/* ** Copyright (C) 1999-2013 Erik de Castro Lopo ** ** This program is free software; you can redistribute it and/or modify ** it under the terms of the GNU Lesser General Public License as published by ** the Free Software Foundation; either version 2.1 of the License, or ** (at your option) any later version. ** ** This program 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 Lesser General Public License for more details. ** ** You should have received a copy of the GNU Lesser 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. */ #include "sfconfig.h" #include #include #include #include #include "sndfile.h" #include "sfendian.h" #include "common.h" typedef struct IMA_ADPCM_PRIVATE_tag { int (*decode_block) (SF_PRIVATE *psf, struct IMA_ADPCM_PRIVATE_tag *pima) ; int (*encode_block) (SF_PRIVATE *psf, struct IMA_ADPCM_PRIVATE_tag *pima) ; int channels, blocksize, samplesperblock, blocks ; int blockcount, samplecount ; int previous [2] ; int stepindx [2] ; unsigned char *block ; short *samples ; short data [] ; /* ISO C99 struct flexible array. */ } IMA_ADPCM_PRIVATE ; /*============================================================================================ ** Predefined IMA ADPCM data. */ static int ima_indx_adjust [16] = { -1, -1, -1, -1, /* +0 - +3, decrease the step size */ +2, +4, +6, +8, /* +4 - +7, increase the step size */ -1, -1, -1, -1, /* -0 - -3, decrease the step size */ +2, +4, +6, +8, /* -4 - -7, increase the step size */ } ; static int ima_step_size [89] = { 7, 8, 9, 10, 11, 12, 13, 14, 16, 17, 19, 21, 23, 25, 28, 31, 34, 37, 41, 45, 50, 55, 60, 66, 73, 80, 88, 97, 107, 118, 130, 143, 157, 173, 190, 209, 230, 253, 279, 307, 337, 371, 408, 449, 494, 544, 598, 658, 724, 796, 876, 963, 1060, 1166, 1282, 1411, 1552, 1707, 1878, 2066, 2272, 2499, 2749, 3024, 3327, 3660, 4026, 4428, 4871, 5358, 5894, 6484, 7132, 7845, 8630, 9493, 10442, 11487, 12635, 13899, 15289, 16818, 18500, 20350, 22385, 24623, 27086, 29794, 32767 } ; static int ima_reader_init (SF_PRIVATE *psf, int blockalign, int samplesperblock) ; static int ima_writer_init (SF_PRIVATE *psf, int blockalign) ; static int ima_read_block (SF_PRIVATE *psf, IMA_ADPCM_PRIVATE *pima, short *ptr, int len) ; static int ima_write_block (SF_PRIVATE *psf, IMA_ADPCM_PRIVATE *pima, const short *ptr, int len) ; static sf_count_t ima_read_s (SF_PRIVATE *psf, short *ptr, sf_count_t len) ; static sf_count_t ima_read_i (SF_PRIVATE *psf, int *ptr, sf_count_t len) ; static sf_count_t ima_read_f (SF_PRIVATE *psf, float *ptr, sf_count_t len) ; static sf_count_t ima_read_d (SF_PRIVATE *psf, double *ptr, sf_count_t len) ; static sf_count_t ima_write_s (SF_PRIVATE *psf, const short *ptr, sf_count_t len) ; static sf_count_t ima_write_i (SF_PRIVATE *psf, const int *ptr, sf_count_t len) ; static sf_count_t ima_write_f (SF_PRIVATE *psf, const float *ptr, sf_count_t len) ; static sf_count_t ima_write_d (SF_PRIVATE *psf, const double *ptr, sf_count_t len) ; static sf_count_t ima_seek (SF_PRIVATE *psf, int mode, sf_count_t offset) ; static int ima_close (SF_PRIVATE *psf) ; static int wav_w64_ima_decode_block (SF_PRIVATE *psf, IMA_ADPCM_PRIVATE *pima) ; static int wav_w64_ima_encode_block (SF_PRIVATE *psf, IMA_ADPCM_PRIVATE *pima) ; /*-static int aiff_ima_reader_init (SF_PRIVATE *psf, int blockalign, int samplesperblock) ;-*/ static int aiff_ima_decode_block (SF_PRIVATE *psf, IMA_ADPCM_PRIVATE *pima) ; static int aiff_ima_encode_block (SF_PRIVATE *psf, IMA_ADPCM_PRIVATE *pima) ; static inline int clamp_ima_step_index (int indx) { if (indx < 0) return 0 ; if (indx >= ARRAY_LEN (ima_step_size)) return ARRAY_LEN (ima_step_size) - 1 ; return indx ; } /* clamp_ima_step_index */ /*============================================================================================ ** IMA ADPCM Reader initialisation function. */ int wav_w64_ima_init (SF_PRIVATE *psf, int blockalign, int samplesperblock) { int error ; if (psf->codec_data != NULL) { psf_log_printf (psf, "*** psf->codec_data is not NULL.\n") ; return SFE_INTERNAL ; } ; if (psf->file.mode == SFM_RDWR) return SFE_BAD_MODE_RW ; if (psf->file.mode == SFM_READ) if ((error = ima_reader_init (psf, blockalign, samplesperblock))) return error ; if (psf->file.mode == SFM_WRITE) if ((error = ima_writer_init (psf, blockalign))) return error ; psf->codec_close = ima_close ; psf->seek = ima_seek ; return 0 ; } /* wav_w64_ima_init */ int aiff_ima_init (SF_PRIVATE *psf, int blockalign, int samplesperblock) { int error ; if (psf->file.mode == SFM_RDWR) return SFE_BAD_MODE_RW ; if (psf->file.mode == SFM_READ) if ((error = ima_reader_init (psf, blockalign, samplesperblock))) return error ; if (psf->file.mode == SFM_WRITE) if ((error = ima_writer_init (psf, blockalign))) return error ; psf->codec_close = ima_close ; return 0 ; } /* aiff_ima_init */ static int ima_close (SF_PRIVATE *psf) { IMA_ADPCM_PRIVATE *pima ; pima = (IMA_ADPCM_PRIVATE*) psf->codec_data ; if (psf->file.mode == SFM_WRITE) { /* If a block has been partially assembled, write it out ** as the final block. */ if (pima->samplecount && pima->samplecount < pima->samplesperblock) pima->encode_block (psf, pima) ; psf->sf.frames = pima->samplesperblock * pima->blockcount / psf->sf.channels ; } ; return 0 ; } /* ima_close */ /*============================================================================================ ** IMA ADPCM Read Functions. */ static int ima_reader_init (SF_PRIVATE *psf, int blockalign, int samplesperblock) { IMA_ADPCM_PRIVATE *pima ; int pimasize, count ; if (psf->file.mode != SFM_READ) return SFE_BAD_MODE_RW ; pimasize = sizeof (IMA_ADPCM_PRIVATE) + blockalign * psf->sf.channels + 3 * psf->sf.channels * samplesperblock ; if (! (pima = calloc (1, pimasize))) return SFE_MALLOC_FAILED ; psf->codec_data = (void*) pima ; pima->samples = pima->data ; pima->block = (unsigned char*) (pima->data + samplesperblock * psf->sf.channels) ; pima->channels = psf->sf.channels ; pima->blocksize = blockalign ; pima->samplesperblock = samplesperblock ; psf->filelength = psf_get_filelen (psf) ; psf->datalength = (psf->dataend) ? psf->dataend - psf->dataoffset : psf->filelength - psf->dataoffset ; if (pima->blocksize == 0) { psf_log_printf (psf, "*** Error : pima->blocksize should not be zero.\n") ; return SFE_INTERNAL ; } ; if (psf->datalength % pima->blocksize) pima->blocks = psf->datalength / pima->blocksize + 1 ; else pima->blocks = psf->datalength / pima->blocksize ; switch (SF_CONTAINER (psf->sf.format)) { case SF_FORMAT_WAV : case SF_FORMAT_W64 : count = 2 * (pima->blocksize - 4 * pima->channels) / pima->channels + 1 ; if (pima->samplesperblock != count) { psf_log_printf (psf, "*** Error : samplesperblock should be %d.\n", count) ; return SFE_INTERNAL ; } ; pima->decode_block = wav_w64_ima_decode_block ; psf->sf.frames = pima->samplesperblock * pima->blocks ; break ; case SF_FORMAT_AIFF : psf_log_printf (psf, "still need to check block count\n") ; pima->decode_block = aiff_ima_decode_block ; psf->sf.frames = pima->samplesperblock * pima->blocks / pima->channels ; break ; default : psf_log_printf (psf, "ima_reader_init: bad psf->sf.format\n") ; return SFE_INTERNAL ; } ; pima->decode_block (psf, pima) ; /* Read first block. */ psf->read_short = ima_read_s ; psf->read_int = ima_read_i ; psf->read_float = ima_read_f ; psf->read_double = ima_read_d ; return 0 ; } /* ima_reader_init */ static int aiff_ima_decode_block (SF_PRIVATE *psf, IMA_ADPCM_PRIVATE *pima) { unsigned char *blockdata ; int chan, k, diff, bytecode, predictor ; short step, stepindx, *sampledata ; static int count = 0 ; count ++ ; pima->blockcount += pima->channels ; pima->samplecount = 0 ; if (pima->blockcount > pima->blocks) { memset (pima->samples, 0, pima->samplesperblock * pima->channels * sizeof (short)) ; return 1 ; } ; if ((k = psf_fread (pima->block, 1, pima->blocksize * pima->channels, psf)) != pima->blocksize * pima->channels) psf_log_printf (psf, "*** Warning : short read (%d != %d).\n", k, pima->blocksize) ; /* Read and check the block header. */ for (chan = 0 ; chan < pima->channels ; chan++) { blockdata = pima->block + chan * 34 ; sampledata = pima->samples + chan ; predictor = (blockdata [0] << 8) | (blockdata [1] & 0x80) ; stepindx = blockdata [1] & 0x7F ; stepindx = clamp_ima_step_index (stepindx) ; /* ** Pull apart the packed 4 bit samples and store them in their ** correct sample positions. */ for (k = 0 ; k < pima->blocksize - 2 ; k++) { bytecode = blockdata [k + 2] ; sampledata [pima->channels * (2 * k + 0)] = bytecode & 0xF ; sampledata [pima->channels * (2 * k + 1)] = (bytecode >> 4) & 0xF ; } ; /* Decode the encoded 4 bit samples. */ for (k = 0 ; k < pima->samplesperblock ; k ++) { step = ima_step_size [stepindx] ; bytecode = pima->samples [pima->channels * k + chan] ; stepindx += ima_indx_adjust [bytecode] ; stepindx = clamp_ima_step_index (stepindx) ; diff = step >> 3 ; if (bytecode & 1) diff += step >> 2 ; if (bytecode & 2) diff += step >> 1 ; if (bytecode & 4) diff += step ; if (bytecode & 8) diff = -diff ; predictor += diff ; if (predictor < -32768) predictor = -32768 ; else if (predictor > 32767) predictor = 32767 ; pima->samples [pima->channels * k + chan] = predictor ; } ; } ; return 1 ; } /* aiff_ima_decode_block */ static int aiff_ima_encode_block (SF_PRIVATE *psf, IMA_ADPCM_PRIVATE *pima) { int chan, k, step, diff, vpdiff, blockindx, indx ; short bytecode, mask ; /* Encode the block header. */ for (chan = 0 ; chan < pima->channels ; chan ++) { blockindx = chan * pima->blocksize ; pima->block [blockindx] = (pima->samples [chan] >> 8) & 0xFF ; pima->block [blockindx + 1] = (pima->samples [chan] & 0x80) + (pima->stepindx [chan] & 0x7F) ; pima->previous [chan] = pima->samples [chan] ; } ; /* Encode second and later samples for every block as a 4 bit value. */ for (k = pima->channels ; k < (pima->samplesperblock * pima->channels) ; k ++) { chan = (pima->channels > 1) ? (k % 2) : 0 ; diff = pima->samples [k] - pima->previous [chan] ; bytecode = 0 ; step = ima_step_size [pima->stepindx [chan]] ; vpdiff = step >> 3 ; if (diff < 0) { bytecode = 8 ; diff = -diff ; } ; mask = 4 ; while (mask) { if (diff >= step) { bytecode |= mask ; diff -= step ; vpdiff += step ; } ; step >>= 1 ; mask >>= 1 ; } ; if (bytecode & 8) pima->previous [chan] -= vpdiff ; else pima->previous [chan] += vpdiff ; if (pima->previous [chan] > 32767) pima->previous [chan] = 32767 ; else if (pima->previous [chan] < -32768) pima->previous [chan] = -32768 ; pima->stepindx [chan] += ima_indx_adjust [bytecode] ; pima->stepindx [chan] = clamp_ima_step_index (pima->stepindx [chan]) ; pima->samples [k] = bytecode ; } ; /* Pack the 4 bit encoded samples. */ for (chan = 0 ; chan < pima->channels ; chan ++) { for (indx = pima->channels ; indx < pima->channels * pima->samplesperblock ; indx += 2 * pima->channels) { blockindx = chan * pima->blocksize + 2 + indx / 2 ; pima->block [blockindx] = pima->samples [indx] & 0x0F ; pima->block [blockindx] |= (pima->samples [indx + chan] << 4) & 0xF0 ; } ; } ; /* Write the block to disk. */ if ((k = psf_fwrite (pima->block, 1, pima->channels * pima->blocksize, psf)) != pima->channels * pima->blocksize) psf_log_printf (psf, "*** Warning : short write (%d != %d).\n", k, pima->channels * pima->blocksize) ; memset (pima->samples, 0, pima->channels * pima->samplesperblock * sizeof (short)) ; pima->samplecount = 0 ; pima->blockcount ++ ; return 1 ; } /* aiff_ima_encode_block */ static int wav_w64_ima_decode_block (SF_PRIVATE *psf, IMA_ADPCM_PRIVATE *pima) { int chan, k, predictor, blockindx, indx, indxstart, diff ; short step, bytecode, stepindx [2] ; pima->blockcount ++ ; pima->samplecount = 0 ; if (pima->blockcount > pima->blocks) { memset (pima->samples, 0, pima->samplesperblock * pima->channels * sizeof (short)) ; return 1 ; } ; if ((k = psf_fread (pima->block, 1, pima->blocksize, psf)) != pima->blocksize) psf_log_printf (psf, "*** Warning : short read (%d != %d).\n", k, pima->blocksize) ; /* Read and check the block header. */ for (chan = 0 ; chan < pima->channels ; chan++) { predictor = pima->block [chan*4] | (pima->block [chan*4+1] << 8) ; if (predictor & 0x8000) predictor -= 0x10000 ; stepindx [chan] = pima->block [chan*4+2] ; stepindx [chan] = clamp_ima_step_index (stepindx [chan]) ; if (pima->block [chan*4+3] != 0) psf_log_printf (psf, "IMA ADPCM synchronisation error.\n") ; pima->samples [chan] = predictor ; } ; /* ** Pull apart the packed 4 bit samples and store them in their ** correct sample positions. */ blockindx = 4 * pima->channels ; indxstart = pima->channels ; while (blockindx < pima->blocksize) { for (chan = 0 ; chan < pima->channels ; chan++) { indx = indxstart + chan ; for (k = 0 ; k < 4 ; k++) { bytecode = pima->block [blockindx++] ; pima->samples [indx] = bytecode & 0x0F ; indx += pima->channels ; pima->samples [indx] = (bytecode >> 4) & 0x0F ; indx += pima->channels ; } ; } ; indxstart += 8 * pima->channels ; } ; /* Decode the encoded 4 bit samples. */ for (k = pima->channels ; k < (pima->samplesperblock * pima->channels) ; k ++) { chan = (pima->channels > 1) ? (k % 2) : 0 ; bytecode = pima->samples [k] & 0xF ; step = ima_step_size [stepindx [chan]] ; predictor = pima->samples [k - pima->channels] ; diff = step >> 3 ; if (bytecode & 1) diff += step >> 2 ; if (bytecode & 2) diff += step >> 1 ; if (bytecode & 4) diff += step ; if (bytecode & 8) diff = -diff ; predictor += diff ; if (predictor > 32767) predictor = 32767 ; else if (predictor < -32768) predictor = -32768 ; stepindx [chan] += ima_indx_adjust [bytecode] ; stepindx [chan] = clamp_ima_step_index (stepindx [chan]) ; pima->samples [k] = predictor ; } ; return 1 ; } /* wav_w64_ima_decode_block */ static int wav_w64_ima_encode_block (SF_PRIVATE *psf, IMA_ADPCM_PRIVATE *pima) { int chan, k, step, diff, vpdiff, blockindx, indx, indxstart ; short bytecode, mask ; /* Encode the block header. */ for (chan = 0 ; chan < pima->channels ; chan++) { pima->block [chan*4] = pima->samples [chan] & 0xFF ; pima->block [chan*4+1] = (pima->samples [chan] >> 8) & 0xFF ; pima->block [chan*4+2] = pima->stepindx [chan] ; pima->block [chan*4+3] = 0 ; pima->previous [chan] = pima->samples [chan] ; } ; /* Encode the samples as 4 bit. */ for (k = pima->channels ; k < (pima->samplesperblock * pima->channels) ; k ++) { chan = (pima->channels > 1) ? (k % 2) : 0 ; diff = pima->samples [k] - pima->previous [chan] ; bytecode = 0 ; step = ima_step_size [pima->stepindx [chan]] ; vpdiff = step >> 3 ; if (diff < 0) { bytecode = 8 ; diff = -diff ; } ; mask = 4 ; while (mask) { if (diff >= step) { bytecode |= mask ; diff -= step ; vpdiff += step ; } ; step >>= 1 ; mask >>= 1 ; } ; if (bytecode & 8) pima->previous [chan] -= vpdiff ; else pima->previous [chan] += vpdiff ; if (pima->previous [chan] > 32767) pima->previous [chan] = 32767 ; else if (pima->previous [chan] < -32768) pima->previous [chan] = -32768 ; pima->stepindx [chan] += ima_indx_adjust [bytecode] ; pima->stepindx [chan] = clamp_ima_step_index (pima->stepindx [chan]) ; pima->samples [k] = bytecode ; } ; /* Pack the 4 bit encoded samples. */ blockindx = 4 * pima->channels ; indxstart = pima->channels ; while (blockindx < pima->blocksize) { for (chan = 0 ; chan < pima->channels ; chan++) { indx = indxstart + chan ; for (k = 0 ; k < 4 ; k++) { pima->block [blockindx] = pima->samples [indx] & 0x0F ; indx += pima->channels ; pima->block [blockindx] |= (pima->samples [indx] << 4) & 0xF0 ; indx += pima->channels ; blockindx ++ ; } ; } ; indxstart += 8 * pima->channels ; } ; /* Write the block to disk. */ if ((k = psf_fwrite (pima->block, 1, pima->blocksize, psf)) != pima->blocksize) psf_log_printf (psf, "*** Warning : short write (%d != %d).\n", k, pima->blocksize) ; memset (pima->samples, 0, pima->samplesperblock * sizeof (short)) ; pima->samplecount = 0 ; pima->blockcount ++ ; return 1 ; } /* wav_w64_ima_encode_block */ static int ima_read_block (SF_PRIVATE *psf, IMA_ADPCM_PRIVATE *pima, short *ptr, int len) { int count, total = 0, indx = 0 ; while (indx < len) { if (pima->blockcount >= pima->blocks && pima->samplecount >= pima->samplesperblock) { memset (&(ptr [indx]), 0, (size_t) ((len - indx) * sizeof (short))) ; return total ; } ; if (pima->samplecount >= pima->samplesperblock) pima->decode_block (psf, pima) ; count = (pima->samplesperblock - pima->samplecount) * pima->channels ; count = (len - indx > count) ? count : len - indx ; memcpy (&(ptr [indx]), &(pima->samples [pima->samplecount * pima->channels]), count * sizeof (short)) ; indx += count ; pima->samplecount += count / pima->channels ; total = indx ; } ; return total ; } /* ima_read_block */ static sf_count_t ima_read_s (SF_PRIVATE *psf, short *ptr, sf_count_t len) { IMA_ADPCM_PRIVATE *pima ; int readcount, count ; sf_count_t total = 0 ; if (! psf->codec_data) return 0 ; pima = (IMA_ADPCM_PRIVATE*) psf->codec_data ; while (len > 0) { readcount = (len > 0x10000000) ? 0x10000000 : (int) len ; count = ima_read_block (psf, pima, ptr, readcount) ; total += count ; len -= count ; if (count != readcount) break ; } ; return total ; } /* ima_read_s */ static sf_count_t ima_read_i (SF_PRIVATE *psf, int *ptr, sf_count_t len) { IMA_ADPCM_PRIVATE *pima ; BUF_UNION ubuf ; short *sptr ; int k, bufferlen, readcount, count ; sf_count_t total = 0 ; if (! psf->codec_data) return 0 ; pima = (IMA_ADPCM_PRIVATE*) psf->codec_data ; sptr = ubuf.sbuf ; bufferlen = ARRAY_LEN (ubuf.sbuf) ; while (len > 0) { readcount = (len >= bufferlen) ? bufferlen : (int) len ; count = ima_read_block (psf, pima, sptr, readcount) ; for (k = 0 ; k < readcount ; k++) ptr [total + k] = ((int) sptr [k]) << 16 ; total += count ; len -= readcount ; if (count != readcount) break ; } ; return total ; } /* ima_read_i */ static sf_count_t ima_read_f (SF_PRIVATE *psf, float *ptr, sf_count_t len) { IMA_ADPCM_PRIVATE *pima ; BUF_UNION ubuf ; short *sptr ; int k, bufferlen, readcount, count ; sf_count_t total = 0 ; float normfact ; if (! psf->codec_data) return 0 ; pima = (IMA_ADPCM_PRIVATE*) psf->codec_data ; normfact = (psf->norm_float == SF_TRUE) ? 1.0 / ((float) 0x8000) : 1.0 ; sptr = ubuf.sbuf ; bufferlen = ARRAY_LEN (ubuf.sbuf) ; while (len > 0) { readcount = (len >= bufferlen) ? bufferlen : (int) len ; count = ima_read_block (psf, pima, sptr, readcount) ; for (k = 0 ; k < readcount ; k++) ptr [total + k] = normfact * (float) (sptr [k]) ; total += count ; len -= readcount ; if (count != readcount) break ; } ; return total ; } /* ima_read_f */ static sf_count_t ima_read_d (SF_PRIVATE *psf, double *ptr, sf_count_t len) { IMA_ADPCM_PRIVATE *pima ; BUF_UNION ubuf ; short *sptr ; int k, bufferlen, readcount, count ; sf_count_t total = 0 ; double normfact ; if (! psf->codec_data) return 0 ; pima = (IMA_ADPCM_PRIVATE*) psf->codec_data ; normfact = (psf->norm_double == SF_TRUE) ? 1.0 / ((double) 0x8000) : 1.0 ; sptr = ubuf.sbuf ; bufferlen = ARRAY_LEN (ubuf.sbuf) ; while (len > 0) { readcount = (len >= bufferlen) ? bufferlen : (int) len ; count = ima_read_block (psf, pima, sptr, readcount) ; for (k = 0 ; k < readcount ; k++) ptr [total + k] = normfact * (double) (sptr [k]) ; total += count ; len -= readcount ; if (count != readcount) break ; } ; return total ; } /* ima_read_d */ static sf_count_t ima_seek (SF_PRIVATE *psf, int mode, sf_count_t offset) { IMA_ADPCM_PRIVATE *pima ; int newblock, newsample ; if (! psf->codec_data) return 0 ; pima = (IMA_ADPCM_PRIVATE*) psf->codec_data ; if (psf->datalength < 0 || psf->dataoffset < 0) { psf->error = SFE_BAD_SEEK ; return PSF_SEEK_ERROR ; } ; if (offset == 0) { psf_fseek (psf, psf->dataoffset, SEEK_SET) ; pima->blockcount = 0 ; pima->decode_block (psf, pima) ; pima->samplecount = 0 ; return 0 ; } ; if (offset < 0 || offset > pima->blocks * pima->samplesperblock) { psf->error = SFE_BAD_SEEK ; return PSF_SEEK_ERROR ; } ; newblock = offset / pima->samplesperblock ; newsample = offset % pima->samplesperblock ; if (mode == SFM_READ) { psf_fseek (psf, psf->dataoffset + newblock * pima->blocksize, SEEK_SET) ; pima->blockcount = newblock ; pima->decode_block (psf, pima) ; pima->samplecount = newsample ; } else { /* What to do about write??? */ psf->error = SFE_BAD_SEEK ; return PSF_SEEK_ERROR ; } ; return newblock * pima->samplesperblock + newsample ; } /* ima_seek */ /*========================================================================================== ** IMA ADPCM Write Functions. */ static int ima_writer_init (SF_PRIVATE *psf, int blockalign) { IMA_ADPCM_PRIVATE *pima ; int samplesperblock ; unsigned int pimasize ; if (psf->file.mode != SFM_WRITE) return SFE_BAD_MODE_RW ; samplesperblock = 2 * (blockalign - 4 * psf->sf.channels) / psf->sf.channels + 1 ; pimasize = sizeof (IMA_ADPCM_PRIVATE) + blockalign + 3 * psf->sf.channels * samplesperblock ; if ((pima = calloc (1, pimasize)) == NULL) return SFE_MALLOC_FAILED ; psf->codec_data = (void*) pima ; pima->channels = psf->sf.channels ; pima->blocksize = blockalign ; pima->samplesperblock = samplesperblock ; pima->block = (unsigned char*) pima->data ; pima->samples = (short*) (pima->data + blockalign) ; pima->samplecount = 0 ; switch (SF_CONTAINER (psf->sf.format)) { case SF_FORMAT_WAV : case SF_FORMAT_W64 : pima->encode_block = wav_w64_ima_encode_block ; break ; case SF_FORMAT_AIFF : pima->encode_block = aiff_ima_encode_block ; break ; default : psf_log_printf (psf, "ima_reader_init: bad psf->sf.format\n") ; return SFE_INTERNAL ; } ; psf->write_short = ima_write_s ; psf->write_int = ima_write_i ; psf->write_float = ima_write_f ; psf->write_double = ima_write_d ; return 0 ; } /* ima_writer_init */ /*========================================================================================== */ static int ima_write_block (SF_PRIVATE *psf, IMA_ADPCM_PRIVATE *pima, const short *ptr, int len) { int count, total = 0, indx = 0 ; while (indx < len) { count = (pima->samplesperblock - pima->samplecount) * pima->channels ; if (count > len - indx) count = len - indx ; memcpy (&(pima->samples [pima->samplecount * pima->channels]), &(ptr [total]), count * sizeof (short)) ; indx += count ; pima->samplecount += count / pima->channels ; total = indx ; if (pima->samplecount >= pima->samplesperblock) pima->encode_block (psf, pima) ; } ; return total ; } /* ima_write_block */ static sf_count_t ima_write_s (SF_PRIVATE *psf, const short *ptr, sf_count_t len) { IMA_ADPCM_PRIVATE *pima ; int writecount, count ; sf_count_t total = 0 ; if (! psf->codec_data) return 0 ; pima = (IMA_ADPCM_PRIVATE*) psf->codec_data ; while (len) { writecount = (len > 0x10000000) ? 0x10000000 : (int) len ; count = ima_write_block (psf, pima, ptr, writecount) ; total += count ; len -= count ; if (count != writecount) break ; } ; return total ; } /* ima_write_s */ static sf_count_t ima_write_i (SF_PRIVATE *psf, const int *ptr, sf_count_t len) { IMA_ADPCM_PRIVATE *pima ; BUF_UNION ubuf ; short *sptr ; int k, bufferlen, writecount, count ; sf_count_t total = 0 ; if (! psf->codec_data) return 0 ; pima = (IMA_ADPCM_PRIVATE*) psf->codec_data ; sptr = ubuf.sbuf ; bufferlen = ARRAY_LEN (ubuf.sbuf) ; while (len > 0) { writecount = (len >= bufferlen) ? bufferlen : (int) len ; for (k = 0 ; k < writecount ; k++) sptr [k] = ptr [total + k] >> 16 ; count = ima_write_block (psf, pima, sptr, writecount) ; total += count ; len -= writecount ; if (count != writecount) break ; } ; return total ; } /* ima_write_i */ static sf_count_t ima_write_f (SF_PRIVATE *psf, const float *ptr, sf_count_t len) { IMA_ADPCM_PRIVATE *pima ; BUF_UNION ubuf ; short *sptr ; int k, bufferlen, writecount, count ; sf_count_t total = 0 ; float normfact ; if (! psf->codec_data) return 0 ; pima = (IMA_ADPCM_PRIVATE*) psf->codec_data ; normfact = (psf->norm_float == SF_TRUE) ? (1.0 * 0x7FFF) : 1.0 ; sptr = ubuf.sbuf ; bufferlen = ARRAY_LEN (ubuf.sbuf) ; while (len > 0) { writecount = (len >= bufferlen) ? bufferlen : (int) len ; for (k = 0 ; k < writecount ; k++) sptr [k] = lrintf (normfact * ptr [total + k]) ; count = ima_write_block (psf, pima, sptr, writecount) ; total += count ; len -= writecount ; if (count != writecount) break ; } ; return total ; } /* ima_write_f */ static sf_count_t ima_write_d (SF_PRIVATE *psf, const double *ptr, sf_count_t len) { IMA_ADPCM_PRIVATE *pima ; BUF_UNION ubuf ; short *sptr ; int k, bufferlen, writecount, count ; sf_count_t total = 0 ; double normfact ; if (! psf->codec_data) return 0 ; pima = (IMA_ADPCM_PRIVATE*) psf->codec_data ; normfact = (psf->norm_double == SF_TRUE) ? (1.0 * 0x7FFF) : 1.0 ; sptr = ubuf.sbuf ; bufferlen = ARRAY_LEN (ubuf.sbuf) ; while (len > 0) { writecount = (len >= bufferlen) ? bufferlen : (int) len ; for (k = 0 ; k < writecount ; k++) sptr [k] = lrint (normfact * ptr [total + k]) ; count = ima_write_block (psf, pima, sptr, writecount) ; total += count ; len -= writecount ; if (count != writecount) break ; } ; return total ; } /* ima_write_d */