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mirror of https://github.com/jojo61/vdr-plugin-softhdcuvid.git synced 2023-10-10 13:37:41 +02:00

more changes

This commit is contained in:
jojo61 2018-12-07 13:07:50 +01:00
parent 36072dd1c6
commit 7b3c47035e
5 changed files with 214 additions and 77 deletions

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@ -45,7 +45,7 @@ Currently I have tested it with a GTX 1050 from NVIDIA. SD, HD and UHD is workin
Current Status NVIDA: Current Status NVIDA:
The CUDA driver supports HEVC with 8 Bit and 10 Bit up to UHD resolution. Opengl is able to output also 10 Bit, but NVIDIA does not support to output 10 Bit via HDMI. The CUDA driver supports HEVC with 8 Bit and 10 Bit up to UHD resolution. Opengl is able to output also 10 Bit, but NVIDIA does not support to output 10 Bit via HDMI.
Only via DisplayPort you can get 10 Bit output to a ompatible screen. This is a restriction from NVIDIA. Only via DisplayPort you can get 10 Bit output to a compatible screen. This is a restriction from NVIDIA.
You have to adapt the Makefile to your needs. I use FFMPEG 4.0 You have to adapt the Makefile to your needs. I use FFMPEG 4.0
@ -63,11 +63,12 @@ new:
This Version supports building with libplacebo. https://github.com/haasn/libplacebo This Version supports building with libplacebo. https://github.com/haasn/libplacebo
You have to enable it in the Makefile and install libplacebo yourself. You have to enable it in the Makefile and install libplacebo yourself.
At the moment this is Work in progress and the used upscaler is hardcoded. This will be changend to be configurable. At the moment this is Work in progress.
It also needs the NVIDIA driver 410.48 or newer as well as CUDA 10. It also needs the NVIDIA driver 410.48 or newer as well as CUDA 10.
In the settings you can enable a correction for Colorblindness. First you have to decide what kind of colorblindness to use. And then the faktor of correction. If the faktor is negativ than the selected type of colorblindness is simulated. If the faktor is positiv then the colors are enhanced to try to correct the deficiency.
Also you can enable a Scaler Test feature. When enabled then the screen is split.On the left ahlf you will see the scaler defined by Scaler Test and on the right side you wil see the scaler defined at the Resolution setting. There is as small black line between the halfs to remaind you that Scaler Test is activ.
Good luck Good luck
jojo61 jojo61
@ -369,40 +370,5 @@ Requires:
or or
kernel support for oss/oss4 or alsa oss emulation kernel support for oss/oss4 or alsa oss emulation
x11-libs/libva (deprecated)
Video Acceleration (VA) API for Linux
http://www.freedesktop.org/wiki/Software/vaapi
x11-libs/libva-intel-driver
HW video decode support for Intel integrated graphics
http://www.freedesktop.org/wiki/Software/vaapi
or
x11-libs/vdpau-video
VDPAU Backend for Video Acceleration (VA) API
http://www.freedesktop.org/wiki/Software/vaapi
or
x11-libs/xvba-video
XVBA Backend for Video Acceleration (VA) API
http://www.freedesktop.org/wiki/Software/vaapi
x11-libs/libvdpau
VDPAU wrapper and trace libraries
http://www.freedesktop.org/wiki/Software/VDPAU
x11-libs/libxcb,
X C-language Bindings library
http://xcb.freedesktop.org
x11-libs/xcb-util,
x11-libs/xcb-util-wm,
x11-libs/xcb-util-keysyms
X C-language Bindings library
http://xcb.freedesktop.org
Only versions >= 0.3.8 are good supported
x11-libs/libX11
X.Org X11 library
http://xorg.freedesktop.org
GNU Make 3.xx
http://www.gnu.org/software/make/make.html
Optional: Optional:

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@ -442,8 +442,10 @@ cOglFb::cOglFb(GLint width, GLint height, GLint viewPortWidth, GLint viewPortHei
} }
cOglFb::~cOglFb(void) { cOglFb::~cOglFb(void) {
glDeleteTextures(1, &texture); if (texture)
glDeleteFramebuffers(1, &fb); glDeleteTextures(1, &texture);
if (fb)
glDeleteFramebuffers(1, &fb);
} }
@ -709,7 +711,8 @@ cOglCmdDeleteFb::cOglCmdDeleteFb(cOglFb *fb) : cOglCmd(fb) {
} }
bool cOglCmdDeleteFb::Execute(void) { bool cOglCmdDeleteFb::Execute(void) {
delete fb; if (fb)
delete fb;
return true; return true;
} }

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@ -116,6 +116,9 @@ static int ConfigVideoSaturation = 100; ///< config video saturation
static int ConfigVideoHue; ///< config video hue static int ConfigVideoHue; ///< config video hue
static int ConfigGamma; ///< config Gamma static int ConfigGamma; ///< config Gamma
static int ConfigTargetColorSpace; ///< config Target Colrospace static int ConfigTargetColorSpace; ///< config Target Colrospace
static int ConfigScalerTest; /// Test for Scalers
static int ConfigColorBlindness;
static int ConfigColorBlindnessFaktor;
/// config deinterlace /// config deinterlace
static int ConfigVideoDeinterlace[RESOLUTIONS]; static int ConfigVideoDeinterlace[RESOLUTIONS];
@ -870,6 +873,9 @@ class cMenuSetupSoft:public cMenuSetupPage
int Hue; int Hue;
int Gamma; int Gamma;
int TargetColorSpace; int TargetColorSpace;
int ScalerTest;
int ColorBlindnessFaktor;
int ColorBlindness;
int ResolutionShown[RESOLUTIONS]; int ResolutionShown[RESOLUTIONS];
int Scaling[RESOLUTIONS]; int Scaling[RESOLUTIONS];
@ -1011,6 +1017,9 @@ void cMenuSetupSoft::Create(void)
static const char *const target_colorspace[] = { static const char *const target_colorspace[] = {
"Monitor", "sRGB", "BT709", "HDR-HLG", "HDR10", "Monitor", "sRGB", "BT709", "HDR-HLG", "HDR10",
}; };
static const char *const target_colorblindness[] = {
"None", "Protanomaly", "Deuteranomaly", "Tritanomaly", "Monochromacy",
};
#endif #endif
int current; int current;
int i; int i;
@ -1018,12 +1027,15 @@ void cMenuSetupSoft::Create(void)
#ifdef PLACEBO #ifdef PLACEBO
static int scalers=0; static int scalers=0;
static char *scaling[100]; static char *scaling[100];
static char *scalingtest[100];
if (scalers == 0) { if (scalers == 0) {
scalingtest[0] = "Off";
for (scalers = 0;pl_named_filters[scalers].filter != NULL ; scalers++) { for (scalers = 0;pl_named_filters[scalers].filter != NULL ; scalers++) {
scaling[scalers] = (char*)pl_named_filters[scalers].name; scaling[scalers] = (char*)pl_named_filters[scalers].name;
scalingtest[scalers+1] = (char*)pl_named_filters[scalers].name;
// printf("Scaler %s\n",pl_named_filters[scalers].name); // printf("Scaler %s\n",pl_named_filters[scalers].name);
} }
scalers -= 2; // scalers -= 2;
} }
#endif #endif
@ -1092,7 +1104,10 @@ void cMenuSetupSoft::Create(void)
&BlackPicture, trVDR("no"), trVDR("yes"))); &BlackPicture, trVDR("no"), trVDR("yes")));
Add(new cMenuEditBoolItem(tr("Clear decoder on channel switch"), Add(new cMenuEditBoolItem(tr("Clear decoder on channel switch"),
&ClearOnSwitch, trVDR("no"), trVDR("yes"))); &ClearOnSwitch, trVDR("no"), trVDR("yes")));
#if PLACEBO #if PLACEBO
Add(new cMenuEditStraItem(tr("Scaler Test"), &ConfigScalerTest, scalers+1, scalingtest));
Add(new cMenuEditIntItem(tr("Brightness (-100..100)"), Add(new cMenuEditIntItem(tr("Brightness (-100..100)"),
&Brightness, -100, 100, tr("min"), tr("max"))); &Brightness, -100, 100, tr("min"), tr("max")));
Add(new cMenuEditIntItem(tr("Contrast (0..100)"), &Contrast, Add(new cMenuEditIntItem(tr("Contrast (0..100)"), &Contrast,
@ -1101,10 +1116,13 @@ void cMenuSetupSoft::Create(void)
&Saturation, 0, 100, tr("min"), tr("max"))); &Saturation, 0, 100, tr("min"), tr("max")));
Add(new cMenuEditIntItem(tr("Gamma (0..100)"), Add(new cMenuEditIntItem(tr("Gamma (0..100)"),
&Gamma, 0, 100, tr("min"), tr("max"))); &Gamma, 0, 100, tr("min"), tr("max")));
Add(new cMenuEditIntItem(tr("Hue (-314..314) "), &Hue, -314, Add(new cMenuEditIntItem(tr("Hue (-314..314) "), &Hue, -314, 314, tr("min"), tr("max")));
314, tr("min"), tr("max")));
Add(new cMenuEditStraItem(tr("Monitor Colorspace"), &TargetColorSpace, 5, target_colorspace)); Add(new cMenuEditStraItem(tr("Monitor Colorspace"), &TargetColorSpace, 5, target_colorspace));
Add(new cMenuEditStraItem(tr("Color Blindness"), &ColorBlindness, 5, target_colorblindness));
Add(new cMenuEditIntItem(tr("Color Correction (-100..100) "), &ColorBlindnessFaktor, -100,
100, tr("min"), tr("max")));
#endif #endif
for (i = 0; i < RESOLUTIONS; ++i) { for (i = 0; i < RESOLUTIONS; ++i) {
cString msg; cString msg;
@ -1303,6 +1321,9 @@ cMenuSetupSoft::cMenuSetupSoft(void)
Hue = ConfigVideoHue; Hue = ConfigVideoHue;
Gamma = ConfigGamma; Gamma = ConfigGamma;
TargetColorSpace = ConfigTargetColorSpace; TargetColorSpace = ConfigTargetColorSpace;
ColorBlindness = ConfigColorBlindness;
ColorBlindnessFaktor = ConfigColorBlindnessFaktor;
// ScalerTest = ConfigScalerTest;
for (i = 0; i < RESOLUTIONS; ++i) { for (i = 0; i < RESOLUTIONS; ++i) {
ResolutionShown[i] = 0; ResolutionShown[i] = 0;
@ -1447,6 +1468,12 @@ void cMenuSetupSoft::Store(void)
VideoSetTargetColor(ConfigTargetColorSpace); VideoSetTargetColor(ConfigTargetColorSpace);
SetupStore("Hue", ConfigVideoHue = Hue); SetupStore("Hue", ConfigVideoHue = Hue);
VideoSetHue(ConfigVideoHue); VideoSetHue(ConfigVideoHue);
SetupStore("CBlindness", ConfigColorBlindness = ColorBlindness);
VideoSetColorBlindness(ConfigColorBlindness);
SetupStore("CBlindnessFaktor", ConfigColorBlindnessFaktor = ColorBlindnessFaktor);
VideoSetColorBlindnessFaktor(ConfigColorBlindnessFaktor);
// SetupStore("ScalerTest", ConfigScalerTest = ScalerTest);
VideoSetScalerTest(ConfigScalerTest);
for (i = 0; i < RESOLUTIONS; ++i) { for (i = 0; i < RESOLUTIONS; ++i) {
char buf[128]; char buf[128];
@ -2680,7 +2707,7 @@ void cSoftHdDevice::StillPicture(const uchar * data, int length)
data[0] == 0x47 ? "ts" : "pes", data, length); data[0] == 0x47 ? "ts" : "pes", data, length);
if (data[0] == 0x47) { // ts sync if (data[0] == 0x47) { // ts sync
cDevice::StillPicture(data, length); cDevice::StillPicture(data, length);
return; return;
} }
@ -3282,6 +3309,20 @@ bool cPluginSoftHdDevice::SetupParse(const char *name, const char *value)
VideoSetHue(ConfigVideoHue = atoi(value)); VideoSetHue(ConfigVideoHue = atoi(value));
return true; return true;
} }
if (!strcasecmp(name, "CBlindness")) {
VideoSetColorBlindness(ConfigColorBlindness = atoi(value));
return true;
}
if (!strcasecmp(name, "CBlindnessFaktor")) {
VideoSetColorBlindnessFaktor(ConfigColorBlindnessFaktor = atoi(value));
return true;
}
#if 0
if (!strcasecmp(name, "ScalerTest")) {
VideoSetScalerTest(ConfigScalerTest = atoi(value));
return true;
}
#endif
for (i = 0; i < RESOLUTIONS; ++i) { for (i = 0; i < RESOLUTIONS; ++i) {
char buf[128]; char buf[128];

170
video.c
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@ -422,6 +422,9 @@ static float VideoSaturation = 1.0f;
static float VideoHue = 0.0f; static float VideoHue = 0.0f;
static float VideoGamma = 1.0f; static float VideoGamma = 1.0f;
static int VulkanTargetColorSpace = 0; static int VulkanTargetColorSpace = 0;
static int VideoScalerTest = 0;
static int VideoColorBlindness = 0;
static float VideoColorBlindnessFaktor = 1.0f;
static xcb_atom_t WmDeleteWindowAtom; ///< WM delete message atom static xcb_atom_t WmDeleteWindowAtom; ///< WM delete message atom
static xcb_atom_t NetWmState; ///< wm-state message atom static xcb_atom_t NetWmState; ///< wm-state message atom
@ -1700,6 +1703,7 @@ typedef struct priv {
const struct pl_vk_inst *vk_inst; const struct pl_vk_inst *vk_inst;
struct pl_context *ctx; struct pl_context *ctx;
struct pl_renderer *renderer; struct pl_renderer *renderer;
struct pl_renderer *renderertest;
const struct pl_swapchain *swapchain; const struct pl_swapchain *swapchain;
struct pl_context_params context; struct pl_context_params context;
struct pl_render_target r_target; struct pl_render_target r_target;
@ -1876,6 +1880,8 @@ static void CuvidDestroySurfaces(CuvidDecoder * decoder)
// close(decoder->pl_buf_UV->handles.fd); // close(decoder->pl_buf_UV->handles.fd);
pl_buf_destroy(p->gpu,&decoder->pl_buf_Y); pl_buf_destroy(p->gpu,&decoder->pl_buf_Y);
pl_buf_destroy(p->gpu,&decoder->pl_buf_UV); pl_buf_destroy(p->gpu,&decoder->pl_buf_UV);
pl_renderer_destroy(&p->renderer);
p->renderer = pl_renderer_create(p->ctx, p->gpu);
#else #else
glDeleteTextures(CODEC_SURFACES_MAX*2,(GLuint*)&decoder->gl_textures); glDeleteTextures(CODEC_SURFACES_MAX*2,(GLuint*)&decoder->gl_textures);
GlxCheck(); GlxCheck();
@ -2324,8 +2330,14 @@ void generateCUDAImage(CuvidDecoder * decoder,int index, const AVFrame *frame,in
struct ext_buf ebuf[2]; struct ext_buf ebuf[2];
//printf("Upload buf to texture for frame %d in size %d-%d\n",index,image_width,image_height); //printf("Upload buf to texture for frame %d in size %d-%d\n",index,image_width,image_height);
while (pl_buf_poll(p->gpu,decoder->pl_buf_Y, 5000000)); // 5 ms if (decoder->pl_buf_Y)
while (pl_buf_poll(p->gpu,decoder->pl_buf_UV, 5000000)); while (pl_buf_poll(p->gpu,decoder->pl_buf_Y, 5000000)); // 5 ms
else
return;
if (decoder->pl_buf_UV)
while (pl_buf_poll(p->gpu,decoder->pl_buf_UV, 5000000));
else
return;
for (n = 0; n < 2; n++) { // Copy 2 Planes from Cuda decoder to upload Buffer for (n = 0; n < 2; n++) { // Copy 2 Planes from Cuda decoder to upload Buffer
// widthInBytes must account for the chroma plane // widthInBytes must account for the chroma plane
@ -3354,8 +3366,10 @@ static void CuvidMixVideo(CuvidDecoder * decoder, int level)
#endif #endif
{ {
#ifdef PLACEBO #ifdef PLACEBO
struct pl_render_params render_params = pl_render_default_params; struct pl_render_params render_params;
struct pl_deband_params deband;
struct pl_color_adjustment colors; struct pl_color_adjustment colors;
struct pl_cone_params cone;
struct pl_tex_vk *vkp; struct pl_tex_vk *vkp;
const struct pl_fmt *fmt; const struct pl_fmt *fmt;
VkImage Image; VkImage Image;
@ -3438,6 +3452,9 @@ static void CuvidMixVideo(CuvidDecoder * decoder, int level)
#else #else
img = &decoder->pl_images[current]; img = &decoder->pl_images[current];
memcpy(&deband,&pl_deband_default_params,sizeof(deband));
memcpy(&render_params,&pl_render_default_params,sizeof(render_params));
switch (decoder->ColorSpace) { switch (decoder->ColorSpace) {
case AVCOL_SPC_RGB: case AVCOL_SPC_RGB:
img->repr.sys = PL_COLOR_SYSTEM_BT_601; img->repr.sys = PL_COLOR_SYSTEM_BT_601;
@ -3457,6 +3474,7 @@ static void CuvidMixVideo(CuvidDecoder * decoder, int level)
case AVCOL_SPC_BT2020_NCL: case AVCOL_SPC_BT2020_NCL:
img->repr.sys = PL_COLOR_SYSTEM_BT_2020_NC; img->repr.sys = PL_COLOR_SYSTEM_BT_2020_NC;
memcpy(&img->color,&pl_color_space_bt2020_hlg,sizeof(struct pl_color_space)); memcpy(&img->color,&pl_color_space_bt2020_hlg,sizeof(struct pl_color_space));
deband.grain = 0.0f; // no grain in HDR
// img->color.primaries = PL_COLOR_PRIM_BT_2020; // img->color.primaries = PL_COLOR_PRIM_BT_2020;
// img->color.transfer = PL_COLOR_TRC_HLG; // img->color.transfer = PL_COLOR_TRC_HLG;
// img->color.light = PL_COLOR_LIGHT_SCENE_HLG; // img->color.light = PL_COLOR_LIGHT_SCENE_HLG;
@ -3470,22 +3488,60 @@ static void CuvidMixVideo(CuvidDecoder * decoder, int level)
break; break;
} }
// Source crop // Source crop
img->src_rect.x0 = video_src_rect.x0; if (VideoScalerTest) { // right side defnied scaler
img->src_rect.y0 = video_src_rect.y0; pl_tex_clear(p->gpu,target->fbo,black); // clear frame
img->src_rect.x1 = video_src_rect.x1; img->src_rect.x0 = video_src_rect.x1/2+1;
img->src_rect.y1 = video_src_rect.y1; img->src_rect.y0 = video_src_rect.y0;
img->src_rect.x1 = video_src_rect.x1;
img->src_rect.y1 = video_src_rect.y1;
// Video aspect ratio // Video aspect ratio
target->dst_rect.x0 = dst_video_rect.x0; target->dst_rect.x0 = dst_video_rect.x1/2+dst_video_rect.x0/2+1;
target->dst_rect.y0 = dst_video_rect.y0; target->dst_rect.y0 = dst_video_rect.y0;
target->dst_rect.x1 = dst_video_rect.x1; target->dst_rect.x1 = dst_video_rect.x1;
target->dst_rect.y1 = dst_video_rect.y1; target->dst_rect.y1 = dst_video_rect.y1;
} else {
img->src_rect.x0 = video_src_rect.x0;
img->src_rect.y0 = video_src_rect.y0;
img->src_rect.x1 = video_src_rect.x1;
img->src_rect.y1 = video_src_rect.y1;
// Video aspect ratio
target->dst_rect.x0 = dst_video_rect.x0;
target->dst_rect.y0 = dst_video_rect.y0;
target->dst_rect.x1 = dst_video_rect.x1;
target->dst_rect.y1 = dst_video_rect.y1;
}
if (VideoColorBlindness) {
switch(VideoColorBlindness) {
case 1: memcpy(&cone,&pl_vision_protanomaly,sizeof(cone));
break;
case 2: memcpy(&cone,&pl_vision_deuteranomaly,sizeof(cone));
break;
case 3: memcpy(&cone,&pl_vision_tritanomaly,sizeof(cone));
break;
case 4: memcpy(&cone,&pl_vision_monochromacy,sizeof(cone));
break;
default: memcpy(&cone,&pl_vision_normal,sizeof(cone));
break;
}
cone.strength = VideoColorBlindnessFaktor;
render_params.cone_params = &cone;
}
else {
render_params.cone_params = NULL;
}
// render_params.upscaler = &pl_filter_ewa_lanczos; // render_params.upscaler = &pl_filter_ewa_lanczos;
render_params.upscaler = pl_named_filters[VideoScaling[decoder->Resolution]].filter; render_params.upscaler = pl_named_filters[VideoScaling[decoder->Resolution]].filter;
render_params.downscaler = pl_named_filters[VideoScaling[decoder->Resolution]].filter; render_params.downscaler = pl_named_filters[VideoScaling[decoder->Resolution]].filter;
render_params.color_adjustment = &colors; render_params.color_adjustment = &colors;
render_params.deband_params = &deband;
colors.brightness = VideoBrightness; colors.brightness = VideoBrightness;
colors.contrast = VideoContrast; colors.contrast = VideoContrast;
@ -3505,8 +3561,8 @@ static void CuvidMixVideo(CuvidDecoder * decoder, int level)
if (!pl_render_image(p->renderer, &decoder->pl_images[current], target, &render_params)) { if (!pl_render_image(p->renderer, &decoder->pl_images[current], target, &render_params)) {
Fatal(_("Failed rendering frame!\n")); Fatal(_("Failed rendering frame!\n"));
} }
#if 0
if (1) { if (VideoScalerTest) { // left side internal scaler (bicubic)
// Source crop // Source crop
img->src_rect.x0 = video_src_rect.x0; img->src_rect.x0 = video_src_rect.x0;
img->src_rect.y0 = video_src_rect.y0; img->src_rect.y0 = video_src_rect.y0;
@ -3518,13 +3574,20 @@ static void CuvidMixVideo(CuvidDecoder * decoder, int level)
target->dst_rect.y0 = dst_video_rect.y0; target->dst_rect.y0 = dst_video_rect.y0;
target->dst_rect.x1 = dst_video_rect.x1/2+dst_video_rect.x0/2; target->dst_rect.x1 = dst_video_rect.x1/2+dst_video_rect.x0/2;
target->dst_rect.y1 = dst_video_rect.y1; target->dst_rect.y1 = dst_video_rect.y1;
render_params.upscaler = NULL; render_params.upscaler = pl_named_filters[VideoScalerTest-1].filter;
render_params.downscaler = NULL; render_params.downscaler = pl_named_filters[VideoScalerTest-1].filter;
if (!pl_render_image(p->renderer, &decoder->pl_images[current], target, &render_params)) {
if (!p->renderertest)
p->renderertest = pl_renderer_create(p->ctx, p->gpu);
if (!pl_render_image(p->renderertest, &decoder->pl_images[current], target, &render_params)) {
Fatal(_("Failed rendering frame!\n")); Fatal(_("Failed rendering frame!\n"));
} }
} }
#endif else if (p->renderertest) {
pl_renderer_destroy(&p->renderertest);
p->renderertest = NULL;
}
#endif #endif
Debug(4, "video/vdpau: yy video surface %p displayed\n", current, decoder->SurfaceRead); Debug(4, "video/vdpau: yy video surface %p displayed\n", current, decoder->SurfaceRead);
@ -3534,14 +3597,18 @@ static void CuvidMixVideo(CuvidDecoder * decoder, int level)
void make_osd_overlay(int x, int y, int width, int height) { void make_osd_overlay(int x, int y, int width, int height) {
const struct pl_fmt *fmt; const struct pl_fmt *fmt;
struct pl_overlay *pl; struct pl_overlay *pl;
const float black[4] = { 0.0f,0.0f,0.0f,1.0f};
int offset = VideoWindowHeight - (VideoWindowHeight-height-y) - (VideoWindowHeight - y); int offset = VideoWindowHeight - (VideoWindowHeight-height-y) - (VideoWindowHeight - y);
fmt = pl_find_named_fmt(p->gpu, "rgba8"); // 8 Bit RGB fmt = pl_find_named_fmt(p->gpu, "rgba8"); // 8 Bit RGB
pl = &osdoverlay; pl = &osdoverlay;
if (pl->plane.texture) if (pl->plane.texture) {
// pl_tex_clear(p->gpu,pl->plane.texture,black);
pl_tex_destroy(p->gpu,&pl->plane.texture); pl_tex_destroy(p->gpu,&pl->plane.texture);
}
// make texture for OSD // make texture for OSD
pl->plane.texture = pl_tex_create(p->gpu, &(struct pl_tex_params) { pl->plane.texture = pl_tex_create(p->gpu, &(struct pl_tex_params) {
@ -3551,11 +3618,13 @@ void make_osd_overlay(int x, int y, int width, int height) {
.format = fmt, .format = fmt,
.sampleable = true, .sampleable = true,
.host_writable = true, .host_writable = true,
.blit_dst = true,
.sample_mode = PL_TEX_SAMPLE_LINEAR, .sample_mode = PL_TEX_SAMPLE_LINEAR,
.address_mode = PL_TEX_ADDRESS_CLAMP, .address_mode = PL_TEX_ADDRESS_CLAMP,
}); });
// make overlay // make overlay
pl_tex_clear(p->gpu,pl->plane.texture,black);
pl->plane.components = 4; pl->plane.components = 4;
pl->plane.shift_x = 0.0f; pl->plane.shift_x = 0.0f;
pl->plane.shift_y = 0.0f; pl->plane.shift_y = 0.0f;
@ -3611,7 +3680,7 @@ static void CuvidDisplayFrame(void)
#else #else
pl_swapchain_swap_buffers(p->swapchain); pl_swapchain_swap_buffers(p->swapchain);
// last_time = GetusTicks(); // last_time = GetusTicks();
// pl_swapchain_swap_buffers(p->swapchain);
// printf(" Latency %d Time wait %2.2f\n",pl_swapchain_latency(p->swapchain),(float)(GetusTicks()-last_time)/1000000.0); // printf(" Latency %d Time wait %2.2f\n",pl_swapchain_latency(p->swapchain),(float)(GetusTicks()-last_time)/1000000.0);
last_time = GetusTicks(); last_time = GetusTicks();
if (!p->swapchain) if (!p->swapchain)
@ -3623,7 +3692,15 @@ static void CuvidDisplayFrame(void)
pl_render_target_from_swapchain(&target, &frame); // make target frame pl_render_target_from_swapchain(&target, &frame); // make target frame
if (VideoSurfaceModesChanged){
pl_renderer_destroy(&p->renderer);
p->renderer = pl_renderer_create(p->ctx, p->gpu);
if (p->renderertest) {
pl_renderer_destroy(&p->renderertest);
p->renderertest = NULL;
}
VideoSurfaceModesChanged = 0;
}
target.repr.sys = PL_COLOR_SYSTEM_RGB; target.repr.sys = PL_COLOR_SYSTEM_RGB;
if (VideoStudioLevels) if (VideoStudioLevels)
@ -4175,6 +4252,9 @@ static void CuvidDisplayHandlerThread(void)
decoder->Closing = -1; decoder->Closing = -1;
} }
} }
#ifdef PLACEBO
usleep(100);
#endif
continue; continue;
} }
decoded = 1; decoded = 1;
@ -4845,7 +4925,7 @@ void InitPlacebo(){
Debug(3,"Init Placebo\n"); Debug(3,"Init Placebo\n");
p = malloc(sizeof(struct priv)); p = calloc(1,sizeof(struct priv));
if (!p) if (!p)
Fatal(_("Cant get memory for PLACEBO struct")); Fatal(_("Cant get memory for PLACEBO struct"));
@ -4959,9 +5039,12 @@ static void *VideoDisplayHandlerThread(void *dummy)
VideoUsedModule->DisplayHandlerThread(); VideoUsedModule->DisplayHandlerThread();
} }
#ifdef PLACEBO_ #ifdef PLACEBO
pl_renderer_destroy(&p->renderer); pl_renderer_destroy(&p->renderer);
// pl_tex_destroy(p->gpu, &p->final_fbo); if (p->renderertest) {
pl_renderer_destroy(&p->renderertest);
p->renderertest = NULL;
}
pl_swapchain_destroy(&p->swapchain); pl_swapchain_destroy(&p->swapchain);
pl_vulkan_destroy(&p->vk); pl_vulkan_destroy(&p->vk);
vkDestroySurfaceKHR(p->vk_inst->instance, p->pSurface, NULL); vkDestroySurfaceKHR(p->vk_inst->instance, p->pSurface, NULL);
@ -6126,7 +6209,30 @@ void VideoSetStudioLevels(int onoff)
{ {
VideoStudioLevels = onoff; VideoStudioLevels = onoff;
} }
///
/// Set scaler test.
///
/// @param onoff flag on/off
///
void VideoSetScalerTest(int onoff)
{
VideoScalerTest = onoff;
VideoSurfaceModesChanged = 1;
}
///
/// Set Color Blindness.
///
void VideoSetColorBlindness(int value)
{
VideoColorBlindness = value;;
}
///
/// Set Color Blindness Faktor.
///
void VideoSetColorBlindnessFaktor(int value)
{
VideoColorBlindnessFaktor = (float)value / 100.0f + 1.0f;
}
/// ///
/// Set background color. /// Set background color.
/// ///
@ -6377,13 +6483,25 @@ void VideoExit(void)
} }
#endif #endif
#ifdef PLACEBO #ifdef PLACEBO_
pl_gpu_finish(p->gpu);
if (osdoverlay.plane.texture) {
pl_tex_destroy(p->gpu,&osdoverlay.plane.texture);
}
pl_renderer_destroy(&p->renderer); pl_renderer_destroy(&p->renderer);
if (p->renderertest) {
pl_renderer_destroy(&p->renderertest);
p->renderertest = NULL;
}
pl_swapchain_destroy(&p->swapchain); pl_swapchain_destroy(&p->swapchain);
vkDestroySurfaceKHR(p->vk_inst->instance, p->pSurface, NULL); vkDestroySurfaceKHR(p->vk_inst->instance, p->pSurface, NULL);
pl_vk_inst_destroy(&p->vk_inst); pl_vk_inst_destroy(&p->vk_inst);
printf("1\n");
// pl_vulkan_destroy(&p->vk); // pl_vulkan_destroy(&p->vk);
printf("1\n");
pl_context_destroy(&p->ctx); pl_context_destroy(&p->ctx);
printf("1\n");
free(p); free(p);
#endif #endif

View File

@ -127,6 +127,12 @@ extern void VideoSetTargetColor(int);
/// Set hue adjustment. /// Set hue adjustment.
extern void VideoSetHue(int); extern void VideoSetHue(int);
/// Set Color Blindness.
extern void VideoSetColorBlindness(int);
/// Set Color Blindness Faktor
extern void VideoSetColorBlindnessFaktor(int);
/// Set video output position. /// Set video output position.
extern void VideoSetOutputPosition(VideoHwDecoder *, int, int, int, int); extern void VideoSetOutputPosition(VideoHwDecoder *, int, int, int, int);
@ -154,6 +160,9 @@ extern void VideoSetInverseTelecine(int[]);
/// Set scaling. /// Set scaling.
extern void VideoSetScaling(int[]); extern void VideoSetScaling(int[]);
/// Set scaler test.
extern void VideoSetScalerTest(int);
/// Set denoise. /// Set denoise.
extern void VideoSetDenoise(int[]); extern void VideoSetDenoise(int[]);