// Copyright 2016 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef IIRFilter_h #define IIRFilter_h typedef nsTArray AudioDoubleArray; namespace blink { class IIRFilter final { public: // The maximum IIR filter order. This also limits the number of feedforward coefficients. The // maximum number of coefficients is 20 according to the spec. const static size_t kMaxOrder = 19; IIRFilter(const AudioDoubleArray* feedforwardCoef, const AudioDoubleArray* feedbackCoef); ~IIRFilter(); void process(const float* sourceP, float* destP, size_t framesToProcess); void reset(); void getFrequencyResponse(int nFrequencies, const float* frequency, float* magResponse, float* phaseResponse); bool buffersAreZero(); private: // Filter memory // // For simplicity, we assume |m_xBuffer| and |m_yBuffer| have the same length, and the length is // a power of two. Since the number of coefficients has a fixed upper length, the size of // xBuffer and yBuffer is fixed. |m_xBuffer| holds the old input values and |m_yBuffer| holds // the old output values needed to compute the new output value. // // m_yBuffer[m_bufferIndex] holds the most recent output value, say, y[n]. Then // m_yBuffer[m_bufferIndex - k] is y[n - k]. Similarly for m_xBuffer. // // To minimize roundoff, these arrays are double's instead of floats. AudioDoubleArray m_xBuffer; AudioDoubleArray m_yBuffer; // Index into the xBuffer and yBuffer arrays where the most current x and y values should be // stored. xBuffer[bufferIndex] corresponds to x[n], the current x input value and // yBuffer[bufferIndex] is where y[n], the current output value. int m_bufferIndex; // Coefficients of the IIR filter. const AudioDoubleArray* m_feedback; const AudioDoubleArray* m_feedforward; }; } // namespace blink #endif // IIRFilter_h