├── LICENSE
├── README.md
├── README.txt
├── ST7567_FB.cpp
├── ST7567_FB.h
├── examples
├── ST7567_HWMonitorGraphs
│ └── ST7567_HWMonitorGraphs.ino
├── ST7567_libfb_AnalogClock
│ └── ST7567_libfb_AnalogClock.ino
├── ST7567_libfb_Bitmap
│ └── ST7567_libfb_Bitmap.ino
├── ST7567_libfb_Bitmap2
│ └── ST7567_libfb_Bitmap2.ino
├── ST7567_libfb_ClockTemp
│ └── ST7567_libfb_ClockTemp.ino
├── ST7567_libfb_Demo
│ └── ST7567_libfb_Demo.ino
├── ST7567_libfb_Dithering
│ └── ST7567_libfb_Dithering.ino
├── ST7567_libfb_Fade
│ └── ST7567_libfb_Fade.ino
├── ST7567_libfb_Graphics
│ └── ST7567_libfb_Graphics.ino
├── ST7567_libfb_HariChord
│ └── ST7567_libfb_HariChord.ino
├── ST7567_libfb_HelloWorld
│ └── ST7567_libfb_HelloWorld.ino
├── ST7567_libfb_PowerConsumption
│ └── ST7567_libfb_PowerConsumption.ino
└── ST7567_libfb_modes
│ └── ST7567_libfb_modes.ino
├── keywords.txt
└── library.properties
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674 | .
675 |
--------------------------------------------------------------------------------
/README.md:
--------------------------------------------------------------------------------
1 | # ST7567_FB
2 | Fast SPI graphics library for ST7567 128x64 LCD with frame buffer.
3 |
4 | Tested on Arduino IDE 1.6.5 and OPEN-SMART 2.6" display module.
5 |
6 | YouTube video:
7 |
8 | https://youtu.be/YC-wqZnCGQ4
9 |
10 | ## Features
11 |
12 | - proportional fonts support built-in (requires fonts from PropFonts library https://github.com/cbm80amiga/PropFonts)
13 | - simple primitives
14 | - pixels
15 | - lines
16 | - rectangles
17 | - filled rectangles
18 | - circles
19 | - filled circles
20 | - triangles
21 | - filled triangles
22 | - fast ordered dithering (17 patterns)
23 | - ultra fast horizontal and vertical line drawing
24 | - bitmaps drawing
25 | - example programs
26 |
27 | ## Connections:
28 |
29 | |LCD pin|LCD pin name|Arduino|
30 | |--|--|--|
31 | |#01| LED| D6, GND or any pin via resistor|
32 | |#02| RST| D9 or any pin|
33 | |#03| CS | D10 or any pin|
34 | |#04| DC | D8 or any pin|
35 | |#05| SCK| D13/SCK|
36 | |#06| SDI| D11/MOSI|
37 | |#07| 3V3| VCC (3.3V)|
38 | |#08| GND| GND|
39 |
40 | If you find it useful and want to buy me a coffee or a beer:
41 |
42 | https://www.paypal.me/cbm80amiga
43 |
44 |
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/README.txt:
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1 | This is fast SPI library for ST7567 128x64 display.
2 |
3 | Supports both hardware and software SPI
4 | Uses 128*8 bytes of RAM as frame buffer memory. Most common graphics primitives implemented with 17-level dithering
5 | Some examples require PropFonts or RREFont library
6 |
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/ST7567_FB.cpp:
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https://raw.githubusercontent.com/cbm80amiga/ST7567_FB/99d50666301fd2f378462028449947f65201130a/ST7567_FB.cpp
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/ST7567_FB.h:
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1 | // Fast ST7567 128x64 LCD graphics library (with frambuffer)
2 | // (C) 2020 by Pawel A. Hernik
3 |
4 | /*
5 | 128x64 ST7567 connections in SPI mode (only 5-6 wires between LCD and MCU):
6 |
7 | #01 LED -> D6, GND or any pin via resistor
8 | #02 RST -> D9 or any pin
9 | #03 CS -> D10 or any pin
10 | #04 DC -> D8 or any pin
11 | #05 SCK -> D13/SCK
12 | #06 SDI -> D11/MOSI
13 | #07 3V3 -> VCC (3.3V)
14 | #08 GND -> GND
15 | */
16 |
17 | #ifndef _ST7567_FB_H
18 | #define _ST7567_FB_H
19 |
20 | // ------------
21 | // remove define for software SPI
22 | #define USE_HW_SPI
23 | // ------------
24 |
25 | #include
26 | #include
27 |
28 | #define SCR_WD 128
29 | #define SCR_HT 64
30 | #define SCR_HT8 8 // SCR_HT/8
31 |
32 | #define ALIGN_LEFT 0
33 | #define ALIGN_RIGHT -1
34 | #define ALIGN_CENTER -2
35 |
36 | #define SET 1
37 | #define CLR 0
38 | #define XOR 2
39 |
40 | struct _propFont
41 | {
42 | const uint8_t* font;
43 | int8_t xSize;
44 | uint8_t ySize;
45 | uint8_t firstCh;
46 | uint8_t lastCh;
47 | uint8_t minCharWd;
48 | uint8_t minDigitWd;
49 | };
50 |
51 | // ---------------------------------
52 | class ST7567_FB {
53 | public:
54 | ST7567_FB(uint8_t dc, uint8_t rst, uint8_t cs);
55 | ST7567_FB(uint8_t dc, uint8_t rst, uint8_t cs, uint8_t sdi, uint8_t clk);
56 |
57 | inline void sendSPI(uint8_t v) __attribute__((always_inline)); // costs about 350B of flash
58 | inline void sendCmd(uint8_t cmd);
59 | inline void sendData(uint8_t data);
60 | void init(int contrast=7);
61 | void begin() { init(); }
62 | void initCmds();
63 | void display();
64 | void copy(uint8_t x, uint8_t y8, uint8_t wd, uint8_t ht8);
65 | void gotoXY(byte x, byte y);
66 | void sleep(bool mode=true);
67 | void setContrast(byte val);
68 | void setScroll(byte val);
69 | void displayInvert(bool mode);
70 | void displayOn(bool mode);
71 | void displayMode(byte val);
72 | void setRotation(int mode);
73 |
74 | void cls();
75 | void clearDisplay() { cls(); }
76 | void drawPixel(uint8_t x, uint8_t y, uint8_t col);
77 | void drawLine(int8_t x0, int8_t y0, int8_t x1, int8_t y1, uint8_t col);
78 | void drawLineH(uint8_t x0, uint8_t x1, uint8_t y, uint8_t col);
79 | void drawLineV(uint8_t x, uint8_t y0, uint8_t y1, uint8_t col);
80 | void drawLineVfast(uint8_t x, uint8_t y0, uint8_t y1, uint8_t col);
81 | void drawLineVfastD(uint8_t x, uint8_t y0, uint8_t y1, uint8_t col);
82 | void drawLineHfast(uint8_t x0, uint8_t x1, uint8_t y, uint8_t col);
83 | void drawLineHfastD(uint8_t x0, uint8_t x1, uint8_t y, uint8_t col);
84 | void drawRect(uint8_t x0, uint8_t y0, uint8_t w, uint8_t h, uint8_t col);
85 | void drawRectD(uint8_t x, uint8_t y, uint8_t w, uint8_t h, uint8_t col);
86 | void fillRect(uint8_t x0, uint8_t y0, uint8_t w, uint8_t h, uint8_t col);
87 | void fillRectD(uint8_t x0, uint8_t y0, uint8_t w, uint8_t h, uint8_t col);
88 | void drawCircle(uint8_t x0, uint8_t y0, uint8_t radius, uint8_t col);
89 | void fillCircle(uint8_t x0, uint8_t y0, uint8_t r, uint8_t col);
90 | void fillCircleD(uint8_t x0, uint8_t y0, uint8_t r, uint8_t col);
91 | void drawTriangle(int16_t x0, int16_t y0, int16_t x1, int16_t y1, int16_t x2, int16_t y2, uint16_t color);
92 | void fillTriangle(int16_t x0, int16_t y0, int16_t x1, int16_t y1, int16_t x2, int16_t y2, uint16_t color);
93 | void fillTriangleD(int16_t x0, int16_t y0, int16_t x1, int16_t y1, int16_t x2, int16_t y2, uint16_t color);
94 | void setDither(int8_t s);
95 | int drawBitmap(const uint8_t *bmp, int x, uint8_t y, uint8_t w, uint8_t h);
96 | int drawBitmap(const uint8_t *bmp, int x, uint8_t y);
97 |
98 | void setFont(const uint8_t* f);
99 | void setCR(uint8_t _cr) { cr = _cr; }
100 | void setInvert(uint8_t _inv) { invertCh = _inv; }
101 | void setFontMinWd(uint8_t wd) { cfont.minCharWd = wd; }
102 | void setCharMinWd(uint8_t wd) { cfont.minCharWd = wd; }
103 | void setDigitMinWd(uint8_t wd) { cfont.minDigitWd = wd; }
104 | int printChar(int xpos, int ypos, unsigned char c);
105 | int printStr(int xpos, int ypos, char *str);
106 | int charWidth(uint8_t _ch, bool last=true);
107 | int fontHeight();
108 | int strWidth(char *txt);
109 | unsigned char convertPolish(unsigned char _c);
110 | static bool isNumber(uint8_t ch);
111 | static bool isNumberExt(uint8_t ch);
112 | void setIsNumberFun(bool (*fun)(uint8_t)) { isNumberFun=fun; }
113 |
114 | public:
115 | static byte scr[SCR_WD*SCR_HT8];
116 | byte scrWd = SCR_WD;
117 | byte scrHt = SCR_HT8;
118 | uint8_t dcPin, csPin, rstPin;
119 | uint8_t sdiPin, clkPin;
120 | int8_t rotation;
121 |
122 | static byte ystab[8];
123 | static byte yetab[8];
124 | static byte pattern[4];
125 | static const byte ditherTab[4*17];
126 |
127 | //private:
128 | bool (*isNumberFun)(uint8_t ch);
129 | _propFont cfont;
130 | uint8_t cr; // carriage return mode for printStr
131 | uint8_t dualChar;
132 | uint8_t invertCh;
133 | uint8_t spacing = 1;
134 | };
135 | #endif
136 |
137 |
--------------------------------------------------------------------------------
/examples/ST7567_HWMonitorGraphs/ST7567_HWMonitorGraphs.ino:
--------------------------------------------------------------------------------
1 | // Arduino HWMonitor - version with 4 separate graphs
2 | // (C)2019-20 Pawel A. Hernik
3 |
4 | /*
5 | Use PC HardwareSerialMonitor from:
6 | https://cdn.hackaday.io/files/19018813666112/HardwareSerialMonitor_v1.1.zip
7 | */
8 |
9 | // comment out for regular mode
10 | //#define GRAPH_BAR
11 |
12 |
13 | /*
14 | 128x64 ST7567 connections in SPI mode (only 5-6 wires between LCD and MCU):
15 |
16 | #01 LED -> D6, GND or any pin via resistor
17 | #02 RST -> D9 or any pin
18 | #03 CS -> D10 or any pin
19 | #04 DC -> D8 or any pin
20 | #05 SCK -> D13/SCK
21 | #06 SDI -> D11/MOSI
22 | #07 3V3 -> VCC (3.3V)
23 | #08 GND -> GND
24 | */
25 |
26 | #define LCD_BACKLIGHT 6
27 | #define LCD_CS 10
28 | #define LCD_DC 8
29 | #define LCD_RST 9
30 |
31 | #include "ST7567_FB.h"
32 | #include
33 | ST7567_FB lcd(LCD_DC, LCD_RST, LCD_CS);
34 |
35 | // from PropFonts library
36 | #include "c64enh_font.h"
37 | #include "small4x6_font.h"
38 |
39 | String inputString = "";
40 | String cpuLoadString;
41 | String cpuTempString;
42 | String cpuClockString;
43 | String ramString;
44 | char buf[30];
45 | int cpuLoad;
46 | int cpuClock;
47 | int cpuTemp;
48 | int usedRam;
49 | int inp=0;
50 |
51 | void setup()
52 | {
53 | Serial.begin(9600);
54 | pinMode(LCD_BACKLIGHT, OUTPUT);
55 | digitalWrite(LCD_BACKLIGHT, LOW);
56 | inputString.reserve(200);
57 |
58 | SPI.begin();
59 | lcd.init();
60 | lcd.cls();
61 | lcd.setFont(c64enh);
62 | lcd.printStr(ALIGN_CENTER, 28, "Connecting ...");
63 | lcd.drawRect(16,20,127-16*2,63-20*2,1);
64 | lcd.display();
65 | }
66 |
67 | int readSerial()
68 | {
69 | while (Serial.available()) {
70 | char ch = (char)Serial.read();
71 | inputString += ch;
72 |
73 | /// for debug
74 | //lcd.fillRect(x,y,16,8,0); lcd.printChar(x,y,ch); lcd.display(0);
75 | //x+=8; if(x>=128) { x=0;y+=8; }
76 | //if(y>=64) y=0;
77 |
78 | if(ch == '|') { // full info chunk received
79 | int st,en;
80 | st = inputString.indexOf("CHC"); // CPU clock: "CHC1768"
81 | if(st>=0) {
82 | en = inputString.indexOf("|", st);
83 | cpuClockString = inputString.substring(st+3, en);
84 | cpuClock = cpuClockString.toInt();
85 | inp=3;
86 | } else {
87 |
88 | st = inputString.indexOf("R"); // used RAM: "R6.9"
89 | if(st>=0) {
90 | en = inputString.indexOf("|", st);
91 | ramString = inputString.substring(st+1 , en-1);
92 | st = ramString.indexOf(",");
93 | if(st>=0) ramString.setCharAt(st,'.');
94 | usedRam = ramString.toFloat()*1024;
95 | inp=2;
96 | }
97 |
98 | int cpuTempStart = inputString.indexOf("C"); // CPU temperature: "C52"
99 | int cpuLoadStart = inputString.indexOf("c"); // CPU load: "c18%"
100 | if(cpuLoadStart>=0 && cpuTempStart>=0) {
101 | en = inputString.indexOf("|");
102 | cpuTempString = inputString.substring(cpuTempStart+1, cpuLoadStart);
103 | cpuLoadString = inputString.substring(cpuLoadStart+1, en-1);
104 | cpuTemp = cpuTempString.toInt();
105 | cpuLoad = cpuLoadString.toInt();
106 | inp=1;
107 | }
108 | }
109 | inputString = "";
110 | return 1;
111 | }
112 | }
113 | return 0;
114 | }
115 |
116 | #define MAX_RAM 16738
117 | #define MIN_CLOCK 400
118 | #define MAX_CLOCK 2900
119 | #define MIN_TEMP 30
120 | #define MAX_TEMP 80
121 | #define NUM_VAL (16)
122 | int tempTab[NUM_VAL];
123 | int loadTab[NUM_VAL];
124 | int clockTab[NUM_VAL];
125 | int ramTab[NUM_VAL];
126 | int i,ght=31-7;
127 | int x=0;
128 |
129 | void addLoad()
130 | {
131 | for(i=0;iMAX_CLOCK) t=MAX_CLOCK;
141 | clockTab[NUM_VAL-1] = (long)(t-MIN_CLOCK)*ght/(MAX_CLOCK-MIN_CLOCK);
142 | }
143 |
144 | void addTemp()
145 | {
146 | for(i=0;iMAX_TEMP) t=MAX_TEMP;
150 | tempTab[NUM_VAL-1] = (long)(t-MIN_TEMP)*ght/(MAX_TEMP-MIN_TEMP);
151 | }
152 |
153 | void addRAM()
154 | {
155 | for(i=0;i1) lcd.drawLineV(1+xg+(i-1)*4,yg+ght-1-valTab[i-1],yg+ght-1-valTab[i],1);
167 | }
168 | #else
169 | for(i=0;i=3) { delay(1000); inp=0; }
200 | }
201 |
202 |
--------------------------------------------------------------------------------
/examples/ST7567_libfb_AnalogClock/ST7567_libfb_AnalogClock.ino:
--------------------------------------------------------------------------------
1 | // ST7567_FB example
2 | // Analog Clock without floating-point calculations, no slow sin, cos
3 | // (c) 2019-20 Pawel A. Hernik
4 | // YouTube video: https://youtu.be/uBId9KbtGuQ
5 |
6 |
7 | /*
8 | 128x64 ST7567 connections in SPI mode (only 5-6 wires between LCD and MCU):
9 |
10 | #01 LED -> D6, GND or any pin via resistor
11 | #02 RST -> D9 or any pin
12 | #03 CS -> D10 or any pin
13 | #04 DC -> D8 or any pin
14 | #05 SCK -> D13/SCK
15 | #06 SDI -> D11/MOSI
16 | #07 3V3 -> VCC (3.3V)
17 | #08 GND -> GND
18 | */
19 |
20 | #define LCD_BL 6
21 | #define LCD_CS 10
22 | #define LCD_DC 8
23 | #define LCD_RST 9
24 |
25 | #include "ST7567_FB.h"
26 | #include
27 | ST7567_FB lcd(LCD_DC, LCD_RST, LCD_CS);
28 |
29 | #include "small4x6_font.h"
30 |
31 | // configuration
32 |
33 | int cx = SCR_WD/2, cy = SCR_HT/2; // clock center
34 | int rline0 = 30, rline1 = 27, rdot = 30, rnum = 23; // radius for hour lines, minute dots and numbers
35 | int rhr = 15, rmin = 18, rsec = 23; // hour, minute, second hand length
36 | int hrNum = 3; // hour numbers - 0=none, 3-only 12,3,6,9, 1-all
37 | int qdots = 0; // quadrant dots
38 |
39 | /*
40 | int cx = 27;
41 | int cy = 27;
42 | int rline0 = 27, rline1 = 24, rdot = 27, rnum = 20;
43 | int rhr = 10, rmin = 14, rsec = 18;
44 | int hrNum = 3;
45 | int qdots = 0;
46 | */
47 |
48 | uint8_t txt2num(const char* p)
49 | {
50 | return 10*(*p-'0') + *(p+1)-'0';
51 | }
52 |
53 | int sx,sy,mx,my,hx,hy;
54 | int sdeg,mdeg,hdeg;
55 | int osx,osy,omx,omy,ohx,ohy;
56 | int xs,ys,xe,ye;
57 | unsigned long styleTime, ms;
58 | uint8_t hh = txt2num(__TIME__+0);
59 | uint8_t mm = txt2num(__TIME__+3);
60 | uint8_t ss = txt2num(__TIME__+6);
61 | uint8_t start = 1;
62 | int i;
63 | char buf[20];
64 |
65 | // ------------------------------------------------
66 | #define MAXSIN 255
67 | const uint8_t sinTab[91] PROGMEM = {
68 | 0,4,8,13,17,22,26,31,35,39,44,48,53,57,61,65,70,74,78,83,87,91,95,99,103,107,111,115,119,123,
69 | 127,131,135,138,142,146,149,153,156,160,163,167,170,173,177,180,183,186,189,192,195,198,200,203,206,208,211,213,216,218,
70 | 220,223,225,227,229,231,232,234,236,238,239,241,242,243,245,246,247,248,249,250,251,251,252,253,253,254,254,254,254,254,
71 | 255
72 | };
73 |
74 | int fastSin(int i)
75 | {
76 | while(i<0) i+=360;
77 | while(i>=360) i-=360;
78 | if(i<90) return(pgm_read_byte(&sinTab[i])); else
79 | if(i<180) return(pgm_read_byte(&sinTab[180-i])); else
80 | if(i<270) return(-pgm_read_byte(&sinTab[i-180])); else
81 | return(-pgm_read_byte(&sinTab[360-i]));
82 | }
83 |
84 | int fastCos(int i)
85 | {
86 | return fastSin(i+90);
87 | }
88 |
89 | // ------------------------------------------------
90 |
91 | void setup(void)
92 | {
93 | Serial.begin(9600);
94 | pinMode(LCD_BL, OUTPUT);
95 | digitalWrite(LCD_BL, LOW);
96 | lcd.init();
97 | lcd.setFont(Small4x6PL);
98 |
99 | //for(i=0; i<360; i+=4) lcd.drawPixel(i/4,34-fastSin(i)*30/MAXSIN,1);
100 | //for(i=0; i<360; i+=4) lcd.drawPixel(i/4,34-fastCos(i)*30/MAXSIN,1);
101 | //lcd.display(); delay(10000);
102 | /*
103 | for(i=0; i<360; i++) {
104 | if((i%30)==0) Serial.println();
105 | sx = sin(radians(i))*255;
106 | Serial.print((int)sx); Serial.print(",");
107 | }
108 | */
109 | clockConst();
110 | ms = styleTime = millis();
111 | }
112 |
113 | void loop()
114 | {
115 | nextClockStyle();
116 | clockUpdate();
117 | }
118 |
119 | int style=0;
120 |
121 | void nextClockStyle()
122 | {
123 | if(millis()-styleTime<10000) return;
124 | styleTime = millis();
125 | if(++style>8) style=0;
126 | switch(style) {
127 | default:
128 | case 0: // default, only 12,3,6,9, no quadrant dots
129 | cx = SCR_WD/2, cy = SCR_HT/2;
130 | rline0 = 34; rline1 = 30; rdot = 33; rnum = 25;
131 | rhr = 16; rmin = 20; rsec = 25;
132 | hrNum = 3; qdots = 0;
133 | start = 1;
134 | break;
135 | case 1: // full option
136 | hrNum = 1; qdots = 1;
137 | break;
138 | case 2:
139 | qdots = 0; hrNum = 3;
140 | break;
141 | case 3: // no hour numbers
142 | hrNum = 0;
143 | break;
144 | case 4: // no minute dots
145 | hrNum = 3; rdot = 0;
146 | break;
147 | case 5: // only hour lines
148 | hrNum = 0; rdot = 0;
149 | break;
150 | case 6: // only minute dots and numbers
151 | hrNum = 3; rdot = 33; rline0 = 0;
152 | break;
153 | case 7: // smaller, no minute dots, with numbers
154 | cx = 25, cy = 25;
155 | rline0 = 26; rline1 = 23; rdot = 0; rnum = 17;
156 | rhr = 9; rmin = 13; rsec = 18;
157 | hrNum = 3; qdots = 0;
158 | start = 1;
159 | break;
160 | case 8: // smaller, minute dots, no hour lines and numbers
161 | cx = SCR_WD-20, cy = SCR_HT-20;
162 | rline0 = 20; rline1 = 17; rdot = 20; rnum = 0;
163 | rhr = 9; rmin = 12; rsec = 16;
164 | hrNum = 0; qdots = 0;
165 | start = 1;
166 | break;
167 | }
168 | clockConst();
169 | }
170 |
171 | void clockConst()
172 | {
173 | lcd.cls();
174 | // 12 hour lines
175 | if(rline0>0)
176 | for(i=0; i<360; i+=30) {
177 | sx = fastCos(i-90);
178 | sy = fastSin(i-90);
179 | xs = cx+sx*rline0/MAXSIN;
180 | ys = cy+sy*rline0/MAXSIN;
181 | xe = cx+sx*rline1/MAXSIN;
182 | ye = cy+sy*rline1/MAXSIN;
183 | lcd.drawLine(xs, ys, xe, ye, 1);
184 | }
185 |
186 | // 60 second dots
187 | if(rdot>0)
188 | for(i=0; i<360; i+=6) {
189 | sx = fastCos(i-90);
190 | sy = fastSin(i-90);
191 | xs = cx+sx*rdot/MAXSIN;
192 | ys = cy+sy*rdot/MAXSIN;
193 | lcd.drawPixel(xs, ys, 1);
194 |
195 | // 4 quadrant dots
196 | if(qdots && i%90==0) lcd.fillCircle(xs, ys, 1, 1);
197 | }
198 | }
199 |
200 | void clockUpdate()
201 | {
202 | if(millis()-ms>=1000 || start)
203 | {
204 | ms = millis();
205 | if(++ss>59) {
206 | ss=0;
207 | if(++mm>59) {
208 | mm=0;
209 | if(++hh>23) hh=0;
210 | }
211 | }
212 |
213 | sdeg = ss*6;
214 | mdeg = mm*6+sdeg/60;
215 | hdeg = hh*30+mdeg/12;
216 | hx = fastCos(hdeg-90);
217 | hy = fastSin(hdeg-90);
218 | mx = fastCos(mdeg-90);
219 | my = fastSin(mdeg-90);
220 | sx = fastCos(sdeg-90);
221 | sy = fastSin(sdeg-90);
222 |
223 | if(ss==0 || start) {
224 | start = 0;
225 | // clear hour and minute hand positions every minute
226 | lcd.drawLine(ohx,ohy, cx,cy, 0);
227 | ohx = cx+hx*rhr/MAXSIN;
228 | ohy = cy+hy*rhr/MAXSIN;
229 | lcd.drawLine(omx,omy, cx,cy, 0);
230 | omx = cx+mx*rmin/MAXSIN;
231 | omy = cy+my*rmin/MAXSIN;
232 | }
233 |
234 | // new hand positions
235 | lcd.drawLine(osx,osy, cx,cy, 0);
236 | osx = cx+sx*rsec/MAXSIN;
237 | osy = cy+sy*rsec/MAXSIN;
238 | lcd.drawLine(ohx,ohy, cx,cy, 1);
239 | lcd.drawLine(omx,omy, cx,cy, 1);
240 | lcd.drawLine(osx,osy, cx,cy, 1);
241 | lcd.fillCircle(cx,cy, 1, 1);
242 |
243 | if(hrNum>0)
244 | for(i=0; i<12; i+=hrNum) { // +=3 for 12,3,6,9
245 | sx = fastCos(i*30-90);
246 | sy = fastSin(i*30-90);
247 | xs = cx+sx*rnum/MAXSIN;
248 | ys = cy+sy*rnum/MAXSIN;
249 | snprintf(buf,3,"%d",i==0?12:i);
250 | lcd.printStr(i==0?xs-3:xs-1,ys-3,buf);
251 | }
252 | //snprintf(buf,20,"%02d:%02d:%02d",hh,mm,ss);
253 | //lcd.fillRect(0,0,6*5+4,7,0); lcd.printStr(0,0,buf);
254 | lcd.display();
255 | }
256 | }
257 |
258 |
--------------------------------------------------------------------------------
/examples/ST7567_libfb_Bitmap/ST7567_libfb_Bitmap.ino:
--------------------------------------------------------------------------------
1 | // ST7567_FB example
2 | // (C)2020 Pawel A. Hernik
3 |
4 | /*
5 | 128x64 ST7567 connections in SPI mode (only 5-6 wires between LCD and MCU):
6 |
7 | #01 LED -> D6, GND or any pin via resistor
8 | #02 RST -> D9 or any pin
9 | #03 CS -> D10 or any pin
10 | #04 DC -> D8 or any pin
11 | #05 SCK -> D13/SCK
12 | #06 SDI -> D11/MOSI
13 | #07 3V3 -> VCC (3.3V)
14 | #08 GND -> GND
15 | */
16 |
17 | #define LCD_BACKLIGHT 6
18 | #define LCD_CS 10
19 | #define LCD_DC 8
20 | #define LCD_RST 9
21 |
22 | #include "ST7567_FB.h"
23 | #include
24 | ST7567_FB lcd(LCD_DC, LCD_RST, LCD_CS);
25 | const uint8_t icon1 [] PROGMEM = { 16,16,
26 | 0x80, 0xC0, 0xE0, 0xF0, 0xF8, 0xFC, 0xFE, 0xDE, 0xCC, 0xC0, 0xC0, 0xC0, 0xC0, 0xC0, 0xC0, 0x80,
27 | 0x01, 0x03, 0x07, 0x0F, 0x1F, 0x3F, 0x7F, 0x7B, 0x33, 0x03, 0x03, 0x03, 0x03, 0x03, 0x03, 0x01,
28 | };
29 |
30 | const uint8_t icon2 [] PROGMEM = { 16,16,
31 | 0x80, 0xC0, 0xC0, 0xC0, 0xC0, 0xC0, 0xC0, 0xCC, 0xDE, 0xFE, 0xFC, 0xF8, 0xF0, 0xE0, 0xC0, 0x80,
32 | 0x01, 0x03, 0x03, 0x03, 0x03, 0x03, 0x03, 0x33, 0x7B, 0x7F, 0x3F, 0x1F, 0x0F, 0x07, 0x03, 0x01,
33 | };
34 |
35 | const uint8_t icon3 [] PROGMEM = { 16,16,
36 | 0xFC, 0x0C, 0x14, 0x24, 0x44, 0x84, 0x04, 0x04, 0x04, 0x04, 0x84, 0x44, 0x24, 0x14, 0x0C, 0xFC,
37 | 0x3F, 0x30, 0x28, 0x24, 0x22, 0x21, 0x21, 0x22, 0x22, 0x21, 0x21, 0x22, 0x24, 0x28, 0x30, 0x3F,
38 | };
39 | void setup()
40 | {
41 | Serial.begin(9600);
42 | pinMode(LCD_BACKLIGHT, OUTPUT);
43 | //analogWrite(LCD_BACKLIGHT,30);
44 | digitalWrite(LCD_BACKLIGHT, LOW);
45 | lcd.init();
46 | lcd.cls();
47 | lcd.drawBitmap(icon1,0,0);
48 | lcd.drawBitmap(icon2,24,0);
49 | lcd.drawBitmap(icon3,48,0);
50 |
51 | lcd.drawBitmap(icon1,0,16);
52 | lcd.drawBitmap(icon2,-1,16);
53 | lcd.drawBitmap(icon3,-2,16);
54 | lcd.drawBitmap(icon3,116,54);
55 | lcd.display();
56 | //lcd.copy(0,10,8,32,0);
57 | }
58 |
59 | void loop()
60 | {
61 | }
62 |
63 |
--------------------------------------------------------------------------------
/examples/ST7567_libfb_Bitmap2/ST7567_libfb_Bitmap2.ino:
--------------------------------------------------------------------------------
1 | // ST7567 LCD FB library example
2 | // (c) 2019-20 Pawel A. Hernik
3 |
4 | /*
5 | 128x64 ST7567 connections in SPI mode (only 5-6 wires between LCD and MCU):
6 |
7 | #01 LED -> D6, GND or any pin via resistor
8 | #02 RST -> D9 or any pin
9 | #03 CS -> D10 or any pin
10 | #04 DC -> D8 or any pin
11 | #05 SCK -> D13/SCK
12 | #06 SDI -> D11/MOSI
13 | #07 3V3 -> VCC (3.3V)
14 | #08 GND -> GND
15 | */
16 |
17 | #define LCD_BL 6
18 | #define LCD_CS 10
19 | #define LCD_DC 8
20 | #define LCD_RST 9
21 |
22 | #include "ST7567_FB.h"
23 | #include
24 | ST7567_FB lcd(LCD_DC, LCD_RST, LCD_CS);
25 |
26 |
27 | const uint8_t cat [] PROGMEM = {35,6*8,
28 | 0x00, 0x00, 0x00, 0x00, 0xF8, 0x0C, 0x06, 0x02, 0x0E, 0x30, 0x60, 0x20, 0x20, 0x40, 0x80, 0x00,
29 | 0x80, 0x80, 0x80, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
30 | 0x00, 0x00, 0x00, 0x00, 0x78, 0x8E, 0x03, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
31 | 0x00, 0x00, 0x01, 0xF9, 0x0C, 0x87, 0xC0, 0x60, 0x30, 0x18, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08,
32 | 0x08, 0x10, 0x20, 0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x02, 0xFC, 0x00, 0x00, 0x00, 0x00,
33 | 0xF0, 0x10, 0x18, 0x08, 0x0C, 0x06, 0x03, 0xFC, 0x07, 0x00, 0x00, 0x80, 0xE0, 0x38, 0x08, 0x0C,
34 | 0x04, 0x04, 0x04, 0x04, 0x04, 0x08, 0x18, 0x0F, 0x00, 0x00, 0x00, 0xC0, 0x78, 0x0F, 0x01, 0x00,
35 | 0x00, 0x00, 0x00, 0x00, 0x07, 0x18, 0x20, 0xC0, 0x00, 0x00, 0x01, 0x0E, 0xF0, 0x00, 0x07, 0xF8,
36 | 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xC0, 0x7E, 0x03, 0x00,
37 | 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, 0x1C, 0xE0, 0xC0, 0x7D,
38 | 0x06, 0x00, 0xF3, 0x1C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01,
39 | 0x0E, 0x10, 0x20, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x60,
40 | 0x20, 0x31, 0x18, 0x0C, 0x07, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
41 | 0x00, 0x00,
42 | };
43 |
44 | const uint8_t dog [] PROGMEM = {47,6*8,
45 | 0x70, 0x90, 0x18, 0x08, 0x0C, 0x04, 0x06, 0x02, 0x04, 0x04, 0x06, 0x02, 0x02, 0x02, 0x02, 0x02,
46 | 0x04, 0x06, 0x02, 0x04, 0x04, 0x04, 0x08, 0x38, 0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
47 | 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
48 | 0x01, 0x02, 0x04, 0x08, 0x18, 0x60, 0x80, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
49 | 0x00, 0x00, 0x60, 0xBC, 0x84, 0x88, 0x9E, 0x83, 0x00, 0x00, 0x80, 0x80, 0xC0, 0x40, 0x60, 0x20,
50 | 0x30, 0x90, 0x98, 0xC8, 0x48, 0x68, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x38, 0x00, 0x00, 0x00,
51 | 0x00, 0x00, 0x00, 0xE0, 0x3C, 0x07, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
52 | 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x01, 0x01, 0x00, 0x00, 0x00, 0x06, 0x1A, 0xE3,
53 | 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
54 | 0x00, 0x00, 0xEF, 0x30, 0x00, 0x00, 0x00, 0x00, 0x80, 0x80, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
55 | 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x80, 0xC0, 0x40, 0x40, 0x40, 0x80, 0x00, 0x00, 0x07,
56 | 0x18, 0xE0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
57 | 0x00, 0x07, 0xF8, 0x00, 0x00, 0x00, 0xFE, 0x03, 0x00, 0x01, 0x01, 0x02, 0x02, 0x02, 0xC2, 0x7E,
58 | 0x00, 0x00, 0x00, 0x00, 0x00, 0xFF, 0x01, 0x00, 0x00, 0x00, 0x00, 0x01, 0x02, 0x3C, 0xC0, 0x00,
59 | 0x03, 0xFC, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x40, 0xE0, 0xB0,
60 | 0x98, 0x8F, 0x80, 0x80, 0xC0, 0x7F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x06, 0x0B, 0x49, 0xF8, 0x80,
61 | 0x80, 0x80, 0x80, 0x8F, 0xF1, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x1E, 0x23, 0x20, 0x20,
62 | 0x3F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
63 | };
64 |
65 |
66 | void setup()
67 | {
68 | Serial.begin(9600);
69 | pinMode(LCD_BL, OUTPUT);
70 | digitalWrite(LCD_BL, LOW);
71 | lcd.init();
72 | lcd.cls();
73 | lcd.drawBitmap(dog,ALIGN_LEFT,10);
74 | lcd.drawBitmap(cat,ALIGN_RIGHT,10);
75 | lcd.display();
76 | }
77 |
78 | void loop()
79 | {
80 | }
81 |
82 |
--------------------------------------------------------------------------------
/examples/ST7567_libfb_ClockTemp/ST7567_libfb_ClockTemp.ino:
--------------------------------------------------------------------------------
1 | // ST7567_FB example
2 | // (C)2020 Pawel A. Hernik
3 |
4 | /*
5 | 128x64 ST7567 connections in SPI mode (only 5-6 wires between LCD and MCU):
6 |
7 | #01 LED -> D6, GND or any pin via resistor
8 | #02 RST -> D9 or any pin
9 | #03 CS -> D10 or any pin
10 | #04 DC -> D8 or any pin
11 | #05 SCK -> D13/SCK
12 | #06 SDI -> D11/MOSI
13 | #07 3V3 -> VCC (3.3V)
14 | #08 GND -> GND
15 | */
16 |
17 | #define LCD_BACKLIGHT 6
18 | #define LCD_CS 10
19 | #define LCD_DC 8
20 | #define LCD_RST 9
21 |
22 | #include "ST7567_FB.h"
23 | #include
24 | ST7567_FB lcd(LCD_DC, LCD_RST, LCD_CS);
25 |
26 | // from PropFonts library
27 | #include "c64enh_font.h"
28 | #include "term8x10_font.h"
29 | #include "term11x24bolddig_font.h"
30 |
31 | void setup()
32 | {
33 | Serial.begin(9600);
34 | pinMode(LCD_BACKLIGHT, OUTPUT);
35 | //analogWrite(LCD_BACKLIGHT,30);
36 | digitalWrite(LCD_BACKLIGHT, LOW);
37 | lcd.init();
38 | lcd.cls();
39 | /*
40 | lcd.setFont(c64enh);
41 | lcd.printStr(ALIGN_CENTER, 28, "Hello World!");
42 | lcd.drawRect(18,20,127-18*2,63-20*2,1);
43 | */
44 | /*
45 | lcd.setFont(Term11x24b);
46 | lcd.setDigitMinWd(12);
47 | lcd.setCharMinWd(5);
48 | lcd.printStr(0, 0, "12:345678");
49 | */
50 | lcd.display();
51 | }
52 |
53 | int hour=13,minute=56,second=25,day=20,month=6;
54 | float temperature=23.6;
55 | int humidity=54;
56 | char buf[30];
57 |
58 | void loop()
59 | {
60 | int x;
61 | lcd.cls();
62 |
63 | lcd.setFont(Term11x24b);
64 | lcd.setDigitMinWd(12); lcd.setCharMinWd(5);
65 | snprintf(buf,25,"%d:%02d",hour,minute);
66 | char secs[3];
67 | int xp,wd = lcd.strWidth(buf);
68 | snprintf(secs,3,"%02d",second);
69 | lcd.setFont(Term8x10);
70 | lcd.setDigitMinWd(12); lcd.setCharMinWd(5);
71 | wd+=lcd.strWidth(secs);
72 | xp = 4+(SCR_WD-wd)/2;
73 |
74 | lcd.setFont(Term11x24b);
75 | lcd.setDigitMinWd(12);
76 | lcd.setCharMinWd(5);
77 | x=lcd.printStr(xp, 2*8, buf);
78 | lcd.setFont(Term8x10);
79 | lcd.printStr(x, 2*8, secs);
80 |
81 | lcd.setFont(Term8x10);
82 | int t1 = temperature;
83 | int t10 =temperature*10-t1*10;
84 | snprintf(buf,25,"%d.%d' ",t1,t10); lcd.printStr(1, 6*8, buf);
85 | snprintf(buf,25," %d%%",humidity); lcd.printStr(ALIGN_RIGHT, 6*8, buf);
86 |
87 | lcd.setFont(c64enh);
88 | snprintf(buf,25,"%02d.%02d ",day,month); lcd.printStr(ALIGN_LEFT, 0, buf);
89 | snprintf(buf,25," %s", "Thu"); lcd.printStr(ALIGN_RIGHT, 0, buf);
90 | lcd.display();
91 | delay(1000);
92 | second++;
93 | if(second>=60) { second=0;minute++; }
94 | if(minute>=60) { minute=0;hour++; }
95 | }
96 |
97 |
--------------------------------------------------------------------------------
/examples/ST7567_libfb_Demo/ST7567_libfb_Demo.ino:
--------------------------------------------------------------------------------
1 | // ST7567_FB example
2 | // (C)2020 Pawel A. Hernik
3 | // YT video:
4 | // https://youtu.be/YC-wqZnCGQ4
5 |
6 | /*
7 | 128x64 ST7567 connections in SPI mode (only 5-6 wires between LCD and MCU):
8 |
9 | #01 LED -> D6, GND or any pin via resistor
10 | #02 RST -> D9 or any pin
11 | #03 CS -> D10 or any pin
12 | #04 DC -> D8 or any pin
13 | #05 SCK -> D13/SCK
14 | #06 SDI -> D11/MOSI
15 | #07 3V3 -> VCC (3.3V)
16 | #08 GND -> GND
17 | */
18 |
19 | #define LCD_BACKLIGHT 6
20 | #define LCD_CS 10
21 | #define LCD_DC 8
22 | #define LCD_RST 9
23 |
24 | #include "ST7567_FB.h"
25 | #include
26 | ST7567_FB lcd(LCD_DC, LCD_RST, LCD_CS);
27 |
28 | // from PropFonts library
29 | #include "c64enh_font.h"
30 |
31 | char buf[20];
32 |
33 | void setup()
34 | {
35 | Serial.begin(9600);
36 | pinMode(LCD_BACKLIGHT, OUTPUT);
37 | //analogWrite(LCD_BACKLIGHT,30);
38 | digitalWrite(LCD_BACKLIGHT, LOW);
39 | lcd.init();
40 | }
41 |
42 | float t=0;
43 |
44 | void animSinLines()
45 | {
46 | lcd.cls();
47 | float x;
48 | for(int i=0;i<64;i++) {
49 | x=20.0*(2.0+sin(t/10.0+i/18.0)*sin(i/9.0));
50 | lcd.drawLineHfastD(64-x,64+x,i,1);
51 | x=10.0*(2.0+sin(t/8.0+i/15.0)*sin(i/5.0));
52 | lcd.drawLineHfast(64-x,64+x,i,1);
53 | }
54 | t+=0.7;
55 | lcd.display();
56 | }
57 |
58 | char *banner="ST7567 LCD Library";
59 |
60 | void animTextSin()
61 | {
62 | lcd.cls();
63 | lcd.setFont(c64enh);
64 | char *txt=banner;
65 | int x=4,i=0;
66 | float y;
67 | while(*txt) {
68 | y=20+10.0*(1.0+sin(t/10.0+i/6.0)*sin(t/18.0+i/9.0));
69 | x+=lcd.printChar(x,(int)y,*txt++);
70 | i++;
71 | }
72 | t+=0.7;
73 | lcd.display();
74 | }
75 |
76 | void animTextCircle()
77 | {
78 | lcd.cls();
79 | lcd.setFont(c64enh);
80 | char *txt=banner;
81 | int x=4;
82 | float y,y2,xr;
83 | float r=10.0+6.0*(1.0+sin(t/28.0));
84 | float xo=38.0*(0.0+sin(t/20.0));
85 | float yt=24;
86 | while(*txt) {
87 | xr=2+x-64-xo;
88 | y2=(r+3)*(r+3)-(xr)*(xr);
89 | y=yt;
90 | if(y2>0) y=32-sqrt(y2)-5;
91 | if(y<0) y=0;
92 | if(y>yt) y=yt;
93 | x+=lcd.printChar(x,(int)y,*txt++);
94 | }
95 |
96 | lcd.fillCircleD(64+xo,32,r,1);
97 | //lcd.drawCircle(64+xo,32,r+1,1);
98 | t+=0.4;
99 | lcd.display();
100 | }
101 |
102 | void rects()
103 | {
104 | int x,y;
105 | x = random(128);
106 | y = random(40);
107 | lcd.setDither(random(12));
108 | lcd.fillRect(x,y,30,30,0);
109 | lcd.fillRectD(x,y,30,30,1);
110 | lcd.drawRect(x,y,30,30,1);
111 | lcd.display();
112 | //delay(100);
113 | }
114 |
115 | void circles()
116 | {
117 | int x,y;
118 | x = 15+random(128-30);
119 | y = 15+random(64-30);
120 | lcd.setDither(random(12));
121 | lcd.fillCircle(x,y,15,0);
122 | lcd.fillCircleD(x,y,15,1);
123 | lcd.drawCircle(x,y,16,1);
124 | lcd.display();
125 | //delay(100);
126 | }
127 |
128 | int x=40,y=0;
129 | int dx=6,dy=5;
130 | int x2=80,y2=40;
131 | int dx2=9,dy2=8;
132 |
133 | void animRect()
134 | {
135 | x+=dx;
136 | y+=dy;
137 | if(x>64 || x<0) { dx=-dx; x+=dx; }
138 | if(y>32 || y<0) { dy=-dy; y+=dy; }
139 | lcd.fillRect(x,y,64,32,2);
140 | lcd.display();
141 | lcd.fillRect(x,y,64,32,2);
142 | delay(40);
143 | }
144 |
145 | #define MAX_LINES 10
146 | byte lx0[MAX_LINES];
147 | byte lx1[MAX_LINES];
148 | byte ly0[MAX_LINES];
149 | byte ly1[MAX_LINES];
150 | byte curLine=0;
151 |
152 | void animLines()
153 | {
154 | x+=dx;
155 | y+=dy;
156 | x2+=dx2;
157 | y2+=dy2;
158 | if(x>127) { dx=-dx; x=127; }
159 | if(x<1) { dx=-dx; x=0; }
160 | if(y>63) { dy=-dy; y=63; }
161 | if(y<1) { dy=-dy; y=0; }
162 | if(x2>127) { dx2=-dx2; x2=127; }
163 | if(x2<1) { dx2=-dx2; x2=0; }
164 | if(y2>63) { dy2=-dy2; y2=63; }
165 | if(y2<1) { dy2=-dy2; y2=0; }
166 | lx0[curLine]=x;
167 | lx1[curLine]=x2;
168 | ly0[curLine]=y;
169 | ly1[curLine]=y2;
170 | if(++curLine>=MAX_LINES) curLine=0;
171 | lcd.cls();
172 | for(int i=0;i D6, GND or any pin via resistor
8 | #02 RST -> D9 or any pin
9 | #03 CS -> D10 or any pin
10 | #04 DC -> D8 or any pin
11 | #05 SCK -> D13/SCK
12 | #06 SDI -> D11/MOSI
13 | #07 3V3 -> VCC (3.3V)
14 | #08 GND -> GND
15 | */
16 |
17 | #define LCD_BACKLIGHT 6
18 | #define LCD_CS 10
19 | #define LCD_DC 8
20 | #define LCD_RST 9
21 |
22 | #include "ST7567_FB.h"
23 | #include
24 | ST7567_FB lcd(LCD_DC, LCD_RST, LCD_CS);
25 |
26 | // from PropFonts library
27 | #include "c64enh_font.h"
28 | #include "tiny3x7sq_font.h"
29 |
30 | char buf[20];
31 |
32 | void setup()
33 | {
34 | Serial.begin(9600);
35 | pinMode(LCD_BACKLIGHT, OUTPUT);
36 | //analogWrite(LCD_BACKLIGHT,30);
37 | digitalWrite(LCD_BACKLIGHT, LOW);
38 | lcd.init();
39 | lcd.cls();
40 | for(int j=1;j<17;j++) { lcd.setDither(j); lcd.fillRectD((j-1)*8,0,8,64,1); }
41 | lcd.display(); delay(5000);
42 | }
43 |
44 | void sample(int s)
45 | {
46 | lcd.cls();
47 | lcd.setDither(s);
48 | lcd.setFont(c64enh);
49 | snprintf(buf,20,"Pattern: %02d",s);
50 | lcd.printStr(ALIGN_CENTER, 2, buf);
51 | lcd.fillRectD(4,13,68,32,1);
52 | lcd.fillCircleD(100,28,16,1);
53 | for(int j=1;j<17;j++) {
54 | lcd.setFont(Tiny3x7SqPL);
55 | snprintf(buf,20,"%2d",j);
56 | lcd.printStr((j-1)*8, 64-8*2, buf);
57 | lcd.setDither(j);
58 | lcd.fillRectD((j-1)*8,64-8,8,8,1);
59 | }
60 | lcd.display();
61 | delay(500);
62 | }
63 |
64 | void loop()
65 | {
66 | for(int i=0;i<=16;i++) sample(i);
67 | for(int i=16;i>0;i--) sample(i);
68 | }
69 |
70 |
--------------------------------------------------------------------------------
/examples/ST7567_libfb_Fade/ST7567_libfb_Fade.ino:
--------------------------------------------------------------------------------
1 | // ST7567_FB example
2 | // Requires RRE Font library
3 | // (C)2020 Pawel A. Hernik
4 |
5 | /*
6 | 128x64 ST7567 connections in SPI mode (only 5-6 wires between LCD and MCU):
7 |
8 | #01 LED -> D6, GND or any pin via resistor
9 | #02 RST -> D9 or any pin
10 | #03 CS -> D10 or any pin
11 | #04 DC -> D8 or any pin
12 | #05 SCK -> D13/SCK
13 | #06 SDI -> D11/MOSI
14 | #07 3V3 -> VCC (3.3V)
15 | #08 GND -> GND
16 | */
17 |
18 | #define LCD_BL 6
19 | #define LCD_CS 10
20 | #define LCD_DC 8
21 | #define LCD_RST 9
22 |
23 | #include "ST7567_FB.h"
24 | #include
25 | ST7567_FB lcd(LCD_DC, LCD_RST, LCD_CS);
26 |
27 | #include "RREFont.h"
28 | #include "rre_arialdig47b.h"
29 | #include "rre_arialbldig54b.h"
30 | #include "rre_arialdig62b.h"
31 |
32 | RREFont font;
33 |
34 | // needed for RREFont library initialization, define your fillRect
35 | void customRect(int x, int y, int w, int h, int c) { return lcd.fillRect(x, y, w, h, c); }
36 | void customRectDither(int x, int y, int w, int h, int c) { return lcd.fillRectD(x, y, w, h, c); }
37 |
38 | char buf[20];
39 |
40 | void setup()
41 | {
42 | Serial.begin(9600);
43 | pinMode(LCD_BL, OUTPUT);
44 | digitalWrite(LCD_BL, LOW);
45 | lcd.init();
46 | lcd.cls();
47 | font.init(customRect, SCR_WD, SCR_HT); // custom fillRect function and screen width and height values
48 |
49 | font.setFont(&rre_ArialBlDig54b); font.setDigitMinWd(46);
50 | font.setFillRectFun(customRectDither);
51 | /*
52 | lcd.cls();
53 | lcd.setDither(1);
54 | lcd.fillRectD(0,13,32,32,1);
55 | // font.printStr(0,0,"8");
56 | lcd.display();
57 | delay(1000);
58 | //lcd.cls();
59 | lcd.setDither(-1);
60 | lcd.fillRectD(0,13,32,32,1);
61 | //font.printStr(0,0,"8");
62 | lcd.display();
63 | delay(5000);*/
64 | }
65 |
66 |
67 | int cnt=0;
68 |
69 | void loop()
70 | {
71 | if(++cnt>99) cnt=1;
72 | //font.setFont(&rre_ArialDig47b); font.setDigitMinWd(31);
73 | font.setFont(&rre_ArialBlDig54b); font.setDigitMinWd(46);
74 | //font.setFont(&rre_ArialDig62b); font.setDigitMinWd(43);
75 | font.setFillRectFun(customRectDither);
76 | for(int i=1;i<=16;i++) {
77 | lcd.cls();
78 | lcd.setDither(-i);
79 | snprintf(buf,5,"%02d",cnt-1);
80 | font.printStr(ALIGN_CENTER,(SCR_HT-font.getHeight())/2,buf);
81 |
82 | lcd.setDither(i);
83 | snprintf(buf,5,"%02d",cnt);
84 | font.printStr(ALIGN_CENTER,(SCR_HT-font.getHeight())/2,buf);
85 | lcd.display();
86 | delay(50);
87 | }
88 | delay(500);
89 | }
90 |
91 |
--------------------------------------------------------------------------------
/examples/ST7567_libfb_Graphics/ST7567_libfb_Graphics.ino:
--------------------------------------------------------------------------------
1 | // ST7567 LCD FB library example
2 | // (c) 2019-20 Pawel A. Hernik
3 |
4 | /*
5 | 128x64 ST7567 connections in SPI mode (only 5-6 wires between LCD and MCU):
6 |
7 | #01 LED -> D6, GND or any pin via resistor
8 | #02 RST -> D9 or any pin
9 | #03 CS -> D10 or any pin
10 | #04 DC -> D8 or any pin
11 | #05 SCK -> D13/SCK
12 | #06 SDI -> D11/MOSI
13 | #07 3V3 -> VCC (3.3V)
14 | #08 GND -> GND
15 | */
16 |
17 | #define LCD_BL 6
18 | #define LCD_CS 10
19 | #define LCD_DC 8
20 | #define LCD_RST 9
21 |
22 | #include "ST7567_FB.h"
23 | #include
24 | ST7567_FB lcd(LCD_DC, LCD_RST, LCD_CS);
25 |
26 | void setup()
27 | {
28 | Serial.begin(9600);
29 | pinMode(LCD_BL, OUTPUT);
30 | digitalWrite(LCD_BL, LOW);
31 | lcd.init();
32 | lcd.cls();
33 | lcd.drawRectD(0,0,SCR_WD,SCR_HT,1);
34 |
35 | int x=16,y=10;
36 | lcd.drawRect(x+8,y-5,20,20,1);
37 | lcd.fillRect(x+8+30,y-5,20,20,1);
38 | lcd.fillRectD(x+8+60,y-5,20,20,1);
39 |
40 | lcd.drawCircle(x+5+12,48,y,1);
41 | lcd.fillCircle(x+5+30+12,y+36,12,1);
42 | lcd.fillCircleD(x+5+60+12,y+36,12,1);
43 |
44 | lcd.display();
45 | }
46 |
47 | void loop()
48 | {
49 | }
50 |
51 |
--------------------------------------------------------------------------------
/examples/ST7567_libfb_HariChord/ST7567_libfb_HariChord.ino:
--------------------------------------------------------------------------------
1 | // ST7567_FB example
2 | // (C)2020 Pawel A. Hernik
3 |
4 | /*
5 | 128x64 ST7567 connections in SPI mode (only 5-6 wires between LCD and MCU):
6 |
7 | #01 LED -> D6, GND or any pin via resistor
8 | #02 RST -> D9 or any pin
9 | #03 CS -> D10 or any pin
10 | #04 DC -> D8 or any pin
11 | #05 SCK -> D13/SCK
12 | #06 SDI -> D11/MOSI
13 | #07 3V3 -> VCC (3.3V)
14 | #08 GND -> GND
15 | */
16 |
17 | #define LCD_BL 6
18 | #define LCD_CS 10
19 | #define LCD_DC 8
20 | #define LCD_RST 9
21 |
22 | #include "ST7567_FB.h"
23 | #include
24 | ST7567_FB lcd(LCD_DC, LCD_RST, LCD_CS);
25 |
26 | void setup()
27 | {
28 | Serial.begin(9600);
29 | pinMode(LCD_BL, OUTPUT);
30 | digitalWrite(LCD_BL, LOW);
31 | lcd.init();
32 | }
33 |
34 | int nFrames = 36;
35 |
36 | void loop()
37 | {
38 | for (int i=0; i= 0; i--) HariChord(i);
40 | }
41 |
42 | // by Hari Wiguna
43 | void HariChord(int frame)
44 | {
45 | lcd.clearDisplay();
46 | int n = 7;
47 | int r = frame * 64 / nFrames;
48 | float rot = frame * 2*PI / nFrames;
49 | for (int i=0; i<(n-1); i++) {
50 | float a = rot + i * 2*PI / n;
51 | int x1 = SCR_WD/2 + cos(a) * r;
52 | int y1 = SCR_HT/2 + sin(a) * r;
53 | for (int j=i+1; j D6, GND or any pin via resistor
8 | #02 RST -> D9 or any pin
9 | #03 CS -> D10 or any pin
10 | #04 DC -> D8 or any pin
11 | #05 SCK -> D13/SCK
12 | #06 SDI -> D11/MOSI
13 | #07 3V3 -> VCC (3.3V)
14 | #08 GND -> GND
15 | */
16 |
17 | #define LCD_BACKLIGHT 6
18 | #define LCD_CS 10
19 | #define LCD_DC 8
20 | #define LCD_RST 9
21 |
22 | #include "ST7567_FB.h"
23 | #include
24 | ST7567_FB lcd(LCD_DC, LCD_RST, LCD_CS);
25 |
26 | // from PropFonts library
27 | #include "c64enh_font.h"
28 |
29 | void setup()
30 | {
31 | Serial.begin(9600);
32 | pinMode(LCD_BACKLIGHT, OUTPUT);
33 | //analogWrite(LCD_BACKLIGHT,160);
34 | digitalWrite(LCD_BACKLIGHT, LOW);
35 |
36 | lcd.init();
37 | lcd.cls();
38 | lcd.setFont(c64enh);
39 | lcd.printStr(ALIGN_CENTER, 28, "Hello World!");
40 | lcd.drawRectD(0,0,128,64,1);
41 | lcd.drawRect(18,20,127-18*2,63-20*2,1);
42 | lcd.display();
43 | }
44 |
45 | void loop()
46 | {
47 | }
48 |
49 |
--------------------------------------------------------------------------------
/examples/ST7567_libfb_PowerConsumption/ST7567_libfb_PowerConsumption.ino:
--------------------------------------------------------------------------------
1 | // ST7567 Power Consumption Tests
2 | // (C)2019-20 Pawel A. Hernik
3 |
4 | /*
5 | 128x64 ST7567 connections in SPI mode (only 5-6 wires between LCD and MCU):
6 |
7 | #01 LED -> D6, GND or any pin via resistor
8 | #02 RST -> D9 or any pin
9 | #03 CS -> D10 or any pin
10 | #04 DC -> D8 or any pin
11 | #05 SCK -> D13/SCK
12 | #06 SDI -> D11/MOSI
13 | #07 3V3 -> VCC (3.3V)
14 | #08 GND -> GND
15 | */
16 |
17 | #define LCD_BACKLIGHT 6
18 | #define LCD_CS 10
19 | #define LCD_DC 8
20 | #define LCD_RST 9
21 |
22 | #include "ST7567_FB.h"
23 | #include
24 | ST7567_FB lcd(LCD_DC, LCD_RST, LCD_CS);
25 |
26 | // from PropFonts library
27 | #include "small4x7_font.h"
28 |
29 | #include
30 | #include
31 | #include
32 |
33 | void setup()
34 | {
35 | Serial.begin(9600);
36 | pinMode(LCD_BACKLIGHT, OUTPUT);
37 | digitalWrite(LCD_BACKLIGHT, LOW);
38 | lcd.init();
39 | }
40 |
41 | enum wdt_time {
42 | SLEEP_15MS,
43 | SLEEP_30MS,
44 | SLEEP_60MS,
45 | SLEEP_120MS,
46 | SLEEP_250MS,
47 | SLEEP_500MS,
48 | SLEEP_1S,
49 | SLEEP_2S,
50 | SLEEP_4S,
51 | SLEEP_8S,
52 | SLEEP_FOREVER
53 | };
54 |
55 | ISR(WDT_vect) { wdt_disable(); }
56 |
57 | void powerDown(uint8_t per)
58 | {
59 | ADCSRA &= ~(1 << ADEN); // turn off ADC
60 | if(per != SLEEP_FOREVER) { // use watchdog timer
61 | wdt_enable(per);
62 | WDTCSR |= (1 << WDIE);
63 | }
64 | set_sleep_mode(SLEEP_MODE_PWR_DOWN); // most power saving
65 | cli();
66 | sleep_enable();
67 | sleep_bod_disable();
68 | sei();
69 | sleep_cpu();
70 | // ... sleeping here
71 | sleep_disable();
72 | ADCSRA |= (1 << ADEN); // turn on ADC
73 | }
74 |
75 | void wait()
76 | {
77 | // force D13/SPI-SCK LED off and deep sleep for 4s
78 | SPI.end();
79 | pinMode(13, OUTPUT);
80 | digitalWrite(13, LOW);
81 | powerDown(SLEEP_4S);
82 | SPI.begin();
83 | }
84 |
85 | void loop()
86 | {
87 | int i;
88 | lcd.cls();
89 | lcd.setFont(Small4x7PL);
90 | lcd.printStr(ALIGN_CENTER, 28, "Starting ...");
91 | lcd.display();
92 | digitalWrite(LCD_BACKLIGHT, LOW);
93 | delay(3000);
94 |
95 | // backlight on
96 | lcd.cls();
97 | lcd.printStr(ALIGN_CENTER, 28, "Backlight ON");
98 | lcd.display();
99 | digitalWrite(LCD_BACKLIGHT, LOW);
100 | wait();
101 |
102 | // backlight off
103 | lcd.cls();
104 | lcd.printStr(ALIGN_CENTER, 28, "Backlight OFF");
105 | lcd.display();
106 | digitalWrite(LCD_BACKLIGHT, HIGH);
107 | wait();
108 |
109 | /*
110 | lcd.cls();
111 | lcd.printStr(ALIGN_CENTER, 28, "Backlight ON");
112 | lcd.display(0);
113 | digitalWrite(LCD_BACKLIGHT, HIGH);
114 | delay(3000);
115 | lcd.cls();
116 | lcd.printStr(ALIGN_CENTER, 28, "Backlight 192/255");
117 | lcd.display(0);
118 | analogWrite(LCD_BACKLIGHT, 192);
119 | delay(3000);
120 | lcd.cls();
121 | lcd.printStr(ALIGN_CENTER, 28, "Backlight 128/255");
122 | lcd.display(0);
123 | analogWrite(LCD_BACKLIGHT, 128);
124 | delay(3000);
125 | lcd.cls();
126 | lcd.printStr(ALIGN_CENTER, 28, "Backlight 64/255");
127 | lcd.display(0);
128 | analogWrite(LCD_BACKLIGHT, 64);
129 | delay(3000);
130 | lcd.cls();
131 | lcd.printStr(ALIGN_CENTER, 28, "Backlight 32/255");
132 | lcd.display(0);
133 | analogWrite(LCD_BACKLIGHT, 32);
134 | delay(3000);
135 | lcd.cls();
136 | lcd.printStr(ALIGN_CENTER, 28, "Backlight OFF");
137 | lcd.display(0);
138 | digitalWrite(LCD_BACKLIGHT, LOW);
139 | delay(3000);
140 | */
141 | // 0xFF entire screen
142 | lcd.cls();
143 | lcd.fillRect(0,0,128,64,1); // 0xFF
144 | lcd.display();
145 | wait();
146 |
147 | // 0xAA vertically
148 | //for(i=0;i<128*64/8;i++) lcd.scr[i]=0xaa;
149 | lcd.cls();
150 | for(i=0;i<128;i+=2) lcd.drawLineVfast(i,0,63,1); // 0xaa v
151 | lcd.display();
152 | wait();
153 |
154 | // 0xAA horizontally
155 | lcd.cls();
156 | for(i=0;i<64;i+=2) lcd.drawLineHfast(0,127,i,1); // 0xaa h
157 | lcd.display();
158 | wait();
159 |
160 | // 0xF0 vertically
161 | //for(i=0;i<128*64/8;i++) lcd.scr[i]=0xf0;
162 | lcd.cls();
163 | for(i=0;i<16;i++) lcd.fillRect(i*8,0,4,64,1); // 0xf0 v
164 | lcd.display();
165 | wait();
166 |
167 | // 0xFO horizontally
168 | lcd.cls();
169 | for(i=0;i<8;i++) lcd.fillRect(0,i*8,128,4,1); // 0xf0 h
170 | lcd.display();
171 | wait();
172 |
173 | // 0x11 vertically
174 | //for(i=0;i<128*64/8;i++) lcd.scr[i]=0x11;
175 | lcd.cls();
176 | for(i=0;i<128/4;i++) lcd.drawLineVfast(i*4+3,0,63,1); // 0x11 v
177 | lcd.display();
178 | wait();
179 |
180 | // 0x11 horizontally
181 | lcd.cls();
182 | for(i=0;i<64/4;i++) lcd.drawLineHfast(0,127,i*4+3,1); // 0x11 h
183 | lcd.display();
184 | wait();
185 |
186 | // 0x01 vertically
187 | //for(i=0;i<128*64/8;i++) lcd.scr[i]=0x01;
188 | lcd.cls();
189 | for(i=0;i<128/8;i++) lcd.drawLineVfast(i*8+7,0,63,1); // 0x01 v
190 | lcd.display();
191 | wait();
192 |
193 | // 0xO1 horizontally
194 | lcd.cls();
195 | for(i=0;i<64/8;i++) lcd.drawLineHfast(0,127,i*8+7,1); // 0x01 h
196 | lcd.display();
197 | wait();
198 |
199 | // 0x00 entire screen
200 | for(i=0;i<128*64/8;i++) lcd.scr[i]=0x00;
201 | lcd.display();
202 | wait();
203 |
204 | // text
205 | lcd.printStr(0, 0*8, "Line 1");
206 | lcd.printStr(0, 1*8, "Line 2 Line 2");
207 | lcd.printStr(0, 2*8, "Line 3 Line 3 Line 3");
208 | lcd.printStr(0, 3*8, "Line 4 Line 4 Line 4 Line 4");
209 | lcd.printStr(0, 4*8, "Line 5 Line 5 Line 5 Line 5 Line 5");
210 | lcd.printStr(0, 5*8, "Line 6 Line 6 Line 6 Line 6 Line 6");
211 | lcd.printStr(0, 6*8, "Line 7 Line 7 Line 7 Line 7 Line 7");
212 | lcd.printStr(0, 7*8, "Line 8 Line 8 Line 8 Line 8 Line 8");
213 | lcd.display();
214 | wait();
215 |
216 | // text inverted
217 | lcd.fillRect(0,0,128,64,2); // invert
218 | lcd.display();
219 | wait();
220 |
221 | // display off mode
222 | lcd.cls();
223 | lcd.printStr(ALIGN_CENTER, 28, "Display OFF in 2s ...");
224 | lcd.display();
225 | delay(2000);
226 | lcd.displayOn(false);
227 | wait();
228 | lcd.displayOn(true);
229 |
230 | // sleep mode
231 | lcd.cls();
232 | lcd.printStr(ALIGN_CENTER, 28, "Sleep mode in 2s ...");
233 | lcd.display();
234 | delay(2000);
235 | lcd.sleep(1);
236 | wait();
237 | lcd.sleep(0);
238 | //delay(del);
239 |
240 | }
241 |
242 |
--------------------------------------------------------------------------------
/examples/ST7567_libfb_modes/ST7567_libfb_modes.ino:
--------------------------------------------------------------------------------
1 | // ST7567_FB example
2 | // (C)2020 Pawel A. Hernik
3 |
4 | /*
5 | 128x64 ST7567 connections in SPI mode (only 5-6 wires between LCD and MCU):
6 |
7 | #01 LED -> D6, GND or any pin via resistor
8 | #02 RST -> D9 or any pin
9 | #03 CS -> D10 or any pin
10 | #04 DC -> D8 or any pin
11 | #05 SCK -> D13/SCK
12 | #06 SDI -> D11/MOSI
13 | #07 3V3 -> VCC (3.3V)
14 | #08 GND -> GND
15 | */
16 |
17 | #define LCD_BL 6
18 | #define LCD_CS 10
19 | #define LCD_DC 8
20 | #define LCD_RST 9
21 |
22 | #include "ST7567_FB.h"
23 | #include
24 | ST7567_FB lcd(LCD_DC, LCD_RST, LCD_CS);
25 |
26 | #if USESPI==1
27 | #include
28 | #endif
29 |
30 | #include "small4x7_font.h"
31 |
32 | void setup()
33 | {
34 | Serial.begin(9600);
35 | pinMode(LCD_BL, OUTPUT);
36 | digitalWrite(LCD_BL, LOW);
37 | lcd.init();
38 | }
39 |
40 | // --------------------------------------------------------------------------
41 | char buf[40];
42 |
43 | void loop()
44 | {
45 | int i;
46 | int yt=(SCR_HT-8)/2;
47 | lcd.setFont(Small4x7PL);
48 |
49 | lcd.cls();
50 | lcd.drawRect(0,0,SCR_WD,SCR_HT,1);
51 | lcd.printStr(ALIGN_CENTER, yt, "ST7567_INVERT_OFF");
52 | lcd.display();
53 | lcd.displayInvert(false);
54 | delay(3000);
55 | lcd.fillRect(10,yt,SCR_WD-20,8,0);
56 | lcd.printStr(ALIGN_CENTER, yt, "ST7567_INVERT_ON");
57 | lcd.display();
58 | lcd.displayInvert(true);
59 | delay(3000);
60 | lcd.displayInvert(false);
61 |
62 | lcd.fillRect(10,yt,SCR_WD-20,8,0);
63 | lcd.printStr(ALIGN_CENTER, yt, "ST7567_DISPLAY_OFF");
64 | lcd.display();
65 | delay(1000);
66 | lcd.displayOn(false);
67 | delay(1000);
68 | lcd.fillRect(10,yt,SCR_WD-20,8,0);
69 | lcd.printStr(ALIGN_CENTER, yt, "ST7567_DISPLAY_ON");
70 | lcd.display();
71 | lcd.displayOn(true);
72 | delay(2000);
73 |
74 | for(i=0;i<=20;i+=2) {
75 | snprintf(buf,40,"CONTRAST %d", i);
76 | lcd.fillRect(10,yt,SCR_WD-20,8,0);
77 | lcd.printStr(ALIGN_CENTER, yt, buf);
78 | lcd.display();
79 | lcd.setContrast(i);
80 | delay(1000);
81 | }
82 | lcd.fillRect(10,yt,SCR_WD-20,8,0);
83 | lcd.printStr(ALIGN_CENTER, yt, "CONTRAST 7");
84 | lcd.display();
85 | lcd.setContrast(7);
86 | delay(2000);
87 |
88 | for(i=0;i<256;i+=10) {
89 | snprintf(buf,40,"BACKLIGHT %d", i);
90 | lcd.fillRect(10,yt,SCR_WD-20,8,0);
91 | lcd.printStr(ALIGN_CENTER, yt, buf);
92 | lcd.display();
93 | analogWrite(LCD_BL,i);
94 | delay(400);
95 | }
96 | digitalWrite(LCD_BL, LOW);
97 | lcd.fillRect(10,yt,SCR_WD-20,8,0);
98 | lcd.printStr(ALIGN_CENTER, yt, "BACKLIGHT MAX");
99 | lcd.display();
100 | delay(1000);
101 |
102 | lcd.cls();
103 | lcd.printStr(0, 0*8, "0");
104 | lcd.printStr(0, 1*8, "1");
105 | lcd.printStr(0, 2*8, "2");
106 | lcd.printStr(0, 3*8, "3");
107 | lcd.printStr(0, 4*8, "4");
108 | lcd.printStr(0, 5*8, "5");
109 | lcd.printStr(0, 6*8, "6");
110 | lcd.printStr(0, 7*8, "7");
111 |
112 | lcd.fillRect(10,yt,SCR_WD-10,8,0);
113 | lcd.printStr(ALIGN_CENTER, yt, " ROTATE 180 ");
114 | lcd.setRotation(2);
115 | lcd.display();
116 | delay(3000);
117 | lcd.fillRect(10,yt,SCR_WD-10,8,0);
118 | lcd.printStr(ALIGN_CENTER, yt, " ROTATE 0 ");
119 | lcd.setRotation(0);
120 | lcd.display();
121 | delay(2000);
122 |
123 | for(i=0;i<64;i++) {
124 | lcd.fillRect(10,yt,SCR_WD-10,8,0);
125 | snprintf(buf,40," SCROLL %02d ", i);
126 | lcd.printStr(ALIGN_CENTER, yt, buf);
127 | lcd.display();
128 | lcd.setScroll(i);
129 | delay(200);
130 | }
131 | lcd.fillRect(10,yt,SCR_WD-10,8,0);
132 | lcd.printStr(ALIGN_CENTER, 4, " SCROLL 0 ");
133 | lcd.display();
134 | lcd.setScroll(0);
135 | delay(2000);
136 | }
137 |
138 |
--------------------------------------------------------------------------------
/keywords.txt:
--------------------------------------------------------------------------------
1 | ST7567_FB KEYWORD3
2 |
3 | init KEYWORD2
4 | setFont KEYWORD2
5 | setFontMinWd KEYWORD2
6 | setCharMinWd KEYWORD2
7 | setDigitMinWd KEYWORD2
8 | setCR KEYWORD2
9 | printStr KEYWORD2
10 | printChar KEYWORD2
11 | charWidth KEYWORD2
12 | strWidth KEYWORD2
13 | cls KEYWORD2
14 | drawBitmap KEYWORD2
15 | drawBuf KEYWORD2
16 | setIsNumberFun KEYWORD2
17 |
18 | fillWin KEYWORD2
19 | sendData KEYWORD2
20 | sendCmd KEYWORD2
21 | gotoXY KEYWORD2
22 | sleep KEYWORD2
23 | setContrast KEYWORD2
24 | setRotate KEYWORD2
25 | setScroll KEYWORD2
26 | setInvert KEYWORD2
27 | setInvertMask KEYWORD2
28 | displayMode KEYWORD2
29 | displayInvert KEYWORD2
30 | displayOn KEYWORD2
31 | setInvert KEYWORD2
32 |
33 | cls KEYWORD2
34 | clearDisplay KEYWORD2
35 | drawPixel KEYWORD2
36 | drawLine KEYWORD2
37 | drawLineH KEYWORD2
38 | drawLineV KEYWORD2
39 | drawLineVfast KEYWORD2
40 | drawLineVfastD KEYWORD2
41 | drawLineHfast KEYWORD2
42 | drawLineHfastD KEYWORD2
43 | drawRect KEYWORD2
44 | drawRectD KEYWORD2
45 | fillRect KEYWORD2
46 | fillRectD KEYWORD2
47 | drawCircle KEYWORD2
48 | fillCircle KEYWORD2
49 | fillCircleD KEYWORD2
50 | drawTriangle KEYWORD2
51 | fillTriangle KEYWORD2
52 | fillTriangleD KEYWORD2
53 | setDither KEYWORD2
54 |
55 | SCR_WD LITERAL1
56 | SCR_HT LITERAL1
57 | ALIGN_LEFT LITERAL1
58 | ALIGN_RIGHT LITERAL1
59 | ALIGN_CENTER LITERAL1
60 | SET LITERAL1
61 | CLR LITERAL1
62 | XOR LITERAL1
63 |
--------------------------------------------------------------------------------
/library.properties:
--------------------------------------------------------------------------------
1 | name=ST7567 FrameBuffer
2 | version=1.0.1
3 | author=Pawel A. Hernik
4 | maintainer=Pawel A. Hernik
5 | sentence=Fast SPI graphics library for ST7567 128x64 LCD
6 | paragraph=Fast SPI graphics library for ST7567 128x64 LCD
7 | category=Display
8 | url=https://github.com/cbm80amiga/ST7567_FB
9 | architectures=*
10 |
--------------------------------------------------------------------------------