acid-drop/lib/TFT_eSPI/examples/Sprite/Animated_dial/Animated_dial.ino

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2024-05-23 22:42:03 +00:00
// This example draws an animated dial with a rotating needle.
// The dial is a jpeg image, the needle is created using a rotated
// Sprite. The example operates by reading blocks of pixels from the
// TFT, thus the TFT setup must support reading from the TFT CGRAM.
// The sketch operates by creating a copy of the screen block where
// the needle will be drawn, the needle is then drawn on the screen.
// When the needle moves, the original copy of the screen area is
// pushed to the screen to over-write the needle graphic. A copy
// of the screen where the new position will be drawn is then made
// before drawing the needle in the new position. This technique
// allows the needle to move over other screen graphics.
// The sketch calculates the size of the buffer memory required and
// reserves the memory for the TFT block copy.
// Created by Bodmer 17/3/20 as an example to the TFT_eSPI library:
// https://github.com/Bodmer/TFT_eSPI
#define NEEDLE_LENGTH 35 // Visible length
#define NEEDLE_WIDTH 5 // Width of needle - make it an odd number
#define NEEDLE_RADIUS 90 // Radius at tip
#define NEEDLE_COLOR1 TFT_MAROON // Needle periphery colour
#define NEEDLE_COLOR2 TFT_RED // Needle centre colour
#define DIAL_CENTRE_X 120
#define DIAL_CENTRE_Y 120
// Font attached to this sketch
#include "NotoSansBold36.h"
#define AA_FONT_LARGE NotoSansBold36
#include <TFT_eSPI.h>
TFT_eSPI tft = TFT_eSPI();
TFT_eSprite needle = TFT_eSprite(&tft); // Sprite object for needle
TFT_eSprite spr = TFT_eSprite(&tft); // Sprite for meter reading
// Jpeg image array attached to this sketch
#include "dial.h"
// Include the jpeg decoder library
#include <TJpg_Decoder.h>
uint16_t* tft_buffer;
bool buffer_loaded = false;
uint16_t spr_width = 0;
uint16_t bg_color =0;
// =======================================================================================
// This function will be called during decoding of the jpeg file
// =======================================================================================
bool tft_output(int16_t x, int16_t y, uint16_t w, uint16_t h, uint16_t* bitmap)
{
// Stop further decoding as image is running off bottom of screen
if ( y >= tft.height() ) return 0;
// This function will clip the image block rendering automatically at the TFT boundaries
tft.pushImage(x, y, w, h, bitmap);
// Return 1 to decode next block
return 1;
}
// =======================================================================================
// Setup
// =======================================================================================
void setup() {
Serial.begin(115200); // Debug only
// The byte order can be swapped (set true for TFT_eSPI)
TJpgDec.setSwapBytes(true);
// The jpeg decoder must be given the exact name of the rendering function above
TJpgDec.setCallback(tft_output);
tft.begin();
tft.setRotation(0);
tft.fillScreen(TFT_BLACK);
// Draw the dial
TJpgDec.drawJpg(0, 0, dial, sizeof(dial));
tft.drawCircle(DIAL_CENTRE_X, DIAL_CENTRE_Y, NEEDLE_RADIUS-NEEDLE_LENGTH, TFT_DARKGREY);
// Load the font and create the Sprite for reporting the value
spr.loadFont(AA_FONT_LARGE);
spr_width = spr.textWidth("777"); // 7 is widest numeral in this font
spr.createSprite(spr_width, spr.fontHeight());
bg_color = tft.readPixel(120, 120); // Get colour from dial centre
spr.fillSprite(bg_color);
spr.setTextColor(TFT_WHITE, bg_color, true);
spr.setTextDatum(MC_DATUM);
spr.setTextPadding(spr_width);
spr.drawNumber(0, spr_width/2, spr.fontHeight()/2);
spr.pushSprite(DIAL_CENTRE_X - spr_width / 2, DIAL_CENTRE_Y - spr.fontHeight() / 2);
// Plot the label text
tft.setTextColor(TFT_WHITE, bg_color);
tft.setTextDatum(MC_DATUM);
tft.drawString("(degrees)", DIAL_CENTRE_X, DIAL_CENTRE_Y + 48, 2);
// Define where the needle pivot point is on the TFT before
// creating the needle so boundary calculation is correct
tft.setPivot(DIAL_CENTRE_X, DIAL_CENTRE_Y);
// Create the needle Sprite
createNeedle();
// Reset needle position to 0
plotNeedle(0, 0);
delay(2000);
}
// =======================================================================================
// Loop
// =======================================================================================
void loop() {
uint16_t angle = random(241); // random speed in range 0 to 240
// Plot needle at random angle in range 0 to 240, speed 40ms per increment
plotNeedle(angle, 30);
// Pause at new position
delay(2500);
}
// =======================================================================================
// Create the needle Sprite
// =======================================================================================
void createNeedle(void)
{
needle.setColorDepth(16);
needle.createSprite(NEEDLE_WIDTH, NEEDLE_LENGTH); // create the needle Sprite
needle.fillSprite(TFT_BLACK); // Fill with black
// Define needle pivot point relative to top left corner of Sprite
uint16_t piv_x = NEEDLE_WIDTH / 2; // pivot x in Sprite (middle)
uint16_t piv_y = NEEDLE_RADIUS; // pivot y in Sprite
needle.setPivot(piv_x, piv_y); // Set pivot point in this Sprite
// Draw the red needle in the Sprite
needle.fillRect(0, 0, NEEDLE_WIDTH, NEEDLE_LENGTH, TFT_MAROON);
needle.fillRect(1, 1, NEEDLE_WIDTH-2, NEEDLE_LENGTH-2, TFT_RED);
// Bounding box parameters to be populated
int16_t min_x;
int16_t min_y;
int16_t max_x;
int16_t max_y;
// Work out the worst case area that must be grabbed from the TFT,
// this is at a 45 degree rotation
needle.getRotatedBounds(45, &min_x, &min_y, &max_x, &max_y);
// Calculate the size and allocate the buffer for the grabbed TFT area
tft_buffer = (uint16_t*) malloc( ((max_x - min_x) + 2) * ((max_y - min_y) + 2) * 2 );
}
// =======================================================================================
// Move the needle to a new position
// =======================================================================================
void plotNeedle(int16_t angle, uint16_t ms_delay)
{
static int16_t old_angle = -120; // Starts at -120 degrees
// Bounding box parameters
static int16_t min_x;
static int16_t min_y;
static int16_t max_x;
static int16_t max_y;
if (angle < 0) angle = 0; // Limit angle to emulate needle end stops
if (angle > 240) angle = 240;
angle -= 120; // Starts at -120 degrees
// Move the needle until new angle reached
while (angle != old_angle || !buffer_loaded) {
if (old_angle < angle) old_angle++;
else old_angle--;
// Only plot needle at even values to improve plotting performance
if ( (old_angle & 1) == 0)
{
if (buffer_loaded) {
// Paste back the original needle free image area
tft.pushRect(min_x, min_y, 1 + max_x - min_x, 1 + max_y - min_y, tft_buffer);
}
if ( needle.getRotatedBounds(old_angle, &min_x, &min_y, &max_x, &max_y) )
{
// Grab a copy of the area before needle is drawn
tft.readRect(min_x, min_y, 1 + max_x - min_x, 1 + max_y - min_y, tft_buffer);
buffer_loaded = true;
}
// Draw the needle in the new position, black in needle image is transparent
needle.pushRotated(old_angle, TFT_BLACK);
// Wait before next update
delay(ms_delay);
}
// Update the number at the centre of the dial
spr.setTextColor(TFT_WHITE, bg_color, true);
spr.drawNumber(old_angle+120, spr_width/2, spr.fontHeight()/2);
spr.pushSprite(120 - spr_width / 2, 120 - spr.fontHeight() / 2);
// Slow needle down slightly as it approaches the new position
if (abs(old_angle - angle) < 10) ms_delay += ms_delay / 5;
}
}
// =======================================================================================