/* See COPYING file for copyright and license details. */ #ifndef EBUR128_H_ #define EBUR128_H_ /** \file ebur128.h * \brief libebur128 - a library for loudness measurement according to * the EBU R128 standard. */ #ifdef __cplusplus extern "C" { #endif #define EBUR128_VERSION_MAJOR 1 #define EBUR128_VERSION_MINOR 2 #define EBUR128_VERSION_PATCH 6 #include /* for size_t */ /** \enum channel * Use these values when setting the channel map with ebur128_set_channel(). * See definitions in ITU R-REC-BS 1770-4 */ enum channel { EBUR128_UNUSED = 0, /**< unused channel (for example LFE channel) */ EBUR128_LEFT = 1, EBUR128_Mp030 = 1, /**< itu M+030 */ EBUR128_RIGHT = 2, EBUR128_Mm030 = 2, /**< itu M-030 */ EBUR128_CENTER = 3, EBUR128_Mp000 = 3, /**< itu M+000 */ EBUR128_LEFT_SURROUND = 4, EBUR128_Mp110 = 4, /**< itu M+110 */ EBUR128_RIGHT_SURROUND = 5, EBUR128_Mm110 = 5, /**< itu M-110 */ EBUR128_DUAL_MONO, /**< a channel that is counted twice */ EBUR128_MpSC, /**< itu M+SC */ EBUR128_MmSC, /**< itu M-SC */ EBUR128_Mp060, /**< itu M+060 */ EBUR128_Mm060, /**< itu M-060 */ EBUR128_Mp090, /**< itu M+090 */ EBUR128_Mm090, /**< itu M-090 */ EBUR128_Mp135, /**< itu M+135 */ EBUR128_Mm135, /**< itu M-135 */ EBUR128_Mp180, /**< itu M+180 */ EBUR128_Up000, /**< itu U+000 */ EBUR128_Up030, /**< itu U+030 */ EBUR128_Um030, /**< itu U-030 */ EBUR128_Up045, /**< itu U+045 */ EBUR128_Um045, /**< itu U-030 */ EBUR128_Up090, /**< itu U+090 */ EBUR128_Um090, /**< itu U-090 */ EBUR128_Up110, /**< itu U+110 */ EBUR128_Um110, /**< itu U-110 */ EBUR128_Up135, /**< itu U+135 */ EBUR128_Um135, /**< itu U-135 */ EBUR128_Up180, /**< itu U+180 */ EBUR128_Tp000, /**< itu T+000 */ EBUR128_Bp000, /**< itu B+000 */ EBUR128_Bp045, /**< itu B+045 */ EBUR128_Bm045 /**< itu B-045 */ }; /** \enum error * Error return values. */ enum error { EBUR128_SUCCESS = 0, EBUR128_ERROR_NOMEM, EBUR128_ERROR_INVALID_MODE, EBUR128_ERROR_INVALID_CHANNEL_INDEX, EBUR128_ERROR_NO_CHANGE }; /** \enum mode * Use these values in ebur128_init (or'ed). Try to use the lowest possible * modes that suit your needs, as performance will be better. */ enum mode { /** can call ebur128_loudness_momentary */ EBUR128_MODE_M = (1 << 0), /** can call ebur128_loudness_shortterm */ EBUR128_MODE_S = (1 << 1) | EBUR128_MODE_M, /** can call ebur128_loudness_global_* and ebur128_relative_threshold */ EBUR128_MODE_I = (1 << 2) | EBUR128_MODE_M, /** can call ebur128_loudness_range */ EBUR128_MODE_LRA = (1 << 3) | EBUR128_MODE_S, /** can call ebur128_sample_peak */ EBUR128_MODE_SAMPLE_PEAK = (1 << 4) | EBUR128_MODE_M, /** can call ebur128_true_peak */ EBUR128_MODE_TRUE_PEAK = (1 << 5) | EBUR128_MODE_M | EBUR128_MODE_SAMPLE_PEAK, /** uses histogram algorithm to calculate loudness */ EBUR128_MODE_HISTOGRAM = (1 << 6) }; /** forward declaration of ebur128_state_internal */ struct ebur128_state_internal; /** \brief Contains information about the state of a loudness measurement. * * You should not need to modify this struct directly. */ typedef struct { int mode; /**< The current mode. */ unsigned int channels; /**< The number of channels. */ unsigned long samplerate; /**< The sample rate. */ struct ebur128_state_internal* d; /**< Internal state. */ } ebur128_state; /** \brief Get library version number. Do not pass null pointers here. * * @param major major version number of library * @param minor minor version number of library * @param patch patch version number of library */ void ebur128_get_version(int* major, int* minor, int* patch); /** \brief Initialize library state. * * @param channels the number of channels. * @param samplerate the sample rate. * @param mode see the mode enum for possible values. * @return an initialized library state, or NULL on error. */ ebur128_state* ebur128_init(unsigned int channels, unsigned long samplerate, int mode); /** \brief Destroy library state. * * @param st pointer to a library state. */ void ebur128_destroy(ebur128_state** st); /** \brief Set channel type. * * The default is: * - 0 -> EBUR128_LEFT * - 1 -> EBUR128_RIGHT * - 2 -> EBUR128_CENTER * - 3 -> EBUR128_UNUSED * - 4 -> EBUR128_LEFT_SURROUND * - 5 -> EBUR128_RIGHT_SURROUND * * @param st library state. * @param channel_number zero based channel index. * @param value channel type from the "channel" enum. * @return * - EBUR128_SUCCESS on success. * - EBUR128_ERROR_INVALID_CHANNEL_INDEX if invalid channel index. */ int ebur128_set_channel(ebur128_state* st, unsigned int channel_number, int value); /** \brief Change library parameters. * * Note that the channel map will be reset when setting a different number of * channels. The current unfinished block will be lost. * * @param st library state. * @param channels new number of channels. * @param samplerate new sample rate. * @return * - EBUR128_SUCCESS on success. * - EBUR128_ERROR_NOMEM on memory allocation error. The state will be * invalid and must be destroyed. * - EBUR128_ERROR_NO_CHANGE if channels and sample rate were not changed. */ int ebur128_change_parameters(ebur128_state* st, unsigned int channels, unsigned long samplerate); /** \brief Set the maximum window duration. * * Set the maximum duration that will be used for ebur128_loudness_window(). * Note that this destroys the current content of the audio buffer. * * @param st library state. * @param window duration of the window in ms. * @return * - EBUR128_SUCCESS on success. * - EBUR128_ERROR_NOMEM on memory allocation error. The state will be * invalid and must be destroyed. * - EBUR128_ERROR_NO_CHANGE if window duration not changed. */ int ebur128_set_max_window(ebur128_state* st, unsigned long window); /** \brief Set the maximum history. * * Set the maximum history that will be stored for loudness integration. * More history provides more accurate results, but requires more resources. * * Applies to ebur128_loudness_range() and ebur128_loudness_global() when * EBUR128_MODE_HISTOGRAM is not set. * * Default is ULONG_MAX (at least ~50 days). * Minimum is 3000ms for EBUR128_MODE_LRA and 400ms for EBUR128_MODE_M. * * @param st library state. * @param history duration of history in ms. * @return * - EBUR128_SUCCESS on success. * - EBUR128_ERROR_NO_CHANGE if history not changed. */ int ebur128_set_max_history(ebur128_state* st, unsigned long history); /** \brief Add frames to be processed. * * @param st library state. * @param src array of source frames. Channels must be interleaved. * @param frames number of frames. Not number of samples! * @return * - EBUR128_SUCCESS on success. * - EBUR128_ERROR_NOMEM on memory allocation error. */ int ebur128_add_frames_short(ebur128_state* st, const short* src, size_t frames); /** \brief See \ref ebur128_add_frames_short */ int ebur128_add_frames_int(ebur128_state* st, const int* src, size_t frames); /** \brief See \ref ebur128_add_frames_short */ int ebur128_add_frames_float(ebur128_state* st, const float* src, size_t frames); /** \brief See \ref ebur128_add_frames_short */ int ebur128_add_frames_double(ebur128_state* st, const double* src, size_t frames); /** \brief Get global integrated loudness in LUFS. * * @param st library state. * @param out integrated loudness in LUFS. -HUGE_VAL if result is negative * infinity. * @return * - EBUR128_SUCCESS on success. * - EBUR128_ERROR_INVALID_MODE if mode "EBUR128_MODE_I" has not been set. */ int ebur128_loudness_global(ebur128_state* st, double* out); /** \brief Get global integrated loudness in LUFS across multiple instances. * * @param sts array of library states. * @param size length of sts * @param out integrated loudness in LUFS. -HUGE_VAL if result is negative * infinity. * @return * - EBUR128_SUCCESS on success. * - EBUR128_ERROR_INVALID_MODE if mode "EBUR128_MODE_I" has not been set. */ int ebur128_loudness_global_multiple(ebur128_state** sts, size_t size, double* out); /** \brief Get momentary loudness (last 400ms) in LUFS. * * @param st library state. * @param out momentary loudness in LUFS. -HUGE_VAL if result is negative * infinity. * @return * - EBUR128_SUCCESS on success. */ int ebur128_loudness_momentary(ebur128_state* st, double* out); /** \brief Get short-term loudness (last 3s) in LUFS. * * @param st library state. * @param out short-term loudness in LUFS. -HUGE_VAL if result is negative * infinity. * @return * - EBUR128_SUCCESS on success. * - EBUR128_ERROR_INVALID_MODE if mode "EBUR128_MODE_S" has not been set. */ int ebur128_loudness_shortterm(ebur128_state* st, double* out); /** \brief Get loudness of the specified window in LUFS. * * window must not be larger than the current window set in st. * The current window can be changed by calling ebur128_set_max_window(). * * @param st library state. * @param window window in ms to calculate loudness. * @param out loudness in LUFS. -HUGE_VAL if result is negative infinity. * @return * - EBUR128_SUCCESS on success. * - EBUR128_ERROR_INVALID_MODE if window larger than current window in st. */ int ebur128_loudness_window(ebur128_state* st, unsigned long window, double* out); /** \brief Get loudness range (LRA) of programme in LU. * * Calculates loudness range according to EBU 3342. * * @param st library state. * @param out loudness range (LRA) in LU. Will not be changed in case of * error. EBUR128_ERROR_NOMEM or EBUR128_ERROR_INVALID_MODE will be * returned in this case. * @return * - EBUR128_SUCCESS on success. * - EBUR128_ERROR_NOMEM in case of memory allocation error. * - EBUR128_ERROR_INVALID_MODE if mode "EBUR128_MODE_LRA" has not been set. */ int ebur128_loudness_range(ebur128_state* st, double* out); /** \brief Get loudness range (LRA) in LU across multiple instances. * * Calculates loudness range according to EBU 3342. * * @param sts array of library states. * @param size length of sts * @param out loudness range (LRA) in LU. Will not be changed in case of * error. EBUR128_ERROR_NOMEM or EBUR128_ERROR_INVALID_MODE will be * returned in this case. * @return * - EBUR128_SUCCESS on success. * - EBUR128_ERROR_NOMEM in case of memory allocation error. * - EBUR128_ERROR_INVALID_MODE if mode "EBUR128_MODE_LRA" has not been set. */ int ebur128_loudness_range_multiple(ebur128_state** sts, size_t size, double* out); /** \brief Get maximum sample peak from all frames that have been processed. * * The equation to convert to dBFS is: 20 * log10(out) * * @param st library state * @param channel_number channel to analyse * @param out maximum sample peak in float format (1.0 is 0 dBFS) * @return * - EBUR128_SUCCESS on success. * - EBUR128_ERROR_INVALID_MODE if mode "EBUR128_MODE_SAMPLE_PEAK" has not * been set. * - EBUR128_ERROR_INVALID_CHANNEL_INDEX if invalid channel index. */ int ebur128_sample_peak(ebur128_state* st, unsigned int channel_number, double* out); /** \brief Get maximum sample peak from the last call to add_frames(). * * The equation to convert to dBFS is: 20 * log10(out) * * @param st library state * @param channel_number channel to analyse * @param out maximum sample peak in float format (1.0 is 0 dBFS) * @return * - EBUR128_SUCCESS on success. * - EBUR128_ERROR_INVALID_MODE if mode "EBUR128_MODE_SAMPLE_PEAK" has not * been set. * - EBUR128_ERROR_INVALID_CHANNEL_INDEX if invalid channel index. */ int ebur128_prev_sample_peak(ebur128_state* st, unsigned int channel_number, double* out); /** \brief Get maximum true peak from all frames that have been processed. * * Uses an implementation defined algorithm to calculate the true peak. Do not * try to compare resulting values across different versions of the library, * as the algorithm may change. * * The current implementation uses a custom polyphase FIR interpolator to * calculate true peak. Will oversample 4x for sample rates < 96000 Hz, 2x for * sample rates < 192000 Hz and leave the signal unchanged for 192000 Hz. * * The equation to convert to dBTP is: 20 * log10(out) * * @param st library state * @param channel_number channel to analyse * @param out maximum true peak in float format (1.0 is 0 dBTP) * @return * - EBUR128_SUCCESS on success. * - EBUR128_ERROR_INVALID_MODE if mode "EBUR128_MODE_TRUE_PEAK" has not * been set. * - EBUR128_ERROR_INVALID_CHANNEL_INDEX if invalid channel index. */ int ebur128_true_peak(ebur128_state* st, unsigned int channel_number, double* out); /** \brief Get maximum true peak from the last call to add_frames(). * * Uses an implementation defined algorithm to calculate the true peak. Do not * try to compare resulting values across different versions of the library, * as the algorithm may change. * * The current implementation uses a custom polyphase FIR interpolator to * calculate true peak. Will oversample 4x for sample rates < 96000 Hz, 2x for * sample rates < 192000 Hz and leave the signal unchanged for 192000 Hz. * * The equation to convert to dBTP is: 20 * log10(out) * * @param st library state * @param channel_number channel to analyse * @param out maximum true peak in float format (1.0 is 0 dBTP) * @return * - EBUR128_SUCCESS on success. * - EBUR128_ERROR_INVALID_MODE if mode "EBUR128_MODE_TRUE_PEAK" has not * been set. * - EBUR128_ERROR_INVALID_CHANNEL_INDEX if invalid channel index. */ int ebur128_prev_true_peak(ebur128_state* st, unsigned int channel_number, double* out); /** \brief Get relative threshold in LUFS. * * @param st library state * @param out relative threshold in LUFS. * @return * - EBUR128_SUCCESS on success. * - EBUR128_ERROR_INVALID_MODE if mode "EBUR128_MODE_I" has not * been set. */ int ebur128_relative_threshold(ebur128_state* st, double* out); #ifdef __cplusplus } #endif #endif /* EBUR128_H_ */