#include "meta.h" #include "../coding/coding.h" #include "../layout/layout.h" #include "../util.h" /* Resource Interchange File Format */ /* return milliseconds */ long parse_marker(unsigned char * marker) { long hh,mm,ss,ms; if (memcmp("Marker ",marker,7)) return -1; if (4 != sscanf((char*)marker+7,"%ld:%ld:%ld.%ld",&hh,&mm,&ss,&ms)) return -1; return ((hh*60+mm)*60+ss)*1000+ms; } /* loop points have been found hiding here */ void parse_adtl(off_t adtl_offset, off_t adtl_length, STREAMFILE *streamFile, long *loop_start, long *loop_end, int *loop_flag) { int loop_start_found = 0; int loop_end_found = 0; off_t current_chunk = adtl_offset+4; while (current_chunk < adtl_offset+adtl_length) { uint32_t chunk_type = read_32bitBE(current_chunk,streamFile); off_t chunk_size = read_32bitLE(current_chunk+4,streamFile); if (current_chunk+8+chunk_size > adtl_offset+adtl_length) return; switch(chunk_type) { case 0x6c61626c: /* labl */ { unsigned char *labelcontent; labelcontent = malloc(chunk_size-4); if (!labelcontent) return; if (read_streamfile(labelcontent,current_chunk+0xc, chunk_size-4,streamFile)!=chunk_size-4) { free(labelcontent); return; } switch (read_32bitLE(current_chunk+8,streamFile)) { case 1: if (!loop_start_found && (*loop_start = parse_marker(labelcontent))>=0) { loop_start_found = 1; } break; case 2: if (!loop_end_found && (*loop_end = parse_marker(labelcontent))>=0) { loop_end_found = 1; } break; default: break; } free(labelcontent); } break; default: break; } current_chunk += 8 + chunk_size; } if (loop_start_found && loop_end_found) *loop_flag = 1; /* labels don't seem to be consistently ordered */ if (*loop_start > *loop_end) { long temp = *loop_start; *loop_start = *loop_end; *loop_end = temp; } } struct riff_fmt_chunk { int sample_rate; int channel_count; uint32_t block_size; int coding_type; int interleave; }; int read_fmt(int big_endian, STREAMFILE * streamFile, off_t current_chunk, struct riff_fmt_chunk * fmt, int sns, int mwv) { int32_t (*read_32bit)(off_t,STREAMFILE*) = NULL; int16_t (*read_16bit)(off_t,STREAMFILE*) = NULL; if (big_endian) { read_32bit = read_32bitBE; read_16bit = read_16bitBE; } else { read_32bit = read_32bitLE; read_16bit = read_16bitLE; } fmt->sample_rate = read_32bit(current_chunk+0x0c,streamFile); fmt->channel_count = read_16bit(current_chunk+0x0a,streamFile); fmt->block_size = read_16bit(current_chunk+0x14,streamFile); switch ((uint16_t)read_16bit(current_chunk+0x8,streamFile)) { case 1: /* PCM */ switch (read_16bit(current_chunk+0x16,streamFile)) { case 16: if (big_endian) { fmt->coding_type = coding_PCM16BE; } else { fmt->coding_type = coding_PCM16LE; } fmt->interleave = 2; break; case 8: fmt->coding_type = coding_PCM8_U_int; fmt->interleave = 1; break; default: goto fail; } break; case 2: /* MS ADPCM */ /* ensure 4bps */ if (read_16bit(current_chunk+0x16,streamFile)!=4) goto fail; fmt->coding_type = coding_MSADPCM; fmt->interleave = 0; break; case 0x11: /* MS IMA ADCM */ /* ensure 4bps */ if (read_16bit(current_chunk+0x16,streamFile)!=4) goto fail; fmt->coding_type = coding_MS_IMA; fmt->interleave = 0; break; case 0x69: /* MS IMA ADCM - Rayman Raving Rabbids 2 (PC) */ /* ensure 4bps */ if (read_16bit(current_chunk+0x16,streamFile)!=4) goto fail; fmt->coding_type = coding_MS_IMA; fmt->interleave = 0; break; case 0x555: /* Level-5 0x555 ADPCM */ if (!mwv) goto fail; fmt->coding_type = coding_L5_555; fmt->interleave = 0x12; break; case 0x5050: /* Ubisoft .sns uses this for DSP */ if (!sns) goto fail; fmt->coding_type = coding_NGC_DSP; fmt->interleave = 8; break; case 0xFFF0: /* */ fmt->coding_type = coding_NGC_DSP; fmt->interleave = 8; break; #ifdef VGM_USE_MAIATRAC3PLUS case 0xFFFE: /* WAVEFORMATEXTENSIBLE */ if (read_32bit(current_chunk+0x20,streamFile) == 0xE923AABF && read_16bit(current_chunk+0x24,streamFile) == (int16_t)0xCB58 && read_16bit(current_chunk+0x26,streamFile) == 0x4471 && read_32bitLE(current_chunk+0x28,streamFile) == 0xFAFF19A1 && read_32bitLE(current_chunk+0x2C,streamFile) == 0x62CEE401) { uint16_t bztmp = read_16bit(current_chunk+0x32,streamFile); bztmp = (bztmp >> 8) | (bztmp << 8); fmt->coding_type = coding_AT3plus; fmt->block_size = (bztmp & 0x3FF) * 8 + 8; fmt->interleave = 0; } break; #endif default: goto fail; } return 0; fail: return -1; } VGMSTREAM * init_vgmstream_riff(STREAMFILE *streamFile) { VGMSTREAM * vgmstream = NULL; char filename[PATH_LIMIT]; struct riff_fmt_chunk fmt; off_t file_size = -1; int sample_count = 0; int fact_sample_count = -1; off_t start_offset = -1; int loop_flag = 0; long loop_start_ms = -1; long loop_end_ms = -1; off_t loop_start_offset = -1; off_t loop_end_offset = -1; uint32_t riff_size; uint32_t data_size = 0; int FormatChunkFound = 0; int DataChunkFound = 0; /* Level-5 mwv */ int mwv = 0; off_t mwv_pflt_offset = -1; off_t mwv_ctrl_offset = -1; /* Ubisoft sns */ int sns = 0; /* check extension, case insensitive */ streamFile->get_name(streamFile,filename,sizeof(filename)); if (strcasecmp("wav",filename_extension(filename)) && strcasecmp("lwav",filename_extension(filename)) #ifdef VGM_USE_MAIATRAC3PLUS && strcasecmp("at3",filename_extension(filename)) #endif ) { if (!strcasecmp("mwv",filename_extension(filename))) mwv = 1; else if (!strcasecmp("sns",filename_extension(filename))) sns = 1; else goto fail; } /* check header */ if ((uint32_t)read_32bitBE(0,streamFile)!=0x52494646) /* "RIFF" */ goto fail; /* check for WAVE form */ if ((uint32_t)read_32bitBE(8,streamFile)!=0x57415645) /* "WAVE" */ goto fail; riff_size = read_32bitLE(4,streamFile); file_size = get_streamfile_size(streamFile); /* check for tructated RIFF */ if (file_size < riff_size+8) goto fail; /* read through chunks to verify format and find metadata */ { off_t current_chunk = 0xc; /* start with first chunk */ while (current_chunk < file_size && current_chunk < riff_size+8) { uint32_t chunk_type = read_32bitBE(current_chunk,streamFile); off_t chunk_size = read_32bitLE(current_chunk+4,streamFile); if (current_chunk+8+chunk_size > file_size) goto fail; switch(chunk_type) { case 0x666d7420: /* "fmt " */ /* only one per file */ if (FormatChunkFound) goto fail; FormatChunkFound = 1; if (-1 == read_fmt(0, /* big endian == false*/ streamFile, current_chunk, &fmt, sns, mwv)) goto fail; break; case 0x64617461: /* data */ /* at most one per file */ if (DataChunkFound) goto fail; DataChunkFound = 1; start_offset = current_chunk + 8; data_size = chunk_size; break; case 0x4C495354: /* LIST */ /* what lurks within?? */ switch (read_32bitBE(current_chunk + 8, streamFile)) { case 0x6164746C: /* adtl */ /* yay, atdl is its own little world */ parse_adtl(current_chunk + 8, chunk_size, streamFile, &loop_start_ms,&loop_end_ms,&loop_flag); break; default: break; } break; case 0x736D706C: /* smpl */ /* check loop count */ if (read_32bitLE(current_chunk+0x24, streamFile)==1) { /* check loop info */ if (read_32bitLE(current_chunk+0x2c+4, streamFile)==0) { loop_flag = 1; loop_start_offset = read_32bitLE(current_chunk+0x2c+8, streamFile); loop_end_offset = read_32bitLE(current_chunk+0x2c+0xc,streamFile); } } break; case 0x70666c74: /* pflt */ if (!mwv) break; /* ignore if not in an mwv */ /* predictor filters */ mwv_pflt_offset = current_chunk; break; case 0x6374726c: /* ctrl */ if (!mwv) break; /* ignore if not in an mwv */ /* loops! */ if (read_32bitLE(current_chunk+8, streamFile)) { loop_flag = 1; } mwv_ctrl_offset = current_chunk; break; case 0x66616374: /* fact */ if (chunk_size != 4 && (!(sns && chunk_size == 0x10))) break; fact_sample_count = read_32bitLE(current_chunk+8, streamFile); break; default: /* ignorance is bliss */ break; } current_chunk += 8+chunk_size; } } if (!FormatChunkFound || !DataChunkFound) goto fail; switch (fmt.coding_type) { case coding_PCM16LE: sample_count = data_size/2/fmt.channel_count; break; case coding_PCM8_U_int: sample_count = data_size/fmt.channel_count; break; case coding_L5_555: sample_count = data_size/0x12/fmt.channel_count*32; break; case coding_MSADPCM: sample_count = msadpcm_bytes_to_samples(data_size, fmt.block_size, fmt.channel_count); break; case coding_MS_IMA: sample_count = (data_size / fmt.block_size) * (fmt.block_size - 4 * fmt.channel_count) * 2 / fmt.channel_count + ((data_size % fmt.block_size) ? (data_size % fmt.block_size - 4 * fmt.channel_count) * 2 / fmt.channel_count : 0); break; case coding_NGC_DSP: break; #ifdef VGM_USE_MAIATRAC3PLUS case coding_AT3plus: sample_count = (data_size / fmt.block_size) * 2048 * fmt.channel_count; break; #endif default: goto fail; } /* .sns uses fact chunk */ if (sns) { if (-1 == fact_sample_count) goto fail; sample_count = fact_sample_count; } /* build the VGMSTREAM */ vgmstream = allocate_vgmstream(fmt.channel_count,loop_flag); if (!vgmstream) goto fail; /* fill in the vital statistics */ vgmstream->num_samples = sample_count; vgmstream->sample_rate = fmt.sample_rate; vgmstream->coding_type = fmt.coding_type; vgmstream->layout_type = layout_none; if (fmt.channel_count > 1) { switch (fmt.coding_type) { case coding_PCM8_U_int: case coding_MS_IMA: case coding_MSADPCM: // use layout_none from above break; default: vgmstream->layout_type = layout_interleave; break; } } vgmstream->interleave_block_size = fmt.interleave; switch (fmt.coding_type) { case coding_MSADPCM: case coding_MS_IMA: // override interleave_block_size with frame size vgmstream->interleave_block_size = fmt.block_size; break; #ifdef VGM_USE_MAIATRAC3PLUS case coding_AT3plus: vgmstream->interleave_block_size = fmt.block_size / fmt.channel_count; #endif default: // use interleave from above break; } #ifdef VGM_USE_MAIATRAC3PLUS if (fmt.coding_type == coding_AT3plus) { maiatrac3plus_codec_data *data = malloc(sizeof(maiatrac3plus_codec_data)); data->buffer = 0; data->samples_discard = 0; data->handle = Atrac3plusDecoder_openContext(); vgmstream->codec_data = data; } #endif if (loop_flag) { if (loop_start_ms >= 0) { vgmstream->loop_start_sample = (long long)loop_start_ms*fmt.sample_rate/1000; vgmstream->loop_end_sample = (long long)loop_end_ms*fmt.sample_rate/1000; vgmstream->meta_type = meta_RIFF_WAVE_labl_Marker; } else if (loop_start_offset >= 0) { vgmstream->loop_start_sample = loop_start_offset; vgmstream->loop_end_sample = loop_end_offset; vgmstream->meta_type = meta_RIFF_WAVE_smpl; } else if (mwv && mwv_ctrl_offset != -1) { vgmstream->loop_start_sample = read_32bitLE(mwv_ctrl_offset+12, streamFile); vgmstream->loop_end_sample = sample_count; } } else { vgmstream->meta_type = meta_RIFF_WAVE; } if (mwv) { int i, c; if (fmt.coding_type == coding_L5_555) { const int filter_order = 3; int filter_count = read_32bitLE(mwv_pflt_offset+12, streamFile); if (mwv_pflt_offset == -1 || read_32bitLE(mwv_pflt_offset+8, streamFile) != filter_order || read_32bitLE(mwv_pflt_offset+4, streamFile) < 8 + filter_count * 4 * filter_order) goto fail; if (filter_count > 0x20) goto fail; for (c = 0; c < fmt.channel_count; c++) { for (i = 0; i < filter_count * filter_order; i++) { vgmstream->ch[c].adpcm_coef_3by32[i] = read_32bitLE( mwv_pflt_offset+16+i*4, streamFile ); } } } vgmstream->meta_type = meta_RIFF_WAVE_MWV; } if (sns) { int c; /* common codebook? */ static const int16_t coef[16] = {0x04ab,0xfced,0x0789,0xfedf,0x09a2,0xfae5,0x0c90,0xfac1, 0x084d,0xfaa4,0x0982,0xfdf7,0x0af6,0xfafa,0x0be6,0xfbf5}; for (c = 0; c < fmt.channel_count; c++) { int i; for (i = 0; i < 16; i++) { vgmstream->ch[c].adpcm_coef[i] = coef[i]; } } vgmstream->meta_type = meta_RIFF_WAVE_SNS; } /* open the file, set up each channel */ { int i; vgmstream->ch[0].streamfile = streamFile->open(streamFile,filename, STREAMFILE_DEFAULT_BUFFER_SIZE); if (!vgmstream->ch[0].streamfile) goto fail; for (i=0;ich[i].streamfile = vgmstream->ch[0].streamfile; vgmstream->ch[i].offset = vgmstream->ch[i].channel_start_offset = start_offset+i*fmt.interleave; } } return vgmstream; /* clean up anything we may have opened */ fail: if (vgmstream) close_vgmstream(vgmstream); return NULL; } VGMSTREAM * init_vgmstream_rifx(STREAMFILE *streamFile) { VGMSTREAM * vgmstream = NULL; char filename[PATH_LIMIT]; struct riff_fmt_chunk fmt; off_t file_size = -1; int sample_count = 0; int fact_sample_count = -1; off_t start_offset = -1; off_t wiih_offset = -1; uint32_t wiih_size = 0; int loop_flag = 0; off_t loop_start_offset = -1; off_t loop_end_offset = -1; uint32_t riff_size; uint32_t data_size = 0; int FormatChunkFound = 0; int DataChunkFound = 0; /* check extension, case insensitive */ streamFile->get_name(streamFile,filename,sizeof(filename)); if (strcasecmp("wav",filename_extension(filename)) && strcasecmp("lwav",filename_extension(filename))) { goto fail; } /* check header */ if ((uint32_t)read_32bitBE(0,streamFile)!=0x52494658) /* "RIFX" */ goto fail; /* check for WAVE form */ if ((uint32_t)read_32bitBE(8,streamFile)!=0x57415645) /* "WAVE" */ goto fail; riff_size = read_32bitBE(4,streamFile); file_size = get_streamfile_size(streamFile); /* check for tructated RIFF */ if (file_size < riff_size+8) goto fail; /* read through chunks to verify format and find metadata */ { off_t current_chunk = 0xc; /* start with first chunk */ while (current_chunk < file_size && current_chunk < riff_size+8) { uint32_t chunk_type = read_32bitBE(current_chunk,streamFile); off_t chunk_size = read_32bitBE(current_chunk+4,streamFile); if (current_chunk+8+chunk_size > file_size) goto fail; switch(chunk_type) { case 0x666d7420: /* "fmt " */ /* only one per file */ if (FormatChunkFound) goto fail; FormatChunkFound = 1; if (-1 == read_fmt(1, /* big endian == true */ streamFile, current_chunk, &fmt, 0, /* sns == false */ 0)) /* mwv == false */ goto fail; break; case 0x64617461: /* data */ /* at most one per file */ if (DataChunkFound) goto fail; DataChunkFound = 1; start_offset = current_chunk + 8; data_size = chunk_size; break; case 0x736D706C: /* smpl */ /* check loop count */ if (read_32bitBE(current_chunk+0x24, streamFile)==1) { /* check loop info */ if (read_32bitBE(current_chunk+0x2c+4, streamFile)==0) { loop_flag = 1; loop_start_offset = read_32bitBE(current_chunk+0x2c+8, streamFile); loop_end_offset = read_32bitBE(current_chunk+0x2c+0xc,streamFile); } } break; case 0x66616374: /* fact */ if (chunk_size != 4) break; fact_sample_count = read_32bitBE(current_chunk+8, streamFile); break; case 0x57696948: /* WiiH */ wiih_size = read_32bitBE(current_chunk+4, streamFile); wiih_offset = current_chunk+8; break; default: /* ignorance is bliss */ break; } current_chunk += 8+chunk_size; } } if (!FormatChunkFound || !DataChunkFound) goto fail; switch (fmt.coding_type) { case coding_PCM16BE: sample_count = data_size/2/fmt.channel_count; break; case coding_PCM8_U_int: sample_count = data_size/fmt.channel_count; break; case coding_NGC_DSP: /* the only way of getting DSP info right now */ if (wiih_offset < 0 || wiih_size != 0x2e*fmt.channel_count) goto fail; sample_count = data_size/8/fmt.channel_count*14; break; #if 0 /* found in RE:ORC, looks like it should be MS_IMA instead */ case coding_MSADPCM: sample_count = msadpcm_bytes_to_samples(data_size, fmt.block_size, fmt.channel_count); break; #endif default: goto fail; } /* build the VGMSTREAM */ vgmstream = allocate_vgmstream(fmt.channel_count,loop_flag); if (!vgmstream) goto fail; /* fill in the vital statistics */ vgmstream->num_samples = sample_count; vgmstream->sample_rate = fmt.sample_rate; vgmstream->coding_type = fmt.coding_type; vgmstream->layout_type = layout_none; if (fmt.channel_count > 1) { switch (fmt.coding_type) { case coding_PCM8_U_int: case coding_MS_IMA: case coding_MSADPCM: // use layout_none from above break; default: vgmstream->layout_type = layout_interleave; break; } } vgmstream->interleave_block_size = fmt.interleave; switch (fmt.coding_type) { case coding_MSADPCM: case coding_MS_IMA: // override interleave_block_size with frame size vgmstream->interleave_block_size = fmt.block_size; break; default: // use interleave from above break; } if (fmt.coding_type == coding_MS_IMA) vgmstream->interleave_block_size = fmt.block_size; if (loop_flag) { if (loop_start_offset >= 0) { vgmstream->loop_start_sample = loop_start_offset; vgmstream->loop_end_sample = loop_end_offset; vgmstream->meta_type = meta_RIFX_WAVE_smpl; } } else { vgmstream->meta_type = meta_RIFX_WAVE; } /* read from WiiH */ if (wiih_offset >= 0) { int i,j; for (i=0;ich[i].adpcm_coef[j] = read_16bitBE(wiih_offset + i * 0x2e + j * 2,streamFile); vgmstream->ch[i].adpcm_history1_16 = read_16bitBE(wiih_offset + i * 0x2e + 0x24,streamFile); vgmstream->ch[i].adpcm_history2_16 = read_16bitBE(wiih_offset + i * 0x2e + 0x26,streamFile); } } /* open the file, set up each channel */ { int i; vgmstream->ch[0].streamfile = streamFile->open(streamFile,filename, STREAMFILE_DEFAULT_BUFFER_SIZE); if (!vgmstream->ch[0].streamfile) goto fail; for (i=0;ich[i].streamfile = vgmstream->ch[0].streamfile; vgmstream->ch[i].offset = vgmstream->ch[i].channel_start_offset = start_offset+i*fmt.interleave; } } return vgmstream; /* clean up anything we may have opened */ fail: if (vgmstream) close_vgmstream(vgmstream); return NULL; } /* XNBm (Windows 7 Phone) */ VGMSTREAM * init_vgmstream_xnbm(STREAMFILE *streamFile) { VGMSTREAM * vgmstream = NULL; char filename[PATH_LIMIT]; struct riff_fmt_chunk fmt; off_t file_size = -1; int sample_count = 0; off_t start_offset = -1; int loop_flag = 0; #if 0 long loop_start_ms = -1; long loop_end_ms = -1; off_t loop_start_offset = -1; off_t loop_end_offset = -1; #endif uint32_t xnbm_size; uint32_t data_size = 0; /* check extension, case insensitive */ streamFile->get_name(streamFile,filename,sizeof(filename)); if (strcasecmp("xnb",filename_extension(filename))) { goto fail; } /* check header */ if ((uint32_t)read_32bitBE(0,streamFile)!=0x584E426d) /* "XNBm" */ goto fail; /* check version? */ if ((uint32_t)read_16bitLE(4,streamFile)!=5) goto fail; xnbm_size = read_32bitLE(6,streamFile); file_size = get_streamfile_size(streamFile); /* check for tructated XNBm */ if (file_size < xnbm_size) goto fail; /* read through chunks to verify format and find metadata */ { off_t current_chunk = 0xa; /* start with first chunk */ int id_string_len; uint32_t fmt_chunk_size; /* flag? count of strings? */ if (read_8bit(current_chunk ++, streamFile) != 1) goto fail; /* string length */ id_string_len = read_8bit(current_chunk ++, streamFile); /* skip string */ /* may want to check this ID "Microsoft.Xna.Framework.Content.SoundEffectReader" */ current_chunk += id_string_len; /* ???? */ if (read_32bitLE(current_chunk, streamFile) != 0) goto fail; current_chunk += 4; /* ???? */ if (read_8bit(current_chunk ++, streamFile) != 0) goto fail; /* flag? count of chunks? */ if (read_8bit(current_chunk++, streamFile) != 1) goto fail; /* fmt size */ fmt_chunk_size = read_32bitLE(current_chunk, streamFile); current_chunk += 4; if (-1 == read_fmt(0, /* big endian == false */ streamFile, current_chunk-8, /* read_fmt() expects to skip "fmt "+size */ &fmt, 0, /* sns == false */ 0)) /* mwv == false */ goto fail; current_chunk += fmt_chunk_size; /* data size! */ data_size = read_32bitLE(current_chunk, streamFile); current_chunk += 4; start_offset = current_chunk; } switch (fmt.coding_type) { case coding_PCM16LE: sample_count = data_size/2/fmt.channel_count; break; case coding_PCM8_U_int: sample_count = data_size/fmt.channel_count; break; case coding_MSADPCM: sample_count = msadpcm_bytes_to_samples(data_size, fmt.block_size, fmt.channel_count); break; case coding_MS_IMA: sample_count = (data_size / fmt.block_size) * (fmt.block_size - 4 * fmt.channel_count) * 2 / fmt.channel_count + ((data_size % fmt.block_size) ? (data_size % fmt.block_size - 4 * fmt.channel_count) * 2 / fmt.channel_count : 0); break; default: goto fail; } /* build the VGMSTREAM */ vgmstream = allocate_vgmstream(fmt.channel_count,loop_flag); if (!vgmstream) goto fail; /* fill in the vital statistics */ vgmstream->num_samples = sample_count; vgmstream->sample_rate = fmt.sample_rate; vgmstream->coding_type = fmt.coding_type; vgmstream->layout_type = layout_none; if (fmt.channel_count > 1) { switch (fmt.coding_type) { case coding_PCM8_U_int: case coding_MS_IMA: case coding_MSADPCM: // use layout_none from above break; default: vgmstream->layout_type = layout_interleave; break; } } vgmstream->interleave_block_size = fmt.interleave; switch (fmt.coding_type) { case coding_MSADPCM: case coding_MS_IMA: // override interleave_block_size with frame size vgmstream->interleave_block_size = fmt.block_size; break; default: // use interleave from above break; } vgmstream->meta_type = meta_XNBm; /* open the file, set up each channel */ { int i; vgmstream->ch[0].streamfile = streamFile->open(streamFile,filename, STREAMFILE_DEFAULT_BUFFER_SIZE); if (!vgmstream->ch[0].streamfile) goto fail; for (i=0;ich[i].streamfile = vgmstream->ch[0].streamfile; vgmstream->ch[i].offset = vgmstream->ch[i].channel_start_offset = start_offset+i*fmt.interleave; } } return vgmstream; /* clean up anything we may have opened */ fail: if (vgmstream) close_vgmstream(vgmstream); return NULL; }