4 * PVR2 (Video) Core module implementation and MMIO registers.
6 * Copyright (c) 2005 Nathan Keynes.
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.
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.
18 #define MODULE pvr2_module
27 #include "pvr2/pvr2.h"
28 #include "pvr2/pvr2mmio.h"
29 #include "pvr2/scene.h"
32 #include "pvr2/pvr2mmio.h"
34 unsigned char *video_base;
36 #define MAX_RENDER_BUFFERS 4
38 #define HPOS_PER_FRAME 0
39 #define HPOS_PER_LINECOUNT 1
41 static void pvr2_init( void );
42 static void pvr2_reset( void );
43 static uint32_t pvr2_run_slice( uint32_t );
44 static void pvr2_save_state( FILE *f );
45 static int pvr2_load_state( FILE *f );
46 static void pvr2_update_raster_posn( uint32_t nanosecs );
47 static void pvr2_schedule_scanline_event( int eventid, int line, int minimum_lines, int line_time_ns );
48 static render_buffer_t pvr2_get_render_buffer( frame_buffer_t frame );
49 static render_buffer_t pvr2_next_render_buffer( );
50 static render_buffer_t pvr2_frame_buffer_to_render_buffer( frame_buffer_t frame );
51 uint32_t pvr2_get_sync_status();
53 void pvr2_display_frame( void );
55 static int output_colour_formats[] = { COLFMT_BGRA1555, COLFMT_RGB565, COLFMT_BGR888, COLFMT_BGRA8888 };
57 struct dreamcast_module pvr2_module = { "PVR2", pvr2_init, pvr2_reset, NULL,
59 pvr2_save_state, pvr2_load_state };
62 display_driver_t display_driver = NULL;
67 uint32_t line_remainder;
68 uint32_t cycles_run; /* Cycles already executed prior to main time slice */
69 uint32_t irq_hpos_line;
70 uint32_t irq_hpos_line_count;
71 uint32_t irq_hpos_mode;
72 uint32_t irq_hpos_time_ns; /* Time within the line */
75 uint32_t odd_even_field; /* 1 = odd, 0 = even */
76 int32_t palette_changed; /* TRUE if palette has changed since last render */
77 uint32_t padding; /* FIXME: Remove in next DST version */
82 uint32_t line_time_ns;
84 uint32_t hsync_width_ns;
85 uint32_t front_porch_ns;
86 uint32_t back_porch_ns;
87 uint32_t retrace_start_line;
88 uint32_t retrace_end_line;
92 static gchar *save_next_render_filename;
93 static render_buffer_t render_buffers[MAX_RENDER_BUFFERS];
94 static uint32_t render_buffer_count = 0;
95 static render_buffer_t displayed_render_buffer = NULL;
96 static uint32_t displayed_border_colour = 0;
99 * Event handler for the hpos callback
101 static void pvr2_hpos_callback( int eventid ) {
102 asic_event( eventid );
103 pvr2_update_raster_posn(sh4r.slice_cycle);
104 if( pvr2_state.irq_hpos_mode == HPOS_PER_LINECOUNT ) {
105 pvr2_state.irq_hpos_line += pvr2_state.irq_hpos_line_count;
106 while( pvr2_state.irq_hpos_line > (pvr2_state.total_lines>>1) ) {
107 pvr2_state.irq_hpos_line -= (pvr2_state.total_lines>>1);
110 pvr2_schedule_scanline_event( eventid, pvr2_state.irq_hpos_line, 1,
111 pvr2_state.irq_hpos_time_ns );
115 * Event handler for the scanline callbacks. Fires the corresponding
116 * ASIC event, and resets the timer for the next field.
118 static void pvr2_scanline_callback( int eventid ) {
119 asic_event( eventid );
120 pvr2_update_raster_posn(sh4r.slice_cycle);
121 if( eventid == EVENT_SCANLINE1 ) {
122 pvr2_schedule_scanline_event( eventid, pvr2_state.irq_vpos1, 1, 0 );
124 pvr2_schedule_scanline_event( eventid, pvr2_state.irq_vpos2, 1, 0 );
128 static void pvr2_init( void )
131 register_io_region( &mmio_region_PVR2 );
132 register_io_region( &mmio_region_PVR2PAL );
133 register_io_region( &mmio_region_PVR2TA );
134 register_event_callback( EVENT_HPOS, pvr2_hpos_callback );
135 register_event_callback( EVENT_SCANLINE1, pvr2_scanline_callback );
136 register_event_callback( EVENT_SCANLINE2, pvr2_scanline_callback );
137 video_base = mem_get_region_by_name( MEM_REGION_VIDEO );
141 save_next_render_filename = NULL;
142 for( i=0; i<MAX_RENDER_BUFFERS; i++ ) {
143 render_buffers[i] = NULL;
145 render_buffer_count = 0;
146 displayed_render_buffer = NULL;
147 displayed_border_colour = 0;
150 static void pvr2_reset( void )
153 pvr2_state.line_count = 0;
154 pvr2_state.line_remainder = 0;
155 pvr2_state.cycles_run = 0;
156 pvr2_state.irq_vpos1 = 0;
157 pvr2_state.irq_vpos2 = 0;
158 pvr2_state.dot_clock = PVR2_DOT_CLOCK;
159 pvr2_state.back_porch_ns = 4000;
160 pvr2_state.palette_changed = FALSE;
161 mmio_region_PVR2_write( DISP_TOTAL, 0x0270035F );
162 mmio_region_PVR2_write( DISP_SYNCTIME, 0x07D6A53F );
163 mmio_region_PVR2_write( YUV_ADDR, 0 );
164 mmio_region_PVR2_write( YUV_CFG, 0 );
168 if( display_driver ) {
169 display_driver->display_blank(0);
170 for( i=0; i<render_buffer_count; i++ ) {
171 display_driver->destroy_render_buffer(render_buffers[i]);
172 render_buffers[i] = NULL;
174 render_buffer_count = 0;
178 void pvr2_save_render_buffer( FILE *f, render_buffer_t buffer )
180 struct frame_buffer fbuf;
182 fbuf.width = buffer->width;
183 fbuf.height = buffer->height;
184 fbuf.rowstride = fbuf.width*3;
185 fbuf.colour_format = COLFMT_BGR888;
186 fbuf.inverted = buffer->inverted;
187 fbuf.data = g_malloc0( buffer->width * buffer->height * 3 );
189 display_driver->read_render_buffer( fbuf.data, buffer, fbuf.rowstride, COLFMT_BGR888 );
190 write_png_to_stream( f, &fbuf );
193 fwrite( &buffer->rowstride, sizeof(buffer->rowstride), 1, f );
194 fwrite( &buffer->colour_format, sizeof(buffer->colour_format), 1, f );
195 fwrite( &buffer->address, sizeof(buffer->address), 1, f );
196 fwrite( &buffer->scale, sizeof(buffer->scale), 1, f );
197 int32_t flushed = (int32_t)buffer->flushed; // Force to 32-bits for save-file consistency
198 fwrite( &flushed, sizeof(flushed), 1, f );
202 render_buffer_t pvr2_load_render_buffer( FILE *f )
204 frame_buffer_t frame = read_png_from_stream( f );
205 if( frame == NULL ) {
209 render_buffer_t buffer = pvr2_frame_buffer_to_render_buffer(frame);
210 if( buffer != NULL ) {
212 fread( &buffer->rowstride, sizeof(buffer->rowstride), 1, f );
213 fread( &buffer->colour_format, sizeof(buffer->colour_format), 1, f );
214 fread( &buffer->address, sizeof(buffer->address), 1, f );
215 fread( &buffer->scale, sizeof(buffer->scale), 1, f );
216 fread( &flushed, sizeof(flushed), 1, f );
217 buffer->flushed = (gboolean)flushed;
219 fseek( f, sizeof(buffer->rowstride)+sizeof(buffer->colour_format)+
220 sizeof(buffer->address)+sizeof(buffer->scale)+
221 sizeof(int32_t), SEEK_CUR );
229 void pvr2_save_render_buffers( FILE *f )
232 uint32_t has_frontbuffer;
233 fwrite( &render_buffer_count, sizeof(render_buffer_count), 1, f );
234 if( displayed_render_buffer != NULL ) {
236 fwrite( &has_frontbuffer, sizeof(has_frontbuffer), 1, f );
237 pvr2_save_render_buffer( f, displayed_render_buffer );
240 fwrite( &has_frontbuffer, sizeof(has_frontbuffer), 1, f );
243 for( i=0; i<render_buffer_count; i++ ) {
244 if( render_buffers[i] != displayed_render_buffer && render_buffers[i] != NULL ) {
245 pvr2_save_render_buffer( f, render_buffers[i] );
250 gboolean pvr2_load_render_buffers( FILE *f )
252 uint32_t count, has_frontbuffer;
255 fread( &count, sizeof(count), 1, f );
256 if( count > MAX_RENDER_BUFFERS ) {
259 fread( &has_frontbuffer, sizeof(has_frontbuffer), 1, f );
260 for( i=0; i<render_buffer_count; i++ ) {
261 display_driver->destroy_render_buffer(render_buffers[i]);
262 render_buffers[i] = NULL;
264 render_buffer_count = 0;
266 if( has_frontbuffer ) {
267 displayed_render_buffer = pvr2_load_render_buffer(f);
268 display_driver->display_render_buffer( displayed_render_buffer );
272 for( i=0; i<count; i++ ) {
273 pvr2_load_render_buffer( f );
279 static void pvr2_save_state( FILE *f )
281 pvr2_save_render_buffers( f );
282 fwrite( &pvr2_state, sizeof(pvr2_state), 1, f );
283 pvr2_ta_save_state( f );
284 pvr2_yuv_save_state( f );
287 static int pvr2_load_state( FILE *f )
289 if( !pvr2_load_render_buffers(f) )
291 if( fread( &pvr2_state, sizeof(pvr2_state), 1, f ) != 1 )
293 if( pvr2_ta_load_state(f) ) {
296 return pvr2_yuv_load_state(f);
300 * Update the current raster position to the given number of nanoseconds,
301 * relative to the last time slice. (ie the raster will be adjusted forward
302 * by nanosecs - nanosecs_already_run_this_timeslice)
304 static void pvr2_update_raster_posn( uint32_t nanosecs )
306 uint32_t old_line_count = pvr2_state.line_count;
307 if( pvr2_state.line_time_ns == 0 ) {
308 return; /* do nothing */
310 pvr2_state.line_remainder += (nanosecs - pvr2_state.cycles_run);
311 pvr2_state.cycles_run = nanosecs;
312 while( pvr2_state.line_remainder >= pvr2_state.line_time_ns ) {
313 pvr2_state.line_count ++;
314 pvr2_state.line_remainder -= pvr2_state.line_time_ns;
317 if( pvr2_state.line_count >= pvr2_state.total_lines ) {
318 pvr2_state.line_count -= pvr2_state.total_lines;
319 if( pvr2_state.interlaced ) {
320 pvr2_state.odd_even_field = !pvr2_state.odd_even_field;
323 if( pvr2_state.line_count >= pvr2_state.retrace_end_line &&
324 (old_line_count < pvr2_state.retrace_end_line ||
325 old_line_count > pvr2_state.line_count) ) {
326 pvr2_state.frame_count++;
327 pvr2_display_frame();
331 static uint32_t pvr2_run_slice( uint32_t nanosecs )
333 pvr2_update_raster_posn( nanosecs );
334 pvr2_state.cycles_run = 0;
338 int pvr2_get_frame_count()
340 return pvr2_state.frame_count;
343 void pvr2_redraw_display()
345 if( display_driver != NULL ) {
346 if( displayed_render_buffer == NULL ) {
347 display_driver->display_blank(displayed_border_colour);
349 display_driver->display_render_buffer(displayed_render_buffer);
354 gboolean pvr2_save_next_scene( const gchar *filename )
356 if( save_next_render_filename != NULL ) {
357 g_free( save_next_render_filename );
359 save_next_render_filename = g_strdup(filename);
366 * Display the next frame, copying the current contents of video ram to
367 * the window. If the video configuration has changed, first recompute the
368 * new frame size/depth.
370 void pvr2_display_frame( void )
372 int dispmode = MMIO_READ( PVR2, DISP_MODE );
373 int vidcfg = MMIO_READ( PVR2, DISP_SYNCCFG );
374 gboolean bEnabled = (dispmode & DISPMODE_ENABLE) && (vidcfg & DISPCFG_VO ) ? TRUE : FALSE;
376 if( display_driver == NULL ) {
377 return; /* can't really do anything much */
378 } else if( !bEnabled ) {
379 /* Output disabled == black */
380 displayed_render_buffer = NULL;
381 displayed_border_colour = 0;
382 display_driver->display_blank( 0 );
383 } else if( MMIO_READ( PVR2, DISP_CFG2 ) & 0x08 ) {
384 /* Enabled but blanked - border colour */
385 displayed_border_colour = MMIO_READ( PVR2, DISP_BORDER );
386 displayed_render_buffer = NULL;
387 display_driver->display_blank( displayed_border_colour );
389 /* Real output - determine dimensions etc */
390 struct frame_buffer fbuf;
391 uint32_t dispsize = MMIO_READ( PVR2, DISP_SIZE );
392 int vid_stride = (((dispsize & DISPSIZE_MODULO) >> 20) - 1);
393 int vid_ppl = ((dispsize & DISPSIZE_PPL)) + 1;
395 fbuf.colour_format = output_colour_formats[(dispmode & DISPMODE_COLFMT) >> 2];
396 fbuf.width = vid_ppl << 2 / colour_formats[fbuf.colour_format].bpp;
397 fbuf.height = ((dispsize & DISPSIZE_LPF) >> 10) + 1;
398 fbuf.size = vid_ppl << 2 * fbuf.height;
399 fbuf.rowstride = (vid_ppl + vid_stride) << 2;
401 /* Determine the field to display, and deinterlace if possible */
402 if( pvr2_state.interlaced ) {
403 if( vid_ppl == vid_stride ) { /* Magic deinterlace */
404 fbuf.height = fbuf.height << 1;
405 fbuf.rowstride = vid_ppl << 2;
406 fbuf.address = MMIO_READ( PVR2, DISP_ADDR1 );
408 /* Just display the field as is, folks. This is slightly tricky -
409 * we pick the field based on which frame is about to come through,
410 * which may not be the same as the odd_even_field.
412 gboolean oddfield = pvr2_state.odd_even_field;
413 if( pvr2_state.line_count >= pvr2_state.retrace_start_line ) {
414 oddfield = !oddfield;
417 fbuf.address = MMIO_READ( PVR2, DISP_ADDR1 );
419 fbuf.address = MMIO_READ( PVR2, DISP_ADDR2 );
423 fbuf.address = MMIO_READ( PVR2, DISP_ADDR1 );
425 fbuf.address = (fbuf.address & 0x00FFFFFF) + PVR2_RAM_BASE;
426 fbuf.inverted = FALSE;
427 fbuf.data = video_base + (fbuf.address&0x00FFFFFF);
429 render_buffer_t rbuf = pvr2_get_render_buffer( &fbuf );
431 rbuf = pvr2_frame_buffer_to_render_buffer( &fbuf );
433 displayed_render_buffer = rbuf;
435 display_driver->display_render_buffer( rbuf );
441 * This has to handle every single register individually as they all get masked
442 * off differently (and its easier to do it at write time)
444 void mmio_region_PVR2_write( uint32_t reg, uint32_t val )
446 if( reg >= 0x200 && reg < 0x600 ) { /* Fog table */
447 MMIO_WRITE( PVR2, reg, val );
454 case GUNPOS: /* Read only registers */
457 val &= 0x00000007; /* Do stuff? */
458 MMIO_WRITE( PVR2, reg, val );
460 case RENDER_START: /* Don't really care what value */
461 if( save_next_render_filename != NULL ) {
462 if( pvr2_render_save_scene(save_next_render_filename) == 0 ) {
463 INFO( "Saved scene to %s", save_next_render_filename);
465 g_free( save_next_render_filename );
466 save_next_render_filename = NULL;
469 render_buffer_t buffer = pvr2_next_render_buffer();
470 if( buffer != NULL ) {
471 pvr2_scene_render( buffer );
473 asic_event( EVENT_PVR_RENDER_DONE );
475 case RENDER_POLYBASE:
476 MMIO_WRITE( PVR2, reg, val&0x00F00000 );
479 MMIO_WRITE( PVR2, reg, val&0x00010101 );
482 MMIO_WRITE( PVR2, reg, val&0x01FFFFFF );
485 MMIO_WRITE( PVR2, reg, val&0x00FFFF7F );
488 MMIO_WRITE( PVR2, reg, val&0x00FFFF0F );
491 MMIO_WRITE( PVR2, reg, val&0x000001FF );
495 MMIO_WRITE( PVR2, reg, val );
496 pvr2_update_raster_posn(sh4r.slice_cycle);
499 MMIO_WRITE( PVR2, reg, val&0x00FFFFFC );
500 pvr2_update_raster_posn(sh4r.slice_cycle);
503 MMIO_WRITE( PVR2, reg, val&0x3FFFFFFF );
507 MMIO_WRITE( PVR2, reg, val&0x01FFFFFC );
510 MMIO_WRITE( PVR2, reg, val&0x07FF07FF );
513 MMIO_WRITE( PVR2, reg, val&0x03FF03FF );
516 MMIO_WRITE( PVR2, reg, val&0x03FF33FF );
517 pvr2_state.irq_hpos_line = val & 0x03FF;
518 pvr2_state.irq_hpos_time_ns = 2000000*((val>>16)&0x03FF)/pvr2_state.dot_clock;
519 pvr2_state.irq_hpos_mode = (val >> 12) & 0x03;
520 switch( pvr2_state.irq_hpos_mode ) {
521 case 3: /* Reserved - treat as 0 */
522 case 0: /* Once per frame at specified line */
523 pvr2_state.irq_hpos_mode = HPOS_PER_FRAME;
525 case 2: /* Once per line - as per-line-count */
526 pvr2_state.irq_hpos_line = 1;
527 pvr2_state.irq_hpos_mode = 1;
528 case 1: /* Once per N lines */
529 pvr2_state.irq_hpos_line_count = pvr2_state.irq_hpos_line;
530 pvr2_state.irq_hpos_line = (pvr2_state.line_count >> 1) +
531 pvr2_state.irq_hpos_line_count;
532 while( pvr2_state.irq_hpos_line > (pvr2_state.total_lines>>1) ) {
533 pvr2_state.irq_hpos_line -= (pvr2_state.total_lines>>1);
535 pvr2_state.irq_hpos_mode = HPOS_PER_LINECOUNT;
537 pvr2_schedule_scanline_event( EVENT_HPOS, pvr2_state.irq_hpos_line, 0,
538 pvr2_state.irq_hpos_time_ns );
541 val = val & 0x03FF03FF;
542 pvr2_state.irq_vpos1 = (val >> 16);
543 pvr2_state.irq_vpos2 = val & 0x03FF;
544 pvr2_update_raster_posn(sh4r.slice_cycle);
545 pvr2_schedule_scanline_event( EVENT_SCANLINE1, pvr2_state.irq_vpos1, 0, 0 );
546 pvr2_schedule_scanline_event( EVENT_SCANLINE2, pvr2_state.irq_vpos2, 0, 0 );
547 MMIO_WRITE( PVR2, reg, val );
549 case RENDER_NEARCLIP:
550 MMIO_WRITE( PVR2, reg, val & 0x7FFFFFFF );
553 MMIO_WRITE( PVR2, reg, val&0x000001FF );
556 MMIO_WRITE( PVR2, reg, val&0x003FFFFF );
559 MMIO_WRITE( PVR2, reg, val&0x7FFFFFFF );
562 MMIO_WRITE( PVR2, reg, val&0xFFFFFFF0 );
565 MMIO_WRITE( PVR2, reg, val&0x1FFFFFFF );
568 MMIO_WRITE( PVR2, reg, val&0x00FFFFF9 );
571 MMIO_WRITE( PVR2, reg, val&0x000000FF );
574 MMIO_WRITE( PVR2, reg, val&0x003FFFFF );
577 MMIO_WRITE( PVR2, reg, val&0x1FFFFFFF );
579 case RENDER_FOGTBLCOL:
580 case RENDER_FOGVRTCOL:
581 MMIO_WRITE( PVR2, reg, val&0x00FFFFFF );
583 case RENDER_FOGCOEFF:
584 MMIO_WRITE( PVR2, reg, val&0x0000FFFF );
588 MMIO_WRITE( PVR2, reg, val );
591 MMIO_WRITE( PVR2, reg, val&0x00031F1F );
594 MMIO_WRITE( PVR2, reg, val&0x00000003 );
596 case RENDER_ALPHA_REF:
597 MMIO_WRITE( PVR2, reg, val&0x000000FF );
599 /********** CRTC registers *************/
602 MMIO_WRITE( PVR2, reg, val&0x03FF03FF );
605 val = val & 0x03FF03FF;
606 MMIO_WRITE( PVR2, reg, val );
607 pvr2_update_raster_posn(sh4r.slice_cycle);
608 pvr2_state.total_lines = (val >> 16) + 1;
609 pvr2_state.line_size = (val & 0x03FF) + 1;
610 pvr2_state.line_time_ns = 1000000 * pvr2_state.line_size / pvr2_state.dot_clock;
611 pvr2_state.retrace_end_line = 0x2A;
612 pvr2_state.retrace_start_line = pvr2_state.total_lines - 6;
613 pvr2_schedule_scanline_event( EVENT_SCANLINE1, pvr2_state.irq_vpos1, 0, 0 );
614 pvr2_schedule_scanline_event( EVENT_SCANLINE2, pvr2_state.irq_vpos2, 0, 0 );
615 pvr2_schedule_scanline_event( EVENT_HPOS, pvr2_state.irq_hpos_line, 0,
616 pvr2_state.irq_hpos_time_ns );
619 MMIO_WRITE( PVR2, reg, val&0x000003FF );
620 pvr2_state.interlaced = (val & 0x0010) ? TRUE : FALSE;
623 pvr2_state.vsync_lines = (val >> 8) & 0x0F;
624 pvr2_state.hsync_width_ns = ((val & 0x7F) + 1) * 2000000 / pvr2_state.dot_clock;
625 MMIO_WRITE( PVR2, reg, val&0xFFFFFF7F );
628 MMIO_WRITE( PVR2, reg, val&0x003F01FF );
632 pvr2_state.front_porch_ns = (val + 1) * 1000000 / pvr2_state.dot_clock;
633 MMIO_WRITE( PVR2, reg, val );
636 MMIO_WRITE( PVR2, reg, val&0x03FF03FF );
639 /*********** Tile accelerator registers ***********/
642 /* Readonly registers */
647 MMIO_WRITE( PVR2, reg, val&0x00FFFFE0 );
649 case RENDER_TILEBASE:
652 MMIO_WRITE( PVR2, reg, val&0x00FFFFFC );
655 MMIO_WRITE( PVR2, reg, val&0x000F003F );
658 MMIO_WRITE( PVR2, reg, val&0x00133333 );
661 if( val & 0x80000000 )
666 /**************** Scaler registers? ****************/
668 MMIO_WRITE( PVR2, reg, val&0x0007FFFF );
672 val = val & 0x00FFFFF8;
673 MMIO_WRITE( PVR2, reg, val );
674 pvr2_yuv_init( val );
677 MMIO_WRITE( PVR2, reg, val&0x01013F3F );
678 pvr2_yuv_set_config(val);
681 /**************** Unknowns ***************/
683 MMIO_WRITE( PVR2, reg, val&0x000007FF );
686 MMIO_WRITE( PVR2, reg, val&0x00000007 );
689 MMIO_WRITE( PVR2, reg, val&0x000FFF3F );
692 MMIO_WRITE( PVR2, reg, val&0x0000FFFF );
695 MMIO_WRITE( PVR2, reg, val&0x00000001 );
698 MMIO_WRITE( PVR2, reg, val&0x0300FFFF );
704 * Calculate the current read value of the syncstat register, using
705 * the current SH4 clock time as an offset from the last timeslice.
706 * The register reads (LSB to MSB) as:
707 * 0..9 Current scan line
708 * 10 Odd/even field (1 = odd, 0 = even)
709 * 11 Display active (including border and overscan)
710 * 12 Horizontal sync off
711 * 13 Vertical sync off
712 * Note this method is probably incorrect for anything other than straight
713 * interlaced PAL/NTSC, and needs further testing.
715 uint32_t pvr2_get_sync_status()
717 pvr2_update_raster_posn(sh4r.slice_cycle);
718 uint32_t result = pvr2_state.line_count;
720 if( pvr2_state.odd_even_field ) {
723 if( (pvr2_state.line_count & 0x01) == pvr2_state.odd_even_field ) {
724 if( pvr2_state.line_remainder > pvr2_state.hsync_width_ns ) {
725 result |= 0x1000; /* !HSYNC */
727 if( pvr2_state.line_count >= pvr2_state.vsync_lines ) {
728 if( pvr2_state.line_remainder > pvr2_state.front_porch_ns ) {
729 result |= 0x2800; /* Display active */
731 result |= 0x2000; /* Front porch */
735 if( pvr2_state.line_count >= pvr2_state.vsync_lines ) {
736 if( pvr2_state.line_remainder < (pvr2_state.line_time_ns - pvr2_state.back_porch_ns)) {
737 result |= 0x3800; /* Display active */
742 result |= 0x1000; /* Back porch */
749 * Schedule a "scanline" event. This actually goes off at
750 * 2 * line in even fields and 2 * line + 1 in odd fields.
751 * Otherwise this behaves as per pvr2_schedule_line_event().
752 * The raster position should be updated before calling this
754 * @param eventid Event to fire at the specified time
755 * @param line Line on which to fire the event (this is 2n/2n+1 for interlaced
757 * @param hpos_ns Nanoseconds into the line at which to fire.
759 static void pvr2_schedule_scanline_event( int eventid, int line, int minimum_lines, int hpos_ns )
761 uint32_t field = pvr2_state.odd_even_field;
762 if( line <= pvr2_state.line_count && pvr2_state.interlaced ) {
765 if( hpos_ns > pvr2_state.line_time_ns ) {
766 hpos_ns = pvr2_state.line_time_ns;
774 if( line < pvr2_state.total_lines ) {
777 if( line <= pvr2_state.line_count ) {
778 lines = (pvr2_state.total_lines - pvr2_state.line_count + line);
780 lines = (line - pvr2_state.line_count);
782 if( lines <= minimum_lines ) {
783 lines += pvr2_state.total_lines;
785 time = (lines * pvr2_state.line_time_ns) - pvr2_state.line_remainder + hpos_ns;
786 event_schedule( eventid, time );
788 event_cancel( eventid );
792 MMIO_REGION_READ_FN( PVR2, reg )
796 return pvr2_get_sync_status();
798 return MMIO_READ( PVR2, reg );
802 MMIO_REGION_WRITE_FN( PVR2PAL, reg, val )
804 MMIO_WRITE( PVR2PAL, reg, val );
805 pvr2_state.palette_changed = TRUE;
808 void pvr2_check_palette_changed()
810 if( pvr2_state.palette_changed ) {
811 texcache_invalidate_palette();
812 pvr2_state.palette_changed = FALSE;
816 MMIO_REGION_READ_DEFFN( PVR2PAL );
818 void pvr2_set_base_address( uint32_t base )
820 mmio_region_PVR2_write( DISP_ADDR1, base );
826 int32_t mmio_region_PVR2TA_read( uint32_t reg )
831 void mmio_region_PVR2TA_write( uint32_t reg, uint32_t val )
833 pvr2_ta_write( (unsigned char *)&val, sizeof(uint32_t) );
837 * Find the render buffer corresponding to the requested output frame
838 * (does not consider texture renders).
839 * @return the render_buffer if found, or null if no such buffer.
841 * Note: Currently does not consider "partial matches", ie partial
842 * frame overlap - it probably needs to do this.
844 render_buffer_t pvr2_get_render_buffer( frame_buffer_t frame )
847 for( i=0; i<render_buffer_count; i++ ) {
848 if( render_buffers[i] != NULL && render_buffers[i]->address == frame->address ) {
849 return render_buffers[i];
856 * Allocate a render buffer with the requested parameters.
857 * The order of preference is:
858 * 1. An existing buffer with the same address. (not flushed unless the new
859 * size is smaller than the old one).
860 * 2. An existing buffer with the same size chosen by LRU order. Old buffer
861 * is flushed to vram.
862 * 3. A new buffer if one can be created.
863 * 4. The current display buff
864 * Note: The current display field(s) will never be overwritten except as a last
867 render_buffer_t pvr2_alloc_render_buffer( sh4addr_t render_addr, int width, int height )
870 render_buffer_t result = NULL;
872 /* Check existing buffers for an available buffer */
873 for( i=0; i<render_buffer_count; i++ ) {
874 if( render_buffers[i]->width == width && render_buffers[i]->height == height ) {
875 /* needs to be the right dimensions */
876 if( render_buffers[i]->address == render_addr ) {
877 if( displayed_render_buffer == render_buffers[i] ) {
878 /* Same address, but we can't use it because the
879 * display has it. Mark it as unaddressed for later.
881 render_buffers[i]->address = -1;
884 result = render_buffers[i];
887 } else if( render_buffers[i]->address == -1 && result == NULL &&
888 displayed_render_buffer != render_buffers[i] ) {
889 result = render_buffers[i];
892 } else if( render_buffers[i]->address == render_addr ) {
893 /* right address, wrong size - if it's larger, flush it, otherwise
895 if( render_buffers[i]->width * render_buffers[i]->height >
897 pvr2_render_buffer_copy_to_sh4( render_buffers[i] );
899 render_buffers[i]->address = -1;
903 /* Nothing available - make one */
904 if( result == NULL ) {
905 if( render_buffer_count == MAX_RENDER_BUFFERS ) {
906 /* maximum buffers reached - need to throw one away */
907 uint32_t field1_addr = MMIO_READ( PVR2, DISP_ADDR1 );
908 uint32_t field2_addr = MMIO_READ( PVR2, DISP_ADDR2 );
909 for( i=0; i<render_buffer_count; i++ ) {
910 if( render_buffers[i]->address != field1_addr &&
911 render_buffers[i]->address != field2_addr &&
912 render_buffers[i] != displayed_render_buffer ) {
913 /* Never throw away the current "front buffer(s)" */
914 result = render_buffers[i];
915 if( !result->flushed ) {
916 pvr2_render_buffer_copy_to_sh4( result );
918 if( result->width != width || result->height != height ) {
919 display_driver->destroy_render_buffer(render_buffers[i]);
920 result = display_driver->create_render_buffer(width,height);
921 render_buffers[i] = result;
927 result = display_driver->create_render_buffer(width,height);
928 if( result != NULL ) {
929 render_buffers[render_buffer_count++] = result;
934 if( result != NULL ) {
935 result->address = render_addr;
941 * Allocate a render buffer based on the current rendering settings
943 render_buffer_t pvr2_next_render_buffer()
945 render_buffer_t result = NULL;
946 uint32_t render_addr = MMIO_READ( PVR2, RENDER_ADDR1 );
947 uint32_t render_mode = MMIO_READ( PVR2, RENDER_MODE );
948 uint32_t render_scale = MMIO_READ( PVR2, RENDER_SCALER );
949 uint32_t render_stride = MMIO_READ( PVR2, RENDER_SIZE ) << 3;
951 if( render_addr & 0x01000000 ) { /* vram64 */
952 render_addr = (render_addr & 0x00FFFFFF) + PVR2_RAM_BASE_INT;
953 } else { /* vram32 */
954 render_addr = (render_addr & 0x00FFFFFF) + PVR2_RAM_BASE;
957 int width = pvr2_scene_buffer_width();
958 int height = pvr2_scene_buffer_height();
959 int colour_format = pvr2_render_colour_format[render_mode&0x07];
961 result = pvr2_alloc_render_buffer( render_addr, width, height );
962 /* Setup the buffer */
963 if( result != NULL ) {
964 result->rowstride = render_stride;
965 result->colour_format = colour_format;
966 result->scale = render_scale;
967 result->size = width * height * colour_formats[colour_format].bpp;
968 result->flushed = FALSE;
969 result->inverted = TRUE; // render buffers are inverted normally
974 static render_buffer_t pvr2_frame_buffer_to_render_buffer( frame_buffer_t frame )
976 render_buffer_t result = pvr2_alloc_render_buffer( frame->address, frame->width, frame->height );
977 if( result != NULL ) {
978 int bpp = colour_formats[frame->colour_format].bpp;
979 result->rowstride = frame->rowstride;
980 result->colour_format = frame->colour_format;
981 result->scale = 0x400;
982 result->size = frame->width * frame->height * bpp;
983 result->flushed = TRUE;
984 result->inverted = frame->inverted;
985 display_driver->load_frame_buffer( frame, result );
992 * Invalidate any caching on the supplied address. Specifically, if it falls
993 * within any of the render buffers, flush the buffer back to PVR2 ram.
995 gboolean pvr2_render_buffer_invalidate( sh4addr_t address, gboolean isWrite )
998 address = address & 0x1FFFFFFF;
999 for( i=0; i<render_buffer_count; i++ ) {
1000 uint32_t bufaddr = render_buffers[i]->address;
1001 if( bufaddr != -1 && bufaddr <= address &&
1002 (bufaddr + render_buffers[i]->size) > address ) {
1003 if( !render_buffers[i]->flushed ) {
1004 pvr2_render_buffer_copy_to_sh4( render_buffers[i] );
1005 render_buffers[i]->flushed = TRUE;
1008 render_buffers[i]->address = -1; /* Invalid */
1010 return TRUE; /* should never have overlapping buffers */
.