// // SampleSource.hpp // Clock Signal // // Created by Thomas Harte on 17/12/2017. // Copyright 2017 Thomas Harte. All rights reserved. // #ifndef SampleSource_hpp #define SampleSource_hpp #include #include namespace Outputs { namespace Speaker { /*! A sample source is something that can provide a stream of audio. This optional base class provides the interface expected to be exposed by the template parameter to LowpassSpeaker. */ class SampleSource { public: /*! Should write the next @c number_of_samples to @c target. */ void get_samples([[maybe_unused]] std::size_t number_of_samples, [[maybe_unused]] std::int16_t *target) {} /*! Should skip the next @c number_of_samples. Subclasses of this SampleSource need not implement this if it would no more efficient to do so than it is merely to call get_samples and throw the result away, as per the default implementation below. */ void skip_samples(const std::size_t number_of_samples) { std::int16_t scratch_pad[number_of_samples]; get_samples(number_of_samples, scratch_pad); } /*! @returns @c true if it is trivially true that a call to get_samples would just fill the target with zeroes; @c false if a call might return all zeroes or might not. */ bool is_zero_level() const { return false; } /*! Sets the proper output range for this sample source; it should write values between 0 and volume. */ void set_sample_volume_range([[maybe_unused]] std::int16_t volume) {} /*! Indicates whether this component will write stereo samples. */ static constexpr bool get_is_stereo() { return false; } /*! Permits a sample source to declare that, averaged over time, it will use only a certain proportion of the allocated volume range. This commonly happens in sample sources that use a time-multiplexed sound output — for example, if one were to output only every other sample then it would return 0.5. This is permitted to vary over time but there is no contract as to when it will be used by a speaker. If it varies, it should do so very infrequently and only to represent changes in hardware configuration. */ double get_average_output_peak() const { return 1.0; } }; } } #endif /* SampleSource_hpp */