class Graph{ //ContentType (1) 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 int digit; //For: Vertical Bar Horizontal Bar Cartesian int * maximum; //For: 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: //This method configures the graph created, defines its parameters according the type of graph selected. 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, int digit, void *maximum){ 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; this->maximum = (int *) maximum; 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; break; } } void drawGraph(){ double level, data, i; switch(graphType){ case 'a': double my; if (this->redraw) { //Prints the labels 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; this->xrange = *this->maximum - xminimum; 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 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->maximum; 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(){ // Activates the redraw bool to get the graph printed correctly this->redraw = true; this->count = xminimum; } 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; } };