ESP32-HUB75-MatrixPanel-DMA/examples/AuroraDemo/Patterns.hpp

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/*
* Aurora: https://github.com/pixelmatix/aurora
* Original Copyright (c) 2014 Jason Coon
*
* Modified by Codetastic 2024
*
*/
#ifndef Patterns_H
#define Patterns_H
#define ARRAY_SIZE(A) (sizeof(A) / sizeof((A)[0]))
#include "Vector2.hpp"
#include "Boid.hpp"
#include "Attractor.hpp"
/*
* Note from mrfaptastic:
*
* Commented out patterns are due to the fact they either didn't work properly with a non-square display,
* or from my personal opinion, are crap.
*/
#include "PatternStarfield.hpp" // new 2024
#include "PatternAttract.hpp"
#include "PatternBounce.hpp" // Doesn't seem to work, omitting.
#include "PatternCube.hpp" // Doesn't seem to work, omitting.
#include "PatternElectricMandala.hpp"
#include "PatternFireKoz.hpp" // Doesn't seem to work, omitting.
#include "PatternFlock.hpp"
#include "PatternFlowField.hpp"
#include "PatternIncrementalDrift.hpp"
#include "PatternIncrementalDrift2.hpp" // Doesn't seem to work, omitting.
#include "PatternInfinity.hpp"
#include "PatternMaze.hpp" // ??
#include "PatternMunch.hpp"
//#include "PatternNoiseSmearing.hpp"
#include "PatternPendulumWave.hpp"
#include "PatternPlasma.hpp"
#include "PatternRadar.hpp"
#include "PatternSimplexNoise.hpp"
#include "PatternSnake.hpp"
#include "PatternSpiral.hpp"
#include "PatternSpiro.hpp"
#include "PatternWave.hpp"
#include "PatternTheMatrix.hpp"
#include "PatternJuliaSetFractal.hpp"
//#include "PatternTunnel.hpp" // fail
//#include "PatternSphereSpin.hpp" // fail
class Patterns {
private:
PatternStarfield starfield;
// PatternSphereSpin sspin;
PatternAttract attract;
PatternBounce bounce;
PatternCube cube;
PatternElectricMandala electricMandala;
PatternFireKoz fire;
PatternFlock flock;
PatternFlowField flowField;
PatternIncrementalDrift incrementalDrift;
PatternIncrementalDrift2 incrementalDrift2;
PatternInfinity infinity;
PatternMaze maze;
PatternMunch munch;
PatternPendulumWave pendwave;
PatternPlasma plasma;
PatternRadar radar;
PatternSimplexNoise simpnoise;
PatternSnake snake;
PatternSpiral spiral;
PatternSpiro spiro;
PatternWave wave;
PatternTheMatrix matrix;
// PatternTunnel tunnel;
PatternJuliaSet juliaSet;
std::vector<Drawable*> availablePatterns = {
// &tunnel,
&juliaSet,
&matrix,
&starfield,
// &sspin,
&attract,
&bounce,
&cube,
&electricMandala,
&fire,
&flock,
&spiro,
&radar,
&flowField,
&incrementalDrift,
&incrementalDrift2,
&infinity,
&maze,
&munch,
&pendwave,
&plasma,
&radar,
&simpnoise,
//&snake, // a bit crap
//&spiral, // a bit crap
&spiro,
&wave,
};
int currentIndex = 0;
Drawable* currentItem;
int getCurrentIndex() {
return currentIndex;
}
public:
Patterns() {
this->currentItem = availablePatterns[0];
this->currentItem->start();
}
void stop() {
if (currentItem)
currentItem->stop();
}
void start() {
if (currentItem)
currentItem->start();
}
void moveTo(int index)
{
index = ((index >= availablePatterns.size()) || (index < 0)) ? 0 : index;
if (currentItem)
currentItem->stop();
currentIndex = index;
currentItem = availablePatterns[currentIndex];
Serial.print("Changing pattern to: ");
Serial.println(getCurrentPatternName());
if (currentItem)
currentItem->start();
} // index
void move(int step) {
currentIndex += step;
if (currentIndex >= availablePatterns.size()) currentIndex = 0;
else if (currentIndex < 0) currentIndex = 0;
moveTo(currentIndex);
}
void moveRandom(int step) {
int rand_index = random(0, availablePatterns.size()-1);
moveTo(rand_index);
}
unsigned int drawFrame() {
return currentItem->drawFrame();
}
void listPatterns() {
Serial.println(F("{"));
Serial.print(F(" \"count\": "));
Serial.print(availablePatterns.size());
Serial.println(",");
Serial.println(F(" \"results\": ["));
for (size_t i = 0; i < availablePatterns.size(); i++) {
Serial.print(F(" \""));
Serial.print(i, DEC);
Serial.print(F(": "));
Serial.print(availablePatterns[i]->name);
if (i == availablePatterns.size() - 1)
Serial.println(F("\""));
else
Serial.println(F("\","));
}
Serial.println(" ]");
Serial.println("}");
}
char * getCurrentPatternName()
{
return currentItem->name;
}
/*
bool setPattern(String name) {
for (size_t i = 0; i < availablePatterns.size(); i++) {
if (name.compareTo(availablePatterns[i]->name) == 0) {
moveTo(i);
return true;
}
}
return false;
}
*/
bool setPattern(int index) {
if (index >= availablePatterns.size() || index < 0)
return false;
moveTo(index);
return true;
}
};
#endif