#ifndef FILTER_NFC_H #define FILTER_NFC_H #include #include "alspan.h" struct NfcFilter1 { float base_gain, gain; float b1, a1; float z[1]; }; struct NfcFilter2 { float base_gain, gain; float b1, b2, a1, a2; float z[2]; }; struct NfcFilter3 { float base_gain, gain; float b1, b2, b3, a1, a2, a3; float z[3]; }; struct NfcFilter4 { float base_gain, gain; float b1, b2, b3, b4, a1, a2, a3, a4; float z[4]; }; class NfcFilter { NfcFilter1 first; NfcFilter2 second; NfcFilter3 third; NfcFilter4 fourth; public: /* NOTE: * w0 = speed_of_sound / (source_distance * sample_rate); * w1 = speed_of_sound / (control_distance * sample_rate); * * Generally speaking, the control distance should be approximately the * average speaker distance, or based on the reference delay if outputing * NFC-HOA. It must not be negative, 0, or infinite. The source distance * should not be too small relative to the control distance. */ void init(const float w1) noexcept; void adjust(const float w0) noexcept; /* Near-field control filter for first-order ambisonic channels (1-3). */ void process1(const al::span src, float *RESTRICT dst); /* Near-field control filter for second-order ambisonic channels (4-8). */ void process2(const al::span src, float *RESTRICT dst); /* Near-field control filter for third-order ambisonic channels (9-15). */ void process3(const al::span src, float *RESTRICT dst); /* Near-field control filter for fourth-order ambisonic channels (16-24). */ void process4(const al::span src, float *RESTRICT dst); }; #endif /* FILTER_NFC_H */