mirror of
https://github.com/c64scene-ar/llvm-6502.git
synced 2024-12-21 00:32:23 +00:00
9de5d0dd42
- 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
265 lines
7.4 KiB
LLVM
265 lines
7.4 KiB
LLVM
; RUN: llvm-as -o - %s | llc -march=cellspu > %t1.s
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; RUN: grep and %t1.s | count 2
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; RUN: grep orc %t1.s | count 85
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; RUN: grep ori %t1.s | count 30
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; RUN: grep orhi %t1.s | count 30
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; RUN: grep orbi %t1.s | count 15
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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"
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target triple = "spu"
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; OR instruction generation:
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define <4 x i32> @or_v4i32_1(<4 x i32> %arg1, <4 x i32> %arg2) {
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%A = or <4 x i32> %arg1, %arg2
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ret <4 x i32> %A
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}
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define <4 x i32> @or_v4i32_2(<4 x i32> %arg1, <4 x i32> %arg2) {
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%A = or <4 x i32> %arg2, %arg1
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ret <4 x i32> %A
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}
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define <8 x i16> @or_v8i16_1(<8 x i16> %arg1, <8 x i16> %arg2) {
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%A = or <8 x i16> %arg1, %arg2
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ret <8 x i16> %A
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}
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define <8 x i16> @or_v8i16_2(<8 x i16> %arg1, <8 x i16> %arg2) {
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%A = or <8 x i16> %arg2, %arg1
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ret <8 x i16> %A
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}
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define <16 x i8> @or_v16i8_1(<16 x i8> %arg1, <16 x i8> %arg2) {
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%A = or <16 x i8> %arg2, %arg1
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ret <16 x i8> %A
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}
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define <16 x i8> @or_v16i8_2(<16 x i8> %arg1, <16 x i8> %arg2) {
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%A = or <16 x i8> %arg1, %arg2
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ret <16 x i8> %A
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}
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define i32 @or_i32_1(i32 %arg1, i32 %arg2) {
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%A = or i32 %arg2, %arg1
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ret i32 %A
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}
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define i32 @or_i32_2(i32 %arg1, i32 %arg2) {
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%A = or i32 %arg1, %arg2
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ret i32 %A
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}
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define i16 @or_i16_1(i16 %arg1, i16 %arg2) {
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%A = or i16 %arg2, %arg1
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ret i16 %A
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}
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define i16 @or_i16_2(i16 %arg1, i16 %arg2) {
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%A = or i16 %arg1, %arg2
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ret i16 %A
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}
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define i8 @or_i8_1(i8 %arg1, i8 %arg2) {
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%A = or i8 %arg2, %arg1
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ret i8 %A
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}
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define i8 @or_i8_2(i8 %arg1, i8 %arg2) {
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%A = or i8 %arg1, %arg2
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ret i8 %A
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}
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; ORC instruction generation:
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define <4 x i32> @orc_v4i32_1(<4 x i32> %arg1, <4 x i32> %arg2) {
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%A = xor <4 x i32> %arg2, < i32 -1, i32 -1, i32 -1, i32 -1 >
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%B = or <4 x i32> %arg1, %A
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ret <4 x i32> %B
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}
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define <4 x i32> @orc_v4i32_2(<4 x i32> %arg1, <4 x i32> %arg2) {
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%A = xor <4 x i32> %arg1, < i32 -1, i32 -1, i32 -1, i32 -1 >
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%B = or <4 x i32> %arg2, %A
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ret <4 x i32> %B
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}
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define <4 x i32> @orc_v4i32_3(<4 x i32> %arg1, <4 x i32> %arg2) {
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%A = xor <4 x i32> %arg1, < i32 -1, i32 -1, i32 -1, i32 -1 >
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%B = or <4 x i32> %A, %arg2
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ret <4 x i32> %B
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}
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define <8 x i16> @orc_v8i16_1(<8 x i16> %arg1, <8 x i16> %arg2) {
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%A = xor <8 x i16> %arg2, < i16 -1, i16 -1, i16 -1, i16 -1,
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i16 -1, i16 -1, i16 -1, i16 -1 >
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%B = or <8 x i16> %arg1, %A
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ret <8 x i16> %B
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}
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define <8 x i16> @orc_v8i16_2(<8 x i16> %arg1, <8 x i16> %arg2) {
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%A = xor <8 x i16> %arg1, < i16 -1, i16 -1, i16 -1, i16 -1,
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i16 -1, i16 -1, i16 -1, i16 -1 >
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%B = or <8 x i16> %arg2, %A
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ret <8 x i16> %B
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}
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define <16 x i8> @orc_v16i8_1(<16 x i8> %arg1, <16 x i8> %arg2) {
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%A = xor <16 x i8> %arg1, < i8 -1, i8 -1, i8 -1, i8 -1, i8 -1, i8 -1,
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i8 -1, i8 -1, i8 -1, i8 -1, i8 -1, i8 -1,
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i8 -1, i8 -1, i8 -1, i8 -1 >
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%B = or <16 x i8> %arg2, %A
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ret <16 x i8> %B
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}
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define <16 x i8> @orc_v16i8_2(<16 x i8> %arg1, <16 x i8> %arg2) {
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%A = xor <16 x i8> %arg2, < i8 -1, i8 -1, i8 -1, i8 -1, i8 -1, i8 -1,
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i8 -1, i8 -1, i8 -1, i8 -1, i8 -1, i8 -1,
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i8 -1, i8 -1, i8 -1, i8 -1 >
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%B = or <16 x i8> %arg1, %A
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ret <16 x i8> %B
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}
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define <16 x i8> @orc_v16i8_3(<16 x i8> %arg1, <16 x i8> %arg2) {
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%A = xor <16 x i8> %arg2, < i8 -1, i8 -1, i8 -1, i8 -1, i8 -1, i8 -1,
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i8 -1, i8 -1, i8 -1, i8 -1, i8 -1, i8 -1,
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i8 -1, i8 -1, i8 -1, i8 -1 >
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%B = or <16 x i8> %A, %arg1
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ret <16 x i8> %B
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}
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define i32 @orc_i32_1(i32 %arg1, i32 %arg2) {
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%A = xor i32 %arg2, -1
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%B = or i32 %A, %arg1
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ret i32 %B
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}
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define i32 @orc_i32_2(i32 %arg1, i32 %arg2) {
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%A = xor i32 %arg1, -1
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%B = or i32 %A, %arg2
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ret i32 %B
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}
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define i32 @orc_i32_3(i32 %arg1, i32 %arg2) {
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%A = xor i32 %arg2, -1
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%B = or i32 %arg1, %A
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ret i32 %B
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}
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define i16 @orc_i16_1(i16 %arg1, i16 %arg2) {
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%A = xor i16 %arg2, -1
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%B = or i16 %A, %arg1
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ret i16 %B
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}
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define i16 @orc_i16_2(i16 %arg1, i16 %arg2) {
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%A = xor i16 %arg1, -1
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%B = or i16 %A, %arg2
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ret i16 %B
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}
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define i16 @orc_i16_3(i16 %arg1, i16 %arg2) {
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%A = xor i16 %arg2, -1
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%B = or i16 %arg1, %A
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ret i16 %B
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}
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define i8 @orc_i8_1(i8 %arg1, i8 %arg2) {
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%A = xor i8 %arg2, -1
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%B = or i8 %A, %arg1
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ret i8 %B
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}
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define i8 @orc_i8_2(i8 %arg1, i8 %arg2) {
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%A = xor i8 %arg1, -1
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%B = or i8 %A, %arg2
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ret i8 %B
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}
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define i8 @orc_i8_3(i8 %arg1, i8 %arg2) {
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%A = xor i8 %arg2, -1
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%B = or i8 %arg1, %A
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ret i8 %B
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}
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; ORI instruction generation (i32 data type):
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define <4 x i32> @ori_v4i32_1(<4 x i32> %in) {
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%tmp2 = or <4 x i32> %in, < i32 511, i32 511, i32 511, i32 511 >
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ret <4 x i32> %tmp2
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}
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define <4 x i32> @ori_v4i32_2(<4 x i32> %in) {
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%tmp2 = or <4 x i32> %in, < i32 510, i32 510, i32 510, i32 510 >
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ret <4 x i32> %tmp2
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}
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define <4 x i32> @ori_v4i32_3(<4 x i32> %in) {
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%tmp2 = or <4 x i32> %in, < i32 -1, i32 -1, i32 -1, i32 -1 >
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ret <4 x i32> %tmp2
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}
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define <4 x i32> @ori_v4i32_4(<4 x i32> %in) {
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%tmp2 = or <4 x i32> %in, < i32 -512, i32 -512, i32 -512, i32 -512 >
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ret <4 x i32> %tmp2
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}
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define i32 @ori_u32(i32 zeroext %in) zeroext {
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%tmp37 = or i32 %in, 37 ; <i32> [#uses=1]
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ret i32 %tmp37
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}
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define i32 @ori_i32(i32 signext %in) signext {
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%tmp38 = or i32 %in, 37 ; <i32> [#uses=1]
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ret i32 %tmp38
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}
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; ORHI instruction generation (i16 data type):
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define <8 x i16> @orhi_v8i16_1(<8 x i16> %in) {
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%tmp2 = or <8 x i16> %in, < i16 511, i16 511, i16 511, i16 511,
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i16 511, i16 511, i16 511, i16 511 >
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ret <8 x i16> %tmp2
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}
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define <8 x i16> @orhi_v8i16_2(<8 x i16> %in) {
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%tmp2 = or <8 x i16> %in, < i16 510, i16 510, i16 510, i16 510,
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i16 510, i16 510, i16 510, i16 510 >
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ret <8 x i16> %tmp2
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}
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define <8 x i16> @orhi_v8i16_3(<8 x i16> %in) {
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%tmp2 = or <8 x i16> %in, < i16 -1, i16 -1, i16 -1, i16 -1, i16 -1,
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i16 -1, i16 -1, i16 -1 >
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ret <8 x i16> %tmp2
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}
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define <8 x i16> @orhi_v8i16_4(<8 x i16> %in) {
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%tmp2 = or <8 x i16> %in, < i16 -512, i16 -512, i16 -512, i16 -512,
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i16 -512, i16 -512, i16 -512, i16 -512 >
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ret <8 x i16> %tmp2
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}
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define i16 @orhi_u16(i16 zeroext %in) zeroext {
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%tmp37 = or i16 %in, 37 ; <i16> [#uses=1]
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ret i16 %tmp37
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}
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define i16 @orhi_i16(i16 signext %in) signext {
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%tmp38 = or i16 %in, 37 ; <i16> [#uses=1]
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ret i16 %tmp38
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}
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; ORBI instruction generation (i8 data type):
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define <16 x i8> @orbi_v16i8(<16 x i8> %in) {
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%tmp2 = or <16 x i8> %in, < i8 42, i8 42, i8 42, i8 42, i8 42, i8 42,
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i8 42, i8 42, i8 42, i8 42, i8 42, i8 42,
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i8 42, i8 42, i8 42, i8 42 >
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ret <16 x i8> %tmp2
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}
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define i8 @orbi_u8(i8 zeroext %in) zeroext {
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%tmp37 = or i8 %in, 37 ; <i8> [#uses=1]
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ret i8 %tmp37
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}
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define i8 @orbi_i8(i8 signext %in) signext {
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%tmp38 = or i8 %in, 37 ; <i8> [#uses=1]
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ret i8 %tmp38
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}
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