lxdream.org :: lxdream/src/pvr2/scene.c r934:3acd3b3ee6d1 (annotated)

tree revision 953:f4a156508ad1

filename	src/pvr2/scene.c
changeset	934:3acd3b3ee6d1
prev	863:a5e5310061e2
next	1066:ddffe9d2b332
author	nkeynes
date	Tue Jan 13 11:56:28 2009 +0000 (15 years ago)
permissions	-rw-r--r--
last change	Merge lxdream-mem branch back to trunk

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nkeynes@653	1	/**
nkeynes@653	2	* $Id$
nkeynes@653	3	*
nkeynes@827	4	* Manage the internal vertex/polygon buffers and scene data structure.
nkeynes@653	5	* Where possible this uses VBOs for the vertex + index data.
nkeynes@653	6	*
nkeynes@653	7	* Copyright (c) 2005 Nathan Keynes.
nkeynes@653	8	*
nkeynes@653	9	* This program is free software; you can redistribute it and/or modify
nkeynes@653	10	* it under the terms of the GNU General Public License as published by
nkeynes@653	11	* the Free Software Foundation; either version 2 of the License, or
nkeynes@653	12	* (at your option) any later version.
nkeynes@653	13	*
nkeynes@653	14	* This program is distributed in the hope that it will be useful,
nkeynes@653	15	* but WITHOUT ANY WARRANTY; without even the implied warranty of
nkeynes@653	16	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
nkeynes@653	17	* GNU General Public License for more details.
nkeynes@653	18	*/
nkeynes@653	19
nkeynes@653	20	#include <assert.h>
nkeynes@653	21	#include <string.h>
nkeynes@653	22	#include <math.h>
nkeynes@653	23	#include "lxdream.h"
nkeynes@653	24	#include "display.h"
nkeynes@653	25	#include "pvr2/pvr2.h"
nkeynes@677	26	#include "pvr2/pvr2mmio.h"
nkeynes@653	27	#include "pvr2/glutil.h"
nkeynes@653	28	#include "pvr2/scene.h"
nkeynes@653	29
nkeynes@863	30	#define U8TOFLOAT(n) (((float)((n)+1))/256.0)
nkeynes@863	31
nkeynes@687	32	static void unpack_bgra(uint32_t bgra, float *rgba)
nkeynes@687	33	{
nkeynes@687	34	rgba[0] = ((float)(((bgra&0x00FF0000)>>16) + 1)) / 256.0;
nkeynes@687	35	rgba[1] = ((float)(((bgra&0x0000FF00)>>8) + 1)) / 256.0;
nkeynes@687	36	rgba[2] = ((float)((bgra&0x000000FF) + 1)) / 256.0;
nkeynes@687	37	rgba[3] = ((float)(((bgra&0xFF000000)>>24) + 1)) / 256.0;
nkeynes@687	38	}
nkeynes@653	39
nkeynes@653	40	static inline uint32_t bgra_to_rgba(uint32_t bgra)
nkeynes@653	41	{
nkeynes@653	42	return (bgra&0xFF00FF00) \| ((bgra&0x00FF0000)>>16) \| ((bgra&0x000000FF)<<16);
nkeynes@653	43	}
nkeynes@653	44
nkeynes@653	45	/**
nkeynes@653	46	* Convert a half-float (16-bit) FP number to a regular 32-bit float.
nkeynes@653	47	* Source is 1-bit sign, 5-bit exponent, 10-bit mantissa.
nkeynes@653	48	* TODO: Check the correctness of this.
nkeynes@653	49	*/
nkeynes@653	50	static float halftofloat( uint16_t half )
nkeynes@653	51	{
nkeynes@653	52	union {
nkeynes@653	53	float f;
nkeynes@653	54	uint32_t i;
nkeynes@653	55	} temp;
nkeynes@653	56	temp.i = ((uint32_t)half)<<16;
nkeynes@653	57	return temp.f;
nkeynes@653	58	}
nkeynes@653	59
nkeynes@847	60	static float parse_fog_density( uint32_t value )
nkeynes@847	61	{
nkeynes@847	62	union {
nkeynes@847	63	uint32_t i;
nkeynes@847	64	float f;
nkeynes@847	65	} u;
nkeynes@847	66	u.i = (((value+127)&0xFF)<<23)\|((value & 0xFF00)<<7);
nkeynes@847	67	return u.f;
nkeynes@847	68	}
nkeynes@653	69
nkeynes@653	70	struct pvr2_scene_struct pvr2_scene;
nkeynes@653	71
nkeynes@653	72	static gboolean vbo_init = FALSE;
nkeynes@863	73	static float scene_shadow_intensity = 0.0;
nkeynes@669	74
nkeynes@669	75	#ifdef ENABLE_VERTEX_BUFFER
nkeynes@653	76	static gboolean vbo_supported = FALSE;
nkeynes@669	77	#endif
nkeynes@653	78
nkeynes@653	79	/**
nkeynes@653	80	* Test for VBO support, and allocate all the system memory needed for the
nkeynes@653	81	* temporary structures. GL context must have been initialized before this
nkeynes@653	82	* point.
nkeynes@653	83	*/
nkeynes@653	84	void pvr2_scene_init()
nkeynes@653	85	{
nkeynes@653	86	if( !vbo_init ) {
nkeynes@653	87	#ifdef ENABLE_VERTEX_BUFFER
nkeynes@736	88	if( isGLVertexBufferSupported() ) {
nkeynes@736	89	vbo_supported = TRUE;
nkeynes@736	90	pvr2_scene.vbo_id = 1;
nkeynes@736	91	}
nkeynes@653	92	#endif
nkeynes@736	93	pvr2_scene.vertex_array = NULL;
nkeynes@736	94	pvr2_scene.vertex_array_size = 0;
nkeynes@736	95	pvr2_scene.poly_array = g_malloc( MAX_POLY_BUFFER_SIZE );
nkeynes@736	96	pvr2_scene.buf_to_poly_map = g_malloc0( BUF_POLY_MAP_SIZE );
nkeynes@736	97	vbo_init = TRUE;
nkeynes@653	98	}
nkeynes@653	99	}
nkeynes@653	100
nkeynes@653	101	/**
nkeynes@653	102	* Clear the scene data structures in preparation for fresh data
nkeynes@653	103	*/
nkeynes@653	104	void pvr2_scene_reset()
nkeynes@653	105	{
nkeynes@653	106	pvr2_scene.poly_count = 0;
nkeynes@653	107	pvr2_scene.vertex_count = 0;
nkeynes@653	108	memset( pvr2_scene.buf_to_poly_map, 0, BUF_POLY_MAP_SIZE );
nkeynes@653	109	}
nkeynes@653	110
nkeynes@653	111	void pvr2_scene_shutdown()
nkeynes@653	112	{
nkeynes@653	113	#ifdef ENABLE_VERTEX_BUFFER
nkeynes@653	114	if( vbo_supported ) {
nkeynes@736	115	glBindBufferARB( GL_ARRAY_BUFFER_ARB, 0 );
nkeynes@736	116	glDeleteBuffersARB( 1, &pvr2_scene.vbo_id );
nkeynes@736	117	pvr2_scene.vbo_id = 0;
nkeynes@653	118	} else {
nkeynes@653	119	#endif
nkeynes@736	120	g_free( pvr2_scene.vertex_array );
nkeynes@736	121	pvr2_scene.vertex_array = NULL;
nkeynes@653	122	#ifdef ENABLE_VERTEX_BUFFER
nkeynes@653	123	}
nkeynes@653	124	#endif
nkeynes@653	125
nkeynes@653	126	g_free( pvr2_scene.poly_array );
nkeynes@653	127	pvr2_scene.poly_array = NULL;
nkeynes@653	128	g_free( pvr2_scene.buf_to_poly_map );
nkeynes@653	129	pvr2_scene.buf_to_poly_map = NULL;
nkeynes@653	130	vbo_init = FALSE;
nkeynes@653	131	}
nkeynes@653	132
nkeynes@653	133	void *vertex_buffer_map()
nkeynes@653	134	{
nkeynes@687	135	// Allow 8 vertexes for the background (4+4)
nkeynes@687	136	uint32_t size = (pvr2_scene.vertex_count + 8) * sizeof(struct vertex_struct);
nkeynes@653	137	#ifdef ENABLE_VERTEX_BUFFER
nkeynes@653	138	if( vbo_supported ) {
nkeynes@690	139	glGetError();
nkeynes@736	140	glBindBufferARB( GL_ARRAY_BUFFER_ARB, pvr2_scene.vbo_id );
nkeynes@736	141	if( size > pvr2_scene.vertex_array_size ) {
nkeynes@736	142	glBufferDataARB( GL_ARRAY_BUFFER_ARB, size, NULL, GL_DYNAMIC_DRAW_ARB );
nkeynes@736	143	int status = glGetError();
nkeynes@736	144	if( status != 0 ) {
nkeynes@736	145	fprintf( stderr, "Error %08X allocating vertex buffer\n", status );
nkeynes@736	146	abort();
nkeynes@736	147	}
nkeynes@736	148	pvr2_scene.vertex_array_size = size;
nkeynes@736	149	}
nkeynes@736	150	pvr2_scene.vertex_array = glMapBufferARB( GL_ARRAY_BUFFER_ARB, GL_WRITE_ONLY_ARB );
nkeynes@736	151	assert(pvr2_scene.vertex_array != NULL );
nkeynes@653	152	} else {
nkeynes@653	153	#endif
nkeynes@736	154	if( size > pvr2_scene.vertex_array_size ) {
nkeynes@736	155	pvr2_scene.vertex_array = g_realloc( pvr2_scene.vertex_array, size );
nkeynes@736	156	}
nkeynes@653	157	#ifdef ENABLE_VERTEX_BUFFER
nkeynes@653	158	}
nkeynes@653	159	#endif
nkeynes@653	160	return pvr2_scene.vertex_array;
nkeynes@653	161	}
nkeynes@653	162
nkeynes@653	163	gboolean vertex_buffer_unmap()
nkeynes@653	164	{
nkeynes@653	165	#ifdef ENABLE_VERTEX_BUFFER
nkeynes@653	166	if( vbo_supported ) {
nkeynes@736	167	pvr2_scene.vertex_array = NULL;
nkeynes@736	168	return glUnmapBufferARB( GL_ARRAY_BUFFER_ARB );
nkeynes@653	169	} else {
nkeynes@736	170	return TRUE;
nkeynes@653	171	}
nkeynes@653	172	#else
nkeynes@653	173	return TRUE;
nkeynes@653	174	#endif
nkeynes@653	175	}
nkeynes@653	176
nkeynes@653	177	static struct polygon_struct *scene_add_polygon( pvraddr_t poly_idx, int vertex_count,
nkeynes@863	178	shadow_mode_t is_modified )
nkeynes@653	179	{
nkeynes@863	180	int vert_mul = is_modified != SHADOW_NONE ? 2 : 1;
nkeynes@653	181
nkeynes@653	182	if( pvr2_scene.buf_to_poly_map[poly_idx] != NULL ) {
nkeynes@687	183	if( vertex_count > pvr2_scene.buf_to_poly_map[poly_idx]->vertex_count ) {
nkeynes@687	184	pvr2_scene.vertex_count += (vertex_count - pvr2_scene.buf_to_poly_map[poly_idx]->vertex_count) * vert_mul;
nkeynes@687	185	pvr2_scene.buf_to_poly_map[poly_idx]->vertex_count = vertex_count;
nkeynes@687	186	}
nkeynes@687	187	return pvr2_scene.buf_to_poly_map[poly_idx];
nkeynes@653	188	} else {
nkeynes@687	189	struct polygon_struct *poly = &pvr2_scene.poly_array[pvr2_scene.poly_count++];
nkeynes@687	190	poly->context = &pvr2_scene.pvr2_pbuf[poly_idx];
nkeynes@687	191	poly->vertex_count = vertex_count;
nkeynes@687	192	poly->vertex_index = -1;
nkeynes@687	193	poly->mod_vertex_index = -1;
nkeynes@687	194	poly->next = NULL;
nkeynes@687	195	pvr2_scene.buf_to_poly_map[poly_idx] = poly;
nkeynes@687	196	pvr2_scene.vertex_count += (vertex_count * vert_mul);
nkeynes@687	197	return poly;
nkeynes@653	198	}
nkeynes@653	199	}
nkeynes@653	200
nkeynes@653	201	/**
nkeynes@653	202	* Decode a single PVR2 renderable vertex (opaque/trans/punch-out, but not shadow
nkeynes@653	203	* volume)
nkeynes@653	204	* @param vert Pointer to output vertex structure
nkeynes@653	205	* @param poly1 First word of polygon context (needed to understand vertex)
nkeynes@653	206	* @param poly2 Second word of polygon context
nkeynes@653	207	* @param pvr2_data Pointer to raw pvr2 vertex data (in VRAM)
nkeynes@653	208	* @param modify_offset Offset in 32-bit words to the tex/color data. 0 for
nkeynes@653	209	* the normal vertex, half the vertex length for the modified vertex.
nkeynes@653	210	*/
nkeynes@827	211	static void pvr2_decode_render_vertex( struct vertex_struct *vert, uint32_t poly1,
nkeynes@827	212	uint32_t poly2, uint32_t *pvr2_data,
nkeynes@736	213	int modify_offset )
nkeynes@653	214	{
nkeynes@653	215	gboolean force_alpha = !POLY2_ALPHA_ENABLE(poly2);
nkeynes@653	216	union pvr2_data_type {
nkeynes@687	217	uint32_t *ival;
nkeynes@687	218	float *fval;
nkeynes@653	219	} data;
nkeynes@653	220
nkeynes@653	221	data.ival = pvr2_data;
nkeynes@687	222
nkeynes@653	223	vert->x = *data.fval++;
nkeynes@653	224	vert->y = *data.fval++;
nkeynes@653	225
nkeynes@653	226	float z = *data.fval++;
nkeynes@653	227	if( !isfinite(z) ) {
nkeynes@687	228	z = 0;
nkeynes@653	229	} else if( z != 0 ) {
nkeynes@687	230	z = 1/z;
nkeynes@653	231	}
nkeynes@653	232	if( z > pvr2_scene.bounds[5] ) {
nkeynes@687	233	pvr2_scene.bounds[5] = z;
nkeynes@653	234	} else if( z < pvr2_scene.bounds[4] && z != 0 ) {
nkeynes@687	235	pvr2_scene.bounds[4] = z;
nkeynes@653	236	}
nkeynes@653	237	vert->z = z;
nkeynes@653	238	data.ival += modify_offset;
nkeynes@653	239
nkeynes@687	240
nkeynes@653	241	if( POLY1_TEXTURED(poly1) ) {
nkeynes@687	242	if( POLY1_UV16(poly1) ) {
nkeynes@687	243	vert->u = halftofloat( *data.ival>>16 );
nkeynes@687	244	vert->v = halftofloat( *data.ival );
nkeynes@687	245	data.ival++;
nkeynes@687	246	} else {
nkeynes@687	247	vert->u = *data.fval++;
nkeynes@687	248	vert->v = *data.fval++;
nkeynes@687	249	}
nkeynes@687	250	if( POLY2_TEX_BLEND(poly2) == 1 ) {
nkeynes@687	251	force_alpha = TRUE;
nkeynes@687	252	}
nkeynes@653	253	}
nkeynes@687	254	unpack_bgra(*data.ival++, vert->rgba);
nkeynes@687	255	if( POLY1_SPECULAR(poly1) ) {
nkeynes@687	256	unpack_bgra(*data.ival++, vert->offset_rgba);
nkeynes@687	257	} else {
nkeynes@687	258	vert->offset_rgba[0] = 0.0;
nkeynes@687	259	vert->offset_rgba[1] = 0.0;
nkeynes@687	260	vert->offset_rgba[2] = 0.0;
nkeynes@827	261	vert->offset_rgba[3] = 0.0;
nkeynes@687	262	}
nkeynes@687	263
nkeynes@653	264	if( force_alpha ) {
nkeynes@687	265	vert->rgba[3] = 1.0;
nkeynes@653	266	}
nkeynes@653	267	}
nkeynes@653	268
nkeynes@653	269	/**
nkeynes@687	270	* Compute texture, colour, and z values for 1 or more result points by interpolating from
nkeynes@687	271	* a set of 3 input points. The result point(s) must define their x,y.
nkeynes@653	272	*/
nkeynes@827	273	static void scene_compute_vertexes( struct vertex_struct *result,
nkeynes@687	274	int result_count,
nkeynes@736	275	struct vertex_struct *input,
nkeynes@736	276	gboolean is_solid_shaded )
nkeynes@653	277	{
nkeynes@687	278	int i,j;
nkeynes@653	279	float sx = input[2].x - input[1].x;
nkeynes@653	280	float sy = input[2].y - input[1].y;
nkeynes@653	281	float tx = input[0].x - input[1].x;
nkeynes@653	282	float ty = input[0].y - input[1].y;
nkeynes@653	283
nkeynes@653	284	float detxy = ((sy) * (tx)) - ((ty) * (sx));
nkeynes@653	285	if( detxy == 0 ) {
nkeynes@827	286	// If the input points fall on a line, they don't define a usable
nkeynes@687	287	// polygon - the PVR2 takes the last input point as the result in
nkeynes@687	288	// this case.
nkeynes@687	289	for( i=0; i<result_count; i++ ) {
nkeynes@687	290	float x = result[i].x;
nkeynes@687	291	float y = result[i].y;
nkeynes@687	292	memcpy( &result[i], &input[2], sizeof(struct vertex_struct) );
nkeynes@687	293	result[i].x = x;
nkeynes@687	294	result[i].y = y;
nkeynes@687	295	}
nkeynes@687	296	return;
nkeynes@653	297	}
nkeynes@653	298	float sz = input[2].z - input[1].z;
nkeynes@653	299	float tz = input[0].z - input[1].z;
nkeynes@653	300	float su = input[2].u - input[1].u;
nkeynes@653	301	float tu = input[0].u - input[1].u;
nkeynes@653	302	float sv = input[2].v - input[1].v;
nkeynes@653	303	float tv = input[0].v - input[1].v;
nkeynes@653	304
nkeynes@687	305	for( i=0; i<result_count; i++ ) {
nkeynes@687	306	float t = ((result[i].x - input[1].x) * sy -
nkeynes@687	307	(result[i].y - input[1].y) * sx) / detxy;
nkeynes@687	308	float s = ((result[i].y - input[1].y) * tx -
nkeynes@687	309	(result[i].x - input[1].x) * ty) / detxy;
nkeynes@687	310
nkeynes@687	311	float rz = input[1].z + (ttz) + (ssz);
nkeynes@687	312	if( rz > pvr2_scene.bounds[5] ) {
nkeynes@687	313	pvr2_scene.bounds[5] = rz;
nkeynes@687	314	} else if( rz < pvr2_scene.bounds[4] ) {
nkeynes@827	315	pvr2_scene.bounds[4] = rz;
nkeynes@687	316	}
nkeynes@687	317	result[i].z = rz;
nkeynes@687	318	result[i].u = input[1].u + (ttu) + (ssu);
nkeynes@687	319	result[i].v = input[1].v + (ttv) + (ssv);
nkeynes@687	320
nkeynes@687	321	if( is_solid_shaded ) {
nkeynes@687	322	memcpy( result->rgba, input[2].rgba, sizeof(result->rgba) );
nkeynes@687	323	memcpy( result->offset_rgba, input[2].offset_rgba, sizeof(result->offset_rgba) );
nkeynes@687	324	} else {
nkeynes@687	325	float *rgba0 = input[0].rgba;
nkeynes@687	326	float *rgba1 = input[1].rgba;
nkeynes@687	327	float *rgba2 = input[2].rgba;
nkeynes@687	328	float *rgba3 = result[i].rgba;
nkeynes@687	329	for( j=0; j<8; j++ ) {
nkeynes@687	330	float tc = rgba0++ - rgba1;
nkeynes@687	331	float sc = rgba2++ - rgba1;
nkeynes@687	332	float rc = rgba1++ + (ttc) + (s*sc);
nkeynes@687	333	*rgba3++ = rc;
nkeynes@687	334	}
nkeynes@687	335	}
nkeynes@653	336	}
nkeynes@653	337	}
nkeynes@653	338
nkeynes@847	339	static float scene_compute_lut_fog_vertex( float z, float fog_density, float fog_table[][2] )
nkeynes@847	340	{
nkeynes@847	341	union {
nkeynes@847	342	uint32_t i;
nkeynes@847	343	float f;
nkeynes@847	344	} v;
nkeynes@847	345	v.f = z * fog_density;
nkeynes@847	346	if( v.f < 1.0 ) v.f = 1.0;
nkeynes@847	347	else if( v.f > 255.9999 ) v.f = 255.9999;
nkeynes@847	348
nkeynes@847	349	uint32_t index = ((v.i >> 18) & 0x0F)\|((v.i>>19)&0x70);
nkeynes@847	350	return fog_table[index][0];
nkeynes@847	351	}
nkeynes@847	352
nkeynes@847	353	/**
nkeynes@847	354	* Compute the fog coefficients for all polygons using lookup-table fog. It's
nkeynes@847	355	* a little more convenient to do this as a separate pass, since we don't have
nkeynes@847	356	* to worry about computed vertexes.
nkeynes@847	357	*/
nkeynes@847	358	static void scene_compute_lut_fog( )
nkeynes@847	359	{
nkeynes@847	360	int i,j;
nkeynes@847	361
nkeynes@847	362	float fog_density = parse_fog_density(MMIO_READ( PVR2, RENDER_FOGCOEFF ));
nkeynes@847	363	float fog_table[128][2];
nkeynes@847	364
nkeynes@847	365	/* Parse fog table out into floating-point format */
nkeynes@847	366	for( i=0; i<128; i++ ) {
nkeynes@847	367	uint32_t ent = MMIO_READ( PVR2, RENDER_FOGTABLE + (i<<2) );
nkeynes@847	368	fog_table[i][0] = ((float)(((ent&0x0000FF00)>>8) + 1)) / 256.0;
nkeynes@847	369	fog_table[i][1] = ((float)((ent&0x000000FF) + 1)) / 256.0;
nkeynes@847	370	}
nkeynes@847	371
nkeynes@847	372
nkeynes@847	373	for( i=0; i<pvr2_scene.poly_count; i++ ) {
nkeynes@847	374	int mode = POLY2_FOG_MODE(pvr2_scene.poly_array[i].context[1]);
nkeynes@847	375	if( mode == PVR2_POLY_FOG_LOOKUP ) {
nkeynes@847	376	uint32_t index = pvr2_scene.poly_array[i].vertex_index;
nkeynes@847	377	for( j=0; j<=pvr2_scene.poly_array[i].vertex_count; j++ ) {
nkeynes@847	378	pvr2_scene.vertex_array[index+j].offset_rgba[3] =
nkeynes@847	379	scene_compute_lut_fog_vertex( pvr2_scene.vertex_array[index+j].z, fog_density, fog_table );
nkeynes@847	380	}
nkeynes@847	381	} else if( mode == PVR2_POLY_FOG_LOOKUP2 ) {
nkeynes@847	382	uint32_t index = pvr2_scene.poly_array[i].vertex_index;
nkeynes@847	383	for( j=0; j<=pvr2_scene.poly_array[i].vertex_count; j++ ) {
nkeynes@847	384	pvr2_scene.vertex_array[index+j].rgba[0] = pvr2_scene.fog_lut_colour[0];
nkeynes@847	385	pvr2_scene.vertex_array[index+j].rgba[1] = pvr2_scene.fog_lut_colour[1];
nkeynes@847	386	pvr2_scene.vertex_array[index+j].rgba[2] = pvr2_scene.fog_lut_colour[2];
nkeynes@847	387	pvr2_scene.vertex_array[index+j].rgba[3] =
nkeynes@847	388	scene_compute_lut_fog_vertex( pvr2_scene.vertex_array[index+j].z, fog_density, fog_table );
nkeynes@847	389	}
nkeynes@847	390	}
nkeynes@847	391	}
nkeynes@847	392	}
nkeynes@847	393
nkeynes@863	394	static void scene_add_cheap_shadow_vertexes( struct vertex_struct src, struct vertex_struct dest, int count )
nkeynes@863	395	{
nkeynes@863	396	unsigned int i, j;
nkeynes@863	397
nkeynes@863	398	for( i=0; i<count; i++ ) {
nkeynes@863	399	dest->x = src->x;
nkeynes@863	400	dest->y = src->y;
nkeynes@863	401	dest->z = src->z;
nkeynes@863	402	dest->u = src->u;
nkeynes@863	403	dest->v = src->v;
nkeynes@863	404	dest->rgba[0] = src->rgba[0] * scene_shadow_intensity;
nkeynes@863	405	dest->rgba[1] = src->rgba[1] * scene_shadow_intensity;
nkeynes@863	406	dest->rgba[2] = src->rgba[2] * scene_shadow_intensity;
nkeynes@863	407	dest->rgba[3] = src->rgba[3] * scene_shadow_intensity;
nkeynes@863	408	dest->offset_rgba[0] = src->offset_rgba[0] * scene_shadow_intensity;
nkeynes@863	409	dest->offset_rgba[1] = src->offset_rgba[1] * scene_shadow_intensity;
nkeynes@863	410	dest->offset_rgba[2] = src->offset_rgba[2] * scene_shadow_intensity;
nkeynes@863	411	dest->offset_rgba[3] = src->offset_rgba[3];
nkeynes@863	412	dest++;
nkeynes@863	413	src++;
nkeynes@863	414	}
nkeynes@863	415	}
nkeynes@863	416
nkeynes@653	417	static void scene_add_vertexes( pvraddr_t poly_idx, int vertex_length,
nkeynes@863	418	shadow_mode_t is_modified )
nkeynes@653	419	{
nkeynes@653	420	struct polygon_struct *poly = pvr2_scene.buf_to_poly_map[poly_idx];
nkeynes@653	421	uint32_t *ptr = &pvr2_scene.pvr2_pbuf[poly_idx];
nkeynes@653	422	uint32_t *context = ptr;
nkeynes@653	423	unsigned int i;
nkeynes@653	424
nkeynes@653	425	if( poly->vertex_index == -1 ) {
nkeynes@863	426	ptr += (is_modified == SHADOW_FULL ? 5 : 3 );
nkeynes@687	427	poly->vertex_index = pvr2_scene.vertex_index;
nkeynes@687	428
nkeynes@687	429	assert( poly != NULL );
nkeynes@687	430	assert( pvr2_scene.vertex_index + poly->vertex_count <= pvr2_scene.vertex_count );
nkeynes@687	431	for( i=0; i<poly->vertex_count; i++ ) {
nkeynes@687	432	pvr2_decode_render_vertex( &pvr2_scene.vertex_array[pvr2_scene.vertex_index++], context[0], context[1], ptr, 0 );
nkeynes@687	433	ptr += vertex_length;
nkeynes@687	434	}
nkeynes@687	435	if( is_modified ) {
nkeynes@687	436	assert( pvr2_scene.vertex_index + poly->vertex_count <= pvr2_scene.vertex_count );
nkeynes@687	437	poly->mod_vertex_index = pvr2_scene.vertex_index;
nkeynes@863	438	if( is_modified == SHADOW_FULL ) {
nkeynes@863	439	int mod_offset = (vertex_length - 3)>>1;
nkeynes@863	440	ptr = &pvr2_scene.pvr2_pbuf[poly_idx] + 5;
nkeynes@863	441	for( i=0; i<poly->vertex_count; i++ ) {
nkeynes@863	442	pvr2_decode_render_vertex( &pvr2_scene.vertex_array[pvr2_scene.vertex_index++], context[0], context[3], ptr, mod_offset );
nkeynes@863	443	ptr += vertex_length;
nkeynes@863	444	}
nkeynes@863	445	} else {
nkeynes@863	446	scene_add_cheap_shadow_vertexes( &pvr2_scene.vertex_array[poly->vertex_index],
nkeynes@863	447	&pvr2_scene.vertex_array[poly->mod_vertex_index], poly->vertex_count );
nkeynes@863	448	pvr2_scene.vertex_index += poly->vertex_count;
nkeynes@687	449	}
nkeynes@687	450	}
nkeynes@653	451	}
nkeynes@653	452	}
nkeynes@653	453
nkeynes@827	454	static void scene_add_quad_vertexes( pvraddr_t poly_idx, int vertex_length,
nkeynes@863	455	shadow_mode_t is_modified )
nkeynes@653	456	{
nkeynes@653	457	struct polygon_struct *poly = pvr2_scene.buf_to_poly_map[poly_idx];
nkeynes@653	458	uint32_t *ptr = &pvr2_scene.pvr2_pbuf[poly_idx];
nkeynes@653	459	uint32_t *context = ptr;
nkeynes@653	460	unsigned int i;
nkeynes@653	461
nkeynes@653	462	if( poly->vertex_index == -1 ) {
nkeynes@827	463	// Construct it locally and copy to the vertex buffer, as the VBO is
nkeynes@736	464	// allowed to be horribly slow for reads (ie it could be direct-mapped
nkeynes@736	465	// vram).
nkeynes@736	466	struct vertex_struct quad[4];
nkeynes@736	467
nkeynes@736	468	assert( poly != NULL );
nkeynes@736	469	assert( pvr2_scene.vertex_index + poly->vertex_count <= pvr2_scene.vertex_count );
nkeynes@863	470	ptr += (is_modified == SHADOW_FULL ? 5 : 3 );
nkeynes@736	471	poly->vertex_index = pvr2_scene.vertex_index;
nkeynes@736	472	for( i=0; i<4; i++ ) {
nkeynes@736	473	pvr2_decode_render_vertex( &quad[i], context[0], context[1], ptr, 0 );
nkeynes@736	474	ptr += vertex_length;
nkeynes@736	475	}
nkeynes@687	476	scene_compute_vertexes( &quad[3], 1, &quad[0], !POLY1_GOURAUD_SHADED(context[0]) );
nkeynes@736	477	// Swap last two vertexes (quad arrangement => tri strip arrangement)
nkeynes@736	478	memcpy( &pvr2_scene.vertex_array[pvr2_scene.vertex_index], quad, sizeof(struct vertex_struct)*2 );
nkeynes@736	479	memcpy( &pvr2_scene.vertex_array[pvr2_scene.vertex_index+2], &quad[3], sizeof(struct vertex_struct) );
nkeynes@736	480	memcpy( &pvr2_scene.vertex_array[pvr2_scene.vertex_index+3], &quad[2], sizeof(struct vertex_struct) );
nkeynes@736	481	pvr2_scene.vertex_index += 4;
nkeynes@736	482
nkeynes@736	483	if( is_modified ) {
nkeynes@736	484	assert( pvr2_scene.vertex_index + poly->vertex_count <= pvr2_scene.vertex_count );
nkeynes@736	485	poly->mod_vertex_index = pvr2_scene.vertex_index;
nkeynes@863	486	if( is_modified == SHADOW_FULL ) {
nkeynes@863	487	int mod_offset = (vertex_length - 3)>>1;
nkeynes@863	488	ptr = &pvr2_scene.pvr2_pbuf[poly_idx] + 5;
nkeynes@863	489	for( i=0; i<4; i++ ) {
nkeynes@863	490	pvr2_decode_render_vertex( &quad[4], context[0], context[3], ptr, mod_offset );
nkeynes@863	491	ptr += vertex_length;
nkeynes@863	492	}
nkeynes@863	493	scene_compute_vertexes( &quad[3], 1, &quad[0], !POLY1_GOURAUD_SHADED(context[0]) );
nkeynes@863	494	memcpy( &pvr2_scene.vertex_array[pvr2_scene.vertex_index], quad, sizeof(struct vertex_struct)*2 );
nkeynes@863	495	memcpy( &pvr2_scene.vertex_array[pvr2_scene.vertex_index+2], &quad[3], sizeof(struct vertex_struct) );
nkeynes@863	496	memcpy( &pvr2_scene.vertex_array[pvr2_scene.vertex_index+3], &quad[2], sizeof(struct vertex_struct) );
nkeynes@863	497	} else {
nkeynes@863	498	scene_add_cheap_shadow_vertexes( &pvr2_scene.vertex_array[poly->vertex_index],
nkeynes@863	499	&pvr2_scene.vertex_array[poly->mod_vertex_index], poly->vertex_count );
nkeynes@863	500	pvr2_scene.vertex_index += poly->vertex_count;
nkeynes@736	501	}
nkeynes@736	502	pvr2_scene.vertex_index += 4;
nkeynes@736	503	}
nkeynes@653	504	}
nkeynes@653	505	}
nkeynes@653	506
nkeynes@653	507	static void scene_extract_polygons( pvraddr_t tile_entry )
nkeynes@653	508	{
nkeynes@934	509	uint32_t tile_list = (uint32_t )(pvr2_main_ram+tile_entry);
nkeynes@653	510	do {
nkeynes@687	511	uint32_t entry = *tile_list++;
nkeynes@687	512	if( entry >> 28 == 0x0F ) {
nkeynes@687	513	break;
nkeynes@687	514	} else if( entry >> 28 == 0x0E ) {
nkeynes@934	515	tile_list = (uint32_t *)(pvr2_main_ram + (entry&0x007FFFFF));
nkeynes@687	516	} else {
nkeynes@687	517	pvraddr_t polyaddr = entry&0x000FFFFF;
nkeynes@863	518	shadow_mode_t is_modified = (entry & 0x01000000) ? pvr2_scene.shadow_mode : SHADOW_NONE;
nkeynes@687	519	int vertex_length = (entry >> 21) & 0x07;
nkeynes@687	520	int context_length = 3;
nkeynes@863	521	if( is_modified == SHADOW_FULL ) {
nkeynes@687	522	context_length = 5;
nkeynes@687	523	vertex_length <<= 1 ;
nkeynes@687	524	}
nkeynes@687	525	vertex_length += 3;
nkeynes@687	526
nkeynes@687	527	if( (entry & 0xE0000000) == 0x80000000 ) {
nkeynes@687	528	/* Triangle(s) */
nkeynes@687	529	int strip_count = ((entry >> 25) & 0x0F)+1;
nkeynes@687	530	int polygon_length = 3 * vertex_length + context_length;
nkeynes@687	531	int i;
nkeynes@687	532	struct polygon_struct *last_poly = NULL;
nkeynes@687	533	for( i=0; i<strip_count; i++ ) {
nkeynes@687	534	struct polygon_struct *poly = scene_add_polygon( polyaddr, 3, is_modified );
nkeynes@687	535	polyaddr += polygon_length;
nkeynes@687	536	if( last_poly != NULL && last_poly->next == NULL ) {
nkeynes@687	537	last_poly->next = poly;
nkeynes@687	538	}
nkeynes@687	539	last_poly = poly;
nkeynes@687	540	}
nkeynes@687	541	} else if( (entry & 0xE0000000) == 0xA0000000 ) {
nkeynes@687	542	/* Sprite(s) */
nkeynes@687	543	int strip_count = ((entry >> 25) & 0x0F)+1;
nkeynes@687	544	int polygon_length = 4 * vertex_length + context_length;
nkeynes@687	545	int i;
nkeynes@687	546	struct polygon_struct *last_poly = NULL;
nkeynes@687	547	for( i=0; i<strip_count; i++ ) {
nkeynes@687	548	struct polygon_struct *poly = scene_add_polygon( polyaddr, 4, is_modified );
nkeynes@687	549	polyaddr += polygon_length;
nkeynes@687	550	if( last_poly != NULL && last_poly->next == NULL ) {
nkeynes@687	551	last_poly->next = poly;
nkeynes@687	552	}
nkeynes@687	553	last_poly = poly;
nkeynes@687	554	}
nkeynes@687	555	} else {
nkeynes@687	556	/* Polygon */
nkeynes@687	557	int i, last = -1;
nkeynes@687	558	for( i=5; i>=0; i-- ) {
nkeynes@687	559	if( entry & (0x40000000>>i) ) {
nkeynes@687	560	last = i;
nkeynes@687	561	break;
nkeynes@687	562	}
nkeynes@687	563	}
nkeynes@687	564	if( last != -1 ) {
nkeynes@687	565	scene_add_polygon( polyaddr, last+3, is_modified );
nkeynes@687	566	}
nkeynes@687	567	}
nkeynes@687	568	}
nkeynes@653	569	} while( 1 );
nkeynes@653	570	}
nkeynes@653	571
nkeynes@653	572	static void scene_extract_vertexes( pvraddr_t tile_entry )
nkeynes@653	573	{
nkeynes@934	574	uint32_t tile_list = (uint32_t )(pvr2_main_ram+tile_entry);
nkeynes@653	575	do {
nkeynes@736	576	uint32_t entry = *tile_list++;
nkeynes@736	577	if( entry >> 28 == 0x0F ) {
nkeynes@736	578	break;
nkeynes@736	579	} else if( entry >> 28 == 0x0E ) {
nkeynes@934	580	tile_list = (uint32_t *)(pvr2_main_ram + (entry&0x007FFFFF));
nkeynes@736	581	} else {
nkeynes@736	582	pvraddr_t polyaddr = entry&0x000FFFFF;
nkeynes@863	583	shadow_mode_t is_modified = (entry & 0x01000000) ? pvr2_scene.shadow_mode : SHADOW_NONE;
nkeynes@736	584	int vertex_length = (entry >> 21) & 0x07;
nkeynes@736	585	int context_length = 3;
nkeynes@863	586	if( is_modified == SHADOW_FULL ) {
nkeynes@736	587	context_length = 5;
nkeynes@736	588	vertex_length <<=1 ;
nkeynes@736	589	}
nkeynes@736	590	vertex_length += 3;
nkeynes@736	591
nkeynes@736	592	if( (entry & 0xE0000000) == 0x80000000 ) {
nkeynes@736	593	/* Triangle(s) */
nkeynes@736	594	int strip_count = ((entry >> 25) & 0x0F)+1;
nkeynes@736	595	int polygon_length = 3 * vertex_length + context_length;
nkeynes@736	596	int i;
nkeynes@736	597	for( i=0; i<strip_count; i++ ) {
nkeynes@736	598	scene_add_vertexes( polyaddr, vertex_length, is_modified );
nkeynes@736	599	polyaddr += polygon_length;
nkeynes@736	600	}
nkeynes@736	601	} else if( (entry & 0xE0000000) == 0xA0000000 ) {
nkeynes@736	602	/* Sprite(s) */
nkeynes@736	603	int strip_count = ((entry >> 25) & 0x0F)+1;
nkeynes@736	604	int polygon_length = 4 * vertex_length + context_length;
nkeynes@736	605	int i;
nkeynes@736	606	for( i=0; i<strip_count; i++ ) {
nkeynes@736	607	scene_add_quad_vertexes( polyaddr, vertex_length, is_modified );
nkeynes@736	608	polyaddr += polygon_length;
nkeynes@736	609	}
nkeynes@736	610	} else {
nkeynes@736	611	/* Polygon */
nkeynes@736	612	int i, last = -1;
nkeynes@736	613	for( i=5; i>=0; i-- ) {
nkeynes@736	614	if( entry & (0x40000000>>i) ) {
nkeynes@736	615	last = i;
nkeynes@736	616	break;
nkeynes@736	617	}
nkeynes@736	618	}
nkeynes@736	619	if( last != -1 ) {
nkeynes@736	620	scene_add_vertexes( polyaddr, vertex_length, is_modified );
nkeynes@736	621	}
nkeynes@736	622	}
nkeynes@736	623	}
nkeynes@827	624	} while( 1 );
nkeynes@653	625	}
nkeynes@653	626
nkeynes@687	627	static void scene_extract_background( void )
nkeynes@687	628	{
nkeynes@687	629	uint32_t bgplane = MMIO_READ(PVR2, RENDER_BGPLANE);
nkeynes@687	630	int vertex_length = (bgplane >> 24) & 0x07;
nkeynes@687	631	int context_length = 3, i;
nkeynes@863	632	shadow_mode_t is_modified = (bgplane & 0x08000000) ? pvr2_scene.shadow_mode : SHADOW_NONE;
nkeynes@687	633
nkeynes@687	634	struct polygon_struct *poly = &pvr2_scene.poly_array[pvr2_scene.poly_count++];
nkeynes@687	635	uint32_t *context = &pvr2_scene.pvr2_pbuf[(bgplane & 0x00FFFFFF)>>3];
nkeynes@687	636	poly->context = context;
nkeynes@687	637	poly->vertex_count = 4;
nkeynes@687	638	poly->vertex_index = pvr2_scene.vertex_count;
nkeynes@863	639	if( is_modified == SHADOW_FULL ) {
nkeynes@687	640	context_length = 5;
nkeynes@687	641	vertex_length <<= 1;
nkeynes@863	642	}
nkeynes@863	643	if( is_modified != SHADOW_NONE ) {
nkeynes@687	644	poly->mod_vertex_index = pvr2_scene.vertex_count + 4;
nkeynes@827	645	pvr2_scene.vertex_count += 8;
nkeynes@687	646	} else {
nkeynes@687	647	poly->mod_vertex_index = -1;
nkeynes@687	648	pvr2_scene.vertex_count += 4;
nkeynes@687	649	}
nkeynes@687	650	vertex_length += 3;
nkeynes@687	651	context_length += (bgplane & 0x07) * vertex_length;
nkeynes@687	652
nkeynes@687	653	poly->next = NULL;
nkeynes@687	654	pvr2_scene.bkgnd_poly = poly;
nkeynes@736	655
nkeynes@687	656	struct vertex_struct base_vertexes[3];
nkeynes@827	657	uint32_t *ptr = context + context_length;
nkeynes@687	658	for( i=0; i<3; i++ ) {
nkeynes@687	659	pvr2_decode_render_vertex( &base_vertexes[i], context[0], context[1],
nkeynes@736	660	ptr, 0 );
nkeynes@687	661	ptr += vertex_length;
nkeynes@687	662	}
nkeynes@687	663	struct vertex_struct *result_vertexes = &pvr2_scene.vertex_array[poly->vertex_index];
nkeynes@687	664	result_vertexes[0].x = result_vertexes[0].y = 0;
nkeynes@687	665	result_vertexes[1].x = result_vertexes[3].x = pvr2_scene.buffer_width;
nkeynes@687	666	result_vertexes[1].y = result_vertexes[2].x = 0;
nkeynes@687	667	result_vertexes[2].y = result_vertexes[3].y = pvr2_scene.buffer_height;
nkeynes@687	668	scene_compute_vertexes( result_vertexes, 4, base_vertexes, !POLY1_GOURAUD_SHADED(context[0]) );
nkeynes@687	669
nkeynes@863	670	if( is_modified == SHADOW_FULL ) {
nkeynes@687	671	int mod_offset = (vertex_length - 3)>>1;
nkeynes@687	672	ptr = context + context_length;
nkeynes@687	673	for( i=0; i<3; i++ ) {
nkeynes@687	674	pvr2_decode_render_vertex( &base_vertexes[i], context[0], context[3],
nkeynes@736	675	ptr, mod_offset );
nkeynes@687	676	ptr += vertex_length;
nkeynes@687	677	}
nkeynes@687	678	result_vertexes = &pvr2_scene.vertex_array[poly->mod_vertex_index];
nkeynes@687	679	result_vertexes[0].x = result_vertexes[0].y = 0;
nkeynes@687	680	result_vertexes[1].x = result_vertexes[3].x = pvr2_scene.buffer_width;
nkeynes@687	681	result_vertexes[1].y = result_vertexes[2].x = 0;
nkeynes@687	682	result_vertexes[2].y = result_vertexes[3].y = pvr2_scene.buffer_height;
nkeynes@687	683	scene_compute_vertexes( result_vertexes, 4, base_vertexes, !POLY1_GOURAUD_SHADED(context[0]) );
nkeynes@863	684	} else if( is_modified == SHADOW_CHEAP ) {
nkeynes@863	685	scene_add_cheap_shadow_vertexes( &pvr2_scene.vertex_array[poly->vertex_index],
nkeynes@863	686	&pvr2_scene.vertex_array[poly->mod_vertex_index], poly->vertex_count );
nkeynes@863	687	pvr2_scene.vertex_index += poly->vertex_count;
nkeynes@687	688	}
nkeynes@736	689
nkeynes@687	690	}
nkeynes@687	691
nkeynes@687	692
nkeynes@653	693	uint32_t pvr2_scene_buffer_width()
nkeynes@653	694	{
nkeynes@653	695	return pvr2_scene.buffer_width;
nkeynes@653	696	}
nkeynes@653	697
nkeynes@653	698	uint32_t pvr2_scene_buffer_height()
nkeynes@653	699	{
nkeynes@653	700	return pvr2_scene.buffer_height;
nkeynes@653	701	}
nkeynes@653	702
nkeynes@653	703	/**
nkeynes@653	704	* Extract the current scene into the rendering structures. We run two passes
nkeynes@827	705	* - first pass extracts the polygons into pvr2_scene.poly_array (finding vertex counts),
nkeynes@653	706	* second pass extracts the vertex data into the VBO/vertex array.
nkeynes@653	707	*
nkeynes@827	708	* Difficult to do in single pass as we don't generally know the size of a
nkeynes@653	709	* polygon for certain until we've seen all tiles containing it. It also means we
nkeynes@653	710	* can count the vertexes and allocate the appropriate size VBO.
nkeynes@653	711	*
nkeynes@653	712	* FIXME: accesses into VRAM need to be bounds-checked properly
nkeynes@653	713	*/
nkeynes@653	714	void pvr2_scene_read( void )
nkeynes@653	715	{
nkeynes@653	716	pvr2_scene_init();
nkeynes@653	717	pvr2_scene_reset();
nkeynes@653	718
nkeynes@653	719	pvr2_scene.bounds[0] = MMIO_READ( PVR2, RENDER_HCLIP ) & 0x03FF;
nkeynes@653	720	pvr2_scene.bounds[1] = ((MMIO_READ( PVR2, RENDER_HCLIP ) >> 16) & 0x03FF) + 1;
nkeynes@653	721	pvr2_scene.bounds[2] = MMIO_READ( PVR2, RENDER_VCLIP ) & 0x03FF;
nkeynes@653	722	pvr2_scene.bounds[3] = ((MMIO_READ( PVR2, RENDER_VCLIP ) >> 16) & 0x03FF) + 1;
nkeynes@653	723	pvr2_scene.bounds[4] = pvr2_scene.bounds[5] = MMIO_READF( PVR2, RENDER_FARCLIP );
nkeynes@653	724
nkeynes@827	725	uint32_t scaler = MMIO_READ( PVR2, RENDER_SCALER );
nkeynes@827	726	if( scaler & SCALER_HSCALE ) {
nkeynes@827	727	/* If the horizontal scaler is in use, we're (in principle) supposed to
nkeynes@827	728	* divide everything by 2. However in the interests of display quality,
nkeynes@827	729	* instead we want to render to the unscaled resolution and downsample
nkeynes@827	730	* only if/when required.
nkeynes@827	731	*/
nkeynes@827	732	pvr2_scene.bounds[1] *= 2;
nkeynes@827	733	}
nkeynes@847	734
nkeynes@847	735	uint32_t fog_col = MMIO_READ( PVR2, RENDER_FOGTBLCOL );
nkeynes@847	736	unpack_bgra( fog_col, pvr2_scene.fog_lut_colour );
nkeynes@847	737	fog_col = MMIO_READ( PVR2, RENDER_FOGVRTCOL );
nkeynes@847	738	unpack_bgra( fog_col, pvr2_scene.fog_vert_colour );
nkeynes@847	739
nkeynes@934	740	uint32_t tilebuffer = (uint32_t )(pvr2_main_ram + MMIO_READ( PVR2, RENDER_TILEBASE ));
nkeynes@653	741	uint32_t *segment = tilebuffer;
nkeynes@863	742	uint32_t shadow = MMIO_READ(PVR2,RENDER_SHADOW);
nkeynes@653	743	pvr2_scene.segment_list = (struct tile_segment *)tilebuffer;
nkeynes@934	744	pvr2_scene.pvr2_pbuf = (uint32_t *)(pvr2_main_ram + MMIO_READ(PVR2,RENDER_POLYBASE));
nkeynes@863	745	pvr2_scene.shadow_mode = shadow & 0x100 ? SHADOW_CHEAP : SHADOW_FULL;
nkeynes@863	746	scene_shadow_intensity = U8TOFLOAT(shadow&0xFF);
nkeynes@687	747
nkeynes@653	748	int max_tile_x = 0;
nkeynes@653	749	int max_tile_y = 0;
nkeynes@653	750	int obj_config = MMIO_READ( PVR2, RENDER_OBJCFG );
nkeynes@653	751	int isp_config = MMIO_READ( PVR2, RENDER_ISPCFG );
nkeynes@653	752
nkeynes@653	753	if( (obj_config & 0x00200000) == 0 ) {
nkeynes@687	754	if( isp_config & 1 ) {
nkeynes@687	755	pvr2_scene.sort_mode = SORT_NEVER;
nkeynes@687	756	} else {
nkeynes@687	757	pvr2_scene.sort_mode = SORT_ALWAYS;
nkeynes@687	758	}
nkeynes@653	759	} else {
nkeynes@687	760	pvr2_scene.sort_mode = SORT_TILEFLAG;
nkeynes@653	761	}
nkeynes@653	762
nkeynes@827	763	// Pass 1: Extract polygon list
nkeynes@653	764	uint32_t control;
nkeynes@653	765	int i;
nkeynes@653	766	do {
nkeynes@687	767	control = *segment++;
nkeynes@687	768	int tile_x = SEGMENT_X(control);
nkeynes@687	769	int tile_y = SEGMENT_Y(control);
nkeynes@687	770	if( tile_x > max_tile_x ) {
nkeynes@687	771	max_tile_x = tile_x;
nkeynes@827	772	}
nkeynes@687	773	if( tile_y > max_tile_y ) {
nkeynes@687	774	max_tile_y = tile_y;
nkeynes@687	775	}
nkeynes@687	776	for( i=0; i<5; i++ ) {
nkeynes@687	777	if( (*segment & NO_POINTER) == 0 ) {
nkeynes@687	778	scene_extract_polygons( *segment );
nkeynes@687	779	}
nkeynes@687	780	segment++;
nkeynes@687	781	}
nkeynes@653	782	} while( (control & SEGMENT_END) == 0 );
nkeynes@653	783
nkeynes@653	784	pvr2_scene.buffer_width = (max_tile_x+1)<<5;
nkeynes@653	785	pvr2_scene.buffer_height = (max_tile_y+1)<<5;
nkeynes@653	786
nkeynes@687	787	// Pass 2: Extract vertex data
nkeynes@687	788	vertex_buffer_map();
nkeynes@687	789	pvr2_scene.vertex_index = 0;
nkeynes@687	790	segment = tilebuffer;
nkeynes@687	791	do {
nkeynes@687	792	control = *segment++;
nkeynes@687	793	for( i=0; i<5; i++ ) {
nkeynes@687	794	if( (*segment & NO_POINTER) == 0 ) {
nkeynes@687	795	scene_extract_vertexes( *segment );
nkeynes@687	796	}
nkeynes@687	797	segment++;
nkeynes@687	798	}
nkeynes@687	799	} while( (control & SEGMENT_END) == 0 );
nkeynes@736	800
nkeynes@687	801	scene_extract_background();
nkeynes@847	802	scene_compute_lut_fog();
nkeynes@736	803
nkeynes@687	804	vertex_buffer_unmap();
nkeynes@653	805	}
nkeynes@653	806
nkeynes@653	807	/**
nkeynes@653	808	* Dump the current scene to file in a (mostly) human readable form
nkeynes@653	809	*/
nkeynes@653	810	void pvr2_scene_dump( FILE *f )
nkeynes@653	811	{
nkeynes@653	812	int i,j;
nkeynes@653	813
nkeynes@653	814	fprintf( f, "Polygons: %d\n", pvr2_scene.poly_count );
nkeynes@653	815	for( i=0; i<pvr2_scene.poly_count; i++ ) {
nkeynes@736	816	struct polygon_struct *poly = &pvr2_scene.poly_array[i];
nkeynes@934	817	fprintf( f, " %08X ", ((unsigned char *)poly->context) - pvr2_main_ram );
nkeynes@736	818	switch( poly->vertex_count ) {
nkeynes@736	819	case 3: fprintf( f, "Tri " ); break;
nkeynes@736	820	case 4: fprintf( f, "Quad " ); break;
nkeynes@736	821	default: fprintf( f,"%d-Strip ", poly->vertex_count-2 ); break;
nkeynes@736	822	}
nkeynes@736	823	fprintf( f, "%08X %08X %08X ", poly->context[0], poly->context[1], poly->context[2] );
nkeynes@736	824	if( poly->mod_vertex_index != -1 ) {
nkeynes@736	825	fprintf( f, "%08X %08X\n", poly->context[3], poly->context[5] );
nkeynes@736	826	} else {
nkeynes@736	827	fprintf( f, "\n" );
nkeynes@736	828	}
nkeynes@736	829
nkeynes@736	830	for( j=0; j<poly->vertex_count; j++ ) {
nkeynes@736	831	struct vertex_struct *v = &pvr2_scene.vertex_array[poly->vertex_index+j];
nkeynes@784	832	fprintf( f, " %.5f %.5f %.5f, (%.5f,%.5f) %.5f,%.5f,%.5f,%.5f %.5f %.5f %.5f %.5f\n", v->x, v->y, v->z, v->u, v->v,
nkeynes@827	833	v->rgba[0], v->rgba[1], v->rgba[2], v->rgba[3],
nkeynes@784	834	v->offset_rgba[0], v->offset_rgba[1], v->offset_rgba[2], v->offset_rgba[3] );
nkeynes@736	835	}
nkeynes@736	836	if( poly->mod_vertex_index != -1 ) {
nkeynes@736	837	fprintf( f, " ---\n" );
nkeynes@736	838	for( j=0; j<poly->vertex_count; j++ ) {
nkeynes@736	839	struct vertex_struct *v = &pvr2_scene.vertex_array[poly->mod_vertex_index+j];
nkeynes@784	840	fprintf( f, " %.5f %.5f %.5f, (%.5f,%.5f) %.5f,%.5f,%.5f,%.5f %.5f %.5f %.5f %.5f\n", v->x, v->y, v->z, v->u, v->v,
nkeynes@827	841	v->rgba[0], v->rgba[1], v->rgba[2], v->rgba[3],
nkeynes@784	842	v->offset_rgba[0], v->offset_rgba[1], v->offset_rgba[2], v->offset_rgba[3] );
nkeynes@736	843	}
nkeynes@736	844	}
nkeynes@653	845	}
nkeynes@653	846
nkeynes@653	847	}