168 lines
5.6 KiB
C++
168 lines
5.6 KiB
C++
#include <Arduino.h>
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#include "colors.h"
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#include "settings.h"
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#include "ubitx.h"
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#include "nano_gui.h"
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#include "touch.h"
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#include <SPI.h>
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#include <avr/pgmspace.h>
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/*****************
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* Begin TFT functions
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*****************/
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#define ILI9341_CS_PIN TFT_CS
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#define ILI9341_DC_PIN TFT_DC
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#include "PDQ_MinLib/PDQ_ILI9341.h"
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PDQ_ILI9341 tft;
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#include "nano_font.h"
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void displayInit(void){
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//Pulling this low 6 times should exit deep sleep mode
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pinMode(TFT_CS,OUTPUT);
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for(uint8_t i = 0; i < 6; ++i){
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digitalWrite(TFT_CS,HIGH);
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digitalWrite(TFT_CS,LOW);
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}
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digitalWrite(TFT_CS,HIGH);//Disable writing for now
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tft.begin();
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tft.setFont(ubitx_font);
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tft.setTextWrap(true);
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tft.setTextColor(DISPLAY_GREEN,DISPLAY_BLACK);
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tft.setTextSize(1);
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tft.setRotation(1);
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}
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void displayPixel(unsigned int x, unsigned int y, unsigned int c){
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tft.drawPixel(x,y,c);
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}
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void displayHline(unsigned int x, unsigned int y, unsigned int w, unsigned int c){
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tft.drawFastHLine(x,y,w,c);
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}
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void displayVline(unsigned int x, unsigned int y, unsigned int l, unsigned int c){
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tft.drawFastVLine(x,y,l,c);
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}
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void displayClear(unsigned int color){
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tft.fillRect(0,0,320,240,color);
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}
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void displayRect(unsigned int x,unsigned int y,unsigned int w,unsigned int h,unsigned int c){
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tft.drawRect(x,y,w,h,c);
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}
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void displayFillrect(unsigned int x,unsigned int y,unsigned int w,unsigned int h,unsigned int c){
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tft.fillRect(x,y,w,h,c);
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}
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void displayChar(int16_t x, int16_t y, unsigned char c, uint16_t color, uint16_t bg) {
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tft.drawCharGFX(x,y,c,color,bg,1);
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}
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void displayRawText(const char *text, int x1, int y1, int w, int color, int background){
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tft.setTextColor(color,background);
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tft.setCursor(x1,y1);
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tft.setBound(x1,x1+w);
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tft.print(text);
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}
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void displayText(const char *const text, int x1, int y1, int w, int h, int color, int background, int border, TextJustification_e justification)
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{
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displayFillrect(x1, y1, w ,h, background);
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displayRect(x1, y1, w ,h, border);
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int16_t x1_out;
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int16_t y1_out;
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uint16_t width_out;
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uint16_t height_out;
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tft.getTextBounds(text,x1,y1,&x1_out,&y1_out,&width_out,&height_out,w);
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if(TextJustification_e::Center == justification){
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x1 += (w - ( (int32_t)width_out + (x1_out-x1)))/2;
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}
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else if(TextJustification_e::Right == justification){
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x1 += w - ((int32_t)width_out + (x1_out-x1));
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}
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else{
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x1 += 2;//Give a little bit of padding from the border
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}
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y1 += (ubitx_font->yAdvance + h - ( (int32_t)height_out))/2;
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displayRawText(text,x1,y1,w,color,background);
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}
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void drawCross(int16_t x_center,int16_t y_center,uint16_t color)
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{
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constexpr uint8_t HALF_SIZE = 10;
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displayHline(x_center-HALF_SIZE,y_center,2*HALF_SIZE,color);
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displayVline(x_center,y_center-HALF_SIZE,2*HALF_SIZE,color);
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}
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void setupTouch(){
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constexpr int16_t CROSS_CORNER_OFFSET = 20;
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constexpr Point CROSS_CORNER_POINTS [] = {
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{CROSS_CORNER_OFFSET,CROSS_CORNER_OFFSET},//Top left
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{PDQ_ILI9341::ILI9341_TFTHEIGHT-CROSS_CORNER_OFFSET,CROSS_CORNER_OFFSET},//Top right
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{CROSS_CORNER_OFFSET, PDQ_ILI9341::ILI9341_TFTWIDTH-CROSS_CORNER_OFFSET},//Bottom left
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{PDQ_ILI9341::ILI9341_TFTHEIGHT-CROSS_CORNER_OFFSET,PDQ_ILI9341::ILI9341_TFTWIDTH-CROSS_CORNER_OFFSET}//Bottom right
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};
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displayClear(DISPLAY_BLACK);
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strncpy_P(b,(const char*)F("Click on the cross"),sizeof(b));
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displayText(b, 20,100, 200, 50, DISPLAY_WHITE, DISPLAY_BLACK, DISPLAY_BLACK);
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Point cal_points[sizeof(CROSS_CORNER_POINTS)/sizeof(CROSS_CORNER_POINTS[0])];
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for(uint8_t i = 0; i < sizeof(CROSS_CORNER_POINTS)/sizeof(CROSS_CORNER_POINTS[0]); ++i){
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drawCross(CROSS_CORNER_POINTS[i].x,CROSS_CORNER_POINTS[i].y,DISPLAY_WHITE);
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while(!readTouch(&cal_points[i])){
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delay(100);
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}
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while(readTouch(&cal_points[i])){
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delay(100);
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}
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drawCross(CROSS_CORNER_POINTS[i].x,CROSS_CORNER_POINTS[i].y,DISPLAY_BLACK);
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delay(1000);//Ensure that nobody is pressing the screen before we do the next point
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}
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//We can get nicer scaling if we allow more resolution on the divisor
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constexpr int32_t SCALE_SENSITIVITY_MULTIPLIER = 10;
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const int16_t diff_x_top = cal_points[1].x - cal_points[0].x;
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const int16_t diff_x_bottom = cal_points[3].x - cal_points[2].x;
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constexpr int32_t diff_x_target = CROSS_CORNER_POINTS[1].x - CROSS_CORNER_POINTS[0].x;
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//Average the measured differences
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globalSettings.touchSlopeX = SCALE_SENSITIVITY_MULTIPLIER*(diff_x_top + diff_x_bottom) / (2*diff_x_target);
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const int16_t diff_y_left = cal_points[2].y - cal_points[0].y;
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const int16_t diff_y_right = cal_points[3].y - cal_points[1].y;
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constexpr int32_t diff_y_target = CROSS_CORNER_POINTS[2].y - CROSS_CORNER_POINTS[0].y;
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//Average the measured differences
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globalSettings.touchSlopeY = SCALE_SENSITIVITY_MULTIPLIER*(diff_y_left + diff_y_right) / (2*diff_y_target);
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globalSettings.touchOffsetX = cal_points[0].x - ((CROSS_CORNER_OFFSET * globalSettings.touchSlopeX)/SCALE_SENSITIVITY_MULTIPLIER);
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globalSettings.touchOffsetY = cal_points[0].y - ((CROSS_CORNER_OFFSET * globalSettings.touchSlopeY)/SCALE_SENSITIVITY_MULTIPLIER);
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/*
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Serial.print(x1);Serial.print(':');Serial.println(y1);
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Serial.print(x2);Serial.print(':');Serial.println(y2);
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Serial.print(x3);Serial.print(':');Serial.println(y3);
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Serial.print(x4);Serial.print(':');Serial.println(y4);
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//for debugging
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Serial.print(globalSettings.touchSlopeX); Serial.print(' ');
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Serial.print(globalSettings.touchSlopeY); Serial.print(' ');
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Serial.print(globalSettings.touchOffsetX); Serial.print(' ');
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Serial.println(globalSettings.touchOffsetY); Serial.println(' ');
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*/
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SaveSettingsToEeprom();
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displayClear(DISPLAY_BLACK);
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}
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