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// RUN: %clang_cc1 %s -O3 -triple=x86_64-apple-darwin -target-feature +avx -emit-llvm -o - | FileCheck %s

// Don't include mm_malloc.h, it's system specific.
#define __MM_MALLOC_H

#include <immintrin.h>

//
// Test LLVM IR codegen of shuffle instructions
//

__m256 test__mm256_loadu_ps(void* p) {
  // CHECK: load <8 x float>* %{{.*}}, align 1
  return _mm256_loadu_ps(p);
}

__m256d test__mm256_loadu_pd(void* p) {
  // CHECK: load <4 x double>* %{{.*}}, align 1
  return _mm256_loadu_pd(p);
}

__m256i test__mm256_loadu_si256(void* p) {
  // CHECK: load <4 x i64>* %{{.+}}, align 1
  return _mm256_loadu_si256(p);
}

__m128i test_mm_cmpestrm(__m128i A, int LA, __m128i B, int LB) {
  // CHECK: @llvm.x86.sse42.pcmpestrm128
  return _mm_cmpestrm(A, LA, B, LB, 7);
}

int test_mm_cmpestri(__m128i A, int LA, __m128i B, int LB) {
  // CHECK: @llvm.x86.sse42.pcmpestri128
  return _mm_cmpestri(A, LA, B, LB, 7);
}

int test_mm_cmpestra(__m128i A, int LA, __m128i B, int LB) {
  // CHECK: @llvm.x86.sse42.pcmpestria128
  return _mm_cmpestra(A, LA, B, LB, 7);
}

int test_mm_cmpestrc(__m128i A, int LA, __m128i B, int LB) {
  // CHECK: @llvm.x86.sse42.pcmpestric128
  return _mm_cmpestrc(A, LA, B, LB, 7);
}

int test_mm_cmpestro(__m128i A, int LA, __m128i B, int LB) {
  // CHECK: @llvm.x86.sse42.pcmpestrio128
  return _mm_cmpestro(A, LA, B, LB, 7);
}

int test_mm_cmpestrs(__m128i A, int LA, __m128i B, int LB) {
  // CHECK: @llvm.x86.sse42.pcmpestris128
  return _mm_cmpestrs(A, LA, B, LB, 7);
}

int test_mm_cmpestrz(__m128i A, int LA, __m128i B, int LB) {
  // CHECK: @llvm.x86.sse42.pcmpestriz128
  return _mm_cmpestrz(A, LA, B, LB, 7);
}

__m128i test_mm_cmpistrm(__m128i A, __m128i B) {
  // CHECK: @llvm.x86.sse42.pcmpistrm128
  return _mm_cmpistrm(A, B, 7);
}

int test_mm_cmpistri(__m128i A, __m128i B) {
  // CHECK: @llvm.x86.sse42.pcmpistri128
  return _mm_cmpistri(A, B, 7);
}

int test_mm_cmpistra(__m128i A, __m128i B) {
  // CHECK: @llvm.x86.sse42.pcmpistria128
  return _mm_cmpistra(A, B, 7);
}

int test_mm_cmpistrc(__m128i A, __m128i B) {
  // CHECK: @llvm.x86.sse42.pcmpistric128
  return _mm_cmpistrc(A, B, 7);
}

int test_mm_cmpistro(__m128i A, __m128i B) {
  // CHECK: @llvm.x86.sse42.pcmpistrio128
  return _mm_cmpistro(A, B, 7);
}

int test_mm_cmpistrs(__m128i A, __m128i B) {
  // CHECK: @llvm.x86.sse42.pcmpistris128
  return _mm_cmpistrs(A, B, 7);
}

int test_mm_cmpistrz(__m128i A, __m128i B) {
  // CHECK: @llvm.x86.sse42.pcmpistriz128
  return _mm_cmpistrz(A, B, 7);
}

int test_extract_epi32(__m256i __a) {
  // CHECK-LABEL: @test_extract_epi32
  // CHECK: extractelement <8 x i32> %{{.*}}, i32 0
  return _mm256_extract_epi32(__a, 8);
}

int test_extract_epi16(__m256i __a) {
  // CHECK-LABEL: @test_extract_epi16
  // CHECK: extractelement <16 x i16> %{{.*}}, i32 0
  return _mm256_extract_epi16(__a, 16);
}

int test_extract_epi8(__m256i __a) {
  // CHECK-LABEL: @test_extract_epi8
  // CHECK: extractelement <32 x i8> %{{.*}}, i32 0
  return _mm256_extract_epi8(__a, 32);
}

__m256d test_256_blend_pd(__m256d __a, __m256d __b) {
  // CHECK-LABEL: @test_256_blend_pd
  // CHECK: shufflevector <4 x double> %{{.*}}, <4 x double> %{{.*}}, <4 x i32> <i32 4, i32 1, i32 6, i32 3>
  return _mm256_blend_pd(__a, __b, 0x35);
}

__m256 test_256_blend_ps(__m256 __a, __m256 __b) {
  // CHECK-LABEL: @test_256_blend_ps
  // CHECK: shufflevector <8 x float> %{{.*}}, <8 x float> %{{.*}}, <8 x i32> <i32 8, i32 1, i32 10, i32 3, i32 12, i32 13, i32 6, i32 7>
  return _mm256_blend_ps(__a, __b, 0x35);
}