llvm-for-llvmta/tools/clang/test/OpenMP/declare_simd_aarch64.c

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2022-04-25 13:02:35 +02:00
// REQUIRES: aarch64-registered-target
// -fopemp and -fopenmp-simd behavior are expected to be the same.
// RUN: %clang_cc1 -triple aarch64-linux-gnu -target-feature +neon -fopenmp -x c -emit-llvm %s -o - -femit-all-decls | FileCheck %s --check-prefix=AARCH64
// RUN: %clang_cc1 -triple aarch64-linux-gnu -target-feature +neon -fopenmp-simd -x c -emit-llvm %s -o - -femit-all-decls | FileCheck %s --check-prefix=AARCH64
#pragma omp declare simd
#pragma omp declare simd simdlen(2)
#pragma omp declare simd simdlen(6)
#pragma omp declare simd simdlen(8)
double foo(float x);
// AARCH64: "_ZGVnM2v_foo" "_ZGVnM4v_foo" "_ZGVnM8v_foo" "_ZGVnN2v_foo" "_ZGVnN4v_foo" "_ZGVnN8v_foo"
// AARCH64-NOT: _ZGVnN6v_foo
void foo_loop(double *x, float *y, int N) {
for (int i = 0; i < N; ++i) {
x[i] = foo(y[i]);
}
}
// make sure that the following two function by default gets generated
// with 4 and 2 lanes, as descrived in the vector ABI
#pragma omp declare simd notinbranch
float bar(double x);
#pragma omp declare simd notinbranch
double baz(float x);
// AARCH64: "_ZGVnN2v_baz" "_ZGVnN4v_baz"
// AARCH64-NOT: baz
// AARCH64: "_ZGVnN2v_bar" "_ZGVnN4v_bar"
// AARCH64-NOT: bar
void baz_bar_loop(double *x, float *y, int N) {
for (int i = 0; i < N; ++i) {
x[i] = baz(y[i]);
y[i] = bar(x[i]);
}
}
/***************************/
/* 32-bit integer tests */
/***************************/
#pragma omp declare simd
#pragma omp declare simd simdlen(2)
#pragma omp declare simd simdlen(6)
#pragma omp declare simd simdlen(8)
long foo_int(int x);
// AARCH64: "_ZGVnN2v_foo_int" "_ZGVnN4v_foo_int" "_ZGVnN8v_foo_int"
// No non power of two
// AARCH64-NOT: _ZGVnN6v_foo_int
void foo_int_loop(long *x, int *y, int N) {
for (int i = 0; i < N; ++i) {
x[i] = foo_int(y[i]);
}
}
#pragma omp declare simd
char simple_8bit(char);
// AARCH64: "_ZGVnM16v_simple_8bit" "_ZGVnM8v_simple_8bit" "_ZGVnN16v_simple_8bit" "_ZGVnN8v_simple_8bit"
#pragma omp declare simd
short simple_16bit(short);
// AARCH64: "_ZGVnM4v_simple_16bit" "_ZGVnM8v_simple_16bit" "_ZGVnN4v_simple_16bit" "_ZGVnN8v_simple_16bit"
#pragma omp declare simd
int simple_32bit(int);
// AARCH64: "_ZGVnM2v_simple_32bit" "_ZGVnM4v_simple_32bit" "_ZGVnN2v_simple_32bit" "_ZGVnN4v_simple_32bit"
#pragma omp declare simd
long simple_64bit(long);
// AARCH64: "_ZGVnM2v_simple_64bit" "_ZGVnN2v_simple_64bit"
#pragma omp declare simd
#pragma omp declare simd simdlen(32)
char a01(int x);
// AARCH64: "_ZGVnN16v_a01" "_ZGVnN32v_a01" "_ZGVnN8v_a01"
// AARCH64-NOT: a01
#pragma omp declare simd
#pragma omp declare simd simdlen(2)
long a02(short x);
// AARCH64: "_ZGVnN2v_a02" "_ZGVnN4v_a02" "_ZGVnN8v_a02"
// AARCH64-NOT: a02
/************/
/* pointers */
/************/
#pragma omp declare simd
int b01(int *x);
// AARCH64: "_ZGVnN4v_b01"
// AARCH64-NOT: b01
#pragma omp declare simd
char b02(char *);
// AARCH64: "_ZGVnN16v_b02" "_ZGVnN8v_b02"
// AARCH64-NOT: b02
#pragma omp declare simd
double *b03(double *);
// AARCH64: "_ZGVnN2v_b03"
// AARCH64-NOT: b03
/***********/
/* masking */
/***********/
#pragma omp declare simd inbranch
int c01(double *x, short y);
// AARCH64: "_ZGVnM8vv_c01"
// AARCH64-NOT: c01
#pragma omp declare simd inbranch uniform(x)
double c02(double *x, char y);
// AARCH64: "_ZGVnM16uv_c02" "_ZGVnM8uv_c02"
// AARCH64-NOT: c02
/************************************/
/* Linear with a constant parameter */
/************************************/
#pragma omp declare simd notinbranch linear(i)
double constlinear(const int i);
// AARCH64: "_ZGVnN2l_constlinear" "_ZGVnN4l_constlinear"
// AARCH64-NOT: constlinear
/*************************/
/* sincos-like signature */
/*************************/
#pragma omp declare simd linear(sin) linear(cos)
void sincos(double in, double *sin, double *cos);
// AARCH64: "_ZGVnN2vl8l8_sincos"
// AARCH64-NOT: sincos
#pragma omp declare simd linear(sin : 1) linear(cos : 2)
void SinCos(double in, double *sin, double *cos);
// AARCH64: "_ZGVnN2vl8l16_SinCos"
// AARCH64-NOT: SinCos
// Selection of tests based on the examples provided in chapter 5 of
// the Vector Function ABI specifications for AArch64, at
// https://developer.arm.com/products/software-development-tools/hpc/arm-compiler-for-hpc/vector-function-abi.
// Listing 2, p. 18
#pragma omp declare simd inbranch uniform(x) linear(val(i) : 4)
int foo2(int *x, int i);
// AARCH64: "_ZGVnM2ul4_foo2" "_ZGVnM4ul4_foo2"
// AARCH64-NOT: foo2
// Listing 3, p. 18
#pragma omp declare simd inbranch uniform(x, c) linear(i \
: c)
int foo3(int *x, int i, unsigned char c);
// AARCH64: "_ZGVnM16uls2u_foo3" "_ZGVnM8uls2u_foo3"
// AARCH64-NOT: foo3
// Listing 6, p. 19
#pragma omp declare simd linear(x) aligned(x : 16) simdlen(4)
int foo4(int *x, float y);
// AARCH64: "_ZGVnM4l4a16v_foo4" "_ZGVnN4l4a16v_foo4"
// AARCH64-NOT: foo4
static int *I;
static char *C;
static short *S;
static long *L;
static float *F;
static double *D;
void do_something() {
simple_8bit(*C);
simple_16bit(*S);
simple_32bit(*I);
simple_64bit(*L);
*C = a01(*I);
*L = a02(*S);
*I = b01(I);
*C = b02(C);
D = b03(D);
*I = c01(D, *S);
*D = c02(D, *S);
constlinear(*I);
sincos(*D, D, D);
SinCos(*D, D, D);
foo2(I, *I);
foo3(I, *I, *C);
foo4(I, *F);
}
typedef struct S {
char R, G, B;
} STy;
#pragma omp declare simd notinbranch
STy DoRGB(STy x);
// AARCH64: "_ZGVnN2v_DoRGB"
static STy *RGBData;
void do_rgb_stuff() {
DoRGB(*RGBData);
}