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android13/external/OpenCL-CTS/test_conformance/conversions/basic_test_conversions.cpp

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//
// Copyright (c) 2017 The Khronos Group Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
#include "harness/compat.h"
#include "basic_test_conversions.h"
#include <limits.h>
#include <string.h>
#include "harness/mt19937.h"
#if (defined(__arm__) || defined(__aarch64__)) && defined(__GNUC__)
#include "fplib.h"
#endif
#if (defined(__arm__) || defined(__aarch64__)) && defined(__GNUC__)
/* Rounding modes and saturation for use with qcom 64 bit to float conversion library */
bool qcom_sat;
roundingMode qcom_rm;
#endif
static inline cl_ulong random64( MTdata d );
#if defined (_WIN32)
#include <mmintrin.h>
#include <emmintrin.h>
#else // !_WIN32
#if defined (__SSE__ )
#include <xmmintrin.h>
#endif
#if defined (__SSE2__ )
#include <emmintrin.h>
#endif
#endif // _WIN32
const char *gTypeNames[ kTypeCount ] = {
"uchar", "char",
"ushort", "short",
"uint", "int",
"float", "double",
"ulong", "long"
};
const char *gRoundingModeNames[ kRoundingModeCount ] = {
"",
"_rte",
"_rtp",
"_rtn",
"_rtz"
};
const char *gSaturationNames[ 2 ] = { "", "_sat" };
size_t gTypeSizes[ kTypeCount ] = {
sizeof( cl_uchar ), sizeof( cl_char ),
sizeof( cl_ushort ), sizeof( cl_short ),
sizeof( cl_uint ), sizeof( cl_int ),
sizeof( cl_float ), sizeof( cl_double ),
sizeof( cl_ulong ), sizeof( cl_long ),
};
long lrintf_clamped( float f );
long lrintf_clamped( float f )
{
static const float magic[2] = { MAKE_HEX_FLOAT( 0x1.0p23f, 0x1, 23), - MAKE_HEX_FLOAT( 0x1.0p23f, 0x1, 23) };
if( f >= -(float) LONG_MIN )
return LONG_MAX;
if( f <= (float) LONG_MIN )
return LONG_MIN;
// Round fractional values to integer in round towards nearest mode
if( fabsf(f) < MAKE_HEX_FLOAT( 0x1.0p23f, 0x1, 23 ) )
{
volatile float x = f;
float magicVal = magic[ f < 0 ];
#if defined( __SSE__ ) || defined (_WIN32)
// Defeat x87 based arithmetic, which cant do FTZ, and will round this incorrectly
__m128 v = _mm_set_ss( x );
__m128 m = _mm_set_ss( magicVal );
v = _mm_add_ss( v, m );
v = _mm_sub_ss( v, m );
_mm_store_ss( (float*) &x, v );
#else
x += magicVal;
x -= magicVal;
#endif
f = x;
}
return (long) f;
}
long long llrintf_clamped( float f );
long long llrintf_clamped( float f )
{
static const float magic[2] = { MAKE_HEX_FLOAT( 0x1.0p23f, 0x1, 23), - MAKE_HEX_FLOAT( 0x1.0p23f, 0x1, 23) };
if( f >= -(float) LLONG_MIN )
return LLONG_MAX;
if( f <= (float) LLONG_MIN )
return LLONG_MIN;
// Round fractional values to integer in round towards nearest mode
if( fabsf(f) < MAKE_HEX_FLOAT(0x1.0p23f, 0x1L, 23) )
{
volatile float x = f;
float magicVal = magic[ f < 0 ];
#if defined( __SSE__ ) || defined (_WIN32)
// Defeat x87 based arithmetic, which cant do FTZ, and will round this incorrectly
__m128 v = _mm_set_ss( x );
__m128 m = _mm_set_ss( magicVal );
v = _mm_add_ss( v, m );
v = _mm_sub_ss( v, m );
_mm_store_ss( (float*) &x, v );
#else
x += magicVal;
x -= magicVal;
#endif
f = x;
}
return (long long) f;
}
long lrint_clamped( double f );
long lrint_clamped( double f )
{
static const double magic[2] = { MAKE_HEX_DOUBLE(0x1.0p52, 0x1LL, 52), MAKE_HEX_DOUBLE(-0x1.0p52, -0x1LL, 52) };
if( sizeof( long ) > 4 )
{
if( f >= -(double) LONG_MIN )
return LONG_MAX;
}
else
{
if( f >= LONG_MAX )
return LONG_MAX;
}
if( f <= (double) LONG_MIN )
return LONG_MIN;
// Round fractional values to integer in round towards nearest mode
if( fabs(f) < MAKE_HEX_DOUBLE(0x1.0p52, 0x1LL, 52) )
{
volatile double x = f;
double magicVal = magic[ f < 0 ];
#if defined( __SSE2__ ) || defined (_MSC_VER)
// Defeat x87 based arithmetic, which cant do FTZ, and will round this incorrectly
__m128d v = _mm_set_sd( x );
__m128d m = _mm_set_sd( magicVal );
v = _mm_add_sd( v, m );
v = _mm_sub_sd( v, m );
_mm_store_sd( (double*) &x, v );
#else
x += magicVal;
x -= magicVal;
#endif
f = x;
}
return (long) f;
}
long long llrint_clamped( double f );
long long llrint_clamped( double f )
{
static const double magic[2] = { MAKE_HEX_DOUBLE(0x1.0p52, 0x1LL, 52), MAKE_HEX_DOUBLE(-0x1.0p52, -0x1LL, 52) };
if( f >= -(double) LLONG_MIN )
return LLONG_MAX;
if( f <= (double) LLONG_MIN )
return LLONG_MIN;
// Round fractional values to integer in round towards nearest mode
if( fabs(f) < MAKE_HEX_DOUBLE(0x1.0p52, 0x1LL, 52) )
{
volatile double x = f;
double magicVal = magic[ f < 0 ];
#if defined( __SSE2__ ) || defined (_MSC_VER)
// Defeat x87 based arithmetic, which cant do FTZ, and will round this incorrectly
__m128d v = _mm_set_sd( x );
__m128d m = _mm_set_sd( magicVal );
v = _mm_add_sd( v, m );
v = _mm_sub_sd( v, m );
_mm_store_sd( (double*) &x, v );
#else
x += magicVal;
x -= magicVal;
#endif
f = x;
}
return (long long) f;
}
/*
Names created as:
#include <stdio.h>
const char *names[] = { "uchar", "char", "ushort", "short", "uint", "int", "float", "double", "ulong", "long" };
int main( void )
{
int i,j;
for( i = 0; i < sizeof( names ) / sizeof( names[0] ); i++ )
for( j = 0; j < sizeof( names ) / sizeof( names[0] ); j++ )
{
if( j == i )
continue;
vlog( "void %s2%s( void *, void *);\n", names[i], names[j] );
}
return 0;
}
*/
static float my_fabsf( float x );
static double my_fabs( double x );
static void uchar2char( void *, void *);
static void uchar2ushort( void *, void *);
static void uchar2short( void *, void *);
static void uchar2uint( void *, void *);
static void uchar2int( void *, void *);
static void uchar2float( void *, void *);
static void uchar2double( void *, void *);
static void uchar2ulong( void *, void *);
static void uchar2long( void *, void *);
static void char2uchar( void *, void *);
static void char2ushort( void *, void *);
static void char2short( void *, void *);
static void char2uint( void *, void *);
static void char2int( void *, void *);
static void char2float( void *, void *);
static void char2double( void *, void *);
static void char2ulong( void *, void *);
static void char2long( void *, void *);
static void ushort2uchar( void *, void *);
static void ushort2char( void *, void *);
static void ushort2short( void *, void *);
static void ushort2uint( void *, void *);
static void ushort2int( void *, void *);
static void ushort2float( void *, void *);
static void ushort2double( void *, void *);
static void ushort2ulong( void *, void *);
static void ushort2long( void *, void *);
static void short2uchar( void *, void *);
static void short2char( void *, void *);
static void short2ushort( void *, void *);
static void short2uint( void *, void *);
static void short2int( void *, void *);
static void short2float( void *, void *);
static void short2double( void *, void *);
static void short2ulong( void *, void *);
static void short2long( void *, void *);
static void uint2uchar( void *, void *);
static void uint2char( void *, void *);
static void uint2ushort( void *, void *);
static void uint2short( void *, void *);
static void uint2int( void *, void *);
static void uint2float( void *, void *);
static void uint2double( void *, void *);
static void uint2ulong( void *, void *);
static void uint2long( void *, void *);
static void int2uchar( void *, void *);
static void int2char( void *, void *);
static void int2ushort( void *, void *);
static void int2short( void *, void *);
static void int2uint( void *, void *);
static void int2float( void *, void *);
static void int2double( void *, void *);
static void int2ulong( void *, void *);
static void int2long( void *, void *);
static void float2uchar( void *, void *);
static void float2char( void *, void *);
static void float2ushort( void *, void *);
static void float2short( void *, void *);
static void float2uint( void *, void *);
static void float2int( void *, void *);
static void float2double( void *, void *);
static void float2ulong( void *, void *);
static void float2long( void *, void *);
static void double2uchar( void *, void *);
static void double2char( void *, void *);
static void double2ushort( void *, void *);
static void double2short( void *, void *);
static void double2uint( void *, void *);
static void double2int( void *, void *);
static void double2float( void *, void *);
static void double2ulong( void *, void *);
static void double2long( void *, void *);
static void ulong2uchar( void *, void *);
static void ulong2char( void *, void *);
static void ulong2ushort( void *, void *);
static void ulong2short( void *, void *);
static void ulong2uint( void *, void *);
static void ulong2int( void *, void *);
static void ulong2float( void *, void *);
static void ulong2double( void *, void *);
static void ulong2long( void *, void *);
static void long2uchar( void *, void *);
static void long2char( void *, void *);
static void long2ushort( void *, void *);
static void long2short( void *, void *);
static void long2uint( void *, void *);
static void long2int( void *, void *);
static void long2float( void *, void *);
static void long2double( void *, void *);
static void long2ulong( void *, void *);
/*
Conversion list created as
#include <stdio.h>
const char *names[] = { "uchar", "char", "ushort", "short", "uint", "int", "float", "double", "ulong", "long" };
int main( void )
{
int i,j;
for( i = 0; i < sizeof( names ) / sizeof( names[0] ); i++ )
{
vlog( "{ " );
for( j = 0; j < sizeof( names ) / sizeof( names[0] ); j++ )
{
if( j == i )
vlog( " NULL, " );
else
{
char s[64];
sprintf( s, "%s2%s,", names[j], names[i] );
vlog( "%15s ", s );
}
}
vlog( "},\n" );
}
return 0;
}
*/
/*
Convert gConversions[kTypeCount][kTypeCount] = {
{ NULL, char2uchar, ushort2uchar, short2uchar, uint2uchar, int2uchar, float2uchar, double2uchar, ulong2uchar, long2uchar, },
{ uchar2char, NULL, ushort2char, short2char, uint2char, int2char, float2char, double2char, ulong2char, long2char, },
{ uchar2ushort, char2ushort, NULL, short2ushort, uint2ushort, int2ushort, float2ushort, double2ushort, ulong2ushort, long2ushort, },
{ uchar2short, char2short, ushort2short, NULL, uint2short, int2short, float2short, double2short, ulong2short, long2short, },
{ uchar2uint, char2uint, ushort2uint, short2uint, NULL, int2uint, float2uint, double2uint, ulong2uint, long2uint, },
{ uchar2int, char2int, ushort2int, short2int, uint2int, NULL, float2int, double2int, ulong2int, long2int, },
{ uchar2float, char2float, ushort2float, short2float, uint2float, int2float, NULL, double2float, ulong2float, long2float, },
{ uchar2double, char2double, ushort2double, short2double, uint2double, int2double, float2double, NULL, ulong2double, long2double, },
{ uchar2ulong, char2ulong, ushort2ulong, short2ulong, uint2ulong, int2ulong, float2ulong, double2ulong, NULL, long2ulong, },
{ uchar2long, char2long, ushort2long, short2long, uint2long, int2long, float2long, double2long, ulong2long, NULL, } };
*/
static void uchar2char_sat( void *, void *);
static void uchar2ushort_sat( void *, void *);
static void uchar2short_sat( void *, void *);
static void uchar2uint_sat( void *, void *);
static void uchar2int_sat( void *, void *);
static void uchar2float_sat( void *, void *);
static void uchar2double_sat( void *, void *);
static void uchar2ulong_sat( void *, void *);
static void uchar2long_sat( void *, void *);
static void char2uchar_sat( void *, void *);
static void char2ushort_sat( void *, void *);
static void char2short_sat( void *, void *);
static void char2uint_sat( void *, void *);
static void char2int_sat( void *, void *);
static void char2float_sat( void *, void *);
static void char2double_sat( void *, void *);
static void char2ulong_sat( void *, void *);
static void char2long_sat( void *, void *);
static void ushort2uchar_sat( void *, void *);
static void ushort2char_sat( void *, void *);
static void ushort2short_sat( void *, void *);
static void ushort2uint_sat( void *, void *);
static void ushort2int_sat( void *, void *);
static void ushort2float_sat( void *, void *);
static void ushort2double_sat( void *, void *);
static void ushort2ulong_sat( void *, void *);
static void ushort2long_sat( void *, void *);
static void short2uchar_sat( void *, void *);
static void short2char_sat( void *, void *);
static void short2ushort_sat( void *, void *);
static void short2uint_sat( void *, void *);
static void short2int_sat( void *, void *);
static void short2float_sat( void *, void *);
static void short2double_sat( void *, void *);
static void short2ulong_sat( void *, void *);
static void short2long_sat( void *, void *);
static void uint2uchar_sat( void *, void *);
static void uint2char_sat( void *, void *);
static void uint2ushort_sat( void *, void *);
static void uint2short_sat( void *, void *);
static void uint2int_sat( void *, void *);
static void uint2float_sat( void *, void *);
static void uint2double_sat( void *, void *);
static void uint2ulong_sat( void *, void *);
static void uint2long_sat( void *, void *);
static void int2uchar_sat( void *, void *);
static void int2char_sat( void *, void *);
static void int2ushort_sat( void *, void *);
static void int2short_sat( void *, void *);
static void int2uint_sat( void *, void *);
static void int2float_sat( void *, void *);
static void int2double_sat( void *, void *);
static void int2ulong_sat( void *, void *);
static void int2long_sat( void *, void *);
static void float2uchar_sat( void *, void *);
static void float2char_sat( void *, void *);
static void float2ushort_sat( void *, void *);
static void float2short_sat( void *, void *);
static void float2uint_sat( void *, void *);
static void float2int_sat( void *, void *);
static void float2double_sat( void *, void *);
static void float2ulong_sat( void *, void *);
static void float2long_sat( void *, void *);
static void double2uchar_sat( void *, void *);
static void double2char_sat( void *, void *);
static void double2ushort_sat( void *, void *);
static void double2short_sat( void *, void *);
static void double2uint_sat( void *, void *);
static void double2int_sat( void *, void *);
static void double2float_sat( void *, void *);
static void double2ulong_sat( void *, void *);
static void double2long_sat( void *, void *);
static void ulong2uchar_sat( void *, void *);
static void ulong2char_sat( void *, void *);
static void ulong2ushort_sat( void *, void *);
static void ulong2short_sat( void *, void *);
static void ulong2uint_sat( void *, void *);
static void ulong2int_sat( void *, void *);
static void ulong2float_sat( void *, void *);
static void ulong2double_sat( void *, void *);
static void ulong2long_sat( void *, void *);
static void long2uchar_sat( void *, void *);
static void long2char_sat( void *, void *);
static void long2ushort_sat( void *, void *);
static void long2short_sat( void *, void *);
static void long2uint_sat( void *, void *);
static void long2int_sat( void *, void *);
static void long2float_sat( void *, void *);
static void long2double_sat( void *, void *);
static void long2ulong_sat( void *, void *);
/*
#include <stdio.h>
const char *names[] = { "uchar", "char", "ushort", "short", "uint", "int", "float", "double", "ulong", "long" };
int main( void )
{
int i,j;
for( i = 0; i < sizeof( names ) / sizeof( names[0] ); i++ )
{
vlog( "{ " );
for( j = 0; j < sizeof( names ) / sizeof( names[0] ); j++ )
{
if( j == i )
vlog( " NULL, " );
else
{
char s[64];
sprintf( s, "%s2%s_sat,", names[j], names[i] );
vlog( "%18s ", s );
}
}
vlog( "},\n" );
}
return 0;
}
Convert gSaturatedConversions[kTypeCount][kTypeCount] = {
{ NULL, char2uchar_sat, ushort2uchar_sat, short2uchar_sat, uint2uchar_sat, int2uchar_sat, float2uchar_sat, double2uchar_sat, ulong2uchar_sat, long2uchar_sat, },
{ uchar2char_sat, NULL, ushort2char_sat, short2char_sat, uint2char_sat, int2char_sat, float2char_sat, double2char_sat, ulong2char_sat, long2char_sat, },
{ uchar2ushort_sat, char2ushort_sat, NULL, short2ushort_sat, uint2ushort_sat, int2ushort_sat, float2ushort_sat, double2ushort_sat, ulong2ushort_sat, long2ushort_sat, },
{ uchar2short_sat, char2short_sat, ushort2short_sat, NULL, uint2short_sat, int2short_sat, float2short_sat, double2short_sat, ulong2short_sat, long2short_sat, },
{ uchar2uint_sat, char2uint_sat, ushort2uint_sat, short2uint_sat, NULL, int2uint_sat, float2uint_sat, double2uint_sat, ulong2uint_sat, long2uint_sat, },
{ uchar2int_sat, char2int_sat, ushort2int_sat, short2int_sat, uint2int_sat, NULL, float2int_sat, double2int_sat, ulong2int_sat, long2int_sat, },
{ uchar2float_sat, char2float_sat, ushort2float_sat, short2float_sat, uint2float_sat, int2float_sat, NULL, double2float_sat, ulong2float_sat, long2float_sat, },
{ uchar2double_sat, char2double_sat, ushort2double_sat, short2double_sat, uint2double_sat, int2double_sat, float2double_sat, NULL, ulong2double_sat, long2double_sat, },
{ uchar2ulong_sat, char2ulong_sat, ushort2ulong_sat, short2ulong_sat, uint2ulong_sat, int2ulong_sat, float2ulong_sat, double2ulong_sat, NULL, long2ulong_sat, },
{ uchar2long_sat, char2long_sat, ushort2long_sat, short2long_sat, uint2long_sat, int2long_sat, float2long_sat, double2long_sat, ulong2long_sat, NULL, }
};
*/
/*
#include <stdio.h>
const char *names[] = { "uchar", "char", "ushort", "short", "uint", "int", "float", "double", "ulong", "long" };
const char *types[] = { "uchar", "char", "ushort", "short", "uint", "int", "float", "double", "ulong", "llong" };
int main( void )
{
int i,j;
for( i = 0; i < sizeof( names ) / sizeof( names[0] ); i++ )
for( j = 0; j < sizeof( names ) / sizeof( names[0] ); j++ )
{
if( j == i )
continue;
switch( i )
{
case 6: //float
if( j == 7 )
vlog( "void %s2%s( void *out, void *in){ ((%s*) out)[0] = (%s) ((%s*) in)[0]; }\n", names[i], names[i], names[j], types[j], types[i] );
else
vlog( "void %s2%s( void *out, void *in){ ((%s*) out)[0] = (%s) my_rintf(((%s*) in)[0]); }\n", names[i], names[i], names[j], types[j], types[i] );
break;
case 7: //double
if( j == 6 )
vlog( "void %s2%s( void *out, void *in){ ((%s*) out)[0] = (%s) ((%s*) in)[0]; }\n", names[i], names[i], names[j], types[j], types[i] );
else
vlog( "void %s2%s( void *out, void *in){ ((%s*) out)[0] = (%s) rint(((%s*) in)[0]); }\n", names[i], names[i], names[j], types[j], types[i] );
break;
default:
vlog( "void %s2%s( void *out, void *in){ ((%s*) out)[0] = (%s)
((%s*) in)[0]; }\n", names[i], names[i], names[j], types[j], types[i] );
break;
}
}
return 0;
}
*/
float my_fabsf( float x )
{
union{ cl_uint u; float f; }u;
u.f = x;
u.u &= 0x7fffffff;
return u.f;
}
double my_fabs( double x )
{
union{ cl_ulong u; double f; }u;
u.f = x;
u.u &= 0x7fffffffffffffffULL;
return u.f;
}
static float my_rintf( float f );
static float my_rintf( float f )
{
static const float magic[2] = { MAKE_HEX_FLOAT( 0x1.0p23f, 0x1, 23), - MAKE_HEX_FLOAT( 0x1.0p23f, 0x1, 23) };
// Round fractional values to integer in round towards nearest mode
if( fabsf(f) < MAKE_HEX_FLOAT( 0x1.0p23f, 0x1, 23 ) )
{
volatile float x = f;
float magicVal = magic[ f < 0 ];
#if defined( __SSE__ )
// Defeat x87 based arithmetic, which cant do FTZ, and will round this incorrectly
__m128 v = _mm_set_ss( x );
__m128 m = _mm_set_ss( magicVal );
v = _mm_add_ss( v, m );
v = _mm_sub_ss( v, m );
_mm_store_ss( (float*) &x, v );
#else
x += magicVal;
x -= magicVal;
#endif
f = x;
}
return f;
}
static void uchar2char( void *out, void *in){ ((char*) out)[0] = ((cl_uchar*) in)[0]; }
static void uchar2ushort( void *out, void *in){ ((cl_ushort*) out)[0] = ((cl_uchar*) in)[0]; }
static void uchar2short( void *out, void *in){ ((short*) out)[0] = ((cl_uchar*) in)[0]; }
static void uchar2uint( void *out, void *in){ ((cl_uint*) out)[0] = ((cl_uchar*) in)[0]; }
static void uchar2int( void *out, void *in){ ((int*) out)[0] = ((cl_uchar*) in)[0]; }
static void uchar2float( void *out, void *in)
{
cl_uchar l = ((cl_uchar*) in)[0];
((float*) out)[0] = (l == 0 ? 0.0f : (float) l); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
}
static void uchar2double( void *out, void *in)
{
cl_uchar l = ((cl_uchar*) in)[0];
((double*) out)[0] = (l == 0 ? 0.0 : (double) l); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
}
static void uchar2ulong( void *out, void *in){ ((cl_ulong*) out)[0] = ((cl_uchar*) in)[0]; }
static void uchar2long( void *out, void *in){ ((cl_long*) out)[0] = ((cl_uchar*) in)[0]; }
static void char2uchar( void *out, void *in){ ((cl_uchar*) out)[0] = ((cl_char*) in)[0]; }
static void char2ushort( void *out, void *in){ ((cl_ushort*) out)[0] = ((cl_char*) in)[0]; }
static void char2short( void *out, void *in){ ((short*) out)[0] = ((cl_char*) in)[0]; }
static void char2uint( void *out, void *in){ ((cl_uint*) out)[0] = ((cl_char*) in)[0]; }
static void char2int( void *out, void *in){ ((int*) out)[0] = ((cl_char*) in)[0]; }
static void char2float( void *out, void *in)
{
cl_char l = ((cl_char*) in)[0];
((float*) out)[0] = (l == 0 ? 0.0f : (float) l); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
}
static void char2double( void *out, void *in)
{
cl_char l = ((cl_char*) in)[0];
((double*) out)[0] = (l == 0 ? 0.0 : (double) l); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
}
static void char2ulong( void *out, void *in){ ((cl_ulong*) out)[0] = ((cl_char*) in)[0]; }
static void char2long( void *out, void *in){ ((cl_long*) out)[0] = ((cl_char*) in)[0]; }
static void ushort2uchar( void *out, void *in){ ((cl_uchar*) out)[0] = ((cl_ushort*) in)[0]; }
static void ushort2char( void *out, void *in){ ((char*) out)[0] = ((cl_ushort*) in)[0]; }
static void ushort2short( void *out, void *in){ ((short*) out)[0] = ((cl_ushort*) in)[0]; }
static void ushort2uint( void *out, void *in){ ((cl_uint*) out)[0] = ((cl_ushort*) in)[0]; }
static void ushort2int( void *out, void *in){ ((int*) out)[0] = ((cl_ushort*) in)[0]; }
static void ushort2float( void *out, void *in)
{
cl_ushort l = ((cl_ushort*) in)[0];
((float*) out)[0] = (l == 0 ? 0.0f : (float) l); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
}
static void ushort2double( void *out, void *in)
{
cl_ushort l = ((cl_ushort*) in)[0];
((double*) out)[0] = (l == 0 ? 0.0 : (double) l); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
}
static void ushort2ulong( void *out, void *in){ ((cl_ulong*) out)[0] = ((cl_ushort*) in)[0]; }
static void ushort2long( void *out, void *in){ ((cl_long*) out)[0] = ((cl_ushort*) in)[0]; }
static void short2uchar( void *out, void *in){ ((cl_uchar*) out)[0] = ((cl_short*) in)[0]; }
static void short2char( void *out, void *in){ ((cl_char*) out)[0] = ((cl_short*) in)[0]; }
static void short2ushort( void *out, void *in){ ((cl_ushort*) out)[0] = ((cl_short*) in)[0]; }
static void short2uint( void *out, void *in){ ((cl_uint*) out)[0] = ((cl_short*) in)[0]; }
static void short2int( void *out, void *in){ ((cl_int*) out)[0] = ((cl_short*) in)[0]; }
static void short2float( void *out, void *in)
{
cl_short l = ((cl_short*) in)[0];
((float*) out)[0] = (l == 0 ? 0.0f : (float) l); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
}
static void short2double( void *out, void *in)
{
cl_short l = ((cl_short*) in)[0];
((double*) out)[0] = (l == 0 ? 0.0 : (double) l); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
}
static void short2ulong( void *out, void *in){ ((cl_ulong*) out)[0] = ((cl_short*) in)[0]; }
static void short2long( void *out, void *in){ ((cl_long*) out)[0] = ((cl_short*) in)[0]; }
static void uint2uchar( void *out, void *in){ ((cl_uchar*) out)[0] = ((cl_uint*) in)[0]; }
static void uint2char( void *out, void *in){ ((cl_char*) out)[0] = ((cl_uint*) in)[0]; }
static void uint2ushort( void *out, void *in){ ((cl_ushort*) out)[0] = ((cl_uint*) in)[0]; }
static void uint2short( void *out, void *in){ ((short*) out)[0] = ((cl_uint*) in)[0]; }
static void uint2int( void *out, void *in){ ((cl_int*) out)[0] = ((cl_uint*) in)[0]; }
static void uint2float( void *out, void *in)
{
// Use volatile to prevent optimization by Clang compiler
volatile cl_uint l = ((cl_uint *)in)[0];
((float*) out)[0] = (l == 0 ? 0.0f : (float) l); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
}
static void uint2double( void *out, void *in)
{
cl_uint l = ((cl_uint*) in)[0];
((double*) out)[0] = (l == 0 ? 0.0 : (double) l); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
}
static void uint2ulong( void *out, void *in){ ((cl_ulong*) out)[0] = ((cl_uint*) in)[0]; }
static void uint2long( void *out, void *in){ ((cl_long*) out)[0] = ((cl_uint*) in)[0]; }
static void int2uchar( void *out, void *in){ ((cl_uchar*) out)[0] = ((cl_int*) in)[0]; }
static void int2char( void *out, void *in){ ((cl_char*) out)[0] = ((cl_int*) in)[0]; }
static void int2ushort( void *out, void *in){ ((cl_ushort*) out)[0] = ((cl_int*) in)[0]; }
static void int2short( void *out, void *in){ ((cl_short*) out)[0] = ((cl_int*) in)[0]; }
static void int2uint( void *out, void *in){ ((cl_uint*) out)[0] = ((cl_int*) in)[0]; }
static void int2float( void *out, void *in)
{
cl_int l = ((cl_int*) in)[0];
((float*) out)[0] = (l == 0 ? 0.0f : (float) l); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
}
static void int2double( void *out, void *in)
{
cl_int l = ((cl_int*) in)[0];
((double*) out)[0] = (l == 0 ? 0.0 : (double) l); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
}
static void int2ulong( void *out, void *in){ ((cl_ulong*) out)[0] = ((cl_int*) in)[0]; }
static void int2long( void *out, void *in){ ((cl_long*) out)[0] = ((cl_int*) in)[0]; }
static void float2uchar( void *out, void *in){ ((cl_uchar*) out)[0] = my_rintf(((cl_float*) in)[0]); }
static void float2char( void *out, void *in){ ((cl_char*) out)[0] = my_rintf(((cl_float*) in)[0]); }
static void float2ushort( void *out, void *in){ ((cl_ushort*) out)[0] = my_rintf(((cl_float*) in)[0]); }
static void float2short( void *out, void *in){ ((cl_short*) out)[0] = my_rintf(((cl_float*) in)[0]); }
static void float2uint( void *out, void *in){ ((cl_uint*) out)[0] = my_rintf(((cl_float*) in)[0]); }
static void float2int( void *out, void *in){ ((cl_int*) out)[0] = my_rintf(((cl_float*) in)[0]); }
static void float2double( void *out, void *in){ ((cl_double*) out)[0] = ((cl_float*) in)[0]; }
static void float2ulong( void *out, void *in)
{
#if defined(_MSC_VER) && (defined(_M_IX86) || defined(_M_X64))
// VS2005 (at least) on x86 uses fistp to store the float as a 64-bit int.
// However, fistp stores it as a signed int, and some of the test values won't
// fit into a signed int. (These test values are >= 2^63.) The result on VS2005
// is that these end up silently (at least by default settings) clamped to
// the max lowest ulong.
cl_float x = my_rintf(((cl_float *)in)[0]);
if (x >= 9223372036854775808.0f) {
x -= 9223372036854775808.0f;
((cl_ulong*) out)[0] = x;
((cl_ulong*) out)[0] += 9223372036854775808ULL;
} else {
((cl_ulong*) out)[0] = x;
}
#else
((cl_ulong*) out)[0] = my_rintf(((cl_float*) in)[0]);
#endif
}
static void float2long( void *out, void *in){ ((cl_long*) out)[0] = llrint_clamped( ((cl_float*) in)[0] ); }
static void double2uchar( void *out, void *in){ ((cl_uchar*) out)[0] = rint(((cl_double*) in)[0]); }
static void double2char( void *out, void *in){ ((cl_char*) out)[0] = rint(((cl_double*) in)[0]); }
static void double2ushort( void *out, void *in){ ((cl_ushort*) out)[0] = rint(((cl_double*) in)[0]); }
static void double2short( void *out, void *in){ ((cl_short*) out)[0] = rint(((cl_double*) in)[0]); }
static void double2uint( void *out, void *in){ ((cl_uint*) out)[0] = (cl_uint) rint(((cl_double*) in)[0]); }
static void double2int( void *out, void *in){ ((cl_int*) out)[0] = (int) rint(((cl_double*) in)[0]); }
static void double2float( void *out, void *in){ ((cl_float*) out)[0] = (float) ((cl_double*) in)[0]; }
static void double2ulong( void *out, void *in){ ((cl_ulong*) out)[0] = (cl_ulong) rint(((cl_double*) in)[0]); }
static void double2long( void *out, void *in){ ((cl_long*) out)[0] = (cl_long) rint(((cl_double*) in)[0]); }
static void ulong2uchar( void *out, void *in){ ((cl_uchar*) out)[0] = (cl_uchar) ((cl_ulong*) in)[0]; }
static void ulong2char( void *out, void *in){ ((cl_char*) out)[0] = (cl_char) ((cl_ulong*) in)[0]; }
static void ulong2ushort( void *out, void *in){ ((cl_ushort*) out)[0] = (cl_ushort) ((cl_ulong*) in)[0]; }
static void ulong2short( void *out, void *in){ ((cl_short*) out)[0] = (cl_short)((cl_ulong*) in)[0]; }
static void ulong2uint( void *out, void *in){ ((cl_uint*) out)[0] = (cl_uint) ((cl_ulong*) in)[0]; }
static void ulong2int( void *out, void *in){ ((cl_int*) out)[0] = (cl_int) ((cl_ulong*) in)[0]; }
static void ulong2float( void *out, void *in)
{
#if defined(_MSC_VER) && defined(_M_X64)
cl_ulong l = ((cl_ulong*) in)[0];
float result;
cl_long sl = ((cl_long)l < 0) ? (cl_long)((l >> 1) | (l & 1)) : (cl_long)l;
_mm_store_ss(&result, _mm_cvtsi64_ss(_mm_setzero_ps(), sl));
((float*) out)[0] = (l == 0 ? 0.0f : (((cl_long)l < 0) ? result * 2.0f : result));
#else
cl_ulong l = ((cl_ulong*) in)[0];
#if (defined(__arm__) || defined(__aarch64__)) && defined(__GNUC__)
/* ARM VFP doesn't have hardware instruction for converting from 64-bit
* integer to float types, hence GCC ARM uses the floating-point emulation
* code despite which -mfloat-abi setting it is. But the emulation code in
* libgcc.a has only one rounding mode (round to nearest even in this case)
* and ignores the user rounding mode setting in hardware.
* As a result setting rounding modes in hardware won't give correct
* rounding results for type covert from 64-bit integer to float using GCC
* for ARM compiler so for testing different rounding modes, we need to use
* alternative reference function. ARM64 does have an instruction, however
* we cannot guarantee the compiler will use it. On all ARM architechures
* use emulation to calculate reference.*/
((float*) out)[0] = qcom_u64_2_f32(l, qcom_sat, qcom_rm);
#else
((float*) out)[0] = (l == 0 ? 0.0f : (float) l); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
#endif
#endif
}
static void ulong2double( void *out, void *in)
{
#if defined(_MSC_VER)
cl_ulong l = ((cl_ulong*) in)[0];
double result;
cl_long sl = ((cl_long)l < 0) ? (cl_long)((l >> 1) | (l & 1)) : (cl_long)l;
#if defined(_M_X64)
_mm_store_sd(&result, _mm_cvtsi64_sd(_mm_setzero_pd(), sl));
#else
result = sl;
#endif
((double*) out)[0] = (l == 0 ? 0.0 : (((cl_long)l < 0) ? result * 2.0 : result));
#else
// Use volatile to prevent optimization by Clang compiler
volatile cl_ulong l = ((cl_ulong *)in)[0];
((double*) out)[0] = (l == 0 ? 0.0 : (double) l); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
#endif
}
static void ulong2long( void *out, void *in){ ((cl_long*) out)[0] = ((cl_ulong*) in)[0]; }
static void long2uchar( void *out, void *in){ ((cl_uchar*) out)[0] = (cl_uchar) ((cl_long*) in)[0]; }
static void long2char( void *out, void *in){ ((cl_char*) out)[0] = (cl_char) ((cl_long*) in)[0]; }
static void long2ushort( void *out, void *in){ ((cl_ushort*) out)[0] = (cl_ushort) ((cl_long*) in)[0]; }
static void long2short( void *out, void *in){ ((cl_short*) out)[0] = (cl_short) ((cl_long*) in)[0]; }
static void long2uint( void *out, void *in){ ((cl_uint*) out)[0] = (cl_uint) ((cl_long*) in)[0]; }
static void long2int( void *out, void *in){ ((cl_int*) out)[0] = (cl_int) ((cl_long*) in)[0]; }
static void long2float( void *out, void *in)
{
#if defined(_MSC_VER) && defined(_M_X64)
cl_long l = ((cl_long*) in)[0];
float result;
_mm_store_ss(&result, _mm_cvtsi64_ss(_mm_setzero_ps(), l));
((float*) out)[0] = (l == 0 ? 0.0f : result); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
#else
cl_long l = ((cl_long*) in)[0];
#if (defined(__arm__) || defined(__aarch64__)) && defined(__GNUC__)
/* ARM VFP doesn't have hardware instruction for converting from 64-bit
* integer to float types, hence GCC ARM uses the floating-point emulation
* code despite which -mfloat-abi setting it is. But the emulation code in
* libgcc.a has only one rounding mode (round to nearest even in this case)
* and ignores the user rounding mode setting in hardware.
* As a result setting rounding modes in hardware won't give correct
* rounding results for type covert from 64-bit integer to float using GCC
* for ARM compiler so for testing different rounding modes, we need to use
* alternative reference function. ARM64 does have an instruction, however
* we cannot guarantee the compiler will use it. On all ARM architechures
* use emulation to calculate reference.*/
((float*) out)[0] = (l == 0 ? 0.0f : qcom_s64_2_f32(l, qcom_sat, qcom_rm));
#else
((float*) out)[0] = (l == 0 ? 0.0f : (float) l); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
#endif
#endif
}
static void long2double( void *out, void *in)
{
#if defined(_MSC_VER) && defined(_M_X64)
cl_long l = ((cl_long*) in)[0];
double result;
_mm_store_sd(&result, _mm_cvtsi64_sd(_mm_setzero_pd(), l));
((double*) out)[0] = (l == 0 ? 0.0 : result); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
#else
cl_long l = ((cl_long*) in)[0];
((double*) out)[0] = (l == 0 ? 0.0 : (double) l); // Per IEEE-754-2008 5.4.1, 0's always convert to +0.0
#endif
}
static void long2ulong( void *out, void *in){ ((cl_ulong*) out)[0] = ((cl_long*) in)[0]; }
#define CLAMP( _lo, _x, _hi ) ( (_x) < (_lo) ? (_lo) : ((_x) > (_hi) ? (_hi) : (_x)))
// Done by hand
static void uchar2char_sat( void *out, void *in){ cl_uchar c = ((cl_uchar*) in)[0]; ((cl_char*) out)[0] = c > 0x7f ? 0x7f : c; }
static void uchar2ushort_sat( void *out, void *in){ ((cl_ushort*) out)[0] = ((cl_uchar*) in)[0]; }
static void uchar2short_sat( void *out, void *in){ ((cl_short*) out)[0] = ((cl_uchar*) in)[0]; }
static void uchar2uint_sat( void *out, void *in){ ((cl_uint*) out)[0] = ((cl_uchar*) in)[0]; }
static void uchar2int_sat( void *out, void *in){ ((cl_int*) out)[0] = ((cl_uchar*) in)[0]; }
static void uchar2float_sat( void *out, void *in){ ((cl_float*) out)[0] = my_fabsf( (cl_float) ((cl_uchar*) in)[0]); } // my_fabs workaround for <rdar://problem/5965527>
static void uchar2double_sat( void *out, void *in){ ((cl_double*) out)[0] = my_fabs( (cl_double) ((cl_uchar*) in)[0]); } // my_fabs workaround for <rdar://problem/5965527>
static void uchar2ulong_sat( void *out, void *in){ ((cl_ulong*) out)[0] = ((cl_uchar*) in)[0]; }
static void uchar2long_sat( void *out, void *in){ ((cl_long*) out)[0] = ((cl_uchar*) in)[0]; }
static void char2uchar_sat( void *out, void *in){ cl_char c = ((cl_char*) in)[0]; ((cl_uchar*) out)[0] = c < 0 ? 0 : c; }
static void char2ushort_sat( void *out, void *in){ cl_char c = ((cl_char*) in)[0]; ((cl_ushort*) out)[0] = c < 0 ? 0 : c; }
static void char2short_sat( void *out, void *in){ ((cl_short*) out)[0] = ((cl_char*) in)[0]; }
static void char2uint_sat( void *out, void *in){ cl_char c = ((cl_char*) in)[0]; ((cl_uint*) out)[0] = c < 0 ? 0 : c; }
static void char2int_sat( void *out, void *in){ ((cl_int*) out)[0] = ((cl_char*) in)[0]; }
static void char2float_sat( void *out, void *in){ ((cl_float*) out)[0] = ((cl_char*) in)[0]; }
static void char2double_sat( void *out, void *in){ ((cl_double*) out)[0] = ((cl_char*) in)[0]; }
static void char2ulong_sat( void *out, void *in){ cl_char c = ((cl_char*) in)[0]; ((cl_ulong*) out)[0] = c < 0 ? 0 : c; }
static void char2long_sat( void *out, void *in){ ((cl_long*) out)[0] = ((cl_char*) in)[0]; }
static void ushort2uchar_sat( void *out, void *in){ cl_ushort u = ((cl_ushort*) in)[0]; ((cl_uchar*) out)[0] = u > 0xff ? 0xFF : u; }
static void ushort2char_sat( void *out, void *in){ cl_ushort u = ((cl_ushort*) in)[0]; ((cl_char*) out)[0] = u > 0x7f ? 0x7F : u; }
static void ushort2short_sat( void *out, void *in){ cl_ushort u = ((cl_ushort*) in)[0]; ((cl_short*) out)[0] = u > 0x7fff ? 0x7fFF : u; }
static void ushort2uint_sat( void *out, void *in){ ((cl_uint*) out)[0] = ((cl_ushort*) in)[0]; }
static void ushort2int_sat( void *out, void *in){ ((cl_int*) out)[0] = ((cl_ushort*) in)[0]; }
static void ushort2float_sat( void *out, void *in){ ((cl_float*) out)[0] = my_fabsf((cl_float)((cl_ushort*) in)[0]); } // my_fabs workaround for <rdar://problem/5965527>
static void ushort2double_sat( void *out, void *in){ ((cl_double*) out)[0] = my_fabs( (cl_double) ((cl_ushort*) in)[0]); } // my_fabs workaround for <rdar://problem/5965527>
static void ushort2ulong_sat( void *out, void *in){ ((cl_ulong*) out)[0] = ((cl_ushort*) in)[0]; }
static void ushort2long_sat( void *out, void *in){ ((cl_long*) out)[0] = ((cl_ushort*) in)[0]; }
static void short2uchar_sat( void *out, void *in){ cl_short s = ((cl_short*) in)[0]; ((cl_uchar*) out)[0] = CLAMP( 0, s, CL_UCHAR_MAX ); }
static void short2char_sat( void *out, void *in){ cl_short s = ((cl_short*) in)[0]; ((cl_char*) out)[0] = CLAMP( CL_CHAR_MIN, s, CL_CHAR_MAX ); }
static void short2ushort_sat( void *out, void *in){ cl_short s = ((cl_short*) in)[0]; ((cl_ushort*) out)[0] = s < 0 ? 0 : s; }
static void short2uint_sat( void *out, void *in){ cl_short s = ((cl_short*) in)[0]; ((cl_uint*) out)[0] = s < 0 ? 0 : s; }
static void short2int_sat( void *out, void *in){ ((cl_int*) out)[0] = ((cl_short*) in)[0]; }
static void short2float_sat( void *out, void *in){ ((cl_float*) out)[0] = ((cl_short*) in)[0]; }
static void short2double_sat( void *out, void *in){ ((cl_double*) out)[0] = ((cl_short*) in)[0]; }
static void short2ulong_sat( void *out, void *in){ cl_short s = ((cl_short*) in)[0]; ((cl_ulong*) out)[0] = s < 0 ? 0 : s; }
static void short2long_sat( void *out, void *in){ ((cl_long*) out)[0] = ((cl_short*) in)[0]; }
static void uint2uchar_sat( void *out, void *in){ cl_uint u = ((cl_uint*) in)[0]; ((cl_uchar*) out)[0] = CLAMP( 0, u, CL_UCHAR_MAX); }
static void uint2char_sat( void *out, void *in){ cl_uint u = ((cl_uint*) in)[0]; ((cl_char*) out)[0] = CLAMP( 0, u, CL_CHAR_MAX ); }
static void uint2ushort_sat( void *out, void *in){ cl_uint u = ((cl_uint*) in)[0]; ((cl_ushort*) out)[0] = CLAMP( 0, u, CL_USHRT_MAX); }
static void uint2short_sat( void *out, void *in){ cl_uint u = ((cl_uint*) in)[0]; ((cl_short*) out)[0] = CLAMP( 0, u, CL_SHRT_MAX); }
static void uint2int_sat( void *out, void *in){ cl_uint u = ((cl_uint*) in)[0]; ((cl_int*) out)[0] = CLAMP( 0, u, CL_INT_MAX); }
static void uint2float_sat( void *out, void *in){ ((cl_float*) out)[0] = my_fabsf( (cl_float) ((cl_uint*) in)[0] ); } // my_fabs workaround for <rdar://problem/5965527>
static void uint2double_sat( void *out, void *in){ ((cl_double*) out)[0] = my_fabs( (cl_double) ((cl_uint*) in)[0]); } // my_fabs workaround for <rdar://problem/5965527>
static void uint2ulong_sat( void *out, void *in){ ((cl_ulong*) out)[0] = ((cl_uint*) in)[0]; }
static void uint2long_sat( void *out, void *in){ ((cl_long*) out)[0] = ((cl_uint*) in)[0]; }
static void int2uchar_sat( void *out, void *in){ cl_int i = ((cl_int*) in)[0]; ((cl_uchar*) out)[0] = CLAMP( 0, i, CL_UCHAR_MAX); }
static void int2char_sat( void *out, void *in){ cl_int i = ((cl_int*) in)[0]; ((cl_char*) out)[0] = CLAMP( CL_CHAR_MIN, i, CL_CHAR_MAX); }
static void int2ushort_sat( void *out, void *in){ cl_int i = ((cl_int*) in)[0]; ((cl_ushort*) out)[0] = CLAMP( 0, i, CL_USHRT_MAX); }
static void int2short_sat( void *out, void *in){ cl_int i = ((cl_int*) in)[0]; ((cl_short*) out)[0] = CLAMP( CL_SHRT_MIN, i, CL_SHRT_MAX); }
static void int2uint_sat( void *out, void *in){ cl_int i = ((cl_int*) in)[0]; ((cl_uint*) out)[0] = CLAMP( 0, i, CL_INT_MAX); }
static void int2float_sat( void *out, void *in){ ((cl_float*) out)[0] = ((cl_int*) in)[0]; }
static void int2double_sat( void *out, void *in){ ((cl_double*) out)[0] = ((cl_int*) in)[0]; }
static void int2ulong_sat( void *out, void *in){ cl_int i = ((cl_int*) in)[0]; ((cl_ulong*) out)[0] = i < 0 ? 0 : i; }
static void int2long_sat( void *out, void *in){ ((cl_long*) out)[0] = ((cl_int*) in)[0]; }
static void float2uchar_sat( void *out, void *in){ ((cl_uchar*) out)[0] = CLAMP( 0, lrintf_clamped(((cl_float*) in)[0]), CL_UCHAR_MAX ); }
static void float2char_sat( void *out, void *in){ ((cl_char*) out)[0] = CLAMP( CL_CHAR_MIN, lrintf_clamped(((cl_float*) in)[0]), CL_CHAR_MAX); }
static void float2ushort_sat( void *out, void *in){ ((cl_ushort*) out)[0] = CLAMP( 0, lrintf_clamped(((cl_float*) in)[0]), CL_USHRT_MAX ); }
static void float2short_sat( void *out, void *in){ ((cl_short*) out)[0] = CLAMP( CL_SHRT_MIN, lrintf_clamped(((cl_float*) in)[0]), CL_SHRT_MAX ); }
static void float2uint_sat( void *out, void *in){ ((cl_uint*) out)[0] = (cl_uint) CLAMP( 0, llrintf_clamped(((cl_float*) in)[0]), CL_UINT_MAX ); }
static void float2int_sat( void *out, void *in){ ((cl_int*) out)[0] = (cl_int) CLAMP( CL_INT_MIN, lrintf_clamped(((cl_float*) in)[0]), CL_INT_MAX ); }
static void float2double_sat( void *out, void *in){ ((cl_double*) out)[0] = ((cl_float*) in)[0]; }
static void float2ulong_sat( void *out, void *in)
{
#if defined(_MSC_VER) && (defined(_M_IX86) || defined(_M_X64))
// VS2005 (at least) on x86 uses fistp to store the float as a 64-bit int.
// However, fistp stores it as a signed int, and some of the test values won't
// fit into a signed int. (These test values are >= 2^63.) The result on VS2005
// is that these end up silently (at least by default settings) clamped to
// the max lowest ulong.
cl_float x = my_rintf(((cl_float *)in)[0]);
if (x >= 18446744073709551616.0f) { // 2^64
((cl_ulong*) out)[0] = 0xFFFFFFFFFFFFFFFFULL;
} else if (x < 0) {
((cl_ulong*) out)[0] = 0;
} else if (x >= 9223372036854775808.0f) { // 2^63
x -= 9223372036854775808.0f;
((cl_ulong*) out)[0] = x;
((cl_ulong*) out)[0] += 9223372036854775808ULL;
} else {
((cl_ulong*) out)[0] = x;
}
#else
float f = my_rintf(((float*) in)[0]); ((cl_ulong*) out)[0] = f >= MAKE_HEX_DOUBLE(0x1.0p64, 0x1LL, 64) ? 0xFFFFFFFFFFFFFFFFULL : f < 0 ? 0 : (cl_ulong) f;
#endif
}
// The final cast used to be (cl_ulong) f, but on Linux (RHEL5 at least)
// if f = -1.0f, then (cl_ulong) f = 0xffffffff, which clearly isn't right.
// Switching it to (cl_long) f seems to fix that.
static void float2long_sat( void *out, void *in){ float f = my_rintf(((float*) in)[0]); ((cl_long*) out)[0] = f >= MAKE_HEX_DOUBLE(0x1.0p63, 0x1LL, 63) ? 0x7FFFFFFFFFFFFFFFULL : f < MAKE_HEX_DOUBLE(-0x1.0p63, -0x1LL, 63) ? 0x8000000000000000LL : (cl_long) f; }
static void double2uchar_sat( void *out, void *in){ ((cl_uchar*) out)[0] = CLAMP( 0, lrint_clamped(((cl_double*) in)[0]), CL_UCHAR_MAX ); }
static void double2char_sat( void *out, void *in){ ((cl_char*) out)[0] = CLAMP( CL_CHAR_MIN, lrint_clamped(((cl_double*) in)[0]), CL_CHAR_MAX); }
static void double2ushort_sat( void *out, void *in){ ((cl_ushort*) out)[0] = CLAMP( 0, lrint_clamped(((cl_double*) in)[0]), CL_USHRT_MAX ); }
static void double2short_sat( void *out, void *in){ ((cl_short*) out)[0] = CLAMP( CL_SHRT_MIN, lrint_clamped(((cl_double*) in)[0]), CL_SHRT_MAX ); }
static void double2uint_sat( void *out, void *in){ ((cl_uint*) out)[0] = (cl_uint) CLAMP( 0, llrint_clamped(((cl_double*) in)[0]), CL_UINT_MAX ); }
static void double2int_sat( void *out, void *in){ ((cl_int*) out)[0] = (cl_int) CLAMP( CL_INT_MIN, lrint_clamped(((cl_double*) in)[0]), CL_INT_MAX ); }
static void double2float_sat( void *out, void *in){ ((cl_float*) out)[0] = (cl_float) ((double*) in)[0]; }
static void double2ulong_sat( void *out, void *in){ double f = rint(((double*) in)[0]); ((cl_ulong*) out)[0] = f >= MAKE_HEX_DOUBLE(0x1.0p64, 0x1LL, 64) ? 0xFFFFFFFFFFFFFFFFULL : f < 0 ? 0 : (cl_ulong) f; }
static void double2long_sat( void *out, void *in){ double f = rint(((double*) in)[0]); ((cl_long*) out)[0] = f >= MAKE_HEX_DOUBLE(0x1.0p63, 0x1LL, 63) ? 0x7FFFFFFFFFFFFFFFULL : f < MAKE_HEX_DOUBLE(-0x1.0p63, -0x1LL, 63) ? 0x8000000000000000LL : (cl_long) f; }
static void ulong2uchar_sat( void *out, void *in){ cl_ulong u = ((cl_ulong*) in)[0]; ((cl_uchar*) out)[0] = CLAMP( 0, u, CL_UCHAR_MAX ); }
static void ulong2char_sat( void *out, void *in){ cl_ulong u = ((cl_ulong*) in)[0]; ((cl_char*) out)[0] = CLAMP( 0, u, CL_CHAR_MAX ); }
static void ulong2ushort_sat( void *out, void *in){ cl_ulong u = ((cl_ulong*) in)[0]; ((cl_ushort*) out)[0] = CLAMP( 0, u, CL_USHRT_MAX ); }
static void ulong2short_sat( void *out, void *in){ cl_ulong u = ((cl_ulong*) in)[0]; ((cl_short*) out)[0] = CLAMP( 0, u, CL_SHRT_MAX ); }
static void ulong2uint_sat( void *out, void *in){ cl_ulong u = ((cl_ulong*) in)[0]; ((cl_uint*) out)[0] = (cl_uint) CLAMP( 0, u, CL_UINT_MAX ); }
static void ulong2int_sat( void *out, void *in){ cl_ulong u = ((cl_ulong*) in)[0]; ((cl_int*) out)[0] = (cl_int) CLAMP( 0, u, CL_INT_MAX ); }
static void ulong2float_sat( void *out, void *in){ ((float*) out)[0] = my_fabsf((float) ((cl_ulong*) in)[0]); } // my_fabs workaround for <rdar://problem/5965527>
static void ulong2double_sat( void *out, void *in){ ((double*) out)[0] = my_fabs( ((cl_ulong*) in)[0]); } // my_fabs workaround for <rdar://problem/5965527>
static void ulong2long_sat( void *out, void *in){ cl_ulong u = ((cl_ulong*) in)[0]; ((cl_long*) out)[0] = CLAMP( 0, u, CL_LONG_MAX ); }
static void long2uchar_sat( void *out, void *in){ cl_long u = ((cl_long*) in)[0]; ((cl_uchar*) out)[0] = CLAMP( 0, u, CL_UCHAR_MAX ); }
static void long2char_sat( void *out, void *in){ cl_long u = ((cl_long*) in)[0]; ((cl_char*) out)[0] = CLAMP( CL_CHAR_MIN, u, CL_CHAR_MAX ); }
static void long2ushort_sat( void *out, void *in){ cl_long u = ((cl_long*) in)[0]; ((cl_ushort*) out)[0] = CLAMP( 0, u, CL_USHRT_MAX ); }
static void long2short_sat( void *out, void *in){ cl_long u = ((cl_long*) in)[0]; ((cl_short*) out)[0] = CLAMP( CL_SHRT_MIN, u, CL_SHRT_MAX ); }
static void long2uint_sat( void *out, void *in){ cl_long u = ((cl_long*) in)[0]; ((cl_uint*) out)[0] = (cl_uint) CLAMP( 0, u, CL_UINT_MAX ); }
static void long2int_sat( void *out, void *in){ cl_long u = ((cl_long*) in)[0]; ((cl_int*) out)[0] = (int) CLAMP( CL_INT_MIN, u, CL_INT_MAX ); }
static void long2float_sat( void *out, void *in){ ((float*) out)[0] = (float) ((cl_long*) in)[0]; }
static void long2double_sat( void *out, void *in){ ((double*) out)[0] = ((cl_long*) in)[0]; }
static void long2ulong_sat( void *out, void *in){ cl_long u = ((cl_long*) in)[0]; ((cl_ulong*) out)[0] = CLAMP( 0, u, CL_LONG_MAX ); }
/*
#include <stdio.h>
char *ground[] = { "",
"_rte",
"_rtp",
"_rtn",
"_rtz"
};
const char *gTypeNames[ ] = {
"uchar", "char",
"ushort", "short",
"uint", "int",
"float", "double",
"ulong", "long"
};
int main( void )
{
int i, j;
for( i = 0; i < sizeof( gTypeNames ) / sizeof( gTypeNames[0] ); i++ )
for( j = 0; j < sizeof( ground ) / sizeof( ground[0] ); j++ )
{
vlog( "float clampf_%s%s( float );\n", gTypeNames[i], ground[j] );
vlog( "double clampd_%s%s( double );\n", gTypeNames[i], ground[j] );
}
return 0;
}
*/
float clampf_uchar( float );
double clampd_uchar( double );
float clampf_uchar_rte( float );
double clampd_uchar_rte( double );
float clampf_uchar_rtp( float );
double clampd_uchar_rtp( double );
float clampf_uchar_rtn( float );
double clampd_uchar_rtn( double );
float clampf_uchar_rtz( float );
double clampd_uchar_rtz( double );
float clampf_char( float );
double clampd_char( double );
float clampf_char_rte( float );
double clampd_char_rte( double );
float clampf_char_rtp( float );
double clampd_char_rtp( double );
float clampf_char_rtn( float );
double clampd_char_rtn( double );
float clampf_char_rtz( float );
double clampd_char_rtz( double );
float clampf_ushort( float );
double clampd_ushort( double );
float clampf_ushort_rte( float );
double clampd_ushort_rte( double );
float clampf_ushort_rtp( float );
double clampd_ushort_rtp( double );
float clampf_ushort_rtn( float );
double clampd_ushort_rtn( double );
float clampf_ushort_rtz( float );
double clampd_ushort_rtz( double );
float clampf_short( float );
double clampd_short( double );
float clampf_short_rte( float );
double clampd_short_rte( double );
float clampf_short_rtp( float );
double clampd_short_rtp( double );
float clampf_short_rtn( float );
double clampd_short_rtn( double );
float clampf_short_rtz( float );
double clampd_short_rtz( double );
float clampf_uint( float );
double clampd_uint( double );
float clampf_uint_rte( float );
double clampd_uint_rte( double );
float clampf_uint_rtp( float );
double clampd_uint_rtp( double );
float clampf_uint_rtn( float );
double clampd_uint_rtn( double );
float clampf_uint_rtz( float );
double clampd_uint_rtz( double );
float clampf_int( float );
double clampd_int( double );
float clampf_int_rte( float );
double clampd_int_rte( double );
float clampf_int_rtp( float );
double clampd_int_rtp( double );
float clampf_int_rtn( float );
double clampd_int_rtn( double );
float clampf_int_rtz( float );
double clampd_int_rtz( double );
float clampf_float( float );
double clampd_float( double );
float clampf_float_rte( float );
double clampd_float_rte( double );
float clampf_float_rtp( float );
double clampd_float_rtp( double );
float clampf_float_rtn( float );
double clampd_float_rtn( double );
float clampf_float_rtz( float );
double clampd_float_rtz( double );
float clampf_double( float );
double clampd_double( double );
float clampf_double_rte( float );
double clampd_double_rte( double );
float clampf_double_rtp( float );
double clampd_double_rtp( double );
float clampf_double_rtn( float );
double clampd_double_rtn( double );
float clampf_double_rtz( float );
double clampd_double_rtz( double );
float clampf_ulong( float );
double clampd_ulong( double );
float clampf_ulong_rte( float );
double clampd_ulong_rte( double );
float clampf_ulong_rtp( float );
double clampd_ulong_rtp( double );
float clampf_ulong_rtn( float );
double clampd_ulong_rtn( double );
float clampf_ulong_rtz( float );
double clampd_ulong_rtz( double );
float clampf_long( float );
double clampd_long( double );
float clampf_long_rte( float );
double clampd_long_rte( double );
float clampf_long_rtp( float );
double clampd_long_rtp( double );
float clampf_long_rtn( float );
double clampd_long_rtn( double );
float clampf_long_rtz( float );
double clampd_long_rtz( double );
/*
#include <stdio.h>
char *ground[] = { "",
"_rte",
"_rtp",
"_rtn",
"_rtz"
};
const char *gTypeNames[ ] = {
"uchar", "char",
"ushort", "short",
"uint", "int",
"float", "double",
"ulong", "long"
};
int main( void )
{
int i, j;
for( i = 0; i < sizeof( gTypeNames ) / sizeof( gTypeNames[0] ); i++ )
{
vlog( "{\t" );
for( j = 0; j < sizeof( ground ) / sizeof( ground[0] ); j++ )
vlog( "clampf_%s%s,\t", gTypeNames[i], ground[j] );
vlog( "\t},\n" );
}
return 0;
}
*/
clampf gClampFloat[ kTypeCount ][kRoundingModeCount] = {
{ clampf_uchar, clampf_uchar_rte, clampf_uchar_rtp, clampf_uchar_rtn, clampf_uchar_rtz, },
{ clampf_char, clampf_char_rte, clampf_char_rtp, clampf_char_rtn, clampf_char_rtz, },
{ clampf_ushort, clampf_ushort_rte, clampf_ushort_rtp, clampf_ushort_rtn, clampf_ushort_rtz, },
{ clampf_short, clampf_short_rte, clampf_short_rtp, clampf_short_rtn, clampf_short_rtz, },
{ clampf_uint, clampf_uint_rte, clampf_uint_rtp, clampf_uint_rtn, clampf_uint_rtz, },
{ clampf_int, clampf_int_rte, clampf_int_rtp, clampf_int_rtn, clampf_int_rtz, },
{ clampf_float, clampf_float_rte, clampf_float_rtp, clampf_float_rtn, clampf_float_rtz, },
{ clampf_double, clampf_double_rte, clampf_double_rtp, clampf_double_rtn, clampf_double_rtz, },
{ clampf_ulong, clampf_ulong_rte, clampf_ulong_rtp, clampf_ulong_rtn, clampf_ulong_rtz, },
{ clampf_long, clampf_long_rte, clampf_long_rtp, clampf_long_rtn, clampf_long_rtz, }
};
clampd gClampDouble[ kTypeCount ][kRoundingModeCount] = {
{ clampd_uchar, clampd_uchar_rte, clampd_uchar_rtp, clampd_uchar_rtn, clampd_uchar_rtz, },
{ clampd_char, clampd_char_rte, clampd_char_rtp, clampd_char_rtn, clampd_char_rtz, },
{ clampd_ushort, clampd_ushort_rte, clampd_ushort_rtp, clampd_ushort_rtn, clampd_ushort_rtz, },
{ clampd_short, clampd_short_rte, clampd_short_rtp, clampd_short_rtn, clampd_short_rtz, },
{ clampd_uint, clampd_uint_rte, clampd_uint_rtp, clampd_uint_rtn, clampd_uint_rtz, },
{ clampd_int, clampd_int_rte, clampd_int_rtp, clampd_int_rtn, clampd_int_rtz, },
{ clampd_float, clampd_float_rte, clampd_float_rtp, clampd_float_rtn, clampd_float_rtz, },
{ clampd_double, clampd_double_rte, clampd_double_rtp, clampd_double_rtn, clampd_double_rtz, },
{ clampd_ulong, clampd_ulong_rte, clampd_ulong_rtp, clampd_ulong_rtn, clampd_ulong_rtz, },
{ clampd_long, clampd_long_rte, clampd_long_rtp, clampd_long_rtn, clampd_long_rtz, }
};
#if defined (_WIN32)
#define __attribute__(X)
#endif
static inline float fclamp( float lo, float v, float hi ) __attribute__ ((always_inline));
static inline double dclamp( double lo, double v, double hi ) __attribute__ ((always_inline));
static inline float fclamp( float lo, float v, float hi ){ v = v < lo ? lo : v; return v < hi ? v : hi; }
static inline double dclamp( double lo, double v, double hi ){ v = v < lo ? lo : v; return v < hi ? v : hi; }
// Clamp unsaturated inputs into range so we don't get test errors:
float clampf_uchar( float f ) { return fclamp( -0.5f, f, 255.5f - 128.0f * FLT_EPSILON ); }
double clampd_uchar( double f ) { return dclamp( -0.5, f, 255.5 - 128.0 * DBL_EPSILON ); }
float clampf_uchar_rte( float f ) { return fclamp( -0.5f, f, 255.5f - 128.0f * FLT_EPSILON ); }
double clampd_uchar_rte( double f ) { return dclamp( -0.5, f, 255.5 - 128.0 * DBL_EPSILON ); }
float clampf_uchar_rtp( float f ) { return fclamp( -1.0f + FLT_EPSILON/2.0f, f, 255.0f ); }
double clampd_uchar_rtp( double f ) { return dclamp( -1.0 + DBL_EPSILON/2.0, f, 255.0 ); }
float clampf_uchar_rtn( float f ) { return fclamp( -0.0f, f, 256.0f - 128.0f * FLT_EPSILON); }
double clampd_uchar_rtn( double f ) { return dclamp( -0.0, f, 256.0 - 128.0 * DBL_EPSILON); }
float clampf_uchar_rtz( float f ) { return fclamp( -1.0f + FLT_EPSILON/2.0f, f, 256.0f - 128.0f * FLT_EPSILON); }
double clampd_uchar_rtz( double f ) { return dclamp( -1.0 + DBL_EPSILON/2.0, f, 256.0 - 128.0f * DBL_EPSILON); }
float clampf_char( float f ) { return fclamp( -128.5f, f, 127.5f - 64.f * FLT_EPSILON ); }
double clampd_char( double f ) { return dclamp( -128.5, f, 127.5 - 64. * DBL_EPSILON ); }
float clampf_char_rte( float f ) { return fclamp( -128.5f, f, 127.5f - 64.f * FLT_EPSILON ); }
double clampd_char_rte( double f ) { return dclamp( -128.5, f, 127.5 - 64. * DBL_EPSILON ); }
float clampf_char_rtp( float f ) { return fclamp( -129.0f + 128.f*FLT_EPSILON, f, 127.f ); }
double clampd_char_rtp( double f ) { return dclamp( -129.0 + 128.*DBL_EPSILON, f, 127. ); }
float clampf_char_rtn( float f ) { return fclamp( -128.0f, f, 128.f - 64.0f*FLT_EPSILON ); }
double clampd_char_rtn( double f ) { return dclamp( -128.0, f, 128. - 64.0*DBL_EPSILON ); }
float clampf_char_rtz( float f ) { return fclamp( -129.0f + 128.f*FLT_EPSILON, f, 128.f - 64.0f*FLT_EPSILON ); }
double clampd_char_rtz( double f ) { return dclamp( -129.0 + 128.*DBL_EPSILON, f, 128. - 64.0*DBL_EPSILON ); }
float clampf_ushort( float f ) { return fclamp( -0.5f, f, 65535.5f - 32768.0f * FLT_EPSILON ); }
double clampd_ushort( double f ) { return dclamp( -0.5, f, 65535.5 - 32768.0 * DBL_EPSILON ); }
float clampf_ushort_rte( float f ) { return fclamp( -0.5f, f, 65535.5f - 32768.0f * FLT_EPSILON ); }
double clampd_ushort_rte( double f ) { return dclamp( -0.5, f, 65535.5 - 32768.0 * DBL_EPSILON ); }
float clampf_ushort_rtp( float f ) { return fclamp( -1.0f + FLT_EPSILON/2.0f, f, 65535.0f ); }
double clampd_ushort_rtp( double f ) { return dclamp( -1.0 + DBL_EPSILON/2.0, f, 65535.0 ); }
float clampf_ushort_rtn( float f ) { return fclamp( -0.0f, f, 65536.0f - 32768.0f * FLT_EPSILON); }
double clampd_ushort_rtn( double f ) { return dclamp( -0.0, f, 65536.0 - 32768.0 * DBL_EPSILON); }
float clampf_ushort_rtz( float f ) { return fclamp( -1.0f + FLT_EPSILON/2.0f, f, 65536.0f - 32768.0f * FLT_EPSILON); }
double clampd_ushort_rtz( double f ) { return dclamp( -1.0 + DBL_EPSILON/2.0, f, 65536.0 - 32768.0f * DBL_EPSILON); }
float clampf_short( float f ) { return fclamp( -32768.5f, f, 32767.5f - 16384.f * FLT_EPSILON ); }
double clampd_short( double f ) { return dclamp( -32768.5, f, 32767.5 - 16384. * DBL_EPSILON ); }
float clampf_short_rte( float f ) { return fclamp( -32768.5f, f, 32767.5f - 16384.f * FLT_EPSILON ); }
double clampd_short_rte( double f ) { return dclamp( -32768.5, f, 32767.5 - 16384. * DBL_EPSILON ); }
float clampf_short_rtp( float f ) { return fclamp( -32769.0f + 32768.f*FLT_EPSILON, f, 32767.f ); }
double clampd_short_rtp( double f ) { return dclamp( -32769.0 + 32768.*DBL_EPSILON, f, 32767. ); }
float clampf_short_rtn( float f ) { return fclamp( -32768.0f, f, 32768.f - 16384.0f*FLT_EPSILON ); }
double clampd_short_rtn( double f ) { return dclamp( -32768.0, f, 32768. - 16384.0*DBL_EPSILON ); }
float clampf_short_rtz( float f ) { return fclamp( -32769.0f + 32768.f*FLT_EPSILON, f, 32768.f - 16384.0f*FLT_EPSILON ); }
double clampd_short_rtz( double f ) { return dclamp( -32769.0 + 32768.*DBL_EPSILON, f, 32768. - 16384.0*DBL_EPSILON ); }
float clampf_uint( float f ) { return fclamp( -0.5f, f, MAKE_HEX_FLOAT(0x1.fffffep31f, 0x1fffffeL, 7) ); }
double clampd_uint( double f ) { return dclamp( -0.5, f, CL_UINT_MAX + 0.5 - MAKE_HEX_DOUBLE(0x1.0p31, 0x1LL, 31) * DBL_EPSILON ); }
float clampf_uint_rte( float f ) { return fclamp( -0.5f, f, MAKE_HEX_FLOAT(0x1.fffffep31f, 0x1fffffeL, 7) ); }
double clampd_uint_rte( double f ) { return dclamp( -0.5, f, CL_UINT_MAX + 0.5 - MAKE_HEX_DOUBLE(0x1.0p31, 0x1LL, 31) * DBL_EPSILON ); }
float clampf_uint_rtp( float f ) { return fclamp( -1.0f + FLT_EPSILON/2.0f, f, MAKE_HEX_FLOAT(0x1.fffffep31f, 0x1fffffeL, 7) ); }
double clampd_uint_rtp( double f ) { return dclamp( -1.0 + DBL_EPSILON/2.0, f, CL_UINT_MAX ); }
float clampf_uint_rtn( float f ) { return fclamp( -0.0f, f, MAKE_HEX_FLOAT(0x1.fffffep31f, 0x1fffffeL, 7)); }
double clampd_uint_rtn( double f ) { return dclamp( -0.0, f, MAKE_HEX_DOUBLE(0x1.fffffffffffffp31, 0x1fffffffffffffLL, -21) ); }
float clampf_uint_rtz( float f ) { return fclamp( -1.0f + FLT_EPSILON/2.0f, f, MAKE_HEX_FLOAT(0x1.fffffep31f, 0x1fffffeL, 7)); }
double clampd_uint_rtz( double f ) { return dclamp( -1.0 + DBL_EPSILON/2.0, f, MAKE_HEX_DOUBLE(0x1.fffffffffffffp31, 0x1fffffffffffffLL, -21)); }
float clampf_int( float f ) { return fclamp( INT_MIN, f, MAKE_HEX_FLOAT(0x1.fffffep30f, 0x1fffffeL, 6) ); }
double clampd_int( double f ) { return dclamp( INT_MIN - 0.5, f, CL_INT_MAX + 0.5 - MAKE_HEX_DOUBLE(0x1.0p30, 0x1LL, 30) * DBL_EPSILON ); }
float clampf_int_rte( float f ) { return fclamp( INT_MIN, f, MAKE_HEX_FLOAT(0x1.fffffep30f, 0x1fffffeL, 6) ); }
double clampd_int_rte( double f ) { return dclamp( INT_MIN - 0.5, f, CL_INT_MAX + 0.5 - MAKE_HEX_DOUBLE(0x1.0p30, 0x1LL, 30) * DBL_EPSILON ); }
float clampf_int_rtp( float f ) { return fclamp( INT_MIN, f, MAKE_HEX_FLOAT(0x1.fffffep30f, 0x1fffffeL, 6) ); }
double clampd_int_rtp( double f ) { return dclamp( INT_MIN - 1.0 + DBL_EPSILON * MAKE_HEX_DOUBLE(0x1.0p31, 0x1LL, 31), f, CL_INT_MAX ); }
float clampf_int_rtn( float f ) { return fclamp( INT_MIN, f, MAKE_HEX_FLOAT(0x1.fffffep30f, 0x1fffffeL, 6) ); }
double clampd_int_rtn( double f ) { return dclamp( INT_MIN, f, CL_INT_MAX + 1.0 - MAKE_HEX_DOUBLE(0x1.0p30, 0x1LL, 30) * DBL_EPSILON ); }
float clampf_int_rtz( float f ) { return fclamp( INT_MIN, f, MAKE_HEX_FLOAT(0x1.fffffep30f, 0x1fffffeL, 6) ); }
double clampd_int_rtz( double f ) { return dclamp( INT_MIN - 1.0 + DBL_EPSILON * MAKE_HEX_DOUBLE(0x1.0p31, 0x1LL, 31), f, CL_INT_MAX + 1.0 - MAKE_HEX_DOUBLE(0x1.0p30, 0x1LL, 30) * DBL_EPSILON ); }
float clampf_float( float f ){ return f; }
double clampd_float( double f ){ return f; }
float clampf_float_rte( float f ){ return f; }
double clampd_float_rte( double f ){ return f; }
float clampf_float_rtp( float f ){ return f; }
double clampd_float_rtp( double f ){ return f; }
float clampf_float_rtn( float f ){ return f; }
double clampd_float_rtn( double f ){ return f; }
float clampf_float_rtz( float f ){ return f; }
double clampd_float_rtz( double f ){ return f; }
float clampf_double( float f ){ return f; }
double clampd_double( double f ){ return f; }
float clampf_double_rte( float f ){ return f; }
double clampd_double_rte( double f ){ return f; }
float clampf_double_rtp( float f ){ return f; }
double clampd_double_rtp( double f ){ return f; }
float clampf_double_rtn( float f ){ return f; }
double clampd_double_rtn( double f ){ return f; }
float clampf_double_rtz( float f ){ return f; }
double clampd_double_rtz( double f ){ return f; }
float clampf_ulong( float f ) { return fclamp( -0.5f, f, MAKE_HEX_FLOAT(0x1.fffffep63f, 0x1fffffeL, 39) ); }
double clampd_ulong( double f ) { return dclamp( -0.5, f, MAKE_HEX_DOUBLE(0x1.fffffffffffffp63, 0x1fffffffffffffLL, 11) ); }
float clampf_ulong_rte( float f ) { return fclamp( -0.5f, f, MAKE_HEX_FLOAT(0x1.fffffep63f, 0x1fffffeL, 39) ); }
double clampd_ulong_rte( double f ) { return dclamp( -0.5, f, MAKE_HEX_DOUBLE(0x1.fffffffffffffp63, 0x1fffffffffffffLL, 11) ); }
float clampf_ulong_rtp( float f ) { return fclamp( -1.0f + FLT_EPSILON/2.0f, f, MAKE_HEX_FLOAT(0x1.fffffep63f, 0x1fffffeL, 39) ); }
double clampd_ulong_rtp( double f ) { return dclamp( -1.0 + DBL_EPSILON/2.0, f, MAKE_HEX_DOUBLE(0x1.fffffffffffffp63, 0x1fffffffffffffLL, 11) ); }
float clampf_ulong_rtn( float f ) { return fclamp( -0.0f, f, MAKE_HEX_FLOAT(0x1.fffffep63f, 0x1fffffeL, 39) ); }
double clampd_ulong_rtn( double f ) { return dclamp( -0.0, f, MAKE_HEX_DOUBLE(0x1.fffffffffffffp63, 0x1fffffffffffffLL, 11) ); }
float clampf_ulong_rtz( float f ) { return fclamp( -1.0f + FLT_EPSILON/2.0f, f, MAKE_HEX_FLOAT(0x1.fffffep63f, 0x1fffffeL, 39) ); }
double clampd_ulong_rtz( double f ) { return dclamp( -1.0 + DBL_EPSILON/2.0, f, MAKE_HEX_DOUBLE(0x1.fffffffffffffp63, 0x1fffffffffffffLL, 11) ); }
float clampf_long( float f ) { return fclamp( MAKE_HEX_FLOAT(-0x1.0p63f, -0x1L, 63), f, MAKE_HEX_FLOAT(0x1.fffffep62f, 0x1fffffeL, 38) ); }
double clampd_long( double f ) { return dclamp( MAKE_HEX_DOUBLE(-0x1.0p63, -0x1LL, 63), f, MAKE_HEX_DOUBLE(0x1.fffffffffffffp62, 0x1fffffffffffffLL, 10) ); }
float clampf_long_rte( float f ) { return fclamp( MAKE_HEX_FLOAT(-0x1.0p63f, -0x1L, 63), f, MAKE_HEX_FLOAT(0x1.fffffep62f, 0x1fffffeL, 38) ); }
double clampd_long_rte( double f ) { return dclamp( MAKE_HEX_DOUBLE(-0x1.0p63, -0x1LL, 63), f, MAKE_HEX_DOUBLE(0x1.fffffffffffffp62, 0x1fffffffffffffLL, 10) ); }
float clampf_long_rtp( float f ) { return fclamp( MAKE_HEX_FLOAT(-0x1.0p63f, -0x1L, 63), f, MAKE_HEX_FLOAT(0x1.fffffep62f, 0x1fffffeL, 38) ); }
double clampd_long_rtp( double f ) { return dclamp( MAKE_HEX_DOUBLE(-0x1.0p63, -0x1LL, 63), f, MAKE_HEX_DOUBLE(0x1.fffffffffffffp62, 0x1fffffffffffffLL, 10) ); }
float clampf_long_rtn( float f ) { return fclamp( MAKE_HEX_FLOAT(-0x1.0p63f, -0x1L, 63), f, MAKE_HEX_FLOAT(0x1.fffffep62f, 0x1fffffeL, 38) ); }
double clampd_long_rtn( double f ) { return dclamp( MAKE_HEX_DOUBLE(-0x1.0p63, -0x1LL, 63), f, MAKE_HEX_DOUBLE(0x1.fffffffffffffp62, 0x1fffffffffffffLL, 10) ); }
float clampf_long_rtz( float f ) { return fclamp( MAKE_HEX_FLOAT(-0x1.0p63f, -0x1L, 63), f, MAKE_HEX_FLOAT(0x1.fffffep62f, 0x1fffffeL, 38) ); }
double clampd_long_rtz( double f ) { return dclamp( MAKE_HEX_DOUBLE(-0x1.0p63, -0x1LL, 63), f, MAKE_HEX_DOUBLE(0x1.fffffffffffffp62, 0x1fffffffffffffLL, 10) ); }
#pragma mark -
int alwaysPass( void *out1, void *out2, void *allowZ, uint32_t count, int vectorSize );
int alwaysFail( void *out1, void *out2, void *allowZ, uint32_t count, int vectorSize );
int check_uchar( void *out1, void *out2, void *allowZ, uint32_t count, int vectorSize );
int check_char( void *out1, void *out2, void *allowZ, uint32_t count, int vectorSize );
int check_ushort( void *out1, void *out2, void *allowZ, uint32_t count, int vectorSize );
int check_short( void *out1, void *out2, void *allowZ, uint32_t count, int vectorSize );
int check_uint( void *out1, void *out2, void *allowZ, uint32_t count, int vectorSize );
int check_int( void *out1, void *out2, void *allowZ, uint32_t count, int vectorSize );
int check_ulong( void *out1, void *out2, void *allowZ, uint32_t count, int vectorSize );
int check_long( void *out1, void *out2, void *allowZ, uint32_t count, int vectorSize );
int check_float( void *out1, void *out2, void *allowZ, uint32_t count, int vectorSize );
int check_double( void *out1, void *out2, void *allowZ, uint32_t count, int vectorSize );
void init_uchar( void *dest, SaturationMode, RoundingMode, Type destType, uint64_t start, int count, MTdata d );
void init_char( void *dest, SaturationMode, RoundingMode, Type destType, uint64_t start, int count, MTdata d );
void init_ushort( void *dest, SaturationMode, RoundingMode, Type destType, uint64_t start, int count, MTdata d );
void init_short( void *dest, SaturationMode, RoundingMode, Type destType, uint64_t start, int count, MTdata d );
void init_uint( void *dest, SaturationMode, RoundingMode, Type destType, uint64_t start, int count, MTdata d );
void init_int( void *dest, SaturationMode, RoundingMode, Type destType, uint64_t start, int count, MTdata d );
void init_float( void *dest, SaturationMode, RoundingMode, Type destType, uint64_t start, int count, MTdata d );
void init_double( void *dest, SaturationMode, RoundingMode, Type destType, uint64_t start, int count, MTdata d );
void init_ulong( void *dest, SaturationMode, RoundingMode, Type destType, uint64_t start, int count, MTdata d );
void init_long( void *dest, SaturationMode, RoundingMode, Type destType, uint64_t start, int count, MTdata d );
InitDataFunc gInitFunctions[ kTypeCount ] = {
init_uchar, init_char,
init_ushort, init_short,
init_uint, init_int,
init_float, init_double,
init_ulong, init_long
};
CheckResults gCheckResults[ kTypeCount ] = {
check_uchar, check_char, check_ushort, check_short, check_uint,
check_int, check_float, check_double, check_ulong, check_long
};
#if !defined (__APPLE__)
#define UNUSED
#else
#define UNUSED __attribute__((unused))
#endif
int alwaysPass( void UNUSED *out1, void UNUSED *out2, void UNUSED *allowZ, uint32_t UNUSED count, int UNUSED vectorSize){ return 0; }
int alwaysFail( void UNUSED *out1, void UNUSED *out2, void UNUSED *allowZ, uint32_t UNUSED count, int UNUSED vectorSize ){ return -1; }
int check_uchar( void *test, void *correct, void *allowZ, uint32_t count, int vectorSize )
{
const cl_uchar *t = (const cl_uchar*)test;
const cl_uchar *c = (const cl_uchar*)correct;
const cl_uchar *a = (const cl_uchar*)allowZ;
uint32_t i;
for( i = 0; i < count; i++ )
if( t[i] != c[i] && !(a[i] != (cl_uchar)0 && t[i] == (cl_uchar)0))
{
vlog( "\nError for vector size %d found at 0x%8.8x: *0x%2.2x vs 0x%2.2x\n", vectorSize, i, c[i], t[i] );
return i + 1;
}
return 0;
}
int check_char( void *test, void *correct, void *allowZ, uint32_t count, int vectorSize )
{
const cl_char *t = (const cl_char*)test;
const cl_char *c = (const cl_char*)correct;
const cl_uchar *a = (const cl_uchar*)allowZ;
uint32_t i;
for( i = 0; i < count; i++ )
if( t[i] != c[i] && !(a[i] != (cl_uchar)0 && t[i] == (cl_char)0))
{
vlog( "\nError for vector size %d found at 0x%8.8x: *0x%2.2x vs 0x%2.2x\n", vectorSize, i, c[i], t[i] );
return i + 1;
}
return 0;
}
int check_ushort( void *test, void *correct, void *allowZ, uint32_t count, int vectorSize )
{
const cl_ushort *t = (const cl_ushort*)test;
const cl_ushort *c = (const cl_ushort*)correct;
const cl_uchar *a = (const cl_uchar*)allowZ;
uint32_t i;
for( i = 0; i < count; i++ )
if( t[i] != c[i] && !(a[i] != (cl_uchar)0 && t[i] == (cl_ushort)0))
{
vlog( "\nError for vector size %d found at 0x%8.8x: *0x%4.4x vs 0x%4.4x\n", vectorSize, i, c[i], t[i] );
return i + 1;
}
return 0;
}
int check_short( void *test, void *correct, void *allowZ, uint32_t count, int vectorSize )
{
const cl_short *t = (const cl_short*)test;
const cl_short *c = (const cl_short*)correct;
const cl_uchar *a = (const cl_uchar*)allowZ;
uint32_t i;
for( i = 0; i < count; i++ )
if( t[i] != c[i] && !(a[i] != (cl_uchar)0 && t[i] == (cl_short)0))
{
vlog( "\nError for vector size %d found at 0x%8.8x: *0x%4.4x vs 0x%4.4x\n", vectorSize, i, c[i], t[i] );
return i + 1;
}
return 0;
}
int check_uint( void *test, void *correct, void *allowZ, uint32_t count, int vectorSize )
{
const cl_uint *t = (const cl_uint*)test;
const cl_uint *c = (const cl_uint*)correct;
const cl_uchar *a = (const cl_uchar*)allowZ;
uint32_t i;
for( i = 0; i < count; i++ )
if( t[i] != c[i] && !(a[i] != (cl_uchar)0 && t[i] == (cl_uint)0))
{
vlog( "\nError for vector size %d found at 0x%8.8x: *0x%8.8x vs 0x%8.8x\n", vectorSize, i, c[i], t[i] );
return i + 1;
}
return 0;
}
int check_int( void *test, void *correct, void *allowZ, uint32_t count, int vectorSize )
{
const cl_int *t = (const cl_int*)test;
const cl_int *c = (const cl_int*)correct;
const cl_uchar *a = (const cl_uchar*)allowZ;
uint32_t i;
for( i = 0; i < count; i++ )
if( t[i] != c[i] && !(a[i] != (cl_uchar)0 && t[i] == (cl_int)0))
{
vlog( "\nError for vector size %d found at 0x%8.8x: *0x%8.8x vs 0x%8.8x\n", vectorSize, i, c[i], t[i] );
return i + 1;
}
return 0;
}
int check_ulong( void *test, void *correct, void *allowZ, uint32_t count, int vectorSize )
{
const cl_ulong *t = (const cl_ulong*)test;
const cl_ulong *c = (const cl_ulong*)correct;
const cl_uchar *a = (const cl_uchar*)allowZ;
uint32_t i;
for( i = 0; i < count; i++ )
if( t[i] != c[i] && !(a[i] != (cl_uchar)0 && t[i] == (cl_ulong)0))
{
vlog( "\nError for vector size %d found at 0x%8.8x: *0x%16.16llx vs 0x%16.16llx\n", vectorSize, i, c[i], t[i] );
return i + 1;
}
return 0;
}
int check_long( void *test, void *correct, void *allowZ, uint32_t count, int vectorSize )
{
const cl_long *t = (const cl_long*)test;
const cl_long *c = (const cl_long*)correct;
const cl_uchar *a = (const cl_uchar*)allowZ;
uint32_t i;
for( i = 0; i < count; i++ )
if( t[i] != c[i] && !(a[i] != (cl_uchar)0 && t[i] == (cl_long)0))
{
vlog( "\nError for vector size %d found at 0x%8.8x: *0x%16.16llx vs 0x%16.16llx\n", vectorSize, i, c[i], t[i] );
return i + 1;
}
return 0;
}
int check_float( void *test, void *correct, void *allowZ, uint32_t count, int vectorSize )
{
const cl_uint *t = (const cl_uint*)test;
const cl_uint *c = (const cl_uint*)correct;
const cl_uchar *a = (const cl_uchar*)allowZ;
uint32_t i;
for( i = 0; i < count; i++ )
if (t[i] != c[i] &&
// Allow nan's to be binary different
!((t[i] & 0x7fffffffU) > 0x7f800000U &&
(c[i] & 0x7fffffffU) > 0x7f800000U) &&
!(a[i] != (cl_uchar)0 &&
t[i] == (c[i] & 0x80000000U))) {
vlog( "\nError for vector size %d found at 0x%8.8x: *%a vs %a\n",
vectorSize, i, ((float*)correct)[i], ((float*)test)[i] );
return i + 1;
}
return 0;
}
int check_double( void *test, void *correct, void *allowZ, uint32_t count, int vectorSize )
{
const cl_ulong *t = (const cl_ulong*)test;
const cl_ulong *c = (const cl_ulong*)correct;
const cl_uchar *a = (const cl_uchar*)allowZ;
uint32_t i;
for( i = 0; i < count; i++ )
if (t[i] != c[i] &&
// Allow nan's to be binary different
!((t[i] & 0x7fffffffffffffffULL) > 0x7ff0000000000000ULL &&
(c[i] & 0x7fffffffffffffffULL) > 0x7f80000000000000ULL) &&
!(a[i] != (cl_uchar)0 &&
t[i] == (c[i] & 0x8000000000000000ULL))) {
vlog( "\nError for vector size %d found at 0x%8.8x: *%a vs %a\n",
vectorSize, i, ((double*)correct)[i], ((double*)test)[i] );
return i + 1;
}
return 0;
}
void init_uchar( void *out, SaturationMode UNUSED sat, RoundingMode UNUSED round, Type UNUSED destType, uint64_t start, int count, MTdata UNUSED d )
{
cl_uchar *o = (cl_uchar *)out;
int i;
for( i = 0; i < count; i++ )
o[i] = start++;
}
void init_char( void *out, SaturationMode UNUSED sat, RoundingMode UNUSED round, Type UNUSED destType, uint64_t start, int count, MTdata UNUSED d )
{
char *o = (char *)out;
int i;
for( i = 0; i < count; i++ )
o[i] = start++;
}
void init_ushort( void *out, SaturationMode UNUSED sat, RoundingMode UNUSED round, Type UNUSED destType, uint64_t start, int count, MTdata UNUSED d )
{
cl_ushort *o = (cl_ushort *)out;
int i;
for( i = 0; i < count; i++ )
o[i] = start++;
}
void init_short( void *out, SaturationMode UNUSED sat, RoundingMode UNUSED round, UNUSED Type destType, uint64_t start, int count, MTdata UNUSED d )
{
short *o = (short *)out;
int i;
for( i = 0; i < count; i++ )
o[i] = start++;
}
void init_uint( void *out, SaturationMode UNUSED sat, RoundingMode UNUSED round, Type UNUSED destType, uint64_t start, int count, MTdata d )
{
static const unsigned int specialValuesUInt[] = {
INT_MIN, INT_MIN + 1, INT_MIN + 2,
-(1<<30)-3,-(1<<30)-2,-(1<<30)-1, -(1<<30), -(1<<30)+1, -(1<<30)+2, -(1<<30)+3,
-(1<<24)-3,-(1<<24)-2,-(1<<24)-1, -(1<<24), -(1<<24)+1, -(1<<24)+2, -(1<<24)+3,
-(1<<23)-3,-(1<<23)-2,-(1<<23)-1, -(1<<23), -(1<<23)+1, -(1<<23)+2, -(1<<23)+3,
-(1<<22)-3,-(1<<22)-2,-(1<<22)-1, -(1<<22), -(1<<22)+1, -(1<<22)+2, -(1<<22)+3,
-(1<<21)-3,-(1<<21)-2,-(1<<21)-1, -(1<<21), -(1<<21)+1, -(1<<21)+2, -(1<<21)+3,
-(1<<16)-3,-(1<<16)-2,-(1<<16)-1, -(1<<16), -(1<<16)+1, -(1<<16)+2, -(1<<16)+3,
-(1<<15)-3,-(1<<15)-2,-(1<<15)-1, -(1<<15), -(1<<15)+1, -(1<<15)+2, -(1<<15)+3,
-(1<<8)-3,-(1<<8)-2,-(1<<8)-1, -(1<<8), -(1<<8)+1, -(1<<8)+2, -(1<<8)+3,
-(1<<7)-3,-(1<<7)-2,-(1<<7)-1, -(1<<7), -(1<<7)+1, -(1<<7)+2, -(1<<7)+3,
-4, -3, -2, -1, 0, 1, 2, 3, 4,
(1<<7)-3,(1<<7)-2,(1<<7)-1, (1<<7), (1<<7)+1, (1<<7)+2, (1<<7)+3,
(1<<8)-3,(1<<8)-2,(1<<8)-1, (1<<8), (1<<8)+1, (1<<8)+2, (1<<8)+3,
(1<<15)-3,(1<<15)-2,(1<<15)-1, (1<<15), (1<<15)+1, (1<<15)+2, (1<<15)+3,
(1<<16)-3,(1<<16)-2,(1<<16)-1, (1<<16), (1<<16)+1, (1<<16)+2, (1<<16)+3,
(1<<21)-3,(1<<21)-2,(1<<21)-1, (1<<21), (1<<21)+1, (1<<21)+2, (1<<21)+3,
(1<<22)-3,(1<<22)-2,(1<<22)-1, (1<<22), (1<<22)+1, (1<<22)+2, (1<<22)+3,
(1<<23)-3,(1<<23)-2,(1<<23)-1, (1<<23), (1<<23)+1, (1<<23)+2, (1<<23)+3,
(1<<24)-3,(1<<24)-2,(1<<24)-1, (1<<24), (1<<24)+1, (1<<24)+2, (1<<24)+3,
(1<<30)-3,(1<<30)-2,(1<<30)-1, (1<<30), (1<<30)+1, (1<<30)+2, (1<<30)+3,
INT_MAX-3, INT_MAX-2, INT_MAX-1, INT_MAX, // 0x80000000, 0x80000001 0x80000002 already covered above
UINT_MAX-3, UINT_MAX-2, UINT_MAX-1, UINT_MAX
};
cl_uint *o = (cl_uint *)out;
int i;
for( i = 0; i < count; i++) {
if( gIsEmbedded )
o[i] = (cl_uint) genrand_int32(d);
else
o[i] = (cl_uint)i + start;
}
if( 0 == start )
{
size_t tableSize = sizeof( specialValuesUInt );
if( sizeof( cl_uint) * count < tableSize )
tableSize = sizeof( cl_uint) * count;
memcpy( (char*)(o + i) - tableSize, specialValuesUInt, tableSize );
}
}
void init_int( void *out, SaturationMode UNUSED sat, RoundingMode UNUSED round, Type UNUSED destType, uint64_t start, int count, MTdata d )
{
static const unsigned int specialValuesInt[] = {
INT_MIN, INT_MIN + 1, INT_MIN + 2,
-(1<<30)-3,-(1<<30)-2,-(1<<30)-1, -(1<<30), -(1<<30)+1, -(1<<30)+2, -(1<<30)+3,
-(1<<24)-3,-(1<<24)-2,-(1<<24)-1, -(1<<24), -(1<<24)+1, -(1<<24)+2, -(1<<24)+3,
-(1<<23)-3,-(1<<23)-2,-(1<<23)-1, -(1<<23), -(1<<23)+1, -(1<<23)+2, -(1<<23)+3,
-(1<<22)-3,-(1<<22)-2,-(1<<22)-1, -(1<<22), -(1<<22)+1, -(1<<22)+2, -(1<<22)+3,
-(1<<21)-3,-(1<<21)-2,-(1<<21)-1, -(1<<21), -(1<<21)+1, -(1<<21)+2, -(1<<21)+3,
-(1<<16)-3,-(1<<16)-2,-(1<<16)-1, -(1<<16), -(1<<16)+1, -(1<<16)+2, -(1<<16)+3,
-(1<<15)-3,-(1<<15)-2,-(1<<15)-1, -(1<<15), -(1<<15)+1, -(1<<15)+2, -(1<<15)+3,
-(1<<8)-3,-(1<<8)-2,-(1<<8)-1, -(1<<8), -(1<<8)+1, -(1<<8)+2, -(1<<8)+3,
-(1<<7)-3,-(1<<7)-2,-(1<<7)-1, -(1<<7), -(1<<7)+1, -(1<<7)+2, -(1<<7)+3,
-4, -3, -2, -1, 0, 1, 2, 3, 4,
(1<<7)-3,(1<<7)-2,(1<<7)-1, (1<<7), (1<<7)+1, (1<<7)+2, (1<<7)+3,
(1<<8)-3,(1<<8)-2,(1<<8)-1, (1<<8), (1<<8)+1, (1<<8)+2, (1<<8)+3,
(1<<15)-3,(1<<15)-2,(1<<15)-1, (1<<15), (1<<15)+1, (1<<15)+2, (1<<15)+3,
(1<<16)-3,(1<<16)-2,(1<<16)-1, (1<<16), (1<<16)+1, (1<<16)+2, (1<<16)+3,
(1<<21)-3,(1<<21)-2,(1<<21)-1, (1<<21), (1<<21)+1, (1<<21)+2, (1<<21)+3,
(1<<22)-3,(1<<22)-2,(1<<22)-1, (1<<22), (1<<22)+1, (1<<22)+2, (1<<22)+3,
(1<<23)-3,(1<<23)-2,(1<<23)-1, (1<<23), (1<<23)+1, (1<<23)+2, (1<<23)+3,
(1<<24)-3,(1<<24)-2,(1<<24)-1, (1<<24), (1<<24)+1, (1<<24)+2, (1<<24)+3,
(1<<30)-3,(1<<30)-2,(1<<30)-1, (1<<30), (1<<30)+1, (1<<30)+2, (1<<30)+3,
INT_MAX-3, INT_MAX-2, INT_MAX-1, INT_MAX, // 0x80000000, 0x80000001 0x80000002 already covered above
UINT_MAX-3, UINT_MAX-2, UINT_MAX-1, UINT_MAX
};
int *o = (int *)out;
int i;
for( i = 0; i < count; i++ ) {
if( gIsEmbedded ) {
o[i] = (int) genrand_int32(d);
}
else {
o[i] = (int) i + start;
}
}
if( 0 == start )
{
size_t tableSize = sizeof( specialValuesInt );
if( sizeof( int) * count < tableSize )
tableSize = sizeof( int) * count;
memcpy( (char*)(o + i) - tableSize, specialValuesInt, tableSize );
}
}
void init_float( void *out, SaturationMode sat, RoundingMode round, Type destType, uint64_t start, int count, MTdata d )
{
static const float specialValuesFloat[] = {
-NAN, -INFINITY, -FLT_MAX, MAKE_HEX_FLOAT(-0x1.000002p64f, -0x1000002L, 40), MAKE_HEX_FLOAT(-0x1.0p64f, -0x1L, 64), MAKE_HEX_FLOAT(-0x1.fffffep63f, -0x1fffffeL, 39), MAKE_HEX_FLOAT(-0x1.000002p63f, -0x1000002L, 39), MAKE_HEX_FLOAT(-0x1.0p63f, -0x1L, 63), MAKE_HEX_FLOAT(-0x1.fffffep62f, -0x1fffffeL, 38),
MAKE_HEX_FLOAT(-0x1.000002p32f, -0x1000002L, 8), MAKE_HEX_FLOAT(-0x1.0p32f, -0x1L, 32), MAKE_HEX_FLOAT(-0x1.fffffep31f, -0x1fffffeL, 7), MAKE_HEX_FLOAT(-0x1.000002p31f, -0x1000002L, 7), MAKE_HEX_FLOAT(-0x1.0p31f, -0x1L, 31), MAKE_HEX_FLOAT(-0x1.fffffep30f, -0x1fffffeL, 6), -1000.f, -100.f, -4.0f, -3.5f,
-3.0f, MAKE_HEX_FLOAT(-0x1.800002p1f, -0x1800002L, -23), -2.5f, MAKE_HEX_FLOAT(-0x1.7ffffep1f, -0x17ffffeL, -23), -2.0f, MAKE_HEX_FLOAT(-0x1.800002p0f, -0x1800002L, -24), -1.5f, MAKE_HEX_FLOAT(-0x1.7ffffep0f, -0x17ffffeL, -24),MAKE_HEX_FLOAT(-0x1.000002p0f, -0x1000002L, -24), -1.0f, MAKE_HEX_FLOAT(-0x1.fffffep-1f, -0x1fffffeL, -25),
MAKE_HEX_FLOAT(-0x1.000002p-1f, -0x1000002L, -25), -0.5f, MAKE_HEX_FLOAT(-0x1.fffffep-2f, -0x1fffffeL, -26), MAKE_HEX_FLOAT(-0x1.000002p-2f, -0x1000002L, -26), -0.25f, MAKE_HEX_FLOAT(-0x1.fffffep-3f, -0x1fffffeL, -27),
MAKE_HEX_FLOAT(-0x1.000002p-126f, -0x1000002L, -150), -FLT_MIN, MAKE_HEX_FLOAT(-0x0.fffffep-126f, -0x0fffffeL, -150), MAKE_HEX_FLOAT(-0x0.000ffep-126f, -0x0000ffeL, -150), MAKE_HEX_FLOAT(-0x0.0000fep-126f, -0x00000feL, -150), MAKE_HEX_FLOAT(-0x0.00000ep-126f, -0x000000eL, -150), MAKE_HEX_FLOAT(-0x0.00000cp-126f, -0x000000cL, -150), MAKE_HEX_FLOAT(-0x0.00000ap-126f, -0x000000aL, -150),
MAKE_HEX_FLOAT(-0x0.000008p-126f, -0x0000008L, -150), MAKE_HEX_FLOAT(-0x0.000006p-126f, -0x0000006L, -150), MAKE_HEX_FLOAT(-0x0.000004p-126f, -0x0000004L, -150), MAKE_HEX_FLOAT(-0x0.000002p-126f, -0x0000002L, -150), -0.0f,
+NAN, +INFINITY, +FLT_MAX, MAKE_HEX_FLOAT(+0x1.000002p64f, +0x1000002L, 40), MAKE_HEX_FLOAT(+0x1.0p64f, +0x1L, 64), MAKE_HEX_FLOAT(+0x1.fffffep63f, +0x1fffffeL, 39), MAKE_HEX_FLOAT(+0x1.000002p63f, +0x1000002L, 39), MAKE_HEX_FLOAT(+0x1.0p63f, +0x1L, 63), MAKE_HEX_FLOAT(+0x1.fffffep62f, +0x1fffffeL, 38),
MAKE_HEX_FLOAT(+0x1.000002p32f, +0x1000002L, 8), MAKE_HEX_FLOAT(+0x1.0p32f, +0x1L, 32), MAKE_HEX_FLOAT(+0x1.fffffep31f, +0x1fffffeL, 7), MAKE_HEX_FLOAT(+0x1.000002p31f, +0x1000002L, 7), MAKE_HEX_FLOAT(+0x1.0p31f, +0x1L, 31), MAKE_HEX_FLOAT(+0x1.fffffep30f, +0x1fffffeL, 6), +1000.f, +100.f, +4.0f, +3.5f,
+3.0f, MAKE_HEX_FLOAT(+0x1.800002p1f, +0x1800002L, -23), 2.5f, MAKE_HEX_FLOAT(+0x1.7ffffep1f, +0x17ffffeL, -23),+2.0f, MAKE_HEX_FLOAT(+0x1.800002p0f, +0x1800002L, -24), 1.5f, MAKE_HEX_FLOAT(+0x1.7ffffep0f, +0x17ffffeL, -24), MAKE_HEX_FLOAT(+0x1.000002p0f, +0x1000002L, -24), +1.0f, MAKE_HEX_FLOAT(+0x1.fffffep-1f, +0x1fffffeL, -25),
MAKE_HEX_FLOAT(+0x1.000002p-1f, +0x1000002L, -25), +0.5f, MAKE_HEX_FLOAT(+0x1.fffffep-2f, +0x1fffffeL, -26), MAKE_HEX_FLOAT(+0x1.000002p-2f, +0x1000002L, -26), +0.25f, MAKE_HEX_FLOAT(+0x1.fffffep-3f, +0x1fffffeL, -27),
MAKE_HEX_FLOAT(0x1.000002p-126f, 0x1000002L, -150), +FLT_MIN, MAKE_HEX_FLOAT(+0x0.fffffep-126f, +0x0fffffeL, -150), MAKE_HEX_FLOAT(+0x0.000ffep-126f, +0x0000ffeL, -150), MAKE_HEX_FLOAT(+0x0.0000fep-126f, +0x00000feL, -150), MAKE_HEX_FLOAT(+0x0.00000ep-126f, +0x000000eL, -150), MAKE_HEX_FLOAT(+0x0.00000cp-126f, +0x000000cL, -150), MAKE_HEX_FLOAT(+0x0.00000ap-126f, +0x000000aL, -150),
MAKE_HEX_FLOAT(+0x0.000008p-126f, +0x0000008L, -150), MAKE_HEX_FLOAT(+0x0.000006p-126f, +0x0000006L, -150), MAKE_HEX_FLOAT(+0x0.000004p-126f, +0x0000004L, -150), MAKE_HEX_FLOAT(+0x0.000002p-126f, +0x0000002L, -150), +0.0f
};
cl_uint *o = (cl_uint *)out;
int i;
for( i = 0; i < count; i++ ) {
if( gIsEmbedded )
o[i] = (cl_uint) genrand_int32(d);
else
o[i] = (cl_uint) i + start;
}
if( 0 == start )
{
size_t tableSize = sizeof( specialValuesFloat );
if( sizeof( float) * count < tableSize )
tableSize = sizeof( float) * count;
memcpy( (char*)(o + i) - tableSize, specialValuesFloat, tableSize );
}
if( kUnsaturated == sat )
{
clampf func = gClampFloat[ destType ][round];
float *f = (float *)out;
for( i = 0; i < count; i++ )
f[i] = func( f[i] );
}
}
// used to convert a bucket of bits into a search pattern through double
static inline double DoubleFromUInt32( uint32_t bits );
static inline double DoubleFromUInt32( uint32_t bits )
{
union{ uint64_t u; double d;} u;
// split 0x89abcdef to 0x89abc00000000def
u.u = bits & 0xfffU;
u.u |= (uint64_t) (bits & ~0xfffU) << 32;
// sign extend the leading bit of def segment as sign bit so that the middle region consists of either all 1s or 0s
u.u -= (bits & 0x800U) << 1;
// return result
return u.d;
}
// A table of more difficult cases to get right
static const double specialValuesDouble[] = {
-NAN, -INFINITY, -DBL_MAX, MAKE_HEX_DOUBLE(-0x1.0000000000001p64, -0x10000000000001LL, 12), MAKE_HEX_DOUBLE(-0x1.0p64, -0x1LL, 64), MAKE_HEX_DOUBLE(-0x1.fffffffffffffp63, -0x1fffffffffffffLL, 11), MAKE_HEX_DOUBLE(-0x1.80000000000001p64, -0x180000000000001LL, 8),
MAKE_HEX_DOUBLE(-0x1.8p64, -0x18LL, 60), MAKE_HEX_DOUBLE(-0x1.7ffffffffffffp64, -0x17ffffffffffffLL, 12), MAKE_HEX_DOUBLE(-0x1.80000000000001p63, -0x180000000000001LL, 7), MAKE_HEX_DOUBLE(-0x1.8p63, -0x18LL, 59), MAKE_HEX_DOUBLE(-0x1.7ffffffffffffp63, -0x17ffffffffffffLL, 11),
MAKE_HEX_DOUBLE(-0x1.0000000000001p63, -0x10000000000001LL, 11), MAKE_HEX_DOUBLE(-0x1.0p63, -0x1LL, 63), MAKE_HEX_DOUBLE(-0x1.fffffffffffffp62, -0x1fffffffffffffLL, 10), MAKE_HEX_DOUBLE(-0x1.80000000000001p32, -0x180000000000001LL, -24), MAKE_HEX_DOUBLE(-0x1.8p32, -0x18LL, 28), MAKE_HEX_DOUBLE(-0x1.7ffffffffffffp32, -0x17ffffffffffffLL, -20),
MAKE_HEX_DOUBLE(-0x1.000002p32, -0x1000002LL, 8), MAKE_HEX_DOUBLE(-0x1.0p32, -0x1LL, 32), MAKE_HEX_DOUBLE(-0x1.fffffffffffffp31, -0x1fffffffffffffLL, -21), MAKE_HEX_DOUBLE(-0x1.80000000000001p31, -0x180000000000001LL, -25), MAKE_HEX_DOUBLE(-0x1.8p31, -0x18LL, 27), MAKE_HEX_DOUBLE(-0x1.7ffffffffffffp31, -0x17ffffffffffffLL, -21), MAKE_HEX_DOUBLE(-0x1.0000000000001p31, -0x10000000000001LL, -21), MAKE_HEX_DOUBLE(-0x1.0p31, -0x1LL, 31), MAKE_HEX_DOUBLE(-0x1.fffffffffffffp30, -0x1fffffffffffffLL, -22), -1000., -100., -4.0, -3.5,
-3.0, MAKE_HEX_DOUBLE(-0x1.8000000000001p1, -0x18000000000001LL, -51), -2.5, MAKE_HEX_DOUBLE(-0x1.7ffffffffffffp1, -0x17ffffffffffffLL, -51), -2.0, MAKE_HEX_DOUBLE(-0x1.8000000000001p0, -0x18000000000001LL, -52), -1.5, MAKE_HEX_DOUBLE(-0x1.7ffffffffffffp0, -0x17ffffffffffffLL, -52),MAKE_HEX_DOUBLE(-0x1.0000000000001p0, -0x10000000000001LL, -52), -1.0, MAKE_HEX_DOUBLE(-0x1.fffffffffffffp-1, -0x1fffffffffffffLL, -53),
MAKE_HEX_DOUBLE(-0x1.0000000000001p-1, -0x10000000000001LL, -53), -0.5, MAKE_HEX_DOUBLE(-0x1.fffffffffffffp-2, -0x1fffffffffffffLL, -54), MAKE_HEX_DOUBLE(-0x1.0000000000001p-2, -0x10000000000001LL, -54), -0.25, MAKE_HEX_DOUBLE(-0x1.fffffffffffffp-3, -0x1fffffffffffffLL, -55),
MAKE_HEX_DOUBLE(-0x1.0000000000001p-1022, -0x10000000000001LL, -1074), -DBL_MIN, MAKE_HEX_DOUBLE(-0x0.fffffffffffffp-1022, -0x0fffffffffffffLL, -1074), MAKE_HEX_DOUBLE(-0x0.0000000000fffp-1022, -0x00000000000fffLL, -1074), MAKE_HEX_DOUBLE(-0x0.00000000000fep-1022, -0x000000000000feLL, -1074), MAKE_HEX_DOUBLE(-0x0.000000000000ep-1022, -0x0000000000000eLL, -1074), MAKE_HEX_DOUBLE(-0x0.000000000000cp-1022, -0x0000000000000cLL, -1074), MAKE_HEX_DOUBLE(-0x0.000000000000ap-1022, -0x0000000000000aLL, -1074),
MAKE_HEX_DOUBLE(-0x0.0000000000008p-1022, -0x00000000000008LL, -1074), MAKE_HEX_DOUBLE(-0x0.0000000000007p-1022, -0x00000000000007LL, -1074), MAKE_HEX_DOUBLE(-0x0.0000000000006p-1022, -0x00000000000006LL, -1074), MAKE_HEX_DOUBLE(-0x0.0000000000005p-1022, -0x00000000000005LL, -1074), MAKE_HEX_DOUBLE(-0x0.0000000000004p-1022, -0x00000000000004LL, -1074),
MAKE_HEX_DOUBLE(-0x0.0000000000003p-1022, -0x00000000000003LL, -1074), MAKE_HEX_DOUBLE(-0x0.0000000000002p-1022, -0x00000000000002LL, -1074), MAKE_HEX_DOUBLE(-0x0.0000000000001p-1022, -0x00000000000001LL, -1074), -0.0,
MAKE_HEX_DOUBLE(+0x1.fffffffffffffp63, +0x1fffffffffffffLL, 11), MAKE_HEX_DOUBLE(0x1.80000000000001p63, 0x180000000000001LL, 7), MAKE_HEX_DOUBLE(0x1.8p63, 0x18LL, 59), MAKE_HEX_DOUBLE(0x1.7ffffffffffffp63, 0x17ffffffffffffLL, 11), MAKE_HEX_DOUBLE(+0x1.0000000000001p63, +0x10000000000001LL, 11), MAKE_HEX_DOUBLE(+0x1.0p63, +0x1LL, 63), MAKE_HEX_DOUBLE(+0x1.fffffffffffffp62, +0x1fffffffffffffLL, 10),
MAKE_HEX_DOUBLE(+0x1.80000000000001p32, +0x180000000000001LL, -24), MAKE_HEX_DOUBLE(+0x1.8p32, +0x18LL, 28), MAKE_HEX_DOUBLE(+0x1.7ffffffffffffp32, +0x17ffffffffffffLL, -20),
MAKE_HEX_DOUBLE(+0x1.000002p32, +0x1000002LL, 8), MAKE_HEX_DOUBLE(+0x1.0p32, +0x1LL, 32), MAKE_HEX_DOUBLE(+0x1.fffffffffffffp31, +0x1fffffffffffffLL, -21), MAKE_HEX_DOUBLE(+0x1.80000000000001p31, +0x180000000000001LL, -25), MAKE_HEX_DOUBLE(+0x1.8p31, +0x18LL, 27), MAKE_HEX_DOUBLE(+0x1.7ffffffffffffp31, +0x17ffffffffffffLL, -21), MAKE_HEX_DOUBLE(+0x1.0000000000001p31, +0x10000000000001LL, -21), MAKE_HEX_DOUBLE(+0x1.0p31, +0x1LL, 31), MAKE_HEX_DOUBLE(+0x1.fffffffffffffp30, +0x1fffffffffffffLL, -22), +1000., +100., +4.0, +3.5,
+3.0, MAKE_HEX_DOUBLE(+0x1.8000000000001p1, +0x18000000000001LL, -51), +2.5, MAKE_HEX_DOUBLE(+0x1.7ffffffffffffp1, +0x17ffffffffffffLL, -51), +2.0, MAKE_HEX_DOUBLE(+0x1.8000000000001p0, +0x18000000000001LL, -52), +1.5, MAKE_HEX_DOUBLE(+0x1.7ffffffffffffp0, +0x17ffffffffffffLL, -52),MAKE_HEX_DOUBLE(-0x1.0000000000001p0, -0x10000000000001LL, -52), +1.0, MAKE_HEX_DOUBLE(+0x1.fffffffffffffp-1, +0x1fffffffffffffLL, -53),
MAKE_HEX_DOUBLE(+0x1.0000000000001p-1, +0x10000000000001LL, -53), +0.5, MAKE_HEX_DOUBLE(+0x1.fffffffffffffp-2, +0x1fffffffffffffLL, -54), MAKE_HEX_DOUBLE(+0x1.0000000000001p-2, +0x10000000000001LL, -54), +0.25, MAKE_HEX_DOUBLE(+0x1.fffffffffffffp-3, +0x1fffffffffffffLL, -55),
MAKE_HEX_DOUBLE(+0x1.0000000000001p-1022, +0x10000000000001LL, -1074), +DBL_MIN, MAKE_HEX_DOUBLE(+0x0.fffffffffffffp-1022, +0x0fffffffffffffLL, -1074), MAKE_HEX_DOUBLE(+0x0.0000000000fffp-1022, +0x00000000000fffLL, -1074), MAKE_HEX_DOUBLE(+0x0.00000000000fep-1022, +0x000000000000feLL, -1074), MAKE_HEX_DOUBLE(+0x0.000000000000ep-1022, +0x0000000000000eLL, -1074), MAKE_HEX_DOUBLE(+0x0.000000000000cp-1022, +0x0000000000000cLL, -1074), MAKE_HEX_DOUBLE(+0x0.000000000000ap-1022, +0x0000000000000aLL, -1074),
MAKE_HEX_DOUBLE(+0x0.0000000000008p-1022, +0x00000000000008LL, -1074), MAKE_HEX_DOUBLE(+0x0.0000000000007p-1022, +0x00000000000007LL, -1074), MAKE_HEX_DOUBLE(+0x0.0000000000006p-1022, +0x00000000000006LL, -1074), MAKE_HEX_DOUBLE(+0x0.0000000000005p-1022, +0x00000000000005LL, -1074), MAKE_HEX_DOUBLE(+0x0.0000000000004p-1022, +0x00000000000004LL, -1074),
MAKE_HEX_DOUBLE(+0x0.0000000000003p-1022, +0x00000000000003LL, -1074), MAKE_HEX_DOUBLE(+0x0.0000000000002p-1022, +0x00000000000002LL, -1074), MAKE_HEX_DOUBLE(+0x0.0000000000001p-1022, +0x00000000000001LL, -1074), +0.0,
MAKE_HEX_DOUBLE(-0x1.ffffffffffffep62, -0x1ffffffffffffeLL, 10), MAKE_HEX_DOUBLE(-0x1.ffffffffffffcp62, -0x1ffffffffffffcLL, 10), MAKE_HEX_DOUBLE(-0x1.fffffffffffffp62, -0x1fffffffffffffLL, 10), MAKE_HEX_DOUBLE(+0x1.ffffffffffffep62, +0x1ffffffffffffeLL, 10), MAKE_HEX_DOUBLE(+0x1.ffffffffffffcp62, +0x1ffffffffffffcLL, 10), MAKE_HEX_DOUBLE(+0x1.fffffffffffffp62, +0x1fffffffffffffLL, 10),
MAKE_HEX_DOUBLE(-0x1.ffffffffffffep51, -0x1ffffffffffffeLL, -1), MAKE_HEX_DOUBLE(-0x1.ffffffffffffcp51, -0x1ffffffffffffcLL, -1), MAKE_HEX_DOUBLE(-0x1.fffffffffffffp51, -0x1fffffffffffffLL, -1), MAKE_HEX_DOUBLE(+0x1.ffffffffffffep51, +0x1ffffffffffffeLL, -1), MAKE_HEX_DOUBLE(+0x1.ffffffffffffcp51, +0x1ffffffffffffcLL, -1), MAKE_HEX_DOUBLE(+0x1.fffffffffffffp51, +0x1fffffffffffffLL, -1),
MAKE_HEX_DOUBLE(-0x1.ffffffffffffep52, -0x1ffffffffffffeLL, 0), MAKE_HEX_DOUBLE(-0x1.ffffffffffffcp52, -0x1ffffffffffffcLL, 0), MAKE_HEX_DOUBLE(-0x1.fffffffffffffp52, -0x1fffffffffffffLL, 0), MAKE_HEX_DOUBLE(+0x1.ffffffffffffep52, +0x1ffffffffffffeLL, 0), MAKE_HEX_DOUBLE(+0x1.ffffffffffffcp52, +0x1ffffffffffffcLL, 0), MAKE_HEX_DOUBLE(+0x1.fffffffffffffp52, +0x1fffffffffffffLL, 0),
MAKE_HEX_DOUBLE(-0x1.ffffffffffffep53, -0x1ffffffffffffeLL, 1), MAKE_HEX_DOUBLE(-0x1.ffffffffffffcp53, -0x1ffffffffffffcLL, 1), MAKE_HEX_DOUBLE(-0x1.fffffffffffffp53, -0x1fffffffffffffLL, 1), MAKE_HEX_DOUBLE(+0x1.ffffffffffffep53, +0x1ffffffffffffeLL, 1), MAKE_HEX_DOUBLE(+0x1.ffffffffffffcp53, +0x1ffffffffffffcLL, 1), MAKE_HEX_DOUBLE(+0x1.fffffffffffffp53, +0x1fffffffffffffLL, 1),
MAKE_HEX_DOUBLE(-0x1.0000000000002p52, -0x10000000000002LL, 0), MAKE_HEX_DOUBLE(-0x1.0000000000001p52, -0x10000000000001LL, 0), MAKE_HEX_DOUBLE(-0x1.0p52, -0x1LL, 52), MAKE_HEX_DOUBLE(+0x1.0000000000002p52, +0x10000000000002LL, 0), MAKE_HEX_DOUBLE(+0x1.0000000000001p52, +0x10000000000001LL, 0), MAKE_HEX_DOUBLE(+0x1.0p52, +0x1LL, 52),
MAKE_HEX_DOUBLE(-0x1.0000000000002p53, -0x10000000000002LL, 1), MAKE_HEX_DOUBLE(-0x1.0000000000001p53, -0x10000000000001LL, 1), MAKE_HEX_DOUBLE(-0x1.0p53, -0x1LL, 53), MAKE_HEX_DOUBLE(+0x1.0000000000002p53, +0x10000000000002LL, 1), MAKE_HEX_DOUBLE(+0x1.0000000000001p53, +0x10000000000001LL, 1), MAKE_HEX_DOUBLE(+0x1.0p53, +0x1LL, 53),
MAKE_HEX_DOUBLE(-0x1.0000000000002p54, -0x10000000000002LL, 2), MAKE_HEX_DOUBLE(-0x1.0000000000001p54, -0x10000000000001LL, 2), MAKE_HEX_DOUBLE(-0x1.0p54, -0x1LL, 54), MAKE_HEX_DOUBLE(+0x1.0000000000002p54, +0x10000000000002LL, 2), MAKE_HEX_DOUBLE(+0x1.0000000000001p54, +0x10000000000001LL, 2), MAKE_HEX_DOUBLE(+0x1.0p54, +0x1LL, 54),
MAKE_HEX_DOUBLE(-0x1.fffffffefffffp62, -0x1fffffffefffffLL, 10), MAKE_HEX_DOUBLE(-0x1.ffffffffp62, -0x1ffffffffLL, 30), MAKE_HEX_DOUBLE(-0x1.ffffffff00001p62, -0x1ffffffff00001LL, 10), MAKE_HEX_DOUBLE(0x1.fffffffefffffp62, 0x1fffffffefffffLL, 10), MAKE_HEX_DOUBLE(0x1.ffffffffp62, 0x1ffffffffLL, 30), MAKE_HEX_DOUBLE(0x1.ffffffff00001p62, 0x1ffffffff00001LL, 10),
};
void init_double( void *out, SaturationMode sat, RoundingMode round, Type destType, uint64_t start, int count, MTdata UNUSED d )
{
double *o = (double*)out;
int i;
for( i = 0; i < count; i++ )
{
uint64_t z = i + start;
o[i] = DoubleFromUInt32( (uint32_t) z ^ (uint32_t) (z >> 32));
}
if( 0 == start )
{
size_t tableSize = sizeof( specialValuesDouble );
if( sizeof( cl_double) * count < tableSize )
tableSize = sizeof( cl_double) * count;
memcpy( (char*)(o + i) - tableSize, specialValuesDouble, tableSize );
}
if( 0 == sat )
{
clampd func = gClampDouble[ destType ][round];
for( i = 0; i < count; i++ )
o[i] = func( o[i] );
}
}
cl_ulong random64( MTdata d )
{
return (cl_ulong) genrand_int32(d) | ((cl_ulong) genrand_int32(d) << 32);
}
void init_ulong( void *out, SaturationMode UNUSED sat, RoundingMode UNUSED round, Type UNUSED destType, uint64_t start, int count, MTdata d )
{
cl_ulong *o = (cl_ulong *)out;
cl_ulong i, j, k;
i = 0;
if( start == 0 )
{
//Try various powers of two
for( j = 0; j < (cl_ulong) count && j < 8 * sizeof(cl_ulong); j++ )
o[j] = (cl_ulong) 1 << j;
i = j;
// try the complement of those
for( j = 0; i < (cl_ulong) count && j < 8 * sizeof(cl_ulong); j++ )
o[i++] = ~((cl_ulong) 1 << j);
//Try various negative powers of two
for( j = 0; i < (cl_ulong) count && j < 8 * sizeof(cl_ulong); j++ )
o[i++] = (cl_ulong) 0xFFFFFFFFFFFFFFFEULL << j;
//try various powers of two plus 1, shifted by various amounts
for( j = 0; i < (cl_ulong)count && j < 8 * sizeof(cl_ulong); j++ )
for( k = 0; i < (cl_ulong)count && k < 8 * sizeof(cl_ulong) - j; k++ )
o[i++] = (((cl_ulong) 1 << j) + 1) << k;
//try various powers of two minus 1
for( j = 0; i < (cl_ulong)count && j < 8 * sizeof(cl_ulong); j++ )
for( k = 0; i < (cl_ulong)count && k < 8 * sizeof(cl_ulong) - j; k++ )
o[i++] = (((cl_ulong) 1 << j) - 1) << k;
// Other patterns
cl_ulong pattern[] = { 0x3333333333333333ULL, 0x5555555555555555ULL, 0x9999999999999999ULL, 0x6666666666666666ULL, 0xccccccccccccccccULL, 0xaaaaaaaaaaaaaaaaULL };
cl_ulong mask[] = { 0xffffffffffffffffULL, 0xff00ff00ff00ff00ULL, 0xffff0000ffff0000ULL, 0xffffffff00000000ULL };
for( j = 0; i < (cl_ulong) count && j < sizeof(pattern) / sizeof( pattern[0]); j++ )
for( k = 0; i + 2 <= (cl_ulong) count && k < sizeof(mask) / sizeof( mask[0]); k++ )
{
o[i++] = pattern[j] & mask[k];
o[i++] = pattern[j] & ~mask[k];
}
}
for( ; i < (cl_ulong) count; i++ )
o[i] = random64(d);
}
void init_long( void *out, SaturationMode sat, RoundingMode round, Type destType, uint64_t start, int count, MTdata d )
{
init_ulong( out, sat, round, destType, start, count, d );
}
// ======
void uchar2uchar_many( void *out, void *in, size_t n);
void uchar2uchar_sat_many( void *out, void *in, size_t n);
void char2uchar_many( void *out, void *in, size_t n);
void char2uchar_sat_many( void *out, void *in, size_t n);
void ushort2uchar_many( void *out, void *in, size_t n);
void ushort2uchar_sat_many( void *out, void *in, size_t n);
void short2uchar_many( void *out, void *in, size_t n);
void short2uchar_sat_many( void *out, void *in, size_t n);
void uint2uchar_many( void *out, void *in, size_t n);
void uint2uchar_sat_many( void *out, void *in, size_t n);
void int2uchar_many( void *out, void *in, size_t n);
void int2uchar_sat_many( void *out, void *in, size_t n);
void float2uchar_many( void *out, void *in, size_t n);
void float2uchar_sat_many( void *out, void *in, size_t n);
void double2uchar_many( void *out, void *in, size_t n);
void double2uchar_sat_many( void *out, void *in, size_t n);
void ulong2uchar_many( void *out, void *in, size_t n);
void ulong2uchar_sat_many( void *out, void *in, size_t n);
void long2uchar_many( void *out, void *in, size_t n);
void long2uchar_sat_many( void *out, void *in, size_t n);
void uchar2char_many( void *out, void *in, size_t n);
void uchar2char_sat_many( void *out, void *in, size_t n);
void char2char_many( void *out, void *in, size_t n);
void char2char_sat_many( void *out, void *in, size_t n);
void ushort2char_many( void *out, void *in, size_t n);
void ushort2char_sat_many( void *out, void *in, size_t n);
void short2char_many( void *out, void *in, size_t n);
void short2char_sat_many( void *out, void *in, size_t n);
void uint2char_many( void *out, void *in, size_t n);
void uint2char_sat_many( void *out, void *in, size_t n);
void int2char_many( void *out, void *in, size_t n);
void int2char_sat_many( void *out, void *in, size_t n);
void float2char_many( void *out, void *in, size_t n);
void float2char_sat_many( void *out, void *in, size_t n);
void double2char_many( void *out, void *in, size_t n);
void double2char_sat_many( void *out, void *in, size_t n);
void ulong2char_many( void *out, void *in, size_t n);
void ulong2char_sat_many( void *out, void *in, size_t n);
void long2char_many( void *out, void *in, size_t n);
void long2char_sat_many( void *out, void *in, size_t n);
void uchar2ushort_many( void *out, void *in, size_t n);
void uchar2ushort_sat_many( void *out, void *in, size_t n);
void char2ushort_many( void *out, void *in, size_t n);
void char2ushort_sat_many( void *out, void *in, size_t n);
void ushort2ushort_many( void *out, void *in, size_t n);
void ushort2ushort_sat_many( void *out, void *in, size_t n);
void short2ushort_many( void *out, void *in, size_t n);
void short2ushort_sat_many( void *out, void *in, size_t n);
void uint2ushort_many( void *out, void *in, size_t n);
void uint2ushort_sat_many( void *out, void *in, size_t n);
void int2ushort_many( void *out, void *in, size_t n);
void int2ushort_sat_many( void *out, void *in, size_t n);
void float2ushort_many( void *out, void *in, size_t n);
void float2ushort_sat_many( void *out, void *in, size_t n);
void double2ushort_many( void *out, void *in, size_t n);
void double2ushort_sat_many( void *out, void *in, size_t n);
void ulong2ushort_many( void *out, void *in, size_t n);
void ulong2ushort_sat_many( void *out, void *in, size_t n);
void long2ushort_many( void *out, void *in, size_t n);
void long2ushort_sat_many( void *out, void *in, size_t n);
void uchar2short_many( void *out, void *in, size_t n);
void uchar2short_sat_many( void *out, void *in, size_t n);
void char2short_many( void *out, void *in, size_t n);
void char2short_sat_many( void *out, void *in, size_t n);
void ushort2short_many( void *out, void *in, size_t n);
void ushort2short_sat_many( void *out, void *in, size_t n);
void short2short_many( void *out, void *in, size_t n);
void short2short_sat_many( void *out, void *in, size_t n);
void uint2short_many( void *out, void *in, size_t n);
void uint2short_sat_many( void *out, void *in, size_t n);
void int2short_many( void *out, void *in, size_t n);
void int2short_sat_many( void *out, void *in, size_t n);
void float2short_many( void *out, void *in, size_t n);
void float2short_sat_many( void *out, void *in, size_t n);
void double2short_many( void *out, void *in, size_t n);
void double2short_sat_many( void *out, void *in, size_t n);
void ulong2short_many( void *out, void *in, size_t n);
void ulong2short_sat_many( void *out, void *in, size_t n);
void long2short_many( void *out, void *in, size_t n);
void long2short_sat_many( void *out, void *in, size_t n);
void uchar2uint_many( void *out, void *in, size_t n);
void uchar2uint_sat_many( void *out, void *in, size_t n);
void char2uint_many( void *out, void *in, size_t n);
void char2uint_sat_many( void *out, void *in, size_t n);
void ushort2uint_many( void *out, void *in, size_t n);
void ushort2uint_sat_many( void *out, void *in, size_t n);
void short2uint_many( void *out, void *in, size_t n);
void short2uint_sat_many( void *out, void *in, size_t n);
void uint2uint_many( void *out, void *in, size_t n);
void uint2uint_sat_many( void *out, void *in, size_t n);
void int2uint_many( void *out, void *in, size_t n);
void int2uint_sat_many( void *out, void *in, size_t n);
void float2uint_many( void *out, void *in, size_t n);
void float2uint_sat_many( void *out, void *in, size_t n);
void double2uint_many( void *out, void *in, size_t n);
void double2uint_sat_many( void *out, void *in, size_t n);
void ulong2uint_many( void *out, void *in, size_t n);
void ulong2uint_sat_many( void *out, void *in, size_t n);
void long2uint_many( void *out, void *in, size_t n);
void long2uint_sat_many( void *out, void *in, size_t n);
void uchar2int_many( void *out, void *in, size_t n);
void uchar2int_sat_many( void *out, void *in, size_t n);
void char2int_many( void *out, void *in, size_t n);
void char2int_sat_many( void *out, void *in, size_t n);
void ushort2int_many( void *out, void *in, size_t n);
void ushort2int_sat_many( void *out, void *in, size_t n);
void short2int_many( void *out, void *in, size_t n);
void short2int_sat_many( void *out, void *in, size_t n);
void uint2int_many( void *out, void *in, size_t n);
void uint2int_sat_many( void *out, void *in, size_t n);
void int2int_many( void *out, void *in, size_t n);
void int2int_sat_many( void *out, void *in, size_t n);
void float2int_many( void *out, void *in, size_t n);
void float2int_sat_many( void *out, void *in, size_t n);
void double2int_many( void *out, void *in, size_t n);
void double2int_sat_many( void *out, void *in, size_t n);
void ulong2int_many( void *out, void *in, size_t n);
void ulong2int_sat_many( void *out, void *in, size_t n);
void long2int_many( void *out, void *in, size_t n);
void long2int_sat_many( void *out, void *in, size_t n);
void uchar2float_many( void *out, void *in, size_t n);
void uchar2float_sat_many( void *out, void *in, size_t n);
void char2float_many( void *out, void *in, size_t n);
void char2float_sat_many( void *out, void *in, size_t n);
void ushort2float_many( void *out, void *in, size_t n);
void ushort2float_sat_many( void *out, void *in, size_t n);
void short2float_many( void *out, void *in, size_t n);
void short2float_sat_many( void *out, void *in, size_t n);
void uint2float_many( void *out, void *in, size_t n);
void uint2float_sat_many( void *out, void *in, size_t n);
void int2float_many( void *out, void *in, size_t n);
void int2float_sat_many( void *out, void *in, size_t n);
void float2float_many( void *out, void *in, size_t n);
void float2float_sat_many( void *out, void *in, size_t n);
void double2float_many( void *out, void *in, size_t n);
void double2float_sat_many( void *out, void *in, size_t n);
void ulong2float_many( void *out, void *in, size_t n);
void ulong2float_sat_many( void *out, void *in, size_t n);
void long2float_many( void *out, void *in, size_t n);
void long2float_sat_many( void *out, void *in, size_t n);
void uchar2double_many( void *out, void *in, size_t n);
void uchar2double_sat_many( void *out, void *in, size_t n);
void char2double_many( void *out, void *in, size_t n);
void char2double_sat_many( void *out, void *in, size_t n);
void ushort2double_many( void *out, void *in, size_t n);
void ushort2double_sat_many( void *out, void *in, size_t n);
void short2double_many( void *out, void *in, size_t n);
void short2double_sat_many( void *out, void *in, size_t n);
void uint2double_many( void *out, void *in, size_t n);
void uint2double_sat_many( void *out, void *in, size_t n);
void int2double_many( void *out, void *in, size_t n);
void int2double_sat_many( void *out, void *in, size_t n);
void float2double_many( void *out, void *in, size_t n);
void float2double_sat_many( void *out, void *in, size_t n);
void double2double_many( void *out, void *in, size_t n);
void double2double_sat_many( void *out, void *in, size_t n);
void ulong2double_many( void *out, void *in, size_t n);
void ulong2double_sat_many( void *out, void *in, size_t n);
void long2double_many( void *out, void *in, size_t n);
void long2double_sat_many( void *out, void *in, size_t n);
void uchar2ulong_many( void *out, void *in, size_t n);
void uchar2ulong_sat_many( void *out, void *in, size_t n);
void char2ulong_many( void *out, void *in, size_t n);
void char2ulong_sat_many( void *out, void *in, size_t n);
void ushort2ulong_many( void *out, void *in, size_t n);
void ushort2ulong_sat_many( void *out, void *in, size_t n);
void short2ulong_many( void *out, void *in, size_t n);
void short2ulong_sat_many( void *out, void *in, size_t n);
void uint2ulong_many( void *out, void *in, size_t n);
void uint2ulong_sat_many( void *out, void *in, size_t n);
void int2ulong_many( void *out, void *in, size_t n);
void int2ulong_sat_many( void *out, void *in, size_t n);
void float2ulong_many( void *out, void *in, size_t n);
void float2ulong_sat_many( void *out, void *in, size_t n);
void double2ulong_many( void *out, void *in, size_t n);
void double2ulong_sat_many( void *out, void *in, size_t n);
void ulong2ulong_many( void *out, void *in, size_t n);
void ulong2ulong_sat_many( void *out, void *in, size_t n);
void long2ulong_many( void *out, void *in, size_t n);
void long2ulong_sat_many( void *out, void *in, size_t n);
void uchar2long_many( void *out, void *in, size_t n);
void uchar2long_sat_many( void *out, void *in, size_t n);
void char2long_many( void *out, void *in, size_t n);
void char2long_sat_many( void *out, void *in, size_t n);
void ushort2long_many( void *out, void *in, size_t n);
void ushort2long_sat_many( void *out, void *in, size_t n);
void short2long_many( void *out, void *in, size_t n);
void short2long_sat_many( void *out, void *in, size_t n);
void uint2long_many( void *out, void *in, size_t n);
void uint2long_sat_many( void *out, void *in, size_t n);
void int2long_many( void *out, void *in, size_t n);
void int2long_sat_many( void *out, void *in, size_t n);
void float2long_many( void *out, void *in, size_t n);
void float2long_sat_many( void *out, void *in, size_t n);
void double2long_many( void *out, void *in, size_t n);
void double2long_sat_many( void *out, void *in, size_t n);
void ulong2long_many( void *out, void *in, size_t n);
void ulong2long_sat_many( void *out, void *in, size_t n);
void long2long_many( void *out, void *in, size_t n);
void long2long_sat_many( void *out, void *in, size_t n);
void uchar2uchar_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_uchar )); }
void uchar2uchar_sat_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_uchar )); }
void char2uchar_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2uchar( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_char)); }}
void char2uchar_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2uchar_sat( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_char)); }}
void ushort2uchar_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2uchar( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_ushort)); }}
void ushort2uchar_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2uchar_sat( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_ushort)); }}
void short2uchar_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2uchar( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_short)); }}
void short2uchar_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2uchar_sat( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_short)); }}
void uint2uchar_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2uchar( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_uint)); }}
void uint2uchar_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2uchar_sat( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_uint)); }}
void int2uchar_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2uchar( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_int)); }}
void int2uchar_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2uchar_sat( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_int)); }}
void float2uchar_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2uchar( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_float)); }}
void float2uchar_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2uchar_sat( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_float)); }}
void double2uchar_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2uchar( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_double)); }}
void double2uchar_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2uchar_sat( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_double)); }}
void ulong2uchar_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2uchar( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_ulong)); }}
void ulong2uchar_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2uchar_sat( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_ulong)); }}
void long2uchar_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2uchar( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_long)); }}
void long2uchar_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2uchar_sat( (char*) out + i * sizeof(cl_uchar), (char*) in + i * sizeof(cl_long)); }}
void uchar2char_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2char( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_uchar)); }}
void uchar2char_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2char_sat( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_uchar)); }}
void char2char_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_char )); }
void char2char_sat_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_char )); }
void ushort2char_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2char( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_ushort)); }}
void ushort2char_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2char_sat( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_ushort)); }}
void short2char_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2char( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_short)); }}
void short2char_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2char_sat( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_short)); }}
void uint2char_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2char( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_uint)); }}
void uint2char_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2char_sat( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_uint)); }}
void int2char_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2char( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_int)); }}
void int2char_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2char_sat( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_int)); }}
void float2char_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2char( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_float)); }}
void float2char_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2char_sat( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_float)); }}
void double2char_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2char( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_double)); }}
void double2char_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2char_sat( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_double)); }}
void ulong2char_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2char( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_ulong)); }}
void ulong2char_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2char_sat( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_ulong)); }}
void long2char_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2char( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_long)); }}
void long2char_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2char_sat( (char*) out + i * sizeof(cl_char), (char*) in + i * sizeof(cl_long)); }}
void uchar2ushort_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2ushort( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_uchar)); }}
void uchar2ushort_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2ushort_sat( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_uchar)); }}
void char2ushort_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2ushort( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_char)); }}
void char2ushort_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2ushort_sat( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_char)); }}
void ushort2ushort_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_ushort )); }
void ushort2ushort_sat_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_ushort )); }
void short2ushort_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2ushort( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_short)); }}
void short2ushort_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2ushort_sat( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_short)); }}
void uint2ushort_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2ushort( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_uint)); }}
void uint2ushort_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2ushort_sat( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_uint)); }}
void int2ushort_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2ushort( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_int)); }}
void int2ushort_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2ushort_sat( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_int)); }}
void float2ushort_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2ushort( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_float)); }}
void float2ushort_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2ushort_sat( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_float)); }}
void double2ushort_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2ushort( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_double)); }}
void double2ushort_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2ushort_sat( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_double)); }}
void ulong2ushort_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2ushort( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_ulong)); }}
void ulong2ushort_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2ushort_sat( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_ulong)); }}
void long2ushort_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2ushort( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_long)); }}
void long2ushort_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2ushort_sat( (char*) out + i * sizeof(cl_ushort), (char*) in + i * sizeof(cl_long)); }}
void uchar2short_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2short( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_uchar)); }}
void uchar2short_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2short_sat( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_uchar)); }}
void char2short_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2short( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_char)); }}
void char2short_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2short_sat( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_char)); }}
void ushort2short_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2short( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_ushort)); }}
void ushort2short_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2short_sat( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_ushort)); }}
void short2short_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_short )); }
void short2short_sat_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_short )); }
void uint2short_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2short( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_uint)); }}
void uint2short_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2short_sat( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_uint)); }}
void int2short_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2short( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_int)); }}
void int2short_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2short_sat( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_int)); }}
void float2short_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2short( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_float)); }}
void float2short_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2short_sat( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_float)); }}
void double2short_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2short( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_double)); }}
void double2short_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2short_sat( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_double)); }}
void ulong2short_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2short( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_ulong)); }}
void ulong2short_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2short_sat( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_ulong)); }}
void long2short_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2short( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_long)); }}
void long2short_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2short_sat( (char*) out + i * sizeof(cl_short), (char*) in + i * sizeof(cl_long)); }}
void uchar2uint_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2uint( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_uchar)); }}
void uchar2uint_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2uint_sat( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_uchar)); }}
void char2uint_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2uint( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_char)); }}
void char2uint_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2uint_sat( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_char)); }}
void ushort2uint_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2uint( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_ushort)); }}
void ushort2uint_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2uint_sat( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_ushort)); }}
void short2uint_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2uint( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_short)); }}
void short2uint_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2uint_sat( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_short)); }}
void uint2uint_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_uint )); }
void uint2uint_sat_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_uint )); }
void int2uint_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2uint( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_int)); }}
void int2uint_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2uint_sat( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_int)); }}
void float2uint_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2uint( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_float)); }}
void float2uint_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2uint_sat( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_float)); }}
void double2uint_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2uint( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_double)); }}
void double2uint_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2uint_sat( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_double)); }}
void ulong2uint_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2uint( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_ulong)); }}
void ulong2uint_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2uint_sat( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_ulong)); }}
void long2uint_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2uint( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_long)); }}
void long2uint_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2uint_sat( (char*) out + i * sizeof(cl_uint), (char*) in + i * sizeof(cl_long)); }}
void uchar2int_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2int( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_uchar)); }}
void uchar2int_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2int_sat( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_uchar)); }}
void char2int_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2int( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_char)); }}
void char2int_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2int_sat( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_char)); }}
void ushort2int_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2int( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_ushort)); }}
void ushort2int_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2int_sat( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_ushort)); }}
void short2int_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2int( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_short)); }}
void short2int_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2int_sat( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_short)); }}
void uint2int_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2int( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_uint)); }}
void uint2int_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2int_sat( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_uint)); }}
void int2int_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_int )); }
void int2int_sat_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_int )); }
void float2int_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2int( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_float)); }}
void float2int_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2int_sat( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_float)); }}
void double2int_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2int( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_double)); }}
void double2int_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2int_sat( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_double)); }}
void ulong2int_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2int( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_ulong)); }}
void ulong2int_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2int_sat( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_ulong)); }}
void long2int_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2int( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_long)); }}
void long2int_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2int_sat( (char*) out + i * sizeof(cl_int), (char*) in + i * sizeof(cl_long)); }}
void uchar2float_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2float( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_uchar)); }}
void uchar2float_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2float_sat( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_uchar)); }}
void char2float_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2float( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_char)); }}
void char2float_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2float_sat( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_char)); }}
void ushort2float_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2float( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_ushort)); }}
void ushort2float_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2float_sat( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_ushort)); }}
void short2float_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2float( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_short)); }}
void short2float_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2float_sat( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_short)); }}
void uint2float_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2float( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_uint)); }}
void uint2float_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2float_sat( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_uint)); }}
void int2float_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2float( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_int)); }}
void int2float_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2float_sat( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_int)); }}
void float2float_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_float )); }
void float2float_sat_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_float )); }
void double2float_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2float( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_double)); }}
void double2float_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2float_sat( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_double)); }}
void ulong2float_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2float( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_ulong)); }}
void ulong2float_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2float_sat( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_ulong)); }}
void long2float_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2float( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_long)); }}
void long2float_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2float_sat( (char*) out + i * sizeof(cl_float), (char*) in + i * sizeof(cl_long)); }}
void uchar2double_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2double( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_uchar)); }}
void uchar2double_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2double_sat( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_uchar)); }}
void char2double_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2double( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_char)); }}
void char2double_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2double_sat( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_char)); }}
void ushort2double_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2double( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_ushort)); }}
void ushort2double_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2double_sat( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_ushort)); }}
void short2double_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2double( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_short)); }}
void short2double_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2double_sat( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_short)); }}
void uint2double_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2double( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_uint)); }}
void uint2double_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2double_sat( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_uint)); }}
void int2double_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2double( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_int)); }}
void int2double_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2double_sat( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_int)); }}
void float2double_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2double( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_float)); }}
void float2double_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2double_sat( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_float)); }}
void double2double_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_double )); }
void double2double_sat_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_double )); }
void ulong2double_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2double( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_ulong)); }}
void ulong2double_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2double_sat( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_ulong)); }}
void long2double_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2double( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_long)); }}
void long2double_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2double_sat( (char*) out + i * sizeof(cl_double), (char*) in + i * sizeof(cl_long)); }}
void uchar2ulong_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2ulong( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_uchar)); }}
void uchar2ulong_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2ulong_sat( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_uchar)); }}
void char2ulong_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2ulong( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_char)); }}
void char2ulong_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2ulong_sat( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_char)); }}
void ushort2ulong_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2ulong( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_ushort)); }}
void ushort2ulong_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2ulong_sat( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_ushort)); }}
void short2ulong_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2ulong( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_short)); }}
void short2ulong_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2ulong_sat( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_short)); }}
void uint2ulong_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2ulong( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_uint)); }}
void uint2ulong_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2ulong_sat( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_uint)); }}
void int2ulong_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2ulong( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_int)); }}
void int2ulong_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2ulong_sat( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_int)); }}
void float2ulong_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2ulong( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_float)); }}
void float2ulong_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2ulong_sat( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_float)); }}
void double2ulong_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2ulong( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_double)); }}
void double2ulong_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2ulong_sat( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_double)); }}
void ulong2ulong_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_ulong )); }
void ulong2ulong_sat_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_ulong )); }
void long2ulong_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2ulong( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_long)); }}
void long2ulong_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ long2ulong_sat( (char*) out + i * sizeof(cl_ulong), (char*) in + i * sizeof(cl_long)); }}
void uchar2long_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2long( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_uchar)); }}
void uchar2long_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uchar2long_sat( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_uchar)); }}
void char2long_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2long( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_char)); }}
void char2long_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ char2long_sat( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_char)); }}
void ushort2long_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2long( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_ushort)); }}
void ushort2long_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ushort2long_sat( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_ushort)); }}
void short2long_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2long( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_short)); }}
void short2long_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ short2long_sat( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_short)); }}
void uint2long_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2long( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_uint)); }}
void uint2long_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ uint2long_sat( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_uint)); }}
void int2long_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2long( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_int)); }}
void int2long_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ int2long_sat( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_int)); }}
void float2long_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2long( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_float)); }}
void float2long_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ float2long_sat( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_float)); }}
void double2long_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2long( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_double)); }}
void double2long_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ double2long_sat( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_double)); }}
void ulong2long_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2long( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_ulong)); }}
void ulong2long_sat_many( void *out, void *in, size_t n){size_t i; for( i = 0; i < n; i++){ ulong2long_sat( (char*) out + i * sizeof(cl_long), (char*) in + i * sizeof(cl_ulong)); }}
void long2long_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_long )); }
void long2long_sat_many( void *out, void *in, size_t n){ memcpy( out, in, n * sizeof( cl_long )); }
Convert gSaturatedConversions[kTypeCount][kTypeCount] = {
{ uchar2uchar_sat_many, char2uchar_sat_many, ushort2uchar_sat_many, short2uchar_sat_many, uint2uchar_sat_many, int2uchar_sat_many, float2uchar_sat_many, double2uchar_sat_many, ulong2uchar_sat_many, long2uchar_sat_many, },
{ uchar2char_sat_many, char2char_sat_many, ushort2char_sat_many, short2char_sat_many, uint2char_sat_many, int2char_sat_many, float2char_sat_many, double2char_sat_many, ulong2char_sat_many, long2char_sat_many, },
{ uchar2ushort_sat_many, char2ushort_sat_many, ushort2ushort_sat_many, short2ushort_sat_many, uint2ushort_sat_many, int2ushort_sat_many, float2ushort_sat_many, double2ushort_sat_many, ulong2ushort_sat_many, long2ushort_sat_many, },
{ uchar2short_sat_many, char2short_sat_many, ushort2short_sat_many, short2short_sat_many, uint2short_sat_many, int2short_sat_many, float2short_sat_many, double2short_sat_many, ulong2short_sat_many, long2short_sat_many, },
{ uchar2uint_sat_many, char2uint_sat_many, ushort2uint_sat_many, short2uint_sat_many, uint2uint_sat_many, int2uint_sat_many, float2uint_sat_many, double2uint_sat_many, ulong2uint_sat_many, long2uint_sat_many, },
{ uchar2int_sat_many, char2int_sat_many, ushort2int_sat_many, short2int_sat_many, uint2int_sat_many, int2int_sat_many, float2int_sat_many, double2int_sat_many, ulong2int_sat_many,long2int_sat_many, },
{ uchar2float_sat_many, char2float_sat_many, ushort2float_sat_many, short2float_sat_many, uint2float_sat_many, int2float_sat_many, float2float_sat_many, double2float_sat_many, ulong2float_sat_many, long2float_sat_many, },
{ uchar2double_sat_many, char2double_sat_many, ushort2double_sat_many, short2double_sat_many, uint2double_sat_many, int2double_sat_many, float2double_sat_many, double2double_sat_many, ulong2double_sat_many, long2double_sat_many, },
{ uchar2ulong_sat_many, char2ulong_sat_many, ushort2ulong_sat_many, short2ulong_sat_many, uint2ulong_sat_many, int2ulong_sat_many, float2ulong_sat_many, double2ulong_sat_many, ulong2ulong_sat_many, long2ulong_sat_many, },
{ uchar2long_sat_many, char2long_sat_many, ushort2long_sat_many, short2long_sat_many, uint2long_sat_many, int2long_sat_many, float2long_sat_many, double2long_sat_many, ulong2long_sat_many, long2long_sat_many, },
};
Convert gConversions[kTypeCount][kTypeCount] = {
{ uchar2uchar_many, char2uchar_many, ushort2uchar_many, short2uchar_many, uint2uchar_many, int2uchar_many, float2uchar_many, double2uchar_many, ulong2uchar_many, long2uchar_many, },
{ uchar2char_many, char2char_many, ushort2char_many, short2char_many, uint2char_many, int2char_many, float2char_many, double2char_many, ulong2char_many, long2char_many, },
{ uchar2ushort_many, char2ushort_many, ushort2ushort_many, short2ushort_many, uint2ushort_many, int2ushort_many, float2ushort_many, double2ushort_many, ulong2ushort_many, long2ushort_many, },
{ uchar2short_many, char2short_many, ushort2short_many, short2short_many, uint2short_many, int2short_many, float2short_many, double2short_many, ulong2short_many, long2short_many, },
{ uchar2uint_many, char2uint_many, ushort2uint_many, short2uint_many, uint2uint_many, int2uint_many, float2uint_many, double2uint_many, ulong2uint_many, long2uint_many, },
{ uchar2int_many, char2int_many, ushort2int_many, short2int_many, uint2int_many, int2int_many, float2int_many, double2int_many, ulong2int_many, long2int_many, },
{ uchar2float_many, char2float_many, ushort2float_many, short2float_many, uint2float_many, int2float_many, float2float_many, double2float_many, ulong2float_many, long2float_many, },
{ uchar2double_many, char2double_many, ushort2double_many, short2double_many, uint2double_many, int2double_many, float2double_many, double2double_many, ulong2double_many, long2double_many, },
{ uchar2ulong_many, char2ulong_many, ushort2ulong_many, short2ulong_many, uint2ulong_many, int2ulong_many, float2ulong_many, double2ulong_many, ulong2ulong_many, long2ulong_many, },
{ uchar2long_many, char2long_many, ushort2long_many, short2long_many, uint2long_many, int2long_many, float2long_many, double2long_many, ulong2long_many, long2long_many, },
};
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