acid-drop/lib/TFT_eSPI/examples/DMA test/boing_ball/boing_ball.ino

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2024-05-23 22:42:03 +00:00
// 'Boing' ball demo
// STM32F767 55MHz SPI 170 fps without DMA
// STM32F767 55MHz SPI 227 fps with DMA
// STM32F446 55MHz SPI 110 fps without DMA
// STM32F446 55MHz SPI 187 fps with DMA
// STM32F401 55MHz SPI 56 fps without DMA
// STM32F401 55MHz SPI 120 fps with DMA
// STM32F767 27MHz SPI 99 fps without DMA
// STM32F767 27MHz SPI 120 fps with DMA
// STM32F446 27MHz SPI 73 fps without DMA
// STM32F446 27MHz SPI 97 fps with DMA
// STM32F401 27MHz SPI 51 fps without DMA
// STM32F401 27MHz SPI 90 fps with DMA
// Blue Pill - 36MHz SPI *no* DMA 36 fps
// Blue Pill - 36MHz SPI with DMA 67 fps
// Blue Pill overclocked to 128MHz *no* DMA - 32MHz SPI 64 fps
// Blue Pill overclocked to 128MHz with DMA - 32MHz SPI 116 fps
// ESP32 - 8 bit parallel 110 fps (no DMA)
// ESP32 - 40MHz SPI *no* DMA 93 fps
// ESP32 - 40MHz SPI with DMA 112 fps
#define SCREENWIDTH 320
#define SCREENHEIGHT 240
#include "graphic.h"
#include <TFT_eSPI.h> // Hardware-specific library
TFT_eSPI tft = TFT_eSPI(); // Invoke custom library
#define BGCOLOR 0xAD75
#define GRIDCOLOR 0xA815
#define BGSHADOW 0x5285
#define GRIDSHADOW 0x600C
#define RED 0xF800
#define WHITE 0xFFFF
#define YBOTTOM 123 // Ball Y coordinate at bottom
#define YBOUNCE -3.5 // Upward velocity on ball bounce
// Ball coordinates are stored floating-point because screen refresh
// is so quick, whole-pixel movements are just too fast!
float ballx = 20.0, bally = YBOTTOM, // Current ball position
ballvx = 0.8, ballvy = YBOUNCE, // Ball velocity
ballframe = 3; // Ball animation frame #
int balloldx = ballx, balloldy = bally; // Prior ball position
// Working buffer for ball rendering...2 scan lines that alternate,
// one is rendered while the other is transferred via DMA.
uint16_t renderbuf[2][SCREENWIDTH];
uint16_t palette[16]; // Color table for ball rotation effect
uint32_t startTime, frame = 0; // For frames-per-second estimate
void setup() {
Serial.begin(115200);
// while(!Serial);
tft.begin();
tft.setRotation(3); // Landscape orientation, USB at bottom right
tft.setSwapBytes(false);
// Draw initial frame buffer contents:
//tft.setBitmapColor(GRIDCOLOR, BGCOLOR);
tft.fillScreen(BGCOLOR);
tft.initDMA();
tft.drawBitmap(0, 0, (const uint8_t *)background, SCREENWIDTH, SCREENHEIGHT, GRIDCOLOR);
startTime = millis();
}
void loop() {
balloldx = (int16_t)ballx; // Save prior position
balloldy = (int16_t)bally;
ballx += ballvx; // Update position
bally += ballvy;
ballvy += 0.06; // Update Y velocity
if((ballx <= 15) || (ballx >= SCREENWIDTH - BALLWIDTH))
ballvx *= -1; // Left/right bounce
if(bally >= YBOTTOM) { // Hit ground?
bally = YBOTTOM; // Clip and
ballvy = YBOUNCE; // bounce up
}
// Determine screen area to update. This is the bounds of the ball's
// prior and current positions, so the old ball is fully erased and new
// ball is fully drawn.
int16_t minx, miny, maxx, maxy, width, height;
// Determine bounds of prior and new positions
minx = ballx;
if(balloldx < minx) minx = balloldx;
miny = bally;
if(balloldy < miny) miny = balloldy;
maxx = ballx + BALLWIDTH - 1;
if((balloldx + BALLWIDTH - 1) > maxx) maxx = balloldx + BALLWIDTH - 1;
maxy = bally + BALLHEIGHT - 1;
if((balloldy + BALLHEIGHT - 1) > maxy) maxy = balloldy + BALLHEIGHT - 1;
width = maxx - minx + 1;
height = maxy - miny + 1;
// Ball animation frame # is incremented opposite the ball's X velocity
ballframe -= ballvx * 0.5;
if(ballframe < 0) ballframe += 14; // Constrain from 0 to 13
else if(ballframe >= 14) ballframe -= 14;
// Set 7 palette entries to white, 7 to red, based on frame number.
// This makes the ball spin
for(uint8_t i=0; i<14; i++) {
palette[i+2] = ((((int)ballframe + i) % 14) < 7) ? WHITE : RED;
// Palette entries 0 and 1 aren't used (clear and shadow, respectively)
}
// Only the changed rectangle is drawn into the 'renderbuf' array...
uint16_t c, *destPtr;
int16_t bx = minx - (int)ballx, // X relative to ball bitmap (can be negative)
by = miny - (int)bally, // Y relative to ball bitmap (can be negative)
bgx = minx, // X relative to background bitmap (>= 0)
bgy = miny, // Y relative to background bitmap (>= 0)
x, y, bx1, bgx1; // Loop counters and working vars
uint8_t p; // 'packed' value of 2 ball pixels
int8_t bufIdx = 0;
// Start SPI transaction and drop TFT_CS - avoids transaction overhead in loop
tft.startWrite();
// Set window area to pour pixels into
tft.setAddrWindow(minx, miny, width, height);
// Draw line by line loop
for(y=0; y<height; y++) { // For each row...
destPtr = &renderbuf[bufIdx][0];
bx1 = bx; // Need to keep the original bx and bgx values,
bgx1 = bgx; // so copies of them are made here (and changed in loop below)
for(x=0; x<width; x++) {
if((bx1 >= 0) && (bx1 < BALLWIDTH) && // Is current pixel row/column
(by >= 0) && (by < BALLHEIGHT)) { // inside the ball bitmap area?
// Yes, do ball compositing math...
p = ball[by][bx1 / 2]; // Get packed value (2 pixels)
c = (bx1 & 1) ? (p & 0xF) : (p >> 4); // Unpack high or low nibble
if(c == 0) { // Outside ball - just draw grid
c = background[bgy][bgx1 / 8] & (0x80 >> (bgx1 & 7)) ? GRIDCOLOR : BGCOLOR;
} else if(c > 1) { // In ball area...
c = palette[c];
} else { // In shadow area...
c = background[bgy][bgx1 / 8] & (0x80 >> (bgx1 & 7)) ? GRIDSHADOW : BGSHADOW;
}
} else { // Outside ball bitmap, just draw background bitmap...
c = background[bgy][bgx1 / 8] & (0x80 >> (bgx1 & 7)) ? GRIDCOLOR : BGCOLOR;
}
*destPtr++ = c<<8 | c>>8; // Store pixel colour
bx1++; // Increment bitmap position counters (X axis)
bgx1++;
}
tft.pushPixelsDMA(&renderbuf[bufIdx][0], width); // Push line to screen
// Push line to screen (swap bytes false for STM/ESP32)
//tft.pushPixels(&renderbuf[bufIdx][0], width);
bufIdx = 1 - bufIdx;
by++; // Increment bitmap position counters (Y axis)
bgy++;
}
//if (random(100) == 1) delay(2000);
tft.endWrite();
//delay(5);
// Show approximate frame rate
if(!(++frame & 255)) { // Every 256 frames...
uint32_t elapsed = (millis() - startTime) / 1000; // Seconds
if(elapsed) {
Serial.print(frame / elapsed);
Serial.println(" fps");
}
}
}