1; Test moves between FPRs and GPRs. The 32-bit cases test the z10 2; implementation, which has no high-word support. 3; 4; RUN: llc < %s -mtriple=s390x-linux-gnu -mcpu=z10 | FileCheck %s 5 6declare i64 @foo() 7declare double @bar() 8@dptr = external global double 9@iptr = external global i64 10 11; Test 32-bit moves from GPRs to FPRs. The GPR must be moved into the high 12; 32 bits of the FPR. 13define float @f1(i32 %a) { 14; CHECK-LABEL: f1: 15; CHECK: sllg [[REGISTER:%r[0-5]]], %r2, 32 16; CHECK: ldgr %f0, [[REGISTER]] 17 %res = bitcast i32 %a to float 18 ret float %res 19} 20 21; Like f1, but create a situation where the shift can be folded with 22; surrounding code. 23define float @f2(i64 %big) { 24; CHECK-LABEL: f2: 25; CHECK: risbg [[REGISTER:%r[0-5]]], %r2, 0, 159, 31 26; CHECK: ldgr %f0, [[REGISTER]] 27 %shift = lshr i64 %big, 1 28 %a = trunc i64 %shift to i32 29 %res = bitcast i32 %a to float 30 ret float %res 31} 32 33; Another example of the same thing. 34define float @f3(i64 %big) { 35; CHECK-LABEL: f3: 36; CHECK: risbg [[REGISTER:%r[0-5]]], %r2, 0, 159, 2 37; CHECK: ldgr %f0, [[REGISTER]] 38 %shift = ashr i64 %big, 30 39 %a = trunc i64 %shift to i32 40 %res = bitcast i32 %a to float 41 ret float %res 42} 43 44; Like f1, but the value to transfer is already in the high 32 bits. 45define float @f4(i64 %big) { 46; CHECK-LABEL: f4: 47; CHECK-NOT: %r2 48; CHECK: nilf %r2, 0 49; CHECK-NOT: %r2 50; CHECK: ldgr %f0, %r2 51 %shift = ashr i64 %big, 32 52 %a = trunc i64 %shift to i32 53 %res = bitcast i32 %a to float 54 ret float %res 55} 56 57; Test 64-bit moves from GPRs to FPRs. 58define double @f5(i64 %a) { 59; CHECK-LABEL: f5: 60; CHECK: ldgr %f0, %r2 61 %res = bitcast i64 %a to double 62 ret double %res 63} 64 65; Test 128-bit moves from GPRs to FPRs. i128 isn't a legitimate type, 66; so this goes through memory. 67define void @f6(fp128 *%a, i128 *%b) { 68; CHECK-LABEL: f6: 69; CHECK: lg 70; CHECK: lg 71; CHECK: stg 72; CHECK: stg 73; CHECK: br %r14 74 %val = load i128 , i128 *%b 75 %res = bitcast i128 %val to fp128 76 store fp128 %res, fp128 *%a 77 ret void 78} 79 80; Test 32-bit moves from FPRs to GPRs. The high 32 bits of the FPR should 81; be moved into the low 32 bits of the GPR. 82define i32 @f7(float %a) { 83; CHECK-LABEL: f7: 84; CHECK: lgdr [[REGISTER:%r[0-5]]], %f0 85; CHECK: srlg %r2, [[REGISTER]], 32 86 %res = bitcast float %a to i32 87 ret i32 %res 88} 89 90; Test 64-bit moves from FPRs to GPRs. 91define i64 @f8(double %a) { 92; CHECK-LABEL: f8: 93; CHECK: lgdr %r2, %f0 94 %res = bitcast double %a to i64 95 ret i64 %res 96} 97 98; Test 128-bit moves from FPRs to GPRs, with the same restriction as f6. 99define void @f9(fp128 *%a, i128 *%b) { 100; CHECK-LABEL: f9: 101; CHECK: ld 102; CHECK: ld 103; CHECK: std 104; CHECK: std 105 %val = load fp128 , fp128 *%a 106 %res = bitcast fp128 %val to i128 107 store i128 %res, i128 *%b 108 ret void 109} 110 111; Test cases where the destination of an LGDR needs to be spilled. 112; We shouldn't have any integer stack stores or floating-point loads. 113define void @f10(double %extra) { 114; CHECK-LABEL: f10: 115; CHECK: dptr 116; CHECK-NOT: stg {{.*}}(%r15) 117; CHECK: %loop 118; CHECK-NOT: ld {{.*}}(%r15) 119; CHECK: %exit 120; CHECK: br %r14 121entry: 122 %double0 = load volatile double , double *@dptr 123 %biased0 = fadd double %double0, %extra 124 %int0 = bitcast double %biased0 to i64 125 %double1 = load volatile double , double *@dptr 126 %biased1 = fadd double %double1, %extra 127 %int1 = bitcast double %biased1 to i64 128 %double2 = load volatile double , double *@dptr 129 %biased2 = fadd double %double2, %extra 130 %int2 = bitcast double %biased2 to i64 131 %double3 = load volatile double , double *@dptr 132 %biased3 = fadd double %double3, %extra 133 %int3 = bitcast double %biased3 to i64 134 %double4 = load volatile double , double *@dptr 135 %biased4 = fadd double %double4, %extra 136 %int4 = bitcast double %biased4 to i64 137 %double5 = load volatile double , double *@dptr 138 %biased5 = fadd double %double5, %extra 139 %int5 = bitcast double %biased5 to i64 140 %double6 = load volatile double , double *@dptr 141 %biased6 = fadd double %double6, %extra 142 %int6 = bitcast double %biased6 to i64 143 %double7 = load volatile double , double *@dptr 144 %biased7 = fadd double %double7, %extra 145 %int7 = bitcast double %biased7 to i64 146 %double8 = load volatile double , double *@dptr 147 %biased8 = fadd double %double8, %extra 148 %int8 = bitcast double %biased8 to i64 149 %double9 = load volatile double , double *@dptr 150 %biased9 = fadd double %double9, %extra 151 %int9 = bitcast double %biased9 to i64 152 br label %loop 153 154loop: 155 %start = call i64 @foo() 156 %or0 = or i64 %start, %int0 157 %or1 = or i64 %or0, %int1 158 %or2 = or i64 %or1, %int2 159 %or3 = or i64 %or2, %int3 160 %or4 = or i64 %or3, %int4 161 %or5 = or i64 %or4, %int5 162 %or6 = or i64 %or5, %int6 163 %or7 = or i64 %or6, %int7 164 %or8 = or i64 %or7, %int8 165 %or9 = or i64 %or8, %int9 166 store i64 %or9, i64 *@iptr 167 %cont = icmp ne i64 %start, 1 168 br i1 %cont, label %loop, label %exit 169 170exit: 171 ret void 172} 173 174; ...likewise LDGR, with the requirements the other way around. 175define void @f11(i64 %mask) { 176; CHECK-LABEL: f11: 177; CHECK: iptr 178; CHECK-NOT: std {{.*}}(%r15) 179; CHECK: %loop 180; CHECK-NOT: lg {{.*}}(%r15) 181; CHECK: %exit 182; CHECK: br %r14 183entry: 184 %int0 = load volatile i64 , i64 *@iptr 185 %masked0 = and i64 %int0, %mask 186 %double0 = bitcast i64 %masked0 to double 187 %int1 = load volatile i64 , i64 *@iptr 188 %masked1 = and i64 %int1, %mask 189 %double1 = bitcast i64 %masked1 to double 190 %int2 = load volatile i64 , i64 *@iptr 191 %masked2 = and i64 %int2, %mask 192 %double2 = bitcast i64 %masked2 to double 193 %int3 = load volatile i64 , i64 *@iptr 194 %masked3 = and i64 %int3, %mask 195 %double3 = bitcast i64 %masked3 to double 196 %int4 = load volatile i64 , i64 *@iptr 197 %masked4 = and i64 %int4, %mask 198 %double4 = bitcast i64 %masked4 to double 199 %int5 = load volatile i64 , i64 *@iptr 200 %masked5 = and i64 %int5, %mask 201 %double5 = bitcast i64 %masked5 to double 202 %int6 = load volatile i64 , i64 *@iptr 203 %masked6 = and i64 %int6, %mask 204 %double6 = bitcast i64 %masked6 to double 205 %int7 = load volatile i64 , i64 *@iptr 206 %masked7 = and i64 %int7, %mask 207 %double7 = bitcast i64 %masked7 to double 208 %int8 = load volatile i64 , i64 *@iptr 209 %masked8 = and i64 %int8, %mask 210 %double8 = bitcast i64 %masked8 to double 211 %int9 = load volatile i64 , i64 *@iptr 212 %masked9 = and i64 %int9, %mask 213 %double9 = bitcast i64 %masked9 to double 214 br label %loop 215 216loop: 217 %start = call double @bar() 218 %add0 = fadd double %start, %double0 219 %add1 = fadd double %add0, %double1 220 %add2 = fadd double %add1, %double2 221 %add3 = fadd double %add2, %double3 222 %add4 = fadd double %add3, %double4 223 %add5 = fadd double %add4, %double5 224 %add6 = fadd double %add5, %double6 225 %add7 = fadd double %add6, %double7 226 %add8 = fadd double %add7, %double8 227 %add9 = fadd double %add8, %double9 228 store double %add9, double *@dptr 229 %cont = fcmp one double %start, 1.0 230 br i1 %cont, label %loop, label %exit 231 232exit: 233 ret void 234} 235 236; Test cases where the source of an LDGR needs to be spilled. 237; We shouldn't have any integer stack stores or floating-point loads. 238define void @f12() { 239; CHECK-LABEL: f12: 240; CHECK: %loop 241; CHECK-NOT: std {{.*}}(%r15) 242; CHECK: %exit 243; CHECK: foo@PLT 244; CHECK-NOT: lg {{.*}}(%r15) 245; CHECK: foo@PLT 246; CHECK: br %r14 247entry: 248 br label %loop 249 250loop: 251 %int0 = phi i64 [ 0, %entry ], [ %add0, %loop ] 252 %int1 = phi i64 [ 0, %entry ], [ %add1, %loop ] 253 %int2 = phi i64 [ 0, %entry ], [ %add2, %loop ] 254 %int3 = phi i64 [ 0, %entry ], [ %add3, %loop ] 255 %int4 = phi i64 [ 0, %entry ], [ %add4, %loop ] 256 %int5 = phi i64 [ 0, %entry ], [ %add5, %loop ] 257 %int6 = phi i64 [ 0, %entry ], [ %add6, %loop ] 258 %int7 = phi i64 [ 0, %entry ], [ %add7, %loop ] 259 %int8 = phi i64 [ 0, %entry ], [ %add8, %loop ] 260 %int9 = phi i64 [ 0, %entry ], [ %add9, %loop ] 261 262 %bias = call i64 @foo() 263 %add0 = add i64 %int0, %bias 264 %add1 = add i64 %int1, %bias 265 %add2 = add i64 %int2, %bias 266 %add3 = add i64 %int3, %bias 267 %add4 = add i64 %int4, %bias 268 %add5 = add i64 %int5, %bias 269 %add6 = add i64 %int6, %bias 270 %add7 = add i64 %int7, %bias 271 %add8 = add i64 %int8, %bias 272 %add9 = add i64 %int9, %bias 273 %cont = icmp ne i64 %bias, 1 274 br i1 %cont, label %loop, label %exit 275 276exit: 277 %unused1 = call i64 @foo() 278 %factor = load volatile double , double *@dptr 279 280 %conv0 = bitcast i64 %add0 to double 281 %mul0 = fmul double %conv0, %factor 282 store volatile double %mul0, double *@dptr 283 %conv1 = bitcast i64 %add1 to double 284 %mul1 = fmul double %conv1, %factor 285 store volatile double %mul1, double *@dptr 286 %conv2 = bitcast i64 %add2 to double 287 %mul2 = fmul double %conv2, %factor 288 store volatile double %mul2, double *@dptr 289 %conv3 = bitcast i64 %add3 to double 290 %mul3 = fmul double %conv3, %factor 291 store volatile double %mul3, double *@dptr 292 %conv4 = bitcast i64 %add4 to double 293 %mul4 = fmul double %conv4, %factor 294 store volatile double %mul4, double *@dptr 295 %conv5 = bitcast i64 %add5 to double 296 %mul5 = fmul double %conv5, %factor 297 store volatile double %mul5, double *@dptr 298 %conv6 = bitcast i64 %add6 to double 299 %mul6 = fmul double %conv6, %factor 300 store volatile double %mul6, double *@dptr 301 %conv7 = bitcast i64 %add7 to double 302 %mul7 = fmul double %conv7, %factor 303 store volatile double %mul7, double *@dptr 304 %conv8 = bitcast i64 %add8 to double 305 %mul8 = fmul double %conv8, %factor 306 store volatile double %mul8, double *@dptr 307 %conv9 = bitcast i64 %add9 to double 308 %mul9 = fmul double %conv9, %factor 309 store volatile double %mul9, double *@dptr 310 311 %unused2 = call i64 @foo() 312 313 ret void 314} 315 316; ...likewise LGDR, with the requirements the other way around. 317define void @f13() { 318; CHECK-LABEL: f13: 319; CHECK: %loop 320; CHECK-NOT: stg {{.*}}(%r15) 321; CHECK: %exit 322; CHECK: foo@PLT 323; CHECK-NOT: ld {{.*}}(%r15) 324; CHECK: foo@PLT 325; CHECK: br %r14 326entry: 327 br label %loop 328 329loop: 330 %double0 = phi double [ 1.0, %entry ], [ %mul0, %loop ] 331 %double1 = phi double [ 1.0, %entry ], [ %mul1, %loop ] 332 %double2 = phi double [ 1.0, %entry ], [ %mul2, %loop ] 333 %double3 = phi double [ 1.0, %entry ], [ %mul3, %loop ] 334 %double4 = phi double [ 1.0, %entry ], [ %mul4, %loop ] 335 %double5 = phi double [ 1.0, %entry ], [ %mul5, %loop ] 336 %double6 = phi double [ 1.0, %entry ], [ %mul6, %loop ] 337 %double7 = phi double [ 1.0, %entry ], [ %mul7, %loop ] 338 %double8 = phi double [ 1.0, %entry ], [ %mul8, %loop ] 339 %double9 = phi double [ 1.0, %entry ], [ %mul9, %loop ] 340 341 %factor = call double @bar() 342 %mul0 = fmul double %double0, %factor 343 %mul1 = fmul double %double1, %factor 344 %mul2 = fmul double %double2, %factor 345 %mul3 = fmul double %double3, %factor 346 %mul4 = fmul double %double4, %factor 347 %mul5 = fmul double %double5, %factor 348 %mul6 = fmul double %double6, %factor 349 %mul7 = fmul double %double7, %factor 350 %mul8 = fmul double %double8, %factor 351 %mul9 = fmul double %double9, %factor 352 %cont = fcmp one double %factor, 1.0 353 br i1 %cont, label %loop, label %exit 354 355exit: 356 %unused1 = call i64 @foo() 357 %bias = load volatile i64 , i64 *@iptr 358 359 %conv0 = bitcast double %mul0 to i64 360 %add0 = add i64 %conv0, %bias 361 store volatile i64 %add0, i64 *@iptr 362 %conv1 = bitcast double %mul1 to i64 363 %add1 = add i64 %conv1, %bias 364 store volatile i64 %add1, i64 *@iptr 365 %conv2 = bitcast double %mul2 to i64 366 %add2 = add i64 %conv2, %bias 367 store volatile i64 %add2, i64 *@iptr 368 %conv3 = bitcast double %mul3 to i64 369 %add3 = add i64 %conv3, %bias 370 store volatile i64 %add3, i64 *@iptr 371 %conv4 = bitcast double %mul4 to i64 372 %add4 = add i64 %conv4, %bias 373 store volatile i64 %add4, i64 *@iptr 374 %conv5 = bitcast double %mul5 to i64 375 %add5 = add i64 %conv5, %bias 376 store volatile i64 %add5, i64 *@iptr 377 %conv6 = bitcast double %mul6 to i64 378 %add6 = add i64 %conv6, %bias 379 store volatile i64 %add6, i64 *@iptr 380 %conv7 = bitcast double %mul7 to i64 381 %add7 = add i64 %conv7, %bias 382 store volatile i64 %add7, i64 *@iptr 383 %conv8 = bitcast double %mul8 to i64 384 %add8 = add i64 %conv8, %bias 385 store volatile i64 %add8, i64 *@iptr 386 %conv9 = bitcast double %mul9 to i64 387 %add9 = add i64 %conv9, %bias 388 store volatile i64 %add9, i64 *@iptr 389 390 %unused2 = call i64 @foo() 391 392 ret void 393} 394