1; Test 128-bit floating-point loads. 2; 3; RUN: llc < %s -mtriple=s390x-linux-gnu | FileCheck %s 4 5; Check loads with no offset. 6define double @f1(i64 %src) { 7; CHECK-LABEL: f1: 8; CHECK: ld %f0, 0(%r2) 9; CHECK: ld %f2, 8(%r2) 10; CHECK: br %r14 11 %ptr = inttoptr i64 %src to fp128 * 12 %val = load fp128 , fp128 *%ptr 13 %trunc = fptrunc fp128 %val to double 14 ret double %trunc 15} 16 17; Check the highest aligned offset that allows LD for both halves. 18define double @f2(i64 %src) { 19; CHECK-LABEL: f2: 20; CHECK: ld %f0, 4080(%r2) 21; CHECK: ld %f2, 4088(%r2) 22; CHECK: br %r14 23 %add = add i64 %src, 4080 24 %ptr = inttoptr i64 %add to fp128 * 25 %val = load fp128 , fp128 *%ptr 26 %trunc = fptrunc fp128 %val to double 27 ret double %trunc 28} 29 30; Check the next doubleword up, which requires a mixture of LD and LDY. 31define double @f3(i64 %src) { 32; CHECK-LABEL: f3: 33; CHECK: ld %f0, 4088(%r2) 34; CHECK: ldy %f2, 4096(%r2) 35; CHECK: br %r14 36 %add = add i64 %src, 4088 37 %ptr = inttoptr i64 %add to fp128 * 38 %val = load fp128 , fp128 *%ptr 39 %trunc = fptrunc fp128 %val to double 40 ret double %trunc 41} 42 43; Check the next doubleword after that, which requires LDY for both halves. 44define double @f4(i64 %src) { 45; CHECK-LABEL: f4: 46; CHECK: ldy %f0, 4096(%r2) 47; CHECK: ldy %f2, 4104(%r2) 48; CHECK: br %r14 49 %add = add i64 %src, 4096 50 %ptr = inttoptr i64 %add to fp128 * 51 %val = load fp128 , fp128 *%ptr 52 %trunc = fptrunc fp128 %val to double 53 ret double %trunc 54} 55 56; Check the highest aligned offset that allows LDY for both halves. 57define double @f5(i64 %src) { 58; CHECK-LABEL: f5: 59; CHECK: ldy %f0, 524272(%r2) 60; CHECK: ldy %f2, 524280(%r2) 61; CHECK: br %r14 62 %add = add i64 %src, 524272 63 %ptr = inttoptr i64 %add to fp128 * 64 %val = load fp128 , fp128 *%ptr 65 %trunc = fptrunc fp128 %val to double 66 ret double %trunc 67} 68 69; Check the next doubleword up, which requires separate address logic. 70; Other sequences besides this one would be OK. 71define double @f6(i64 %src) { 72; CHECK-LABEL: f6: 73; CHECK: lay %r1, 524280(%r2) 74; CHECK: ld %f0, 0(%r1) 75; CHECK: ld %f2, 8(%r1) 76; CHECK: br %r14 77 %add = add i64 %src, 524280 78 %ptr = inttoptr i64 %add to fp128 * 79 %val = load fp128 , fp128 *%ptr 80 %trunc = fptrunc fp128 %val to double 81 ret double %trunc 82} 83 84; Check the highest aligned negative offset, which needs a combination of 85; LDY and LD. 86define double @f7(i64 %src) { 87; CHECK-LABEL: f7: 88; CHECK: ldy %f0, -8(%r2) 89; CHECK: ld %f2, 0(%r2) 90; CHECK: br %r14 91 %add = add i64 %src, -8 92 %ptr = inttoptr i64 %add to fp128 * 93 %val = load fp128 , fp128 *%ptr 94 %trunc = fptrunc fp128 %val to double 95 ret double %trunc 96} 97 98; Check the next doubleword down, which requires LDY for both halves. 99define double @f8(i64 %src) { 100; CHECK-LABEL: f8: 101; CHECK: ldy %f0, -16(%r2) 102; CHECK: ldy %f2, -8(%r2) 103; CHECK: br %r14 104 %add = add i64 %src, -16 105 %ptr = inttoptr i64 %add to fp128 * 106 %val = load fp128 , fp128 *%ptr 107 %trunc = fptrunc fp128 %val to double 108 ret double %trunc 109} 110 111; Check the lowest offset that allows LDY for both halves. 112define double @f9(i64 %src) { 113; CHECK-LABEL: f9: 114; CHECK: ldy %f0, -524288(%r2) 115; CHECK: ldy %f2, -524280(%r2) 116; CHECK: br %r14 117 %add = add i64 %src, -524288 118 %ptr = inttoptr i64 %add to fp128 * 119 %val = load fp128 , fp128 *%ptr 120 %trunc = fptrunc fp128 %val to double 121 ret double %trunc 122} 123 124; Check the next doubleword down, which requires separate address logic. 125; Other sequences besides this one would be OK. 126define double @f10(i64 %src) { 127; CHECK-LABEL: f10: 128; CHECK: agfi %r2, -524296 129; CHECK: ld %f0, 0(%r2) 130; CHECK: ld %f2, 8(%r2) 131; CHECK: br %r14 132 %add = add i64 %src, -524296 133 %ptr = inttoptr i64 %add to fp128 * 134 %val = load fp128 , fp128 *%ptr 135 %trunc = fptrunc fp128 %val to double 136 ret double %trunc 137} 138 139; Check that indices are allowed. 140define double @f11(i64 %src, i64 %index) { 141; CHECK-LABEL: f11: 142; CHECK: ld %f0, 4088({{%r2,%r3|%r3,%r2}}) 143; CHECK: ldy %f2, 4096({{%r2,%r3|%r3,%r2}}) 144; CHECK: br %r14 145 %add1 = add i64 %src, %index 146 %add2 = add i64 %add1, 4088 147 %ptr = inttoptr i64 %add2 to fp128 * 148 %val = load fp128 , fp128 *%ptr 149 %trunc = fptrunc fp128 %val to double 150 ret double %trunc 151} 152