ref: 1dfd8c08ece7cba0be8eab1ffb2f00f80aa10ffc
dir: /rateconv.h/
/********************************************************************** audio sample rate converter $Id: rateconv.h,v 1.2 2000/02/18 09:17:28 lenox Exp $ Header file: rateconv.h Authors: NM Nikolaus Meine, Uni Hannover (c/o Heiko Purnhagen) HP Heiko Purnhagen, Uni Hannover <purnhage@tnt.uni-hannover.de> Changes: xx-jun-98 NM resamp.c 18-sep-98 HP converted into module 04-nov-99 NM/HP double ratio **********************************************************************/ /* * Sample-rate converter * * Realized in three steps: * * 1. Upsampling by factor two while doing appropriate lowpass-filtering. * This is done by using an FFT-based convolution algorithm with a multi-tap * Kaiser-windowed lowpass filter. * If the cotoff-frequency is less than 0.5, only lowpass-filtering without * the upsampling is done. * 2. Upsampling by factor 128 using a 15 tap Kaiser-windowed lowpass filter * (alpha=12.5) and conventional convolution algorithm. * Two values (the next neighbours) are computed for every sample needed. * 3. Linear interpolation between the two bounding values. * * Stereo and mono data is supported. * Up- and downsampling of any ratio is possible. * Input and output file format is Sun-audio. * * Written by N.Meine, 1998 * */ /* Multi channel data is interleaved: l0 r0 l1 r1 ... */ /* Total number of samples (over all channels) is used. */ #ifndef _rateconv_h_ #define _rateconv_h_ /* ---------- declarations ---------- */ /* ---------- functions ---------- */ #ifdef __cplusplus extern "C" { #endif /* RateConvInit() */ /* Init audio sample rate conversion. */ RCBuf *RateConvInit ( int debugLevel, /* in: debug level */ /* 0=off 1=basic 2=full */ double ratio, /* in: outputRate / inputRate */ int numChannel, /* in: number of channels */ int htaps1, /* in: num taps */ /* -1 = auto */ float a1, /* in: alpha for Kaiser window */ /* -1 = auto */ float fc, /* in: 6dB cutoff freq / input bandwidth */ /* -1 = auto */ float fd, /* in: 100dB cutoff freq / input bandwidth */ /* -1 = auto */ int *numSampleIn); /* out: num input samples / frame */ /* returns: */ /* buffer (handle) */ /* or NULL if error */ /* RateConv() */ /* Convert sample rate for one frame of audio data. */ long RateConv ( RCBuf *buf, /* in: buffer (handle) */ short *dataIn, /* in: input data[] */ long numSampleIn, /* in: number of input samples */ float **dataOut); /* out: output data[] */ /* returns: */ /* numSampleOut */ /* RateConvFree() */ /* Free RateConv buffers. */ void RateConvFree ( RCBuf *buf); /* in: buffer (handle) */ #ifdef __cplusplus } #endif #endif /* #ifndef _rateconv_h_ */ /* end of rateconv.h */