Mercurial > foo_out_sdl
view foosdk/sdk/pfc/audio_sample.h @ 1:20d02a178406 default tip
*: check in everything else
yay
| author | Paper <paper@tflc.us> |
|---|---|
| date | Mon, 05 Jan 2026 02:15:46 -0500 |
| parents | |
| children |
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#pragma once #include <math.h> #ifdef _MSC_VER #include <intrin.h> #endif namespace pfc { // made a class so it can be redirected to an alternate class more easily than with namespacing // in win desktop fb2k these are implemented in a DLL class audio_math { public: //! p_source/p_output can point to same buffer static void convert_to_int16(const float* p_source, size_t p_count, int16_t * p_output, float p_scale); static void convert_to_int16(const double* p_source, size_t p_count, int16_t* p_output, double p_scale); static void convert_to_int32(const float* p_source, size_t p_count, int32_t * p_output, float p_scale); static void convert_to_int32(const double* p_source, size_t p_count, int32_t* p_output, double p_scale); static void convert_from_int16(const int16_t * p_source, size_t p_count, float * p_output, float p_scale); static void convert_from_int16(const int16_t* p_source, size_t p_count, double * p_output, double p_scale); static void convert_from_int32(const int32_t* p_source, size_t p_count, float* p_output, float p_scale); static void convert_from_int32(const int32_t* p_source, size_t p_count, double* p_output, double p_scale); static void convert_to_int24(const float* in, size_t count, void* out, float scale); static void convert_to_int24(const double* in, size_t count, void* out, double scale); static float calculate_peak(const float * p_source, size_t p_count); static double calculate_peak(const double * p_source, size_t p_count); static void remove_denormals(float * p_buffer, size_t p_count); static void remove_denormals(double * p_buffer, size_t p_count); static void add_offset(float * p_buffer, float p_delta, size_t p_count); static void add_offset(double * p_buffer, double p_delta, size_t p_count); static void scale(const float* p_source, size_t p_count, float * p_output, float p_scale); static void scale(const double* p_source, size_t p_count, double * p_output, double p_scale); static void convert(const float* in, float* out, size_t count); static void convert(const float* in, float* out, size_t count, float scale); static void convert(const float* in, double* out, size_t count); static void convert(const float* in, double* out, size_t count, double scale); static void convert(const double* in, float* out, size_t count); static void convert(const double* in, float* out, size_t count, double scale); static void convert(const double* in, double* out, size_t count); static void convert(const double* in, double* out, size_t count, double scale); inline static int64_t rint64(float val) { return (int64_t)llrint(val); } inline static int32_t rint32(float val) { return (int32_t)lrint(val); } inline static int64_t rint64(double val) { return (int64_t)llrint(val); } inline static int32_t rint32(double val) { return (int32_t)lrint(val); } static inline uint64_t time_to_samples(double p_time, uint32_t p_sample_rate) { return (uint64_t)pfc::rint64((double)p_sample_rate * p_time); } static inline double samples_to_time(uint64_t p_samples, uint32_t p_sample_rate) { PFC_ASSERT(p_sample_rate > 0); return (double)p_samples / (double)p_sample_rate; } static inline double gain_to_scale(double p_gain) { return pow(10.0, p_gain / 20.0); } static inline double scale_to_gain(double scale) { return 20.0*log10(scale); } static unsigned bitrate_kbps( uint64_t fileSize, double duration ); static constexpr float float16scale = 65536.f; static float decodeFloat24ptr(const void* sourcePtr); static float decodeFloat24ptrbs(const void* sourcePtr); static float decodeFloat16(uint16_t source); }; // class audio_math } // namespace pfc