Mercurial > hg > octave-nkf
view libinterp/dldfcn/audioread.cc @ 20155:4910b70d7328
Ensure correct coordinates are available in windowbuttondownfcn callback
* __init_fltk__.cc (plot_window::handle): Ensure the "windowbuttondownfcn"
callback is called after the axes property "currentpoint" is updated.
| author | Mike Miller <mtmiller@octave.org> |
|---|---|
| date | Sun, 15 Mar 2015 12:34:39 -0400 |
| parents | d575cd1e0da7 |
| children | 075a5e2e1ba5 |
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/* Copyright (C) 2013-2015 Vytautas JanĨauskas This file is part of Octave. Octave is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. Octave 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 General Public License for more details. You should have received a copy of the GNU General Public License along with Octave; see the file COPYING. If not, see <http://www.gnu.org/licenses/>. */ #ifdef HAVE_CONFIG_H #include <config.h> #endif #include <string> #include <map> #include "oct-locbuf.h" #include "unwind-prot.h" #include "defun-dld.h" #include "error.h" #include "gripes.h" #include "oct-obj.h" #include "ov.h" #include "ov-struct.h" #ifdef HAVE_SNDFILE #include <sndfile.h> #endif #ifdef HAVE_SNDFILE static void safe_close (SNDFILE *file) { sf_close (file); } #endif DEFUN_DLD (audioread, args, , "-*- texinfo -*-\n\ @deftypefn {Loadable Function} {[@var{y}, @var{fs}] =} audioread (@var{filename})\n\ @deftypefnx {Loadable Function} {[@var{y}, @var{fs}] =} audioread (@var{filename}, @var{samples})\n\ \n\ @deftypefnx {Loadable Function} {[@var{y}, @var{fs}] =} audioread (@var{filename}, @var{datatype})\n\ @deftypefnx {Loadable Function} {[@var{y}, @var{fs}] =} audioread (@var{filename}, @var{samples}, @var{datatype})\n\ Read the audio file @var{filename} and return the audio data and sampling\n\ rate. The audio data is stored as matrix with rows corresponding\n\ to audio frames and columns corresponding to channels.\n\ \n\ The optional two-element vector argument @var{samples} specifies starting\n\ and ending frames.\n\ \n\ The optional argument @var{datatype} specifies the datatype to return.\n\ If it is @qcode{\"native\"}, then the type of data depends on how the\n\ data is stored in the audio file.\n\ \n\ Read a file and return a specified range of frames in an array of specified\n\ type.\n\ \n\ @end deftypefn") { octave_value_list retval; #ifdef HAVE_SNDFILE int nargin = args.length (); if (nargin < 1 || nargin > 3) { print_usage (); return retval; } std::string filename = args(0).string_value (); if (error_state) return retval; SF_INFO info; info.format = 0; SNDFILE *file = sf_open (filename.c_str (), SFM_READ, &info); if (! file) { error ("audioread: failed to open input file %s", filename.c_str ()); return retval; } unwind_protect frame; frame.add_fcn (safe_close, file); OCTAVE_LOCAL_BUFFER (float, data, info.frames * info.channels); sf_read_float (file, data, info.frames * info.channels); sf_count_t start = 0; sf_count_t end = info.frames; if ((nargin == 2 && ! args(1).is_string ()) || nargin == 3) { RowVector range = args(1).row_vector_value (); if (error_state) return retval; if (range.nelem () != 2) { error ("audioread: invalid specification for range of frames"); return retval; } double dstart = xisinf (range(0)) ? info.frames : range(0); double dend = xisinf (range(1)) ? info.frames : range(1); if (dstart < 1 || dstart > dend || dend > info.frames || D_NINT (dstart) != dstart || D_NINT (dend) != dend) { error ("audioread: invalid specification for range of frames"); return retval; } start = dstart - 1; end = dend; } sf_count_t items = end - start; Matrix audio (items, info.channels); double *paudio = audio.fortran_vec (); data += start * info.channels; for (int i = 0; i < items; i++) { for (int channel = 0; channel < info.channels; channel++) paudio[items*channel+i] = *data++; } octave_value ret_audio; if ((nargin == 2 && args(1).is_string ()) || nargin == 3) { std::string type; if (nargin == 3) type = args(2).string_value (); else type = args(1).string_value (); if (error_state) return retval; if (type == "native") { switch (info.format & SF_FORMAT_SUBMASK) { case SF_FORMAT_PCM_S8: ret_audio = int8NDArray (audio * 127); break; case SF_FORMAT_PCM_U8: ret_audio = uint8NDArray (audio * 127 + 127); break; case SF_FORMAT_PCM_16: ret_audio = int16NDArray (audio * 32767); break; case SF_FORMAT_PCM_24: ret_audio = int32NDArray (audio * 8388608); break; case SF_FORMAT_PCM_32: ret_audio = int32NDArray (audio * 2147483648); break; default: ret_audio = audio; break; } } else ret_audio = audio; } else ret_audio = audio; retval(1) = info.samplerate; retval(0) = ret_audio; #else error ("sndfile not found on your system and thus audioread is not functional"); #endif return retval; } #ifdef HAVE_SNDFILE static int extension_to_format (const std::string& ext) { static bool initialized = false; static std::map<std::string, int> table; if (! initialized) { table["wav"] = SF_FORMAT_WAV; table["aiff"] = SF_FORMAT_AIFF; table["au"] = SF_FORMAT_AU; table["raw"] = SF_FORMAT_RAW; table["paf"] = SF_FORMAT_PAF; table["svx"] = SF_FORMAT_SVX; table["nist"] = SF_FORMAT_NIST; table["voc"] = SF_FORMAT_VOC; table["ircam"] = SF_FORMAT_IRCAM; table["w64"] = SF_FORMAT_W64; table["mat4"] = SF_FORMAT_MAT4; table["mat5"] = SF_FORMAT_MAT5; table["pvf"] = SF_FORMAT_PVF; table["xi"] = SF_FORMAT_XI; table["htk"] = SF_FORMAT_HTK; table["sds"] = SF_FORMAT_SDS; table["avr"] = SF_FORMAT_AVR; table["wavex"] = SF_FORMAT_WAVEX; table["sd2"] = SF_FORMAT_SD2; table["flac"] = SF_FORMAT_FLAC; table["caf"] = SF_FORMAT_CAF; table["wve"] = SF_FORMAT_WVE; table["ogg"] = SF_FORMAT_OGG; table["mpc2k"] = SF_FORMAT_MPC2K; table["rf64"] = SF_FORMAT_RF64; initialized = true; } std::map<std::string, int>::const_iterator it = table.find (ext); return (it != table.end ()) ? it->second : 0; } #endif DEFUN_DLD (audiowrite, args, , "-*- texinfo -*-\n\ @deftypefn {Loadable Function} {} audiowrite (@var{filename}, @var{y}, @var{fs})\n\ @deftypefnx {Loadable Function} {} audiowrite (@var{filename}, @var{y}, @var{fs}, @var{name}, @var{value}, @dots{})\n\ \n\ Write audio data from the matrix @var{y} to @var{filename} with the file\n\ format determined by the file extension.\n\ \n\ Additional name and value argument pairs may be used to specify the\n\ following options:\n\ \n\ @table @samp\n\ @item BitsPerSample\n\ Number of bits per sample, valid values are 8, 16, 24 and 32. Default is 16.\n\ \n\ @item BitRate\n\ Valid argument name, but ignored. Left for compatibility with @sc{matlab}.\n\ \n\ @item Quality\n\ Quality setting for the Ogg Vorbis compressor. Values can range between 0\n\ and 100 with 100 being the highest quality setting. Default is 75.\n\ \n\ @item Title\n\ Title for the audio file.\n\ \n\ @item Artist\n\ Artist name.\n\ \n\ @item Comment\n\ Comment.\n\ @end table\n\ @end deftypefn") { // FIXME: shouldn't we return something to indicate whether the file // was written successfully? octave_value retval; #ifdef HAVE_SNDFILE int nargin = args.length (); if (nargin < 3) { print_usage (); return retval; } std::string filename = args(0).string_value (); if (error_state) return retval; Matrix audio = args(1).matrix_value (); if (error_state) return retval; double bias = 0.0; double scale = 1.0; if (args(1).is_uint8_type ()) bias = scale = std::pow (2.0, 7); else if (args(1).is_int16_type ()) scale = std::pow (2.0, 15); else if (args(1).is_int32_type ()) scale = std::pow (2.0, 31); else if (args(1).is_integer_type ()) { gripe_wrong_type_arg ("audiowrite", args(1)); return retval; } int samplerate = args(2).int_value (); if (error_state) return retval; std::string ext; size_t dotpos = filename.find_last_of ("."); if (dotpos != std::string::npos) ext = filename.substr (dotpos + 1); std::transform (ext.begin (), ext.end (), ext.begin (), ::tolower); sf_count_t items_to_write = audio.rows () * audio.columns (); if (audio.rows () == 1) audio = audio.transpose (); OCTAVE_LOCAL_BUFFER (float, data, items_to_write); sf_count_t idx = 0; for (int i = 0; i < audio.rows (); i++) { for (int j = 0; j < audio.columns (); j++) { double elem = (audio.xelem (i, j) - bias) / scale; data[idx++] = std::min (std::max (elem, -1.0), 1.0); } } SF_INFO info; memset (&info, 0, sizeof (info)) ; sf_count_t chunk_size = 0; if (ext == "ogg") { info.format = SF_FORMAT_VORBIS; // FIXME: there seems to be a bug writing ogg files in one shot // that causes a segfault. Breaking it up into a series of // smaller chunks seems to avoid the problem and produce valid // files. chunk_size = 0x1FFFFE; } else info.format = SF_FORMAT_PCM_16; info.channels = audio.columns (); info.samplerate = samplerate; info.channels = audio.cols (); info.format |= extension_to_format (ext); std::string title = ""; std::string artist = ""; std::string comment = ""; // Quality is currently unused? // // float quality = 0.75; for (int i = 3; i < nargin; i += 2) { if (args(i).string_value () == "BitsPerSample") { info.format &= ~SF_FORMAT_SUBMASK; int bits = args(i + 1).int_value (); if (bits == 8) { if ((info.format & SF_FORMAT_TYPEMASK) == SF_FORMAT_WAV) info.format |= SF_FORMAT_PCM_U8; else info.format |= SF_FORMAT_PCM_S8; } else if (bits == 16) info.format |= SF_FORMAT_PCM_16; else if (bits == 24) info.format |= SF_FORMAT_PCM_24; else if (bits == 32) info.format |= SF_FORMAT_PCM_32; else { error ("audiowrite: wrong number of bits specified"); return retval; } } else if (args(i).string_value () == "BitRate") ; // Quality is currently unused? // // else if (args(i).string_value () == "Quality") // quality = args(i + 1).int_value () * 0.01; else if (args(i).string_value () == "Title") title = args(i + 1).string_value (); else if (args(i).string_value () == "Artist") artist = args(i + 1).string_value (); else if (args(i).string_value () == "Comment") comment = args(i + 1).string_value (); else { error ("audiowrite: wrong argument name"); return retval; } } SNDFILE *file = sf_open (filename.c_str (), SFM_WRITE, &info); if (! file) { error ("audiowrite: failed to open output file %s", filename.c_str ()); return retval; } unwind_protect frame; frame.add_fcn (safe_close, file); if (title != "") sf_set_string (file, SF_STR_TITLE, title.c_str ()); if (artist != "") sf_set_string (file, SF_STR_ARTIST, artist.c_str ()); if (comment != "") sf_set_string (file, SF_STR_COMMENT, comment.c_str ()); sf_count_t total_items_written = 0; sf_count_t offset = 0; if (chunk_size == 0) chunk_size = items_to_write; while (total_items_written < items_to_write) { if (items_to_write - offset < chunk_size) chunk_size = items_to_write - offset; sf_count_t items_written = sf_write_float (file, data+offset, chunk_size); if (items_written != chunk_size) { error ("audiowrite: write failed, wrote %ld of %ld items\n", items_written, chunk_size); return retval; } total_items_written += items_written; offset += chunk_size; } #else error ("sndfile not found on your system and thus audiowrite is not functional"); #endif return retval; } DEFUN_DLD (audioinfo, args, , "-*- texinfo -*-\n\ @deftypefn {Loadable Function} {@var{info} =} audioinfo (@var{filename})\n\ Return information about an audio file specified by @var{filename}.\n\ @end deftypefn") { octave_value retval; #ifdef HAVE_SNDFILE if (args.length () != 1) { print_usage (); return retval; } std::string filename = args(0).string_value (); if (error_state) return retval; SF_INFO info; info.format = 0; SNDFILE *file = sf_open (filename.c_str (), SFM_READ, &info); if (! file) { error ("audioinfo: failed to open file %s", filename.c_str ()); return retval; } unwind_protect frame; frame.add_fcn (safe_close, file); octave_scalar_map result; result.assign ("Filename", filename); result.assign ("CompressionMethod", ""); result.assign ("NumChannels", info.channels); result.assign ("SampleRate", info.samplerate); result.assign ("TotalSamples", info.frames); double dframes = info.frames; double drate = info.samplerate; result.assign ("Duration", dframes / drate); int bits; switch (info.format & SF_FORMAT_SUBMASK) { case SF_FORMAT_PCM_S8: bits = 8; break; case SF_FORMAT_PCM_U8: bits = 8; break; case SF_FORMAT_PCM_16: bits = 16; break; case SF_FORMAT_PCM_24: bits = 24; break; case SF_FORMAT_PCM_32: bits = 32; break; default: bits = -1; break; } result.assign ("BitsPerSample", bits); result.assign ("BitRate", -1); result.assign ("Title", sf_get_string (file, SF_STR_TITLE)); result.assign ("Artist", sf_get_string (file, SF_STR_ARTIST)); result.assign ("Comment", sf_get_string (file, SF_STR_COMMENT)); retval = result; #else error ("sndfile not found on your system and thus audioinfo is not functional"); #endif return retval; }