1; Test extensions of f32 to f128. 2; 3; RUN: llc < %s -mtriple=s390x-linux-gnu | FileCheck %s 4 5; Check register extension. 6define void @f1(ptr %dst, float %val) { 7; CHECK-LABEL: f1: 8; CHECK: lxebr %f0, %f0 9; CHECK: std %f0, 0(%r2) 10; CHECK: std %f2, 8(%r2) 11; CHECK: br %r14 12 %res = fpext float %val to fp128 13 store fp128 %res, ptr %dst 14 ret void 15} 16 17; Check the low end of the LXEB range. 18define void @f2(ptr %dst, ptr %ptr) { 19; CHECK-LABEL: f2: 20; CHECK: lxeb %f0, 0(%r3) 21; CHECK: std %f0, 0(%r2) 22; CHECK: std %f2, 8(%r2) 23; CHECK: br %r14 24 %val = load float, ptr %ptr 25 %res = fpext float %val to fp128 26 store fp128 %res, ptr %dst 27 ret void 28} 29 30; Check the high end of the aligned LXEB range. 31define void @f3(ptr %dst, ptr %base) { 32; CHECK-LABEL: f3: 33; CHECK: lxeb %f0, 4092(%r3) 34; CHECK: std %f0, 0(%r2) 35; CHECK: std %f2, 8(%r2) 36; CHECK: br %r14 37 %ptr = getelementptr float, ptr %base, i64 1023 38 %val = load float, ptr %ptr 39 %res = fpext float %val to fp128 40 store fp128 %res, ptr %dst 41 ret void 42} 43 44; Check the next word up, which needs separate address logic. 45; Other sequences besides this one would be OK. 46define void @f4(ptr %dst, ptr %base) { 47; CHECK-LABEL: f4: 48; CHECK: aghi %r3, 4096 49; CHECK: lxeb %f0, 0(%r3) 50; CHECK: std %f0, 0(%r2) 51; CHECK: std %f2, 8(%r2) 52; CHECK: br %r14 53 %ptr = getelementptr float, ptr %base, i64 1024 54 %val = load float, ptr %ptr 55 %res = fpext float %val to fp128 56 store fp128 %res, ptr %dst 57 ret void 58} 59 60; Check negative displacements, which also need separate address logic. 61define void @f5(ptr %dst, ptr %base) { 62; CHECK-LABEL: f5: 63; CHECK: aghi %r3, -4 64; CHECK: lxeb %f0, 0(%r3) 65; CHECK: std %f0, 0(%r2) 66; CHECK: std %f2, 8(%r2) 67; CHECK: br %r14 68 %ptr = getelementptr float, ptr %base, i64 -1 69 %val = load float, ptr %ptr 70 %res = fpext float %val to fp128 71 store fp128 %res, ptr %dst 72 ret void 73} 74 75; Check that LXEB allows indices. 76define void @f6(ptr %dst, ptr %base, i64 %index) { 77; CHECK-LABEL: f6: 78; CHECK: sllg %r1, %r4, 2 79; CHECK: lxeb %f0, 400(%r1,%r3) 80; CHECK: std %f0, 0(%r2) 81; CHECK: std %f2, 8(%r2) 82; CHECK: br %r14 83 %ptr1 = getelementptr float, ptr %base, i64 %index 84 %ptr2 = getelementptr float, ptr %ptr1, i64 100 85 %val = load float, ptr %ptr2 86 %res = fpext float %val to fp128 87 store fp128 %res, ptr %dst 88 ret void 89} 90 91; Test a case where we spill the source of at least one LXEBR. We want 92; to use LXEB if possible. 93define void @f7(ptr %ptr1, ptr %ptr2) { 94; CHECK-LABEL: f7: 95; CHECK: lxeb {{%f[0-9]+}}, 16{{[04]}}(%r15) 96; CHECK: br %r14 97 %val0 = load volatile float, ptr %ptr2 98 %val1 = load volatile float, ptr %ptr2 99 %val2 = load volatile float, ptr %ptr2 100 %val3 = load volatile float, ptr %ptr2 101 %val4 = load volatile float, ptr %ptr2 102 %val5 = load volatile float, ptr %ptr2 103 %val6 = load volatile float, ptr %ptr2 104 %val7 = load volatile float, ptr %ptr2 105 %val8 = load volatile float, ptr %ptr2 106 %val9 = load volatile float, ptr %ptr2 107 %val10 = load volatile float, ptr %ptr2 108 %val11 = load volatile float, ptr %ptr2 109 %val12 = load volatile float, ptr %ptr2 110 %val13 = load volatile float, ptr %ptr2 111 %val14 = load volatile float, ptr %ptr2 112 %val15 = load volatile float, ptr %ptr2 113 %val16 = load volatile float, ptr %ptr2 114 115 %ext0 = fpext float %val0 to fp128 116 %ext1 = fpext float %val1 to fp128 117 %ext2 = fpext float %val2 to fp128 118 %ext3 = fpext float %val3 to fp128 119 %ext4 = fpext float %val4 to fp128 120 %ext5 = fpext float %val5 to fp128 121 %ext6 = fpext float %val6 to fp128 122 %ext7 = fpext float %val7 to fp128 123 %ext8 = fpext float %val8 to fp128 124 %ext9 = fpext float %val9 to fp128 125 %ext10 = fpext float %val10 to fp128 126 %ext11 = fpext float %val11 to fp128 127 %ext12 = fpext float %val12 to fp128 128 %ext13 = fpext float %val13 to fp128 129 %ext14 = fpext float %val14 to fp128 130 %ext15 = fpext float %val15 to fp128 131 %ext16 = fpext float %val16 to fp128 132 133 store volatile float %val0, ptr %ptr2 134 store volatile float %val1, ptr %ptr2 135 store volatile float %val2, ptr %ptr2 136 store volatile float %val3, ptr %ptr2 137 store volatile float %val4, ptr %ptr2 138 store volatile float %val5, ptr %ptr2 139 store volatile float %val6, ptr %ptr2 140 store volatile float %val7, ptr %ptr2 141 store volatile float %val8, ptr %ptr2 142 store volatile float %val9, ptr %ptr2 143 store volatile float %val10, ptr %ptr2 144 store volatile float %val11, ptr %ptr2 145 store volatile float %val12, ptr %ptr2 146 store volatile float %val13, ptr %ptr2 147 store volatile float %val14, ptr %ptr2 148 store volatile float %val15, ptr %ptr2 149 store volatile float %val16, ptr %ptr2 150 151 store volatile fp128 %ext0, ptr %ptr1 152 store volatile fp128 %ext1, ptr %ptr1 153 store volatile fp128 %ext2, ptr %ptr1 154 store volatile fp128 %ext3, ptr %ptr1 155 store volatile fp128 %ext4, ptr %ptr1 156 store volatile fp128 %ext5, ptr %ptr1 157 store volatile fp128 %ext6, ptr %ptr1 158 store volatile fp128 %ext7, ptr %ptr1 159 store volatile fp128 %ext8, ptr %ptr1 160 store volatile fp128 %ext9, ptr %ptr1 161 store volatile fp128 %ext10, ptr %ptr1 162 store volatile fp128 %ext11, ptr %ptr1 163 store volatile fp128 %ext12, ptr %ptr1 164 store volatile fp128 %ext13, ptr %ptr1 165 store volatile fp128 %ext14, ptr %ptr1 166 store volatile fp128 %ext15, ptr %ptr1 167 store volatile fp128 %ext16, ptr %ptr1 168 169 ret void 170} 171