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/* autogenerated from blendorc.orc */
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#ifndef DISABLE_ORC
#include <orc/orc.h>
#endif
#include <glib.h>
#ifndef _ORC_INTEGER_TYPEDEFS_
#define _ORC_INTEGER_TYPEDEFS_
#if defined(__STDC_VERSION__) && __STDC_VERSION__ >= 199901L
#include <stdint.h>
typedef int8_t orc_int8;
typedef int16_t orc_int16;
typedef int32_t orc_int32;
typedef int64_t orc_int64;
typedef uint8_t orc_uint8;
typedef uint16_t orc_uint16;
typedef uint32_t orc_uint32;
typedef uint64_t orc_uint64;
#elif defined(_MSC_VER)
typedef signed __int8 orc_int8;
typedef signed __int16 orc_int16;
typedef signed __int32 orc_int32;
typedef signed __int64 orc_int64;
typedef unsigned __int8 orc_uint8;
typedef unsigned __int16 orc_uint16;
typedef unsigned __int32 orc_uint32;
typedef unsigned __int64 orc_uint64;
#else
#include <limits.h>
typedef signed char orc_int8;
typedef short orc_int16;
typedef int orc_int32;
typedef unsigned char orc_uint8;
typedef unsigned short orc_uint16;
typedef unsigned int orc_uint32;
#if INT_MAX == LONG_MAX
typedef long long orc_int64;
typedef unsigned long long orc_uint64;
#else
typedef long orc_int64;
typedef unsigned long orc_uint64;
#endif
#endif
typedef union
{
orc_int32 i;
float f;
} orc_union32;
typedef union
{
orc_int64 i;
double f;
} orc_union64;
#endif
void orc_splat_u32 (guint32 * d1, int p1, int n);
void orc_memcpy_u32 (guint32 * d1, const guint32 * s1, int n);
void orc_blend_u8 (guint8 * d1, int d1_stride, const guint8 * s1, int s1_stride,
int p1, int n, int m);
/* begin Orc C target preamble */
#define ORC_CLAMP(x,a,b) ((x)<(a) ? (a) : ((x)>(b) ? (b) : (x)))
#define ORC_ABS(a) ((a)<0 ? -(a) : (a))
#define ORC_MIN(a,b) ((a)<(b) ? (a) : (b))
#define ORC_MAX(a,b) ((a)>(b) ? (a) : (b))
#define ORC_SB_MAX 127
#define ORC_SB_MIN (-1-ORC_SB_MAX)
#define ORC_UB_MAX 255
#define ORC_UB_MIN 0
#define ORC_SW_MAX 32767
#define ORC_SW_MIN (-1-ORC_SW_MAX)
#define ORC_UW_MAX 65535
#define ORC_UW_MIN 0
#define ORC_SL_MAX 2147483647
#define ORC_SL_MIN (-1-ORC_SL_MAX)
#define ORC_UL_MAX 4294967295U
#define ORC_UL_MIN 0
#define ORC_CLAMP_SB(x) ORC_CLAMP(x,ORC_SB_MIN,ORC_SB_MAX)
#define ORC_CLAMP_UB(x) ORC_CLAMP(x,ORC_UB_MIN,ORC_UB_MAX)
#define ORC_CLAMP_SW(x) ORC_CLAMP(x,ORC_SW_MIN,ORC_SW_MAX)
#define ORC_CLAMP_UW(x) ORC_CLAMP(x,ORC_UW_MIN,ORC_UW_MAX)
#define ORC_CLAMP_SL(x) ORC_CLAMP(x,ORC_SL_MIN,ORC_SL_MAX)
#define ORC_CLAMP_UL(x) ORC_CLAMP(x,ORC_UL_MIN,ORC_UL_MAX)
#define ORC_SWAP_W(x) ((((x)&0xff)<<8) | (((x)&0xff00)>>8))
#define ORC_SWAP_L(x) ((((x)&0xff)<<24) | (((x)&0xff00)<<8) | (((x)&0xff0000)>>8) | (((x)&0xff000000)>>24))
#define ORC_PTR_OFFSET(ptr,offset) ((void *)(((unsigned char *)(ptr)) + (offset)))
/* end Orc C target preamble */
/* orc_splat_u32 */
#ifdef DISABLE_ORC
void
orc_splat_u32 (guint32 * d1, int p1, int n)
{
int i;
orc_union32 var0;
orc_union32 *ptr0;
const int var24 = p1;
ptr0 = (orc_union32 *) d1;
for (i = 0; i < n; i++) {
/* 0: copyl */
var0.i = var24;
*ptr0 = var0;
ptr0++;
}
}
#else
static void
_backup_orc_splat_u32 (OrcExecutor * ex)
{
int i;
int n = ex->n;
orc_union32 var0;
orc_union32 *ptr0;
const int var24 = ex->params[24];
ptr0 = (orc_union32 *) ex->arrays[0];
for (i = 0; i < n; i++) {
/* 0: copyl */
var0.i = var24;
*ptr0 = var0;
ptr0++;
}
}
void
orc_splat_u32 (guint32 * d1, int p1, int n)
{
OrcExecutor _ex, *ex = &_ex;
static int p_inited = 0;
static OrcProgram *p = 0;
void (*func) (OrcExecutor *);
if (!p_inited) {
orc_once_mutex_lock ();
if (!p_inited) {
OrcCompileResult result;
p = orc_program_new ();
orc_program_set_name (p, "orc_splat_u32");
orc_program_set_backup_function (p, _backup_orc_splat_u32);
orc_program_add_destination (p, 4, "d1");
orc_program_add_parameter (p, 4, "p1");
orc_program_append (p, "copyl", ORC_VAR_D1, ORC_VAR_P1, ORC_VAR_D1);
result = orc_program_compile (p);
}
p_inited = TRUE;
orc_once_mutex_unlock ();
}
ex->program = p;
ex->n = n;
ex->arrays[ORC_VAR_D1] = d1;
ex->params[ORC_VAR_P1] = p1;
func = p->code_exec;
func (ex);
}
#endif
/* orc_memcpy_u32 */
#ifdef DISABLE_ORC
void
orc_memcpy_u32 (guint32 * d1, const guint32 * s1, int n)
{
int i;
orc_union32 var0;
orc_union32 *ptr0;
orc_union32 var4;
const orc_union32 *ptr4;
ptr0 = (orc_union32 *) d1;
ptr4 = (orc_union32 *) s1;
for (i = 0; i < n; i++) {
var4 = *ptr4;
ptr4++;
/* 0: copyl */
var0.i = var4.i;
*ptr0 = var0;
ptr0++;
}
}
#else
static void
_backup_orc_memcpy_u32 (OrcExecutor * ex)
{
int i;
int n = ex->n;
orc_union32 var0;
orc_union32 *ptr0;
orc_union32 var4;
const orc_union32 *ptr4;
ptr0 = (orc_union32 *) ex->arrays[0];
ptr4 = (orc_union32 *) ex->arrays[4];
for (i = 0; i < n; i++) {
var4 = *ptr4;
ptr4++;
/* 0: copyl */
var0.i = var4.i;
*ptr0 = var0;
ptr0++;
}
}
void
orc_memcpy_u32 (guint32 * d1, const guint32 * s1, int n)
{
OrcExecutor _ex, *ex = &_ex;
static int p_inited = 0;
static OrcProgram *p = 0;
void (*func) (OrcExecutor *);
if (!p_inited) {
orc_once_mutex_lock ();
if (!p_inited) {
OrcCompileResult result;
p = orc_program_new ();
orc_program_set_name (p, "orc_memcpy_u32");
orc_program_set_backup_function (p, _backup_orc_memcpy_u32);
orc_program_add_destination (p, 4, "d1");
orc_program_add_source (p, 4, "s1");
orc_program_append (p, "copyl", ORC_VAR_D1, ORC_VAR_S1, ORC_VAR_D1);
result = orc_program_compile (p);
}
p_inited = TRUE;
orc_once_mutex_unlock ();
}
ex->program = p;
ex->n = n;
ex->arrays[ORC_VAR_D1] = d1;
ex->arrays[ORC_VAR_S1] = (void *) s1;
func = p->code_exec;
func (ex);
}
#endif
/* orc_blend_u8 */
#ifdef DISABLE_ORC
void
orc_blend_u8 (guint8 * d1, int d1_stride, const guint8 * s1, int s1_stride,
int p1, int n, int m)
{
int i;
int j;
orc_int8 var0;
orc_int8 *ptr0;
orc_int8 var4;
const orc_int8 *ptr4;
const orc_int8 var16 = 8;
const int var24 = p1;
orc_int16 var32;
orc_int16 var33;
orc_int16 var34;
orc_int16 var35;
orc_int16 var36;
orc_int16 var37;
orc_int16 var38;
for (j = 0; j < m; j++) {
ptr0 = ORC_PTR_OFFSET (d1, d1_stride * j);
ptr4 = ORC_PTR_OFFSET (s1, s1_stride * j);
for (i = 0; i < n; i++) {
var0 = *ptr0;
var4 = *ptr4;
ptr4++;
/* 0: convubw */
var32 = (orc_uint8) var0;
/* 1: convubw */
var33 = (orc_uint8) var4;
/* 2: subw */
var34 = var33 - var32;
/* 3: mullw */
var35 = (var34 * var24) & 0xffff;
/* 4: shlw */
var36 = var32 << var16;
/* 5: addw */
var37 = var36 + var35;
/* 6: shruw */
var38 = ((orc_uint16) var37) >> var16;
/* 7: convsuswb */
var0 = ORC_CLAMP_UB (var38);
*ptr0 = var0;
ptr0++;
}
}
}
#else
static void
_backup_orc_blend_u8 (OrcExecutor * ex)
{
int i;
int j;
int n = ex->n;
int m = ex->params[ORC_VAR_A1];
orc_int8 var0;
orc_int8 *ptr0;
orc_int8 var4;
const orc_int8 *ptr4;
const orc_int8 var16 = 8;
const int var24 = ex->params[24];
orc_int16 var32;
orc_int16 var33;
orc_int16 var34;
orc_int16 var35;
orc_int16 var36;
orc_int16 var37;
orc_int16 var38;
for (j = 0; j < m; j++) {
ptr0 = ORC_PTR_OFFSET (ex->arrays[0], ex->params[0] * j);
ptr4 = ORC_PTR_OFFSET (ex->arrays[4], ex->params[4] * j);
for (i = 0; i < n; i++) {
var0 = *ptr0;
var4 = *ptr4;
ptr4++;
/* 0: convubw */
var32 = (orc_uint8) var0;
/* 1: convubw */
var33 = (orc_uint8) var4;
/* 2: subw */
var34 = var33 - var32;
/* 3: mullw */
var35 = (var34 * var24) & 0xffff;
/* 4: shlw */
var36 = var32 << var16;
/* 5: addw */
var37 = var36 + var35;
/* 6: shruw */
var38 = ((orc_uint16) var37) >> var16;
/* 7: convsuswb */
var0 = ORC_CLAMP_UB (var38);
*ptr0 = var0;
ptr0++;
}
}
}
void
orc_blend_u8 (guint8 * d1, int d1_stride, const guint8 * s1, int s1_stride,
int p1, int n, int m)
{
OrcExecutor _ex, *ex = &_ex;
static int p_inited = 0;
static OrcProgram *p = 0;
void (*func) (OrcExecutor *);
if (!p_inited) {
orc_once_mutex_lock ();
if (!p_inited) {
OrcCompileResult result;
p = orc_program_new ();
orc_program_set_2d (p);
orc_program_set_name (p, "orc_blend_u8");
orc_program_set_backup_function (p, _backup_orc_blend_u8);
orc_program_add_destination (p, 1, "d1");
orc_program_add_source (p, 1, "s1");
orc_program_add_constant (p, 1, 8, "c1");
orc_program_add_parameter (p, 2, "p1");
orc_program_add_temporary (p, 2, "t1");
orc_program_add_temporary (p, 2, "t2");
orc_program_append (p, "convubw", ORC_VAR_T1, ORC_VAR_D1, ORC_VAR_D1);
orc_program_append (p, "convubw", ORC_VAR_T2, ORC_VAR_S1, ORC_VAR_D1);
orc_program_append (p, "subw", ORC_VAR_T2, ORC_VAR_T2, ORC_VAR_T1);
orc_program_append (p, "mullw", ORC_VAR_T2, ORC_VAR_T2, ORC_VAR_P1);
orc_program_append (p, "shlw", ORC_VAR_T1, ORC_VAR_T1, ORC_VAR_C1);
orc_program_append (p, "addw", ORC_VAR_T2, ORC_VAR_T1, ORC_VAR_T2);
orc_program_append (p, "shruw", ORC_VAR_T2, ORC_VAR_T2, ORC_VAR_C1);
orc_program_append (p, "convsuswb", ORC_VAR_D1, ORC_VAR_T2, ORC_VAR_D1);
result = orc_program_compile (p);
}
p_inited = TRUE;
orc_once_mutex_unlock ();
}
ex->program = p;
ex->n = n;
ORC_EXECUTOR_M (ex) = m;
ex->arrays[ORC_VAR_D1] = d1;
ex->params[ORC_VAR_D1] = d1_stride;
ex->arrays[ORC_VAR_S1] = (void *) s1;
ex->params[ORC_VAR_S1] = s1_stride;
ex->params[ORC_VAR_P1] = p1;
func = p->code_exec;
func (ex);
}
#endif
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