d64a1d95da
- added plaformio libraries - improvements and fix errors. Please enter the commit message for your changes. Lines starting
298 lines
9.4 KiB
C++
298 lines
9.4 KiB
C++
/*
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Example animated analogue meters using a ILI9341 TFT LCD screen
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Needs Font 2 (also Font 4 if using large scale label)
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Make sure all the display driver and pin connections are correct by
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editing the User_Setup.h file in the TFT_eSPI library folder.
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#########################################################################
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###### DON'T FORGET TO UPDATE THE User_Setup.h FILE IN THE LIBRARY ######
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#########################################################################
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*/
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#include <TFT_eSPI.h> // Hardware-specific library
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#include <SPI.h>
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TFT_eSPI tft = TFT_eSPI(); // Invoke custom library
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#define TFT_GREY 0x5AEB
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#define LOOP_PERIOD 35 // Display updates every 35 ms
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float ltx = 0; // Saved x coord of bottom of needle
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uint16_t osx = 120, osy = 120; // Saved x & y coords
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uint32_t updateTime = 0; // time for next update
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int old_analog = -999; // Value last displayed
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int old_digital = -999; // Value last displayed
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int value[6] = {0, 0, 0, 0, 0, 0};
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int old_value[6] = { -1, -1, -1, -1, -1, -1};
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int d = 0;
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void setup(void) {
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tft.init();
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tft.setRotation(0);
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Serial.begin(57600); // For debug
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tft.fillScreen(TFT_BLACK);
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analogMeter(); // Draw analogue meter
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// Draw 6 linear meters
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byte d = 40;
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plotLinear("A0", 0, 160);
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plotLinear("A1", 1 * d, 160);
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plotLinear("A2", 2 * d, 160);
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plotLinear("A3", 3 * d, 160);
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plotLinear("A4", 4 * d, 160);
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plotLinear("A5", 5 * d, 160);
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updateTime = millis(); // Next update time
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}
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void loop() {
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if (updateTime <= millis()) {
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updateTime = millis() + LOOP_PERIOD;
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d += 4; if (d >= 360) d = 0;
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//value[0] = map(analogRead(A0), 0, 1023, 0, 100); // Test with value form Analogue 0
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// Create a Sine wave for testing
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value[0] = 50 + 50 * sin((d + 0) * 0.0174532925);
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value[1] = 50 + 50 * sin((d + 60) * 0.0174532925);
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value[2] = 50 + 50 * sin((d + 120) * 0.0174532925);
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value[3] = 50 + 50 * sin((d + 180) * 0.0174532925);
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value[4] = 50 + 50 * sin((d + 240) * 0.0174532925);
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value[5] = 50 + 50 * sin((d + 300) * 0.0174532925);
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//unsigned long t = millis();
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plotPointer();
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plotNeedle(value[0], 0);
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//Serial.println(millis()-t); // Print time taken for meter update
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}
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}
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// #########################################################################
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// Draw the analogue meter on the screen
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// #########################################################################
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void analogMeter()
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{
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// Meter outline
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tft.fillRect(0, 0, 239, 126, TFT_GREY);
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tft.fillRect(5, 3, 230, 119, TFT_WHITE);
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tft.setTextColor(TFT_BLACK); // Text colour
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// Draw ticks every 5 degrees from -50 to +50 degrees (100 deg. FSD swing)
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for (int i = -50; i < 51; i += 5) {
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// Long scale tick length
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int tl = 15;
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// Coodinates of tick to draw
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float sx = cos((i - 90) * 0.0174532925);
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float sy = sin((i - 90) * 0.0174532925);
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uint16_t x0 = sx * (100 + tl) + 120;
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uint16_t y0 = sy * (100 + tl) + 140;
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uint16_t x1 = sx * 100 + 120;
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uint16_t y1 = sy * 100 + 140;
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// Coordinates of next tick for zone fill
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float sx2 = cos((i + 5 - 90) * 0.0174532925);
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float sy2 = sin((i + 5 - 90) * 0.0174532925);
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int x2 = sx2 * (100 + tl) + 120;
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int y2 = sy2 * (100 + tl) + 140;
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int x3 = sx2 * 100 + 120;
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int y3 = sy2 * 100 + 140;
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// Yellow zone limits
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//if (i >= -50 && i < 0) {
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// tft.fillTriangle(x0, y0, x1, y1, x2, y2, TFT_YELLOW);
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// tft.fillTriangle(x1, y1, x2, y2, x3, y3, TFT_YELLOW);
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//}
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// Green zone limits
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if (i >= 0 && i < 25) {
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tft.fillTriangle(x0, y0, x1, y1, x2, y2, TFT_GREEN);
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tft.fillTriangle(x1, y1, x2, y2, x3, y3, TFT_GREEN);
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}
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// Orange zone limits
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if (i >= 25 && i < 50) {
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tft.fillTriangle(x0, y0, x1, y1, x2, y2, TFT_ORANGE);
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tft.fillTriangle(x1, y1, x2, y2, x3, y3, TFT_ORANGE);
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}
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// Short scale tick length
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if (i % 25 != 0) tl = 8;
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// Recalculate coords incase tick lenght changed
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x0 = sx * (100 + tl) + 120;
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y0 = sy * (100 + tl) + 140;
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x1 = sx * 100 + 120;
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y1 = sy * 100 + 140;
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// Draw tick
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tft.drawLine(x0, y0, x1, y1, TFT_BLACK);
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// Check if labels should be drawn, with position tweaks
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if (i % 25 == 0) {
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// Calculate label positions
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x0 = sx * (100 + tl + 10) + 120;
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y0 = sy * (100 + tl + 10) + 140;
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switch (i / 25) {
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case -2: tft.drawCentreString("0", x0, y0 - 12, 2); break;
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case -1: tft.drawCentreString("25", x0, y0 - 9, 2); break;
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case 0: tft.drawCentreString("50", x0, y0 - 6, 2); break;
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case 1: tft.drawCentreString("75", x0, y0 - 9, 2); break;
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case 2: tft.drawCentreString("100", x0, y0 - 12, 2); break;
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}
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}
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// Now draw the arc of the scale
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sx = cos((i + 5 - 90) * 0.0174532925);
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sy = sin((i + 5 - 90) * 0.0174532925);
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x0 = sx * 100 + 120;
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y0 = sy * 100 + 140;
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// Draw scale arc, don't draw the last part
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if (i < 50) tft.drawLine(x0, y0, x1, y1, TFT_BLACK);
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}
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tft.drawString("%RH", 5 + 230 - 40, 119 - 20, 2); // Units at bottom right
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tft.drawCentreString("%RH", 120, 70, 4); // Comment out to avoid font 4
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tft.drawRect(5, 3, 230, 119, TFT_BLACK); // Draw bezel line
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plotNeedle(0, 0); // Put meter needle at 0
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}
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// #########################################################################
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// Update needle position
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// This function is blocking while needle moves, time depends on ms_delay
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// 10ms minimises needle flicker if text is drawn within needle sweep area
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// Smaller values OK if text not in sweep area, zero for instant movement but
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// does not look realistic... (note: 100 increments for full scale deflection)
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// #########################################################################
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void plotNeedle(int value, byte ms_delay)
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{
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tft.setTextColor(TFT_BLACK, TFT_WHITE);
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char buf[8]; dtostrf(value, 4, 0, buf);
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tft.drawRightString(buf, 40, 119 - 20, 2);
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if (value < -10) value = -10; // Limit value to emulate needle end stops
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if (value > 110) value = 110;
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// Move the needle util new value reached
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while (!(value == old_analog)) {
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if (old_analog < value) old_analog++;
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else old_analog--;
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if (ms_delay == 0) old_analog = value; // Update immediately id delay is 0
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float sdeg = map(old_analog, -10, 110, -150, -30); // Map value to angle
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// Calcualte tip of needle coords
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float sx = cos(sdeg * 0.0174532925);
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float sy = sin(sdeg * 0.0174532925);
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// Calculate x delta of needle start (does not start at pivot point)
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float tx = tan((sdeg + 90) * 0.0174532925);
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// Erase old needle image
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tft.drawLine(120 + 20 * ltx - 1, 140 - 20, osx - 1, osy, TFT_WHITE);
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tft.drawLine(120 + 20 * ltx, 140 - 20, osx, osy, TFT_WHITE);
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tft.drawLine(120 + 20 * ltx + 1, 140 - 20, osx + 1, osy, TFT_WHITE);
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// Re-plot text under needle
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tft.setTextColor(TFT_BLACK);
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tft.drawCentreString("%RH", 120, 70, 4); // // Comment out to avoid font 4
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// Store new needle end coords for next erase
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ltx = tx;
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osx = sx * 98 + 120;
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osy = sy * 98 + 140;
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// Draw the needle in the new postion, magenta makes needle a bit bolder
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// draws 3 lines to thicken needle
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tft.drawLine(120 + 20 * ltx - 1, 140 - 20, osx - 1, osy, TFT_RED);
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tft.drawLine(120 + 20 * ltx, 140 - 20, osx, osy, TFT_MAGENTA);
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tft.drawLine(120 + 20 * ltx + 1, 140 - 20, osx + 1, osy, TFT_RED);
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// Slow needle down slightly as it approaches new postion
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if (abs(old_analog - value) < 10) ms_delay += ms_delay / 5;
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// Wait before next update
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delay(ms_delay);
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}
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}
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// #########################################################################
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// Draw a linear meter on the screen
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// #########################################################################
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void plotLinear(char *label, int x, int y)
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{
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int w = 36;
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tft.drawRect(x, y, w, 155, TFT_GREY);
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tft.fillRect(x + 2, y + 19, w - 3, 155 - 38, TFT_WHITE);
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tft.setTextColor(TFT_CYAN, TFT_BLACK);
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tft.drawCentreString(label, x + w / 2, y + 2, 2);
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for (int i = 0; i < 110; i += 10)
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{
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tft.drawFastHLine(x + 20, y + 27 + i, 6, TFT_BLACK);
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}
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for (int i = 0; i < 110; i += 50)
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{
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tft.drawFastHLine(x + 20, y + 27 + i, 9, TFT_BLACK);
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}
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tft.fillTriangle(x + 3, y + 127, x + 3 + 16, y + 127, x + 3, y + 127 - 5, TFT_RED);
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tft.fillTriangle(x + 3, y + 127, x + 3 + 16, y + 127, x + 3, y + 127 + 5, TFT_RED);
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tft.drawCentreString("---", x + w / 2, y + 155 - 18, 2);
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}
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// #########################################################################
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// Adjust 6 linear meter pointer positions
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// #########################################################################
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void plotPointer(void)
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{
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int dy = 187;
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byte pw = 16;
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tft.setTextColor(TFT_GREEN, TFT_BLACK);
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// Move the 6 pointers one pixel towards new value
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for (int i = 0; i < 6; i++)
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{
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char buf[8]; dtostrf(value[i], 4, 0, buf);
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tft.drawRightString(buf, i * 40 + 36 - 5, 187 - 27 + 155 - 18, 2);
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int dx = 3 + 40 * i;
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if (value[i] < 0) value[i] = 0; // Limit value to emulate needle end stops
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if (value[i] > 100) value[i] = 100;
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while (!(value[i] == old_value[i])) {
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dy = 187 + 100 - old_value[i];
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if (old_value[i] > value[i])
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{
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tft.drawLine(dx, dy - 5, dx + pw, dy, TFT_WHITE);
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old_value[i]--;
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tft.drawLine(dx, dy + 6, dx + pw, dy + 1, TFT_RED);
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}
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else
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{
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tft.drawLine(dx, dy + 5, dx + pw, dy, TFT_WHITE);
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old_value[i]++;
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tft.drawLine(dx, dy - 6, dx + pw, dy - 1, TFT_RED);
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}
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}
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}
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}
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