test/builtins/Unit/fixunsxfsi_test.c - llvm-project/compiler-rt - Git at Google

 // RUN: %clang_builtins %s %librt -o %t && %run %t
 // REQUIRES: librt_has_fixunsxfsi

 #include "int_lib.h"
 #include <stdio.h>

 #if HAS_80_BIT_LONG_DOUBLE
 // Returns: convert a to a unsigned int, rounding toward zero.
 //          Negative values all become zero.

 // Assumption: long double is an intel 80 bit floating point type padded with 6 bytes
 //             su_int is a 32 bit integral type
 //             value in long double is representable in su_int or is negative
 //                 (no range checking performed)

 // gggg gggg gggg gggg gggg gggg gggg gggg | gggg gggg gggg gggg seee eeee eeee eeee |
 // 1mmm mmmm mmmm mmmm mmmm mmmm mmmm mmmm | mmmm mmmm mmmm mmmm mmmm mmmm mmmm mmmm

 COMPILER_RT_ABI su_int __fixunsxfsi(long double a);

 int test__fixunsxfsi(long double a, su_int expected)
 {
     su_int x = __fixunsxfsi(a);
     if (x != expected)
         printf("error in __fixunsxfsi(%LA) = %X, expected %X\n", a, x, expected);
     return x != expected;
 }

 char assumption_2[sizeof(su_int)*CHAR_BIT == 32] = {0};
 char assumption_3[sizeof(long double)*CHAR_BIT == 128] = {0};
 #endif

 int main()
 {
 #if HAS_80_BIT_LONG_DOUBLE
     if (test__fixunsxfsi(0.0, 0))
         return 1;

     if (test__fixunsxfsi(0.5, 0))
         return 1;
     if (test__fixunsxfsi(0.99, 0))
         return 1;
     if (test__fixunsxfsi(1.0, 1))
         return 1;
     if (test__fixunsxfsi(1.5, 1))
         return 1;
     if (test__fixunsxfsi(1.99, 1))
         return 1;
     if (test__fixunsxfsi(2.0, 2))
         return 1;
     if (test__fixunsxfsi(2.01, 2))
         return 1;
     if (test__fixunsxfsi(-0.5, 0))
         return 1;
     if (test__fixunsxfsi(-0.99, 0))
         return 1;
 #if !TARGET_LIBGCC
     if (test__fixunsxfsi(-1.0, 0))  // libgcc ignores "returns 0 for negative input" spec
         return 1;
     if (test__fixunsxfsi(-1.5, 0))
         return 1;
     if (test__fixunsxfsi(-1.99, 0))
         return 1;
     if (test__fixunsxfsi(-2.0, 0))
         return 1;
     if (test__fixunsxfsi(-2.01, 0))
         return 1;
 #endif

     if (test__fixunsxfsi(0x1.000000p+31, 0x80000000))
         return 1;
     if (test__fixunsxfsi(0x1.FFFFFEp+31, 0xFFFFFF00))
         return 1;
     if (test__fixunsxfsi(0x1.FFFFFEp+30, 0x7FFFFF80))
         return 1;
     if (test__fixunsxfsi(0x1.FFFFFCp+30, 0x7FFFFF00))
         return 1;

 #if !TARGET_LIBGCC
     if (test__fixunsxfsi(-0x1.FFFFFEp+30, 0))
         return 1;
     if (test__fixunsxfsi(-0x1.FFFFFCp+30, 0))
         return 1;
 #endif

     if (test__fixunsxfsi(0x1.FFFFFFFEp+31, 0xFFFFFFFF))
         return 1;
     if (test__fixunsxfsi(0x1.FFFFFFFC00000p+30, 0x7FFFFFFF))
         return 1;
     if (test__fixunsxfsi(0x1.FFFFFFF800000p+30, 0x7FFFFFFE))
         return 1;

 #endif
    return 0;
 }
	// RUN: %clang_builtins %s %librt -o %t && %run %t
	// REQUIRES: librt_has_fixunsxfsi

	#include "int_lib.h"
	#include <stdio.h>

	#if HAS_80_BIT_LONG_DOUBLE
	// Returns: convert a to a unsigned int, rounding toward zero.
	// Negative values all become zero.

	// Assumption: long double is an intel 80 bit floating point type padded with 6 bytes
	// su_int is a 32 bit integral type
	// value in long double is representable in su_int or is negative
	// (no range checking performed)

	// gggg gggg gggg gggg gggg gggg gggg gggg \| gggg gggg gggg gggg seee eeee eeee eeee \|
	// 1mmm mmmm mmmm mmmm mmmm mmmm mmmm mmmm \| mmmm mmmm mmmm mmmm mmmm mmmm mmmm mmmm

	COMPILER_RT_ABI su_int __fixunsxfsi(long double a);

	int test__fixunsxfsi(long double a, su_int expected)
	{
	su_int x = __fixunsxfsi(a);
	if (x != expected)
	printf("error in __fixunsxfsi(%LA) = %X, expected %X\n", a, x, expected);
	return x != expected;
	}

	char assumption_2[sizeof(su_int)*CHAR_BIT == 32] = {0};
	char assumption_3[sizeof(long double)*CHAR_BIT == 128] = {0};
	#endif

	int main()
	{
	#if HAS_80_BIT_LONG_DOUBLE
	if (test__fixunsxfsi(0.0, 0))
	return 1;

	if (test__fixunsxfsi(0.5, 0))
	return 1;
	if (test__fixunsxfsi(0.99, 0))
	return 1;
	if (test__fixunsxfsi(1.0, 1))
	return 1;
	if (test__fixunsxfsi(1.5, 1))
	return 1;
	if (test__fixunsxfsi(1.99, 1))
	return 1;
	if (test__fixunsxfsi(2.0, 2))
	return 1;
	if (test__fixunsxfsi(2.01, 2))
	return 1;
	if (test__fixunsxfsi(-0.5, 0))
	return 1;
	if (test__fixunsxfsi(-0.99, 0))
	return 1;
	#if !TARGET_LIBGCC
	if (test__fixunsxfsi(-1.0, 0)) // libgcc ignores "returns 0 for negative input" spec
	return 1;
	if (test__fixunsxfsi(-1.5, 0))
	return 1;
	if (test__fixunsxfsi(-1.99, 0))
	return 1;
	if (test__fixunsxfsi(-2.0, 0))
	return 1;
	if (test__fixunsxfsi(-2.01, 0))
	return 1;
	#endif

	if (test__fixunsxfsi(0x1.000000p+31, 0x80000000))
	return 1;
	if (test__fixunsxfsi(0x1.FFFFFEp+31, 0xFFFFFF00))
	return 1;
	if (test__fixunsxfsi(0x1.FFFFFEp+30, 0x7FFFFF80))
	return 1;
	if (test__fixunsxfsi(0x1.FFFFFCp+30, 0x7FFFFF00))
	return 1;

	#if !TARGET_LIBGCC
	if (test__fixunsxfsi(-0x1.FFFFFEp+30, 0))
	return 1;
	if (test__fixunsxfsi(-0x1.FFFFFCp+30, 0))
	return 1;
	#endif

	if (test__fixunsxfsi(0x1.FFFFFFFEp+31, 0xFFFFFFFF))
	return 1;
	if (test__fixunsxfsi(0x1.FFFFFFFC00000p+30, 0x7FFFFFFF))
	return 1;
	if (test__fixunsxfsi(0x1.FFFFFFF800000p+30, 0x7FFFFFFE))
	return 1;

	#endif
	return 0;
	}