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mirror of https://github.com/RPCS3/llvm-mirror.git synced 2024-11-22 18:54:02 +01:00
llvm-mirror/test/Assembler/flags.ll
David Blaikie 3ea2df7c7b [opaque pointer type] Add textual IR support for explicit type parameter to gep operator
Similar to gep (r230786) and load (r230794) changes.

Similar migration script can be used to update test cases, which
successfully migrated all of LLVM and Polly, but about 4 test cases
needed manually changes in Clang.

(this script will read the contents of stdin and massage it into stdout
- wrap it in the 'apply.sh' script shown in previous commits + xargs to
apply it over a large set of test cases)

import fileinput
import sys
import re

rep = re.compile(r"(getelementptr(?:\s+inbounds)?\s*\()((<\d*\s+x\s+)?([^@]*?)(|\s*addrspace\(\d+\))\s*\*(?(3)>)\s*)(?=$|%|@|null|undef|blockaddress|getelementptr|addrspacecast|bitcast|inttoptr|zeroinitializer|<|\[\[[a-zA-Z]|\{\{)", re.MULTILINE | re.DOTALL)

def conv(match):
  line = match.group(1)
  line += match.group(4)
  line += ", "
  line += match.group(2)
  return line

line = sys.stdin.read()
off = 0
for match in re.finditer(rep, line):
  sys.stdout.write(line[off:match.start()])
  sys.stdout.write(conv(match))
  off = match.end()
sys.stdout.write(line[off:])

llvm-svn: 232184
2015-03-13 18:20:45 +00:00

278 lines
6.8 KiB
LLVM

; RUN: llvm-as < %s | llvm-dis | FileCheck %s
; RUN: verify-uselistorder %s
@addr = external global i64
define i64 @add_unsigned(i64 %x, i64 %y) {
; CHECK: %z = add nuw i64 %x, %y
%z = add nuw i64 %x, %y
ret i64 %z
}
define i64 @sub_unsigned(i64 %x, i64 %y) {
; CHECK: %z = sub nuw i64 %x, %y
%z = sub nuw i64 %x, %y
ret i64 %z
}
define i64 @mul_unsigned(i64 %x, i64 %y) {
; CHECK: %z = mul nuw i64 %x, %y
%z = mul nuw i64 %x, %y
ret i64 %z
}
define i64 @add_signed(i64 %x, i64 %y) {
; CHECK: %z = add nsw i64 %x, %y
%z = add nsw i64 %x, %y
ret i64 %z
}
define i64 @sub_signed(i64 %x, i64 %y) {
; CHECK: %z = sub nsw i64 %x, %y
%z = sub nsw i64 %x, %y
ret i64 %z
}
define i64 @mul_signed(i64 %x, i64 %y) {
; CHECK: %z = mul nsw i64 %x, %y
%z = mul nsw i64 %x, %y
ret i64 %z
}
define i64 @add_plain(i64 %x, i64 %y) {
; CHECK: %z = add i64 %x, %y
%z = add i64 %x, %y
ret i64 %z
}
define i64 @sub_plain(i64 %x, i64 %y) {
; CHECK: %z = sub i64 %x, %y
%z = sub i64 %x, %y
ret i64 %z
}
define i64 @mul_plain(i64 %x, i64 %y) {
; CHECK: %z = mul i64 %x, %y
%z = mul i64 %x, %y
ret i64 %z
}
define i64 @add_both(i64 %x, i64 %y) {
; CHECK: %z = add nuw nsw i64 %x, %y
%z = add nuw nsw i64 %x, %y
ret i64 %z
}
define i64 @sub_both(i64 %x, i64 %y) {
; CHECK: %z = sub nuw nsw i64 %x, %y
%z = sub nuw nsw i64 %x, %y
ret i64 %z
}
define i64 @mul_both(i64 %x, i64 %y) {
; CHECK: %z = mul nuw nsw i64 %x, %y
%z = mul nuw nsw i64 %x, %y
ret i64 %z
}
define i64 @add_both_reversed(i64 %x, i64 %y) {
; CHECK: %z = add nuw nsw i64 %x, %y
%z = add nsw nuw i64 %x, %y
ret i64 %z
}
define i64 @sub_both_reversed(i64 %x, i64 %y) {
; CHECK: %z = sub nuw nsw i64 %x, %y
%z = sub nsw nuw i64 %x, %y
ret i64 %z
}
define i64 @mul_both_reversed(i64 %x, i64 %y) {
; CHECK: %z = mul nuw nsw i64 %x, %y
%z = mul nsw nuw i64 %x, %y
ret i64 %z
}
define i64 @shl_both(i64 %x, i64 %y) {
; CHECK: %z = shl nuw nsw i64 %x, %y
%z = shl nuw nsw i64 %x, %y
ret i64 %z
}
define i64 @sdiv_exact(i64 %x, i64 %y) {
; CHECK: %z = sdiv exact i64 %x, %y
%z = sdiv exact i64 %x, %y
ret i64 %z
}
define i64 @sdiv_plain(i64 %x, i64 %y) {
; CHECK: %z = sdiv i64 %x, %y
%z = sdiv i64 %x, %y
ret i64 %z
}
define i64 @udiv_exact(i64 %x, i64 %y) {
; CHECK: %z = udiv exact i64 %x, %y
%z = udiv exact i64 %x, %y
ret i64 %z
}
define i64 @udiv_plain(i64 %x, i64 %y) {
; CHECK: %z = udiv i64 %x, %y
%z = udiv i64 %x, %y
ret i64 %z
}
define i64 @ashr_plain(i64 %x, i64 %y) {
; CHECK: %z = ashr i64 %x, %y
%z = ashr i64 %x, %y
ret i64 %z
}
define i64 @ashr_exact(i64 %x, i64 %y) {
; CHECK: %z = ashr exact i64 %x, %y
%z = ashr exact i64 %x, %y
ret i64 %z
}
define i64 @lshr_plain(i64 %x, i64 %y) {
; CHECK: %z = lshr i64 %x, %y
%z = lshr i64 %x, %y
ret i64 %z
}
define i64 @lshr_exact(i64 %x, i64 %y) {
; CHECK: %z = lshr exact i64 %x, %y
%z = lshr exact i64 %x, %y
ret i64 %z
}
define i64* @gep_nw(i64* %p, i64 %x) {
; CHECK: %z = getelementptr inbounds i64, i64* %p, i64 %x
%z = getelementptr inbounds i64, i64* %p, i64 %x
ret i64* %z
}
define i64* @gep_plain(i64* %p, i64 %x) {
; CHECK: %z = getelementptr i64, i64* %p, i64 %x
%z = getelementptr i64, i64* %p, i64 %x
ret i64* %z
}
define i64 @add_both_ce() {
; CHECK: ret i64 add nuw nsw (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 add nsw nuw (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64 @sub_both_ce() {
; CHECK: ret i64 sub nuw nsw (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 sub nsw nuw (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64 @mul_both_ce() {
; CHECK: ret i64 mul nuw nsw (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 mul nuw nsw (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64 @sdiv_exact_ce() {
; CHECK: ret i64 sdiv exact (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 sdiv exact (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64 @udiv_exact_ce() {
; CHECK: ret i64 udiv exact (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 udiv exact (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64 @ashr_exact_ce() {
; CHECK: ret i64 ashr exact (i64 ptrtoint (i64* @addr to i64), i64 9)
ret i64 ashr exact (i64 ptrtoint (i64* @addr to i64), i64 9)
}
define i64 @lshr_exact_ce() {
; CHECK: ret i64 lshr exact (i64 ptrtoint (i64* @addr to i64), i64 9)
ret i64 lshr exact (i64 ptrtoint (i64* @addr to i64), i64 9)
}
define i64* @gep_nw_ce() {
; CHECK: ret i64* getelementptr inbounds (i64, i64* @addr, i64 171)
ret i64* getelementptr inbounds (i64, i64* @addr, i64 171)
}
define i64 @add_plain_ce() {
; CHECK: ret i64 add (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 add (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64 @sub_plain_ce() {
; CHECK: ret i64 sub (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 sub (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64 @mul_plain_ce() {
; CHECK: ret i64 mul (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 mul (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64 @sdiv_plain_ce() {
; CHECK: ret i64 sdiv (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 sdiv (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64* @gep_plain_ce() {
; CHECK: ret i64* getelementptr (i64, i64* @addr, i64 171)
ret i64* getelementptr (i64, i64* @addr, i64 171)
}
define i64 @add_both_reversed_ce() {
; CHECK: ret i64 add nuw nsw (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 add nsw nuw (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64 @sub_both_reversed_ce() {
; CHECK: ret i64 sub nuw nsw (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 sub nsw nuw (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64 @mul_both_reversed_ce() {
; CHECK: ret i64 mul nuw nsw (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 mul nsw nuw (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64 @add_signed_ce() {
; CHECK: ret i64 add nsw (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 add nsw (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64 @sub_signed_ce() {
; CHECK: ret i64 sub nsw (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 sub nsw (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64 @mul_signed_ce() {
; CHECK: ret i64 mul nsw (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 mul nsw (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64 @shl_signed_ce() {
; CHECK: ret i64 shl nsw (i64 ptrtoint (i64* @addr to i64), i64 17)
ret i64 shl nsw (i64 ptrtoint (i64* @addr to i64), i64 17)
}
define i64 @add_unsigned_ce() {
; CHECK: ret i64 add nuw (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 add nuw (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64 @sub_unsigned_ce() {
; CHECK: ret i64 sub nuw (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 sub nuw (i64 ptrtoint (i64* @addr to i64), i64 91)
}
define i64 @mul_unsigned_ce() {
; CHECK: ret i64 mul nuw (i64 ptrtoint (i64* @addr to i64), i64 91)
ret i64 mul nuw (i64 ptrtoint (i64* @addr to i64), i64 91)
}