;test all the shifted and signextending adds and subs with and without consts
;
-; RUN: llvm-as < %s | llc -march=alpha -o %t.s -f &&
-; RUN: grep ' addl' %t.s | wc -l | grep 2 &&
-; RUN: grep ' addq' %t.s | wc -l | grep 2 &&
-; RUN: grep ' subl' %t.s | wc -l | grep 2 &&
-; RUN: grep ' subq' %t.s | wc -l | grep 1 &&
+; RUN: llvm-as < %s | llc -march=alpha -o %t.s -f
+; RUN: grep { addl} %t.s | count 2
+; RUN: grep { addq} %t.s | count 2
+; RUN: grep { subl} %t.s | count 2
+; RUN: grep { subq} %t.s | count 1
;
-; RUN: grep 'lda $0,-100($16)' %t.s | wc -l | grep 1 &&
-; RUN: grep 's4addl' %t.s | wc -l | grep 2 &&
-; RUN: grep 's8addl' %t.s | wc -l | grep 2 &&
-; RUN: grep 's4addq' %t.s | wc -l | grep 2 &&
-; RUN: grep 's8addq' %t.s | wc -l | grep 2 &&
+; RUN: grep {lda \$0,-100(\$16)} %t.s | count 1
+; RUN: grep {s4addl} %t.s | count 2
+; RUN: grep {s8addl} %t.s | count 2
+; RUN: grep {s4addq} %t.s | count 2
+; RUN: grep {s8addq} %t.s | count 2
;
-; RUN: grep 's4subl' %t.s | wc -l | grep 2 &&
-; RUN: grep 's8subl' %t.s | wc -l | grep 2 &&
-; RUN: grep 's4subq' %t.s | wc -l | grep 2 &&
-; RUN: grep 's8subq' %t.s | wc -l | grep 2
+; RUN: grep {s4subl} %t.s | count 2
+; RUN: grep {s8subl} %t.s | count 2
+; RUN: grep {s4subq} %t.s | count 2
+; RUN: grep {s8subq} %t.s | count 2
-define i32 @al(i32 sext %x.s, i32 sext %y.s) sext {
+define i32 @al(i32 signext %x.s, i32 signext %y.s) signext {
entry:
%tmp.3.s = add i32 %y.s, %x.s ; <i32> [#uses=1]
ret i32 %tmp.3.s
}
-define i32 @ali(i32 sext %x.s) sext {
+define i32 @ali(i32 signext %x.s) signext {
entry:
%tmp.3.s = add i32 100, %x.s ; <i32> [#uses=1]
ret i32 %tmp.3.s
}
-define i64 @aq(i64 sext %x.s, i64 sext %y.s) sext {
+define i64 @aq(i64 signext %x.s, i64 signext %y.s) signext {
entry:
%tmp.3.s = add i64 %y.s, %x.s ; <i64> [#uses=1]
ret i64 %tmp.3.s
ret i64 %tmp.3.s
}
-define i32 @sl(i32 sext %x.s, i32 sext %y.s) sext {
+define i32 @sl(i32 signext %x.s, i32 signext %y.s) signext {
entry:
%tmp.3.s = sub i32 %y.s, %x.s ; <i32> [#uses=1]
ret i32 %tmp.3.s
}
-define i32 @sli(i32 sext %x.s) sext {
+define i32 @sli(i32 signext %x.s) signext {
entry:
%tmp.3.s = sub i32 %x.s, 100 ; <i32> [#uses=1]
ret i32 %tmp.3.s
ret i64 %tmp.3.s
}
-define i32 @a4l(i32 sext %x.s, i32 sext %y.s) sext {
+define i32 @a4l(i32 signext %x.s, i32 signext %y.s) signext {
entry:
%tmp.1.s = shl i32 %y.s, 2 ; <i32> [#uses=1]
%tmp.3.s = add i32 %tmp.1.s, %x.s ; <i32> [#uses=1]
ret i32 %tmp.3.s
}
-define i32 @a8l(i32 sext %x.s, i32 sext %y.s) sext {
+define i32 @a8l(i32 signext %x.s, i32 signext %y.s) signext {
entry:
%tmp.1.s = shl i32 %y.s, 3 ; <i32> [#uses=1]
%tmp.3.s = add i32 %tmp.1.s, %x.s ; <i32> [#uses=1]
ret i64 %tmp.3.s
}
-define i32 @a4li(i32 sext %y.s) sext {
+define i32 @a4li(i32 signext %y.s) signext {
entry:
%tmp.1.s = shl i32 %y.s, 2 ; <i32> [#uses=1]
%tmp.3.s = add i32 100, %tmp.1.s ; <i32> [#uses=1]
ret i32 %tmp.3.s
}
-define i32 @a8li(i32 sext %y.s) sext {
+define i32 @a8li(i32 signext %y.s) signext {
entry:
%tmp.1.s = shl i32 %y.s, 3 ; <i32> [#uses=1]
%tmp.3.s = add i32 100, %tmp.1.s ; <i32> [#uses=1]
ret i64 %tmp.3.s
}
-define i32 @s4l(i32 sext %x.s, i32 sext %y.s) sext {
+define i32 @s4l(i32 signext %x.s, i32 signext %y.s) signext {
entry:
%tmp.1.s = shl i32 %y.s, 2 ; <i32> [#uses=1]
%tmp.3.s = sub i32 %tmp.1.s, %x.s ; <i32> [#uses=1]
ret i32 %tmp.3.s
}
-define i32 @s8l(i32 sext %x.s, i32 sext %y.s) sext {
+define i32 @s8l(i32 signext %x.s, i32 signext %y.s) signext {
entry:
%tmp.1.s = shl i32 %y.s, 3 ; <i32> [#uses=1]
%tmp.3.s = sub i32 %tmp.1.s, %x.s ; <i32> [#uses=1]
ret i64 %tmp.3.s
}
-define i32 @s4li(i32 sext %y.s) sext {
+define i32 @s4li(i32 signext %y.s) signext {
entry:
%tmp.1.s = shl i32 %y.s, 2 ; <i32> [#uses=1]
%tmp.3.s = sub i32 %tmp.1.s, 100 ; <i32> [#uses=1]
ret i32 %tmp.3.s
}
-define i32 @s8li(i32 sext %y.s) sext {
+define i32 @s8li(i32 signext %y.s) signext {
entry:
%tmp.1.s = shl i32 %y.s, 3 ; <i32> [#uses=1]
%tmp.3.s = sub i32 %tmp.1.s, 100 ; <i32> [#uses=1]