/* * Copyright (C) 2000-2002 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA * * $Id: video_out_pgx64.c,v 1.33 2003/08/12 00:43:48 komadori Exp $ * * video_out_pgx64.c, Sun PGX64/PGX24 output plugin for xine * * written and currently maintained by Robin Kay * */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include #include #include #include #include #include "xine_internal.h" #include "alphablend.h" #include "bswap.h" #include "vo_scale.h" #include "xineutils.h" #define ADDRSPACE 8388608 #define REGBASE 8386560 #define BUS_CNTL 0x128 #define BUS_EXT_REG_EN 0x08000000 #define SCALER_H_COEFF0 0x055 #define SCALER_H_COEFF0_DEFAULT 0x00002000 #define SCALER_H_COEFF1 0x056 #define SCALER_H_COEFF1_DEFAULT 0x0D06200D #define SCALER_H_COEFF2 0x057 #define SCALER_H_COEFF2_DEFAULT 0x0D0A1C0D #define SCALER_H_COEFF3 0x058 #define SCALER_H_COEFF3_DEFAULT 0x0C0E1A0C #define SCALER_H_COEFF4 0x059 #define SCALER_H_COEFF4_DEFAULT 0x0C14140C #define OVERLAY_GRAPHICS_KEY_CLR 0x004 #define OVERLAY_GRAPHICS_KEY_MSK 0x005 #define OVERLAY_KEY_CNTL 0x006 #define OVERLAY_KEY_EN 0x00000050 #define SCALER_COLOUR_CNTL 0x054 #define SCALER_BUF0_OFFSET 0x00D #define SCALER_BUF0_OFFSET_U 0x075 #define SCALER_BUF0_OFFSET_V 0x076 #define SCALER_BUF1_OFFSET 0x00E #define SCALER_BUF1_OFFSET_U 0x077 #define SCALER_BUF1_OFFSET_V 0x078 #define SCALER_BUF_PITCH 0x00F #define VIDEO_FORMAT 0x012 #define VIDEO_FORMAT_YUV12 0x000A0000 #define VIDEO_FORMAT_YUY2 0x000B0000 #define CAPTURE_CONFIG 0x014 #define CAPTURE_CONFIG_BUF0 0x00000000 #define CAPTURE_CONFIG_BUF1 0x20000000 #define OVERLAY_X_Y_START 0x000 #define OVERLAY_X_Y_END 0x001 #define OVERLAY_X_Y_LOCK 0x80000000 #define OVERLAY_SCALE_INC 0x008 #define SCALER_HEIGHT_WIDTH 0x00A #define OVERLAY_EXCLUSIVE_HORZ 0x016 #define OVERLAY_EXCLUSIVE_VERT 0x017 #define OVERLAY_EXCLUSIVE_EN 0x80000000 #define OVERLAY_SCALE_CNTL 0x009 #define OVERLAY_SCALE_EN 0xC0000000 typedef struct { video_driver_class_t vo_driver_class; xine_t *xine; config_values_t *config; pthread_mutex_t mutex; int instance_count; } pgx64_driver_class_t; typedef struct { vo_frame_t vo_frame; int lengths[3]; int width, height, pitch, format, native_format; double ratio; } pgx64_frame_t; typedef struct { vo_driver_t vo_driver; vo_scale_t vo_scale; pgx64_driver_class_t *class; pgx64_frame_t *current; Display *display; int screen; Drawable drawable; GC gc; int fbfd; uint8_t *vram; volatile uint32_t *vregs; uint32_t fb_bottom, fb_top, fb_width, fb_height, fb_depth; uint32_t buf_y[2], buf_u[2], buf_v[2]; int allocated, delivered_format, dbl_buf_en, buf_num; int colour_key, brightness, saturation; int use_deinterlace, use_exclusive; } pgx64_driver_t; /* * Dispose of any allocated image data within a pgx64_frame_t */ static void dispose_frame_internals(pgx64_frame_t *frame) { if (frame->vo_frame.base[0]) { free(frame->vo_frame.base[0]); frame->vo_frame.base[0] = NULL; } if (frame->vo_frame.base[1]) { free(frame->vo_frame.base[1]); frame->vo_frame.base[1] = NULL; } if (frame->vo_frame.base[2]) { free(frame->vo_frame.base[2]); frame->vo_frame.base[2] = NULL; } } /* * Paint the output area with the colour key and black borders */ static void repaint_output_area(pgx64_driver_t *this) { XLockDisplay(this->display); XSetForeground(this->display, this->gc, BlackPixel(this->display, this->screen)); XFillRectangle(this->display, this->drawable, this->gc, this->vo_scale.border[0].x, this->vo_scale.border[0].y, this->vo_scale.border[0].w, this->vo_scale.border[0].h); XFillRectangle(this->display, this->drawable, this->gc, this->vo_scale.border[1].x, this->vo_scale.border[1].y, this->vo_scale.border[1].w, this->vo_scale.border[1].h); XFillRectangle(this->display, this->drawable, this->gc, this->vo_scale.border[2].x, this->vo_scale.border[2].y, this->vo_scale.border[2].w, this->vo_scale.border[2].h); XFillRectangle(this->display, this->drawable, this->gc, this->vo_scale.border[3].x, this->vo_scale.border[3].y, this->vo_scale.border[3].w, this->vo_scale.border[3].h); XSetForeground(this->display, this->gc, this->colour_key); XFillRectangle(this->display, this->drawable, this->gc, this->vo_scale.output_xoffset, this->vo_scale.output_yoffset, this->vo_scale.output_width, this->vo_scale.output_height); XFlush(this->display); XUnlockDisplay(this->display); } /* * Allocate a portion of video memory */ static void vram_free_all(pgx64_driver_t* this) { this->allocated = this->fb_top; } static int vram_alloc(pgx64_driver_t* this, int size) { if (this->allocated - size < this->fb_bottom) { return 0; } else { this->allocated -= size; return this->allocated; } } /* * XINE VIDEO DRIVER FUNCTIONS */ static void pgx64_frame_field(pgx64_frame_t *frame, int which_field) { } static void pgx64_frame_dispose(pgx64_frame_t *frame) { dispose_frame_internals(frame); free(frame); } static uint32_t pgx64_get_capabilities(pgx64_driver_t *this) { return VO_CAP_YV12 | VO_CAP_YUY2 | VO_CAP_COLORKEY | VO_CAP_SATURATION | VO_CAP_BRIGHTNESS; } static pgx64_frame_t* pgx64_alloc_frame(pgx64_driver_t *this) { pgx64_frame_t *frame; frame = (pgx64_frame_t*)malloc(sizeof(pgx64_frame_t)); if (!frame) { printf("video_out_pgx64: frame malloc failed\n"); return NULL; } memset(frame, 0, sizeof(pgx64_frame_t)); pthread_mutex_init(&frame->vo_frame.mutex, NULL); frame->vo_frame.field = (void*)pgx64_frame_field; frame->vo_frame.dispose = (void*)pgx64_frame_dispose; return frame; } static void pgx64_update_frame_format(pgx64_driver_t *this, pgx64_frame_t *frame, uint32_t width, uint32_t height, double ratio, int format, int flags) { if ((width != frame->width) || (height != frame->height) || (ratio != frame->ratio) || (format != frame->format)) { dispose_frame_internals(frame); frame->width = width; frame->height = height; frame->ratio = ratio; frame->format = format; frame->pitch = ((width + 7) / 8) * 8; switch (format) { case XINE_IMGFMT_YUY2: frame->native_format = VIDEO_FORMAT_YUY2; frame->vo_frame.pitches[0] = frame->pitch * 2; frame->lengths[0] = frame->vo_frame.pitches[0] * height; frame->lengths[1] = 0; frame->lengths[2] = 0; frame->vo_frame.base[0] = (void*)memalign(8, frame->lengths[0]); break; case XINE_IMGFMT_YV12: frame->native_format = VIDEO_FORMAT_YUV12; frame->vo_frame.pitches[0] = frame->pitch; frame->vo_frame.pitches[1] = frame->pitch / 2; frame->vo_frame.pitches[2] = frame->pitch / 2; frame->lengths[0] = frame->vo_frame.pitches[0] * height; frame->lengths[1] = frame->vo_frame.pitches[1] * (height / 2); frame->lengths[2] = frame->vo_frame.pitches[2] * (height / 2); frame->vo_frame.base[0] = (void*)memalign(8, frame->lengths[0]); frame->vo_frame.base[1] = (void*)memalign(8, frame->lengths[1]); frame->vo_frame.base[2] = (void*)memalign(8, frame->lengths[2]); break; } } } static void pgx64_display_frame(pgx64_driver_t *this, pgx64_frame_t *frame) { if ((frame->width != this->vo_scale.delivered_width) || (frame->height != this->vo_scale.delivered_height) || (frame->ratio != this->vo_scale.delivered_ratio) || (frame->format != this->delivered_format)) { this->vo_scale.delivered_width = frame->width; this->vo_scale.delivered_height = frame->height; this->vo_scale.delivered_ratio = frame->ratio; this->delivered_format = frame->format; vram_free_all(this); if (((this->buf_y[0] = vram_alloc(this, frame->lengths[0])) == 0) || ((this->buf_u[0] = vram_alloc(this, frame->lengths[1])) == 0) || ((this->buf_v[0] = vram_alloc(this, frame->lengths[2])) == 0)) { printf("video_out_pgx64: insufficient video memory for frame\n"); return; } this->buf_num = 0; this->dbl_buf_en = (((this->buf_y[1] = vram_alloc(this, frame->lengths[0])) != 0) && ((this->buf_u[1] = vram_alloc(this, frame->lengths[1])) != 0) && ((this->buf_v[1] = vram_alloc(this, frame->lengths[2])) != 0)); this->vo_scale.force_redraw = 1; vo_scale_compute_ideal_size(&this->vo_scale); } if (vo_scale_redraw_needed(&this->vo_scale)) { vo_scale_compute_output_size(&this->vo_scale); repaint_output_area(this); this->vregs[BUS_CNTL] |= le2me_32(BUS_EXT_REG_EN); this->vregs[OVERLAY_SCALE_CNTL] = 0; this->vregs[SCALER_H_COEFF0] = le2me_32(SCALER_H_COEFF0_DEFAULT); this->vregs[SCALER_H_COEFF1] = le2me_32(SCALER_H_COEFF1_DEFAULT); this->vregs[SCALER_H_COEFF2] = le2me_32(SCALER_H_COEFF2_DEFAULT); this->vregs[SCALER_H_COEFF3] = le2me_32(SCALER_H_COEFF3_DEFAULT); this->vregs[SCALER_H_COEFF4] = le2me_32(SCALER_H_COEFF4_DEFAULT); this->vregs[CAPTURE_CONFIG] = le2me_32(CAPTURE_CONFIG_BUF0); this->vregs[SCALER_COLOUR_CNTL] = le2me_32((this->saturation<<16) | (this->saturation<<8) | (this->brightness&0x7F)); this->vregs[OVERLAY_KEY_CNTL] = le2me_32(OVERLAY_KEY_EN); this->vregs[OVERLAY_GRAPHICS_KEY_CLR] = le2me_32(this->colour_key); this->vregs[OVERLAY_GRAPHICS_KEY_MSK] = le2me_32(0xffffffff >> (32 - this->fb_depth)); this->vregs[VIDEO_FORMAT] = le2me_32(frame->native_format); this->vregs[SCALER_BUF0_OFFSET] = le2me_32(this->buf_y[0]); this->vregs[SCALER_BUF0_OFFSET_U] = le2me_32(this->buf_u[0]); this->vregs[SCALER_BUF0_OFFSET_V] = le2me_32(this->buf_v[0]); this->vregs[SCALER_BUF1_OFFSET] = le2me_32(this->buf_y[1]); this->vregs[SCALER_BUF1_OFFSET_U] = le2me_32(this->buf_u[1]); this->vregs[SCALER_BUF1_OFFSET_V] = le2me_32(this->buf_v[1]); this->vregs[SCALER_BUF_PITCH] = le2me_32(this->use_deinterlace ? frame->pitch*2 : frame->pitch); this->vregs[OVERLAY_X_Y_START] = le2me_32(((this->vo_scale.gui_win_x + this->vo_scale.output_xoffset) << 16) | (this->vo_scale.gui_win_y + this->vo_scale.output_yoffset) | OVERLAY_X_Y_LOCK); this->vregs[OVERLAY_X_Y_END] = le2me_32(((this->vo_scale.gui_win_x + this->vo_scale.output_xoffset + this->vo_scale.output_width) << 16) | (this->vo_scale.gui_win_y + this->vo_scale.output_yoffset + this->vo_scale.output_height - 1)); this->vregs[OVERLAY_SCALE_INC] = le2me_32((((frame->width << 12) / this->vo_scale.output_width) << 16) | (((this->use_deinterlace ? frame->height/2 : frame->height) << 12) / this->vo_scale.output_height)); this->vregs[SCALER_HEIGHT_WIDTH] = le2me_32((frame->width << 16) | (this->use_deinterlace ? frame->height/2 : frame->height)); if (this->use_exclusive) { int horz_start = (this->vo_scale.gui_win_x + this->vo_scale.output_xoffset + 7) / 8; int horz_end = (this->vo_scale.gui_win_x + this->vo_scale.output_xoffset + this->vo_scale.output_width) / 8; this->vregs[OVERLAY_EXCLUSIVE_VERT] = le2me_32((this->vo_scale.gui_win_y + this->vo_scale.output_yoffset) | ((this->vo_scale.gui_win_y + this->vo_scale.output_yoffset + this->vo_scale.output_height - 1) << 16)); this->vregs[OVERLAY_EXCLUSIVE_HORZ] = le2me_32(horz_start | (horz_end << 8) | ((this->fb_width/8 - horz_end) << 16) | OVERLAY_EXCLUSIVE_EN); } else { this->vregs[OVERLAY_EXCLUSIVE_HORZ] = 0; } this->vregs[OVERLAY_SCALE_CNTL] = le2me_32(OVERLAY_SCALE_EN); } memcpy(this->vram+this->buf_y[this->buf_num], frame->vo_frame.base[0], frame->lengths[0]); if (frame->format == XINE_IMGFMT_YV12) { memcpy(this->vram+this->buf_u[this->buf_num], frame->vo_frame.base[1], frame->lengths[1]); memcpy(this->vram+this->buf_v[this->buf_num], frame->vo_frame.base[2], frame->lengths[2]); } if (this->dbl_buf_en) { this->vregs[CAPTURE_CONFIG] = this->buf_num ? le2me_32(CAPTURE_CONFIG_BUF1) : le2me_32(CAPTURE_CONFIG_BUF0); this->buf_num = 1 - this->buf_num; } if ((this->current != NULL) && (this->current != frame)) { frame->vo_frame.free(&this->current->vo_frame); } this->current = frame; } static void pgx64_overlay_blend(pgx64_driver_t *this, pgx64_frame_t *frame, vo_overlay_t *overlay) { if (overlay->rle) { switch (frame->format) { case XINE_IMGFMT_YV12: { blend_yuv(frame->vo_frame.base, overlay, frame->width, frame->height, frame->vo_frame.pitches); } break; case XINE_IMGFMT_YUY2: { blend_yuy2(frame->vo_frame.base[0], overlay, frame->width, frame->height, frame->vo_frame.pitches[0]); } break; } } } static int pgx64_get_property(pgx64_driver_t *this, int property) { switch (property) { case VO_PROP_INTERLACED: return this->use_deinterlace; break; case VO_PROP_ASPECT_RATIO: return this->vo_scale.user_ratio; break; case VO_PROP_SATURATION: return this->saturation; break; case VO_PROP_BRIGHTNESS: return this->brightness; break; case VO_PROP_COLORKEY: return this->colour_key; break; default: return 0; break; } } static int pgx64_set_property(pgx64_driver_t *this, int property, int value) { switch (property) { case VO_PROP_INTERLACED: { this->use_deinterlace = value; this->vo_scale.force_redraw = 1; } break; case VO_PROP_ASPECT_RATIO: { if (value >= XINE_VO_ASPECT_NUM_RATIOS) { value = XINE_VO_ASPECT_AUTO; } this->vo_scale.user_ratio = value; this->vo_scale.force_redraw = 1; vo_scale_compute_ideal_size(&this->vo_scale); } break; case VO_PROP_SATURATION: { this->saturation = value; this->vo_scale.force_redraw = 1; } break; case VO_PROP_BRIGHTNESS: { this->brightness = value; this->vo_scale.force_redraw = 1; } break; case VO_PROP_COLORKEY: { this->colour_key = value; this->vo_scale.force_redraw = 1; } break; } return value; } static void pgx64_get_property_min_max(pgx64_driver_t *this, int property, int *min, int *max) { switch (property) { case VO_PROP_SATURATION: { *min = 0; *max = 31; } break; case VO_PROP_BRIGHTNESS: { *min = -64; *max = 63; } break; case VO_PROP_COLORKEY: { *min = 0; *max = 0xffffffff >> (32 - this->fb_depth); } default: *min = 0; *max = 0; break; } } static int pgx64_gui_data_exchange(pgx64_driver_t *this, int data_type, void *data) { switch (data_type) { case XINE_GUI_SEND_DRAWABLE_CHANGED: { this->drawable = (Drawable)data; XLockDisplay(this->display); XFreeGC(this->display, this->gc); this->gc = XCreateGC(this->display, this->drawable, 0, NULL); XUnlockDisplay(this->display); } break; case XINE_GUI_SEND_EXPOSE_EVENT: { repaint_output_area(this); } break; case XINE_GUI_SEND_TRANSLATE_GUI_TO_VIDEO: { x11_rectangle_t *rect = data; int x1, y1, x2, y2; vo_scale_translate_gui2video(&this->vo_scale, rect->x, rect->y, &x1, &y1); vo_scale_translate_gui2video(&this->vo_scale, 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; } return 0; } static int pgx64_redraw_needed(pgx64_driver_t *this) { if (vo_scale_redraw_needed(&this->vo_scale)) { if (this->current != NULL) { this->vo_scale.force_redraw = 1; pgx64_display_frame(this, this->current); } return 1; } return 0; } static void pgx64_dispose(pgx64_driver_t *this) { this->vregs[OVERLAY_EXCLUSIVE_HORZ] = 0; this->vregs[OVERLAY_SCALE_CNTL] = 0; this->vregs[BUS_CNTL] &= ~BUS_EXT_REG_EN; munmap(this->vram, ADDRSPACE); close(this->fbfd); pthread_mutex_lock(&this->class->mutex); this->class->instance_count--; pthread_mutex_unlock(&this->class->mutex); free(this); } static void pgx64_config_changed(pgx64_driver_t *this, xine_cfg_entry_t *entry) { if (strcmp(entry->key, "video.pgx64_colour_key") == 0) { pgx64_set_property(this, VO_PROP_COLORKEY, entry->num_value); } else if (strcmp(entry->key, "video.pgx64_brightness") == 0) { pgx64_set_property(this, VO_PROP_BRIGHTNESS, entry->num_value); } else if (strcmp(entry->key, "video.pgx64_saturation") == 0) { pgx64_set_property(this, VO_PROP_SATURATION, entry->num_value); } else if (strcmp(entry->key, "video.pgx64_use_exclusive") == 0) { this->use_exclusive = entry->num_value; this->vo_scale.force_redraw = 1; } } /* * XINE VIDEO DRIVER CLASS FUNCTIONS */ static void pgx64_dispose_class(pgx64_driver_class_t *this) { pthread_mutex_destroy(&this->mutex); free(this); } static vo_info_t vo_info_pgx64 = { 10, XINE_VISUAL_TYPE_X11 }; static pgx64_driver_t* pgx64_init_driver(pgx64_driver_class_t *class, void *visual_gen) { pgx64_driver_t *this; char *devname; int fbfd; void *baseaddr; struct fbgattr attr; pthread_mutex_lock(&class->mutex); if (class->instance_count > 0) { pthread_mutex_unlock(&class->mutex); return NULL; } class->instance_count++; pthread_mutex_unlock(&class->mutex); devname = class->config->register_string(class->config, "video.pgx64_device", "/dev/fb", "name of pgx64 device", NULL, 10, NULL, NULL); if ((fbfd = open(devname, O_RDWR)) < 0) { printf("video_out_pgx64: can't open framebuffer device '%s'\n", devname); return NULL; } if (ioctl(fbfd, FBIOGATTR, &attr) < 0) { printf("video_out_pgx64: ioctl failed, unable to determine framebuffer characteristics\n"); close(fbfd); return NULL; } if (attr.real_type != 22) { printf("video_out_pgx64: '%s' is not a mach64 framebuffer device\n", devname); close(fbfd); return NULL; } if ((baseaddr = mmap(0, ADDRSPACE, PROT_READ | PROT_WRITE, MAP_SHARED, fbfd, 0)) == MAP_FAILED) { printf("video_out_pgx64: unable to memory map framebuffer\n"); close(fbfd); return NULL; } this = (pgx64_driver_t*)malloc(sizeof(pgx64_driver_t)); if (!this) { printf("video_out_pgx64: driver malloc failed\n"); return NULL; } memset(this, 0, sizeof(pgx64_driver_t)); this->vo_driver.get_capabilities = (void*)pgx64_get_capabilities; this->vo_driver.alloc_frame = (void*)pgx64_alloc_frame; this->vo_driver.update_frame_format = (void*)pgx64_update_frame_format; this->vo_driver.overlay_begin = NULL; /* not used */ this->vo_driver.overlay_blend = (void*)pgx64_overlay_blend; this->vo_driver.overlay_end = NULL; /* not used */ this->vo_driver.display_frame = (void*)pgx64_display_frame; this->vo_driver.get_property = (void*)pgx64_get_property; this->vo_driver.set_property = (void*)pgx64_set_property; this->vo_driver.get_property_min_max = (void*)pgx64_get_property_min_max; this->vo_driver.gui_data_exchange = (void*)pgx64_gui_data_exchange; this->vo_driver.redraw_needed = (void*)pgx64_redraw_needed; this->vo_driver.dispose = (void*)pgx64_dispose; vo_scale_init(&this->vo_scale, 0, 0, class->config); this->vo_scale.user_ratio = XINE_VO_ASPECT_AUTO; this->vo_scale.user_data = ((x11_visual_t*)visual_gen)->user_data; this->vo_scale.frame_output_cb = ((x11_visual_t*)visual_gen)->frame_output_cb; this->vo_scale.dest_size_cb = ((x11_visual_t*)visual_gen)->dest_size_cb; this->class = class; this->current = NULL; this->display = ((x11_visual_t*)visual_gen)->display; this->screen = ((x11_visual_t*)visual_gen)->screen; this->drawable = ((x11_visual_t*)visual_gen)->d; this->gc = XCreateGC(this->display, this->drawable, 0, NULL); this->fbfd = fbfd; this->vram = (uint8_t*)baseaddr; this->vregs = (uint32_t*)(this->vram + REGBASE); this->fb_bottom = attr.fbtype.fb_width * attr.fbtype.fb_height * ((attr.fbtype.fb_depth > 8) ? ((attr.fbtype.fb_depth > 16) ? 4 : 2) : 1); this->fb_top = attr.sattr.dev_specific[0]; this->fb_width = attr.fbtype.fb_width; this->fb_height = attr.fbtype.fb_height; this->fb_depth = attr.fbtype.fb_depth; this->colour_key = class->config->register_num(this->class->config, "video.pgx64_colour_key", 1, "video overlay colour key", NULL, 10, (void*)pgx64_config_changed, this); this->brightness = class->config->register_range(this->class->config, "video.pgx64_brightness", 0, -64, 63, "video overlay brightness", NULL, 10, (void*)pgx64_config_changed, this); this->saturation = class->config->register_range(this->class->config, "video.pgx64_saturation", 16, 0, 31, "video overlay saturation", NULL, 10, (void*)pgx64_config_changed, this); this->use_exclusive = class->config->register_bool(this->class->config, "video.pgx64_use_exclusive", 0, "use exclusive video overlays", NULL, 10, (void*)pgx64_config_changed, this); return this; } static char* pgx64_get_identifier(pgx64_driver_class_t *this) { return "pgx64"; } static char* pgx64_get_description(pgx64_driver_class_t *this) { return "xine video output plugin for Sun PGX64/PGX24 framebuffers"; } static pgx64_driver_class_t* pgx64_init_class(xine_t *xine, void *visual_gen) { pgx64_driver_class_t *this; if ((this = (pgx64_driver_class_t*)malloc(sizeof(pgx64_driver_class_t))) == NULL) { printf("video_out_pgx64: driver class malloc failed\n"); return NULL; } memset(this, 0, sizeof(pgx64_driver_class_t)); this->vo_driver_class.open_plugin = (void*)pgx64_init_driver; this->vo_driver_class.get_identifier = (void*)pgx64_get_identifier; this->vo_driver_class.get_description = (void*)pgx64_get_description; this->vo_driver_class.dispose = (void*)pgx64_dispose_class; this->xine = xine; this->config = xine->config; pthread_mutex_init(&this->mutex, NULL); return this; } plugin_info_t xine_plugin_info[] = { {PLUGIN_VIDEO_OUT, 16, "pgx64", XINE_VERSION_CODE, &vo_info_pgx64, (void*)pgx64_init_class}, {PLUGIN_NONE, 0, "", 0, NULL, NULL} };