mpv/libvo/vo_dga.c

1089 lines
32 KiB
C

#define DISP
/*
* $Id$
*
* video_out_dga.c, X11 interface
*
*
* Copyright ( C ) 2001, Andreas Ackermann. All Rights Reserved.
*
* <acki@acki-netz.de>
*
* Sourceforge username: acki2
*
* note well:
*
* - covers only common video card formats i.e.
* BGR_16_15_555
* BGR_16_16_565
* BGR_24_24_888
* BGR_32_24_888
*
* - works only on x86 architectures
*
* $Log$
* Revision 1.23 2001/05/24 20:48:45 arpi_esp
* removed redundant osd.h includes
*
* Revision 1.22 2001/05/07 19:16:04 acki2
* - now chooses mode with highest ymax (enables doublebuffering in some cases
* it didn't work before)
* - use my own memcopy() on non MMX machines again
* - do memcpy() in one single block if stride==0
*
* Revision 1.21 2001/05/03 22:39:38 acki2
* - finally: 15to16 conversion included!!!
*
* Revision 1.20 2001/05/02 23:21:27 acki2
* - now we use fastmemcpy() for copying. Saves about 25% of copying time on K6-2+
*
* Revision 1.19 2001/05/01 22:37:37 acki2
* - now features 24->32 conversion (this is actually faster than letting the
* codec produce depth 32 in the first place for avis :-))) )
*
* Revision 1.18 2001/05/01 20:24:31 acki2
* - now mpeg is fast again (no more offscreen buffer rubbish) But is it really ok?
*
* Revision 1.17 2001/04/24 11:42:04 pontscho
* clean up
*
* Revision 1.16 2001/04/24 10:21:12 szabii
* some warnings killed
*
* Revision 1.15 2001/04/19 21:39:10 arpi_esp
* driver info now depends on detected DGA version
*
* Revision 1.14 2001/04/17 22:28:09 acki2
* - now also supports OSD for YV12 (big speed penalty by having to build image
* in offscreen memory and then copying;
* - OSD still works just with doublebuffering enabled :-(
*
* Revision 1.13 2001/04/17 20:51:58 acki2
* - query_format() now uses new return value concept
* - now support for OSD :-))) for RGB modes
* YV12 is flickering in quite an ugly fashion; have to fix this, but
* will cost an extra copying of image data ... :-(((
*
* Revision 1.12 2001/04/13 22:11:08 acki2
* - fixed bug with depth and mpg when current bpp of XServer was != 32
* - when -bpp is selected, I accept only query_modes() for THIS particular depth
* (if it's supported by hardware)
*
* Revision 1.10 2001/04/01 22:01:28 acki2
* - still more debug output to be able to fix 15/16 bpp problem
*
* Revision 1.9 2001/04/01 08:07:14 acki2
* - added detection of memsize of graphics card to check if double buffering is possible
* - fixed resolution switching a little and added more debug output
* - resolution switching is still according to d_width and d_height which
* is not always a good idea ...
*
*
* 30/02/2001
*
* o query_format(): with DGA 2.0 it returns all depths it supports
* (even 16 when running 32 and vice versa)
* Checks for (hopefully!) compatible RGBmasks in 15/16 bit modes
* o added some more criterions for resolution switching
* o cleanup
* o with DGA2.0 present, ONLY DGA2.0 functions are used
* o for 15/16 modes ONLY RGB 555 is supported, since the divx-codec
* happens to map the data this way. If your graphics card supports
* this, you're well off and may use these modes; for mpeg
* movies things could be different, but I was too lazy to implement
* it ...
* o you may define VO_DGA_FORCE_DEPTH to the depth you desire
* if you don't like the choice the driver makes
* Beware: unless you can use DGA2.0 this has to be your X Servers
* depth!!!
* o Added double buffering :-))
* o included VidMode switching support for DGA1.0, written by Michael Graffam
* mgraffam@idsi.net
*
*/
//#define VO_DGA_DBG 1
//#undef HAVE_DGA2
//#undef HAVE_XF86VM
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "config.h"
#include "video_out.h"
#include "video_out_internal.h"
#include "yuv2rgb.h"
LIBVO_EXTERN( dga )
#include <X11/Xlib.h>
#include <X11/extensions/xf86dga.h>
#ifdef HAVE_XF86VM
#include <X11/extensions/xf86vmode.h>
#endif
#include "x11_common.h"
#include "fastmemcpy.h"
extern void rgb15to16_mmx(char* s0,char* d0,int count);
static vo_info_t vo_info =
{
#ifdef HAVE_DGA2
"DGA ( Direct Graphic Access V2.0 )",
#else
"DGA ( Direct Graphic Access V1.0+XF86VidModeExtension )",
#endif
"dga",
"Andreas Ackermann <acki@acki-netz.de>",
""
};
//------------------------------------------------------------------
//#define BITSPP (vo_dga_modes[vo_dga_active_mode].vdm_bitspp)
//#define BYTESPP (vo_dga_modes[vo_dga_active_mode].vdm_bytespp)
#define HW_MODE (vo_dga_modes[vo_dga_hw_mode])
#define SRC_MODE (vo_dga_modes[vo_dga_src_mode])
struct vd_modes {
int vdm_mplayer_depth;
int vdm_supported;
int vdm_depth;
int vdm_bitspp;
int vdm_bytespp;
int vdm_rmask;
int vdm_gmask;
int vdm_bmask;
int vdm_hw_mode;
int vdm_conversion_func;
};
//------------------------------------------------------------------
#define VDM_CONV_NATIVE 0
#define VDM_CONV_15TO16 1
#define VDM_CONV_24TO32 2
static struct vd_modes vo_dga_modes[] = {
// these entries describe HW modes
// however, we use the same entries to tell mplayer what we support
// so the last two values describe, which HW mode to use and which conversion
// function to use for a mode that is not supported by HW
{ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0},
{ 15, 0, 15, 16, 2, 0x7c00, 0x03e0, 0x001f, 2, VDM_CONV_15TO16 },
{ 16, 0, 16, 16, 2, 0xf800, 0x07e0, 0x001f, 2, VDM_CONV_NATIVE },
{ 24, 0, 24, 24, 3, 0xff0000, 0x00ff00, 0x0000ff, 4, VDM_CONV_24TO32},
{ 32, 0, 24, 32, 4, 0x00ff0000, 0x0000ff00, 0x000000ff, 4, VDM_CONV_NATIVE}
};
static int vo_dga_mode_num = sizeof(vo_dga_modes)/sizeof(struct vd_modes);
// enable a HW mode (by description)
int vd_EnableMode( int depth, int bitspp,
int rmask, int gmask, int bmask){
int i;
for(i=1; i<vo_dga_mode_num; i++){
if(vo_dga_modes[i].vdm_depth == depth &&
vo_dga_modes[i].vdm_bitspp == bitspp &&
vo_dga_modes[i].vdm_rmask == rmask &&
vo_dga_modes[i].vdm_gmask == gmask &&
vo_dga_modes[i].vdm_bmask == bmask){
vo_dga_modes[i].vdm_supported = 1;
vo_dga_modes[i].vdm_hw_mode = i;
vo_dga_modes[i].vdm_conversion_func = VDM_CONV_NATIVE;
return i;
}
}
return 0;
}
int vd_ModeEqual(int depth, int bitspp,
int rmask, int gmask, int bmask, int index){
return (
(vo_dga_modes[index].vdm_depth == depth &&
vo_dga_modes[index].vdm_bitspp == bitspp &&
vo_dga_modes[index].vdm_rmask == rmask &&
vo_dga_modes[index].vdm_gmask == gmask &&
vo_dga_modes[index].vdm_bmask == bmask)
? 1 : 0);
}
// enable a HW mode (mplayer_depth decides which)
int vd_ValidateMode( int mplayer_depth){
int i;
if(mplayer_depth == 0)return 0;
for(i=1; i<vo_dga_mode_num; i++){
if(vo_dga_modes[i].vdm_mplayer_depth == mplayer_depth ){
vo_dga_modes[i].vdm_supported = 1;
vo_dga_modes[i].vdm_hw_mode = i;
vo_dga_modes[i].vdm_conversion_func = VDM_CONV_NATIVE;
return i;
}
}
return 0;
}
// do we support this mode? (not important whether native or conversion)
int vd_ModeValid( int mplayer_depth){
int i;
if(mplayer_depth == 0)return 0;
for(i=1; i<vo_dga_mode_num; i++){
if(vo_dga_modes[i].vdm_mplayer_depth == mplayer_depth &&
vo_dga_modes[i].vdm_supported != 0){
return i;
}
}
return 0;
}
char *vd_GetModeString(int index){
#define VO_DGA_MAX_STRING_LEN 100
static char stringbuf[VO_DGA_MAX_STRING_LEN];
stringbuf[VO_DGA_MAX_STRING_LEN-1]=0;
snprintf(stringbuf, VO_DGA_MAX_STRING_LEN-2,
"depth=%d, bpp=%d, r=%06x, g=%06x, b=%06x, %s (-bpp %d)",
vo_dga_modes[index].vdm_depth,
vo_dga_modes[index].vdm_bitspp,
vo_dga_modes[index].vdm_rmask,
vo_dga_modes[index].vdm_gmask,
vo_dga_modes[index].vdm_bmask,
vo_dga_modes[index].vdm_supported ?
(vo_dga_modes[index].vdm_conversion_func == VDM_CONV_NATIVE ?
"native (fast), " : "conversion (slow),") :
"not supported :-( ",
vo_dga_modes[index].vdm_mplayer_depth);
return stringbuf;
}
//-----------------------------------------------------------------
#ifdef HAVE_XF86VM
static XF86VidModeModeInfo **vo_dga_vidmodes=NULL;
#endif
extern int verbose;
extern int vo_dbpp;
static int vo_dga_src_format;
static int vo_dga_width; // bytes per line in framebuffer
static int vo_dga_vp_width; // visible pixels per line in
// framebuffer
static int vo_dga_vp_height; // visible lines in framebuffer
static int vo_dga_is_running = 0;
static int vo_dga_src_width; // width of video in pixels
static int vo_dga_src_height; // height of video in pixels
static int vo_dga_src_offset=0; // offset in src
static int vo_dga_vp_offset=0; // offset in dest
static int vo_dga_bytes_per_line; // bytes per line to copy
static int vo_dga_src_skip; // bytes to skip after copying one
// line
// (not supported yet) in src
static int vo_dga_vp_skip; // dto. for dest
static int vo_dga_lines; // num of lines to copy
static int vo_dga_hw_mode = 0; // index in mode list that is actually
// used by framebuffer
static int vo_dga_src_mode = 0; // index in mode list that is used by
// codec
static int vo_dga_XServer_mode = 0;// index in mode list for resolution
// XServer is running
static int vo_dga_dbf_mem_offset; // offset in bytes for alternative
// framebuffer (0 if dbf is not
// possible)
static int vo_dga_dbf_y_offset; // y offset (in scanlines)
static int
vo_dga_dbf_current; // current buffer (0 or 1)
static unsigned char *vo_dga_base;
static Display *vo_dga_dpy;
//---------------------------------------------------------
#define VD_INFO 0
#define VD_ERR 0
#define VD_DBG 2
#define VD_RES 1
void vd_printf( int level, const char *str, ...){
#ifndef VO_DGA_DBG
// show resolution and DBG-messages only in verbose mode ...
if( !verbose && level)return;
#endif
vprintf( str, (&str)+1 );
}
//---------------------------------------------------------
static void draw_alpha( int x0,int y0, int w,int h, unsigned char* src, unsigned char *srca, int stride ){
char *d;
unsigned int offset;
unsigned int buffer_stride;
offset = vo_dga_width * y0 +x0;
buffer_stride = vo_dga_width;
d = (&((char *)vo_dga_base)[vo_dga_vp_offset + vo_dga_dbf_current * vo_dga_dbf_mem_offset]);
switch( HW_MODE.vdm_mplayer_depth ){
case 32:
vo_draw_alpha_rgb32(w,h,src,srca,stride, d+4*offset , 4*buffer_stride);
break;
case 24:
vo_draw_alpha_rgb24(w,h,src,srca,stride, d+3*offset , 3*buffer_stride);
break;
case 15:
vo_draw_alpha_rgb15(w,h,src,srca,stride, d+2*offset , 2*buffer_stride);
break;
case 16:
vo_draw_alpha_rgb16(w,h,src,srca,stride, d+2*offset , 2*buffer_stride);
break;
}
}
//---------------------------------------------------------
// I had tried to work with mmx/3dnow copy code but
// there was not much speed gain and I didn't know
// how to save the FPU/mmx registers - so the copy
// code interferred with sound output ...
// removed the leftovers
// acki2 on 30/3/2001
#define rep_movsl(dest, src, numwords, d_add, count) \
__asm__ __volatile__( \
" \
1: \n\t\
movl %%edx, %%ecx \n\t \
cld\n\t \
rep\n\t \
movsl \n\t\
add %%eax, %%edi \n\t\
dec %%ebx \n\t\
jnz 1b \n\t\
" \
: \
: "a" (d_add), "b" (count), "S" (src), "D" (dest), \
"d" (numwords) \
: "memory" )
// quick & dirty - for debugging only
void fillblock(char *strt, int yoff, int lines, int val){
char *i;
for(i = strt + yoff * vo_dga_width *HW_MODE.vdm_bytespp;
i< strt + (lines+yoff) * vo_dga_width *HW_MODE.vdm_bytespp; ){
*i++ = val;
}
}
//---------------------------------------------------------
static uint32_t draw_frame( uint8_t *src[] ){
int vp_skip = vo_dga_vp_skip;
int lpl = vo_dga_bytes_per_line >> 2;
int numlines = vo_dga_lines;
char *s, *d;
s = *src;
d = (&((char *)vo_dga_base)[vo_dga_vp_offset + vo_dga_dbf_current * vo_dga_dbf_mem_offset]);
switch(SRC_MODE.vdm_conversion_func){
case VDM_CONV_NATIVE:
#ifdef HAVE_MMX
// use the code from fastmemcpy.h
if(vo_dga_vp_skip){
// use some stride ...
int i;
for(i=0; i< vo_dga_lines; i++){
memcpy(d, s, vo_dga_bytes_per_line);
d+=vo_dga_vp_skip;
d+=vo_dga_bytes_per_line;
s+=vo_dga_bytes_per_line;
}
}else{
// no stride, cool + fast ...
memcpy(d,s, vo_dga_bytes_per_line * vo_dga_lines);
}
#else
// use some homebrewn assembly code ...
rep_movsl(d, s, lpl, vo_dga_vp_skip, numlines );
#endif
// DBG-COde
#if 0
d = (&((char *)vo_dga_base)[vo_dga_vp_offset + vo_dga_dbf_current * vo_dga_dbf_mem_offset]);
fillblock(d, 0, 10, 0x800000ff);
fillblock(d, 10, 10, 0x8000ff00);
fillblock(d, 20, 10, 0x80ff0000);
fillblock(d, 30, 10, 0xff0000ff);
fillblock(d, 40, 10, 0x800000ff);
fillblock(d, 50, 10, 0x0f0000ff);
#endif
break;
case VDM_CONV_15TO16:
{
int i;
char *e;
for(i=0; i< vo_dga_lines; i++){
#ifdef HAVE_MMX
rgb15to16_mmx( s, d, vo_dga_bytes_per_line);
d+=vo_dga_bytes_per_line;
s+=vo_dga_bytes_per_line;
#else
e = s+vo_dga_bytes_per_line;
while( s< e ){
register uint16_t x = *(((uint16_t *)s)++);
*(((uint16_t *)d)++)=( x&0x001F )|( ( x&0x7FE0 )<<1 );
}
#endif
d+= vo_dga_vp_skip;
}
}
break;
case VDM_CONV_24TO32:
{
int i,k,l,m;
for(i = 0; i< vo_dga_lines; i++ ){
for(k = 0; k< vo_dga_src_width; k+=2 ){
l = *(((uint32_t *)s)++);
m = (l & 0xff000000)>> 24 ;
*(((uint32_t *)d)++) = (l & 0x00ffffff); // | 0x80000000;
m |= *(((uint16_t *)s)++) << 8;
*(((uint32_t *)d)++) = m; // | 0x80000000 ;
}
d+= vp_skip;
}
}
//printf("vo_dga: 24 to 32 not implemented yet!!!\n");
break;
}
return 0;
}
//---------------------------------------------------------
static void check_events(void)
{
int e=vo_x11_check_events(vo_dga_dpy);
}
//---------------------------------------------------------
#include "sub.h"
static void flip_page( void ){
vo_draw_text(vo_dga_src_width,vo_dga_src_height,draw_alpha);
if(vo_dga_dbf_mem_offset != 0){
#ifdef HAVE_DGA2
XDGASetViewport (vo_dga_dpy, XDefaultScreen(vo_dga_dpy),
0, vo_dga_dbf_current * vo_dga_dbf_y_offset,
XDGAFlipRetrace);
#else
XF86DGASetViewPort (vo_dga_dpy, XDefaultScreen(vo_dga_dpy),
0, vo_dga_dbf_current * vo_dga_dbf_y_offset);
#endif
vo_dga_dbf_current = 1 - vo_dga_dbf_current;
}
check_events();
}
//---------------------------------------------------------
static uint32_t draw_slice( uint8_t *src[],int stride[],
int w,int h,int x,int y )
{
yuv2rgb( vo_dga_base + vo_dga_dbf_current * vo_dga_dbf_mem_offset + vo_dga_vp_offset +
(vo_dga_width * y +x) * HW_MODE.vdm_bytespp,
src[0], src[1], src[2],
w,h, vo_dga_width * HW_MODE.vdm_bytespp,
stride[0],stride[1] );
return 0;
};
//---------------------------------------------------------
static void Terminate_Display_Process( void ){
vd_printf(VD_DBG, "vo_dga: Terminating display process\n");
}
//---------------------------------------------------------
static const vo_info_t* get_info( void )
{ return &vo_info; }
//---------------------------------------------------------
static uint32_t query_format( uint32_t format )
{
#ifdef HAVE_DGA2
XDGAMode *modelines;
int modecount;
#endif
Display *qdisp;
int i;
static int dga_depths_init = 0;
if(dga_depths_init == 0){
if((qdisp = XOpenDisplay(0))==NULL){
vd_printf(VD_ERR, "vo_dga: Can't open display!\n");
return 0;
}
if( !vo_init() ){
vd_printf(VD_ERR, "vo_dga: vo_init() failed!\n");
return 1;
}
vo_dga_XServer_mode = vd_ValidateMode(vo_depthonscreen);
if(vo_dga_XServer_mode ==0){
#ifndef HAVE_DGA2
vd_printf(VD_ERR, "vo_dga: Your X-Server is not running in a ");
vd_printf(VD_ERR, "resolution supported by DGA driver!\n");
#endif
}//else{
// vd_printf(VD_INFO, "vo_dga: X running at: %s\n",
// vd_GetModeString(vo_dga_XServer_mode));
//}
#ifdef HAVE_DGA2
modelines=XDGAQueryModes(qdisp, XDefaultScreen(qdisp),&modecount);
if(modelines){
for(i=0; i< modecount; i++){
vd_printf(VD_DBG, "vo_dga: (%03d) depth=%d, bpp=%d, r=%08x, g=%08x, b=%08x, %d x %d\n",
i,
modelines[i].depth,
modelines[i].bitsPerPixel,
modelines[i].redMask,
modelines[i].greenMask,
modelines[i].blueMask,
modelines[i].viewportWidth,
modelines[i].viewportHeight);
vd_EnableMode(
modelines[i].depth,
modelines[i].bitsPerPixel,
modelines[i].redMask,
modelines[i].greenMask,
modelines[i].blueMask);
}
XFree(modelines);
}
#endif
dga_depths_init = 1;
XCloseDisplay(qdisp);
if( !vo_dga_modes[1].vdm_supported && vo_dga_modes[2].vdm_supported ){
vo_dga_modes[1].vdm_supported = 1;
}
if( !vo_dga_modes[3].vdm_supported && vo_dga_modes[4].vdm_supported ){
vo_dga_modes[3].vdm_supported = 1;
}
for(i=1; i<vo_dga_mode_num; i++){
vd_printf(VD_INFO, "vo_dga: Mode: %s", vd_GetModeString(i));
if(vo_dbpp && vo_dbpp != vo_dga_modes[i].vdm_mplayer_depth){
vo_dga_modes[i].vdm_supported = 0;
vd_printf(VD_INFO, " ...disabled by -bpp %d", vo_dbpp );
}
vd_printf(VD_INFO, "\n");
}
}
// TODO: respect bit for native/not native
if( format==IMGFMT_YV12 ) return 7;
if( (format&IMGFMT_BGR_MASK) == IMGFMT_BGR &&
vd_ModeValid(format&0xff)) return 7;
return 0;
}
//---------------------------------------------------------
static void
uninit(void)
{
#ifdef HAVE_DGA2
XDGADevice *dgadevice;
#endif
if(vo_dga_is_running){
vo_dga_is_running = 0;
vd_printf( VD_DBG, "vo_dga: in uninit\n");
XUngrabPointer (vo_dga_dpy, CurrentTime);
XUngrabKeyboard (vo_dga_dpy, CurrentTime);
#ifdef HAVE_DGA2
XDGACloseFramebuffer(vo_dga_dpy, XDefaultScreen(vo_dga_dpy));
dgadevice = XDGASetMode(vo_dga_dpy, XDefaultScreen(vo_dga_dpy), 0);
if(dgadevice != NULL){
XFree(dgadevice);
}
#else
XF86DGADirectVideo (vo_dga_dpy, XDefaultScreen(vo_dga_dpy), 0);
// first disable DirectVideo and then switch mode back!
#ifdef HAVE_XF86VM
if (vo_dga_vidmodes != NULL ){
int screen; screen=XDefaultScreen( vo_dga_dpy );
vd_printf(VD_DBG, "vo_dga: VidModeExt: Switching back..\n");
// seems some graphics adaptors need this more than once ...
XF86VidModeSwitchToMode(vo_dga_dpy,screen,vo_dga_vidmodes[0]);
XF86VidModeSwitchToMode(vo_dga_dpy,screen,vo_dga_vidmodes[0]);
XF86VidModeSwitchToMode(vo_dga_dpy,screen,vo_dga_vidmodes[0]);
XF86VidModeSwitchToMode(vo_dga_dpy,screen,vo_dga_vidmodes[0]);
XFree(vo_dga_vidmodes);
}
#endif
#endif
XCloseDisplay(vo_dga_dpy);
}
}
//----------------------------------------------------------
// TODO: check for larger maxy value
// (useful for double buffering!!!)
int check_res( int num, int x, int y, int bpp,
int new_x, int new_y, int new_vbi, int new_maxy,
int *old_x, int *old_y, int *old_vbi, int *old_maxy){
vd_printf(VD_RES, "vo_dga: (%3d) Trying %4d x %4d @ %3d Hz @ depth %2d ..",
num, new_x, new_y, new_vbi, bpp );
vd_printf(VD_RES, "(old: %dx%d@%d).", *old_x, *old_y, *old_vbi);
if (
(new_x >= x) &&
(new_y >= y) &&
(
// prefer a better resolution either in X or in Y
// as long as the other dimension is at least the same
//
// hmm ... MAYBE it would be more clever to focus on the
// x-resolution; I had 712x400 and 640x480 and the movie
// was 640x360; 640x480 would be the 'right thing' here
// but since 712x400 was queried first I got this one.
// I think there should be a cmd-line switch to let the
// user choose the mode he likes ... (acki2)
(
((new_x < *old_x) &&
!(new_y > *old_y)) ||
((new_y < *old_y) &&
!(new_x > *old_x))
)
// but if we get an identical resolution choose
// the one with the lower refreshrate (saves bandwidth !!!)
// as long as it's above 50 Hz (acki2 on 30/3/2001)
||
(
(new_x == *old_x) &&
(new_y == *old_y) &&
(
(
new_vbi >= *old_vbi && *old_vbi < 50
)
||
(
*old_vbi >= 50 &&
new_vbi < *old_vbi &&
new_vbi >= 50
)
)
||
// if everything is equal, then use the mode with the lower
// stride
(
(new_x == *old_x) &&
(new_y == *old_y) &&
(new_vbi == *old_vbi) &&
(new_maxy > *old_maxy)
)
)
)
)
{
*old_x = new_x;
*old_y = new_y;
*old_maxy = new_maxy;
*old_vbi = new_vbi;
vd_printf(VD_RES, ".ok!!\n");
return 1;
}else{
vd_printf(VD_RES, ".no\n");
return 0;
}
}
//---------------------------------------------------------
static uint32_t init( uint32_t width, uint32_t height,
uint32_t d_width,uint32_t d_height,
uint32_t fullscreen,char *title,uint32_t format )
{
int x_off, y_off;
int wanted_width, wanted_height;
#ifdef HAVE_DGA2
// needed to change DGA video mode
int modecount, mX=100000, mY=100000 , mVBI=100000, mMaxY=0, i,j=0;
int dga_modenum;
XDGAMode *modelines=NULL;
XDGADevice *dgadevice;
int max_vpy_pos;
#else
#ifdef HAVE_XF86VM
unsigned int vm_event, vm_error;
unsigned int vm_ver, vm_rev;
int i, j=0, have_vm=0;
int modecount, mX=100000, mY=100000, mVBI=100000, mMaxY=0, dga_modenum;
#endif
int bank, ram;
#endif
if( vo_dga_is_running )return -1;
vo_dga_src_format = format;
wanted_width = d_width;
wanted_height = d_height;
if(!wanted_height) wanted_height = height;
if(!wanted_width) wanted_width = width;
if( !vo_init() ){
vd_printf(VD_ERR, "vo_dga: vo_init() failed!\n");
return 1;
}
if( !vo_dbpp ){
if (format == IMGFMT_YV12){
vo_dga_src_mode = vo_dga_XServer_mode;
}else if((format & IMGFMT_BGR_MASK) == IMGFMT_BGR){
vo_dga_src_mode = vd_ModeValid( format & 0xff );
}
}else{
vo_dga_src_mode = vd_ModeValid(vo_dbpp);
}
vo_dga_hw_mode = SRC_MODE.vdm_hw_mode;
if( format == IMGFMT_YV12 && vo_dga_src_mode != vo_dga_hw_mode ){
vd_printf(VD_ERR,
"vo_dga: YV12 supports native modes only. Using %d instead of selected %d.\n",
HW_MODE.vdm_mplayer_depth,
SRC_MODE.vdm_mplayer_depth );
vo_dga_src_mode = vo_dga_hw_mode;
}
if(!vo_dga_src_mode){
vd_printf(VD_ERR, "vo_dga: unsupported video format!\n");
return 1;
}
if((vo_dga_dpy = XOpenDisplay(0))==NULL){
vd_printf (VD_ERR, "vo_dga: Can't open display\n");
return 1;
}
vo_dga_vp_width = DisplayWidth( vo_dga_dpy, DefaultScreen(vo_dga_dpy));
vo_dga_vp_height = DisplayHeight( vo_dga_dpy, DefaultScreen(vo_dga_dpy));
vd_printf(VD_DBG, "vo_dga: XServer res: %dx%d\n",
vo_dga_vp_width, vo_dga_vp_height);
// choose a suitable mode ...
#ifdef HAVE_DGA2
// Code to change the video mode added by Michael Graffam
// mgraffam@idsi.net
if (modelines==NULL)
modelines=XDGAQueryModes(vo_dga_dpy, XDefaultScreen(vo_dga_dpy),&modecount);
vd_printf(VD_INFO,
"vo_dga: DGA 2.0 available :-) Can switch resolution AND depth!\n");
for (i=0; i<modecount; i++)
{
if(vd_ModeEqual( modelines[i].depth,
modelines[i].bitsPerPixel,
modelines[i].redMask,
modelines[i].greenMask,
modelines[i].blueMask,
vo_dga_hw_mode)){
vd_printf(VD_DBG, "maxy: %4d, depth: %2d, %4dx%4d, ",
modelines[i].maxViewportY, modelines[i].depth,
modelines[i].imageWidth, modelines[i].imageHeight );
if ( check_res(i, wanted_width, wanted_height, modelines[i].depth,
modelines[i].viewportWidth,
modelines[i].viewportHeight,
(unsigned) modelines[i].verticalRefresh,
modelines[i].maxViewportY,
&mX, &mY, &mVBI, &mMaxY )) j = i;
}
}
vd_printf(VD_INFO,
"vo_dga: Selected hardware mode %4d x %4d @ %3d Hz @ depth %2d, bitspp %2d.\n",
mX, mY, mVBI,
HW_MODE.vdm_depth,
HW_MODE.vdm_bitspp);
vd_printf(VD_INFO,
"vo_dga: Video parameters by codec: %3d x %3d, depth %2d, bitspp %2d.\n",
width, height,
SRC_MODE.vdm_depth,
SRC_MODE.vdm_bitspp);
vo_dga_vp_width =mX;
vo_dga_vp_height = mY;
vo_dga_width = modelines[j].bytesPerScanline / HW_MODE.vdm_bytespp ;
dga_modenum = modelines[j].num;
max_vpy_pos = modelines[j].maxViewportY;
XFree(modelines);
modelines = NULL;
#else
#ifdef HAVE_XF86VM
vd_printf( VD_INFO,
"vo_dga: DGA 1.0 compatibility code: Using XF86VidMode for mode switching!\n");
if (XF86VidModeQueryExtension(vo_dga_dpy, &vm_event, &vm_error)) {
XF86VidModeQueryVersion(vo_dga_dpy, &vm_ver, &vm_rev);
vd_printf(VD_INFO, "vo_dga: XF86VidMode Extension v%i.%i\n", vm_ver, vm_rev);
have_vm=1;
} else {
vd_printf(VD_ERR, "vo_dga: XF86VidMode Extension not available.\n");
}
#define GET_VREFRESH(dotclk, x, y)( (((dotclk)/(x))*1000)/(y) )
if (have_vm) {
int screen;
screen=XDefaultScreen(vo_dga_dpy);
XF86VidModeGetAllModeLines(vo_dga_dpy,screen,&modecount,&vo_dga_vidmodes);
if(vo_dga_vidmodes != NULL ){
for (i=0; i<modecount; i++){
if ( check_res(i, wanted_width, wanted_height,
vo_dga_modes[vo_dga_hw_mode].vdm_depth,
vo_dga_vidmodes[i]->hdisplay,
vo_dga_vidmodes[i]->vdisplay,
GET_VREFRESH(vo_dga_vidmodes[i]->dotclock,
vo_dga_vidmodes[i]->htotal,
vo_dga_vidmodes[i]->vtotal),
0,
&mX, &mY, &mVBI, &mMaxY )) j = i;
}
vd_printf(VD_INFO,
"vo_dga: Selected video mode %4d x %4d @ %3d Hz @ depth %2d, bitspp %2d, video %3d x %3d.\n",
mX, mY, mVBI,
vo_dga_modes[vo_dga_hw_mode].vdm_depth,
vo_dga_modes[vo_dga_hw_mode].vdm_bitspp,
width, height);
}else{
vd_printf(VD_INFO, "vo_dga: XF86VidMode returned no screens - using current resolution.\n");
}
dga_modenum = j;
vo_dga_vp_width = mX;
vo_dga_vp_height = mY;
}
#else
vd_printf( VD_INFO, "vo_dga: Only have DGA 1.0 extension and no XF86VidMode :-(\n");
vd_printf( VD_INFO, " Thus, resolution switching is NOT possible.\n");
#endif
#endif
vo_dga_src_width = width;
vo_dga_src_height = height;
if(vo_dga_src_width > vo_dga_vp_width ||
vo_dga_src_height > vo_dga_vp_height)
{
vd_printf( VD_ERR, "vo_dga: Sorry, video larger than viewport is not yet supported!\n");
// ugly, do something nicer in the future ...
#ifndef HAVE_DGA2
#ifdef HAVE_XF86VM
if(vo_dga_vidmodes){
XFree(vo_dga_vidmodes);
vo_dga_vidmodes = NULL;
}
#endif
#endif
return 1;
}
// now lets start the DGA thing
#ifdef HAVE_DGA2
if (!XDGAOpenFramebuffer(vo_dga_dpy, XDefaultScreen(vo_dga_dpy))){
vd_printf(VD_ERR, "vo_dga: Framebuffer mapping failed!!!\n");
XCloseDisplay(vo_dga_dpy);
return 1;
}
dgadevice=XDGASetMode(vo_dga_dpy, XDefaultScreen(vo_dga_dpy), dga_modenum);
XDGASync(vo_dga_dpy, XDefaultScreen(vo_dga_dpy));
vo_dga_base = dgadevice->data;
XFree(dgadevice);
XDGASetViewport (vo_dga_dpy, XDefaultScreen(vo_dga_dpy), 0, 0, XDGAFlipRetrace);
#else
#ifdef HAVE_XF86VM
XF86VidModeLockModeSwitch(vo_dga_dpy,XDefaultScreen(vo_dga_dpy),0);
// Two calls are needed to switch modes on my ATI Rage 128. Why?
// for riva128 one call is enough!
XF86VidModeSwitchToMode(vo_dga_dpy,XDefaultScreen(vo_dga_dpy),vo_dga_vidmodes[dga_modenum]);
XF86VidModeSwitchToMode(vo_dga_dpy,XDefaultScreen(vo_dga_dpy),vo_dga_vidmodes[dga_modenum]);
#endif
XF86DGAGetViewPortSize(vo_dga_dpy,XDefaultScreen(vo_dga_dpy),
&vo_dga_vp_width,
&vo_dga_vp_height);
XF86DGAGetVideo (vo_dga_dpy, XDefaultScreen(vo_dga_dpy),
(char **)&vo_dga_base, &vo_dga_width, &bank, &ram);
XF86DGADirectVideo (vo_dga_dpy, XDefaultScreen(vo_dga_dpy),
XF86DGADirectGraphics | XF86DGADirectMouse |
XF86DGADirectKeyb);
XF86DGASetViewPort (vo_dga_dpy, XDefaultScreen(vo_dga_dpy), 0, 0);
#endif
// do some more checkings here ...
if( format==IMGFMT_YV12 ){
yuv2rgb_init( vo_dga_modes[vo_dga_hw_mode].vdm_mplayer_depth , MODE_RGB );
vd_printf( VD_DBG, "vo_dga: Using mplayer depth %d for YV12\n",
vo_dga_modes[vo_dga_hw_mode].vdm_mplayer_depth);
}
vd_printf(VD_DBG, "vo_dga: bytes/line: %d, screen res: %dx%d, depth: %d, base: %08x, bpp: %d\n",
vo_dga_width, vo_dga_vp_width,
vo_dga_vp_height, HW_MODE.vdm_bytespp, vo_dga_base,
HW_MODE.vdm_bitspp);
x_off = (vo_dga_vp_width - vo_dga_src_width)>>1;
y_off = (vo_dga_vp_height - vo_dga_src_height)>>1;
vo_dga_bytes_per_line = vo_dga_src_width * HW_MODE.vdm_bytespp;
vo_dga_lines = vo_dga_src_height;
vo_dga_src_offset = 0;
vo_dga_vp_offset = (y_off * vo_dga_width + x_off ) * HW_MODE.vdm_bytespp;
vo_dga_vp_skip = (vo_dga_width - vo_dga_src_width) * HW_MODE.vdm_bytespp; // todo
vd_printf(VD_DBG, "vo_dga: vp_off=%d, vp_skip=%d, bpl=%d\n",
vo_dga_vp_offset, vo_dga_vp_skip, vo_dga_bytes_per_line);
XGrabKeyboard (vo_dga_dpy, DefaultRootWindow(vo_dga_dpy), True,
GrabModeAsync,GrabModeAsync, CurrentTime);
XGrabPointer (vo_dga_dpy, DefaultRootWindow(vo_dga_dpy), True,
ButtonPressMask,GrabModeAsync, GrabModeAsync,
None, None, CurrentTime);
// TODO: chekc if mem of graphics adaptor is large enough for dbf
// set up variables for double buffering ...
// note: set vo_dga_dbf_mem_offset to NULL to disable doublebuffering
vo_dga_dbf_y_offset = y_off + vo_dga_src_height;
vo_dga_dbf_mem_offset = vo_dga_width * HW_MODE.vdm_bytespp * vo_dga_dbf_y_offset;
vo_dga_dbf_current = 0;
// if(format ==IMGFMT_YV12 )
//vo_dga_dbf_mem_offset = 0;
// disable doublebuffering for YV12
#ifdef HAVE_DGA2
if(vo_dga_vp_height>max_vpy_pos){
vo_dga_dbf_mem_offset = 0;
vd_printf(VD_INFO, "vo_dga: Not enough memory for double buffering!\n");
}
#endif
// now clear screen
{
int size = vo_dga_width *
(vo_dga_vp_height + (vo_dga_dbf_mem_offset != 0 ?
(vo_dga_src_height+y_off) : 0)) *
HW_MODE.vdm_bytespp;
#ifndef HAVE_DGA2
vd_printf(VD_DBG, "vo_dga: wanted size=%d, fb-size=%d\n", size, ram);
if(size>ram*1024){
vo_dga_dbf_mem_offset = 0;
vd_printf(VD_INFO, "vo_dga: Not enough memory for double buffering!\n");
size -= (vo_dga_src_height+y_off) * vo_dga_width * HW_MODE.vdm_bytespp;
}
#endif
vd_printf(VD_INFO, "vo_dga: Clearing framebuffer (%d bytes). If mplayer exits", size);
vd_printf(VD_INFO, " here, you haven't enough memory on your card.\n");
fflush(stdout);
memset(vo_dga_base, 0, size);
}
vd_printf(VD_INFO, "vo_dga: Doublebuffering is %s.\n", vo_dga_dbf_mem_offset ? "enabled" : "disabled");
vo_dga_is_running = 1;
return 0;
}
//---------------------------------------------------------
// deleted the old vo_dga_query_event() routine 'cause it is obsolete
// since using check_events()
// acki2 on 30/3/2001