/* * 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 * * Basic Oscilloscope Visualization Post Plugin For xine * by Mike Melanson (melanson@pcisys.net) * * $Id: oscope.c,v 1.6 2003/03/11 17:40:32 jkeil Exp $ * */ #include #include "xine_internal.h" #include "xineutils.h" #include "post.h" #define FPS 20 #define NUMSAMPLES 512 #define MAXCHANNELS 6 #define OSCOPE_WIDTH NUMSAMPLES #define OSCOPE_HEIGHT 256 typedef struct post_plugin_oscope_s post_plugin_oscope_t; struct post_plugin_oscope_s { post_plugin_t post; /* private data */ xine_video_port_t *vo_port; xine_stream_t *stream; int data_idx; short data [MAXCHANNELS][NUMSAMPLES]; audio_buffer_t buf; /* dummy buffer just to hold a copy of audio data */ int bits; int mode; int channels; int sample_rate; int sample_counter; int samples_per_frame; unsigned char u_current; unsigned char v_current; int u_direction; int v_direction; yuv_planes_t yuv; }; /************************************************************************** * oscope specific decode functions *************************************************************************/ static void draw_oscope_dots(post_plugin_oscope_t *this) { int i, c; int pixel_ptr; int c_delta; memset(this->yuv.y, 0x00, OSCOPE_WIDTH * OSCOPE_HEIGHT); memset(this->yuv.u, 0x90, OSCOPE_WIDTH * OSCOPE_HEIGHT); memset(this->yuv.v, 0x80, OSCOPE_WIDTH * OSCOPE_HEIGHT); /* get a random delta between 1..6 */ c_delta = (rand() % 6) + 1; /* apply it to the current U value */ if (this->u_direction) { if (this->u_current + c_delta > 255) { this->u_current = 255; this->u_direction = 0; } else this->u_current += c_delta; } else { if (this->u_current - c_delta < 0) { this->u_current = 0; this->u_direction = 1; } else this->u_current -= c_delta; } /* get a random delta between 1..3 */ c_delta = (rand() % 3) + 1; /* apply it to the current V value */ if (this->v_direction) { if (this->v_current + c_delta > 255) { this->v_current = 255; this->v_direction = 0; } else this->v_current += c_delta; } else { if (this->v_current - c_delta < 0) { this->v_current = 0; this->v_direction = 1; } else this->v_current -= c_delta; } for( c = 0; c < this->channels; c++){ /* draw channel scope */ for (i = 0; i < NUMSAMPLES; i++) { pixel_ptr = ((OSCOPE_HEIGHT * (c * 2 + 1) / (2*this->channels) ) + (this->data[c][i] >> 9)) * OSCOPE_WIDTH + i; this->yuv.y[pixel_ptr] = 0xFF; this->yuv.u[pixel_ptr] = this->u_current; this->yuv.v[pixel_ptr] = this->v_current; } } /* top line */ for (i = 0, pixel_ptr = 0; i < OSCOPE_WIDTH; i++, pixel_ptr++) this->yuv.y[pixel_ptr] = 0xFF; /* lines under each channel */ for ( c = 0; c < this->channels; c++) for (i = 0, pixel_ptr = (OSCOPE_HEIGHT * (c+1) / this->channels - 1) * OSCOPE_WIDTH; i < OSCOPE_WIDTH; i++, pixel_ptr++) this->yuv.y[pixel_ptr] = 0xFF; } /************************************************************************** * xine video post plugin functions *************************************************************************/ typedef struct post_oscope_out_s post_oscope_out_t; struct post_oscope_out_s { xine_post_out_t out; post_plugin_oscope_t *post; }; static int oscope_rewire_audio(xine_post_out_t *output_gen, void *data) { post_oscope_out_t *output = (post_oscope_out_t *)output_gen; xine_audio_port_t *old_port = *(xine_audio_port_t **)output_gen->data; xine_audio_port_t *new_port = (xine_audio_port_t *)data; post_plugin_oscope_t *this = (post_plugin_oscope_t *)output->post; if (!data) return 0; if (this->stream) { /* register our stream at the new output port */ old_port->close(old_port, this->stream); new_port->open(new_port, this->stream, this->bits, this->sample_rate, this->mode); } /* reconnect ourselves */ *(xine_audio_port_t **)output_gen->data = new_port; return 1; } static int oscope_rewire_video(xine_post_out_t *output_gen, void *data) { post_oscope_out_t *output = (post_oscope_out_t *)output_gen; xine_video_port_t *old_port = *(xine_video_port_t **)output_gen->data; xine_video_port_t *new_port = (xine_video_port_t *)data; post_plugin_oscope_t *this = (post_plugin_oscope_t *)output->post; if (!data) return 0; if (this->stream) { /* register our stream at the new output port */ old_port->close(old_port, this->stream); new_port->open(new_port, this->stream); } /* reconnect ourselves */ *(xine_video_port_t **)output_gen->data = new_port; return 1; } static int mode_channels( int mode ) { switch( mode ) { case AO_CAP_MODE_MONO: return 1; case AO_CAP_MODE_STEREO: return 2; case AO_CAP_MODE_4CHANNEL: return 4; case AO_CAP_MODE_5CHANNEL: return 5; case AO_CAP_MODE_5_1CHANNEL: return 6; } return 0; } static int oscope_port_open(xine_audio_port_t *port_gen, xine_stream_t *stream, uint32_t bits, uint32_t rate, int mode) { post_audio_port_t *port = (post_audio_port_t *)port_gen; post_plugin_oscope_t *this = (post_plugin_oscope_t *)port->post; this->bits = bits; this->mode = mode; this->channels = mode_channels(mode); this->samples_per_frame = rate / FPS; this->sample_rate = rate; this->stream = stream; this->data_idx = 0; init_yuv_planes(&this->yuv, OSCOPE_WIDTH, OSCOPE_HEIGHT); return port->original_port->open(port->original_port, stream, bits, rate, mode ); } static void oscope_port_close(xine_audio_port_t *port_gen, xine_stream_t *stream ) { post_audio_port_t *port = (post_audio_port_t *)port_gen; post_plugin_oscope_t *this = (post_plugin_oscope_t *)port->post; this->stream = NULL; port->original_port->close(port->original_port, stream ); } static void oscope_port_put_buffer (xine_audio_port_t *port_gen, audio_buffer_t *buf, xine_stream_t *stream) { post_audio_port_t *port = (post_audio_port_t *)port_gen; post_plugin_oscope_t *this = (post_plugin_oscope_t *)port->post; vo_frame_t *frame; int16_t *data; int8_t *data8; int samples_used = 0; uint64_t vpts = buf->vpts; int i, c; /* make a copy of buf data for private use */ if( this->buf.mem_size < buf->mem_size ) { this->buf.mem = realloc(this->buf.mem, buf->mem_size); this->buf.mem_size = buf->mem_size; } memcpy(this->buf.mem, buf->mem, buf->num_frames*this->channels*((this->bits == 8)?1:2)); this->buf.num_frames = buf->num_frames; /* pass data to original port */ port->original_port->put_buffer(port->original_port, buf, stream ); /* we must not use original data anymore, it should have already being moved * to the fifo of free audio buffers. just use our private copy instead. */ buf = &this->buf; this->sample_counter += buf->num_frames; do { if( this->bits == 8 ) { data8 = (int8_t *)buf->mem; data8 += samples_used * this->channels; /* scale 8 bit data to 16 bits and convert to signed as well */ for( i = 0; i < buf->num_frames && this->data_idx < NUMSAMPLES; i++, this->data_idx++, data8 += this->channels ) for( c = 0; c < this->channels; c++) this->data[c][this->data_idx] = ((int16_t)data8[c] << 8) - 0x8000; } else { data = buf->mem; data += samples_used * this->channels; for( i = 0; i < buf->num_frames && this->data_idx < NUMSAMPLES; i++, this->data_idx++, data += this->channels ) for( c = 0; c < this->channels; c++) this->data[c][this->data_idx] = data[c]; } if( this->sample_counter >= this->samples_per_frame && this->data_idx == NUMSAMPLES ) { this->data_idx = 0; samples_used += this->samples_per_frame; frame = this->vo_port->get_frame (this->vo_port, OSCOPE_WIDTH, OSCOPE_HEIGHT, XINE_VO_ASPECT_SQUARE, XINE_IMGFMT_YUY2, VO_BOTH_FIELDS); frame->extra_info->invalid = 1; frame->pts = vpts; vpts = 0; frame->duration = 90000 * this->samples_per_frame / this->sample_rate; this->sample_counter -= this->samples_per_frame; draw_oscope_dots(this); yuv444_to_yuy2(&this->yuv, frame->base[0], frame->pitches[0]); frame->draw(frame, stream); frame->free(frame); } } while( this->sample_counter >= this->samples_per_frame ); } static void oscope_dispose(post_plugin_t *this_gen) { post_plugin_oscope_t *this = (post_plugin_oscope_t *)this_gen; xine_post_out_t *output = (xine_post_out_t *)xine_list_last_content(this_gen->output); xine_video_port_t *port = *(xine_video_port_t **)output->data; if (this->stream) port->close(port, this->stream); free(this->post.xine_post.audio_input); free(this->post.xine_post.video_input); free(xine_list_first_content(this->post.input)); free(xine_list_first_content(this->post.output)); xine_list_free(this->post.input); xine_list_free(this->post.output); if(this->buf.mem) free(this->buf.mem); free(this); } /* plugin class functions */ static post_plugin_t *oscope_open_plugin(post_class_t *class_gen, int inputs, xine_audio_port_t **audio_target, xine_video_port_t **video_target) { post_plugin_oscope_t *this = (post_plugin_oscope_t *)malloc(sizeof(post_plugin_oscope_t)); xine_post_in_t *input = (xine_post_in_t *)malloc(sizeof(xine_post_in_t)); post_oscope_out_t *output = (post_oscope_out_t *)malloc(sizeof(post_oscope_out_t)); post_oscope_out_t *outputv = (post_oscope_out_t *)malloc(sizeof(post_oscope_out_t)); post_audio_port_t *port; if (!this || !input || !output || !outputv || !video_target || !video_target[0] || !audio_target || !audio_target[0] ) { free(this); free(input); free(output); free(outputv); return NULL; } this->sample_counter = 0; this->stream = NULL; this->vo_port = video_target[0]; this->buf.mem = NULL; this->buf.mem_size = 0; port = post_intercept_audio_port(&this->post, audio_target[0]); port->port.open = oscope_port_open; port->port.close = oscope_port_close; port->port.put_buffer = oscope_port_put_buffer; input->name = "audio in"; input->type = XINE_POST_DATA_AUDIO; input->data = (xine_audio_port_t *)&port->port; output->out.name = "audio out"; output->out.type = XINE_POST_DATA_AUDIO; output->out.data = (xine_audio_port_t **)&port->original_port; output->out.rewire = oscope_rewire_audio; output->post = this; outputv->out.name = "generated video"; outputv->out.type = XINE_POST_DATA_VIDEO; outputv->out.data = (xine_video_port_t **)&this->vo_port; outputv->out.rewire = oscope_rewire_video; outputv->post = this; this->post.xine_post.audio_input = (xine_audio_port_t **)malloc(sizeof(xine_audio_port_t *) * 2); this->post.xine_post.audio_input[0] = &port->port; this->post.xine_post.audio_input[1] = NULL; this->post.xine_post.video_input = (xine_video_port_t **)malloc(sizeof(xine_video_port_t *) * 1); this->post.xine_post.video_input[0] = NULL; this->post.input = xine_list_new(); this->post.output = xine_list_new(); xine_list_append_content(this->post.input, input); xine_list_append_content(this->post.output, output); xine_list_append_content(this->post.output, outputv); this->post.dispose = oscope_dispose; return &this->post; } static char *oscope_get_identifier(post_class_t *class_gen) { return "Oscilliscope"; } static char *oscope_get_description(post_class_t *class_gen) { return "Oscilloscope"; } static void oscope_class_dispose(post_class_t *class_gen) { free(class_gen); } /* plugin class initialization function */ void *oscope_init_plugin(xine_t *xine, void *data) { post_class_t *class = (post_class_t *)malloc(sizeof(post_class_t)); if (!class) return NULL; class->open_plugin = oscope_open_plugin; class->get_identifier = oscope_get_identifier; class->get_description = oscope_get_description; class->dispose = oscope_class_dispose; return class; }