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lxdream.org :: lxdream/src/pvr2/pvr2.c
lxdream 0.9.1
released Jun 29
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filename src/pvr2/pvr2.c
changeset 98:7b59bca968e9
prev94:8d80d9c7cc7d
next100:995e42e96cc9
author nkeynes
date Wed Feb 15 12:40:20 2006 +0000 (14 years ago)
permissions -rw-r--r--
last change Add quick-and-dirty hack to print vertex data
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     1 /**
     2  * $Id: pvr2.c,v 1.15 2006-02-15 12:40:20 nkeynes Exp $
     3  *
     4  * PVR2 (Video) MMIO and supporting functions.
     5  *
     6  * Copyright (c) 2005 Nathan Keynes.
     7  *
     8  * This program is free software; you can redistribute it and/or modify
     9  * it under the terms of the GNU General Public License as published by
    10  * the Free Software Foundation; either version 2 of the License, or
    11  * (at your option) any later version.
    12  *
    13  * This program is distributed in the hope that it will be useful,
    14  * but WITHOUT ANY WARRANTY; without even the implied warranty of
    15  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    16  * GNU General Public License for more details.
    17  */
    18 #define MODULE pvr2_module
    20 #include "dream.h"
    21 #include "video.h"
    22 #include "mem.h"
    23 #include "asic.h"
    24 #include "pvr2.h"
    25 #include "sh4/sh4core.h"
    26 #define MMIO_IMPL
    27 #include "pvr2.h"
    29 char *video_base;
    31 void pvr2_init( void );
    32 uint32_t pvr2_run_slice( uint32_t );
    33 void pvr2_display_frame( void );
    35 video_driver_t video_driver = NULL;
    36 struct video_buffer video_buffer[2];
    37 int video_buffer_idx = 0;
    39 struct dreamcast_module pvr2_module = { "PVR2", pvr2_init, NULL, NULL, 
    40 					pvr2_run_slice, NULL,
    41 					NULL, NULL };
    43 void pvr2_init( void )
    44 {
    45     register_io_region( &mmio_region_PVR2 );
    46     register_io_region( &mmio_region_PVR2PAL );
    47     register_io_region( &mmio_region_PVR2TA );
    48     video_base = mem_get_region_by_name( MEM_REGION_VIDEO );
    49     video_driver = &video_gtk_driver;
    50     video_driver->set_output_format( 640, 480, COLFMT_RGB32 );
    51 }
    53 uint32_t pvr2_time_counter = 0;
    54 uint32_t pvr2_frame_counter = 0;
    55 uint32_t pvr2_time_per_frame = 20000000;
    57 uint32_t pvr2_run_slice( uint32_t nanosecs ) 
    58 {
    59     pvr2_time_counter += nanosecs;
    60     while( pvr2_time_counter >= pvr2_time_per_frame ) {
    61 	pvr2_display_frame();
    62 	pvr2_time_counter -= pvr2_time_per_frame;
    63     }
    64     return nanosecs;
    65 }
    67 uint32_t vid_stride, vid_lpf, vid_ppl, vid_hres, vid_vres, vid_col;
    68 int interlaced, bChanged = 1, bEnabled = 0, vid_size = 0;
    69 char *frame_start; /* current video start address (in real memory) */
    71 /*
    72  * Display the next frame, copying the current contents of video ram to
    73  * the window. If the video configuration has changed, first recompute the
    74  * new frame size/depth.
    75  */
    76 void pvr2_display_frame( void )
    77 {
    78     int dispsize = MMIO_READ( PVR2, DISPSIZE );
    79     int dispmode = MMIO_READ( PVR2, DISPMODE );
    80     int vidcfg = MMIO_READ( PVR2, VIDCFG );
    81     int vid_stride = ((dispsize & DISPSIZE_MODULO) >> 20) - 1;
    82     int vid_lpf = ((dispsize & DISPSIZE_LPF) >> 10) + 1;
    83     int vid_ppl = ((dispsize & DISPSIZE_PPL)) + 1;
    84     gboolean bEnabled = (dispmode & DISPMODE_DE) && (vidcfg & VIDCFG_VO ) ? TRUE : FALSE;
    85     gboolean interlaced = (vidcfg & VIDCFG_I ? TRUE : FALSE);
    86     if( bEnabled ) {
    87 	video_buffer_t buffer = &video_buffer[video_buffer_idx];
    88 	video_buffer_idx = !video_buffer_idx;
    89 	video_buffer_t last = &video_buffer[video_buffer_idx];
    90 	buffer->colour_format = (dispmode & DISPMODE_COL);
    91 	buffer->rowstride = (vid_ppl + vid_stride) << 2;
    92 	buffer->data = frame_start = video_base + MMIO_READ( PVR2, DISPADDR1 );
    93 	buffer->vres = vid_lpf;
    94 	if( interlaced ) buffer->vres <<= 1;
    95 	switch( buffer->colour_format ) {
    96 	case COLFMT_RGB15:
    97 	case COLFMT_RGB16: buffer->hres = vid_ppl << 1; break;
    98 	case COLFMT_RGB24: buffer->hres = (vid_ppl << 2) / 3; break;
    99 	case COLFMT_RGB32: buffer->hres = vid_ppl; break;
   100 	}
   102 	if( video_driver != NULL ) {
   103 	    if( buffer->hres != last->hres ||
   104 		buffer->vres != last->vres ||
   105 		buffer->colour_format != last->colour_format) {
   106 		video_driver->set_output_format( buffer->hres, buffer->vres,
   107 						 buffer->colour_format );
   108 	    }
   109 	    if( MMIO_READ( PVR2, VIDCFG2 ) & 0x08 ) { /* Blanked */
   110 		uint32_t colour = MMIO_READ( PVR2, BORDERCOL );
   111 		video_driver->display_blank_frame( colour );
   112 	    } else {
   113 		video_driver->display_frame( buffer );
   114 	    }
   115 	}
   116     } else {
   117 	video_buffer_idx = 0;
   118 	video_buffer[0].hres = video_buffer[0].vres = 0;
   119     }
   120     pvr2_frame_counter++;
   121     asic_event( EVENT_SCANLINE1 );
   122     asic_event( EVENT_SCANLINE2 );
   123     asic_event( EVENT_RETRACE );
   124 }
   126 void mmio_region_PVR2_write( uint32_t reg, uint32_t val )
   127 {
   128     if( reg >= 0x200 && reg < 0x600 ) { /* Fog table */
   129         MMIO_WRITE( PVR2, reg, val );
   130         /* I don't want to hear about these */
   131         return;
   132     }
   134     INFO( "PVR2 write to %08X <= %08X [%s: %s]", reg, val, 
   135           MMIO_REGID(PVR2,reg), MMIO_REGDESC(PVR2,reg) );
   137     switch(reg) {
   138     case RENDSTART:
   139 	if( val == 0xFFFFFFFF )
   140 	    pvr2_render_scene();
   141 	break;
   142     }
   143     MMIO_WRITE( PVR2, reg, val );
   144 }
   146 MMIO_REGION_READ_FN( PVR2, reg )
   147 {
   148     switch( reg ) {
   149         case BEAMPOS:
   150             return sh4r.icount&0x20 ? 0x2000 : 1;
   151         default:
   152             return MMIO_READ( PVR2, reg );
   153     }
   154 }
   156 MMIO_REGION_DEFFNS( PVR2PAL )
   158 void pvr2_set_base_address( uint32_t base ) 
   159 {
   160     mmio_region_PVR2_write( DISPADDR1, base );
   161 }
   164 void pvr2_render_scene( void )
   165 {
   166     /* Actual rendering goes here :) */
   167     asic_event( EVENT_PVR_RENDER_DONE );
   168     DEBUG( "Rendered frame %d", pvr2_frame_counter );
   169 }
   171 /** Tile Accelerator */
   173 struct tacmd {
   174     uint32_t command;
   175     uint32_t param1;
   176     uint32_t param2;
   177     uint32_t texture;
   178     float alpha;
   179     float red;
   180     float green;
   181     float blue;
   182 };
   184 struct vertex_type1 {
   185     uint32_t command;
   186     float x, y, z;
   187     uint32_t blank, blank2;
   188     uint32_t col;
   189     float f;
   190 };
   192 int32_t mmio_region_PVR2TA_read( uint32_t reg )
   193 {
   194     return 0xFFFFFFFF;
   195 }
   197 char pvr2ta_remainder[8];
   199 void mmio_region_PVR2TA_write( uint32_t reg, uint32_t val )
   200 {
   201     DEBUG( "Direct write to TA %08X", val );
   202 }
   204 unsigned int pvr2_last_poly_type = 0;
   206 void pvr2ta_write( char *buf, uint32_t length )
   207 {
   208     int i;
   209     struct tacmd *cmd_list = (struct tacmd *)buf;
   210     int count = length >> 5;
   211     for( i=0; i<count; i++ ){
   212 	unsigned int type = (cmd_list[i].command >> 24) & 0xFF;
   213 	if( type == 0xE0 || type == 0xF0 ) {
   214 	    struct vertex_type1 *vert = (struct vertex_type1 *)&cmd_list[i];
   215 	    DEBUG( "PVR2 vrt: %f %f %f %08X %08X %08X %f", vert->x, vert->y, vert->z, vert->blank, vert->blank2, vert->col, vert->f );
   216 	} else {
   217 	    DEBUG( "PVR2 cmd: %08X %08X %08X %08X %08X %08X %08X %08X", cmd_list[i].command, cmd_list[i].param1, cmd_list[i].param2, cmd_list[i].texture, cmd_list[i].alpha, cmd_list[i].red, cmd_list[i].green, cmd_list[i].blue );
   218 	}
   219 	if( type == 0 ) {
   220 	    /* End of list */
   221 	    switch( pvr2_last_poly_type ) {
   222 	    case 0x80: /* Opaque polys */
   223 		asic_event( EVENT_PVR_OPAQUE_DONE );
   224 		break;
   225 	    case 0x81: /* Opaque poly modifier */
   226 		asic_event( EVENT_PVR_OPAQUEMOD_DONE );
   227 		break;
   228 	    case 0x82: /* Transparent polys */
   229 		asic_event( EVENT_PVR_TRANS_DONE );
   230 		break;
   231 	    case 0x83: /* Transparent poly modifier */
   232 		asic_event( EVENT_PVR_TRANSMOD_DONE );
   233 		break;
   234 	    case 0x84: /* Punchthrough */
   235 		asic_event( EVENT_PVR_PUNCHOUT_DONE );
   236 		break;
   237 	    }
   238 	    pvr2_last_poly_type = 0;
   239 	} else if( type >= 0x80 && type <= 0x84 ) {
   240 	    pvr2_last_poly_type = type;
   241 	}
   242     }
   243 }
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