ref: 00e38f8a6564fa92cc93e30b4ff8726312b1c95e
dir: /src/lpc10.c/
/* libSoX lpc-10 format. * * Copyright 2007 Reuben Thomas <rrt@sc3d.org> * * This library 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 library 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 library; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "sox_i.h" #ifdef EXTERNAL_LPC10 #include <lpc10.h> #else #include "../lpc10/lpc10.h" #endif /* Private data */ typedef struct { struct lpc10_encoder_state *encst; float speech[LPC10_SAMPLES_PER_FRAME]; unsigned samples; struct lpc10_decoder_state *decst; } priv_t; /* Write the bits in bits[0] through bits[len-1] to file f, in "packed" format. bits is expected to be an array of len integer values, where each integer is 0 to represent a 0 bit, and any other value represents a 1 bit. This bit string is written to the file f in the form of several 8 bit characters. If len is not a multiple of 8, then the last character is padded with 0 bits -- the padding is in the least significant bits of the last byte. The 8 bit characters are "filled" in order from most significant bit to least significant. */ static void write_bits(sox_format_t * ft, INT32 *bits, int len) { int i; uint8_t mask; /* The next bit position within the variable "data" to place the next bit. */ uint8_t data; /* The contents of the next byte to place in the output. */ /* Fill in the array bits. * The first compressed output bit will be the most significant * bit of the byte, so initialize mask to 0x80. The next byte of * compressed data is initially 0, and the desired bits will be * turned on below. */ mask = 0x80; data = 0; for (i = 0; i < len; i++) { /* Turn on the next bit of output data, if necessary. */ if (bits[i]) { data |= mask; } /* * If the byte data is full, determined by mask becoming 0, * then write the byte to the output file, and reinitialize * data and mask for the next output byte. Also add the byte * if (i == len-1), because if len is not a multiple of 8, * then mask won't yet be 0. */ mask >>= 1; if ((mask == 0) || (i == len-1)) { lsx_writeb(ft, data); data = 0; mask = 0x80; } } } /* Read bits from file f into bits[0] through bits[len-1], in "packed" format. Read ceiling(len/8) characters from file f, if that many are available to read, otherwise read to the end of the file. The first character's 8 bits, in order from MSB to LSB, are used to fill bits[0] through bits[7]. The second character's bits are used to fill bits[8] through bits[15], and so on. If ceiling(len/8) characters are available to read, and len is not a multiple of 8, then some of the least significant bits of the last character read are completely ignored. Every entry of bits[] that is modified is changed to either a 0 or a 1. The number of bits successfully read is returned, and is always in the range 0 to len, inclusive. If it is less than len, it will always be a multiple of 8. */ static int read_bits(sox_format_t * ft, INT32 *bits, int len) { int i; uint8_t c; /* Unpack the array bits into coded_frame. */ for (i = 0; i < len; i++) { if (i % 8 == 0) { lsx_read_b_buf(ft, &c, (size_t) 1); if (lsx_eof(ft)) { return (i); } } if (c & (0x80 >> (i & 7))) { bits[i] = 1; } else { bits[i] = 0; } } return (len); } static int startread(sox_format_t * ft) { priv_t * lpc = (priv_t *)ft->priv; if ((lpc->decst = create_lpc10_decoder_state()) == NULL) { fprintf(stderr, "lpc10 could not allocate decoder state"); return SOX_EOF; } lpc->samples = LPC10_SAMPLES_PER_FRAME; return lsx_check_read_params(ft, 1, 8000., SOX_ENCODING_LPC10, 0, (off_t)0, sox_false); } static int startwrite(sox_format_t * ft) { priv_t * lpc = (priv_t *)ft->priv; if ((lpc->encst = create_lpc10_encoder_state()) == NULL) { fprintf(stderr, "lpc10 could not allocate encoder state"); return SOX_EOF; } lpc->samples = 0; return SOX_SUCCESS; } static size_t read_samples(sox_format_t * ft, sox_sample_t *buf, size_t len) { priv_t * lpc = (priv_t *)ft->priv; size_t nread = 0; while (nread < len) { SOX_SAMPLE_LOCALS; /* Read more data if buffer is empty */ if (lpc->samples == LPC10_SAMPLES_PER_FRAME) { INT32 bits[LPC10_BITS_IN_COMPRESSED_FRAME]; if (read_bits(ft, bits, LPC10_BITS_IN_COMPRESSED_FRAME) != LPC10_BITS_IN_COMPRESSED_FRAME) break; lpc10_decode(bits, lpc->speech, lpc->decst); lpc->samples = 0; } while (nread < len && lpc->samples < LPC10_SAMPLES_PER_FRAME) buf[nread++] = SOX_FLOAT_32BIT_TO_SAMPLE(lpc->speech[lpc->samples++], ft->clips); } return nread; } static size_t write_samples(sox_format_t * ft, const sox_sample_t *buf, size_t len) { priv_t * lpc = (priv_t *)ft->priv; size_t nwritten = 0; while (len > 0) { while (len > 0 && lpc->samples < LPC10_SAMPLES_PER_FRAME) { SOX_SAMPLE_LOCALS; lpc->speech[lpc->samples++] = SOX_SAMPLE_TO_FLOAT_32BIT(buf[nwritten++], ft->clips); len--; } if (lpc->samples == LPC10_SAMPLES_PER_FRAME) { INT32 bits[LPC10_BITS_IN_COMPRESSED_FRAME]; lpc10_encode(lpc->speech, bits, lpc->encst); write_bits(ft, bits, LPC10_BITS_IN_COMPRESSED_FRAME); lpc->samples = 0; } } return nwritten; } static int stopread(sox_format_t * ft) { priv_t * lpc = (priv_t *)ft->priv; free(lpc->decst); return SOX_SUCCESS; } static int stopwrite(sox_format_t * ft) { priv_t * lpc = (priv_t *)ft->priv; free(lpc->encst); return SOX_SUCCESS; } LSX_FORMAT_HANDLER(lpc10) { static char const * const names[] = {"lpc10", "lpc", NULL}; static sox_rate_t const write_rates[] = {8000, 0}; static unsigned const write_encodings[] = {SOX_ENCODING_LPC10, 0, 0}; static sox_format_handler_t handler = {SOX_LIB_VERSION_CODE, "Low bandwidth, robotic sounding speech compression", names, SOX_FILE_MONO, startread, read_samples, stopread, startwrite, write_samples, stopwrite, NULL, write_encodings, write_rates, sizeof(priv_t) }; return &handler; }