/* -*- c-basic-offset:4; indent-tabs-mode: nil -*- */ /* ==================================================================== * Copyright (c) 1999-2008 Carnegie Mellon University. All rights * reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * * THIS SOFTWARE IS PROVIDED BY CARNEGIE MELLON UNIVERSITY ``AS IS'' AND * ANY EXPRESSED OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL CARNEGIE MELLON UNIVERSITY * NOR ITS EMPLOYEES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * ==================================================================== * */ /** * @file pocketsphinx.h Main header file for the PocketSphinx decoder. * * This is the only header file you should need to include in order to * write code using PocketSphinx. The documentation for its various * functions and structures is actually located on the pages for those * structures, and because Doxygen does not seem smart enough to put * links in the "Typedefs" list above, here they are for your * convenience: * * - \ref ps_config_t * - \ref ps_arg_t * - \ref ps_decoder_t * - \ref ps_nbest_t * - \ref ps_seg_t * * There are also a few other structures you should be aware of, which * can be useful in writing speech applications: * * - \ref ps_endpointer_t * - \ref ps_vad_t * - \ref jsgf_t * - \ref ngram_model_t * * Finally, to learn about switching language models and grammars, see * */ #ifndef __POCKETSPHINX_H__ #define __POCKETSPHINX_H__ /* System headers */ #include /* PocketSphinx utility headers */ #include #include #include #include /* PocketSphinx API headers */ #include #include #include #include #include #include #include #include /* Namum manglium ii domum */ #ifdef __cplusplus extern "C" { #endif #if 0 } #endif /* Transparent structures */ /** * @enum ps_type_e * @brief Types of configuration parameters. */ typedef enum ps_type_e { ARG_REQUIRED = (1<<0), /*<< Bit indicating required argument. */ ARG_INTEGER = (1<<1), /*<< Integer up to 64 bits. */ ARG_FLOATING = (1<<2), /*<< Double-precision floating point. */ ARG_STRING = (1<<3), /*<< String. */ ARG_BOOLEAN = (1<<4), /*<< Boolean (true/false). */ REQARG_INTEGER = (ARG_INTEGER | ARG_REQUIRED), REQARG_FLOATING = (ARG_FLOATING | ARG_REQUIRED), REQARG_STRING = (ARG_STRING | ARG_REQUIRED), REQARG_BOOLEAN = (ARG_BOOLEAN | ARG_REQUIRED) } ps_type_t; /** * @typedef ps_type_t * @brief Types of configuration parameters. */ /** * @struct ps_arg_t * @brief Definition of a configuration parameter. */ typedef struct ps_arg_s { char const *name; /**< Name of the command line switch */ int type; /**< Type of the argument in question */ char const *deflt; /**< Default value (as a character string), or NULL if none */ char const *doc; /**< Documentation/description string */ } ps_arg_t; /* Opaque structures */ /** * @struct ps_config_t * @brief configuration object. */ typedef struct cmd_ln_s ps_config_t; /** * @struct ps_decoder_t * @brief Speech recognizer object. */ typedef struct ps_decoder_s ps_decoder_t; /** * @struct ps_nbest_t * @brief N-best hypothesis iterator object. */ typedef struct ps_astar_s ps_nbest_t; /** * @struct ps_seg_t * @brief Segmentation iterator object. */ typedef struct ps_seg_s ps_seg_t; /** * Create a configuration with default values. * * @memberof ps_config_t * @param defn Array of ps_arg_t defining and describing parameters, * terminated by an ps_arg_t with `name == NULL`. You should usually * just pass NULL here, which will result in the standard set of * parameters being used. * @return Newly created configuration or NULL on failure (should not * happen, but check it anyway). */ POCKETSPHINX_EXPORT ps_config_t *ps_config_init(const ps_arg_t *defn); /** * Retain a pointer to a configuration object. * @memberof ps_config_t */ POCKETSPHINX_EXPORT ps_config_t *ps_config_retain(ps_config_t *config); /** * Release a configuration object. * @memberof ps_config_t */ POCKETSPHINX_EXPORT int ps_config_free(ps_config_t *config); /** * Validate configuration. * * Currently this just checks that you haven't specified multiple * types of grammars or language models at the same time. * * @memberof ps_config_t * @return 0 for success, <0 for failure. */ int ps_config_validate(ps_config_t *config); /** * Create or update a configuration by parsing slightly extended JSON. * * This function parses a JSON object in non-strict mode to produce a * ps_config_t. Configuration parameters are given *without* a * leading dash, and do not need to be quoted, nor does the object * need to be enclosed in curly braces, nor are commas necessary * between key/value pairs. Basically, it's degenerate YAML. So, for * example, this is accepted: * * hmm: fr-fr * samprate: 8000 * keyphrase: "hello world" * * Of course, valid JSON is also accepted, but who wants to use that. * * Well, mostly. Unicode escape sequences (e.g. `"\u0020"`) are *not* * supported at the moment, so please don't use them. * * @memberof ps_config_t * @arg config Previously existing ps_config_t to update, or NULL to * create a new one. * @arg json JSON serialized object as null-terminated UTF-8, * containing configuration parameters. * @return Newly created configuration or NULL on failure (such as * invalid or missing parameters). */ POCKETSPHINX_EXPORT ps_config_t *ps_config_parse_json(ps_config_t *config, const char *json); /** * Construct JSON from a configuration object. * * Unlike ps_config_parse_json(), this actually produces valid JSON ;-) * * @memberof ps_config_t * @arg config Configuration object * @return Newly created null-terminated JSON string. The ps_config_t * retains ownership of this pointer, which is only valid until the * next call to ps_config_serialize_json(). You must copy it if you * wish to retain it. */ POCKETSPHINX_EXPORT const char *ps_config_serialize_json(ps_config_t *config); /** * Access the type of a configuration parameter. * * @memberof ps_config_t * @param config Configuration object. * @param name Name of the parameter to retrieve. * @return the type of the parameter (as a combination of the ARG_* * bits), or 0 if no such parameter exists. */ POCKETSPHINX_EXPORT ps_type_t ps_config_typeof(ps_config_t *config, char const *name); /** * Access the value of a configuration parameter. * * To actually do something with the value, you will need to know its * type, which can be obtained with ps_config_typeof(). This function * is thus mainly useful for dynamic language bindings, and you should * use ps_config_int(), ps_config_float(), or ps_config_str() instead. * * @memberof ps_config_t * @param config Configuration object. * @param name Name of the parameter to retrieve. * @return Pointer to the parameter's value, or NULL if the parameter * does not exist. Note that a string parameter can also have NULL as * a value, in which case the `ptr` field in the return value is NULL. * This pointer (and any pointers inside it) is owned by the ps_config_t. */ POCKETSPHINX_EXPORT const anytype_t *ps_config_get(ps_config_t *config, const char *name); /** * Set or unset the value of a configuration parameter. * * This will coerce the value to the proper type, so you can, for * example, pass it a string with ARG_STRING as the type when adding * options from the command-line. Note that the return pointer will * *not* be the same as the one passed in the value. * * @memberof ps_config_t * @param config Configuration object. * @param name Name of the parameter to set. Must exist. * @param val Pointer to the value (strings will be copied) inside an * anytype_t union. On 64-bit little-endian platforms, you *can* cast * a pointer to int, long, double, or char* here, but that doesn't * necessarily mean that you *should*. As a convenience, you can pass * NULL here to reset a parameter to its default value. * @param t Type of the value in `val`, will be coerced to the type of * the actual parameter if necessary. * @return Pointer to the parameter's value, or NULL on failure * (unknown parameter, usually). This pointer (and any pointers * inside it) is owned by the ps_config_t. */ POCKETSPHINX_EXPORT const anytype_t *ps_config_set(ps_config_t *config, const char *name, const anytype_t *val, ps_type_t t); /** * Get an integer-valued parameter. * * If the parameter does not have an integer or boolean type, this * will print an error and return 0. So don't do that. * * @memberof ps_config_t */ POCKETSPHINX_EXPORT long ps_config_int(ps_config_t *config, const char *name); /** * Get a boolean-valued parameter. * * If the parameter does not have an integer or boolean type, this * will print an error and return 0. The return value is either 0 or * 1 (if the parameter has an integer type, any non-zero value will * return 1). * * @memberof ps_config_t */ POCKETSPHINX_EXPORT int ps_config_bool(ps_config_t *config, const char *name); /** * Get a floating-point parameter. * * If the parameter does not have a floating-point type, this will * print an error and return 0. * * @memberof ps_config_t */ POCKETSPHINX_EXPORT double ps_config_float(ps_config_t *config, const char *name); /** * Get a string parameter. * * If the parameter does not have a string type, this will print an * error and return NULL. Notably, it will *NOT* format an integer or * float for you, because that would involve allocating memory. So * don't do that. * * @memberof ps_config_t */ POCKETSPHINX_EXPORT const char *ps_config_str(ps_config_t *config, const char *name); /** * Set an integer-valued parameter. * * If the parameter does not have an integer or boolean type, this * will convert `val` appropriately. * * @memberof ps_config_t */ POCKETSPHINX_EXPORT const anytype_t *ps_config_set_int(ps_config_t *config, const char *name, long val); /** * Set a boolean-valued parameter. * * If the parameter does not have an integer or boolean type, this * will convert `val` appropriately. * * @memberof ps_config_t */ POCKETSPHINX_EXPORT const anytype_t *ps_config_set_bool(ps_config_t *config, const char *name, int val); /** * Set a floating-point parameter. * * If the parameter does not have a floating-point type, this will * convert `val` appropriately. * * @memberof ps_config_t */ POCKETSPHINX_EXPORT const anytype_t *ps_config_set_float(ps_config_t *config, const char *name, double val); /** * Set a string-valued parameter. * * If the parameter does not have a string type, this will convert * `val` appropriately. For boolean parameters, any string matching * `/^[yt1]/` will be true, while any string matching `/^[nf0]/` will * be false. NULL is also false. * * This function is used for configuration from JSON, you may want to * use it for your own configuration files too. * * @memberof ps_config_t */ POCKETSPHINX_EXPORT const anytype_t *ps_config_set_str(ps_config_t *config, const char *name, const char *val); /** * Set configuration parameters (actually just sample rate) from a * sound file. * * If the file is unreadable, unsupported or incompatible with the * existing feature extraction parameters, this will print an error * message and fail (return -1). * * If it is of an unknown type, it will be treated as raw data. So * beware! Currently we only support WAV and NIST Sphere files. We * attempt to recognize Ogg, MP3 (but not really, because it is very * difficult to do reliably), and FLAC, but do not support them. For * everything else, there's SoX (tm). * * Currently, the file must be seekable, so you can't use this on * standard input, for instance. * * @memberof ps_config_t * @param config Configuration to update from file. * @param fh Previously opened file handle. * @param file Name of open file handle for logging (optional, can be NULL) */ POCKETSPHINX_EXPORT int ps_config_soundfile(ps_config_t *config, FILE *fh, const char *file); /** * Read a WAV header and set configuration parameters. * * This works like ps_config_soundfile() but assumes that you already * know it's a WAV file. * * Unlike ps_config_soundfile(), the file does *not* have to be seekable. * * @memberof ps_config_t * @param config Configuration to update from file. * @param infh Previously opened file handle. * @param file Name of open file handle for logging (optional, can be NULL) */ POCKETSPHINX_EXPORT int ps_config_wavfile(ps_config_t *config, FILE *infh, const char *file); /** * Read a NIST header and set configuration parameters. * * This works like ps_config_soundfile() but assumes that you already * know it's a NIST file. * * Unlike ps_config_soundfile(), the file does *not* have to be seekable. * * @memberof ps_config_t * @param config Configuration to update from file. * @param infh Previously opened file handle. * @param file Name of open file handle for logging (optional, can be NULL) */ POCKETSPHINX_EXPORT int ps_config_nistfile(ps_config_t *config, FILE *infh, const char *file); /** * Sets default acoustic and language model if they are not set explicitly. * * This function fills in the configuration with the default acoustic * and language models and dictionary, if (and this is a badly * implemented heuristic) they do not seem to be already filled in. * It is preferable for you to call this *before* doing any other * configuration to avoid confusion. * * The default models are looked for in the directory returned by * ps_default_modeldir(), or, if the `POCKETSPHINX_PATH` environment * variable is set, this function will look there instead. * * If no global model directory was defined at compilation time (this * is useful for relocatable installs such as the Python module) and * `POCKETSPHINX_PATH` is not set, this will simply do nothing. * * @memberof ps_config_t */ POCKETSPHINX_EXPORT void ps_default_search_args(ps_config_t *config); /** * Sets default file paths and parameters based on configuration. * * @memberof ps_config_t */ POCKETSPHINX_EXPORT void ps_expand_model_config(ps_config_t *config); /** * Gets the system default model directory, if any exists. * * @relates ps_config_t * @return system model directory defined at compile time, or NULL if * not defined (usually in a relocatable installation such as * a Python module). */ POCKETSPHINX_EXPORT const char *ps_default_modeldir(void); /** * Initialize the decoder from a configuration object. * * @memberof ps_config_t * @note The decoder retains ownership of the pointer * config, so if you are not going to use it * elsewhere, you can free it. * @param config a configuration object. If NULL, the * decoder will be allocated but not initialized. You can * proceed to initialize it with ps_reinit(). */ POCKETSPHINX_EXPORT ps_decoder_t *ps_init(ps_config_t *config); /** * Reinitialize the decoder with updated configuration. * * This function allows you to switch the acoustic model, dictionary, * or other configuration without creating an entirely new decoding * object. * * @note Since the acoustic model will be reloaded, changes made to * feature extraction parameters may be overridden if a `feat.params` * file is present. * @note Any searches created with ps_set_search() or words added to * the dictionary with ps_add_word() will also be lost. To avoid this * you can use ps_reinit_feat(). * @note The decoder retains ownership of the pointer * config, so you should free it when no longer used. * * @memberof ps_decoder_t * @param ps Decoder. * @param config An optional new configuration to use. If this is * NULL, the previous configuration will be reloaded, * with any changes applied. * @return 0 for success, <0 for failure. */ POCKETSPHINX_EXPORT int ps_reinit(ps_decoder_t *ps, ps_config_t *config); /** * Reinitialize only the feature computation with updated configuration. * * This function allows you to switch the feature computation * parameters without otherwise affecting the decoder configuration. * For example, if you change the sample rate or the frame rate, and * do not want to reconfigure the rest of the decoder. * * Note that if you have set a custom cepstral mean with ps_set_cmn(), * it will be overridden. * * @note The decoder retains ownership of the pointer `config`, so you * should free it when no longer used. * * @memberof ps_decoder_t * @param ps Decoder. * @param config An optional new configuration to use. If this is * NULL, the previous configuration will be reloaded, * with any changes to feature computation applied. * @return 0 for success, <0 for failure (usually an invalid parameter) */ POCKETSPHINX_EXPORT int ps_reinit_feat(ps_decoder_t *ps, ps_config_t *config); /** * Get the current cepstral mean as a string. * * This is the string representation of the current cepstral mean, * which represents the acoustic channel conditions in live * recognition. This can be used to initialize the decoder with the * `cmninit` option, e.g.: * * config = ps_config_parse_json(NULL, "cmninit: 42,-1,0"); * * @memberof ps_decoder_t * @param ps Decoder * @param update Update the cepstral mean using data processed so far. * @return String representation of cepstral mean, as * `ps_config_get_int(config, "ceplen")` comma-separated * numbers. This pointer is owned by the decoder and only * valid until the next call to ps_get_cmn(), ps_set_cmn() or * ps_end_utt(). */ POCKETSPHINX_EXPORT const char *ps_get_cmn(ps_decoder_t *ps, int update); /** * Set the current cepstral mean from a string. * * This does the same thing as setting `cmninit` with * ps_config_set_string() and running `ps_reinit_feat()` but is more * efficient, and can also be done in the middle of an utterance if * you like. * * @memberof ps_decoder_t * @param ps Decoder * @param cmn String representation of cepstral mean, as up to * `ps_config_get_int(config, "ceplen")` -separated numbers * (any missing values will be zero-filled). @return 0 for * success of -1 for invalid input. */ POCKETSPHINX_EXPORT int ps_set_cmn(ps_decoder_t *ps, const char *cmn); /** * Returns the argument definitions used in ps_config_init(). * * This is here to avoid exporting global data, which is problematic * on Win32 and Symbian (and possibly other platforms). * * @related ps_config_t */ POCKETSPHINX_EXPORT ps_arg_t const *ps_args(void); /** * Retain a pointer to the decoder. * * This increments the reference count on the decoder, allowing it to * be shared between multiple parent objects. In general you will not * need to use this function, ever. It is mainly here for the * convenience of scripting language bindings. * * @memberof ps_decoder_t * @return pointer to retained decoder. */ POCKETSPHINX_EXPORT ps_decoder_t *ps_retain(ps_decoder_t *ps); /** * Finalize the decoder. * * This releases all resources associated with the decoder. * * @memberof ps_decoder_t * @param ps Decoder to be freed. * @return New reference count (0 if freed). */ POCKETSPHINX_EXPORT int ps_free(ps_decoder_t *ps); /** * Get the configuration object for this decoder. * * @memberof ps_decoder_t * @return The configuration object for this decoder. The decoder * owns this pointer, so you should not attempt to free it * manually. Use ps_config_retain() if you wish to reuse it * elsewhere. */ POCKETSPHINX_EXPORT ps_config_t *ps_get_config(ps_decoder_t *ps); /** * Get the log-math computation object for this decoder. * * @memberof ps_decoder_t * @return The log-math object for this decoder. The decoder owns * this pointer, so you should not attempt to free it * manually. Use logmath_retain() if you wish to reuse it * elsewhere. */ POCKETSPHINX_EXPORT logmath_t *ps_get_logmath(ps_decoder_t *ps); /** * Adapt current acoustic model using a linear transform. * * @memberof ps_decoder_t * @param mllr The new transform to use, or NULL to update the * existing transform. The decoder retains ownership of * this pointer, so you may free it if you no longer need * it. * @return The updated transform object for this decoder, or * NULL on failure. */ POCKETSPHINX_EXPORT ps_mllr_t *ps_update_mllr(ps_decoder_t *ps, ps_mllr_t *mllr); /** * Reload the pronunciation dictionary from a file. * * This function replaces the current pronunciation dictionary with * the one stored in `dictfile`. This also causes the active search * module(s) to be reinitialized, in the same manner as calling * ps_add_word() with update=TRUE. * * @memberof ps_decoder_t * @param dictfile Path to dictionary file to load. * @param fdictfile Path to filler dictionary to load, or NULL to keep * the existing filler dictionary. * @param format Format of the dictionary file, or NULL to determine * automatically (currently unused,should be NULL) */ POCKETSPHINX_EXPORT int ps_load_dict(ps_decoder_t *ps, char const *dictfile, char const *fdictfile, char const *format); /** * Dump the current pronunciation dictionary to a file. * * This function dumps the current pronunciation dictionary to a text file. * * @memberof ps_decoder_t * @param dictfile Path to file where dictionary will be written. * @param format Format of the dictionary file, or NULL for the * default (text) format (currently unused, should be NULL) */ POCKETSPHINX_EXPORT int ps_save_dict(ps_decoder_t *ps, char const *dictfile, char const *format); /** * Add a word to the pronunciation dictionary. * * This function adds a word to the pronunciation dictionary and the * current language model (but, obviously, not to the current FSG if * FSG mode is enabled). If the word is already present in one or the * other, it does whatever is necessary to ensure that the word can be * recognized. * * @memberof ps_decoder_t * @param word Word string to add. * @param phones Whitespace-separated list of phoneme strings * describing pronunciation of word. * @param update If TRUE, update the search module (whichever one is * currently active) to recognize the newly added word. * If adding multiple words, it is more efficient to * pass FALSE here in all but the last word. * @return The internal ID (>= 0) of the newly added word, or <0 on * failure. */ POCKETSPHINX_EXPORT int ps_add_word(ps_decoder_t *ps, char const *word, char const *phones, int update); /** * Look up a word in the dictionary and return phone transcription * for it. * * @memberof ps_decoder_t * @param ps Pocketsphinx decoder * @param word Word to look for * * @return Whitespace-spearated phone string describing the pronunciation of the word * or NULL if word is not present in the dictionary. The string is * allocated and must be freed by the user. */ POCKETSPHINX_EXPORT char *ps_lookup_word(ps_decoder_t *ps, const char *word); /** * Decode a raw audio stream. * * No headers are recognized in this files. The configuration * parameters -samprate and -input_endian are used * to determine the sampling rate and endianness of the stream, * respectively. Audio is always assumed to be 16-bit signed PCM. * * @memberof ps_decoder_t * @param ps Decoder. * @param rawfh Previously opened file stream. * @param maxsamps Maximum number of samples to read from rawfh, or -1 * to read until end-of-file. * @return Number of samples of audio. */ POCKETSPHINX_EXPORT long ps_decode_raw(ps_decoder_t *ps, FILE *rawfh, long maxsamps); /** * Decode a senone score dump file. * * @memberof ps_decoder_t * @param ps Decoder * @param senfh Previously opened file handle positioned at start of file. * @return Number of frames read. */ POCKETSPHINX_EXPORT int ps_decode_senscr(ps_decoder_t *ps, FILE *senfh); /** * Start processing of the stream of speech. * * @deprecated This function is retained for compatibility, but its * only effect is to reset the noise removal statistics, which are * otherwise retained across utterances. You do not need to call it. * * @memberof ps_decoder_t * @return 0 for success, <0 on error. */ POCKETSPHINX_EXPORT int ps_start_stream(ps_decoder_t *ps); /** * Check in-speech status of decoder. * * @deprecated This function is retained for compatibility but should * not be considered a reliable voice activity detector. It will * always return 1 between calls to ps_start_utt() and ps_end_utt(). * You probably want ps_endpointer_t, but for single frames of data * you can also use \ref ps_vad_t. * * @memberof ps_decoder_t * @param ps Decoder. * @return 1 if last buffer contained speech, 0 - otherwise */ POCKETSPHINX_EXPORT int ps_get_in_speech(ps_decoder_t *ps); /** * Start utterance processing. * * This function should be called before any utterance data is passed * to the decoder. It marks the start of a new utterance and * reinitializes internal data structures. * * @memberof ps_decoder_t * @param ps Decoder to be started. * @return 0 for success, <0 on error. */ POCKETSPHINX_EXPORT int ps_start_utt(ps_decoder_t *ps); /** * Decode raw audio data. * * @memberof ps_decoder_t * @param ps Decoder. * @param data Audio data, as 16-bit linear PCM. * @param n_samples Number of samples (not bytes) in `data`. * @param no_search If non-zero, perform feature extraction but don't * do any recognition yet. This may be necessary if * your processor has trouble doing recognition in * real-time. * @param full_utt If non-zero, this block of data is a full utterance * worth of data. This may allow the recognizer to * produce more accurate results. * @return Number of frames of data searched, or <0 for error. */ POCKETSPHINX_EXPORT int ps_process_raw(ps_decoder_t *ps, int16 const *data, size_t n_samples, int no_search, int full_utt); /** * Decode acoustic feature data. * * @memberof ps_decoder_t * @param ps Decoder. * @param data Acoustic feature data, a 2-dimensional array of 32-bit * floating-point values. Note that this is not a standard * 2-dimesional C array but rather an array of pointers to * floats, each of which is one vector (or frame) of * `ps_config_get_int("ceplen")` values. * @param n_frames Number of vectors in `data`. * @param no_search If non-zero, perform feature extraction but don't * do any recognition yet. This may be necessary if * your processor has trouble doing recognition in * real-time. * @param full_utt If non-zero, this block of data is a full utterance * worth of data. This may allow the recognizer to * produce more accurate results. * @return Number of frames of data searched, or <0 for error. */ POCKETSPHINX_EXPORT int ps_process_cep(ps_decoder_t *ps, float32 **data, int n_frames, int no_search, int full_utt); /** * Get the number of frames of data searched. * * Note that there is a delay between this and the number of frames of * audio which have been input to the system. This is due to the fact * that acoustic features are computed using a sliding window of * audio, and dynamic features are computed over a sliding window of * acoustic features. * * @memberof ps_decoder_t * @param ps Decoder. * @return Number of frames of speech data which have been recognized * so far. */ POCKETSPHINX_EXPORT int ps_get_n_frames(ps_decoder_t *ps); /** * End utterance processing. * * @memberof ps_decoder_t * @param ps Decoder. * @return 0 for success, <0 on error */ POCKETSPHINX_EXPORT int ps_end_utt(ps_decoder_t *ps); /** * Get hypothesis string and path score. * * @memberof ps_decoder_t * @param ps Decoder. * @param out_best_score Output: path score corresponding to returned string. * @return String containing best hypothesis at this point in * decoding. NULL if no hypothesis is available. This string is owned * by the decoder and only valid for the current hypothesis, so you * should copy it if you need to hold onto it. */ POCKETSPHINX_EXPORT char const *ps_get_hyp(ps_decoder_t *ps, int32 *out_best_score); /** * Get posterior probability. * * @note Unless the -bestpath option is enabled, this function will * always return zero (corresponding to a posterior probability of * 1.0). Even if -bestpath is enabled, it will also return zero when * called on a partial result. Ongoing research into effective * confidence annotation for partial hypotheses may result in these * restrictions being lifted in future versions. * * @memberof ps_decoder_t * @param ps Decoder. * @return Posterior probability of the best hypothesis. */ POCKETSPHINX_EXPORT int32 ps_get_prob(ps_decoder_t *ps); /** * Get word lattice. * * @memberof ps_decoder_t * @param ps Decoder. * @return Word lattice object containing all hypotheses so far. NULL * if no hypotheses are available. This pointer is owned by * the decoder and you should not attempt to free it manually. * It is only valid until the next utterance, unless you use * ps_lattice_retain() to retain it. */ POCKETSPHINX_EXPORT ps_lattice_t *ps_get_lattice(ps_decoder_t *ps); /** * Get an iterator over the word segmentation for the best hypothesis. * * @memberof ps_decoder_t * @param ps Decoder. * @return Iterator over the best hypothesis at this point in * decoding. NULL if no hypothesis is available. */ POCKETSPHINX_EXPORT ps_seg_t *ps_seg_iter(ps_decoder_t *ps); /** * Get the next segment in a word segmentation. * * @memberof ps_seg_t * @param seg Segment iterator. * @return Updated iterator with the next segment. NULL at end of * utterance (the iterator will be freed in this case). */ POCKETSPHINX_EXPORT ps_seg_t *ps_seg_next(ps_seg_t *seg); /** * Get word string from a segmentation iterator. * * @memberof ps_seg_t * @param seg Segment iterator. * @return Read-only string giving string name of this segment. This * is only valid until the next call to ps_seg_next(). */ POCKETSPHINX_EXPORT char const *ps_seg_word(ps_seg_t *seg); /** * Get inclusive start and end frames from a segmentation iterator. * * @note These frame numbers are inclusive, i.e. the end frame refers * to the last frame in which the given word or other segment was * active. Therefore, the actual duration is *out_ef - *out_sf + 1. * * @memberof ps_seg_t * @param seg Segment iterator. * @param out_sf Output: First frame index in segment. * @param out_ef Output: Last frame index in segment. */ POCKETSPHINX_EXPORT void ps_seg_frames(ps_seg_t *seg, int *out_sf, int *out_ef); /** * Get language, acoustic, and posterior probabilities from a * segmentation iterator. * * @note Unless the -bestpath option is enabled, this function will * always return zero (corresponding to a posterior probability of * 1.0). Even if -bestpath is enabled, it will also return zero when * called on a partial result. Ongoing research into effective * confidence annotation for partial hypotheses may result in these * restrictions being lifted in future versions. * * @memberof ps_seg_t * @param out_ascr Output: acoustic model score for this segment. * @param out_lscr Output: language model score for this segment. * @param out_lback Output: language model backoff mode for this * segment (i.e. the number of words used in * calculating lscr). This field is, of course, only * meaningful for N-Gram models. * @return Log posterior probability of current segment. Log is * expressed in the log-base used in the decoder. To convert * to linear floating-point, use logmath_exp(ps_get_logmath(), * pprob). */ POCKETSPHINX_EXPORT int32 ps_seg_prob(ps_seg_t *seg, int32 *out_ascr, int32 *out_lscr, int32 *out_lback); /** * Finish iterating over a word segmentation early, freeing resources. * @memberof ps_seg_t */ POCKETSPHINX_EXPORT void ps_seg_free(ps_seg_t *seg); /** * Get an iterator over the best hypotheses. The function may also * return a NULL which means that there is no hypothesis available for this * utterance. * * @memberof ps_decoder_t * @param ps Decoder. * @return Iterator over N-best hypotheses or NULL if no hypothesis is available */ POCKETSPHINX_EXPORT ps_nbest_t *ps_nbest(ps_decoder_t *ps); /** * Move an N-best list iterator forward. * * @memberof ps_nbest_t * @param nbest N-best iterator. * @return Updated N-best iterator, or NULL if no more hypotheses are * available (iterator is freed ni this case). */ POCKETSPHINX_EXPORT ps_nbest_t *ps_nbest_next(ps_nbest_t *nbest); /** * Get the hypothesis string from an N-best list iterator. * * @memberof ps_nbest_t * @param nbest N-best iterator. * @param out_score Output: Path score for this hypothesis. * @return String containing next best hypothesis. Note that this * pointer is only valid for the current iteration. */ POCKETSPHINX_EXPORT char const *ps_nbest_hyp(ps_nbest_t *nbest, int32 *out_score); /** * Get the word segmentation from an N-best list iterator. * * @memberof ps_nbest_t * @param nbest N-best iterator. * @return Iterator over the next best hypothesis. */ POCKETSPHINX_EXPORT ps_seg_t *ps_nbest_seg(ps_nbest_t *nbest); /** * Finish N-best search early, releasing resources. * * @memberof ps_nbest_t * @param nbest N-best iterator. */ POCKETSPHINX_EXPORT void ps_nbest_free(ps_nbest_t *nbest); /** * Get performance information for the current utterance. * * @memberof ps_decoder_t * @param ps Decoder. * @param out_nspeech Output: Number of seconds of speech. * @param out_ncpu Output: Number of seconds of CPU time used. * @param out_nwall Output: Number of seconds of wall time used. */ POCKETSPHINX_EXPORT void ps_get_utt_time(ps_decoder_t *ps, double *out_nspeech, double *out_ncpu, double *out_nwall); /** * Get overall performance information. * * @memberof ps_decoder_t * @param ps Decoder. * @param out_nspeech Output: Number of seconds of speech. * @param out_ncpu Output: Number of seconds of CPU time used. * @param out_nwall Output: Number of seconds of wall time used. */ POCKETSPHINX_EXPORT void ps_get_all_time(ps_decoder_t *ps, double *out_nspeech, double *out_ncpu, double *out_nwall); /** * @mainpage PocketSphinx API Documentation * @author David Huggins-Daines * @version 5.0.0 * @date October 5, 2022 * * @tableofcontents{HTML:1} * * @section intro_sec Introduction * * This is the documentation for the PocketSphinx speech recognition * engine. The main API calls are documented in \ref ps_decoder_t and * \ref ps_config_t. The organization of this document is not optimal * due to the limitations of Doxygen, so if you know of a better tool * for documenting object-oriented interfaces in C, please let me know. * * @section install_sec Installation * * To install from source, you will need a C compiler and a recent * version of CMake. If you wish to use an integrated development * environment, Visual Studio Code will automate most of this process * for you once you have installed C++ and CMake support as described * at https://code.visualstudio.com/docs/languages/cpp * * The easiest way to program PocketSphinx is with the Python module. * See http://pocketsphinx.readthedocs.io/ for installation and usage * instructions. * * @subsection unix_install Unix-like systems * * From the top-level source directory, use CMake to generate a build * directory: * * cmake -S . -B build * * Now you can compile and run the tests, and install the code: * * cmake --build build * cmake --build build --target check * cmake --build build --target install * * By default CMake will try to install things in `/usr/local`, which * you might not have access to. If you want to install somewhere * else you need to set `CMAKE_INSTALL_PREFIX` *when running cmake for * the first time*, for example: * * cmake -S . -B build -DCMAKE_INSTALL_PREFIX=$HOME/.local * * @subsection windows_install Windows * * On Windows, the process is similar, but you will need to tell CMake * what build tool you are using with the `-G` option, and there are * many of them. The build is known to work with `nmake` but it is * easiest just to use Visual Studio Code, which should automatically * detect and offer to run the build when you add the source directory * to your list of directories. Once built, you will find the EXE * files in `build\Debug` or `build\Release` depending on your build * type. * * @subsection build_options Compilation options * * By default, PocketSphinx does *not* build shared libraries, as * there are not very many executables, and the library is quite smol. * If you insist on building them, you can add `BUILD_SHARED_LIBS=ON` * to the CMake configuration. This is done either in the CMake GUI, * in Visual Studio Code, or with the `-D` option to the first CMake * command-line above, e.g.: * * cmake -S. -B build -DBUILD_SHARED_LIBS=ON * * GStreamer support is not built by default, but can be enabled with * `BUILD_GSTREAMER=ON`. * * PocketSphinx uses a mixture of fixed and floating-point computation * by default, but can be configured to use fixed-point (nearly) * exclusively with `FIXED_POINT=ON`. * * @section programming_sec Using the Library * * Minimally, to do speech recognition, you must first create a * configuration, using \ref ps_config_t and its associated functions. * This configuration is then passed to ps_init() to initialize the * decoder, which is returned as a \ref ps_decoder_t. Note that you must * ultimately release the configuration with ps_config_free() to avoid * memory leaks. * * At this point, you can start an "utterance" (a section of speech * you wish to recognize) with ps_start_utt() and pass audio data to * the decoder with ps_process_raw(). When finished, call * ps_end_utt() to finalize recognition. The result can then be * obtained with ps_get_hyp(). To get a detailed word segmentation, * use ps_seg_iter(). To get the N-best results, use ps_nbest(). * * When you no longer need the decoder, release its memory with * ps_free(). * * A concrete example can be found in \ref simple.c. * * You may, however, wish to do more interesting things like * segmenting and recognizing speech from an audio stream. As * described below, PocketSphinx will *not* handle the details of * microphone input for you, because doing this in a reliable and * portable way is outside the scope of a speech recognizer. In * theory, [PortAudio](http://www.portaudio.com/) should work across * many platforms. An example using it is in \ref live_portaudio.c. * * On Windows, an example of using the [Waveform Audio * API](https://learn.microsoft.com/en-us/windows/win32/multimedia/waveform-audio) * can be found in \ref live_win32.c. * * On GNU/Linux and some other platforms, audio might be handled by * the PulseAudio library/server, in which case you can also use the * technique in \ref live_pulseaudio.c. * * Finally, if you have `sox` on your platform, you can simply use the * method shown in \ref live.c. * * @section faq_sec Frequently Asked Questions * * @subsection faq_api My code no longer compiles! Why? * * Some APIs were intentionally broken by the 5.0.0 release. The most * likely culprit here is the configuration API, where the old * "options" which started with a `-` are now "parameters" which do * not, and instead of a `cmd_ln_t` it is now a `ps_config_t`. There * is no backward compatibility, you have to change your code * manually. This is straightforward for the most part. For example, * instead of writing: * * cmdln = cmd_ln_init(NULL, "-samprate", "16000", NULL); * cmd_ln_set_int32_r(NULL, "-maxwpf", 40); * * You should write: * * config = ps_config_init(NULL); * ps_config_set_int(config, "samprate", 16000); * ps_config_set_int(config, "maxwpf", 40); * * Another likely suspect is the \ref pocketsphinx/search.h * "search module API" where the function names have been changed to be more * intuitive. Wherever you had `ps_set_search` you can use * ps_activate_search(), it is the same function. Likewise, anything * that was `ps_set_*` is now `ps_add_*`, e.g. ps_add_lm(), * ps_add_fsg(), ps_add_keyphrase(). * * @subsection faq_path What does ERROR: "acmod.c, line NN: ..." mean? * * In general you will get "Acoustic model definition is not * specified" or "Folder does not contain acoustic model definition" * errors if PocketSphinx cannot find a model. If you are trying to * use the default module, perhaps you have not installed * PocketSphinx. Unfortunately it is not designed to run "in-place", * but you can get around this by setting the `POCKETSPHINX_PATH` * environment variable, e.g. * * cmake --build build * POCKETSPHINX_PATH=$PWD/model build/pocketsphinx single foo.wav * * @subsection faq_blank There is literally no output! * * If by this you mean it doesn't spew copious logging output like it * used to, you can solve this by passing `-loglevel INFO` on the * command-line, or setting the `loglevel` parameter to `"INFO"`, or * calling err_set_loglevel() with `ERR_INFO`. * * If you mean that you just don't have any recognition result, you * may have forgotten to configure a dictionary. Or see \ref * faq_error "below" for other reasons the output could be blank. * * @subsection faq_audio Why doesn't my audio device work? * * Because it's an audio device. They don't work, at least for things * other than making annoying "beep boop" noises and playing Video * Games. More generally, I cannot solve this problem for you, * because every single computer, operating system, sound card, * microphone, phase of the moon, and day of the week is different * when it comes to recording audio. That's why I suggest you use * SoX, because (a) it usually works, and (b) whoever wrote it seems * to have retired long ago, so you can't bother them. * * @subsection faq_error The recognized text is wrong. * * That's not a question! But since this isn't Jeopardy, and my name * is not Watson, I'll try to answer it anyway. Be aware that the * answer depends on many things, first and foremost what you mean by * "wrong". * * If it *sounds* the same, e.g. "wreck a nice beach" when you said * "recognize speech" then the issue is that the **language model** is * not appropriate for the task, domain, dialect, or whatever it is * you're trying to recognize. You may wish to consider writing a * JSGF grammar and using it instead of the default language model * (with the `jsgf` parameter). Or you can get an N-best list or word * lattice and rescore it with a better language model, such as a * recurrent neural network or a human being. * * If it is total nonsense, or if it is just blank, or if it's the * same word repeated, e.g. "a a a a a a", then there is likely a * problem with the input audio. The sampling rate could be wrong, or * even if it's correct, you may have narrow-band data. Try to look * at the spectrogram (Audacity can show you this) and see if it looks * empty or flat below the frequency in the `upperf` parameter. * Alternately it could just be very noisy. In particular, if the * noise consists of other people talking, automatic speech * recognition will nearly always fail. * * @subsection faq_tech Why don't you support (pick one or more: WFST, fMLLR, SAT, DNN, CTC, LAS, CNN, RNN, LSTM, etc)? * * Not because there's anything wrong with those things (except LAS, * which is kind of a dumb idea) but simply because PocketSphinx does * not do them, or anything like them, and there is no point in adding * them to it when other systems exist. Many of them are also heavily * dependent on distasteful and wasteful platforms like C++, CUDA, * TensorFlow, PyTorch, and so on. * * @section thanks_sec Acknowledgements * * PocketSphinx was originally released by David Huggins-Daines, but * is largely based on the previous Sphinx-II and Sphinx-III systems, * developed by a large number of contributors at Carnegie Mellon * University, and released as open source under a BSD-like license * thanks to Kevin Lenzo. For some time, it was maintained by * Nickolay Shmyrev and others at Alpha Cephei, Inc. See the * `AUTHORS` file for a list of contributors. */ #ifdef __cplusplus } /* extern "C" */ #endif #endif /* __POCKETSPHINX_H__ */