lxdream.org :: lxdream/src/pvr2/pvr2.h r432:0b761ef2dbfd (annotated)

tree revision 480:d28c2992f5ee

filename	src/pvr2/pvr2.h
changeset	432:0b761ef2dbfd
prev	429:e581b90c3fb3
next	481:3b2d6c5a19ad
author	nkeynes
date	Wed Oct 31 11:53:35 2007 +0000 (16 years ago)
permissions	-rw-r--r--
last change	Fix miscellaneous warnings

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nkeynes@31	1	/**
nkeynes@432	2	* $Id: pvr2.h,v 1.37 2007-10-09 08:46:21 nkeynes Exp $
nkeynes@31	3	*
nkeynes@103	4	* PVR2 (video chip) functions and macros.
nkeynes@31	5	*
nkeynes@31	6	* Copyright (c) 2005 Nathan Keynes.
nkeynes@31	7	*
nkeynes@31	8	* This program is free software; you can redistribute it and/or modify
nkeynes@31	9	* it under the terms of the GNU General Public License as published by
nkeynes@31	10	* the Free Software Foundation; either version 2 of the License, or
nkeynes@31	11	* (at your option) any later version.
nkeynes@31	12	*
nkeynes@31	13	* This program is distributed in the hope that it will be useful,
nkeynes@31	14	* but WITHOUT ANY WARRANTY; without even the implied warranty of
nkeynes@31	15	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
nkeynes@31	16	* GNU General Public License for more details.
nkeynes@31	17	*/
nkeynes@31	18
nkeynes@103	19	#include "dream.h"
nkeynes@103	20	#include "mem.h"
nkeynes@144	21	#include "display.h"
nkeynes@103	22	#include "pvr2/pvr2mmio.h"
nkeynes@1	23
nkeynes@189	24	typedef unsigned int pvraddr_t;
nkeynes@189	25	typedef unsigned int pvr64addr_t;
nkeynes@1	26
nkeynes@335	27	#define DISPMODE_ENABLE 0x00000001 /* Display enable */
nkeynes@335	28	#define DISPMODE_LINEDOUBLE 0x00000002 /* scanline double */
nkeynes@335	29	#define DISPMODE_COLFMT 0x0000000C /* Colour mode */
nkeynes@335	30	#define DISPMODE_CLOCKDIV 0x08000000 /* Clock divide-by-2 */
nkeynes@1	31
nkeynes@1	32	#define DISPSIZE_MODULO 0x3FF00000 /* line skip +1 (32-bit words)*/
nkeynes@1	33	#define DISPSIZE_LPF 0x000FFC00 /* lines per field */
nkeynes@1	34	#define DISPSIZE_PPL 0x000003FF /* pixel words (32 bit) per line */
nkeynes@1	35
nkeynes@103	36	#define DISPCFG_VP 0x00000001 /* V-sync polarity */
nkeynes@103	37	#define DISPCFG_HP 0x00000002 /* H-sync polarity */
nkeynes@103	38	#define DISPCFG_I 0x00000010 /* Interlace enable */
nkeynes@103	39	#define DISPCFG_BS 0x000000C0 /* Broadcast standard */
nkeynes@103	40	#define DISPCFG_VO 0x00000100 /* Video output enable */
nkeynes@1	41
nkeynes@432	42	#define DISPSYNC_LINE_MASK 0x000003FF
nkeynes@432	43	#define DISPSYNC_EVEN_FIELD 0x00000000
nkeynes@432	44	#define DISPSYNC_ODD_FIELD 0x00000400
nkeynes@432	45	#define DISPSYNC_ACTIVE 0x00000800
nkeynes@432	46	#define DISPSYNC_HSYNC 0x00001000
nkeynes@432	47	#define DISPSYNC_VSYNC 0x00002000
nkeynes@432	48
nkeynes@1	49	#define BS_NTSC 0x00000000
nkeynes@1	50	#define BS_PAL 0x00000040
nkeynes@1	51	#define BS_PALM 0x00000080 /* ? */
nkeynes@1	52	#define BS_PALN 0x000000C0 /* ? */
nkeynes@1	53
nkeynes@103	54	#define PVR2_RAM_BASE 0x05000000
nkeynes@103	55	#define PVR2_RAM_BASE_INT 0x04000000
nkeynes@103	56	#define PVR2_RAM_SIZE (8 * 1024 * 1024)
nkeynes@103	57	#define PVR2_RAM_PAGES (PVR2_RAM_SIZE>>12)
nkeynes@189	58	#define PVR2_RAM_MASK 0x7FFFFF
nkeynes@103	59
nkeynes@222	60	#define RENDER_ZONLY 0
nkeynes@222	61	#define RENDER_NORMAL 1 /* Render non-modified polygons */
nkeynes@222	62	#define RENDER_CHEAPMOD 2 /* Render cheap-modified polygons */
nkeynes@222	63	#define RENDER_FULLMOD 3 /* Render the fully-modified version of the polygons */
nkeynes@222	64
nkeynes@1	65	void pvr2_next_frame( void );
nkeynes@19	66	void pvr2_set_base_address( uint32_t );
nkeynes@133	67	int pvr2_get_frame_count( void );
nkeynes@295	68	gboolean pvr2_save_next_scene( const gchar *filename );
nkeynes@56	69
nkeynes@103	70	#define PVR2_CMD_END_OF_LIST 0x00
nkeynes@103	71	#define PVR2_CMD_USER_CLIP 0x20
nkeynes@103	72	#define PVR2_CMD_POLY_OPAQUE 0x80
nkeynes@103	73	#define PVR2_CMD_MOD_OPAQUE 0x81
nkeynes@103	74	#define PVR2_CMD_POLY_TRANS 0x82
nkeynes@103	75	#define PVR2_CMD_MOD_TRANS 0x83
nkeynes@103	76	#define PVR2_CMD_POLY_PUNCHOUT 0x84
nkeynes@103	77	#define PVR2_CMD_VERTEX 0xE0
nkeynes@103	78	#define PVR2_CMD_VERTEX_LAST 0xF0
nkeynes@103	79
nkeynes@103	80	#define PVR2_POLY_TEXTURED 0x00000008
nkeynes@103	81	#define PVR2_POLY_SPECULAR 0x00000004
nkeynes@103	82	#define PVR2_POLY_SHADED 0x00000002
nkeynes@103	83	#define PVR2_POLY_UV_16BIT 0x00000001
nkeynes@103	84
nkeynes@133	85	#define PVR2_POLY_MODE_CLAMP_RGB 0x00200000
nkeynes@133	86	#define PVR2_POLY_MODE_ALPHA 0x00100000
nkeynes@133	87	#define PVR2_POLY_MODE_TEXALPHA 0x00080000
nkeynes@133	88	#define PVR2_POLY_MODE_FLIP_S 0x00040000
nkeynes@133	89	#define PVR2_POLY_MODE_FLIP_T 0x00020000
nkeynes@133	90	#define PVR2_POLY_MODE_CLAMP_S 0x00010000
nkeynes@133	91	#define PVR2_POLY_MODE_CLAMP_T 0x00008000
nkeynes@133	92
nkeynes@337	93	#define PVR2_POLY_FOG_LOOKUP 0x00000000
nkeynes@337	94	#define PVR2_POLY_FOG_VERTEX 0x00400000
nkeynes@337	95	#define PVR2_POLY_FOG_DISABLED 0x00800000
nkeynes@337	96	#define PVR2_POLY_FOG_LOOKUP2 0x00C00000
nkeynes@337	97
nkeynes@337	98
nkeynes@103	99	#define PVR2_TEX_FORMAT_ARGB1555 0x00000000
nkeynes@103	100	#define PVR2_TEX_FORMAT_RGB565 0x08000000
nkeynes@103	101	#define PVR2_TEX_FORMAT_ARGB4444 0x10000000
nkeynes@103	102	#define PVR2_TEX_FORMAT_YUV422 0x18000000
nkeynes@103	103	#define PVR2_TEX_FORMAT_BUMPMAP 0x20000000
nkeynes@103	104	#define PVR2_TEX_FORMAT_IDX4 0x28000000
nkeynes@103	105	#define PVR2_TEX_FORMAT_IDX8 0x30000000
nkeynes@103	106
nkeynes@103	107	#define PVR2_TEX_MIPMAP 0x80000000
nkeynes@103	108	#define PVR2_TEX_COMPRESSED 0x40000000
nkeynes@103	109	#define PVR2_TEX_FORMAT_MASK 0x38000000
nkeynes@103	110	#define PVR2_TEX_UNTWIDDLED 0x04000000
nkeynes@284	111	#define PVR2_TEX_STRIDE 0x02000000
nkeynes@337	112	#define PVR2_TEX_IS_PALETTE(mode) ( (mode & PVR2_TEX_FORMAT_MASK) == PVR2_TEX_FORMAT_IDX4 \|\| (mode&PVR2_TEX_FORMAT_MASK) == PVR2_TEX_FORMAT_IDX8 )
nkeynes@337	113
nkeynes@103	114
nkeynes@108	115	#define PVR2_TEX_ADDR(x) ( ((x)&0x01FFFFF)<<3 );
nkeynes@348	116	#define PVR2_TEX_IS_MIPMAPPED(x) ( ((x) & 0x84000000) == 0x80000000 )
nkeynes@103	117	#define PVR2_TEX_IS_COMPRESSED(x) ( (x) & PVR2_TEX_COMPRESSED )
nkeynes@103	118	#define PVR2_TEX_IS_TWIDDLED(x) (((x) & PVR2_TEX_UNTWIDDLED) == 0)
nkeynes@284	119	#define PVR2_TEX_IS_STRIDE(x) (((x) & 0x06000000) == 0x06000000)
nkeynes@103	120
nkeynes@103	121	/**************************** Frame Buffer ***************************/
nkeynes@103	122
nkeynes@103	123	/**
nkeynes@325	124	* Write a block of data to an address in the DMA range (0x10000000 -
nkeynes@325	125	* 0x13FFFFFF), ie TA, YUV, or texture ram.
nkeynes@325	126	*/
nkeynes@429	127	void pvr2_dma_write( sh4addr_t dest, unsigned char *src, uint32_t length );
nkeynes@325	128
nkeynes@325	129	/**
nkeynes@103	130	* Write to the interleaved memory address space (aka 64-bit address space).
nkeynes@103	131	*/
nkeynes@429	132	void pvr2_vram64_write( sh4addr_t dest, unsigned char *src, uint32_t length );
nkeynes@103	133
nkeynes@103	134	/**
nkeynes@282	135	* Write to the interleaved memory address space (aka 64-bit address space),
nkeynes@282	136	* using a line length and stride.
nkeynes@282	137	*/
nkeynes@429	138	void pvr2_vram64_write_stride( sh4addr_t dest, unsigned char *src, uint32_t line_bytes,
nkeynes@282	139	uint32_t line_stride_bytes, uint32_t line_count );
nkeynes@282	140
nkeynes@282	141	/**
nkeynes@103	142	* Read from the interleaved memory address space (aka 64-bit address space)
nkeynes@103	143	*/
nkeynes@429	144	void pvr2_vram64_read( unsigned char *dest, sh4addr_t src, uint32_t length );
nkeynes@103	145
nkeynes@127	146	/**
nkeynes@310	147	* Read a twiddled image from interleaved memory address space (aka 64-bit address
nkeynes@310	148	* space), writing the image to the destination buffer in detwiddled format.
nkeynes@310	149	* Width and height must be powers of 2
nkeynes@315	150	* This version reads 4-bit pixels.
nkeynes@315	151	*/
nkeynes@429	152	void pvr2_vram64_read_twiddled_4( unsigned char *dest, sh4addr_t src, uint32_t width, uint32_t height );
nkeynes@315	153
nkeynes@315	154
nkeynes@315	155	/**
nkeynes@315	156	* Read a twiddled image from interleaved memory address space (aka 64-bit address
nkeynes@315	157	* space), writing the image to the destination buffer in detwiddled format.
nkeynes@315	158	* Width and height must be powers of 2
nkeynes@310	159	* This version reads 8-bit pixels.
nkeynes@310	160	*/
nkeynes@429	161	void pvr2_vram64_read_twiddled_8( unsigned char *dest, sh4addr_t src, uint32_t width, uint32_t height );
nkeynes@310	162
nkeynes@310	163	/**
nkeynes@310	164	* Read a twiddled image from interleaved memory address space (aka 64-bit address
nkeynes@310	165	* space), writing the image to the destination buffer in detwiddled format.
nkeynes@310	166	* Width and height must be powers of 2, and src must be 16-bit aligned.
nkeynes@310	167	* This version reads 16-bit pixels.
nkeynes@310	168	*/
nkeynes@429	169	void pvr2_vram64_read_twiddled_16( unsigned char *dest, sh4addr_t src, uint32_t width, uint32_t height );
nkeynes@310	170
nkeynes@310	171	/**
nkeynes@284	172	* Read an image from the interleaved memory address space (aka 64-bit address space)
nkeynes@284	173	* where the source and destination line sizes may differ. Note that both byte
nkeynes@284	174	* counts must be a multiple of 4, and the src address must be 32-bit aligned.
nkeynes@284	175	*/
nkeynes@429	176	void pvr2_vram64_read_stride( unsigned char *dest, uint32_t dest_line_bytes, sh4addr_t srcaddr,
nkeynes@292	177	uint32_t src_line_bytes, uint32_t line_count );
nkeynes@284	178	/**
nkeynes@127	179	* Dump a portion of vram to a stream from the interleaved memory address
nkeynes@127	180	* space.
nkeynes@127	181	*/
nkeynes@127	182	void pvr2_vram64_dump( sh4addr_t addr, uint32_t length, FILE *f );
nkeynes@127	183
nkeynes@315	184	/**
nkeynes@315	185	* Flush the indicated render buffer back to PVR. Caller is responsible for
nkeynes@315	186	* tracking whether there is actually anything in the buffer.
nkeynes@315	187	*
nkeynes@315	188	* @param buffer A render buffer indicating the address to store to, and the
nkeynes@315	189	* format the data needs to be in.
nkeynes@315	190	* @param backBuffer TRUE to flush the back buffer, FALSE for
nkeynes@315	191	* the front buffer.
nkeynes@315	192	*/
nkeynes@352	193	void pvr2_render_buffer_copy_to_sh4( render_buffer_t buffer );
nkeynes@315	194
nkeynes@315	195	/**
nkeynes@315	196	* Invalidate any caching on the supplied SH4 address
nkeynes@315	197	*/
nkeynes@352	198	gboolean pvr2_render_buffer_invalidate( sh4addr_t addr, gboolean isWrite );
nkeynes@315	199
nkeynes@315	200
nkeynes@103	201	/************************** Tile Accelerator *************************/
nkeynes@56	202	/**
nkeynes@56	203	* Process the data in the supplied buffer as an array of TA command lists.
nkeynes@56	204	* Any excess bytes are held pending until a complete list is sent
nkeynes@56	205	*/
nkeynes@429	206	void pvr2_ta_write( unsigned char *buf, uint32_t length );
nkeynes@100	207
nkeynes@100	208
nkeynes@103	209	/**
nkeynes@103	210	* (Re)initialize the tile accelerator in preparation for the next scene.
nkeynes@103	211	* Normally called immediately before commencing polygon transmission.
nkeynes@103	212	*/
nkeynes@103	213	void pvr2_ta_init( void );
nkeynes@103	214
nkeynes@429	215	void pvr2_ta_reset( void );
nkeynes@429	216
nkeynes@429	217	void pvr2_ta_save_state( FILE *f );
nkeynes@429	218
nkeynes@429	219	int pvr2_ta_load_state( FILE *f );
nkeynes@282	220
nkeynes@282	221	/**************************** YUV Converter **************************/
nkeynes@282	222
nkeynes@282	223	/**
nkeynes@282	224	* Process a block of YUV data.
nkeynes@282	225	*/
nkeynes@429	226	void pvr2_yuv_write( unsigned char *buf, uint32_t length );
nkeynes@282	227
nkeynes@282	228	/**
nkeynes@282	229	* Initialize the YUV converter.
nkeynes@282	230	*/
nkeynes@284	231	void pvr2_yuv_init( uint32_t target_addr );
nkeynes@284	232
nkeynes@284	233	void pvr2_yuv_set_config( uint32_t config );
nkeynes@282	234
nkeynes@429	235	void pvr2_yuv_save_state( FILE *f );
nkeynes@429	236
nkeynes@429	237	int pvr2_yuv_load_state( FILE *f );
nkeynes@429	238
nkeynes@103	239	/******************************* Renderer ****************************/
nkeynes@103	240
nkeynes@103	241	/**
nkeynes@103	242	* Render the current scene stored in PVR ram to the GL back buffer.
nkeynes@103	243	*/
nkeynes@352	244	void pvr2_render_scene( render_buffer_t buffer );
nkeynes@103	245
nkeynes@103	246	/**
nkeynes@103	247	* Display the scene rendered to the supplied address.
nkeynes@103	248	* @return TRUE if there was an available render that was displayed,
nkeynes@103	249	* otherwise FALSE (and no action was taken)
nkeynes@103	250	*/
nkeynes@103	251	gboolean pvr2_render_display_frame( uint32_t address );
nkeynes@103	252
nkeynes@219	253
nkeynes@219	254	void render_backplane( uint32_t *polygon, uint32_t width, uint32_t height, uint32_t mode );
nkeynes@219	255
nkeynes@219	256	void render_set_context( uint32_t *context, int render_mode );
nkeynes@219	257
nkeynes@219	258	void pvr2_render_tilebuffer( int width, int height, int clipx1, int clipy1,
nkeynes@219	259	int clipx2, int clipy2 );
nkeynes@219	260
nkeynes@322	261	float pvr2_render_find_maximum_z();
nkeynes@429	262
nkeynes@429	263	void pvr2_render_getsize( int x, int y );
nkeynes@429	264
nkeynes@319	265	/**
nkeynes@319	266	* Structure to hold a complete unpacked vertex (excluding modifier
nkeynes@319	267	* volume parameters - generate separate vertexes in that case).
nkeynes@319	268	*/
nkeynes@319	269	struct vertex_unpacked {
nkeynes@319	270	float x,y,z;
nkeynes@319	271	float u,v; /* Texture coordinates */
nkeynes@319	272	float rgba[4]; /* Fragment colour (RGBA order) */
nkeynes@319	273	float offset_rgba[4]; /* Offset color (RGBA order) */
nkeynes@319	274	};
nkeynes@319	275
nkeynes@429	276	void render_unpack_quad( struct vertex_unpacked *unpacked, uint32_t poly1,
nkeynes@429	277	uint32_t *vertexes, int vertex_size,
nkeynes@429	278	int render_mode );
nkeynes@429	279
nkeynes@429	280	void render_unpack_vertexes( struct vertex_unpacked *out, uint32_t poly1,
nkeynes@429	281	uint32_t *vertexes, int num_vertexes,
nkeynes@429	282	int vertex_size, int render_mode );
nkeynes@429	283
nkeynes@319	284	void render_unpacked_vertex_array( uint32_t poly1, struct vertex_unpacked *vertexes[],
nkeynes@319	285	int num_vertexes );
nkeynes@319	286
nkeynes@319	287	void render_vertex_array( uint32_t poly1, uint32_t *vertexes[], int num_vertexes,
nkeynes@319	288	int vertex_size, int render_mode );
nkeynes@319	289
nkeynes@429	290	void render_tile( pvraddr_t tile_entry, int render_mode, gboolean cheap_modifier_mode );
nkeynes@429	291
nkeynes@429	292	void render_autosort_tile( pvraddr_t tile_entry, int render_mode, gboolean cheap_modifier_mode );
nkeynes@429	293
nkeynes@429	294
nkeynes@103	295	/**************************** Texture Cache **************************/
nkeynes@103	296
nkeynes@103	297	/**
nkeynes@108	298	* Initialize the texture cache.
nkeynes@103	299	*/
nkeynes@103	300	void texcache_init( void );
nkeynes@103	301
nkeynes@108	302	/**
nkeynes@108	303	* Initialize the GL side of the texture cache (texture ids and such).
nkeynes@108	304	*/
nkeynes@108	305	void texcache_gl_init( void );
nkeynes@103	306
nkeynes@103	307	/**
nkeynes@103	308	* Flush all textures and delete. The cache will be non-functional until
nkeynes@103	309	* the next call to texcache_init(). This would typically be done if
nkeynes@103	310	* switching GL targets.
nkeynes@103	311	*/
nkeynes@103	312	void texcache_shutdown( void );
nkeynes@103	313
nkeynes@103	314	/**
nkeynes@432	315	* Flush (ie free) all textures.
nkeynes@432	316	*/
nkeynes@432	317	void texcache_flush( void );
nkeynes@432	318
nkeynes@432	319	/**
nkeynes@432	320	* Flush all palette-based textures (if any)
nkeynes@432	321	*/
nkeynes@432	322	void texcache_invalidate_palette(void);
nkeynes@432	323
nkeynes@432	324	/**
nkeynes@103	325	* Evict all textures contained in the page identified by a texture address.
nkeynes@103	326	*/
nkeynes@103	327	void texcache_invalidate_page( uint32_t texture_addr );
nkeynes@103	328
nkeynes@103	329	/**
nkeynes@103	330	* Return a texture ID for the texture specified at the supplied address
nkeynes@103	331	* and given parameters (the same sequence of bytes could in theory have
nkeynes@103	332	* multiple interpretations). We use the texture address as the primary
nkeynes@103	333	* index, but allow for multiple instances at each address. The texture
nkeynes@103	334	* will be bound to the GL_TEXTURE_2D target before being returned.
nkeynes@103	335	*
nkeynes@103	336	* If the texture has already been bound, return the ID to which it was
nkeynes@103	337	* bound. Otherwise obtain an unused texture ID and set it up appropriately.
nkeynes@103	338	*/
nkeynes@103	339	GLuint texcache_get_texture( uint32_t texture_addr, int width, int height,
nkeynes@103	340	int mode );
nkeynes@221	341
nkeynes@429	342	void pvr2_check_palette_changed(void);
nkeynes@429	343
nkeynes@432	344	int pvr2_render_save_scene( const gchar *filename );
nkeynes@432	345
nkeynes@432	346
nkeynes@221	347	/*********************** Rendering support macros ************************/
nkeynes@221	348	#define POLY1_DEPTH_MODE(poly1) ( pvr2_poly_depthmode[(poly1)>>29] )
nkeynes@221	349	#define POLY1_DEPTH_ENABLE(poly1) (((poly1)&0x04000000) == 0 )
nkeynes@221	350	#define POLY1_CULL_MODE(poly1) (((poly1)>>27)&0x03)
nkeynes@221	351	#define POLY1_TEXTURED(poly1) (((poly1)&0x02000000))
nkeynes@221	352	#define POLY1_SPECULAR(poly1) (((poly1)&0x01000000))
nkeynes@319	353	#define POLY1_GOURAUD_SHADED(poly1) ((poly1)&0x00800000)
nkeynes@221	354	#define POLY1_SHADE_MODEL(poly1) (((poly1)&0x00800000) ? GL_SMOOTH : GL_FLAT)
nkeynes@221	355	#define POLY1_UV16(poly1) (((poly1)&0x00400000))
nkeynes@221	356	#define POLY1_SINGLE_TILE(poly1) (((poly1)&0x00200000))
nkeynes@221	357
nkeynes@221	358	#define POLY2_SRC_BLEND(poly2) ( pvr2_poly_srcblend[(poly2) >> 29] )
nkeynes@221	359	#define POLY2_DEST_BLEND(poly2) ( pvr2_poly_dstblend[((poly2)>>26)&0x07] )
nkeynes@322	360	#define POLY2_SRC_BLEND_TARGET(poly2) ((poly2)&0x02000000)
nkeynes@322	361	#define POLY2_DEST_BLEND_TARGET(poly2) ((poly2)&0x01000000)
nkeynes@337	362	#define POLY2_FOG_MODE(poly2) ((poly2)&0x00C00000)
nkeynes@221	363	#define POLY2_COLOUR_CLAMP_ENABLE(poly2) ((poly2)&0x00200000)
nkeynes@322	364	#define POLY2_ALPHA_ENABLE(poly2) ((poly2)&0x00100000)
nkeynes@322	365	#define POLY2_TEX_ALPHA_ENABLE(poly2) (((poly2)&0x00080000) == 0 )
nkeynes@322	366	#define POLY2_TEX_CLAMP_U(poly2) ((poly2)&0x00010000)
nkeynes@322	367	#define POLY2_TEX_CLAMP_V(poly2) ((poly2)&0x00008000)
nkeynes@221	368	#define POLY2_TEX_WIDTH(poly2) ( 1<< ((((poly2) >> 3) & 0x07 ) + 3) )
nkeynes@221	369	#define POLY2_TEX_HEIGHT(poly2) ( 1<< (((poly2) & 0x07 ) + 3) )
nkeynes@338	370	#define POLY2_TEX_BLEND(poly2) (((poly2) >> 6)&0x03)
nkeynes@221	371	extern int pvr2_poly_depthmode[8];
nkeynes@221	372	extern int pvr2_poly_srcblend[8];
nkeynes@221	373	extern int pvr2_poly_dstblend[8];
nkeynes@221	374	extern int pvr2_poly_texblend[4];
nkeynes@221	375	extern int pvr2_render_colour_format[8];
nkeynes@221	376
nkeynes@221	377	float halftofloat(uint16_t half);