/* * Copyright (C) 2000-2003, 2007 the xine project * * This file is part of xine, a free video player. * * xine is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * xine is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA * * video_out_xcbshm.c, X11 shared memory extension interface for xine * * based on mpeg2dec code from * Aaron Holtzman * * xine-specific code by Guenter Bartsch * * ported to xcb by Christoph Pfister - Feb 2007 */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include "xine.h" #include "video_out.h" #include #include #include #include #include #include #include #define LOG_MODULE "video_out_xcbshm" #define LOG_VERBOSE /* #define LOG */ #include "xine_internal.h" #include "yuv2rgb.h" #include "xineutils.h" #include "vo_scale.h" #include "xcbosd.h" typedef struct { vo_frame_t vo_frame; /* frame properties as delivered by the decoder: */ /* obs: for width/height use vo_scale_t struct */ int format; int flags; vo_scale_t sc; uint8_t *image; int bytes_per_line; xcb_shm_seg_t shmseg; uint8_t *chunk[3]; /* mem alloc by xmalloc_aligned */ yuv2rgb_t *yuv2rgb; /* yuv2rgb converter set up for this frame */ uint8_t *rgb_dst; } xshm_frame_t; typedef struct { vo_driver_t vo_driver; /* xcb / shm related stuff */ xcb_connection_t *connection; xcb_screen_t *screen; xcb_window_t window; xcb_gcontext_t gc; int depth; int bpp; int scanline_pad; int use_shm; int yuv2rgb_brightness; int yuv2rgb_contrast; int yuv2rgb_saturation; uint8_t *yuv2rgb_cmap; yuv2rgb_factory_t *yuv2rgb_factory; vo_scale_t sc; xshm_frame_t *cur_frame; xcbosd *xoverlay; int ovl_changed; xine_t *xine; alphablend_t alphablend_extra_data; pthread_mutex_t main_mutex; } xshm_driver_t; typedef struct { video_driver_class_t driver_class; config_values_t *config; xine_t *xine; } xshm_class_t; /* * allocate an XImage, try XShm first but fall back to * plain X11 if XShm should fail */ static void create_ximage(xshm_driver_t *this, xshm_frame_t *frame, int width, int height) { frame->bytes_per_line = ((this->bpp * width + this->scanline_pad - 1) & (~(this->scanline_pad - 1))) >> 3; if (this->use_shm) { int shmid; xcb_void_cookie_t shm_attach_cookie; xcb_generic_error_t *generic_error; /* * try shm */ shmid = shmget(IPC_PRIVATE, frame->bytes_per_line * height, IPC_CREAT | 0777); if (shmid < 0) { xprintf(this->xine, XINE_VERBOSITY_LOG, _("video_out_xcbshm: %s: allocating image\n" "video_out_xcbshm: => not using MIT Shared Memory extension.\n"), strerror(errno)); goto shm_fail1; } frame->image = shmat(shmid, 0, 0); if (frame->image == ((void *) -1)) { xprintf(this->xine, XINE_VERBOSITY_LOG, _("video_out_xcbshm: shared memory error (address error) when allocating image \n" "video_out_xcbshm: => not using MIT Shared Memory extension.\n")); goto shm_fail2; } frame->shmseg = xcb_generate_id(this->connection); shm_attach_cookie = xcb_shm_attach_checked(this->connection, frame->shmseg, shmid, 0); generic_error = xcb_request_check(this->connection, shm_attach_cookie); if (generic_error != NULL) { xprintf(this->xine, XINE_VERBOSITY_LOG, _("video_out_xcbshm: x11 error during shared memory XImage creation\n" "video_out_xcbshm: => not using MIT Shared Memory extension.\n")); free(generic_error); goto shm_fail3; } /* * Now that the Xserver has learned about and attached to the * shared memory segment, delete it. It's actually deleted by * the kernel when all users of that segment have detached from * it. Gives an automatic shared memory cleanup in case we crash. */ shmctl(shmid, IPC_RMID, 0); return; shm_fail3: frame->shmseg = 0; shmdt(frame->image); shm_fail2: shmctl(shmid, IPC_RMID, 0); shm_fail1: this->use_shm = 0; } /* * fall back to plain X11 if necessary */ frame->image = malloc(frame->bytes_per_line * height); } static void dispose_ximage(xshm_driver_t *this, xshm_frame_t *frame) { if (frame->shmseg) { xcb_shm_detach(this->connection, frame->shmseg); frame->shmseg = 0; shmdt(frame->image); } else free(frame->image); frame->image = NULL; } /* * and now, the driver functions */ static uint32_t xshm_get_capabilities (vo_driver_t *this_gen) { xshm_driver_t *this = (xshm_driver_t *) this_gen; uint32_t capabilities = VO_CAP_YV12 | VO_CAP_YUY2; if( this->xoverlay ) capabilities |= VO_CAP_UNSCALED_OVERLAY; return capabilities; } static void xshm_frame_proc_slice (vo_frame_t *vo_img, uint8_t **src) { xshm_frame_t *frame = (xshm_frame_t *) vo_img ; /*xshm_driver_t *this = (xshm_driver_t *) vo_img->driver; */ vo_img->proc_called = 1; if( frame->vo_frame.crop_left || frame->vo_frame.crop_top || frame->vo_frame.crop_right || frame->vo_frame.crop_bottom ) { /* we don't support crop, so don't even waste cpu cycles. * cropping will be performed by video_out.c */ return; } lprintf ("copy... (format %d)\n", frame->format); if (frame->format == XINE_IMGFMT_YV12) frame->yuv2rgb->yuv2rgb_fun (frame->yuv2rgb, frame->rgb_dst, src[0], src[1], src[2]); else frame->yuv2rgb->yuy22rgb_fun (frame->yuv2rgb, frame->rgb_dst, src[0]); lprintf ("copy...done\n"); } static void xshm_frame_field (vo_frame_t *vo_img, int which_field) { xshm_frame_t *frame = (xshm_frame_t *) vo_img ; /* xshm_driver_t *this = (xshm_driver_t *) vo_img->driver; */ switch (which_field) { case VO_TOP_FIELD: frame->rgb_dst = frame->image; break; case VO_BOTTOM_FIELD: frame->rgb_dst = frame->image + frame->bytes_per_line; break; case VO_BOTH_FIELDS: frame->rgb_dst = frame->image; break; } frame->yuv2rgb->next_slice (frame->yuv2rgb, NULL); } static void xshm_frame_dispose (vo_frame_t *vo_img) { xshm_frame_t *frame = (xshm_frame_t *) vo_img ; xshm_driver_t *this = (xshm_driver_t *) vo_img->driver; if (frame->image) { pthread_mutex_lock(&this->main_mutex); dispose_ximage(this, frame); pthread_mutex_unlock(&this->main_mutex); } frame->yuv2rgb->dispose (frame->yuv2rgb); free (frame->chunk[0]); free (frame->chunk[1]); free (frame->chunk[2]); free (frame); } static vo_frame_t *xshm_alloc_frame (vo_driver_t *this_gen) { xshm_frame_t *frame; xshm_driver_t *this = (xshm_driver_t *) this_gen; frame = (xshm_frame_t *) calloc(1, sizeof(xshm_frame_t)); if (!frame) return NULL; memcpy (&frame->sc, &this->sc, sizeof(vo_scale_t)); pthread_mutex_init (&frame->vo_frame.mutex, NULL); /* * supply required functions/fields */ frame->vo_frame.proc_slice = xshm_frame_proc_slice; frame->vo_frame.proc_frame = NULL; frame->vo_frame.field = xshm_frame_field; frame->vo_frame.dispose = xshm_frame_dispose; frame->vo_frame.driver = this_gen; /* * colorspace converter for this frame */ frame->yuv2rgb = this->yuv2rgb_factory->create_converter (this->yuv2rgb_factory); return (vo_frame_t *) frame; } static void xshm_compute_ideal_size (xshm_driver_t *this, xshm_frame_t *frame) { _x_vo_scale_compute_ideal_size( &frame->sc ); } static void xshm_compute_rgb_size (xshm_driver_t *this, xshm_frame_t *frame) { _x_vo_scale_compute_output_size( &frame->sc ); /* avoid problems in yuv2rgb */ if (frame->sc.output_height < 1) frame->sc.output_height = 1; if (frame->sc.output_width < 8) frame->sc.output_width = 8; if (frame->sc.output_width & 1) /* yuv2rgb_mlib needs an even YUV2 width */ frame->sc.output_width++; lprintf("frame source (%d) %d x %d => screen output %d x %d%s\n", frame->vo_frame.id, frame->sc.delivered_width, frame->sc.delivered_height, frame->sc.output_width, frame->sc.output_height, ( frame->sc.delivered_width != frame->sc.output_width || frame->sc.delivered_height != frame->sc.output_height ? ", software scaling" : "" ) ); } static void xshm_update_frame_format (vo_driver_t *this_gen, vo_frame_t *frame_gen, uint32_t width, uint32_t height, double ratio, int format, int flags) { xshm_driver_t *this = (xshm_driver_t *) this_gen; xshm_frame_t *frame = (xshm_frame_t *) frame_gen; int do_adapt; int gui_width; int gui_height; double gui_pixel_aspect; flags &= VO_BOTH_FIELDS; /* ask gui what output size we'll have for this frame */ /* get the gui_pixel_aspect before calling xshm_compute_ideal_size() */ /* note: gui_width and gui_height may be bogus because we may have not yet*/ /* updated video_pixel_aspect (see _x_vo_scale_compute_ideal_size). */ frame->sc.dest_size_cb (frame->sc.user_data, width, height, frame->sc.video_pixel_aspect, &gui_width, &gui_height, &gui_pixel_aspect); /* find out if we need to adapt this frame */ do_adapt = 0; if ((width != frame->sc.delivered_width) || (height != frame->sc.delivered_height) || (ratio != frame->sc.delivered_ratio) || (flags != frame->flags) || (format != frame->format) || (gui_pixel_aspect != frame->sc.gui_pixel_aspect) || (this->sc.user_ratio != frame->sc.user_ratio)) { do_adapt = 1; lprintf ("frame format (from decoder) has changed => adapt\n"); frame->sc.delivered_width = width; frame->sc.delivered_height = height; frame->sc.delivered_ratio = ratio; frame->sc.gui_pixel_aspect = gui_pixel_aspect; frame->flags = flags; frame->format = format; frame->sc.user_ratio = this->sc.user_ratio; xshm_compute_ideal_size (this, frame); /* now we have updated video_aspect_pixel we use the callback */ /* again to obtain the correct gui_width and gui_height values. */ frame->sc.dest_size_cb (frame->sc.user_data, width, height, frame->sc.video_pixel_aspect, &gui_width, &gui_height, &gui_pixel_aspect); } if ((frame->sc.gui_width != gui_width) || (frame->sc.gui_height != gui_height) || do_adapt) { do_adapt = 1; frame->sc.gui_width = gui_width; frame->sc.gui_height = gui_height; xshm_compute_rgb_size (this, frame); lprintf ("gui_size has changed => adapt\n"); } /* ok, now do what we have to do */ if (do_adapt) { lprintf ("updating frame to %d x %d\n", frame->sc.output_width, frame->sc.output_height); pthread_mutex_lock(&this->main_mutex); /* * (re-) allocate XImage */ if (frame->image) { dispose_ximage(this, frame); if (frame->chunk[0]){ free (frame->chunk[0]); frame->chunk[0] = NULL; } if (frame->chunk[1]) { free (frame->chunk[1]); frame->chunk[1] = NULL; } if (frame->chunk[2]) { free (frame->chunk[2]); frame->chunk[2] = NULL; } } create_ximage(this, frame, frame->sc.output_width, frame->sc.output_height); pthread_mutex_unlock(&this->main_mutex); if (format == XINE_IMGFMT_YV12) { frame->vo_frame.pitches[0] = 8*((width + 7) / 8); frame->vo_frame.pitches[1] = 8*((width + 15) / 16); frame->vo_frame.pitches[2] = 8*((width + 15) / 16); frame->vo_frame.base[0] = xine_xmalloc_aligned (16, frame->vo_frame.pitches[0] * height, (void **) &frame->chunk[0]); frame->vo_frame.base[1] = xine_xmalloc_aligned (16, frame->vo_frame.pitches[1] * ((height+1)/2), (void **) &frame->chunk[1]); frame->vo_frame.base[2] = xine_xmalloc_aligned (16, frame->vo_frame.pitches[2] * ((height+1)/2), (void **) &frame->chunk[2]); } else { frame->vo_frame.pitches[0] = 8*((width + 3) / 4); frame->vo_frame.base[0] = xine_xmalloc_aligned (16, frame->vo_frame.pitches[0] * height, (void **) &frame->chunk[0]); frame->chunk[1] = NULL; frame->chunk[2] = NULL; } lprintf ("stripe out_ht=%i, deliv_ht=%i\n", frame->sc.output_height, frame->sc.delivered_height); /* * set up colorspace converter */ switch (flags) { case VO_TOP_FIELD: case VO_BOTTOM_FIELD: frame->yuv2rgb->configure (frame->yuv2rgb, frame->sc.delivered_width, frame->sc.delivered_height, 2*frame->vo_frame.pitches[0], 2*frame->vo_frame.pitches[1], frame->sc.output_width, frame->sc.output_height, frame->bytes_per_line*2); break; case VO_BOTH_FIELDS: frame->yuv2rgb->configure (frame->yuv2rgb, frame->sc.delivered_width, frame->sc.delivered_height, frame->vo_frame.pitches[0], frame->vo_frame.pitches[1], frame->sc.output_width, frame->sc.output_height, frame->bytes_per_line); break; } } xshm_frame_field ((vo_frame_t *)frame, flags); } static void xshm_overlay_clut_yuv2rgb(xshm_driver_t *this, vo_overlay_t *overlay, xshm_frame_t *frame) { size_t i; clut_t* clut = (clut_t*) overlay->color; if (!overlay->rgb_clut) { for (i = 0; i < sizeof(overlay->color)/sizeof(overlay->color[0]); i++) { *((uint32_t *)&clut[i]) = frame->yuv2rgb->yuv2rgb_single_pixel_fun (frame->yuv2rgb, clut[i].y, clut[i].cb, clut[i].cr); } overlay->rgb_clut++; } if (!overlay->hili_rgb_clut) { clut = (clut_t*) overlay->hili_color; for (i = 0; i < sizeof(overlay->color)/sizeof(overlay->color[0]); i++) { *((uint32_t *)&clut[i]) = frame->yuv2rgb->yuv2rgb_single_pixel_fun(frame->yuv2rgb, clut[i].y, clut[i].cb, clut[i].cr); } overlay->hili_rgb_clut++; } } static void xshm_overlay_begin (vo_driver_t *this_gen, vo_frame_t *frame_gen, int changed) { xshm_driver_t *this = (xshm_driver_t *) this_gen; this->ovl_changed += changed; if( this->ovl_changed && this->xoverlay ) { pthread_mutex_lock(&this->main_mutex); xcbosd_clear(this->xoverlay); pthread_mutex_unlock(&this->main_mutex); } this->alphablend_extra_data.offset_x = frame_gen->overlay_offset_x; this->alphablend_extra_data.offset_y = frame_gen->overlay_offset_y; } static void xshm_overlay_end (vo_driver_t *this_gen, vo_frame_t *vo_img) { xshm_driver_t *this = (xshm_driver_t *) this_gen; if( this->ovl_changed && this->xoverlay ) { pthread_mutex_lock(&this->main_mutex); xcbosd_expose(this->xoverlay); pthread_mutex_unlock(&this->main_mutex); } this->ovl_changed = 0; } static void xshm_overlay_blend (vo_driver_t *this_gen, vo_frame_t *frame_gen, vo_overlay_t *overlay) { xshm_driver_t *this = (xshm_driver_t *) this_gen; xshm_frame_t *frame = (xshm_frame_t *) frame_gen; /* Alpha Blend here */ if (overlay->rle) { if( overlay->unscaled ) { if( this->ovl_changed && this->xoverlay ) { pthread_mutex_lock(&this->main_mutex); xcbosd_blend(this->xoverlay, overlay); pthread_mutex_unlock(&this->main_mutex); } } else { if (!overlay->rgb_clut || !overlay->hili_rgb_clut) xshm_overlay_clut_yuv2rgb (this, overlay, frame); switch (this->bpp) { case 16: _x_blend_rgb16(frame->image, overlay, frame->sc.output_width, frame->sc.output_height, frame->sc.delivered_width, frame->sc.delivered_height, &this->alphablend_extra_data); break; case 24: _x_blend_rgb24(frame->image, overlay, frame->sc.output_width, frame->sc.output_height, frame->sc.delivered_width, frame->sc.delivered_height, &this->alphablend_extra_data); break; case 32: _x_blend_rgb32(frame->image, overlay, frame->sc.output_width, frame->sc.output_height, frame->sc.delivered_width, frame->sc.delivered_height, &this->alphablend_extra_data); break; default: xprintf(this->xine, XINE_VERBOSITY_DEBUG, "xine-lib:video_out_xcbshm:xshm_overlay_blend: Cannot blend bpp:%i\n", this->bpp); /* it should never get here, unless a user tries to play in bpp:8 */ break; } } } } static void clean_output_area (xshm_driver_t *this, xshm_frame_t *frame) { int i; xcb_rectangle_t rects[4]; int rects_count = 0; memcpy( this->sc.border, frame->sc.border, sizeof(this->sc.border) ); pthread_mutex_lock(&this->main_mutex); for( i = 0; i < 4; i++ ) { if( this->sc.border[i].w && this->sc.border[i].h ) rects[rects_count].x = this->sc.border[i].x; rects[rects_count].y = this->sc.border[i].y; rects[rects_count].width = this->sc.border[i].w; rects[rects_count].height = this->sc.border[i].h; rects_count++; } if (rects_count > 0) xcb_poly_fill_rectangle(this->connection, this->window, this->gc, rects_count, rects); if (this->xoverlay) { xcbosd_resize(this->xoverlay, this->sc.gui_width, this->sc.gui_height); this->ovl_changed = 1; } pthread_mutex_unlock(&this->main_mutex); } static int xshm_redraw_needed (vo_driver_t *this_gen) { xshm_driver_t *this = (xshm_driver_t *) this_gen; int ret = 0; if( this->cur_frame ) { this->sc.delivered_height = this->cur_frame->sc.delivered_height; this->sc.delivered_width = this->cur_frame->sc.delivered_width; this->sc.video_pixel_aspect = this->cur_frame->sc.video_pixel_aspect; if( _x_vo_scale_redraw_needed( &this->sc ) ) { clean_output_area (this, this->cur_frame); ret = 1; } } else ret = 1; return ret; } static void xshm_display_frame (vo_driver_t *this_gen, vo_frame_t *frame_gen) { xshm_driver_t *this = (xshm_driver_t *) this_gen; xshm_frame_t *frame = (xshm_frame_t *) frame_gen; lprintf ("display frame...\n"); lprintf ("about to draw frame (%d) %d x %d...\n", frame->vo_frame.id, frame->sc.output_width, frame->sc.output_height); /* * tell gui that we are about to display a frame, * ask for offset */ this->sc.delivered_height = frame->sc.delivered_height; this->sc.delivered_width = frame->sc.delivered_width; this->sc.video_pixel_aspect = frame->sc.video_pixel_aspect; if( _x_vo_scale_redraw_needed( &this->sc ) ) { clean_output_area (this, frame); } if (this->cur_frame) { if ( (this->cur_frame->sc.output_width != frame->sc.output_width) || (this->cur_frame->sc.output_height != frame->sc.output_height) || (this->cur_frame->sc.output_xoffset != frame->sc.output_xoffset) || (this->cur_frame->sc.output_yoffset != frame->sc.output_yoffset) ) clean_output_area (this, frame); this->cur_frame->vo_frame.free (&this->cur_frame->vo_frame); } this->cur_frame = frame; pthread_mutex_lock(&this->main_mutex); lprintf ("display locked...\n"); if (frame->shmseg) { lprintf ("put image (shm)\n"); xcb_shm_put_image(this->connection, this->window, this->gc, this->cur_frame->sc.output_width, this->cur_frame->sc.output_height, 0, 0, this->cur_frame->sc.output_width, this->cur_frame->sc.output_height, this->cur_frame->sc.output_xoffset, this->cur_frame->sc.output_yoffset, this->depth, XCB_IMAGE_FORMAT_Z_PIXMAP, 0, this->cur_frame->shmseg, 0); } else { lprintf ("put image (plain/remote)\n"); xcb_put_image(this->connection, XCB_IMAGE_FORMAT_Z_PIXMAP, this->window, this->gc, frame->sc.output_width, frame->sc.output_height, frame->sc.output_xoffset, frame->sc.output_yoffset, 0, this->depth, frame->bytes_per_line * frame->sc.output_height, frame->image); } xcb_flush(this->connection); pthread_mutex_unlock(&this->main_mutex); lprintf ("display frame done\n"); } static int xshm_get_property (vo_driver_t *this_gen, int property) { xshm_driver_t *this = (xshm_driver_t *) this_gen; switch (property) { case VO_PROP_ASPECT_RATIO: return this->sc.user_ratio; case VO_PROP_MAX_NUM_FRAMES: return 15; case VO_PROP_BRIGHTNESS: return this->yuv2rgb_brightness; case VO_PROP_CONTRAST: return this->yuv2rgb_contrast; case VO_PROP_SATURATION: return this->yuv2rgb_saturation; case VO_PROP_WINDOW_WIDTH: return this->sc.gui_width; case VO_PROP_WINDOW_HEIGHT: return this->sc.gui_height; case VO_PROP_OUTPUT_WIDTH: return this->cur_frame->sc.output_width; case VO_PROP_OUTPUT_HEIGHT: return this->cur_frame->sc.output_height; case VO_PROP_OUTPUT_XOFFSET: return this->cur_frame->sc.output_xoffset; case VO_PROP_OUTPUT_YOFFSET: return this->cur_frame->sc.output_yoffset; default: xprintf(this->xine, XINE_VERBOSITY_DEBUG, "video_out_xcbshm: tried to get unsupported property %d\n", property); } return 0; } static int xshm_set_property (vo_driver_t *this_gen, int property, int value) { xshm_driver_t *this = (xshm_driver_t *) this_gen; if ( property == VO_PROP_ASPECT_RATIO) { if (value>=XINE_VO_ASPECT_NUM_RATIOS) value = XINE_VO_ASPECT_AUTO; this->sc.user_ratio = value; xprintf(this->xine, XINE_VERBOSITY_DEBUG, "video_out_xcbshm: aspect ratio changed to %s\n", _x_vo_scale_aspect_ratio_name(value)); } else if (property == VO_PROP_BRIGHTNESS) { this->yuv2rgb_brightness = value; this->yuv2rgb_factory->set_csc_levels (this->yuv2rgb_factory, this->yuv2rgb_brightness, this->yuv2rgb_contrast, this->yuv2rgb_saturation); this->sc.force_redraw = 1; } else if (property == VO_PROP_CONTRAST) { this->yuv2rgb_contrast = value; this->yuv2rgb_factory->set_csc_levels (this->yuv2rgb_factory, this->yuv2rgb_brightness, this->yuv2rgb_contrast, this->yuv2rgb_saturation); this->sc.force_redraw = 1; } else if (property == VO_PROP_SATURATION) { this->yuv2rgb_saturation = value; this->yuv2rgb_factory->set_csc_levels (this->yuv2rgb_factory, this->yuv2rgb_brightness, this->yuv2rgb_contrast, this->yuv2rgb_saturation); this->sc.force_redraw = 1; } else { xprintf (this->xine, XINE_VERBOSITY_DEBUG, "video_out_xcbshm: tried to set unsupported property %d\n", property); } return value; } static void xshm_get_property_min_max (vo_driver_t *this_gen, int property, int *min, int *max) { /* xshm_driver_t *this = (xshm_driver_t *) this_gen; */ if (property == VO_PROP_BRIGHTNESS) { *min = -128; *max = +127; } else if (property == VO_PROP_CONTRAST) { *min = 0; *max = 255; } else if (property == VO_PROP_SATURATION) { *min = 0; *max = 255; } else { *min = 0; *max = 0; } } static int xshm_gui_data_exchange (vo_driver_t *this_gen, int data_type, void *data) { xshm_driver_t *this = (xshm_driver_t *) this_gen; switch (data_type) { #ifndef XINE_DISABLE_DEPRECATED_FEATURES case XINE_GUI_SEND_COMPLETION_EVENT: break; #endif case XINE_GUI_SEND_EXPOSE_EVENT: lprintf ("expose event\n"); if (this->cur_frame) { xcb_expose_event_t *xev = (xcb_expose_event_t *) data; if (xev && xev->count == 0) { int i; xcb_rectangle_t rects[4]; int rects_count = 0; pthread_mutex_lock(&this->main_mutex); if (this->cur_frame->shmseg) xcb_shm_put_image(this->connection, this->window, this->gc, this->cur_frame->sc.output_width, this->cur_frame->sc.output_height, 0, 0, this->cur_frame->sc.output_width, this->cur_frame->sc.output_height, this->cur_frame->sc.output_xoffset, this->cur_frame->sc.output_yoffset, this->depth, XCB_IMAGE_FORMAT_Z_PIXMAP, 0, this->cur_frame->shmseg, 0); else xcb_put_image(this->connection, XCB_IMAGE_FORMAT_Z_PIXMAP, this->window, this->gc, this->cur_frame->sc.output_width, this->cur_frame->sc.output_height, this->cur_frame->sc.output_xoffset, this->cur_frame->sc.output_yoffset, 0, this->depth, this->cur_frame->bytes_per_line * this->cur_frame->sc.output_height, this->cur_frame->image); for( i = 0; i < 4; i++ ) { if( this->sc.border[i].w && this->sc.border[i].h ) rects[rects_count].x = this->sc.border[i].x; rects[rects_count].y = this->sc.border[i].y; rects[rects_count].width = this->sc.border[i].w; rects[rects_count].height = this->sc.border[i].h; rects_count++; } if (rects_count > 0) xcb_poly_fill_rectangle(this->connection, this->window, this->gc, rects_count, rects); if(this->xoverlay) xcbosd_expose(this->xoverlay); xcb_flush(this->connection); pthread_mutex_unlock(&this->main_mutex); } } break; case XINE_GUI_SEND_DRAWABLE_CHANGED: this->window = (xcb_window_t) data; pthread_mutex_lock(&this->main_mutex); xcb_free_gc(this->connection, this->gc); this->gc = xcb_generate_id(this->connection); xcb_create_gc(this->connection, this->gc, this->window, XCB_GC_FOREGROUND, &this->screen->black_pixel); if(this->xoverlay) xcbosd_drawable_changed(this->xoverlay, this->window); this->ovl_changed = 1; pthread_mutex_unlock(&this->main_mutex); break; case XINE_GUI_SEND_TRANSLATE_GUI_TO_VIDEO: if (this->cur_frame) { x11_rectangle_t *rect = data; int x1, y1, x2, y2; _x_vo_scale_translate_gui2video(&this->cur_frame->sc, rect->x, rect->y, &x1, &y1); _x_vo_scale_translate_gui2video(&this->cur_frame->sc, rect->x + rect->w, rect->y + rect->h, &x2, &y2); rect->x = x1; rect->y = y1; rect->w = x2-x1; rect->h = y2-y1; } break; default: return -1; } return 0; } static void xshm_dispose (vo_driver_t *this_gen) { xshm_driver_t *this = (xshm_driver_t *) this_gen; if (this->cur_frame) this->cur_frame->vo_frame.dispose (&this->cur_frame->vo_frame); this->yuv2rgb_factory->dispose (this->yuv2rgb_factory); pthread_mutex_lock(&this->main_mutex); xcb_free_gc(this->connection, this->gc); pthread_mutex_unlock(&this->main_mutex); if( this->xoverlay ) { pthread_mutex_lock(&this->main_mutex); xcbosd_destroy(this->xoverlay); pthread_mutex_unlock(&this->main_mutex); } pthread_mutex_destroy(&this->main_mutex); _x_alphablend_free(&this->alphablend_extra_data); free (this); } static int ImlibPaletteLUTGet(xshm_driver_t *this) { static const xcb_atom_t CARDINAL = 6; xcb_intern_atom_cookie_t atom_cookie; xcb_intern_atom_reply_t *atom_reply; xcb_get_property_cookie_t prop_cookie; xcb_get_property_reply_t *prop_reply; atom_cookie = xcb_intern_atom(this->connection, 0, sizeof("_IMLIB_COLORMAP"), "_IMLIB_COLORMAP"); atom_reply = xcb_intern_atom_reply(this->connection, atom_cookie, NULL); if (atom_reply == NULL) return 0; prop_cookie = xcb_get_property(this->connection, 0, this->window, atom_reply->atom, CARDINAL, 0, 0x7fffffff); prop_reply = xcb_get_property_reply(this->connection, prop_cookie, NULL); free(atom_reply); if (prop_reply == NULL) return 0; if (prop_reply->format == 8) { unsigned int i; unsigned long j; int num_ret = xcb_get_property_value_length(prop_reply); char *retval = xcb_get_property_value(prop_reply); j = 1 + retval[0]*4; this->yuv2rgb_cmap = malloc(sizeof(uint8_t) * 32 * 32 * 32); for (i = 0; i < 32 * 32 * 32 && j < num_ret; i++) this->yuv2rgb_cmap[i] = retval[1+4*retval[j++]+3]; free(prop_reply); return 1; } free(prop_reply); return 0; } static char *visual_class_name(xcb_visualtype_t *visual) { switch (visual->_class) { case XCB_VISUAL_CLASS_STATIC_GRAY: return "StaticGray"; case XCB_VISUAL_CLASS_GRAY_SCALE: return "GrayScale"; case XCB_VISUAL_CLASS_STATIC_COLOR: return "StaticColor"; case XCB_VISUAL_CLASS_PSEUDO_COLOR: return "PseudoColor"; case XCB_VISUAL_CLASS_TRUE_COLOR: return "TrueColor"; case XCB_VISUAL_CLASS_DIRECT_COLOR: return "DirectColor"; default: return "unknown visual class"; } } static vo_driver_t *xshm_open_plugin(video_driver_class_t *class_gen, const void *visual_gen) { xshm_class_t *class = (xshm_class_t *) class_gen; config_values_t *config = class->config; xcb_visual_t *visual = (xcb_visual_t *) visual_gen; xshm_driver_t *this; xcb_visualtype_t *visualtype; int mode; int swapped; int cpu_byte_order; int image_byte_order; xcb_get_window_attributes_cookie_t window_attrs_cookie; xcb_get_window_attributes_reply_t *window_attrs_reply; xcb_get_geometry_cookie_t geometry_cookie; xcb_get_geometry_reply_t *geometry_reply; const xcb_query_extension_reply_t *query_extension_reply; this = (xshm_driver_t *) calloc(1, sizeof(xshm_driver_t)); if (!this) return NULL; pthread_mutex_init(&this->main_mutex, NULL); _x_alphablend_init(&this->alphablend_extra_data, class->xine); this->connection = visual->connection; this->screen = visual->screen; this->window = visual->window; _x_vo_scale_init( &this->sc, 0, 0, config ); this->sc.frame_output_cb = visual->frame_output_cb; this->sc.dest_size_cb = visual->dest_size_cb; this->sc.user_data = visual->user_data; this->sc.user_ratio = XINE_VO_ASPECT_AUTO; this->cur_frame = NULL; this->gc = xcb_generate_id(this->connection); xcb_create_gc(this->connection, this->gc, this->window, XCB_GC_FOREGROUND, &this->screen->black_pixel); this->xoverlay = NULL; this->ovl_changed = 0; this->xine = class->xine; this->vo_driver.get_capabilities = xshm_get_capabilities; this->vo_driver.alloc_frame = xshm_alloc_frame; this->vo_driver.update_frame_format = xshm_update_frame_format; this->vo_driver.overlay_begin = xshm_overlay_begin; this->vo_driver.overlay_blend = xshm_overlay_blend; this->vo_driver.overlay_end = xshm_overlay_end; this->vo_driver.display_frame = xshm_display_frame; this->vo_driver.get_property = xshm_get_property; this->vo_driver.set_property = xshm_set_property; this->vo_driver.get_property_min_max = xshm_get_property_min_max; this->vo_driver.gui_data_exchange = xshm_gui_data_exchange; this->vo_driver.dispose = xshm_dispose; this->vo_driver.redraw_needed = xshm_redraw_needed; /* * * depth in X11 terminology land is the number of bits used to * actually represent the colour. * * bpp in X11 land means how many bits in the frame buffer per * pixel. * * ex. 15 bit color is 15 bit depth and 16 bpp. Also 24 bit * color is 24 bit depth, but can be 24 bpp or 32 bpp. */ window_attrs_cookie = xcb_get_window_attributes(this->connection, this->window); geometry_cookie = xcb_get_geometry(this->connection, this->window); xcb_prefetch_extension_data(this->connection, &xcb_shm_id); window_attrs_reply = xcb_get_window_attributes_reply(this->connection, window_attrs_cookie, NULL); visualtype = NULL; { xcb_depth_t *depth = xcb_screen_allowed_depths_iterator(this->screen).data; xcb_visualtype_t *vis = xcb_depth_visuals(depth); xcb_visualtype_t *vis_end = vis + xcb_depth_visuals_length(depth); for (; vis != vis_end; ++vis) if (window_attrs_reply->visual == vis->visual_id) { visualtype = vis; break; } } free(window_attrs_reply); geometry_reply = xcb_get_geometry_reply(this->connection, geometry_cookie, NULL); this->depth = geometry_reply->depth; free(geometry_reply); if (this->depth>16) xprintf(this->xine, XINE_VERBOSITY_LOG, _("\n\nWARNING: current display depth is %d. For better performance\n" "a depth of 16 bpp is recommended!\n\n"), this->depth); /* * check for X shared memory support */ query_extension_reply = xcb_get_extension_data(this->connection, &xcb_shm_id); if (query_extension_reply && query_extension_reply->present) { this->use_shm = 1; } else { xprintf(this->xine, XINE_VERBOSITY_LOG, _("video_out_xcbshm: MIT shared memory extension not present on display.\n")); this->use_shm = 0; } { const xcb_setup_t *setup = xcb_get_setup(this->connection); xcb_format_t *fmt = xcb_setup_pixmap_formats(setup); xcb_format_t *fmt_end = fmt + xcb_setup_pixmap_formats_length(setup); for (; fmt != fmt_end; ++fmt) if(fmt->depth == this->depth) { this->bpp = fmt->bits_per_pixel; this->scanline_pad = fmt->scanline_pad; break; } if (fmt == fmt_end) { if (this->depth <= 4) this->bpp = 4; else if (this->depth <= 8) this->bpp = 8; else if (this->depth <= 16) this->bpp = 16; else this->bpp = 32; this->scanline_pad = setup->bitmap_format_scanline_pad; } image_byte_order = setup->image_byte_order; } /* * Is the same byte order in use on the X11 client and server? */ cpu_byte_order = htonl(1) == 1 ? XCB_IMAGE_ORDER_MSB_FIRST : XCB_IMAGE_ORDER_LSB_FIRST; swapped = cpu_byte_order != image_byte_order; xprintf(this->xine, XINE_VERBOSITY_DEBUG, "video_out_xcbshm: video mode depth is %d (%d bpp), %s, %sswapped,\n" "\tred: %08x, green: %08x, blue: %08x\n", this->depth, this->bpp, visual_class_name(visualtype), swapped ? "" : "not ", visualtype->red_mask, visualtype->green_mask, visualtype->blue_mask); mode = 0; switch (visualtype->_class) { case XCB_VISUAL_CLASS_TRUE_COLOR: switch (this->depth) { case 24: case 32: if (this->bpp == 32) { if (visualtype->red_mask == 0x00ff0000) mode = MODE_32_RGB; else mode = MODE_32_BGR; } else { if (visualtype->red_mask == 0x00ff0000) mode = MODE_24_RGB; else mode = MODE_24_BGR; } break; case 16: if (visualtype->red_mask == 0xf800) mode = MODE_16_RGB; else mode = MODE_16_BGR; break; case 15: if (visualtype->red_mask == 0x7C00) mode = MODE_15_RGB; else mode = MODE_15_BGR; break; case 8: if (visualtype->red_mask == 0xE0) mode = MODE_8_RGB; /* Solaris x86: RGB332 */ else mode = MODE_8_BGR; /* XFree86: BGR233 */ break; } break; case XCB_VISUAL_CLASS_STATIC_GRAY: if (this->depth == 8) mode = MODE_8_GRAY; break; case XCB_VISUAL_CLASS_PSEUDO_COLOR: case XCB_VISUAL_CLASS_GRAY_SCALE: if (this->depth <= 8 && ImlibPaletteLUTGet(this)) mode = MODE_PALETTE; break; } if (!mode) { xprintf (this->xine, XINE_VERBOSITY_LOG, _("video_out_xcbshm: your video mode was not recognized, sorry :-(\n")); return NULL; } this->yuv2rgb_brightness = 0; this->yuv2rgb_contrast = 128; this->yuv2rgb_saturation = 128; this->yuv2rgb_factory = yuv2rgb_factory_init (mode, swapped, this->yuv2rgb_cmap); this->yuv2rgb_factory->set_csc_levels (this->yuv2rgb_factory, this->yuv2rgb_brightness, this->yuv2rgb_contrast, this->yuv2rgb_saturation); this->xoverlay = xcbosd_create(this->xine, this->connection, this->screen, this->window, XCBOSD_SHAPED); return &this->vo_driver; } /* * class functions */ static char* xshm_get_identifier (video_driver_class_t *this_gen) { return "XShm"; } static char* xshm_get_description (video_driver_class_t *this_gen) { return _("xine video output plugin using the MIT X shared memory extension"); } static void xshm_dispose_class (video_driver_class_t *this_gen) { xshm_class_t *this = (xshm_class_t *) this_gen; free (this); } static void *xshm_init_class (xine_t *xine, void *visual_gen) { xshm_class_t *this = (xshm_class_t *) calloc(1, sizeof(xshm_class_t)); this->driver_class.open_plugin = xshm_open_plugin; this->driver_class.get_identifier = xshm_get_identifier; this->driver_class.get_description = xshm_get_description; this->driver_class.dispose = xshm_dispose_class; this->config = xine->config; this->xine = xine; return this; } static const vo_info_t vo_info_xshm = { 6, /* priority */ XINE_VISUAL_TYPE_XCB /* visual type */ }; /* * exported plugin catalog entry */ const plugin_info_t xine_plugin_info[] EXPORTED = { /* type, API, "name", version, special_info, init_function */ { PLUGIN_VIDEO_OUT, 21, "xshm", XINE_VERSION_CODE, &vo_info_xshm, xshm_init_class }, { PLUGIN_NONE, 0, "", 0, NULL, NULL } };