; Test high-word operations, using "h" constraints to force a high ; register and "r" constraints to force a low register. ; ; RUN: llc < %s -verify-machineinstrs -mtriple=s390x-linux-gnu -mcpu=z196 \ ; RUN: -no-integrated-as | FileCheck %s ; Test loads and stores involving mixtures of high and low registers. define void @f1(i32 *%ptr1, i32 *%ptr2) { ; CHECK-LABEL: f1: ; CHECK-DAG: lfh [[REG1:%r[0-5]]], 0(%r2) ; CHECK-DAG: l [[REG2:%r[0-5]]], 0(%r3) ; CHECK-DAG: lfh [[REG3:%r[0-5]]], 4096(%r2) ; CHECK-DAG: ly [[REG4:%r[0-5]]], 524284(%r3) ; CHECK: blah [[REG1]], [[REG2]], [[REG3]], [[REG4]] ; CHECK-DAG: stfh [[REG1]], 0(%r2) ; CHECK-DAG: st [[REG2]], 0(%r3) ; CHECK-DAG: stfh [[REG3]], 4096(%r2) ; CHECK-DAG: sty [[REG4]], 524284(%r3) ; CHECK: br %r14 %ptr3 = getelementptr i32, i32 *%ptr1, i64 1024 %ptr4 = getelementptr i32, i32 *%ptr2, i64 131071 %old1 = load i32, i32 *%ptr1 %old2 = load i32, i32 *%ptr2 %old3 = load i32, i32 *%ptr3 %old4 = load i32, i32 *%ptr4 %res = call { i32, i32, i32, i32 } asm "blah $0, $1, $2, $3", "=h,=r,=h,=r,0,1,2,3"(i32 %old1, i32 %old2, i32 %old3, i32 %old4) %new1 = extractvalue { i32, i32, i32, i32 } %res, 0 %new2 = extractvalue { i32, i32, i32, i32 } %res, 1 %new3 = extractvalue { i32, i32, i32, i32 } %res, 2 %new4 = extractvalue { i32, i32, i32, i32 } %res, 3 store i32 %new1, i32 *%ptr1 store i32 %new2, i32 *%ptr2 store i32 %new3, i32 *%ptr3 store i32 %new4, i32 *%ptr4 ret void } ; Test moves involving mixtures of high and low registers. define i32 @f2(i32 %old) { ; CHECK-LABEL: f2: ; CHECK-DAG: risbhg [[REG1:%r[0-5]]], %r2, 0, 159, 32 ; CHECK-DAG: lr %r3, %r2 ; CHECK: stepa [[REG1]], %r2, %r3 ; CHECK: risbhg {{%r[0-5]}}, [[REG1]], 0, 159, 0 ; CHECK: stepb [[REG2:%r[0-5]]] ; CHECK: risblg %r2, [[REG2]], 0, 159, 32 ; CHECK: br %r14 %tmp = call i32 asm "stepa $1, $2, $3", "=h,0,{r2},{r3}"(i32 %old, i32 %old, i32 %old) %new = call i32 asm "stepb $1, $2", "=&h,0,h"(i32 %tmp, i32 %tmp) ret i32 %new } ; Test sign-extending 8-bit loads into mixtures of high and low registers. define void @f3(i8 *%ptr1, i8 *%ptr2) { ; CHECK-LABEL: f3: ; CHECK-DAG: lbh [[REG1:%r[0-5]]], 0(%r2) ; CHECK-DAG: lb [[REG2:%r[0-5]]], 0(%r3) ; CHECK-DAG: lbh [[REG3:%r[0-5]]], 4096(%r2) ; CHECK-DAG: lb [[REG4:%r[0-5]]], 524287(%r3) ; CHECK: blah [[REG1]], [[REG2]] ; CHECK: br %r14 %ptr3 = getelementptr i8, i8 *%ptr1, i64 4096 %ptr4 = getelementptr i8, i8 *%ptr2, i64 524287 %val1 = load i8, i8 *%ptr1 %val2 = load i8, i8 *%ptr2 %val3 = load i8, i8 *%ptr3 %val4 = load i8, i8 *%ptr4 %ext1 = sext i8 %val1 to i32 %ext2 = sext i8 %val2 to i32 %ext3 = sext i8 %val3 to i32 %ext4 = sext i8 %val4 to i32 call void asm sideeffect "blah $0, $1, $2, $3", "h,r,h,r"(i32 %ext1, i32 %ext2, i32 %ext3, i32 %ext4) ret void } ; Test sign-extending 16-bit loads into mixtures of high and low registers. define void @f4(i16 *%ptr1, i16 *%ptr2) { ; CHECK-LABEL: f4: ; CHECK-DAG: lhh [[REG1:%r[0-5]]], 0(%r2) ; CHECK-DAG: lh [[REG2:%r[0-5]]], 0(%r3) ; CHECK-DAG: lhh [[REG3:%r[0-5]]], 4096(%r2) ; CHECK-DAG: lhy [[REG4:%r[0-5]]], 524286(%r3) ; CHECK: blah [[REG1]], [[REG2]] ; CHECK: br %r14 %ptr3 = getelementptr i16, i16 *%ptr1, i64 2048 %ptr4 = getelementptr i16, i16 *%ptr2, i64 262143 %val1 = load i16, i16 *%ptr1 %val2 = load i16, i16 *%ptr2 %val3 = load i16, i16 *%ptr3 %val4 = load i16, i16 *%ptr4 %ext1 = sext i16 %val1 to i32 %ext2 = sext i16 %val2 to i32 %ext3 = sext i16 %val3 to i32 %ext4 = sext i16 %val4 to i32 call void asm sideeffect "blah $0, $1, $2, $3", "h,r,h,r"(i32 %ext1, i32 %ext2, i32 %ext3, i32 %ext4) ret void } ; Test zero-extending 8-bit loads into mixtures of high and low registers. define void @f5(i8 *%ptr1, i8 *%ptr2) { ; CHECK-LABEL: f5: ; CHECK-DAG: llch [[REG1:%r[0-5]]], 0(%r2) ; CHECK-DAG: llc [[REG2:%r[0-5]]], 0(%r3) ; CHECK-DAG: llch [[REG3:%r[0-5]]], 4096(%r2) ; CHECK-DAG: llc [[REG4:%r[0-5]]], 524287(%r3) ; CHECK: blah [[REG1]], [[REG2]] ; CHECK: br %r14 %ptr3 = getelementptr i8, i8 *%ptr1, i64 4096 %ptr4 = getelementptr i8, i8 *%ptr2, i64 524287 %val1 = load i8, i8 *%ptr1 %val2 = load i8, i8 *%ptr2 %val3 = load i8, i8 *%ptr3 %val4 = load i8, i8 *%ptr4 %ext1 = zext i8 %val1 to i32 %ext2 = zext i8 %val2 to i32 %ext3 = zext i8 %val3 to i32 %ext4 = zext i8 %val4 to i32 call void asm sideeffect "blah $0, $1, $2, $3", "h,r,h,r"(i32 %ext1, i32 %ext2, i32 %ext3, i32 %ext4) ret void } ; Test zero-extending 16-bit loads into mixtures of high and low registers. define void @f6(i16 *%ptr1, i16 *%ptr2) { ; CHECK-LABEL: f6: ; CHECK-DAG: llhh [[REG1:%r[0-5]]], 0(%r2) ; CHECK-DAG: llh [[REG2:%r[0-5]]], 0(%r3) ; CHECK-DAG: llhh [[REG3:%r[0-5]]], 4096(%r2) ; CHECK-DAG: llh [[REG4:%r[0-5]]], 524286(%r3) ; CHECK: blah [[REG1]], [[REG2]] ; CHECK: br %r14 %ptr3 = getelementptr i16, i16 *%ptr1, i64 2048 %ptr4 = getelementptr i16, i16 *%ptr2, i64 262143 %val1 = load i16, i16 *%ptr1 %val2 = load i16, i16 *%ptr2 %val3 = load i16, i16 *%ptr3 %val4 = load i16, i16 *%ptr4 %ext1 = zext i16 %val1 to i32 %ext2 = zext i16 %val2 to i32 %ext3 = zext i16 %val3 to i32 %ext4 = zext i16 %val4 to i32 call void asm sideeffect "blah $0, $1, $2, $3", "h,r,h,r"(i32 %ext1, i32 %ext2, i32 %ext3, i32 %ext4) ret void } ; Test truncating stores of high and low registers into 8-bit memory. define void @f7(i8 *%ptr1, i8 *%ptr2) { ; CHECK-LABEL: f7: ; CHECK: blah [[REG1:%r[0-5]]], [[REG2:%r[0-5]]] ; CHECK-DAG: stch [[REG1]], 0(%r2) ; CHECK-DAG: stc [[REG2]], 0(%r3) ; CHECK-DAG: stch [[REG1]], 4096(%r2) ; CHECK-DAG: stcy [[REG2]], 524287(%r3) ; CHECK: br %r14 %res = call { i32, i32 } asm "blah $0, $1", "=h,=r"() %res1 = extractvalue { i32, i32 } %res, 0 %res2 = extractvalue { i32, i32 } %res, 1 %trunc1 = trunc i32 %res1 to i8 %trunc2 = trunc i32 %res2 to i8 %ptr3 = getelementptr i8, i8 *%ptr1, i64 4096 %ptr4 = getelementptr i8, i8 *%ptr2, i64 524287 store i8 %trunc1, i8 *%ptr1 store i8 %trunc2, i8 *%ptr2 store i8 %trunc1, i8 *%ptr3 store i8 %trunc2, i8 *%ptr4 ret void } ; Test truncating stores of high and low registers into 16-bit memory. define void @f8(i16 *%ptr1, i16 *%ptr2) { ; CHECK-LABEL: f8: ; CHECK: blah [[REG1:%r[0-5]]], [[REG2:%r[0-5]]] ; CHECK-DAG: sthh [[REG1]], 0(%r2) ; CHECK-DAG: sth [[REG2]], 0(%r3) ; CHECK-DAG: sthh [[REG1]], 4096(%r2) ; CHECK-DAG: sthy [[REG2]], 524286(%r3) ; CHECK: br %r14 %res = call { i32, i32 } asm "blah $0, $1", "=h,=r"() %res1 = extractvalue { i32, i32 } %res, 0 %res2 = extractvalue { i32, i32 } %res, 1 %trunc1 = trunc i32 %res1 to i16 %trunc2 = trunc i32 %res2 to i16 %ptr3 = getelementptr i16, i16 *%ptr1, i64 2048 %ptr4 = getelementptr i16, i16 *%ptr2, i64 262143 store i16 %trunc1, i16 *%ptr1 store i16 %trunc2, i16 *%ptr2 store i16 %trunc1, i16 *%ptr3 store i16 %trunc2, i16 *%ptr4 ret void } ; Test zero extensions from 8 bits between mixtures of high and low registers. define i32 @f9(i8 %val1, i8 %val2) { ; CHECK-LABEL: f9: ; CHECK-DAG: risbhg [[REG1:%r[0-5]]], %r2, 24, 159, 32 ; CHECK-DAG: llcr [[REG2:%r[0-5]]], %r3 ; CHECK: stepa [[REG1]], [[REG2]] ; CHECK: risbhg [[REG3:%r[0-5]]], [[REG1]], 24, 159, 0 ; CHECK: stepb [[REG3]] ; CHECK: risblg %r2, [[REG3]], 24, 159, 32 ; CHECK: br %r14 %ext1 = zext i8 %val1 to i32 %ext2 = zext i8 %val2 to i32 %val3 = call i8 asm sideeffect "stepa $0, $1", "=h,0,r"(i32 %ext1, i32 %ext2) %ext3 = zext i8 %val3 to i32 %val4 = call i8 asm sideeffect "stepb $0", "=h,0"(i32 %ext3) %ext4 = zext i8 %val4 to i32 ret i32 %ext4 } ; Test zero extensions from 16 bits between mixtures of high and low registers. define i32 @f10(i16 %val1, i16 %val2) { ; CHECK-LABEL: f10: ; CHECK-DAG: risbhg [[REG1:%r[0-5]]], %r2, 16, 159, 32 ; CHECK-DAG: llhr [[REG2:%r[0-5]]], %r3 ; CHECK: stepa [[REG1]], [[REG2]] ; CHECK: risbhg [[REG3:%r[0-5]]], [[REG1]], 16, 159, 0 ; CHECK: stepb [[REG3]] ; CHECK: risblg %r2, [[REG3]], 16, 159, 32 ; CHECK: br %r14 %ext1 = zext i16 %val1 to i32 %ext2 = zext i16 %val2 to i32 %val3 = call i16 asm sideeffect "stepa $0, $1", "=h,0,r"(i32 %ext1, i32 %ext2) %ext3 = zext i16 %val3 to i32 %val4 = call i16 asm sideeffect "stepb $0", "=h,0"(i32 %ext3) %ext4 = zext i16 %val4 to i32 ret i32 %ext4 } ; Test loads of 16-bit constants into mixtures of high and low registers. define void @f11() { ; CHECK-LABEL: f11: ; CHECK-DAG: iihf [[REG1:%r[0-5]]], 4294934529 ; CHECK-DAG: lhi [[REG2:%r[0-5]]], -32768 ; CHECK-DAG: llihl [[REG3:%r[0-5]]], 32766 ; CHECK-DAG: lhi [[REG4:%r[0-5]]], 32767 ; CHECK: blah [[REG1]], [[REG2]], [[REG3]], [[REG4]] ; CHECK: br %r14 call void asm sideeffect "blah $0, $1, $2, $3", "h,r,h,r"(i32 -32767, i32 -32768, i32 32766, i32 32767) ret void } ; Test loads of unsigned constants into mixtures of high and low registers. ; For stepc, we expect the h and r operands to be paired by the register ; allocator. It doesn't really matter which comes first: LLILL/IIHF would ; be just as good. define void @f12() { ; CHECK-LABEL: f12: ; CHECK-DAG: llihl [[REG1:%r[0-5]]], 32768 ; CHECK-DAG: llihl [[REG2:%r[0-5]]], 65535 ; CHECK-DAG: llihh [[REG3:%r[0-5]]], 1 ; CHECK-DAG: llihh [[REG4:%r[0-5]]], 65535 ; CHECK: stepa [[REG1]], [[REG2]], [[REG3]], [[REG4]] ; CHECK-DAG: llill [[REG1:%r[0-5]]], 32769 ; CHECK-DAG: llill [[REG2:%r[0-5]]], 65534 ; CHECK-DAG: llilh [[REG3:%r[0-5]]], 2 ; CHECK-DAG: llilh [[REG4:%r[0-5]]], 65534 ; CHECK: stepb [[REG1]], [[REG2]], [[REG3]], [[REG4]] ; CHECK-DAG: llihl [[REG1:%r[0-5]]], 32770 ; CHECK-DAG: iilf [[REG1]], 65533 ; CHECK-DAG: llihh [[REG2:%r[0-5]]], 4 ; CHECK-DAG: iilf [[REG2]], 524288 ; CHECK: stepc [[REG1]], [[REG1]], [[REG2]], [[REG2]] ; CHECK-DAG: iihf [[REG1:%r[0-5]]], 3294967296 ; CHECK-DAG: iilf [[REG2:%r[0-5]]], 4294567296 ; CHECK-DAG: iihf [[REG3:%r[0-5]]], 1000000000 ; CHECK-DAG: iilf [[REG4:%r[0-5]]], 400000 ; CHECK: stepd [[REG1]], [[REG2]], [[REG3]], [[REG4]] ; CHECK: br %r14 call void asm sideeffect "stepa $0, $1, $2, $3", "h,h,h,h"(i32 32768, i32 65535, i32 65536, i32 -65536) call void asm sideeffect "stepb $0, $1, $2, $3", "r,r,r,r"(i32 32769, i32 65534, i32 131072, i32 -131072) call void asm sideeffect "stepc $0, $1, $2, $3", "h,r,h,r"(i32 32770, i32 65533, i32 262144, i32 524288) call void asm sideeffect "stepd $0, $1, $2, $3", "h,r,h,r"(i32 -1000000000, i32 -400000, i32 1000000000, i32 400000) ret void } ; Test selects involving high registers. ; Note that we prefer to use a LOCR and move the result to a high register. define void @f13(i32 %x, i32 %y) { ; CHECK-LABEL: f13: ; CHECK-DAG: chi %r2, 0 ; CHECK-DAG: iilf [[REG1:%r[0-5]]], 2102030405 ; CHECK-DAG: lhi [[REG2:%r[0-5]]], 0 ; CHECK: locre [[REG1]], [[REG2]] ; CHECK: risbhg [[REG:%r[0-5]]], [[REG1]], 0, 159, 32 ; CHECK: blah [[REG]] ; CHECK: br %r14 %cmp = icmp eq i32 %x, 0 %val = select i1 %cmp, i32 0, i32 2102030405 call void asm sideeffect "blah $0", "h"(i32 %val) ret void } ; Test selects involving low registers. define void @f14(i32 %x, i32 %y) { ; CHECK-LABEL: f14: ; CHECK-DAG: chi %r2, 0 ; CHECK-DAG: iilf [[REG:%r[0-5]]], 2102030405 ; CHECK-DAG: lhi [[REG1:%r[0-5]]], 0 ; CHECK: locre [[REG]], [[REG1]] ; CHECK: blah [[REG]] ; CHECK: br %r14 %cmp = icmp eq i32 %x, 0 %val = select i1 %cmp, i32 0, i32 2102030405 call void asm sideeffect "blah $0", "r"(i32 %val) ret void } ; Test immediate insertion involving high registers. define void @f15() { ; CHECK-LABEL: f15: ; CHECK: stepa [[REG:%r[0-5]]] ; CHECK: iihh [[REG]], 4660 ; CHECK: stepb [[REG]] ; CHECK: iihl [[REG]], 34661 ; CHECK: stepc [[REG]] ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=h"() %and1 = and i32 %res1, 65535 %or1 = or i32 %and1, 305397760 %res2 = call i32 asm "stepb $0, $1", "=h,h"(i32 %or1) %and2 = and i32 %res2, -65536 %or2 = or i32 %and2, 34661 call void asm sideeffect "stepc $0", "h"(i32 %or2) ret void } ; Test immediate insertion involving low registers. define void @f16() { ; CHECK-LABEL: f16: ; CHECK: stepa [[REG:%r[0-5]]] ; CHECK: iilh [[REG]], 4660 ; CHECK: stepb [[REG]] ; CHECK: iill [[REG]], 34661 ; CHECK: stepc [[REG]] ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=r"() %and1 = and i32 %res1, 65535 %or1 = or i32 %and1, 305397760 %res2 = call i32 asm "stepb $0, $1", "=r,r"(i32 %or1) %and2 = and i32 %res2, -65536 %or2 = or i32 %and2, 34661 call void asm sideeffect "stepc $0", "r"(i32 %or2) ret void } ; Test immediate OR involving high registers. define void @f17() { ; CHECK-LABEL: f17: ; CHECK: stepa [[REG:%r[0-5]]] ; CHECK: oihh [[REG]], 4660 ; CHECK: stepb [[REG]] ; CHECK: oihl [[REG]], 34661 ; CHECK: stepc [[REG]] ; CHECK: oihf [[REG]], 12345678 ; CHECK: stepd [[REG]] ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=h"() %or1 = or i32 %res1, 305397760 %res2 = call i32 asm "stepb $0, $1", "=h,h"(i32 %or1) %or2 = or i32 %res2, 34661 %res3 = call i32 asm "stepc $0, $1", "=h,h"(i32 %or2) %or3 = or i32 %res3, 12345678 call void asm sideeffect "stepd $0", "h"(i32 %or3) ret void } ; Test immediate OR involving low registers. define void @f18() { ; CHECK-LABEL: f18: ; CHECK: stepa [[REG:%r[0-5]]] ; CHECK: oilh [[REG]], 4660 ; CHECK: stepb [[REG]] ; CHECK: oill [[REG]], 34661 ; CHECK: stepc [[REG]] ; CHECK: oilf [[REG]], 12345678 ; CHECK: stepd [[REG]] ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=r"() %or1 = or i32 %res1, 305397760 %res2 = call i32 asm "stepb $0, $1", "=r,r"(i32 %or1) %or2 = or i32 %res2, 34661 %res3 = call i32 asm "stepc $0, $1", "=r,r"(i32 %or2) %or3 = or i32 %res3, 12345678 call void asm sideeffect "stepd $0", "r"(i32 %or3) ret void } ; Test immediate XOR involving high registers. define void @f19() { ; CHECK-LABEL: f19: ; CHECK: stepa [[REG:%r[0-5]]] ; CHECK: xihf [[REG]], 305397760 ; CHECK: stepb [[REG]] ; CHECK: xihf [[REG]], 34661 ; CHECK: stepc [[REG]] ; CHECK: xihf [[REG]], 12345678 ; CHECK: stepd [[REG]] ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=h"() %xor1 = xor i32 %res1, 305397760 %res2 = call i32 asm "stepb $0, $1", "=h,h"(i32 %xor1) %xor2 = xor i32 %res2, 34661 %res3 = call i32 asm "stepc $0, $1", "=h,h"(i32 %xor2) %xor3 = xor i32 %res3, 12345678 call void asm sideeffect "stepd $0", "h"(i32 %xor3) ret void } ; Test immediate XOR involving low registers. define void @f20() { ; CHECK-LABEL: f20: ; CHECK: stepa [[REG:%r[0-5]]] ; CHECK: xilf [[REG]], 305397760 ; CHECK: stepb [[REG]] ; CHECK: xilf [[REG]], 34661 ; CHECK: stepc [[REG]] ; CHECK: xilf [[REG]], 12345678 ; CHECK: stepd [[REG]] ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=r"() %xor1 = xor i32 %res1, 305397760 %res2 = call i32 asm "stepb $0, $1", "=r,r"(i32 %xor1) %xor2 = xor i32 %res2, 34661 %res3 = call i32 asm "stepc $0, $1", "=r,r"(i32 %xor2) %xor3 = xor i32 %res3, 12345678 call void asm sideeffect "stepd $0", "r"(i32 %xor3) ret void } ; Test two-operand immediate AND involving high registers. define void @f21() { ; CHECK-LABEL: f21: ; CHECK: stepa [[REG:%r[0-5]]] ; CHECK: nihh [[REG]], 4096 ; CHECK: stepb [[REG]] ; CHECK: nihl [[REG]], 57536 ; CHECK: stepc [[REG]] ; CHECK: nihf [[REG]], 12345678 ; CHECK: stepd [[REG]] ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=h"() %and1 = and i32 %res1, 268500991 %res2 = call i32 asm "stepb $0, $1", "=h,h"(i32 %and1) %and2 = and i32 %res2, -8000 %res3 = call i32 asm "stepc $0, $1", "=h,h"(i32 %and2) %and3 = and i32 %res3, 12345678 call void asm sideeffect "stepd $0", "h"(i32 %and3) ret void } ; Test two-operand immediate AND involving low registers. define void @f22() { ; CHECK-LABEL: f22: ; CHECK: stepa [[REG:%r[0-5]]] ; CHECK: nilh [[REG]], 4096 ; CHECK: stepb [[REG]] ; CHECK: nill [[REG]], 57536 ; CHECK: stepc [[REG]] ; CHECK: nilf [[REG]], 12345678 ; CHECK: stepd [[REG]] ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=r"() %and1 = and i32 %res1, 268500991 %res2 = call i32 asm "stepb $0, $1", "=r,r"(i32 %and1) %and2 = and i32 %res2, -8000 %res3 = call i32 asm "stepc $0, $1", "=r,r"(i32 %and2) %and3 = and i32 %res3, 12345678 call void asm sideeffect "stepd $0", "r"(i32 %and3) ret void } ; Test three-operand immediate AND involving mixtures of low and high registers. define i32 @f23(i32 %old) { ; CHECK-LABEL: f23: ; CHECK-DAG: risblg [[REG1:%r[0-5]]], %r2, 28, 158, 0 ; CHECK-DAG: risbhg [[REG2:%r[0-5]]], %r2, 24, 158, 32 ; CHECK: stepa %r2, [[REG1]], [[REG2]] ; CHECK-DAG: risbhg [[REG3:%r[0-5]]], [[REG2]], 25, 159, 0 ; CHECK-DAG: risblg %r2, [[REG2]], 24, 152, 32 ; CHECK: stepb [[REG2]], [[REG3]], %r2 ; CHECK: br %r14 %and1 = and i32 %old, 14 %and2 = and i32 %old, 254 %res1 = call i32 asm "stepa $1, $2, $3", "=h,r,r,0"(i32 %old, i32 %and1, i32 %and2) %and3 = and i32 %res1, 127 %and4 = and i32 %res1, 128 %res2 = call i32 asm "stepb $1, $2, $3", "=r,h,h,0"(i32 %res1, i32 %and3, i32 %and4) ret i32 %res2 } ; Test RISB[LH]G insertions involving mixtures of high and low registers. define i32 @f24(i32 %old) { ; CHECK-LABEL: f24: ; CHECK-DAG: risblg [[REG1:%r[0-5]]], %r2, 28, 158, 1 ; CHECK-DAG: risbhg [[REG2:%r[0-5]]], %r2, 24, 158, 29 ; CHECK: stepa %r2, [[REG1]], [[REG2]] ; CHECK-DAG: risbhg [[REG3:%r[0-5]]], [[REG2]], 25, 159, 62 ; CHECK-DAG: risblg %r2, [[REG2]], 24, 152, 37 ; CHECK: stepb [[REG2]], [[REG3]], %r2 ; CHECK: br %r14 %shift1 = shl i32 %old, 1 %and1 = and i32 %shift1, 14 %shift2 = lshr i32 %old, 3 %and2 = and i32 %shift2, 254 %res1 = call i32 asm "stepa $1, $2, $3", "=h,r,r,0"(i32 %old, i32 %and1, i32 %and2) %shift3 = lshr i32 %res1, 2 %and3 = and i32 %shift3, 127 %shift4 = shl i32 %res1, 5 %and4 = and i32 %shift4, 128 %res2 = call i32 asm "stepb $1, $2, $3", "=r,h,h,0"(i32 %res1, i32 %and3, i32 %and4) ret i32 %res2 } ; Test TMxx involving mixtures of high and low registers. define i32 @f25(i32 %old) { ; CHECK-LABEL: f25: ; CHECK-DAG: tmll %r2, 1 ; CHECK-DAG: tmlh %r2, 1 ; CHECK: stepa [[REG1:%r[0-5]]], ; CHECK-DAG: tmhl [[REG1]], 1 ; CHECK-DAG: tmhh [[REG1]], 1 ; CHECK: stepb %r2, ; CHECK: br %r14 %and1 = and i32 %old, 1 %and2 = and i32 %old, 65536 %cmp1 = icmp eq i32 %and1, 0 %cmp2 = icmp eq i32 %and2, 0 %sel1 = select i1 %cmp1, i32 100, i32 200 %sel2 = select i1 %cmp2, i32 100, i32 200 %res1 = call i32 asm "stepa $0, $1, $2", "=h,r,r"(i32 %sel1, i32 %sel2) %and3 = and i32 %res1, 1 %and4 = and i32 %res1, 65536 %cmp3 = icmp eq i32 %and3, 0 %cmp4 = icmp eq i32 %and4, 0 %sel3 = select i1 %cmp3, i32 100, i32 200 %sel4 = select i1 %cmp4, i32 100, i32 200 %res2 = call i32 asm "stepb $0, $1, $2", "=r,h,h"(i32 %sel3, i32 %sel4) ret i32 %res2 } ; Test two-operand halfword immediate addition involving high registers. define void @f26() { ; CHECK-LABEL: f26: ; CHECK: stepa [[REG:%r[0-5]]] ; CHECK: aih [[REG]], -32768 ; CHECK: stepb [[REG]] ; CHECK: aih [[REG]], 1 ; CHECK: stepc [[REG]] ; CHECK: aih [[REG]], 32767 ; CHECK: stepd [[REG]] ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=h"() %add1 = add i32 %res1, -32768 %res2 = call i32 asm "stepb $0, $1", "=h,h"(i32 %add1) %add2 = add i32 %res2, 1 %res3 = call i32 asm "stepc $0, $1", "=h,h"(i32 %add2) %add3 = add i32 %res3, 32767 call void asm sideeffect "stepd $0", "h"(i32 %add3) ret void } ; Test two-operand halfword immediate addition involving low registers. define void @f27() { ; CHECK-LABEL: f27: ; CHECK: stepa [[REG:%r[0-5]]] ; CHECK: ahi [[REG]], -32768 ; CHECK: stepb [[REG]] ; CHECK: ahi [[REG]], 1 ; CHECK: stepc [[REG]] ; CHECK: ahi [[REG]], 32767 ; CHECK: stepd [[REG]] ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=r"() %add1 = add i32 %res1, -32768 %res2 = call i32 asm "stepb $0, $1", "=r,r"(i32 %add1) %add2 = add i32 %res2, 1 %res3 = call i32 asm "stepc $0, $1", "=r,r"(i32 %add2) %add3 = add i32 %res3, 32767 call void asm sideeffect "stepd $0", "r"(i32 %add3) ret void } ; Test three-operand halfword immediate addition involving mixtures of low ; and high registers. RISBHG/AIH would be OK too, instead of AHIK/RISBHG. define i32 @f28(i32 %old) { ; CHECK-LABEL: f28: ; CHECK: ahik [[REG1:%r[0-5]]], %r2, 14 ; CHECK: stepa %r2, [[REG1]] ; CHECK: ahik [[TMP:%r[0-5]]], [[REG1]], 254 ; CHECK: risbhg [[REG2:%r[0-5]]], [[TMP]], 0, 159, 32 ; CHECK: stepb [[REG1]], [[REG2]] ; CHECK: risbhg [[REG3:%r[0-5]]], [[REG2]], 0, 159, 0 ; CHECK: aih [[REG3]], 127 ; CHECK: stepc [[REG2]], [[REG3]] ; CHECK: risblg %r2, [[REG3]], 0, 159, 32 ; CHECK: ahi %r2, 128 ; CHECK: stepd [[REG3]], %r2 ; CHECK: br %r14 %add1 = add i32 %old, 14 %res1 = call i32 asm "stepa $1, $2", "=r,r,0"(i32 %old, i32 %add1) %add2 = add i32 %res1, 254 %res2 = call i32 asm "stepb $1, $2", "=h,r,0"(i32 %res1, i32 %add2) %add3 = add i32 %res2, 127 %res3 = call i32 asm "stepc $1, $2", "=h,h,0"(i32 %res2, i32 %add3) %add4 = add i32 %res3, 128 %res4 = call i32 asm "stepd $1, $2", "=r,h,0"(i32 %res3, i32 %add4) ret i32 %res4 } ; Test large immediate addition involving high registers. define void @f29() { ; CHECK-LABEL: f29: ; CHECK: stepa [[REG:%r[0-5]]] ; CHECK: aih [[REG]], -32769 ; CHECK: stepb [[REG]] ; CHECK: aih [[REG]], 32768 ; CHECK: stepc [[REG]] ; CHECK: aih [[REG]], 1000000000 ; CHECK: stepd [[REG]] ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=h"() %add1 = add i32 %res1, -32769 %res2 = call i32 asm "stepb $0, $1", "=h,h"(i32 %add1) %add2 = add i32 %res2, 32768 %res3 = call i32 asm "stepc $0, $1", "=h,h"(i32 %add2) %add3 = add i32 %res3, 1000000000 call void asm sideeffect "stepd $0", "h"(i32 %add3) ret void } ; Test large immediate addition involving low registers. define void @f30() { ; CHECK-LABEL: f30: ; CHECK: stepa [[REG:%r[0-5]]] ; CHECK: afi [[REG]], -32769 ; CHECK: stepb [[REG]] ; CHECK: afi [[REG]], 32768 ; CHECK: stepc [[REG]] ; CHECK: afi [[REG]], 1000000000 ; CHECK: stepd [[REG]] ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=r"() %add1 = add i32 %res1, -32769 %res2 = call i32 asm "stepb $0, $1", "=r,r"(i32 %add1) %add2 = add i32 %res2, 32768 %res3 = call i32 asm "stepc $0, $1", "=r,r"(i32 %add2) %add3 = add i32 %res3, 1000000000 call void asm sideeffect "stepd $0", "r"(i32 %add3) ret void } ; Test large immediate comparison involving high registers. define i32 @f31() { ; CHECK-LABEL: f31: ; CHECK: stepa [[REG1:%r[0-5]]] ; CHECK: cih [[REG1]], 1000000000 ; CHECK: stepb [[REG2:%r[0-5]]] ; CHECK: clih [[REG2]], 1000000000 ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=h"() %cmp1 = icmp sle i32 %res1, 1000000000 %sel1 = select i1 %cmp1, i32 0, i32 1 %res2 = call i32 asm "stepb $0, $1", "=h,r"(i32 %sel1) %cmp2 = icmp ule i32 %res2, 1000000000 %sel2 = select i1 %cmp2, i32 0, i32 1 ret i32 %sel2 } ; Test large immediate comparison involving low registers. define i32 @f32() { ; CHECK-LABEL: f32: ; CHECK: stepa [[REG1:%r[0-5]]] ; CHECK: cfi [[REG1]], 1000000000 ; CHECK: stepb [[REG2:%r[0-5]]] ; CHECK: clfi [[REG2]], 1000000000 ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=r"() %cmp1 = icmp sle i32 %res1, 1000000000 %sel1 = select i1 %cmp1, i32 0, i32 1 %res2 = call i32 asm "stepb $0, $1", "=r,r"(i32 %sel1) %cmp2 = icmp ule i32 %res2, 1000000000 %sel2 = select i1 %cmp2, i32 0, i32 1 ret i32 %sel2 } ; Test memory comparison involving high registers. define void @f33(i32 *%ptr1, i32 *%ptr2) { ; CHECK-LABEL: f33: ; CHECK: stepa [[REG1:%r[0-5]]] ; CHECK: chf [[REG1]], 0(%r2) ; CHECK: stepb [[REG2:%r[0-5]]] ; CHECK: clhf [[REG2]], 0(%r3) ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=h"() %load1 = load i32, i32 *%ptr1 %cmp1 = icmp sle i32 %res1, %load1 %sel1 = select i1 %cmp1, i32 0, i32 1 %res2 = call i32 asm "stepb $0, $1", "=h,r"(i32 %sel1) %load2 = load i32, i32 *%ptr2 %cmp2 = icmp ule i32 %res2, %load2 %sel2 = select i1 %cmp2, i32 0, i32 1 store i32 %sel2, i32 *%ptr1 ret void } ; Test memory comparison involving low registers. define void @f34(i32 *%ptr1, i32 *%ptr2) { ; CHECK-LABEL: f34: ; CHECK: stepa [[REG1:%r[0-5]]] ; CHECK: c [[REG1]], 0(%r2) ; CHECK: stepb [[REG2:%r[0-5]]] ; CHECK: cl [[REG2]], 0(%r3) ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=r"() %load1 = load i32, i32 *%ptr1 %cmp1 = icmp sle i32 %res1, %load1 %sel1 = select i1 %cmp1, i32 0, i32 1 %res2 = call i32 asm "stepb $0, $1", "=r,r"(i32 %sel1) %load2 = load i32, i32 *%ptr2 %cmp2 = icmp ule i32 %res2, %load2 %sel2 = select i1 %cmp2, i32 0, i32 1 store i32 %sel2, i32 *%ptr1 ret void } ; Test immediate addition with overflow involving high registers. define void @f35() { ; CHECK-LABEL: f35: ; CHECK: stepa [[REG:%r[0-5]]] ; CHECK: aih [[REG]], -32768 ; CHECK: ipm [[REGCC:%r[0-5]]] ; CHECK: afi [[REGCC]], 1342177280 ; CHECK: srl [[REGCC]], 31 ; CHECK: stepb [[REG]], [[REGCC]] ; CHECK: aih [[REG]], 1 ; CHECK: ipm [[REGCC:%r[0-5]]] ; CHECK: afi [[REGCC]], 1342177280 ; CHECK: srl [[REGCC]], 31 ; CHECK: stepc [[REG]], [[REGCC]] ; CHECK: aih [[REG]], 32767 ; CHECK: ipm [[REGCC:%r[0-5]]] ; CHECK: afi [[REGCC]], 1342177280 ; CHECK: srl [[REGCC]], 31 ; CHECK: stepd [[REG]], [[REGCC]] ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=h"() %t1 = call {i32, i1} @llvm.sadd.with.overflow.i32(i32 %res1, i32 -32768) %val1 = extractvalue {i32, i1} %t1, 0 %obit1 = extractvalue {i32, i1} %t1, 1 %res2 = call i32 asm "stepb $0, $2", "=h,h,d"(i32 %val1, i1 %obit1) %t2 = call {i32, i1} @llvm.sadd.with.overflow.i32(i32 %res2, i32 1) %val2 = extractvalue {i32, i1} %t2, 0 %obit2 = extractvalue {i32, i1} %t2, 1 %res3 = call i32 asm "stepc $0, $2", "=h,h,d"(i32 %val2, i1 %obit2) %t3 = call {i32, i1} @llvm.sadd.with.overflow.i32(i32 %res3, i32 32767) %val3 = extractvalue {i32, i1} %t3, 0 %obit3 = extractvalue {i32, i1} %t3, 1 call void asm sideeffect "stepd $0, $1", "h,d"(i32 %val3, i1 %obit3) ret void } ; Test large immediate addition with overflow involving high registers. define void @f36() { ; CHECK-LABEL: f36: ; CHECK: stepa [[REG:%r[0-5]]] ; CHECK: aih [[REG]], -2147483648 ; CHECK: ipm [[REGCC:%r[0-5]]] ; CHECK: afi [[REGCC]], 1342177280 ; CHECK: srl [[REGCC]], 31 ; CHECK: stepb [[REG]], [[REGCC]] ; CHECK: aih [[REG]], 1 ; CHECK: ipm [[REGCC:%r[0-5]]] ; CHECK: afi [[REGCC]], 1342177280 ; CHECK: srl [[REGCC]], 31 ; CHECK: stepc [[REG]], [[REGCC]] ; CHECK: aih [[REG]], 2147483647 ; CHECK: ipm [[REGCC:%r[0-5]]] ; CHECK: afi [[REGCC]], 1342177280 ; CHECK: srl [[REGCC]], 31 ; CHECK: stepd [[REG]], [[REGCC]] ; CHECK: br %r14 %res1 = call i32 asm "stepa $0", "=h"() %t1 = call {i32, i1} @llvm.sadd.with.overflow.i32(i32 %res1, i32 -2147483648) %val1 = extractvalue {i32, i1} %t1, 0 %obit1 = extractvalue {i32, i1} %t1, 1 %res2 = call i32 asm "stepb $0, $2", "=h,h,d"(i32 %val1, i1 %obit1) %t2 = call {i32, i1} @llvm.sadd.with.overflow.i32(i32 %res2, i32 1) %val2 = extractvalue {i32, i1} %t2, 0 %obit2 = extractvalue {i32, i1} %t2, 1 %res3 = call i32 asm "stepc $0, $2", "=h,h,d"(i32 %val2, i1 %obit2) %t3 = call {i32, i1} @llvm.sadd.with.overflow.i32(i32 %res3, i32 2147483647) %val3 = extractvalue {i32, i1} %t3, 0 %obit3 = extractvalue {i32, i1} %t3, 1 call void asm sideeffect "stepd $0, $1", "h,d"(i32 %val3, i1 %obit3) ret void } declare {i32, i1} @llvm.sadd.with.overflow.i32(i32, i32) nounwind readnone