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llvm-mirror/test/CodeGen/Generic/select.ll
2007-01-17 07:59:14 +00:00

210 lines
6.1 KiB
LLVM

; RUN: llvm-upgrade %s | llvm-as | llc
%AConst = constant int 123
%Domain = type { sbyte*, int, int*, int, int, int*, %Domain* }
implementation
; Test setting values of different constants in registers.
;
void "testConsts"(int %N, float %X)
begin
; <label>:0
%a = add int %N, 1 ; 1 should be put in immed field
%i = add int %N, 12345678 ; constant has to be loaded
%b = add short 4, 3 ; one of the operands shd be immed
%c = add float %X, 0.0 ; will this be optimzzed?
%d = add float %X, 3.1415 ; constant has to be loaded
%f = add uint 4294967295, 10 ; result shd be 9 (not in immed fld)
%g = add ushort 20, 65535 ; result shd be 19 (65536 in immed fld)
%j = add ushort 65535, 30 ; result shd be 29 (not in immed fld)
%h = add ubyte 40, 255 ; result shd be 39 (255 in immed fld)
%k = add ubyte 255, 50 ; result shd be 49 (not in immed fld)
ret void
end
; A SetCC whose result is used should produce instructions to
; compute the boolean value in a register. One whose result
; is unused will only generate the condition code but not
; the boolean result.
;
void "unusedBool"(int * %x, int * %y)
begin
; <label>:0 ; [#uses=0]
seteq int * %x, %y ; <bool>:0 [#uses=1]
xor bool %0, true ; <bool>:1 [#uses=0]
setne int * %x, %y ; <bool>:2 [#uses=0]
ret void
end
; A constant argument to a Phi produces a Cast instruction in the
; corresponding predecessor basic block. This checks a few things:
; -- phi arguments coming from the bottom of the same basic block
; (they should not be forward substituted in the machine code!)
; -- code generation for casts of various types
; -- use of immediate fields for integral constants of different sizes
; -- branch on a constant condition
;
void "mergeConstants"(int * %x, int * %y)
begin
; <label>:0
br label %Top
Top:
phi int [ 0, %0 ], [ 1, %Top ], [ 524288, %Next ]
phi float [ 0.0, %0 ], [ 1.0, %Top ], [ 2.0, %Next ]
phi double [ 0.5, %0 ], [ 1.5, %Top ], [ 2.5, %Next ]
phi bool [ true, %0 ], [ false,%Top ], [ true, %Next ]
br bool true, label %Top, label %Next
Next:
br label %Top
end
; A constant argument to a cast used only once should be forward substituted
; and loaded where needed, which happens is:
; -- User of cast has no immediate field
; -- User of cast has immediate field but constant is too large to fit
; or constant is not resolved until later (e.g., global address)
; -- User of cast uses it as a call arg. or return value so it is an implicit
; use but has to be loaded into a virtual register so that the reg.
; allocator can allocate the appropriate phys. reg. for it
;
int* "castconst"(float)
begin
; <label>:0
%castbig = cast ulong 99999999 to int
%castsmall = cast ulong 1 to int
%usebig = add int %castbig, %castsmall
%castglob = cast int* %AConst to long*
%dummyl = load long* %castglob
%castnull = cast ulong 0 to int*
ret int* %castnull
end
; Test branch-on-comparison-with-zero, in two ways:
; 1. can be folded
; 2. cannot be folded because result of comparison is used twice
;
void "testbool"(int %A, int %B) {
br label %Top
Top:
%D = add int %A, %B
%E = sub int %D, -4
%C = setle int %E, 0
br bool %C, label %retlbl, label %loop
loop:
%F = add int %A, %B
%G = sub int %D, -4
%D = setle int %G, 0
%E = xor bool %D, true
br bool %E, label %loop, label %Top
retlbl:
ret void
end
;; Test use of a boolean result in cast operations.
;; Requires converting a condition code result into a 0/1 value in a reg.
;;
implementation
int %castbool(int %A, int %B) {
bb0: ; [#uses=0]
%cond213 = setlt int %A, %B ; <bool> [#uses=1]
%cast110 = cast bool %cond213 to ubyte ; <ubyte> [#uses=1]
%cast109 = cast ubyte %cast110 to int ; <int> [#uses=1]
ret int %cast109
}
;; Test use of a boolean result in arithmetic and logical operations.
;; Requires converting a condition code result into a 0/1 value in a reg.
;;
bool %boolexpr(bool %b, int %N) {
%b2 = setge int %N, 0
%b3 = and bool %b, %b2
ret bool %b3
}
; Test branch on floating point comparison
;
void "testfloatbool"(float %x, float %y) ; Def %0, %1 - float
begin
; <label>:0
br label %Top
Top:
%p = add float %x, %y ; Def 2 - float
%z = sub float %x, %y ; Def 3 - float
%b = setle float %p, %z ; Def 0 - bool
%c = xor bool %b, true ; Def 1 - bool
br bool %b, label %Top, label %goon
goon:
ret void
end
; Test cases where an LLVM instruction requires no machine
; instructions (e.g., cast int* to long). But there are 2 cases:
; 1. If the result register has only a single use and the use is in the
; same basic block, the operand will be copy-propagated during
; instruction selection.
; 2. If the result register has multiple uses or is in a different
; basic block, it cannot (or will not) be copy propagated during
; instruction selection. It will generate a
; copy instruction (add-with-0), but this copy should get coalesced
; away by the register allocator.
;
int "checkForward"(int %N, int* %A)
begin
bb2: ;;<label>
%reg114 = shl int %N, ubyte 2 ;;
%cast115 = cast int %reg114 to long ;; reg114 will be propagated
%cast116 = cast int* %A to long ;; %A will be propagated
%reg116 = add long %cast116, %cast115 ;;
%castPtr = cast long %reg116 to int* ;; %A will be propagated
%reg118 = load int* %castPtr ;;
%cast117 = cast int %reg118 to long ;; reg118 will be copied 'cos
%reg159 = add long 1234567, %cast117 ;; cast117 has 2 uses, here
%reg160 = add long 7654321, %cast117 ;; and here.
ret int 0
end
; Test case for unary NOT operation constructed from XOR.
;
void "checkNot"(bool %b, int %i)
begin
%notB = xor bool %b, true
%notI = xor int %i, -1
%F = setge int %notI, 100
%J = add int %i, %i
%andNotB = and bool %F, %notB ;; should get folded with notB
%andNotI = and int %J, %notI ;; should get folded with notI
%notB2 = xor bool true, %b ;; should become XNOR
%notI2 = xor int -1, %i ;; should become XNOR
ret void
end
; Test case for folding getelementptr into a load/store
;
int "checkFoldGEP"(%Domain* %D, long %idx)
begin
%reg841 = getelementptr %Domain* %D, long 0, uint 1
%reg820 = load int* %reg841
ret int %reg820
end