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xenocara/lib/libGL/gallium/libgallium/generated/u_unfilled_gen.c
mpi e67a5fe840 Upate to libGL 7.11.2 
Tested by jsg@, matthieu@ and ajacoutot@, ok mattieu@
2012-08-17 13:57:59 +00:00

961 lines
27 KiB
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/* File automatically generated by u_unfilled_gen.py */
/*
* Copyright 2009 VMware, Inc.
* All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* on the rights to use, copy, modify, merge, publish, distribute, sub
* license, and/or sell copies of the Software, and to permit persons to whom
* the Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL
* VMWARE AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM,
* DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
* OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
* USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
/**
* @file
* Functions to translate and generate index lists
*/
#include "indices/u_indices.h"
#include "indices/u_indices_priv.h"
#include "pipe/p_compiler.h"
#include "util/u_debug.h"
#include "pipe/p_defines.h"
#include "util/u_memory.h"
static unsigned out_size_idx( unsigned index_size )
{
switch (index_size) {
case 4: return OUT_UINT;
case 2: return OUT_USHORT;
default: assert(0); return OUT_USHORT;
}
}
static unsigned in_size_idx( unsigned index_size )
{
switch (index_size) {
case 4: return IN_UINT;
case 2: return IN_USHORT;
case 1: return IN_UBYTE;
default: assert(0); return IN_UBYTE;
}
}
static u_generate_func generate_line[OUT_COUNT][PRIM_COUNT];
static u_translate_func translate_line[IN_COUNT][OUT_COUNT][PRIM_COUNT];
static void generate_tris_ushort(
unsigned nr,
void *_out )
{
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i+=3) {
(out+j)[0] = (ushort)(i);
(out+j)[1] = (ushort)(i+1);
(out+j+2)[0] = (ushort)(i+1);
(out+j+2)[1] = (ushort)(i+2);
(out+j+4)[0] = (ushort)(i+2);
(out+j+4)[1] = (ushort)(i);
}
}
static void generate_tristrip_ushort(
unsigned nr,
void *_out )
{
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i++) {
(out+j)[0] = (ushort)(i);
(out+j)[1] = (ushort)(i+1/*+(i&1)*/);
(out+j+2)[0] = (ushort)(i+1/*+(i&1)*/);
(out+j+2)[1] = (ushort)(i+2/*-(i&1)*/);
(out+j+4)[0] = (ushort)(i+2/*-(i&1)*/);
(out+j+4)[1] = (ushort)(i);
}
}
static void generate_trifan_ushort(
unsigned nr,
void *_out )
{
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i++) {
(out+j)[0] = (ushort)(0);
(out+j)[1] = (ushort)(i+1);
(out+j+2)[0] = (ushort)(i+1);
(out+j+2)[1] = (ushort)(i+2);
(out+j+4)[0] = (ushort)(i+2);
(out+j+4)[1] = (ushort)(0);
}
}
static void generate_quads_ushort(
unsigned nr,
void *_out )
{
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=8, i+=4) {
(out+j)[0] = (ushort)(i+0);
(out+j)[1] = (ushort)(i+1);
(out+j+2)[0] = (ushort)(i+1);
(out+j+2)[1] = (ushort)(i+2);
(out+j+4)[0] = (ushort)(i+2);
(out+j+4)[1] = (ushort)(i+3);
(out+j+6)[0] = (ushort)(i+3);
(out+j+6)[1] = (ushort)(i+0);
}
}
static void generate_quadstrip_ushort(
unsigned nr,
void *_out )
{
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=8, i+=2) {
(out+j)[0] = (ushort)(i+2);
(out+j)[1] = (ushort)(i+0);
(out+j+2)[0] = (ushort)(i+0);
(out+j+2)[1] = (ushort)(i+1);
(out+j+4)[0] = (ushort)(i+1);
(out+j+4)[1] = (ushort)(i+3);
(out+j+6)[0] = (ushort)(i+3);
(out+j+6)[1] = (ushort)(i+2);
}
}
static void generate_polygon_ushort(
unsigned nr,
void *_out )
{
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=2, i++) {
(out+j)[0] = (ushort)(i);
(out+j)[1] = (ushort)((i+1)%(nr/2));
}
}
static void generate_tris_uint(
unsigned nr,
void *_out )
{
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i+=3) {
(out+j)[0] = (uint)(i);
(out+j)[1] = (uint)(i+1);
(out+j+2)[0] = (uint)(i+1);
(out+j+2)[1] = (uint)(i+2);
(out+j+4)[0] = (uint)(i+2);
(out+j+4)[1] = (uint)(i);
}
}
static void generate_tristrip_uint(
unsigned nr,
void *_out )
{
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i++) {
(out+j)[0] = (uint)(i);
(out+j)[1] = (uint)(i+1/*+(i&1)*/);
(out+j+2)[0] = (uint)(i+1/*+(i&1)*/);
(out+j+2)[1] = (uint)(i+2/*-(i&1)*/);
(out+j+4)[0] = (uint)(i+2/*-(i&1)*/);
(out+j+4)[1] = (uint)(i);
}
}
static void generate_trifan_uint(
unsigned nr,
void *_out )
{
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i++) {
(out+j)[0] = (uint)(0);
(out+j)[1] = (uint)(i+1);
(out+j+2)[0] = (uint)(i+1);
(out+j+2)[1] = (uint)(i+2);
(out+j+4)[0] = (uint)(i+2);
(out+j+4)[1] = (uint)(0);
}
}
static void generate_quads_uint(
unsigned nr,
void *_out )
{
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=8, i+=4) {
(out+j)[0] = (uint)(i+0);
(out+j)[1] = (uint)(i+1);
(out+j+2)[0] = (uint)(i+1);
(out+j+2)[1] = (uint)(i+2);
(out+j+4)[0] = (uint)(i+2);
(out+j+4)[1] = (uint)(i+3);
(out+j+6)[0] = (uint)(i+3);
(out+j+6)[1] = (uint)(i+0);
}
}
static void generate_quadstrip_uint(
unsigned nr,
void *_out )
{
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=8, i+=2) {
(out+j)[0] = (uint)(i+2);
(out+j)[1] = (uint)(i+0);
(out+j+2)[0] = (uint)(i+0);
(out+j+2)[1] = (uint)(i+1);
(out+j+4)[0] = (uint)(i+1);
(out+j+4)[1] = (uint)(i+3);
(out+j+6)[0] = (uint)(i+3);
(out+j+6)[1] = (uint)(i+2);
}
}
static void generate_polygon_uint(
unsigned nr,
void *_out )
{
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=2, i++) {
(out+j)[0] = (uint)(i);
(out+j)[1] = (uint)((i+1)%(nr/2));
}
}
static void translate_tris_ubyte2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const ubyte*in = (const ubyte*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i+=3) {
(out+j)[0] = (ushort)in[i];
(out+j)[1] = (ushort)in[i+1];
(out+j+2)[0] = (ushort)in[i+1];
(out+j+2)[1] = (ushort)in[i+2];
(out+j+4)[0] = (ushort)in[i+2];
(out+j+4)[1] = (ushort)in[i];
}
}
static void translate_tristrip_ubyte2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const ubyte*in = (const ubyte*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i++) {
(out+j)[0] = (ushort)in[i];
(out+j)[1] = (ushort)in[i+1/*+(i&1)*/];
(out+j+2)[0] = (ushort)in[i+1/*+(i&1)*/];
(out+j+2)[1] = (ushort)in[i+2/*-(i&1)*/];
(out+j+4)[0] = (ushort)in[i+2/*-(i&1)*/];
(out+j+4)[1] = (ushort)in[i];
}
}
static void translate_trifan_ubyte2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const ubyte*in = (const ubyte*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i++) {
(out+j)[0] = (ushort)in[0];
(out+j)[1] = (ushort)in[i+1];
(out+j+2)[0] = (ushort)in[i+1];
(out+j+2)[1] = (ushort)in[i+2];
(out+j+4)[0] = (ushort)in[i+2];
(out+j+4)[1] = (ushort)in[0];
}
}
static void translate_quads_ubyte2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const ubyte*in = (const ubyte*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=8, i+=4) {
(out+j)[0] = (ushort)in[i+0];
(out+j)[1] = (ushort)in[i+1];
(out+j+2)[0] = (ushort)in[i+1];
(out+j+2)[1] = (ushort)in[i+2];
(out+j+4)[0] = (ushort)in[i+2];
(out+j+4)[1] = (ushort)in[i+3];
(out+j+6)[0] = (ushort)in[i+3];
(out+j+6)[1] = (ushort)in[i+0];
}
}
static void translate_quadstrip_ubyte2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const ubyte*in = (const ubyte*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=8, i+=2) {
(out+j)[0] = (ushort)in[i+2];
(out+j)[1] = (ushort)in[i+0];
(out+j+2)[0] = (ushort)in[i+0];
(out+j+2)[1] = (ushort)in[i+1];
(out+j+4)[0] = (ushort)in[i+1];
(out+j+4)[1] = (ushort)in[i+3];
(out+j+6)[0] = (ushort)in[i+3];
(out+j+6)[1] = (ushort)in[i+2];
}
}
static void translate_polygon_ubyte2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const ubyte*in = (const ubyte*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=2, i++) {
(out+j)[0] = (ushort)in[i];
(out+j)[1] = (ushort)in[(i+1)%(nr/2)];
}
}
static void translate_tris_ubyte2uint(
const void * _in,
unsigned nr,
void *_out )
{
const ubyte*in = (const ubyte*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i+=3) {
(out+j)[0] = (uint)in[i];
(out+j)[1] = (uint)in[i+1];
(out+j+2)[0] = (uint)in[i+1];
(out+j+2)[1] = (uint)in[i+2];
(out+j+4)[0] = (uint)in[i+2];
(out+j+4)[1] = (uint)in[i];
}
}
static void translate_tristrip_ubyte2uint(
const void * _in,
unsigned nr,
void *_out )
{
const ubyte*in = (const ubyte*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i++) {
(out+j)[0] = (uint)in[i];
(out+j)[1] = (uint)in[i+1/*+(i&1)*/];
(out+j+2)[0] = (uint)in[i+1/*+(i&1)*/];
(out+j+2)[1] = (uint)in[i+2/*-(i&1)*/];
(out+j+4)[0] = (uint)in[i+2/*-(i&1)*/];
(out+j+4)[1] = (uint)in[i];
}
}
static void translate_trifan_ubyte2uint(
const void * _in,
unsigned nr,
void *_out )
{
const ubyte*in = (const ubyte*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i++) {
(out+j)[0] = (uint)in[0];
(out+j)[1] = (uint)in[i+1];
(out+j+2)[0] = (uint)in[i+1];
(out+j+2)[1] = (uint)in[i+2];
(out+j+4)[0] = (uint)in[i+2];
(out+j+4)[1] = (uint)in[0];
}
}
static void translate_quads_ubyte2uint(
const void * _in,
unsigned nr,
void *_out )
{
const ubyte*in = (const ubyte*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=8, i+=4) {
(out+j)[0] = (uint)in[i+0];
(out+j)[1] = (uint)in[i+1];
(out+j+2)[0] = (uint)in[i+1];
(out+j+2)[1] = (uint)in[i+2];
(out+j+4)[0] = (uint)in[i+2];
(out+j+4)[1] = (uint)in[i+3];
(out+j+6)[0] = (uint)in[i+3];
(out+j+6)[1] = (uint)in[i+0];
}
}
static void translate_quadstrip_ubyte2uint(
const void * _in,
unsigned nr,
void *_out )
{
const ubyte*in = (const ubyte*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=8, i+=2) {
(out+j)[0] = (uint)in[i+2];
(out+j)[1] = (uint)in[i+0];
(out+j+2)[0] = (uint)in[i+0];
(out+j+2)[1] = (uint)in[i+1];
(out+j+4)[0] = (uint)in[i+1];
(out+j+4)[1] = (uint)in[i+3];
(out+j+6)[0] = (uint)in[i+3];
(out+j+6)[1] = (uint)in[i+2];
}
}
static void translate_polygon_ubyte2uint(
const void * _in,
unsigned nr,
void *_out )
{
const ubyte*in = (const ubyte*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=2, i++) {
(out+j)[0] = (uint)in[i];
(out+j)[1] = (uint)in[(i+1)%(nr/2)];
}
}
static void translate_tris_ushort2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const ushort*in = (const ushort*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i+=3) {
(out+j)[0] = (ushort)in[i];
(out+j)[1] = (ushort)in[i+1];
(out+j+2)[0] = (ushort)in[i+1];
(out+j+2)[1] = (ushort)in[i+2];
(out+j+4)[0] = (ushort)in[i+2];
(out+j+4)[1] = (ushort)in[i];
}
}
static void translate_tristrip_ushort2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const ushort*in = (const ushort*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i++) {
(out+j)[0] = (ushort)in[i];
(out+j)[1] = (ushort)in[i+1/*+(i&1)*/];
(out+j+2)[0] = (ushort)in[i+1/*+(i&1)*/];
(out+j+2)[1] = (ushort)in[i+2/*-(i&1)*/];
(out+j+4)[0] = (ushort)in[i+2/*-(i&1)*/];
(out+j+4)[1] = (ushort)in[i];
}
}
static void translate_trifan_ushort2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const ushort*in = (const ushort*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i++) {
(out+j)[0] = (ushort)in[0];
(out+j)[1] = (ushort)in[i+1];
(out+j+2)[0] = (ushort)in[i+1];
(out+j+2)[1] = (ushort)in[i+2];
(out+j+4)[0] = (ushort)in[i+2];
(out+j+4)[1] = (ushort)in[0];
}
}
static void translate_quads_ushort2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const ushort*in = (const ushort*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=8, i+=4) {
(out+j)[0] = (ushort)in[i+0];
(out+j)[1] = (ushort)in[i+1];
(out+j+2)[0] = (ushort)in[i+1];
(out+j+2)[1] = (ushort)in[i+2];
(out+j+4)[0] = (ushort)in[i+2];
(out+j+4)[1] = (ushort)in[i+3];
(out+j+6)[0] = (ushort)in[i+3];
(out+j+6)[1] = (ushort)in[i+0];
}
}
static void translate_quadstrip_ushort2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const ushort*in = (const ushort*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=8, i+=2) {
(out+j)[0] = (ushort)in[i+2];
(out+j)[1] = (ushort)in[i+0];
(out+j+2)[0] = (ushort)in[i+0];
(out+j+2)[1] = (ushort)in[i+1];
(out+j+4)[0] = (ushort)in[i+1];
(out+j+4)[1] = (ushort)in[i+3];
(out+j+6)[0] = (ushort)in[i+3];
(out+j+6)[1] = (ushort)in[i+2];
}
}
static void translate_polygon_ushort2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const ushort*in = (const ushort*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=2, i++) {
(out+j)[0] = (ushort)in[i];
(out+j)[1] = (ushort)in[(i+1)%(nr/2)];
}
}
static void translate_tris_ushort2uint(
const void * _in,
unsigned nr,
void *_out )
{
const ushort*in = (const ushort*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i+=3) {
(out+j)[0] = (uint)in[i];
(out+j)[1] = (uint)in[i+1];
(out+j+2)[0] = (uint)in[i+1];
(out+j+2)[1] = (uint)in[i+2];
(out+j+4)[0] = (uint)in[i+2];
(out+j+4)[1] = (uint)in[i];
}
}
static void translate_tristrip_ushort2uint(
const void * _in,
unsigned nr,
void *_out )
{
const ushort*in = (const ushort*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i++) {
(out+j)[0] = (uint)in[i];
(out+j)[1] = (uint)in[i+1/*+(i&1)*/];
(out+j+2)[0] = (uint)in[i+1/*+(i&1)*/];
(out+j+2)[1] = (uint)in[i+2/*-(i&1)*/];
(out+j+4)[0] = (uint)in[i+2/*-(i&1)*/];
(out+j+4)[1] = (uint)in[i];
}
}
static void translate_trifan_ushort2uint(
const void * _in,
unsigned nr,
void *_out )
{
const ushort*in = (const ushort*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i++) {
(out+j)[0] = (uint)in[0];
(out+j)[1] = (uint)in[i+1];
(out+j+2)[0] = (uint)in[i+1];
(out+j+2)[1] = (uint)in[i+2];
(out+j+4)[0] = (uint)in[i+2];
(out+j+4)[1] = (uint)in[0];
}
}
static void translate_quads_ushort2uint(
const void * _in,
unsigned nr,
void *_out )
{
const ushort*in = (const ushort*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=8, i+=4) {
(out+j)[0] = (uint)in[i+0];
(out+j)[1] = (uint)in[i+1];
(out+j+2)[0] = (uint)in[i+1];
(out+j+2)[1] = (uint)in[i+2];
(out+j+4)[0] = (uint)in[i+2];
(out+j+4)[1] = (uint)in[i+3];
(out+j+6)[0] = (uint)in[i+3];
(out+j+6)[1] = (uint)in[i+0];
}
}
static void translate_quadstrip_ushort2uint(
const void * _in,
unsigned nr,
void *_out )
{
const ushort*in = (const ushort*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=8, i+=2) {
(out+j)[0] = (uint)in[i+2];
(out+j)[1] = (uint)in[i+0];
(out+j+2)[0] = (uint)in[i+0];
(out+j+2)[1] = (uint)in[i+1];
(out+j+4)[0] = (uint)in[i+1];
(out+j+4)[1] = (uint)in[i+3];
(out+j+6)[0] = (uint)in[i+3];
(out+j+6)[1] = (uint)in[i+2];
}
}
static void translate_polygon_ushort2uint(
const void * _in,
unsigned nr,
void *_out )
{
const ushort*in = (const ushort*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=2, i++) {
(out+j)[0] = (uint)in[i];
(out+j)[1] = (uint)in[(i+1)%(nr/2)];
}
}
static void translate_tris_uint2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const uint*in = (const uint*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i+=3) {
(out+j)[0] = (ushort)in[i];
(out+j)[1] = (ushort)in[i+1];
(out+j+2)[0] = (ushort)in[i+1];
(out+j+2)[1] = (ushort)in[i+2];
(out+j+4)[0] = (ushort)in[i+2];
(out+j+4)[1] = (ushort)in[i];
}
}
static void translate_tristrip_uint2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const uint*in = (const uint*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i++) {
(out+j)[0] = (ushort)in[i];
(out+j)[1] = (ushort)in[i+1/*+(i&1)*/];
(out+j+2)[0] = (ushort)in[i+1/*+(i&1)*/];
(out+j+2)[1] = (ushort)in[i+2/*-(i&1)*/];
(out+j+4)[0] = (ushort)in[i+2/*-(i&1)*/];
(out+j+4)[1] = (ushort)in[i];
}
}
static void translate_trifan_uint2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const uint*in = (const uint*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i++) {
(out+j)[0] = (ushort)in[0];
(out+j)[1] = (ushort)in[i+1];
(out+j+2)[0] = (ushort)in[i+1];
(out+j+2)[1] = (ushort)in[i+2];
(out+j+4)[0] = (ushort)in[i+2];
(out+j+4)[1] = (ushort)in[0];
}
}
static void translate_quads_uint2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const uint*in = (const uint*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=8, i+=4) {
(out+j)[0] = (ushort)in[i+0];
(out+j)[1] = (ushort)in[i+1];
(out+j+2)[0] = (ushort)in[i+1];
(out+j+2)[1] = (ushort)in[i+2];
(out+j+4)[0] = (ushort)in[i+2];
(out+j+4)[1] = (ushort)in[i+3];
(out+j+6)[0] = (ushort)in[i+3];
(out+j+6)[1] = (ushort)in[i+0];
}
}
static void translate_quadstrip_uint2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const uint*in = (const uint*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=8, i+=2) {
(out+j)[0] = (ushort)in[i+2];
(out+j)[1] = (ushort)in[i+0];
(out+j+2)[0] = (ushort)in[i+0];
(out+j+2)[1] = (ushort)in[i+1];
(out+j+4)[0] = (ushort)in[i+1];
(out+j+4)[1] = (ushort)in[i+3];
(out+j+6)[0] = (ushort)in[i+3];
(out+j+6)[1] = (ushort)in[i+2];
}
}
static void translate_polygon_uint2ushort(
const void * _in,
unsigned nr,
void *_out )
{
const uint*in = (const uint*)_in;
ushort *out = (ushort*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=2, i++) {
(out+j)[0] = (ushort)in[i];
(out+j)[1] = (ushort)in[(i+1)%(nr/2)];
}
}
static void translate_tris_uint2uint(
const void * _in,
unsigned nr,
void *_out )
{
const uint*in = (const uint*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i+=3) {
(out+j)[0] = (uint)in[i];
(out+j)[1] = (uint)in[i+1];
(out+j+2)[0] = (uint)in[i+1];
(out+j+2)[1] = (uint)in[i+2];
(out+j+4)[0] = (uint)in[i+2];
(out+j+4)[1] = (uint)in[i];
}
}
static void translate_tristrip_uint2uint(
const void * _in,
unsigned nr,
void *_out )
{
const uint*in = (const uint*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i++) {
(out+j)[0] = (uint)in[i];
(out+j)[1] = (uint)in[i+1/*+(i&1)*/];
(out+j+2)[0] = (uint)in[i+1/*+(i&1)*/];
(out+j+2)[1] = (uint)in[i+2/*-(i&1)*/];
(out+j+4)[0] = (uint)in[i+2/*-(i&1)*/];
(out+j+4)[1] = (uint)in[i];
}
}
static void translate_trifan_uint2uint(
const void * _in,
unsigned nr,
void *_out )
{
const uint*in = (const uint*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=6, i++) {
(out+j)[0] = (uint)in[0];
(out+j)[1] = (uint)in[i+1];
(out+j+2)[0] = (uint)in[i+1];
(out+j+2)[1] = (uint)in[i+2];
(out+j+4)[0] = (uint)in[i+2];
(out+j+4)[1] = (uint)in[0];
}
}
static void translate_quads_uint2uint(
const void * _in,
unsigned nr,
void *_out )
{
const uint*in = (const uint*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=8, i+=4) {
(out+j)[0] = (uint)in[i+0];
(out+j)[1] = (uint)in[i+1];
(out+j+2)[0] = (uint)in[i+1];
(out+j+2)[1] = (uint)in[i+2];
(out+j+4)[0] = (uint)in[i+2];
(out+j+4)[1] = (uint)in[i+3];
(out+j+6)[0] = (uint)in[i+3];
(out+j+6)[1] = (uint)in[i+0];
}
}
static void translate_quadstrip_uint2uint(
const void * _in,
unsigned nr,
void *_out )
{
const uint*in = (const uint*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=8, i+=2) {
(out+j)[0] = (uint)in[i+2];
(out+j)[1] = (uint)in[i+0];
(out+j+2)[0] = (uint)in[i+0];
(out+j+2)[1] = (uint)in[i+1];
(out+j+4)[0] = (uint)in[i+1];
(out+j+4)[1] = (uint)in[i+3];
(out+j+6)[0] = (uint)in[i+3];
(out+j+6)[1] = (uint)in[i+2];
}
}
static void translate_polygon_uint2uint(
const void * _in,
unsigned nr,
void *_out )
{
const uint*in = (const uint*)_in;
uint *out = (uint*)_out;
unsigned i, j;
(void)j;
for (j = i = 0; j < nr; j+=2, i++) {
(out+j)[0] = (uint)in[i];
(out+j)[1] = (uint)in[(i+1)%(nr/2)];
}
}
void u_unfilled_init( void )
{
static int firsttime = 1;
if (!firsttime) return;
firsttime = 0;
generate_line[OUT_USHORT][PIPE_PRIM_TRIANGLES] = generate_tris_ushort;
generate_line[OUT_USHORT][PIPE_PRIM_TRIANGLE_FAN] = generate_trifan_ushort;
generate_line[OUT_USHORT][PIPE_PRIM_TRIANGLE_STRIP] = generate_tristrip_ushort;
generate_line[OUT_USHORT][PIPE_PRIM_QUADS] = generate_quads_ushort;
generate_line[OUT_USHORT][PIPE_PRIM_QUAD_STRIP] = generate_quadstrip_ushort;
generate_line[OUT_USHORT][PIPE_PRIM_POLYGON] = generate_polygon_ushort;
generate_line[OUT_UINT][PIPE_PRIM_TRIANGLES] = generate_tris_uint;
generate_line[OUT_UINT][PIPE_PRIM_TRIANGLE_FAN] = generate_trifan_uint;
generate_line[OUT_UINT][PIPE_PRIM_TRIANGLE_STRIP] = generate_tristrip_uint;
generate_line[OUT_UINT][PIPE_PRIM_QUADS] = generate_quads_uint;
generate_line[OUT_UINT][PIPE_PRIM_QUAD_STRIP] = generate_quadstrip_uint;
generate_line[OUT_UINT][PIPE_PRIM_POLYGON] = generate_polygon_uint;
translate_line[IN_UBYTE][OUT_USHORT][PIPE_PRIM_TRIANGLES] = translate_tris_ubyte2ushort;
translate_line[IN_UBYTE][OUT_USHORT][PIPE_PRIM_TRIANGLE_FAN] = translate_trifan_ubyte2ushort;
translate_line[IN_UBYTE][OUT_USHORT][PIPE_PRIM_TRIANGLE_STRIP] = translate_tristrip_ubyte2ushort;
translate_line[IN_UBYTE][OUT_USHORT][PIPE_PRIM_QUADS] = translate_quads_ubyte2ushort;
translate_line[IN_UBYTE][OUT_USHORT][PIPE_PRIM_QUAD_STRIP] = translate_quadstrip_ubyte2ushort;
translate_line[IN_UBYTE][OUT_USHORT][PIPE_PRIM_POLYGON] = translate_polygon_ubyte2ushort;
translate_line[IN_UBYTE][OUT_UINT][PIPE_PRIM_TRIANGLES] = translate_tris_ubyte2uint;
translate_line[IN_UBYTE][OUT_UINT][PIPE_PRIM_TRIANGLE_FAN] = translate_trifan_ubyte2uint;
translate_line[IN_UBYTE][OUT_UINT][PIPE_PRIM_TRIANGLE_STRIP] = translate_tristrip_ubyte2uint;
translate_line[IN_UBYTE][OUT_UINT][PIPE_PRIM_QUADS] = translate_quads_ubyte2uint;
translate_line[IN_UBYTE][OUT_UINT][PIPE_PRIM_QUAD_STRIP] = translate_quadstrip_ubyte2uint;
translate_line[IN_UBYTE][OUT_UINT][PIPE_PRIM_POLYGON] = translate_polygon_ubyte2uint;
translate_line[IN_USHORT][OUT_USHORT][PIPE_PRIM_TRIANGLES] = translate_tris_ushort2ushort;
translate_line[IN_USHORT][OUT_USHORT][PIPE_PRIM_TRIANGLE_FAN] = translate_trifan_ushort2ushort;
translate_line[IN_USHORT][OUT_USHORT][PIPE_PRIM_TRIANGLE_STRIP] = translate_tristrip_ushort2ushort;
translate_line[IN_USHORT][OUT_USHORT][PIPE_PRIM_QUADS] = translate_quads_ushort2ushort;
translate_line[IN_USHORT][OUT_USHORT][PIPE_PRIM_QUAD_STRIP] = translate_quadstrip_ushort2ushort;
translate_line[IN_USHORT][OUT_USHORT][PIPE_PRIM_POLYGON] = translate_polygon_ushort2ushort;
translate_line[IN_USHORT][OUT_UINT][PIPE_PRIM_TRIANGLES] = translate_tris_ushort2uint;
translate_line[IN_USHORT][OUT_UINT][PIPE_PRIM_TRIANGLE_FAN] = translate_trifan_ushort2uint;
translate_line[IN_USHORT][OUT_UINT][PIPE_PRIM_TRIANGLE_STRIP] = translate_tristrip_ushort2uint;
translate_line[IN_USHORT][OUT_UINT][PIPE_PRIM_QUADS] = translate_quads_ushort2uint;
translate_line[IN_USHORT][OUT_UINT][PIPE_PRIM_QUAD_STRIP] = translate_quadstrip_ushort2uint;
translate_line[IN_USHORT][OUT_UINT][PIPE_PRIM_POLYGON] = translate_polygon_ushort2uint;
translate_line[IN_UINT][OUT_USHORT][PIPE_PRIM_TRIANGLES] = translate_tris_uint2ushort;
translate_line[IN_UINT][OUT_USHORT][PIPE_PRIM_TRIANGLE_FAN] = translate_trifan_uint2ushort;
translate_line[IN_UINT][OUT_USHORT][PIPE_PRIM_TRIANGLE_STRIP] = translate_tristrip_uint2ushort;
translate_line[IN_UINT][OUT_USHORT][PIPE_PRIM_QUADS] = translate_quads_uint2ushort;
translate_line[IN_UINT][OUT_USHORT][PIPE_PRIM_QUAD_STRIP] = translate_quadstrip_uint2ushort;
translate_line[IN_UINT][OUT_USHORT][PIPE_PRIM_POLYGON] = translate_polygon_uint2ushort;
translate_line[IN_UINT][OUT_UINT][PIPE_PRIM_TRIANGLES] = translate_tris_uint2uint;
translate_line[IN_UINT][OUT_UINT][PIPE_PRIM_TRIANGLE_FAN] = translate_trifan_uint2uint;
translate_line[IN_UINT][OUT_UINT][PIPE_PRIM_TRIANGLE_STRIP] = translate_tristrip_uint2uint;
translate_line[IN_UINT][OUT_UINT][PIPE_PRIM_QUADS] = translate_quads_uint2uint;
translate_line[IN_UINT][OUT_UINT][PIPE_PRIM_QUAD_STRIP] = translate_quadstrip_uint2uint;
translate_line[IN_UINT][OUT_UINT][PIPE_PRIM_POLYGON] = translate_polygon_uint2uint;
}
#include "indices/u_unfilled_indices.c"
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