diff --git a/bridges/bridge_softmix.c b/bridges/bridge_softmix.c index c7b1d6c8ba..f61732b6e2 100644 --- a/bridges/bridge_softmix.c +++ b/bridges/bridge_softmix.c @@ -1864,7 +1864,7 @@ static int softmix_mixing_loop(struct ast_bridge *bridge) softmix_data->internal_mixing_interval, bridge_channel, 1, -1, -1, -1); } - /* If stat_iteration_counter is 0, then collect statistics during this mixing interation */ + /* If stat_iteration_counter is 0, then collect statistics during this mixing interaction */ if (!stat_iteration_counter) { gather_softmix_stats(&stats, softmix_data, bridge_channel); } diff --git a/bridges/bridge_softmix/bridge_softmix_binaural.c b/bridges/bridge_softmix/bridge_softmix_binaural.c index 3a036cd90b..87b40353a8 100644 --- a/bridges/bridge_softmix/bridge_softmix_binaural.c +++ b/bridges/bridge_softmix/bridge_softmix_binaural.c @@ -103,7 +103,7 @@ int do_convolve(struct convolve_channel *chan, int16_t *in_samples, } fftw_execute(chan->fftw_plan); - /* Imaginary mulitplication (frequency space). */ + /* Imaginary multiplication (frequency space). */ /* First FFTW result has never an imaginary part. */ chan->fftw_in[0] = chan->fftw_out[0] * chan->hrtf[0]; for (i = 1; i < (hrtf_length / 2); i++) { @@ -128,7 +128,7 @@ int do_convolve(struct convolve_channel *chan, int16_t *in_samples, chan->fftw_out[i] = chan->fftw_out[i] / (hrtf_length / 2); } - /* Save the block for overlapp add in the next itteration. */ + /* Save the block for overlap add in the next iteration. */ for (i = 0; i < in_sample_size; i++) { chan->overlap_add[i] += chan->fftw_out[i]; } diff --git a/bridges/bridge_softmix/include/bridge_softmix_internal.h b/bridges/bridge_softmix/include/bridge_softmix_internal.h index ca70c3cb39..374a6cc37d 100644 --- a/bridges/bridge_softmix/include/bridge_softmix_internal.h +++ b/bridges/bridge_softmix/include/bridge_softmix_internal.h @@ -98,7 +98,7 @@ struct convolve_channel_pair { }; struct convolve_data { - /*! A count of all channels potentialy having input data for the conference. */ + /*! A count of all channels potentially having input data for the conference. */ int number_channels; /*! Will set to true if there is at least one binaural output. * Only if set to true data will be convolved. */ @@ -304,7 +304,7 @@ int init_convolve_channel(struct convolve_channel *channel, unsigned int hrtf_le unsigned int chan_pos, unsigned int chan_side, unsigned int default_sample_size); /*! - * \brief Initializies all data needed for binaural audio processing of a channel pair + * \brief Initializes all data needed for binaural audio processing of a channel pair * (left and right). * * \param cchan_pair The channel pair used for binaural audio processing. @@ -319,7 +319,7 @@ int init_convolve_channel_pair(struct convolve_channel_pair *cchan_pair, unsigned int hrtf_len, unsigned int chan_pos, unsigned int default_sample_size); /*! - * \brief Preinits a specific number of channels (CONVOVLE_CHANNEL_PREALLOC) + * \brief Preinits a specific number of channels (CONVOLVE_CHANNEL_PREALLOC) * at the beginning of a conference. * * \param data Contains all channels and data needed for binaural processing @@ -354,7 +354,7 @@ void free_convolve_channel_pair(struct convolve_channel_pair *cchan_pair); void free_convolve_data(struct convolve_data *data); /*! - * \brief Joins a channel into a virtual enviroment build with the help of binaural sythesis. + * \brief Joins a channel into a virtual enviroment build with the help of binaural synthesis. * * \param data Contains all channels and data needed for binaural processing * (e.g. head related transfer functions). @@ -388,7 +388,7 @@ void softmix_process_write_binaural_audio(struct softmix_channel *sc, unsigned int default_sample_size); /*! - * \brief Checks if a position change in the virual enviroment is requested by one of + * \brief Checks if a position change in the virtual enviroment is requested by one of * the participants. * * \param bridge The conference bridge.