//////////////////////////////////////////////////////////////////////////// // **** WAVPACK **** // // Hybrid Lossless Wavefile Compressor // // Copyright (c) 1998 - 2013 Conifer Software. // // All Rights Reserved. // // Distributed under the BSD Software License (see license.txt) // //////////////////////////////////////////////////////////////////////////// // unpack_seek.c // This module provides the high-level API for unpacking audio data from // a specific sample index (i.e., seeking). #ifndef NO_SEEKING #include #include #include "wavpack_local.h" ///////////////////////////// executable code //////////////////////////////// static int64_t find_sample (WavpackContext *wpc, void *infile, int64_t header_pos, int64_t sample); // Seek to the specifed sample index, returning TRUE on success. Note that // files generated with version 4.0 or newer will seek almost immediately. // Older files can take quite long if required to seek through unplayed // portions of the file, but will create a seek map so that reverse seeks // (or forward seeks to already scanned areas) will be very fast. After a // FALSE return the file should not be accessed again (other than to close // it); this is a fatal error. int WavpackSeekSample (WavpackContext *wpc, uint32_t sample) { return WavpackSeekSample64 (wpc, sample); } int WavpackSeekSample64 (WavpackContext *wpc, int64_t sample) { WavpackStream *wps = wpc->streams ? wpc->streams [wpc->current_stream = 0] : NULL; uint32_t bcount, samples_to_skip; int32_t *buffer; if (wpc->total_samples == -1 || sample >= wpc->total_samples || !wpc->reader->can_seek (wpc->wv_in) || (wpc->open_flags & OPEN_STREAMING) || (wpc->wvc_flag && !wpc->reader->can_seek (wpc->wvc_in))) return FALSE; #ifndef VER4_ONLY if (wpc->stream3) return seek_sample3 (wpc, (uint32_t) sample); #endif if (!wps->wphdr.block_samples || !(wps->wphdr.flags & INITIAL_BLOCK) || sample < GET_BLOCK_INDEX (wps->wphdr) || sample >= GET_BLOCK_INDEX (wps->wphdr) + wps->wphdr.block_samples) { free_streams (wpc); wpc->filepos = find_sample (wpc, wpc->wv_in, wpc->filepos, sample); if (wpc->filepos == -1) return FALSE; if (wpc->wvc_flag) { wpc->file2pos = find_sample (wpc, wpc->wvc_in, 0, sample); if (wpc->file2pos == -1) return FALSE; } } if (!wps->blockbuff) { wpc->reader->set_pos_abs (wpc->wv_in, wpc->filepos); wpc->reader->read_bytes (wpc->wv_in, &wps->wphdr, sizeof (WavpackHeader)); WavpackLittleEndianToNative (&wps->wphdr, WavpackHeaderFormat); SET_BLOCK_INDEX (wps->wphdr, GET_BLOCK_INDEX (wps->wphdr) - wpc->initial_index); wps->blockbuff = malloc (wps->wphdr.ckSize + 8); memcpy (wps->blockbuff, &wps->wphdr, sizeof (WavpackHeader)); if (wpc->reader->read_bytes (wpc->wv_in, wps->blockbuff + sizeof (WavpackHeader), wps->wphdr.ckSize - 24) != wps->wphdr.ckSize - 24) { free_streams (wpc); return FALSE; } wps->init_done = FALSE; if (wpc->wvc_flag) { wpc->reader->set_pos_abs (wpc->wvc_in, wpc->file2pos); wpc->reader->read_bytes (wpc->wvc_in, &wps->wphdr, sizeof (WavpackHeader)); WavpackLittleEndianToNative (&wps->wphdr, WavpackHeaderFormat); SET_BLOCK_INDEX (wps->wphdr, GET_BLOCK_INDEX (wps->wphdr) - wpc->initial_index); wps->block2buff = malloc (wps->wphdr.ckSize + 8); memcpy (wps->block2buff, &wps->wphdr, sizeof (WavpackHeader)); if (wpc->reader->read_bytes (wpc->wvc_in, wps->block2buff + sizeof (WavpackHeader), wps->wphdr.ckSize - 24) != wps->wphdr.ckSize - 24) { free_streams (wpc); return FALSE; } } if (!wps->init_done && !unpack_init (wpc)) { free_streams (wpc); return FALSE; } wps->init_done = TRUE; } while (!wpc->reduced_channels && !(wps->wphdr.flags & FINAL_BLOCK)) { if (++wpc->current_stream == wpc->num_streams) { if (wpc->num_streams == wpc->max_streams) { free_streams (wpc); return FALSE; } wpc->streams = realloc (wpc->streams, (wpc->num_streams + 1) * sizeof (wpc->streams [0])); wps = wpc->streams [wpc->num_streams++] = malloc (sizeof (WavpackStream)); CLEAR (*wps); bcount = read_next_header (wpc->reader, wpc->wv_in, &wps->wphdr); if (bcount == (uint32_t) -1) { free_streams (wpc); return FALSE; } wps->blockbuff = malloc (wps->wphdr.ckSize + 8); memcpy (wps->blockbuff, &wps->wphdr, 32); if (wpc->reader->read_bytes (wpc->wv_in, wps->blockbuff + 32, wps->wphdr.ckSize - 24) != wps->wphdr.ckSize - 24) { free_streams (wpc); return FALSE; } wps->init_done = FALSE; if (wpc->wvc_flag && !read_wvc_block (wpc)) { free_streams (wpc); return FALSE; } if (!wps->init_done && !unpack_init (wpc)) { free_streams (wpc); return FALSE; } wps->init_done = TRUE; } else wps = wpc->streams [wpc->current_stream]; } if (sample < wps->sample_index) { for (wpc->current_stream = 0; wpc->current_stream < wpc->num_streams; wpc->current_stream++) if (!unpack_init (wpc)) return FALSE; else wpc->streams [wpc->current_stream]->init_done = TRUE; } samples_to_skip = (uint32_t) (sample - wps->sample_index); if (samples_to_skip > 131072) { free_streams (wpc); return FALSE; } if (samples_to_skip) { buffer = malloc (samples_to_skip * 8); for (wpc->current_stream = 0; wpc->current_stream < wpc->num_streams; wpc->current_stream++) if (wpc->streams [wpc->current_stream]->wphdr.flags & DSD_FLAG) unpack_dsd_samples (wpc, buffer, samples_to_skip); else unpack_samples (wpc, buffer, samples_to_skip); free (buffer); } wpc->current_stream = 0; if (wpc->decimation_context) decimate_dsd_reset (wpc->decimation_context); return TRUE; } // Find a valid WavPack header, searching either from the current file position // (or from the specified position if not -1) and store it (endian corrected) // at the specified pointer. The return value is the exact file position of the // header, although we may have actually read past it. Because this function // is used for seeking to a specific audio sample, it only considers blocks // that contain audio samples for the initial stream to be valid. #define BUFSIZE 4096 static int64_t find_header (WavpackStreamReader64 *reader, void *id, int64_t filepos, WavpackHeader *wphdr) { unsigned char *buffer = malloc (BUFSIZE), *sp = buffer, *ep = buffer; if (filepos != (uint32_t) -1 && reader->set_pos_abs (id, filepos)) { free (buffer); return -1; } while (1) { int bleft; if (sp < ep) { bleft = (int)(ep - sp); memcpy (buffer, sp, bleft); ep -= (sp - buffer); sp = buffer; } else { if (sp > ep) if (reader->set_pos_rel (id, (int32_t)(sp - ep), SEEK_CUR)) { free (buffer); return -1; } sp = ep = buffer; bleft = 0; } ep += reader->read_bytes (id, ep, BUFSIZE - bleft); if (ep - sp < 32) { free (buffer); return -1; } while (sp + 32 <= ep) if (*sp++ == 'w' && *sp == 'v' && *++sp == 'p' && *++sp == 'k' && !(*++sp & 1) && sp [2] < 16 && !sp [3] && (sp [2] || sp [1] || *sp >= 24) && sp [5] == 4 && sp [4] >= (MIN_STREAM_VERS & 0xff) && sp [4] <= (MAX_STREAM_VERS & 0xff) && sp [18] < 3 && !sp [19]) { memcpy (wphdr, sp - 4, sizeof (*wphdr)); WavpackLittleEndianToNative (wphdr, WavpackHeaderFormat); if (wphdr->block_samples && (wphdr->flags & INITIAL_BLOCK)) { free (buffer); return reader->get_pos (id) - (ep - sp + 4); } if (wphdr->ckSize > 1024) sp += wphdr->ckSize - 1024; } } } // Find the WavPack block that contains the specified sample. If "header_pos" // is zero, then no information is assumed except the total number of samples // in the file and its size in bytes. If "header_pos" is non-zero then we // assume that it is the file position of the valid header image contained in // the first stream and we can limit our search to either the portion above // or below that point. If a .wvc file is being used, then this must be called // for that file also. static int64_t find_sample (WavpackContext *wpc, void *infile, int64_t header_pos, int64_t sample) { WavpackStream *wps = wpc->streams [wpc->current_stream]; int64_t file_pos1 = 0, file_pos2 = wpc->reader->get_length (infile); int64_t sample_pos1 = 0, sample_pos2 = wpc->total_samples; double ratio = 0.96; int file_skip = 0; if (sample >= wpc->total_samples) return -1; if (header_pos && wps->wphdr.block_samples) { if (GET_BLOCK_INDEX (wps->wphdr) > sample) { sample_pos2 = GET_BLOCK_INDEX (wps->wphdr); file_pos2 = header_pos; } else if (GET_BLOCK_INDEX (wps->wphdr) + wps->wphdr.block_samples <= sample) { sample_pos1 = GET_BLOCK_INDEX (wps->wphdr); file_pos1 = header_pos; } else return header_pos; } while (1) { double bytes_per_sample; int64_t seek_pos; bytes_per_sample = (double) file_pos2 - file_pos1; bytes_per_sample /= sample_pos2 - sample_pos1; seek_pos = file_pos1 + (file_skip ? 32 : 0); seek_pos += (int64_t)(bytes_per_sample * (sample - sample_pos1) * ratio); seek_pos = find_header (wpc->reader, infile, seek_pos, &wps->wphdr); if (seek_pos != (int64_t) -1) SET_BLOCK_INDEX (wps->wphdr, GET_BLOCK_INDEX (wps->wphdr) - wpc->initial_index); if (seek_pos == (int64_t) -1 || seek_pos >= file_pos2) { if (ratio > 0.0) { if ((ratio -= 0.24) < 0.0) ratio = 0.0; } else return -1; } else if (GET_BLOCK_INDEX (wps->wphdr) > sample) { sample_pos2 = GET_BLOCK_INDEX (wps->wphdr); file_pos2 = seek_pos; } else if (GET_BLOCK_INDEX (wps->wphdr) + wps->wphdr.block_samples <= sample) { if (seek_pos == file_pos1) file_skip = 1; else { sample_pos1 = GET_BLOCK_INDEX (wps->wphdr); file_pos1 = seek_pos; } } else return seek_pos; } } #endif