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llvm-6502/test/CodeGen/CellSPU/or_ops.ll
Scott Michel 9de5d0dd42 More CellSPU refinement and progress: 
- Cleaned up custom load/store logic, common code is now shared [see note
  below], cleaned up address modes

- More test cases: various intrinsics, structure element access (load/store
  test), updated target data strings, indirect function calls.

Note: This patch contains a refactoring of the LoadSDNode and StoreSDNode
structures: they now share a common base class, LSBaseSDNode, that
provides an interface to their common functionality. There is some hackery
to access the proper operand depending on the derived class; otherwise,
to do a proper job would require finding and rearranging the SDOperands
sent to StoreSDNode's constructor. The current refactor errs on the
side of being conservatively and backwardly compatible while providing
functionality that reduces redundant code for targets where loads and
stores are custom-lowered.


git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@45851 91177308-0d34-0410-b5e6-96231b3b80d8
2008-01-11 02:53:15 +00:00

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; RUN: llvm-as -o - %s | llc -march=cellspu > %t1.s
; RUN: grep and %t1.s | count 2
; RUN: grep orc %t1.s | count 85
; RUN: grep ori %t1.s | count 30
; RUN: grep orhi %t1.s | count 30
; RUN: grep orbi %t1.s | count 15
target datalayout = "E-p:32:32:128-f64:64:128-f32:32:128-i64:32:128-i32:32:128-i16:16:128-i8:8:128-i1:8:128-a0:0:128-v128:128:128-s0:128:128"
target triple = "spu"
; OR instruction generation:
define <4 x i32> @or_v4i32_1(<4 x i32> %arg1, <4 x i32> %arg2) {
%A = or <4 x i32> %arg1, %arg2
ret <4 x i32> %A
}
define <4 x i32> @or_v4i32_2(<4 x i32> %arg1, <4 x i32> %arg2) {
%A = or <4 x i32> %arg2, %arg1
ret <4 x i32> %A
}
define <8 x i16> @or_v8i16_1(<8 x i16> %arg1, <8 x i16> %arg2) {
%A = or <8 x i16> %arg1, %arg2
ret <8 x i16> %A
}
define <8 x i16> @or_v8i16_2(<8 x i16> %arg1, <8 x i16> %arg2) {
%A = or <8 x i16> %arg2, %arg1
ret <8 x i16> %A
}
define <16 x i8> @or_v16i8_1(<16 x i8> %arg1, <16 x i8> %arg2) {
%A = or <16 x i8> %arg2, %arg1
ret <16 x i8> %A
}
define <16 x i8> @or_v16i8_2(<16 x i8> %arg1, <16 x i8> %arg2) {
%A = or <16 x i8> %arg1, %arg2
ret <16 x i8> %A
}
define i32 @or_i32_1(i32 %arg1, i32 %arg2) {
%A = or i32 %arg2, %arg1
ret i32 %A
}
define i32 @or_i32_2(i32 %arg1, i32 %arg2) {
%A = or i32 %arg1, %arg2
ret i32 %A
}
define i16 @or_i16_1(i16 %arg1, i16 %arg2) {
%A = or i16 %arg2, %arg1
ret i16 %A
}
define i16 @or_i16_2(i16 %arg1, i16 %arg2) {
%A = or i16 %arg1, %arg2
ret i16 %A
}
define i8 @or_i8_1(i8 %arg1, i8 %arg2) {
%A = or i8 %arg2, %arg1
ret i8 %A
}
define i8 @or_i8_2(i8 %arg1, i8 %arg2) {
%A = or i8 %arg1, %arg2
ret i8 %A
}
; ORC instruction generation:
define <4 x i32> @orc_v4i32_1(<4 x i32> %arg1, <4 x i32> %arg2) {
%A = xor <4 x i32> %arg2, < i32 -1, i32 -1, i32 -1, i32 -1 >
%B = or <4 x i32> %arg1, %A
ret <4 x i32> %B
}
define <4 x i32> @orc_v4i32_2(<4 x i32> %arg1, <4 x i32> %arg2) {
%A = xor <4 x i32> %arg1, < i32 -1, i32 -1, i32 -1, i32 -1 >
%B = or <4 x i32> %arg2, %A
ret <4 x i32> %B
}
define <4 x i32> @orc_v4i32_3(<4 x i32> %arg1, <4 x i32> %arg2) {
%A = xor <4 x i32> %arg1, < i32 -1, i32 -1, i32 -1, i32 -1 >
%B = or <4 x i32> %A, %arg2
ret <4 x i32> %B
}
define <8 x i16> @orc_v8i16_1(<8 x i16> %arg1, <8 x i16> %arg2) {
%A = xor <8 x i16> %arg2, < i16 -1, i16 -1, i16 -1, i16 -1,
i16 -1, i16 -1, i16 -1, i16 -1 >
%B = or <8 x i16> %arg1, %A
ret <8 x i16> %B
}
define <8 x i16> @orc_v8i16_2(<8 x i16> %arg1, <8 x i16> %arg2) {
%A = xor <8 x i16> %arg1, < i16 -1, i16 -1, i16 -1, i16 -1,
i16 -1, i16 -1, i16 -1, i16 -1 >
%B = or <8 x i16> %arg2, %A
ret <8 x i16> %B
}
define <16 x i8> @orc_v16i8_1(<16 x i8> %arg1, <16 x i8> %arg2) {
%A = xor <16 x i8> %arg1, < i8 -1, i8 -1, i8 -1, i8 -1, i8 -1, i8 -1,
i8 -1, i8 -1, i8 -1, i8 -1, i8 -1, i8 -1,
i8 -1, i8 -1, i8 -1, i8 -1 >
%B = or <16 x i8> %arg2, %A
ret <16 x i8> %B
}
define <16 x i8> @orc_v16i8_2(<16 x i8> %arg1, <16 x i8> %arg2) {
%A = xor <16 x i8> %arg2, < i8 -1, i8 -1, i8 -1, i8 -1, i8 -1, i8 -1,
i8 -1, i8 -1, i8 -1, i8 -1, i8 -1, i8 -1,
i8 -1, i8 -1, i8 -1, i8 -1 >
%B = or <16 x i8> %arg1, %A
ret <16 x i8> %B
}
define <16 x i8> @orc_v16i8_3(<16 x i8> %arg1, <16 x i8> %arg2) {
%A = xor <16 x i8> %arg2, < i8 -1, i8 -1, i8 -1, i8 -1, i8 -1, i8 -1,
i8 -1, i8 -1, i8 -1, i8 -1, i8 -1, i8 -1,
i8 -1, i8 -1, i8 -1, i8 -1 >
%B = or <16 x i8> %A, %arg1
ret <16 x i8> %B
}
define i32 @orc_i32_1(i32 %arg1, i32 %arg2) {
%A = xor i32 %arg2, -1
%B = or i32 %A, %arg1
ret i32 %B
}
define i32 @orc_i32_2(i32 %arg1, i32 %arg2) {
%A = xor i32 %arg1, -1
%B = or i32 %A, %arg2
ret i32 %B
}
define i32 @orc_i32_3(i32 %arg1, i32 %arg2) {
%A = xor i32 %arg2, -1
%B = or i32 %arg1, %A
ret i32 %B
}
define i16 @orc_i16_1(i16 %arg1, i16 %arg2) {
%A = xor i16 %arg2, -1
%B = or i16 %A, %arg1
ret i16 %B
}
define i16 @orc_i16_2(i16 %arg1, i16 %arg2) {
%A = xor i16 %arg1, -1
%B = or i16 %A, %arg2
ret i16 %B
}
define i16 @orc_i16_3(i16 %arg1, i16 %arg2) {
%A = xor i16 %arg2, -1
%B = or i16 %arg1, %A
ret i16 %B
}
define i8 @orc_i8_1(i8 %arg1, i8 %arg2) {
%A = xor i8 %arg2, -1
%B = or i8 %A, %arg1
ret i8 %B
}
define i8 @orc_i8_2(i8 %arg1, i8 %arg2) {
%A = xor i8 %arg1, -1
%B = or i8 %A, %arg2
ret i8 %B
}
define i8 @orc_i8_3(i8 %arg1, i8 %arg2) {
%A = xor i8 %arg2, -1
%B = or i8 %arg1, %A
ret i8 %B
}
; ORI instruction generation (i32 data type):
define <4 x i32> @ori_v4i32_1(<4 x i32> %in) {
%tmp2 = or <4 x i32> %in, < i32 511, i32 511, i32 511, i32 511 >
ret <4 x i32> %tmp2
}
define <4 x i32> @ori_v4i32_2(<4 x i32> %in) {
%tmp2 = or <4 x i32> %in, < i32 510, i32 510, i32 510, i32 510 >
ret <4 x i32> %tmp2
}
define <4 x i32> @ori_v4i32_3(<4 x i32> %in) {
%tmp2 = or <4 x i32> %in, < i32 -1, i32 -1, i32 -1, i32 -1 >
ret <4 x i32> %tmp2
}
define <4 x i32> @ori_v4i32_4(<4 x i32> %in) {
%tmp2 = or <4 x i32> %in, < i32 -512, i32 -512, i32 -512, i32 -512 >
ret <4 x i32> %tmp2
}
define i32 @ori_u32(i32 zeroext %in) zeroext {
%tmp37 = or i32 %in, 37 ; <i32> [#uses=1]
ret i32 %tmp37
}
define i32 @ori_i32(i32 signext %in) signext {
%tmp38 = or i32 %in, 37 ; <i32> [#uses=1]
ret i32 %tmp38
}
; ORHI instruction generation (i16 data type):
define <8 x i16> @orhi_v8i16_1(<8 x i16> %in) {
%tmp2 = or <8 x i16> %in, < i16 511, i16 511, i16 511, i16 511,
i16 511, i16 511, i16 511, i16 511 >
ret <8 x i16> %tmp2
}
define <8 x i16> @orhi_v8i16_2(<8 x i16> %in) {
%tmp2 = or <8 x i16> %in, < i16 510, i16 510, i16 510, i16 510,
i16 510, i16 510, i16 510, i16 510 >
ret <8 x i16> %tmp2
}
define <8 x i16> @orhi_v8i16_3(<8 x i16> %in) {
%tmp2 = or <8 x i16> %in, < i16 -1, i16 -1, i16 -1, i16 -1, i16 -1,
i16 -1, i16 -1, i16 -1 >
ret <8 x i16> %tmp2
}
define <8 x i16> @orhi_v8i16_4(<8 x i16> %in) {
%tmp2 = or <8 x i16> %in, < i16 -512, i16 -512, i16 -512, i16 -512,
i16 -512, i16 -512, i16 -512, i16 -512 >
ret <8 x i16> %tmp2
}
define i16 @orhi_u16(i16 zeroext %in) zeroext {
%tmp37 = or i16 %in, 37 ; <i16> [#uses=1]
ret i16 %tmp37
}
define i16 @orhi_i16(i16 signext %in) signext {
%tmp38 = or i16 %in, 37 ; <i16> [#uses=1]
ret i16 %tmp38
}
; ORBI instruction generation (i8 data type):
define <16 x i8> @orbi_v16i8(<16 x i8> %in) {
%tmp2 = or <16 x i8> %in, < i8 42, i8 42, i8 42, i8 42, i8 42, i8 42,
i8 42, i8 42, i8 42, i8 42, i8 42, i8 42,
i8 42, i8 42, i8 42, i8 42 >
ret <16 x i8> %tmp2
}
define i8 @orbi_u8(i8 zeroext %in) zeroext {
%tmp37 = or i8 %in, 37 ; <i8> [#uses=1]
ret i8 %tmp37
}
define i8 @orbi_i8(i8 signext %in) signext {
%tmp38 = or i8 %in, 37 ; <i8> [#uses=1]
ret i8 %tmp38
}
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