acidportal- 😈 Worlds smallest Evil Portal on a LilyGo T-QT |
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TFT_ArcFill.ino (4351B)
1 // Demo using arcFill to draw ellipses and a segmented elipse 2 #include <TFT_eSPI.h> // Hardware-specific library 3 #include <SPI.h> 4 5 TFT_eSPI tft = TFT_eSPI(); // Invoke custom library 6 7 #define DEG2RAD 0.0174532925 8 9 #define LOOP_DELAY 10 // Loop delay to slow things down 10 11 byte inc = 0; 12 unsigned int col = 0; 13 14 byte red = 31; // Red is the top 5 bits of a 16 bit colour value 15 byte green = 0;// Green is the middle 6 bits 16 byte blue = 0; // Blue is the bottom 5 bits 17 byte state = 0; 18 19 void setup(void) { 20 tft.begin(); 21 22 tft.setRotation(1); 23 24 tft.fillScreen(TFT_BLACK); 25 26 } 27 28 29 void loop() { 30 31 // Continuous elliptical arc drawing 32 fillArc(160, 120, inc * 6, 1, 140, 100, 10, rainbow(col)); 33 34 // Continuous segmented (inc*2) elliptical arc drawing 35 fillArc(160, 120, ((inc * 2) % 60) * 6, 1, 120, 80, 30, rainbow(col)); 36 37 // Circle drawing using arc with arc width = radius 38 fillArc(160, 120, inc * 6, 1, 42, 42, 42, rainbow(col)); 39 40 inc++; 41 col += 1; 42 if (col > 191) col = 0; 43 if (inc > 59) inc = 0; 44 45 delay(LOOP_DELAY); 46 } 47 48 49 // ######################################################################### 50 // Draw a circular or elliptical arc with a defined thickness 51 // ######################################################################### 52 53 // x,y == coords of centre of arc 54 // start_angle = 0 - 359 55 // seg_count = number of 6 degree segments to draw (60 => 360 degree arc) 56 // rx = x axis outer radius 57 // ry = y axis outer radius 58 // w = width (thickness) of arc in pixels 59 // colour = 16 bit colour value 60 // Note if rx and ry are the same then an arc of a circle is drawn 61 62 void fillArc(int x, int y, int start_angle, int seg_count, int rx, int ry, int w, unsigned int colour) 63 { 64 65 byte seg = 6; // Segments are 3 degrees wide = 120 segments for 360 degrees 66 byte inc = 6; // Draw segments every 3 degrees, increase to 6 for segmented ring 67 68 // Calculate first pair of coordinates for segment start 69 float sx = cos((start_angle - 90) * DEG2RAD); 70 float sy = sin((start_angle - 90) * DEG2RAD); 71 uint16_t x0 = sx * (rx - w) + x; 72 uint16_t y0 = sy * (ry - w) + y; 73 uint16_t x1 = sx * rx + x; 74 uint16_t y1 = sy * ry + y; 75 76 // Draw colour blocks every inc degrees 77 for (int i = start_angle; i < start_angle + seg * seg_count; i += inc) { 78 79 // Calculate pair of coordinates for segment end 80 float sx2 = cos((i + seg - 90) * DEG2RAD); 81 float sy2 = sin((i + seg - 90) * DEG2RAD); 82 int x2 = sx2 * (rx - w) + x; 83 int y2 = sy2 * (ry - w) + y; 84 int x3 = sx2 * rx + x; 85 int y3 = sy2 * ry + y; 86 87 tft.fillTriangle(x0, y0, x1, y1, x2, y2, colour); 88 tft.fillTriangle(x1, y1, x2, y2, x3, y3, colour); 89 90 // Copy segment end to sgement start for next segment 91 x0 = x2; 92 y0 = y2; 93 x1 = x3; 94 y1 = y3; 95 } 96 } 97 98 // ######################################################################### 99 // Return the 16 bit colour with brightness 0-100% 100 // ######################################################################### 101 unsigned int brightness(unsigned int colour, int brightness) 102 { 103 byte red = colour >> 11; 104 byte green = (colour & 0x7E0) >> 5; 105 byte blue = colour & 0x1F; 106 107 blue = (blue * brightness) / 100; 108 green = (green * brightness) / 100; 109 red = (red * brightness) / 100; 110 111 return (red << 11) + (green << 5) + blue; 112 } 113 114 // ######################################################################### 115 // Return a 16 bit rainbow colour 116 // ######################################################################### 117 unsigned int rainbow(byte value) 118 { 119 // Value is expected to be in range 0-127 120 // The value is converted to a spectrum colour from 0 = blue through to 127 = red 121 122 switch (state) { 123 case 0: 124 green ++; 125 if (green == 64) { 126 green = 63; 127 state = 1; 128 } 129 break; 130 case 1: 131 red--; 132 if (red == 255) { 133 red = 0; 134 state = 2; 135 } 136 break; 137 case 2: 138 blue ++; 139 if (blue == 32) { 140 blue = 31; 141 state = 3; 142 } 143 break; 144 case 3: 145 green --; 146 if (green == 255) { 147 green = 0; 148 state = 4; 149 } 150 break; 151 case 4: 152 red ++; 153 if (red == 32) { 154 red = 31; 155 state = 5; 156 } 157 break; 158 case 5: 159 blue --; 160 if (blue == 255) { 161 blue = 0; 162 state = 0; 163 } 164 break; 165 } 166 return red << 11 | green << 5 | blue; 167 } 168