static int
bgr_deliver(const frame_info_t *fi, glw_video_t *gv, glw_video_engine_t *gve)
{
glw_video_surface_t *s;
int64_t pts = fi->fi_pts;
int wvec[3] = {0};
int hvec[3] = {0};
wvec[0] = fi->fi_width;
hvec[0] = fi->fi_height;
glw_video_configure(gv, gve);
if((s = glw_video_get_surface(gv, wvec, hvec)) == NULL)
return -1;
int linesize = LINESIZE(fi->fi_width, 3);
const uint8_t *src = fi->fi_data[0];
uint8_t *dst = s->gvs_data[0];
for(int y = 0; y < fi->fi_height; y++) {
memcpy(dst, src, linesize);
src += fi->fi_pitch[0];
dst += linesize;
}
glw_video_put_surface(gv, s, pts, fi->fi_epoch, fi->fi_duration, 0, 0);
return 0;
}
static int
rsx_deliver(const frame_info_t *fi, glw_video_t *gv, glw_video_engine_t *gve)
{
int hvec[3], wvec[3];
int i;
int hshift = 1, vshift = 1;
glw_video_surface_t *gvs;
wvec[0] = fi->fi_width;
wvec[1] = fi->fi_width >> hshift;
wvec[2] = fi->fi_width >> hshift;
hvec[0] = fi->fi_height >> fi->fi_interlaced;
hvec[1] = fi->fi_height >> (vshift + fi->fi_interlaced);
hvec[2] = fi->fi_height >> (vshift + fi->fi_interlaced);
glw_video_configure(gv, gve);
gv_color_matrix_set(gv, fi);
if((gvs = glw_video_get_surface(gv, NULL, NULL)) == NULL)
return -1;
surface_reset(gv, gvs);
gvs->gvs_offset = fi->fi_pitch[0];
gvs->gvs_size = fi->fi_pitch[1];
gvs->gvs_width[0] = fi->fi_width;
gvs->gvs_height[0] = fi->fi_height;
int offset = gvs->gvs_offset;
if(fi->fi_interlaced) {
// Interlaced
for(i = 0; i < 3; i++) {
int w = wvec[i];
int h = hvec[i];
init_tex(&gvs->gvs_tex[i],
offset + !fi->fi_tff * wvec[i],
w, h, w*2,
NV30_3D_TEX_FORMAT_FORMAT_I8, 0,
NV30_3D_TEX_SWIZZLE_S0_X_S1 | NV30_3D_TEX_SWIZZLE_S0_Y_S1 |
NV30_3D_TEX_SWIZZLE_S0_Z_S1 | NV30_3D_TEX_SWIZZLE_S0_W_S1 |
NV30_3D_TEX_SWIZZLE_S1_X_X | NV30_3D_TEX_SWIZZLE_S1_Y_Y |
NV30_3D_TEX_SWIZZLE_S1_Z_Z | NV30_3D_TEX_SWIZZLE_S1_W_W
);
offset += w * (fi->fi_height >> (i ? vshift : 0));
}
glw_video_put_surface(gv, gvs, fi->fi_pts, fi->fi_epoch,
fi->fi_duration/2, 1, !fi->fi_tff);
if((gvs = glw_video_get_surface(gv, NULL, NULL)) == NULL)
return -1;
surface_reset(gv, gvs);
gvs->gvs_offset = fi->fi_pitch[0];
gvs->gvs_size = fi->fi_pitch[1];
gvs->gvs_width[0] = fi->fi_width;
gvs->gvs_height[0] = fi->fi_height;
offset = gvs->gvs_offset;
for(i = 0; i < 3; i++) {
int w = wvec[i];
int h = hvec[i];
init_tex(&gvs->gvs_tex[i],
offset + !!fi->fi_tff * wvec[i],
w, h, w*2,
NV30_3D_TEX_FORMAT_FORMAT_I8, 0,
NV30_3D_TEX_SWIZZLE_S0_X_S1 | NV30_3D_TEX_SWIZZLE_S0_Y_S1 |
NV30_3D_TEX_SWIZZLE_S0_Z_S1 | NV30_3D_TEX_SWIZZLE_S0_W_S1 |
NV30_3D_TEX_SWIZZLE_S1_X_X | NV30_3D_TEX_SWIZZLE_S1_Y_Y |
NV30_3D_TEX_SWIZZLE_S1_Z_Z | NV30_3D_TEX_SWIZZLE_S1_W_W
);
offset += w * (fi->fi_height >> (i ? vshift : 0));
}
glw_video_put_surface(gv, gvs, fi->fi_pts + fi->fi_duration, fi->fi_epoch,
fi->fi_duration/2, 1, fi->fi_tff);
} else {
// Progressive
for(i = 0; i < 3; i++) {
static int
yuvp_deliver(const frame_info_t *fi, glw_video_t *gv, glw_video_engine_t *gve)
{
int hvec[3], wvec[3];
int i, h, w;
const uint8_t *src;
uint8_t *dst;
int tff;
int hshift = fi->fi_hshift, vshift = fi->fi_vshift;
glw_video_surface_t *s;
const int parity = 0;
wvec[0] = fi->fi_width;
wvec[1] = fi->fi_width >> hshift;
wvec[2] = fi->fi_width >> hshift;
hvec[0] = fi->fi_height >> fi->fi_interlaced;
hvec[1] = fi->fi_height >> (vshift + fi->fi_interlaced);
hvec[2] = fi->fi_height >> (vshift + fi->fi_interlaced);
glw_video_configure(gv, gve);
gv_color_matrix_set(gv, fi);
if((s = glw_video_get_surface(gv, wvec, hvec)) == NULL)
return -1;
if(!fi->fi_interlaced) {
for(i = 0; i < 3; i++) {
w = wvec[i];
h = hvec[i];
src = fi->fi_data[i];
dst = s->gvs_data[i];
while(h--) {
memcpy(dst, src, w);
dst += w;
src += fi->fi_pitch[i];
}
}
glw_video_put_surface(gv, s, fi->fi_pts, fi->fi_epoch, fi->fi_duration,
0, 0);
} else {
int duration = fi->fi_duration >> 1;
tff = fi->fi_tff ^ parity;
for(i = 0; i < 3; i++) {
w = wvec[i];
h = hvec[i];
src = fi->fi_data[i];
dst = s->gvs_data[i];
while(h--) {
memcpy(dst, src, w);
dst += w;
src += fi->fi_pitch[i] * 2;
}
}
glw_video_put_surface(gv, s, fi->fi_pts, fi->fi_epoch, duration, 1, !tff);
if((s = glw_video_get_surface(gv, wvec, hvec)) == NULL)
return -1;
for(i = 0; i < 3; i++) {
w = wvec[i];
h = hvec[i];
src = fi->fi_data[i] + fi->fi_pitch[i];
dst = s->gvs_data[i];
while(h--) {
memcpy(dst, src, w);
dst += w;
src += fi->fi_pitch[i] * 2;
}
}
glw_video_put_surface(gv, s, fi->fi_pts + duration,
fi->fi_epoch, duration, 1, tff);
}
return 0;
}
static int
gvv_deliver(const frame_info_t *fi, glw_video_t *gv, glw_video_engine_t *gve)
{
vdpau_dev_t *vd = gv->w.glw_root->gr_be.gbr_vdpau_dev;
glw_video_surface_t *s;
VdpRect src_rect = { 0, 0, fi->fi_width, fi->fi_height };
int hvec[3], wvec[3];
wvec[0] = fi->fi_width;
wvec[1] = 0;
wvec[2] = 0;
hvec[0] = fi->fi_height;
hvec[1] = 0;
hvec[2] = 0;
VdpRect dst_rect = { 0, 0,
fi->fi_width,
fi->fi_height };
if(glw_video_configure(gv, gve))
return -1;
glw_video_vdpau_t *gvv = gv->gv_aux;
vdpau_mixer_t *vm = &gvv->gvv_vm;
gv->gv_cmatrix_tgt[0] = 1.0f;
/* Video mixer */
if(vm->vm_width != fi->fi_width || vm->vm_height != fi->fi_height) {
VdpStatus st;
vdpau_mixer_deinit(vm);
st = vdpau_mixer_create(vd, vm, fi->fi_width, fi->fi_height);
if(st != VDP_STATUS_OK) {
TRACE(TRACE_ERROR, "VDPAU", "Unable to create video mixer");
return -1;
}
}
if((s = glw_video_get_surface(gv, wvec, hvec)) == NULL)
return -1;
s->gvs_width[0] = fi->fi_width;
s->gvs_height[0] = fi->fi_height;
vdpau_mixer_set_color_matrix(vm, fi);
if(fi->fi_interlaced) {
int duration = fi->fi_duration >> 1;
if(video_settings.vdpau_deinterlace_resolution_limit > 0 &&
fi->fi_height > video_settings.vdpau_deinterlace_resolution_limit)
vdpau_mixer_set_deinterlacer(vm, 0);
else
vdpau_mixer_set_deinterlacer(vm, video_settings.vdpau_deinterlace);
if(vm->vm_surfaces[3] != NULL)
av_frame_unref(vm->vm_surfaces[3]);
vm->vm_surfaces[3] = vm->vm_surfaces[2];
vm->vm_surfaces[2] = vm->vm_surfaces[1];
vm->vm_surfaces[1] = vm->vm_surfaces[0];
vm->vm_surfaces[0] = av_frame_clone(fi->fi_avframe);
VdpVideoSurface past[2], present, future;
past[1] = frame_to_surface(vm->vm_surfaces[3]);
past[0] = frame_to_surface(vm->vm_surfaces[2]);
present = frame_to_surface(vm->vm_surfaces[1]);
future = frame_to_surface(vm->vm_surfaces[0]);
vd->vdp_video_mixer_render(vm->vm_mixer, VDP_INVALID_HANDLE, NULL,
!fi->fi_tff,
2, past,
present,
1, &future,
&src_rect,
s->gvs_vdpau_surface,
&dst_rect, &dst_rect,
0, NULL);
glw_video_put_surface(gv, s, fi->fi_pts - duration,
fi->fi_epoch, duration, 0, 0);
if((s = glw_video_get_surface(gv, wvec, hvec)) == NULL)
return -1;
s->gvs_width[0] = fi->fi_width;
s->gvs_height[0] = fi->fi_height;
vd->vdp_video_mixer_render(vm->vm_mixer, VDP_INVALID_HANDLE, NULL,
fi->fi_tff,
2, past,
present,
1, &future,
&src_rect, s->gvs_vdpau_surface,
&dst_rect, &dst_rect, 0, NULL);
} else {
void
glw_video_input_vdpau(glw_video_t *gv,
uint8_t * const data[], const int pitch[],
const frame_info_t *fi)
{
struct vdpau_render_state *rs = (struct vdpau_render_state *)data[0];
vdpau_dev_t *vd = gv->w.glw_root->gr_be.gbr_vdpau_dev;
vdpau_mixer_t *vm = &gv->gv_vm;
glw_video_surface_t *s;
int wvec[3] = {fi->fi_width};
int hvec[3] = {fi->fi_height};
VdpRect src_rect = { 0, 0, fi->fi_width, fi->fi_height };
#if 0
VdpRect dst_rect = { 0, 0,
gv->gv_rwidth ?: fi->fi_width,
gv->gv_rheight ?: fi->fi_height };
#else
VdpRect dst_rect = { 0, 0,
fi->fi_width,
fi->fi_height };
#endif
if(glw_video_configure(gv, &glw_video_vdpau, wvec, hvec, 4, 0))
return;
if((s = glw_video_get_surface(gv)) == NULL)
return;
s->gvs_width = fi->fi_width;
s->gvs_height = fi->fi_height;
vdpau_mixer_set_color_matrix(vm, fi);
if(fi->fi_interlaced) {
int duration = fi->fi_duration >> 1;
if(video_settings.vdpau_deinterlace_resolution_limit > 0 &&
fi->fi_height > video_settings.vdpau_deinterlace_resolution_limit)
vdpau_mixer_set_deinterlacer(vm, 0);
else
vdpau_mixer_set_deinterlacer(vm, video_settings.vdpau_deinterlace);
vm->vm_surface_win[3] = vm->vm_surface_win[2];
vm->vm_surface_win[2] = vm->vm_surface_win[1];
vm->vm_surface_win[1] = vm->vm_surface_win[0];
vm->vm_surface_win[0] = rs->surface;
vd->vdp_video_mixer_render(vm->vm_mixer, VDP_INVALID_HANDLE, NULL,
!fi->fi_tff,
2, &vm->vm_surface_win[2],
vm->vm_surface_win[1],
1, &vm->vm_surface_win[0],
&src_rect,
s->gvs_vdpau_surface,
&dst_rect, &dst_rect,
0, NULL);
glw_video_put_surface(gv, s, fi->fi_pts - duration, fi->fi_epoch, duration, 0);
if((s = glw_video_get_surface(gv)) == NULL)
return;
s->gvs_width = fi->fi_width;
s->gvs_height = fi->fi_height;
vd->vdp_video_mixer_render(vm->vm_mixer, VDP_INVALID_HANDLE, NULL,
fi->fi_tff,
2, &vm->vm_surface_win[2],
vm->vm_surface_win[1],
1, &vm->vm_surface_win[0],
&src_rect, s->gvs_vdpau_surface,
&dst_rect, &dst_rect, 0, NULL);
} else {
void
glw_video_input_yuvp(glw_video_t *gv,
uint8_t * const data[], const int pitch[],
const frame_info_t *fi)
{
int hvec[3], wvec[3];
int i, h, w;
uint8_t *src;
uint8_t *dst;
int tff;
int hshift, vshift;
glw_video_surface_t *s;
const int parity = 0;
int64_t pts = fi->pts;
avcodec_get_chroma_sub_sample(fi->pix_fmt, &hshift, &vshift);
wvec[0] = fi->width;
wvec[1] = fi->width >> hshift;
wvec[2] = fi->width >> hshift;
hvec[0] = fi->height >> fi->interlaced;
hvec[1] = fi->height >> (vshift + fi->interlaced);
hvec[2] = fi->height >> (vshift + fi->interlaced);
if(glw_video_configure(gv, &glw_video_opengl, wvec, hvec, 3,
fi->interlaced ? (GVC_YHALF | GVC_CUTBORDER) : 0))
return;
gv_color_matrix_set(gv, fi);
if((s = glw_video_get_surface(gv)) == NULL)
return;
if(!fi->interlaced) {
for(i = 0; i < 3; i++) {
w = wvec[i];
h = hvec[i];
src = data[i];
dst = s->gvs_data[i];
while(h--) {
memcpy(dst, src, w);
dst += w;
src += pitch[i];
}
}
glw_video_put_surface(gv, s, pts, fi->epoch, fi->duration, 0);
} else {
int duration = fi->duration >> 1;
tff = fi->tff ^ parity;
for(i = 0; i < 3; i++) {
w = wvec[i];
h = hvec[i];
src = data[i];
dst = s->gvs_data[i];
while(h -= 2 > 0) {
memcpy(dst, src, w);
dst += w;
src += pitch[i] * 2;
}
}
glw_video_put_surface(gv, s, pts, fi->epoch, duration, !tff);
if((s = glw_video_get_surface(gv)) == NULL)
return;
for(i = 0; i < 3; i++) {
w = wvec[i];
h = hvec[i];
src = data[i] + pitch[i];
dst = s->gvs_data[i];
while(h -= 2 > 0) {
memcpy(dst, src, w);
dst += w;
src += pitch[i] * 2;
}
}
if(pts != AV_NOPTS_VALUE)
pts += duration;
glw_video_put_surface(gv, s, pts, fi->epoch, duration, tff);
}
}
void
glw_video_input_rsx_mem(glw_video_t *gv, void *frame,
const frame_info_t *fi)
{
rsx_video_frame_t *rvf = frame;
int hvec[3], wvec[3];
int i;
int hshift, vshift;
glw_video_surface_t *gvs;
avcodec_get_chroma_sub_sample(fi->fi_pix_fmt, &hshift, &vshift);
wvec[0] = fi->fi_width;
wvec[1] = fi->fi_width >> hshift;
wvec[2] = fi->fi_width >> hshift;
hvec[0] = fi->fi_height >> fi->fi_interlaced;
hvec[1] = fi->fi_height >> (vshift + fi->fi_interlaced);
hvec[2] = fi->fi_height >> (vshift + fi->fi_interlaced);
if(glw_video_configure(gv, &glw_video_rsxmem, wvec, hvec, 3,
fi->fi_interlaced ? (GVC_YHALF | GVC_CUTBORDER) : 0))
return;
gv_color_matrix_set(gv, fi);
if((gvs = glw_video_get_surface(gv)) == NULL)
return;
surface_reset(gv, gvs);
gvs->gvs_size = rvf->rvf_size;
gvs->gvs_offset = rvf->rvf_offset;
int offset = gvs->gvs_offset;
if(fi->fi_interlaced) {
// Interlaced
for(i = 0; i < 3; i++) {
int w = wvec[i];
int h = hvec[i];
init_tex(&gvs->gvs_tex[i],
offset + !fi->fi_tff * wvec[i],
w, h, w*2,
NV30_3D_TEX_FORMAT_FORMAT_I8, 0,
NV30_3D_TEX_SWIZZLE_S0_X_S1 | NV30_3D_TEX_SWIZZLE_S0_Y_S1 |
NV30_3D_TEX_SWIZZLE_S0_Z_S1 | NV30_3D_TEX_SWIZZLE_S0_W_S1 |
NV30_3D_TEX_SWIZZLE_S1_X_X | NV30_3D_TEX_SWIZZLE_S1_Y_Y |
NV30_3D_TEX_SWIZZLE_S1_Z_Z | NV30_3D_TEX_SWIZZLE_S1_W_W
);
offset += w * (fi->fi_height >> (i ? vshift : 0));
}
glw_video_put_surface(gv, gvs, fi->fi_pts, fi->fi_epoch,
fi->fi_duration/2, 0);
if((gvs = glw_video_get_surface(gv)) == NULL)
return;
surface_reset(gv, gvs);
gvs->gvs_size = rvf->rvf_size;
gvs->gvs_offset = rvf->rvf_offset;
offset = gvs->gvs_offset;
for(i = 0; i < 3; i++) {
int w = wvec[i];
int h = hvec[i];
init_tex(&gvs->gvs_tex[i],
offset + !!fi->fi_tff * wvec[i],
w, h, w*2,
NV30_3D_TEX_FORMAT_FORMAT_I8, 0,
NV30_3D_TEX_SWIZZLE_S0_X_S1 | NV30_3D_TEX_SWIZZLE_S0_Y_S1 |
NV30_3D_TEX_SWIZZLE_S0_Z_S1 | NV30_3D_TEX_SWIZZLE_S0_W_S1 |
NV30_3D_TEX_SWIZZLE_S1_X_X | NV30_3D_TEX_SWIZZLE_S1_Y_Y |
NV30_3D_TEX_SWIZZLE_S1_Z_Z | NV30_3D_TEX_SWIZZLE_S1_W_W
);
offset += w * (fi->fi_height >> (i ? vshift : 0));
}
glw_video_put_surface(gv, gvs, fi->fi_pts + fi->fi_duration, fi->fi_epoch,
fi->fi_duration/2, 0);
} else {
// Progressive
for(i = 0; i < 3; i++) {
