/* SoX Resampler Library Copyright (c) 2007-13 robs@users.sourceforge.net * Licence for this file: LGPL v2.1 See LICENCE for details. */ /* Example 3: extends example 2 with multiple channels, multiple datatypes, * and other options. * * The application provides an input function, called on demand by libsoxr, in * response to calls to soxr_output(); compared to the `process' approach * (illustrated in example 2) this requires that the application implements * less logic, but one more function. * * The 11 arguments (which are optional, from last to first) are: * INPUT-RATE As example 2 * OUTPUT-RATE Ditto * NUM-CHANNELS Number of interleaved channels * IN-DATATYPE# 0:float32 1:float64 2:int32 3:int16 * OUT-DATATYPE# Ditto * Q-RECIPE Quality recipe (in hex) See soxr.h * Q-FLAGS Quality flags (in hex) See soxr.h * PASSBAND-END % * STOPBAND-BEGIN % * PHASE-RESPONSE [0,100] * USE-THREADS 1 to use multi-threading (where available) */ #include #include "examples-common.h" typedef struct {void * ibuf; size_t isize;} input_context_t; static size_t input_fn(input_context_t * p, soxr_cbuf_t * buf, size_t len) { /* Read one block into the buffer, ready to be input to the resampler: */ len = fread(p->ibuf, p->isize, len, stdin); /* Actual len read may be less. */ /* Inform the resampler of the data's whereabouts (which could be anywhere, in * a freshly malloc'd buffer, for example): */ *buf = (!len && ferror(stdin))? NULL : p->ibuf; /* NULL if error occurred. */ return len; /* # of samples per channel to input. */ } int main(int n, char const * arg[]) { char const * const arg0 = n? --n, *arg++ : ""; double const irate = n? --n, atof(*arg++) : 96000.; double const orate = n? --n, atof(*arg++) : 44100.; unsigned const chans = n? --n, (unsigned)atoi(*arg++) : 1; soxr_datatype_t const itype = n? --n, (soxr_datatype_t)atoi(*arg++) : 0; unsigned const ospec = n? --n, (soxr_datatype_t)atoi(*arg++) : 0; unsigned long const q_recipe= n? --n, strtoul(*arg++, 0, 16) : SOXR_HQ; unsigned long const q_flags = n? --n, strtoul(*arg++, 0, 16) : 0; double const passband_end = n? --n, atof(*arg++) : 0; double const stopband_begin = n? --n, atof(*arg++) : 0; double const phase_response = n? --n, atof(*arg++) : -1; int const use_threads = n? --n, atoi(*arg++) : 1; soxr_datatype_t const otype = ospec & 3; soxr_quality_spec_t q_spec = soxr_quality_spec(q_recipe, q_flags); soxr_io_spec_t io_spec = soxr_io_spec(itype, otype); soxr_runtime_spec_t const runtime_spec = soxr_runtime_spec(!use_threads); /* Allocate resampling input and output buffers in proportion to the input * and output rates: */ #define buf_total_len 15000 /* In samples per channel. */ size_t const osize = soxr_datatype_size(otype) * chans; size_t const isize = soxr_datatype_size(itype) * chans; size_t const olen0= (size_t)(orate * buf_total_len / (irate + orate) + .5); size_t const olen = min(max(olen0, 1), buf_total_len - 1); size_t const ilen = buf_total_len - olen; void * const obuf = malloc(osize * olen); void * const ibuf = malloc(isize * ilen); input_context_t icontext; size_t odone, clips = 0; soxr_error_t error; soxr_t soxr; /* Overrides (if given): */ if (passband_end > 0) q_spec.passband_end = passband_end / 100; if (stopband_begin > 0) q_spec.stopband_begin = stopband_begin / 100; if (phase_response >=0) q_spec.phase_response = phase_response; io_spec.flags = ospec & ~7u; /* Create a stream resampler: */ soxr = soxr_create( irate, orate, chans, /* Input rate, output rate, # of channels. */ &error, /* To report any error during creation. */ &io_spec, &q_spec, &runtime_spec); if (!error) { /* Register input_fn with the resampler: */ icontext.ibuf = ibuf, icontext.isize = isize; error = soxr_set_input_fn(soxr, (soxr_input_fn_t)input_fn, &icontext, ilen); } if (!error) { /* If all is well, run the resampler: */ USE_STD_STDIO; /* Resample in blocks: */ do odone = soxr_output(soxr, obuf, olen); while (fwrite(obuf, osize, odone, stdout)); /* Consume output. */ error = soxr_error(soxr); /* Check if any soxr error occurred. */ clips = *soxr_num_clips(soxr); /* Can occur only with integer output. */ } /* Tidy up: */ soxr_delete(soxr); free(obuf), free(ibuf); /* Diagnostics: */ fprintf(stderr, "%-26s %s; %lu clips; I/O: %s\n", arg0, soxr_strerror(error), (long unsigned)clips, ferror(stdin) || ferror(stdout)? strerror(errno) : "no error"); return !!error; }