc1 to move the bottom 32-bits (because the hardware will redirect 4; this to the top 32-bits of the even register) but we have to make the decision 5; before register allocation so we do this for all double-precision values. 6 7; We don't test MIPS32r1 since support for 64-bit coprocessors (such as a 64-bit 8; FPU) on a 32-bit architecture was added in MIPS32r2. 9; FIXME: We currently don't test that attempting to use FP64 on MIPS32r1 is an 10; error either. This is because a large number of CodeGen tests are 11; incorrectly using this case. We should fix those test cases then add 12; this check here. 13 14; RUN: llc -march=mips -mcpu=mips32r2 -mattr=fp64 < %s | FileCheck %s -check-prefixes=ALL,32R2-NO-FP64A-BE 15; RUN: llc -march=mips -mcpu=mips32r2 -mattr=fp64,nooddspreg < %s | FileCheck %s -check-prefixes=ALL,32R2-FP64A 16; RUN: llc -march=mipsel -mcpu=mips32r2 -mattr=fp64 < %s | FileCheck %s -check-prefixes=ALL,32R2-NO-FP64A-LE 17; RUN: llc -march=mipsel -mcpu=mips32r2 -mattr=fp64,nooddspreg < %s | FileCheck %s -check-prefixes=ALL,32R2-FP64A 18 19; RUN: llc -march=mips64 -mcpu=mips64 -mattr=fp64 < %s | FileCheck %s -check-prefixes=ALL,64-NO-FP64A 20; RUN: not llc -march=mips64 -mcpu=mips64 -mattr=fp64,nooddspreg < %s 2>&1 | FileCheck %s -check-prefix=64-FP64A 21; RUN: llc -march=mips64el -mcpu=mips64 -mattr=fp64 < %s | FileCheck %s -check-prefixes=ALL,64-NO-FP64A 22; RUN: not llc -march=mips64el -mcpu=mips64 -mattr=fp64,nooddspreg < %s 2>&1 | FileCheck %s -check-prefix=64-FP64A 23 24; 64-FP64A: LLVM ERROR: -mattr=+nooddspreg requires the O32 ABI. 25 26declare double @dbl(); 27 28define double @call1(double %d, ...) { 29 ret double %d 30 31; ALL-LABEL: call1: 32 33; 32R2-NO-FP64A-LE-NOT: addiu $sp, $sp 34; 32R2-NO-FP64A-LE: mtc1 $4, $f0 35; 32R2-NO-FP64A-LE: mthc1 $5, $f0 36 37; 32R2-NO-FP64A-BE-NOT: addiu $sp, $sp 38; 32R2-NO-FP64A-BE: mtc1 $5, $f0 39; 32R2-NO-FP64A-BE: mthc1 $4, $f0 40 41; 32R2-FP64A: addiu $sp, $sp, -8 42; 32R2-FP64A: sw $4, 0($sp) 43; 32R2-FP64A: sw $5, 4($sp) 44; 32R2-FP64A: ldc1 $f0, 0($sp) 45 46; 64-NO-FP64A: daddiu $sp, $sp, -64 47; 64-NO-FP64A: mov.d $f0, $f12 48} 49 50define double @call2(i32 %i, double %d) { 51 ret double %d 52 53; ALL-LABEL: call2: 54 55; 32R2-NO-FP64A-LE: mtc1 $6, $f0 56; 32R2-NO-FP64A-LE: mthc1 $7, $f0 57 58; 32R2-NO-FP64A-BE: mtc1 $7, $f0 59; 32R2-NO-FP64A-BE: mthc1 $6, $f0 60 61; 32R2-FP64A: addiu $sp, $sp, -8 62; 32R2-FP64A: sw $6, 0($sp) 63; 32R2-FP64A: sw $7, 4($sp) 64; 32R2-FP64A: ldc1 $f0, 0($sp) 65 66; 64-NO-FP64A-NOT: daddiu $sp, $sp 67; 64-NO-FP64A: mov.d $f0, $f13 68} 69 70define double @call3(float %f1, float %f2, double %d) { 71 ret double %d 72 73; ALL-LABEL: call3: 74 75; 32R2-NO-FP64A-LE: mtc1 $6, $f0 76; 32R2-NO-FP64A-LE: mthc1 $7, $f0 77 78; 32R2-NO-FP64A-BE: mtc1 $7, $f0 79; 32R2-NO-FP64A-BE: mthc1 $6, $f0 80 81; 32R2-FP64A: addiu $sp, $sp, -8 82; 32R2-FP64A: sw $6, 0($sp) 83; 32R2-FP64A: sw $7, 4($sp) 84; 32R2-FP64A: ldc1 $f0, 0($sp) 85 86; 64-NO-FP64A-NOT: daddiu $sp, $sp 87; 64-NO-FP64A: mov.d $f0, $f14 88} 89 90define double @call4(float %f, double %d, ...) { 91 ret double %d 92 93; ALL-LABEL: call4: 94 95; 32R2-NO-FP64A-LE: mtc1 $6, $f0 96; 32R2-NO-FP64A-LE: mthc1 $7, $f0 97 98; 32R2-NO-FP64A-BE: mtc1 $7, $f0 99; 32R2-NO-FP64A-BE: mthc1 $6, $f0 100 101; 32R2-FP64A: addiu $sp, $sp, -8 102; 32R2-FP64A: sw $6, 0($sp) 103; 32R2-FP64A: sw $7, 4($sp) 104; 32R2-FP64A: ldc1 $f0, 0($sp) 105 106; 64-NO-FP64A: daddiu $sp, $sp, -48 107; 64-NO-FP64A: mov.d $f0, $f13 108} 109 110define double @call5(double %a, double %b, ...) { 111 %1 = fsub double %a, %b 112 ret double %1 113 114; ALL-LABEL: call5: 115 116; 32R2-NO-FP64A-LE-DAG: mtc1 $4, $[[T0:f[0-9]+]] 117; 32R2-NO-FP64A-LE-DAG: mthc1 $5, $[[T0:f[0-9]+]] 118; 32R2-NO-FP64A-LE-DAG: mtc1 $6, $[[T1:f[0-9]+]] 119; 32R2-NO-FP64A-LE-DAG: mthc1 $7, $[[T1:f[0-9]+]] 120; 32R2-NO-FP64A-LE: sub.d $f0, $[[T0]], $[[T1]] 121 122; 32R2-NO-FP64A-BE-DAG: mtc1 $5, $[[T0:f[0-9]+]] 123; 32R2-NO-FP64A-BE-DAG: mthc1 $4, $[[T0:f[0-9]+]] 124; 32R2-NO-FP64A-BE-DAG: mtc1 $7, $[[T1:f[0-9]+]] 125; 32R2-NO-FP64A-BE-DAG: mthc1 $6, $[[T1:f[0-9]+]] 126; 32R2-NO-FP64A-BE: sub.d $f0, $[[T0]], $[[T1]] 127 128; 32R2-FP64A: addiu $sp, $sp, -8 129; 32R2-FP64A: sw $6, 0($sp) 130; 32R2-FP64A: sw $7, 4($sp) 131; 32R2-FP64A: ldc1 $[[T1:f[0-9]+]], 0($sp) 132; 32R2-FP64A: sw $4, 0($sp) 133; 32R2-FP64A: sw $5, 4($sp) 134; 32R2-FP64A: ldc1 $[[T0:f[0-9]+]], 0($sp) 135; 32R2-FP64A: sub.d $f0, $[[T0]], $[[T1]] 136 137; 64-NO-FP64A: sub.d $f0, $f12, $f13 138} 139 140define double @move_from(double %d) { 141 %1 = call double @dbl() 142 %2 = call double @call2(i32 0, double %1) 143 ret double %2 144 145; ALL-LABEL: move_from: 146 147; 32R2-NO-FP64A-LE-DAG: mfc1 $6, $f0 148; 32R2-NO-FP64A-LE-DAG: mfhc1 $7, $f0 149 150; 32R2-NO-FP64A-BE-DAG: mfc1 $7, $f0 151; 32R2-NO-FP64A-BE-DAG: mfhc1 $6, $f0 152 153; 32R2-FP64A: addiu $sp, $sp, -32 154; 32R2-FP64A: sdc1 $f0, 16($sp) 155; 32R2-FP64A: lw $6, 16($sp) 156; FIXME: This store is redundant 157; 32R2-FP64A: sdc1 $f0, 16($sp) 158; 32R2-FP64A: lw $7, 20($sp) 159 160; 64-NO-FP64A: mov.d $f13, $f0 161} 162