/* Part of the GARLAND MODULE Copyright (C) 2020 by Dmitry Blinov Inspired by https://github.com/Vasil-Pahomov/ArWs2812 (currently https://github.com/Vasil-Pahomov/Liana) */ #pragma once #include "color.h" #define BRA_AMP_SHIFT 1 // brigthness animation amplitude shift. true BrA amplitude is calculated // as (0..127) value shifted right by this amount #define BRA_OFFSET 127 //(222-64) // brigthness animation amplitude offset class Palette; class Anim { public: Anim(const char* name); const char* name() { return _name; } void Setup(Palette* palette, uint16_t numLeds, Color* leds, Color* _ledstmp, byte* seq); virtual bool finishedycle() const { return true; }; virtual void Run() = 0; virtual void setCycleFactor(float new_cycle_factor) { cycleFactor = new_cycle_factor; } virtual float getCycleFactor() { return cycleFactor; } protected: uint16_t numLeds = 0; Palette* palette = nullptr; Color* leds = nullptr; Color* ledstmp = nullptr; byte* seq = nullptr; int phase; int pos; int inc; //brigthness animation (BrA) current initial phase byte braPhase; //braPhase change speed byte braPhaseSpd = 5; //BrA frequency (spatial) byte braFreq = 150; Color curColor = Color(0); Color prevColor = Color(0); const Color sparkleColor = Color(0xFFFFFF); // Reversed analog of speed. To control speed for particular animation (fine tuning for one). // Lower - faster. Set cycleFactor < 1 speed up animation, while cycleFactor > 1 slow it down. float cycleFactor = 1.0; virtual void SetupImpl() = 0; // helper functions for animations void initSeq(); void shuffleSeq(); //glow animation setup void glowSetUp(); //glow animation - must be called for each LED after it's BASIC color is set //note this overwrites the LED color, so the glow assumes that color will be stored elsewhere (not in leds[]) //or computed each time regardless previous leds[] value void glowForEachLed(int i); //glow animation - must be called at the end of each animaton run void glowRun(); private: const char* _name; }; unsigned int rng(); byte rngb();