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llvm-mirror/test/Regression/CodeGen/Generic/print-arith-int.ll

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%a_str = internal constant [8 x sbyte] c"a = %d\0A\00"
%b_str = internal constant [8 x sbyte] c"b = %d\0A\00"
;; binary ops: arith
%add_str = internal constant [12 x sbyte] c"a + b = %d\0A\00"
%sub_str = internal constant [12 x sbyte] c"a - b = %d\0A\00"
%mul_str = internal constant [12 x sbyte] c"a * b = %d\0A\00"
%div_str = internal constant [12 x sbyte] c"b / a = %d\0A\00"
%rem_str = internal constant [13 x sbyte] c"b \% a = %d\0A\00"
;; binary ops: setcc
%lt_str = internal constant [12 x sbyte] c"a < b = %d\0A\00"
%le_str = internal constant [13 x sbyte] c"a <= b = %d\0A\00"
%gt_str = internal constant [12 x sbyte] c"a > b = %d\0A\00"
%ge_str = internal constant [13 x sbyte] c"a >= b = %d\0A\00"
%eq_str = internal constant [13 x sbyte] c"a == b = %d\0A\00"
%ne_str = internal constant [13 x sbyte] c"a != b = %d\0A\00"
;; logical
%and_str = internal constant [12 x sbyte] c"a & b = %d\0A\00"
%or_str = internal constant [12 x sbyte] c"a | b = %d\0A\00"
%xor_str = internal constant [12 x sbyte] c"a ^ b = %d\0A\00"
%shl_str = internal constant [13 x sbyte] c"b << a = %d\0A\00"
%shr_str = internal constant [13 x sbyte] c"b >> a = %d\0A\00"
declare int %printf(sbyte*, ...)
%A = global int 2
%B = global int 5
int %main() {
;; main vars
%a = load int* %A
%b = load int* %B
%a_s = getelementptr [8 x sbyte]* %a_str, long 0, long 0
%b_s = getelementptr [8 x sbyte]* %b_str, long 0, long 0
call int (sbyte*, ...)* %printf(sbyte* %a_s, int %a)
call int (sbyte*, ...)* %printf(sbyte* %b_s, int %b)
;; arithmetic
%add_r = add int %a, %b
%sub_r = sub int %a, %b
%mul_r = mul int %a, %b
%div_r = div int %b, %a
%rem_r = rem int %b, %a
%add_s = getelementptr [12 x sbyte]* %add_str, long 0, long 0
%sub_s = getelementptr [12 x sbyte]* %sub_str, long 0, long 0
%mul_s = getelementptr [12 x sbyte]* %mul_str, long 0, long 0
%div_s = getelementptr [12 x sbyte]* %div_str, long 0, long 0
%rem_s = getelementptr [13 x sbyte]* %rem_str, long 0, long 0
call int (sbyte*, ...)* %printf(sbyte* %add_s, int %add_r)
call int (sbyte*, ...)* %printf(sbyte* %sub_s, int %sub_r)
call int (sbyte*, ...)* %printf(sbyte* %mul_s, int %mul_r)
call int (sbyte*, ...)* %printf(sbyte* %div_s, int %div_r)
call int (sbyte*, ...)* %printf(sbyte* %rem_s, int %rem_r)
;; setcc
%lt_r = setlt int %a, %b
%le_r = setle int %a, %b
%gt_r = setgt int %a, %b
%ge_r = setge int %a, %b
%eq_r = seteq int %a, %b
%ne_r = setne int %a, %b
%lt_s = getelementptr [12 x sbyte]* %lt_str, long 0, long 0
%le_s = getelementptr [13 x sbyte]* %le_str, long 0, long 0
%gt_s = getelementptr [12 x sbyte]* %gt_str, long 0, long 0
%ge_s = getelementptr [13 x sbyte]* %ge_str, long 0, long 0
%eq_s = getelementptr [13 x sbyte]* %eq_str, long 0, long 0
%ne_s = getelementptr [13 x sbyte]* %ne_str, long 0, long 0
call int (sbyte*, ...)* %printf(sbyte* %lt_s, bool %lt_r)
call int (sbyte*, ...)* %printf(sbyte* %le_s, bool %le_r)
call int (sbyte*, ...)* %printf(sbyte* %gt_s, bool %gt_r)
call int (sbyte*, ...)* %printf(sbyte* %ge_s, bool %ge_r)
call int (sbyte*, ...)* %printf(sbyte* %eq_s, bool %eq_r)
call int (sbyte*, ...)* %printf(sbyte* %ne_s, bool %ne_r)
;; logical
%and_r = and int %a, %b
%or_r = or int %a, %b
%xor_r = xor int %a, %b
%u = cast int %a to ubyte
%shl_r = shl int %b, ubyte %u
%shr_r = shr int %b, ubyte %u
%and_s = getelementptr [12 x sbyte]* %and_str, long 0, long 0
%or_s = getelementptr [12 x sbyte]* %or_str, long 0, long 0
%xor_s = getelementptr [12 x sbyte]* %xor_str, long 0, long 0
%shl_s = getelementptr [13 x sbyte]* %shl_str, long 0, long 0
%shr_s = getelementptr [13 x sbyte]* %shr_str, long 0, long 0
call int (sbyte*, ...)* %printf(sbyte* %and_s, int %and_r)
call int (sbyte*, ...)* %printf(sbyte* %or_s, int %or_r)
call int (sbyte*, ...)* %printf(sbyte* %xor_s, int %xor_r)
call int (sbyte*, ...)* %printf(sbyte* %shl_s, int %shl_r)
call int (sbyte*, ...)* %printf(sbyte* %shr_s, int %shr_r)
ret int 0
}