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DisplayESP32
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Display SSD1306 for ESP32
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DisplayESP32/DisplayESP32.ino

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#include <SPI.h>
#include <Wire.h>
#include <Adafruit_GFX.h>
#include <Adafruit_SSD1306.h>
#define __DEBUG__
#define MAX_OPTIONS 10 //Maximum number of options for each menu
#define MAX_MENUS 3
#define MAX_GRAPH 3
#define DISP_WIDTH 128 // OLED display width
#define DISP_HEIGHT 64 // OLED display height
#define REFRESH 10 //Refresh time in ms
Adafruit_SSD1306 display(DISP_WIDTH, DISP_HEIGHT, &Wire, -1);
int i = 0;
class Option{
private:
int sizex;
int sizey;
String content;
int pos;
int textSpacing;
bool fill = false;
bool disp = false;
int destinationType;
int destinationIndex;
public:
//Option(){}
void configure(String content, int sizex, int sizey, int pos, int destinationType, int destinationIndex){
this->sizex = sizex;
this->sizey = sizey;
this->content = content;
this->pos = pos;
this->destinationType = destinationType;
this->destinationIndex = destinationIndex;
this->disp = true;
this->textSpacing = ((sizey - 7)/2) + 7;
}
int getDestinationType(){
int destinationType = this->destinationType;
return destinationType;
}
int getDestinationIndex(){
int destinationIndex = this->destinationIndex;
return destinationIndex;
}
void drawopt(int page, int pos, int optPPage){
if(this->disp){
if(this->pos == pos){
display.fillRect(0, (this->sizey)*(this->pos) + 1 - (page*optPPage*this->sizey), this->sizex, this->sizey, WHITE);
display.setTextColor(SSD1306_BLACK);
display.setCursor(5, (this->sizey)*(this->pos + 1) - (page*optPPage*this->sizey) - this->textSpacing);
display.print(this->content);
display.setTextColor(SSD1306_WHITE);
}
else{
display.drawRect(0, (this->sizey)*(this->pos) + 1 - (page*optPPage*this->sizey), this->sizex, this->sizey, WHITE);
display.setCursor(5, (this->sizey)*(this->pos + 1) - (page*optPPage*this->sizey) - this->textSpacing);
display.print(this->content);
}
}
}
};
class Menu{ //ContentTypeMenu true, it is a menu
private:
int sizex;
int sizey; //Y size of each option in the menu
int options = 0; //This indicates the number of options created
int pos = 0; //This indicates the position of the cursor
int page = 0; //If the menu is too long, this indicates the page that is being displayed
Option opt[MAX_OPTIONS];
int optPPage;
int previousScreen = 0;
int previousContentType = 0;
public:
void configure(int sizex, int sizey){
this->sizex = sizex;
this->sizey = sizey;
this->optPPage = DISP_HEIGHT / this->sizey;
}
void createOption(String content, bool destinationTypeMenu, int destinationIndex){
this->opt[this->options].configure(content, this->sizex, this->sizey, this->options++, destinationTypeMenu, destinationIndex);
}
int extractDestinationType(){
int destinationType = this->opt[this->pos].getDestinationType();
return destinationType;
}
int extractDestinationIndex(){
int destinationIndex = this->opt[this->pos].getDestinationIndex();
return destinationIndex;
}
void drawMenu(){
display.clearDisplay();
this->page = pos/this->optPPage;
for(int i = 0; i < options; i++){
this->opt[i].drawopt(this->page, this->pos, this->optPPage);
}
display.display();
}
int extractPos(){
return(this->pos);
}
int extractOptNumber(){
return(this->options);
}
void increasePos(){
this->pos++;
}
void decreasePos(){
this->pos--;
}
void setPreviousScreen(int prev){
this->previousScreen = prev;
}
void setPreviousContentType(int prev){
this->previousContentType = prev;
}
int getPreviousScreen(){
int prev = this->previousScreen;
return prev;
}
int getPreviousContentType(){
int prev = this->previousContentType;
return prev;
}
};
class Graph{ //ContentTypeMenu false, it is not a menu
private:
String title;
char graphType; //'a' Vertical Bar, 'b' Horizontal Bar, 'c' Cartesian Graph
//Assign whatever value in "configure(..." if a parameter is not required for the specified graphType
double value; //For: Vertical Bar Horizontal Bar Cartesian
double xpos; //For: Vertical Bar Horizontal Bar Cartesian
double ypos; //For: Vertical Bar Horizontal Bar Cartesian
double height; //For: Vertical Bar Horizontal Bar Cartesian
double width; //For: Vertical Bar Horizontal Bar Cartesian
double yminimum; //For: Vertical Bar Cartesian
double ymaximum; //For: Vertical Bar Cartesian
double xminimum; //For: Horizontal Bar Cartesian
double xmaximum; //For: Horizontal Bar Cartesian
double yStepSize; //For: Vertical Bar Cartesian
double xStepSize; //For: Horizontal Bar Cartesian
double digit; //For: Vertical Bar Horizontal Bar Cartesian
double x;
double yrange;
double xrange;
double ox;
double oy;
double count;
double graphScale;
bool redraw = true;
int previousScreen = 0;
int previousContentType = 0;
public:
void configure(String title, char graphType, double xpos, double ypos, double width, double height,
double yminimum, double ymaximum, double xminimum, double xmaximum, double yStepSize, double xStepSize, double digit){
this->title = title;
this->graphType = graphType;
this->yminimum = yminimum;
this->ymaximum = ymaximum;
this->xminimum = xminimum;
this->count = xminimum;
this->xmaximum = xmaximum;
this->height = height;
this->width = width;
this->yStepSize = yStepSize;
this->xStepSize = xStepSize;
this->digit = digit;
this->xpos = xpos;
this->ypos = ypos;
switch(graphType){
case 'a':
this->yrange = ymaximum - yminimum;
this->graphScale = (yStepSize) * (height / this->yrange) - .001; //Adjusts the scale of the graph, according to the range and the size of the step
break;
case 'b':
this->xrange = xmaximum - xminimum;
this->graphScale = (xStepSize) * (width / this->xrange) - .001; //Adjusts the scale of the graph, according to the range and the size of the step
break;
case 'c':
this->yrange = ymaximum - yminimum;
this->xrange = xmaximum - xminimum;
break;
}
}
void drawGraph(){
double level, data, i;
switch(graphType){
case 'a':
double my;
if (this->redraw) {
display.clearDisplay();
this->redraw = false;
display.fillRect(0, 0, 127 , 14, SSD1306_WHITE);
display.setTextColor(SSD1306_BLACK, SSD1306_WHITE);
display.setTextSize(1);
display.setCursor(2, 4);
display.println(this->title);
for (i = 0; i <= this->height; i += this->graphScale) {
my = this->ypos - this->height + i;
display.drawFastHLine(this->xpos + this->width + 1, my, 5, SSD1306_WHITE);
// draw lables
display.setTextSize(1);
display.setTextColor(SSD1306_WHITE, SSD1306_BLACK);
display.setCursor(this->xpos + this->width + 12, my - 3 );
data = this->ymaximum - ( i * (this->yStepSize / this->graphScale));
display.print(data, this->digit);
}
}
// compute level of bar graph that is scaled to the height and the hi and low vals
// this is needed to accompdate for +/- range
level = (this->height * (((this->value - this->yminimum) / (this->yrange))));
// draw the bar graph
// write a upper and lower bar to minimize flicker cause by blanking out bar and redraw on update
display.drawRect(this->xpos, this->ypos - this->height, this->width, this->height, SSD1306_WHITE);
display.fillRect(this->xpos, this->ypos - this->height, this->width, this->height - level, SSD1306_BLACK);
display.drawRect(this->xpos, this->ypos - this->height, this->width, this->height, SSD1306_WHITE);
display.fillRect(this->xpos, this->ypos - level, this->width, level, SSD1306_WHITE);
// up until now print sends data to a video buffer NOT the screen
// this call sends the data to the screen
display.display();
break;
case 'b':
if (this->redraw) {
display.clearDisplay();
this->redraw = false;
display.fillRect(0, 0, 127 , 16, SSD1306_WHITE);
display.setTextColor(SSD1306_BLACK, SSD1306_WHITE);
display.setTextSize(1);
display.setCursor(2, 4);
display.println(this->title);
// draw the text
for (i = 0; i <= this->width; i += this->graphScale) {
display.drawFastVLine(i + this->xpos , this->ypos , 5, SSD1306_WHITE);
// draw lables
display.setTextSize(1);
display.setTextColor(SSD1306_WHITE, SSD1306_BLACK);
display.setCursor(i + this->xpos , this->ypos + 10);
// addling a small value to eliminate round off errors
// this val may need to be adjusted
data = ( i * (this->xStepSize / this->graphScale)) + this->xminimum + 0.00001;
display.print(data, this->digit);
}
}
// compute level of bar graph that is scaled to the width and the hi and low vals
// this is needed to accompdate for +/- range capability
// draw the bar graph
// write a upper and lower bar to minimize flicker cause by blanking out bar and redraw on update
level = (this->width * (((this->value - this->xminimum) / (this->xmaximum - this->xminimum))));
display.fillRect(this->xpos + level, this->ypos - this->height, this->width - level, this->height, SSD1306_BLACK);
display.drawRect(this->xpos, this->ypos - this->height, this->width, this->height, SSD1306_WHITE);
display.fillRect(this->xpos, this->ypos - this->height, level, this->height, SSD1306_WHITE);
// up until now print sends data to a video buffer NOT the screen
// this call sends the data to the screen
display.display();
break;
case 'c':
double temp;
if (this->redraw == true) {
this->redraw = false;
display.clearDisplay();
display.fillRect(0, 0, 127 , 16, SSD1306_WHITE);
display.setTextColor(SSD1306_BLACK, SSD1306_WHITE);
display.setTextSize(1);
display.setCursor(2, 4);
display.println(title);
this->ox = (this->count - this->xminimum) * (this->width) / (this->xrange) + this->xpos;
this->oy = (this->value - this->yminimum) * (- this->height) / (this->yrange) + this->ypos;
// draw y scale
display.setTextSize(1);
display.setTextColor(SSD1306_WHITE, SSD1306_BLACK);
for ( i = this->yminimum; i <= this->ymaximum; i += this->yStepSize) {
// compute the transform
// note my transform funcition is the same as the map function, except the map uses long and we need doubles
temp = (i - this->yminimum) * (- this->height) / (this->ymaximum - this->yminimum) + this->ypos;
if (i == 0) {
display.drawFastHLine(this->xpos - 3, temp, this->width + 3, SSD1306_WHITE);
}
else {
display.drawFastHLine(this->xpos - 3, temp, 3, SSD1306_WHITE);
}
display.setCursor(this->xpos - 27, temp - 3);
display.println(i, this->digit);
}
// draw x scale
for (i = this->xminimum; i <= this->xmaximum; i += this->xStepSize) {
// compute the transform
display.setTextSize(1);
display.setTextColor(SSD1306_WHITE, SSD1306_BLACK);
temp = (i - this->xminimum) * (this->width) / (this->xrange) + this->xpos;
if (i == 0) {
display.drawFastVLine(temp, this->ypos - this->height, this->height + 3, SSD1306_WHITE);
}
else {
display.drawFastVLine(temp, this->ypos, 3, SSD1306_WHITE);
}
display.setCursor(temp, this->ypos + 6);
display.println(i, this->digit);
}
}
// graph drawn now plot the data
// the entire plotting code are these few lines...
this->x = (this->count - this->xminimum) * (this->width) / (this->xrange) + this->xpos;
this->value = (this->value - this->yminimum) * (- this->height) / (this->yrange) + this->ypos;
display.drawLine(this->ox, this->oy, this->x, this->value, SSD1306_WHITE);
display.drawLine(this->ox, this->oy - 1, this->x, this->value - 1, SSD1306_WHITE);
this->ox = this->x;
this->oy = this->value;
// up until now print sends data to a video buffer NOT the screen
// this call sends the data to the screen
display.display();
this->count += 1;
if(this->ox >= (this->xpos + this->width)){
this->redraw = true;
this->count = xminimum;
}
}
}
void redrawFlag(){
this->redraw = true;
}
void setPreviousScreen(int prev){
this->previousScreen = prev;
}
void setPreviousContentType(int prev){
this->previousContentType = prev;
}
int getPreviousScreen(){
int prev = this->previousScreen;
return prev;
}
int getPreviousContentType(){
int prev = this->previousContentType;
return prev;
}
void assignValue(double value){
this->value = value;
}
void reset(){
this->x = 0;
}
};
class Screen{
private:
Menu menu[MAX_MENUS];
Graph graph[MAX_GRAPH];
int counterM = 0;
int counterG = 0;
bool redraw = true;
int currentScreen = 0;
int contentType = 0;
public:
void configure(bool fullsetting){
if(fullsetting){
//Adafruit_SSD1306 display(DISP_WIDTH, DISP_HEIGHT, &Wire, -1);
Serial.begin(115200);
if (!display.begin(SSD1306_SWITCHCAPVCC, 0x3C)) {
#ifdef __DEBUG__
Serial.println("Display not found!");
#endif
while (true);
}
}
display.clearDisplay();
// Text size
display.setTextSize(2);
// Text color
display.setTextColor(SSD1306_WHITE);
// Text position
display.setCursor(0, 20);
display.println("Bienvenido");
display.setTextSize(1);
display.display();
delay(5000);
}
void createMenu(int sizex, int sizey){
this->menu[counterM].configure(sizex, sizey);
this->counterM++;
}
void createOption(int menuIndex, String content, bool destinationTypeMenu, int destinationIndex){
this->menu[menuIndex].createOption(content, destinationTypeMenu, destinationIndex);
}
void createVGraph(String title, double xpos, double ypos, double width, double height,
double yminimum, double ymaximum, double yStepSize, double digit){
this->graph[counterG].configure(title, 'a', xpos, ypos, width, height, yminimum, ymaximum, 0, 0, yStepSize, 0, digit);
this->counterG++;
}
void createHGraph(String title, double xpos, double ypos, double width, double height,
double xminimum, double xmaximum, double xStepSize, double digit){
this->graph[counterG].configure(title, 'b', xpos, ypos, width, height, 0, 0, xminimum, xmaximum, 0, xStepSize, digit);
counterG++;
}
void createCGraph(String title, double xpos, double ypos, double width, double height,
double yminimum, double ymaximum, double xminimum, double xmaximum, double yStepSize, double xStepSize, double digit){
this->graph[counterG].configure(title, 'c', xpos, ypos, width, height, yminimum, ymaximum, xminimum, xmaximum, yStepSize, xStepSize, digit);
counterG++;
}
/*
void redrawFlag(){
this->redraw = true;
}
*/
void graphAssignValue(int graphIndex, double value){
this->graph[graphIndex].assignValue(value);
this->redraw = true;
}
void control(){
if (redraw){
if (contentType == 0){
menu[currentScreen].drawMenu();
}
else if (contentType == 1){
graph[currentScreen].drawGraph();
}
this->redraw = false;
}
}
void increasePos(){
if(this->menu[this->currentScreen].extractPos() < this->menu[this->currentScreen].extractOptNumber() - 1)
this->menu[this->currentScreen].increasePos();
}
void decreasePos(){
if(this->menu[this->currentScreen].extractPos() > 0)
this->menu[this->currentScreen].decreasePos();
}
void goTo(){
if(this->contentType == 0){
int newScreen = this->menu[this->currentScreen].extractDestinationIndex();
int newContentType = this->menu[this->currentScreen].extractDestinationType();
if (newContentType == 0){
this->menu[newScreen].setPreviousScreen(this->currentScreen);
this->menu[newScreen].setPreviousContentType(this->contentType);
}
else if(newContentType == 1){
this->graph[newScreen].setPreviousScreen(this->currentScreen);
this->graph[newScreen].setPreviousContentType(this->contentType);
this->graph[newScreen].reset();
this->graph[newScreen].redrawFlag();
}
else if(newContentType == 2){
}
this->contentType = newContentType;
this->currentScreen = newScreen;
this->redraw = true;
}
}
void goBack(){
if(contentType == 0){
//Gets indexes from previous screen saved in actual screen if it is a menu, and sets them as the current indexes
this->currentScreen = this->menu[this->currentScreen].getPreviousScreen();
this->contentType = this->menu[this->currentScreen].getPreviousContentType();
}
else if(contentType == 1){
//Gets indexes from previous screen saved in actual screen if it is a graph, and sets them as the current indexes
this->currentScreen = this->graph[this->currentScreen].getPreviousScreen();
this->contentType = this->graph[this->currentScreen].getPreviousContentType();
}
}
void plusAction(){
if(contentType == 0){
increasePos();
}
}
void minusAction(){
if(contentType == 0){
decreasePos();
}
}
};
class Keyboard{
private:
byte goTo;
byte goBack;
byte plus;
byte minus;
byte debounceTime;
Screen * screen;
public:
Keyboard(byte goTo, byte goBack, byte plus, byte minus, byte debounceTime, Screen * screen){
this->goTo = goTo;
this->goBack = goBack;
this->plus = plus;
this->minus = minus;
this->debounceTime = debounceTime;
this->screen = screen;
pinMode(goTo, INPUT_PULLUP);
pinMode(goBack, INPUT_PULLUP);
pinMode(plus, INPUT_PULLUP);
pinMode(minus, INPUT_PULLUP);
}
void checkGoTo(){
static char cont;
if(digitalRead(this->goTo) == LOW)
cont++;
else
cont = 0;
if(cont == debounceTime/REFRESH){
cont = 0;
this->screen->goTo();
while(digitalRead(this->goTo) == LOW){
}
}
}
void checkGoBack(){
static char cont;
if(digitalRead(this->goBack) == LOW){
cont++;
Serial.println("Ayudaaaaa");
}
else
cont = 0;
if(cont == debounceTime/REFRESH){
cont = 0;
this->screen->goBack();
Serial.println("Ayudaaaaant");
while(digitalRead(this->goBack) == LOW){
}
}
}
void checkPlus(){
static char cont;
if(digitalRead(this->plus) == LOW)
cont++;
else
cont = 0;
if(cont == debounceTime/REFRESH){
cont = 0;
this->screen->plusAction();
while(digitalRead(this->plus) == LOW){
}
}
}
void checkMinus(){
static char cont;
if(digitalRead(this->minus) == LOW)
cont++;
else
cont = 0;
if(cont == debounceTime/REFRESH){
cont = 0;
this->screen->minusAction();
while(digitalRead(this->minus) == LOW){
}
}
}
void control(){
this->checkGoTo();
this->checkGoBack();
this->checkPlus();
this->checkMinus();
}
};
Screen screen, * disp = &screen;
Keyboard keyboard(14, 4, 12, 13, 40, disp);
void setup(){
screen.configure(true);
Serial.println("Screen created");
screen.createMenu(128, 13); //Menu 0
screen.createMenu(128, 13); //Menu 1
/*String title, char graphType, double xpos, double ypos, double width, double height,
double yminimum, double ymaximum, double xminimum, double xmaximum, double yStepSize, double xStepSize, double digit*/
screen.createVGraph("Grafica 1", 25, 60, 40, 40, 0, 100, 10, 0); //Graph 0
screen.createHGraph("Grafica 2", 10, 40, 100, 20, 0, 100, 10, 0); //Graph 1
screen.createCGraph("Grafica 3", 30, 50, 75, 30, 0, 100, 0, 100, 25, 25, 0); //Graph 2
screen.createOption(0, "Vertical graph", 1, 0);
//Creates the first option in Menu 0, directing to a graph (contentType = 1 (Graph)), 0 (Graph 0)
screen.createOption(0, "Horizontal graph", 1, 1);
screen.createOption(0, "Cartesian graph", 1, 2);
screen.createOption(0, "Extra option", 0, 1);
screen.createOption(1, "Test", 1, 3);
screen.createOption(1, "Working?", 1, 4);
screen.increasePos();
screen.increasePos();
screen.goTo();
// screen.graphAssignValue(2, 50);
screen.goBack();
screen.increasePos();
screen.goTo();
// screen.goBack();
// screen.decreasePos();
}
void loop(){
screen.control(); //Controls the screen and redraws if needed
keyboard.control();
if(i <= 100){
screen.graphAssignValue(1, i); //Assigning a demo value to Graph 1
screen.graphAssignValue(2, i); //Assigning a demo value to Graph 2
i++;
}
else
i = 0;
delay(REFRESH); //Refresh time (approx)
}