; Test insertions of memory into the low byte of an i64. ; ; RUN: llc < %s -mtriple=s390x-linux-gnu | FileCheck %s ; Check a plain insertion with (or (and ... -0xff) (zext (load ....))). ; The whole sequence can be performed by IC. define i64 @f1(i64 %orig, i8 *%ptr) { ; CHECK-LABEL: f1: ; CHECK-NOT: ni ; CHECK: ic %r2, 0(%r3) ; CHECK: br %r14 %val = load i8, i8 *%ptr %ptr2 = zext i8 %val to i64 %ptr1 = and i64 %orig, -256 %or = or i64 %ptr1, %ptr2 ret i64 %or } ; Like f1, but with the operands reversed. define i64 @f2(i64 %orig, i8 *%ptr) { ; CHECK-LABEL: f2: ; CHECK-NOT: ni ; CHECK: ic %r2, 0(%r3) ; CHECK: br %r14 %val = load i8, i8 *%ptr %ptr2 = zext i8 %val to i64 %ptr1 = and i64 %orig, -256 %or = or i64 %ptr2, %ptr1 ret i64 %or } ; Check a case where more bits than lower 8 are masked out of the ; register value. We can use IC but must keep the original mask. define i64 @f3(i64 %orig, i8 *%ptr) { ; CHECK-LABEL: f3: ; CHECK: nill %r2, 65024 ; CHECK: ic %r2, 0(%r3) ; CHECK: br %r14 %val = load i8, i8 *%ptr %ptr2 = zext i8 %val to i64 %ptr1 = and i64 %orig, -512 %or = or i64 %ptr1, %ptr2 ret i64 %or } ; Like f3, but with the operands reversed. define i64 @f4(i64 %orig, i8 *%ptr) { ; CHECK-LABEL: f4: ; CHECK: nill %r2, 65024 ; CHECK: ic %r2, 0(%r3) ; CHECK: br %r14 %val = load i8, i8 *%ptr %ptr2 = zext i8 %val to i64 %ptr1 = and i64 %orig, -512 %or = or i64 %ptr2, %ptr1 ret i64 %or } ; Check a case where the low 8 bits are cleared by a shift left. define i64 @f5(i64 %orig, i8 *%ptr) { ; CHECK-LABEL: f5: ; CHECK: sllg %r2, %r2, 8 ; CHECK: ic %r2, 0(%r3) ; CHECK: br %r14 %val = load i8, i8 *%ptr %ptr2 = zext i8 %val to i64 %ptr1 = shl i64 %orig, 8 %or = or i64 %ptr1, %ptr2 ret i64 %or } ; Like f5, but with the operands reversed. define i64 @f6(i64 %orig, i8 *%ptr) { ; CHECK-LABEL: f6: ; CHECK: sllg %r2, %r2, 8 ; CHECK: ic %r2, 0(%r3) ; CHECK: br %r14 %val = load i8, i8 *%ptr %ptr2 = zext i8 %val to i64 %ptr1 = shl i64 %orig, 8 %or = or i64 %ptr2, %ptr1 ret i64 %or } ; Check insertions into a constant. define i64 @f7(i64 %orig, i8 *%ptr) { ; CHECK-LABEL: f7: ; CHECK: lghi %r2, 256 ; CHECK: ic %r2, 0(%r3) ; CHECK: br %r14 %val = load i8, i8 *%ptr %ptr2 = zext i8 %val to i64 %or = or i64 %ptr2, 256 ret i64 %or } ; Like f7, but with the operands reversed. define i64 @f8(i64 %orig, i8 *%ptr) { ; CHECK-LABEL: f8: ; CHECK: lghi %r2, 256 ; CHECK: ic %r2, 0(%r3) ; CHECK: br %r14 %val = load i8, i8 *%ptr %ptr2 = zext i8 %val to i64 %or = or i64 256, %ptr2 ret i64 %or } ; Check the high end of the IC range. define i64 @f9(i64 %orig, i8 *%src) { ; CHECK-LABEL: f9: ; CHECK: ic %r2, 4095(%r3) ; CHECK: br %r14 %ptr = getelementptr i8, i8 *%src, i64 4095 %val = load i8, i8 *%ptr %src2 = zext i8 %val to i64 %src1 = and i64 %orig, -256 %or = or i64 %src2, %src1 ret i64 %or } ; Check the next byte up, which should use ICY instead of IC. define i64 @f10(i64 %orig, i8 *%src) { ; CHECK-LABEL: f10: ; CHECK: icy %r2, 4096(%r3) ; CHECK: br %r14 %ptr = getelementptr i8, i8 *%src, i64 4096 %val = load i8, i8 *%ptr %src2 = zext i8 %val to i64 %src1 = and i64 %orig, -256 %or = or i64 %src2, %src1 ret i64 %or } ; Check the high end of the ICY range. define i64 @f11(i64 %orig, i8 *%src) { ; CHECK-LABEL: f11: ; CHECK: icy %r2, 524287(%r3) ; CHECK: br %r14 %ptr = getelementptr i8, i8 *%src, i64 524287 %val = load i8, i8 *%ptr %src2 = zext i8 %val to i64 %src1 = and i64 %orig, -256 %or = or i64 %src2, %src1 ret i64 %or } ; Check the next byte up, which needs separate address logic. ; Other sequences besides this one would be OK. define i64 @f12(i64 %orig, i8 *%src) { ; CHECK-LABEL: f12: ; CHECK: agfi %r3, 524288 ; CHECK: ic %r2, 0(%r3) ; CHECK: br %r14 %ptr = getelementptr i8, i8 *%src, i64 524288 %val = load i8, i8 *%ptr %src2 = zext i8 %val to i64 %src1 = and i64 %orig, -256 %or = or i64 %src2, %src1 ret i64 %or } ; Check the high end of the negative ICY range. define i64 @f13(i64 %orig, i8 *%src) { ; CHECK-LABEL: f13: ; CHECK: icy %r2, -1(%r3) ; CHECK: br %r14 %ptr = getelementptr i8, i8 *%src, i64 -1 %val = load i8, i8 *%ptr %src2 = zext i8 %val to i64 %src1 = and i64 %orig, -256 %or = or i64 %src2, %src1 ret i64 %or } ; Check the low end of the ICY range. define i64 @f14(i64 %orig, i8 *%src) { ; CHECK-LABEL: f14: ; CHECK: icy %r2, -524288(%r3) ; CHECK: br %r14 %ptr = getelementptr i8, i8 *%src, i64 -524288 %val = load i8, i8 *%ptr %src2 = zext i8 %val to i64 %src1 = and i64 %orig, -256 %or = or i64 %src2, %src1 ret i64 %or } ; Check the next byte down, which needs separate address logic. ; Other sequences besides this one would be OK. define i64 @f15(i64 %orig, i8 *%src) { ; CHECK-LABEL: f15: ; CHECK: agfi %r3, -524289 ; CHECK: ic %r2, 0(%r3) ; CHECK: br %r14 %ptr = getelementptr i8, i8 *%src, i64 -524289 %val = load i8, i8 *%ptr %src2 = zext i8 %val to i64 %src1 = and i64 %orig, -256 %or = or i64 %src2, %src1 ret i64 %or } ; Check that IC allows an index. define i64 @f16(i64 %orig, i8 *%src, i64 %index) { ; CHECK-LABEL: f16: ; CHECK: ic %r2, 4095({{%r4,%r3|%r3,%r4}}) ; CHECK: br %r14 %ptr1 = getelementptr i8, i8 *%src, i64 %index %ptr2 = getelementptr i8, i8 *%ptr1, i64 4095 %val = load i8, i8 *%ptr2 %src2 = zext i8 %val to i64 %src1 = and i64 %orig, -256 %or = or i64 %src2, %src1 ret i64 %or } ; Check that ICY allows an index. define i64 @f17(i64 %orig, i8 *%src, i64 %index) { ; CHECK-LABEL: f17: ; CHECK: icy %r2, 4096({{%r4,%r3|%r3,%r4}}) ; CHECK: br %r14 %ptr1 = getelementptr i8, i8 *%src, i64 %index %ptr2 = getelementptr i8, i8 *%ptr1, i64 4096 %val = load i8, i8 *%ptr2 %src2 = zext i8 %val to i64 %src1 = and i64 %orig, -256 %or = or i64 %src2, %src1 ret i64 %or }