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|
; Test 16-bit atomic XORs.
;
; RUN: llc < %s -mtriple=s390x-linux-gnu | FileCheck %s -check-prefix=CHECK
; RUN: llc < %s -mtriple=s390x-linux-gnu | FileCheck %s -check-prefix=CHECK-SHIFT1
; RUN: llc < %s -mtriple=s390x-linux-gnu | FileCheck %s -check-prefix=CHECK-SHIFT2
; Check XOR of a variable.
; - CHECK is for the main loop.
; - CHECK-SHIFT1 makes sure that the negated shift count used by the second
; RLL is set up correctly. The negation is independent of the NILL and L
; tested in CHECK.
; - CHECK-SHIFT2 makes sure that %b is shifted into the high part of the word
; before being used. This shift is independent of the other loop prologue
; instructions.
define i16 @f1(i16 *%src, i16 %b) {
; CHECK: f1:
; CHECK: sllg [[SHIFT:%r[1-9]+]], %r2, 3
; CHECK: nill %r2, 65532
; CHECK: l [[OLD:%r[0-9]+]], 0(%r2)
; CHECK: [[LABEL:\.[^:]*]]:
; CHECK: rll [[ROT:%r[0-9]+]], [[OLD]], 0([[SHIFT]])
; CHECK: xr [[ROT]], %r3
; CHECK: rll [[NEW:%r[0-9]+]], [[ROT]], 0({{%r[1-9]+}})
; CHECK: cs [[OLD]], [[NEW]], 0(%r2)
; CHECK: j{{g?}}lh [[LABEL]]
; CHECK: rll %r2, [[OLD]], 16([[SHIFT]])
; CHECK: br %r14
;
; CHECK-SHIFT1: f1:
; CHECK-SHIFT1: sllg [[SHIFT:%r[1-9]+]], %r2, 3
; CHECK-SHIFT1: lcr [[NEGSHIFT:%r[1-9]+]], [[SHIFT]]
; CHECK-SHIFT1: rll
; CHECK-SHIFT1: rll {{%r[0-9]+}}, {{%r[0-9]+}}, 0([[NEGSHIFT]])
; CHECK-SHIFT1: rll
; CHECK-SHIFT1: br %r14
;
; CHECK-SHIFT2: f1:
; CHECK-SHIFT2: sll %r3, 16
; CHECK-SHIFT2: rll
; CHECK-SHIFT2: xr {{%r[0-9]+}}, %r3
; CHECK-SHIFT2: rll
; CHECK-SHIFT2: rll
; CHECK-SHIFT2: br %r14
%res = atomicrmw xor i16 *%src, i16 %b seq_cst
ret i16 %res
}
; Check the minimum signed value. We XOR the rotated word with 0x80000000.
define i16 @f2(i16 *%src) {
; CHECK: f2:
; CHECK: sllg [[SHIFT:%r[1-9]+]], %r2, 3
; CHECK: nill %r2, 65532
; CHECK: l [[OLD:%r[0-9]+]], 0(%r2)
; CHECK: [[LABEL:\.[^:]*]]:
; CHECK: rll [[ROT:%r[0-9]+]], [[OLD]], 0([[SHIFT]])
; CHECK: xilf [[ROT]], 2147483648
; CHECK: rll [[NEW:%r[0-9]+]], [[ROT]], 0([[NEGSHIFT:%r[1-9]+]])
; CHECK: cs [[OLD]], [[NEW]], 0(%r2)
; CHECK: j{{g?}}lh [[LABEL]]
; CHECK: rll %r2, [[OLD]], 16([[SHIFT]])
; CHECK: br %r14
;
; CHECK-SHIFT1: f2:
; CHECK-SHIFT1: sllg [[SHIFT:%r[1-9]+]], %r2, 3
; CHECK-SHIFT1: lcr [[NEGSHIFT:%r[1-9]+]], [[SHIFT]]
; CHECK-SHIFT1: rll
; CHECK-SHIFT1: rll {{%r[0-9]+}}, {{%r[0-9]+}}, 0([[NEGSHIFT]])
; CHECK-SHIFT1: rll
; CHECK-SHIFT1: br %r14
;
; CHECK-SHIFT2: f2:
; CHECK-SHIFT2: br %r14
%res = atomicrmw xor i16 *%src, i16 -32768 seq_cst
ret i16 %res
}
; Check XORs of -1. We XOR the rotated word with 0xffff0000.
define i16 @f3(i16 *%src) {
; CHECK: f3:
; CHECK: xilf [[ROT]], 4294901760
; CHECK: br %r14
;
; CHECK-SHIFT1: f3:
; CHECK-SHIFT1: br %r14
; CHECK-SHIFT2: f3:
; CHECK-SHIFT2: br %r14
%res = atomicrmw xor i16 *%src, i16 -1 seq_cst
ret i16 %res
}
; Check XORs of 1. We XOR the rotated word with 0x00010000.
define i16 @f4(i16 *%src) {
; CHECK: f4:
; CHECK: xilf [[ROT]], 65536
; CHECK: br %r14
;
; CHECK-SHIFT1: f4:
; CHECK-SHIFT1: br %r14
; CHECK-SHIFT2: f4:
; CHECK-SHIFT2: br %r14
%res = atomicrmw xor i16 *%src, i16 1 seq_cst
ret i16 %res
}
; Check the maximum signed value. We XOR the rotated word with 0x7fff0000.
define i16 @f5(i16 *%src) {
; CHECK: f5:
; CHECK: xilf [[ROT]], 2147418112
; CHECK: br %r14
;
; CHECK-SHIFT1: f5:
; CHECK-SHIFT1: br %r14
; CHECK-SHIFT2: f5:
; CHECK-SHIFT2: br %r14
%res = atomicrmw xor i16 *%src, i16 32767 seq_cst
ret i16 %res
}
; Check XORs of a large unsigned value. We XOR the rotated word with
; 0xfffd0000.
define i16 @f6(i16 *%src) {
; CHECK: f6:
; CHECK: xilf [[ROT]], 4294770688
; CHECK: br %r14
;
; CHECK-SHIFT1: f6:
; CHECK-SHIFT1: br %r14
; CHECK-SHIFT2: f6:
; CHECK-SHIFT2: br %r14
%res = atomicrmw xor i16 *%src, i16 65533 seq_cst
ret i16 %res
}
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