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LCD.cpp
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LCD.cpp
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#include "Arduino.h"
#include "config.h"
#include "def.h"
#include "types.h"
#include "MahoWii.h"
#include "Alarms.h"
#include "EEPROM.h"
#include "Output.h"
#include "RX.h"
#include "Serial.h"
#include "Sensors.h"
#include "LCD.h"
void __u8Inc(void * var, int16_t inc);
void __s8Inc(void * var, int16_t inc);
void __u16Inc(void * var, int16_t inc);
void __s16Inc(void * var, int16_t inc);
void __nullInc(void * var, int16_t inc);
void __u8Fmt(void * var, uint8_t mul, uint8_t dec);
void __u16Fmt(void * var, uint8_t mul, uint8_t dec);
void __s8BitsFmt(void * var, uint8_t mul, uint8_t dec);
void __s16Fmt(void * var, uint8_t mul, uint8_t dec);
void __uAuxFmt(void * var, uint8_t mul, uint8_t dec, uint8_t aux);
void __uAuxFmt1(void * var, uint8_t mul, uint8_t dec);
void __uAuxFmt2(void * var, uint8_t mul, uint8_t dec);
void __uAuxFmt3(void * var, uint8_t mul, uint8_t dec);
void __uAuxFmt4(void * var, uint8_t mul, uint8_t dec);
void __upMFmt(void * var, uint8_t mul, uint8_t dec);
void serviceCheckPLog(void);
void i2c_clear_OLED(void);
void LCDnextline(void);
void i2c_OLED_DIGOLE_send_string(const char *string);
// ************************************************************************************************************
// LCD & display & monitoring
// ************************************************************************************************************
// in any of the following cases an LCD is required and
// the primitives for exactly one of the available types are setup
#if defined(LCD_CONF) || defined(LCD_TELEMETRY) || defined(HAS_LCD)
static char line1[17],line2[17];
static char template7[7] = " .... ";
static char template3[3] = ". ";
#ifdef DISPLAY_FONT_DSIZE
static uint8_t line_is_valid = 0;
#endif
#if ( defined(LOG_PERMANENT) && defined(DISPLAY_MULTILINE) )
static uint8_t lnr = 0;
#endif
#define LCD_FLUSH {/*UartSendData();*/ delay(30); }
char digit10000(uint16_t v) {return '0' + v / 10000;}
char digit1000(uint16_t v) {return '0' + v / 1000 - (v/10000) * 10;}
char digit100(uint16_t v) {return '0' + v / 100 - (v/1000) * 10;}
char digit10(uint16_t v) {return '0' + v / 10 - (v/100) * 10;}
char digit1(uint16_t v) {return '0' + v - (v/10) * 10;}
#if defined(OLED_I2C_128x64)
// ########################################
// # i2c OLED display funtion primitives #
// ########################################
#define OLED_address 0x3C // OLED at address 0x3C in 7bit
char LINE_FILL_STRING[] = " "; // Used by clear_OLED() 128 bits / 6 bytes = 21 chars per row
unsigned char CHAR_FORMAT = 0; // use to INVERSE characters
// use INVERSE CHAR_FORMAT = 0b01111111;
// use NORMAL CHAR_FORMAT = 0;
static char buffer; // buffer to read bytes from ROM, using pgm_read_byte macro. NB! avr/pgmspace.h must be included prog_uchar LOGO[] PROGMEM = { // My first attempt to flash a logo....
const uint8_t PROGMEM LOGO[] = { // logo....
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0x04, 0x8C, 0x70, 0x00, 0x00, 0x30, 0x48, 0x84, 0x84, 0x84, 0x48, 0x30, 0x00, 0x00, 0x00, 0x00,
0x00, 0x01, 0x07, 0x0F, 0x1C, 0x38, 0x30, 0x70, 0x60, 0x60, 0x60, 0x60, 0x60, 0x60, 0x60, 0x60,
0x70, 0x30, 0x38, 0x1C, 0x0F, 0x07, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01,
0x07, 0x0F, 0x1C, 0x38, 0x30, 0x70, 0x60, 0x60, 0x60, 0x60, 0x60, 0x60, 0x60, 0x60, 0x70, 0x30,
0x38, 0x1C, 0x0F, 0x07, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x3F, 0x20,
0x20, 0x20, 0x20, 0x20, 0x20, 0x10, 0x08, 0x07, 0x00, 0x00, 0x0F, 0x12, 0x22, 0x22, 0x22, 0x12,
0x0B, 0x00, 0x00, 0x01, 0x0E, 0x30, 0x0E, 0x01, 0x00, 0x00, 0x0F, 0x10, 0x20, 0x20, 0x20, 0x10,
0x0F, 0x00, 0x00, 0x08, 0x10, 0x20, 0x20, 0x20, 0x10, 0x0F, 0x00, 0x00, 0x20, 0x30, 0x28, 0x24,
0x22, 0x21, 0x20, 0x00, 0x00, 0x0E, 0x11, 0x20, 0x20, 0x20, 0x11, 0x0E, 0x00, 0x00, 0x00, 0x00
};
const uint8_t PROGMEM myFont[][5] = { // Refer to "Times New Roman" Font Database... 5 x 7 font
{ 0x00,0x00,0x00,0x00,0x00},
{ 0x00,0x00,0x4F,0x00,0x00}, // ( 1) ! - 0x0021 Exclamation Mark
{ 0x00,0x07,0x00,0x07,0x00}, // ( 2) " - 0x0022 Quotation Mark
{ 0x14,0x7F,0x14,0x7F,0x14}, // ( 3) # - 0x0023 Number Sign
{ 0x24,0x2A,0x7F,0x2A,0x12}, // ( 4) $ - 0x0024 Dollar Sign
{ 0x23,0x13,0x08,0x64,0x62}, // ( 5) % - 0x0025 Percent Sign
{ 0x36,0x49,0x55,0x22,0x50}, // ( 6) & - 0x0026 Ampersand
{ 0x00,0x05,0x03,0x00,0x00}, // ( 7) ' - 0x0027 Apostrophe
{ 0x00,0x1C,0x22,0x41,0x00}, // ( 8) ( - 0x0028 Left Parenthesis
{ 0x00,0x41,0x22,0x1C,0x00}, // ( 9) ) - 0x0029 Right Parenthesis
{ 0x14,0x08,0x3E,0x08,0x14}, // ( 10) * - 0x002A Asterisk
{ 0x08,0x08,0x3E,0x08,0x08}, // ( 11) + - 0x002B Plus Sign
{ 0x00,0x50,0x30,0x00,0x00}, // ( 12) , - 0x002C Comma
{ 0x08,0x08,0x08,0x08,0x08}, // ( 13) - - 0x002D Hyphen-Minus
{ 0x00,0x60,0x60,0x00,0x00}, // ( 14) . - 0x002E Full Stop
{ 0x20,0x10,0x08,0x04,0x02}, // ( 15) / - 0x002F Solidus
{ 0x3E,0x51,0x49,0x45,0x3E}, // ( 16) 0 - 0x0030 Digit Zero
{ 0x00,0x42,0x7F,0x40,0x00}, // ( 17) 1 - 0x0031 Digit One
{ 0x42,0x61,0x51,0x49,0x46}, // ( 18) 2 - 0x0032 Digit Two
{ 0x21,0x41,0x45,0x4B,0x31}, // ( 19) 3 - 0x0033 Digit Three
{ 0x18,0x14,0x12,0x7F,0x10}, // ( 20) 4 - 0x0034 Digit Four
{ 0x27,0x45,0x45,0x45,0x39}, // ( 21) 5 - 0x0035 Digit Five
{ 0x3C,0x4A,0x49,0x49,0x30}, // ( 22) 6 - 0x0036 Digit Six
{ 0x01,0x71,0x09,0x05,0x03}, // ( 23) 7 - 0x0037 Digit Seven
{ 0x36,0x49,0x49,0x49,0x36}, // ( 24) 8 - 0x0038 Digit Eight
{ 0x06,0x49,0x49,0x29,0x1E}, // ( 25) 9 - 0x0039 Dight Nine
{ 0x00,0x36,0x36,0x00,0x00}, // ( 26) : - 0x003A Colon
{ 0x00,0x56,0x36,0x00,0x00}, // ( 27) ; - 0x003B Semicolon
{ 0x08,0x14,0x22,0x41,0x00}, // ( 28) < - 0x003C Less-Than Sign
{ 0x14,0x14,0x14,0x14,0x14}, // ( 29) = - 0x003D Equals Sign
{ 0x00,0x41,0x22,0x14,0x08}, // ( 30) > - 0x003E Greater-Than Sign
{ 0x02,0x01,0x51,0x09,0x06}, // ( 31) ? - 0x003F Question Mark
{ 0x32,0x49,0x79,0x41,0x3E}, // ( 32) @ - 0x0040 Commercial At
{ 0x7E,0x11,0x11,0x11,0x7E}, // ( 33) A - 0x0041 Latin Capital Letter A
{ 0x7F,0x49,0x49,0x49,0x36}, // ( 34) B - 0x0042 Latin Capital Letter B
{ 0x3E,0x41,0x41,0x41,0x22}, // ( 35) C - 0x0043 Latin Capital Letter C
{ 0x7F,0x41,0x41,0x22,0x1C}, // ( 36) D - 0x0044 Latin Capital Letter D
{ 0x7F,0x49,0x49,0x49,0x41}, // ( 37) E - 0x0045 Latin Capital Letter E
{ 0x7F,0x09,0x09,0x09,0x01}, // ( 38) F - 0x0046 Latin Capital Letter F
{ 0x3E,0x41,0x49,0x49,0x7A}, // ( 39) G - 0x0047 Latin Capital Letter G
{ 0x7F,0x08,0x08,0x08,0x7F}, // ( 40) H - 0x0048 Latin Capital Letter H
{ 0x00,0x41,0x7F,0x41,0x00}, // ( 41) I - 0x0049 Latin Capital Letter I
{ 0x20,0x40,0x41,0x3F,0x01}, // ( 42) J - 0x004A Latin Capital Letter J
{ 0x7F,0x08,0x14,0x22,0x41}, // ( 43) K - 0x004B Latin Capital Letter K
{ 0x7F,0x40,0x40,0x40,0x40}, // ( 44) L - 0x004C Latin Capital Letter L
{ 0x7F,0x02,0x0C,0x02,0x7F}, // ( 45) M - 0x004D Latin Capital Letter M
{ 0x7F,0x04,0x08,0x10,0x7F}, // ( 46) N - 0x004E Latin Capital Letter N
{ 0x3E,0x41,0x41,0x41,0x3E}, // ( 47) O - 0x004F Latin Capital Letter O
{ 0x7F,0x09,0x09,0x09,0x06}, // ( 48) P - 0x0050 Latin Capital Letter P
{ 0x3E,0x41,0x51,0x21,0x5E}, // ( 49) Q - 0x0051 Latin Capital Letter Q
{ 0x7F,0x09,0x19,0x29,0x46}, // ( 50) R - 0x0052 Latin Capital Letter R
{ 0x46,0x49,0x49,0x49,0x31}, // ( 51) S - 0x0053 Latin Capital Letter S
{ 0x01,0x01,0x7F,0x01,0x01}, // ( 52) T - 0x0054 Latin Capital Letter T
{ 0x3F,0x40,0x40,0x40,0x3F}, // ( 53) U - 0x0055 Latin Capital Letter U
{ 0x1F,0x20,0x40,0x20,0x1F}, // ( 54) V - 0x0056 Latin Capital Letter V
{ 0x3F,0x40,0x38,0x40,0x3F}, // ( 55) W - 0x0057 Latin Capital Letter W
{ 0x63,0x14,0x08,0x14,0x63}, // ( 56) X - 0x0058 Latin Capital Letter X
{ 0x07,0x08,0x70,0x08,0x07}, // ( 57) Y - 0x0059 Latin Capital Letter Y
{ 0x61,0x51,0x49,0x45,0x43}, // ( 58) Z - 0x005A Latin Capital Letter Z
{ 0x00,0x7F,0x41,0x41,0x00}, // ( 59) [ - 0x005B Left Square Bracket
{ 0x02,0x04,0x08,0x10,0x20}, // ( 60) \ - 0x005C Reverse Solidus
{ 0x00,0x41,0x41,0x7F,0x00}, // ( 61) ] - 0x005D Right Square Bracket
{ 0x04,0x02,0x01,0x02,0x04}, // ( 62) ^ - 0x005E Circumflex Accent
{ 0x40,0x40,0x40,0x40,0x40}, // ( 63) _ - 0x005F Low Line
{ 0x01,0x02,0x04,0x00,0x00}, // ( 64) ` - 0x0060 Grave Accent
{ 0x20,0x54,0x54,0x54,0x78}, // ( 65) a - 0x0061 Latin Small Letter A
{ 0x7F,0x48,0x44,0x44,0x38}, // ( 66) b - 0x0062 Latin Small Letter B
{ 0x38,0x44,0x44,0x44,0x20}, // ( 67) c - 0x0063 Latin Small Letter C
{ 0x38,0x44,0x44,0x48,0x7F}, // ( 68) d - 0x0064 Latin Small Letter D
{ 0x38,0x54,0x54,0x54,0x18}, // ( 69) e - 0x0065 Latin Small Letter E
{ 0x08,0x7E,0x09,0x01,0x02}, // ( 70) f - 0x0066 Latin Small Letter F
{ 0x06,0x49,0x49,0x49,0x3F}, // ( 71) g - 0x0067 Latin Small Letter G
{ 0x7F,0x08,0x04,0x04,0x78}, // ( 72) h - 0x0068 Latin Small Letter H
{ 0x00,0x44,0x7D,0x40,0x00}, // ( 73) i - 0x0069 Latin Small Letter I
{ 0x20,0x40,0x44,0x3D,0x00}, // ( 74) j - 0x006A Latin Small Letter J
{ 0x7F,0x10,0x28,0x44,0x00}, // ( 75) k - 0x006B Latin Small Letter K
{ 0x00,0x41,0x7F,0x40,0x00}, // ( 76) l - 0x006C Latin Small Letter L
{ 0x7C,0x04,0x18,0x04,0x7C}, // ( 77) m - 0x006D Latin Small Letter M
{ 0x7C,0x08,0x04,0x04,0x78}, // ( 78) n - 0x006E Latin Small Letter N
{ 0x38,0x44,0x44,0x44,0x38}, // ( 79) o - 0x006F Latin Small Letter O
{ 0x7C,0x14,0x14,0x14,0x08}, // ( 80) p - 0x0070 Latin Small Letter P
{ 0x08,0x14,0x14,0x18,0x7C}, // ( 81) q - 0x0071 Latin Small Letter Q
{ 0x7C,0x08,0x04,0x04,0x08}, // ( 82) r - 0x0072 Latin Small Letter R
{ 0x48,0x54,0x54,0x54,0x20}, // ( 83) s - 0x0073 Latin Small Letter S
{ 0x04,0x3F,0x44,0x40,0x20}, // ( 84) t - 0x0074 Latin Small Letter T
{ 0x3C,0x40,0x40,0x20,0x7C}, // ( 85) u - 0x0075 Latin Small Letter U
{ 0x1C,0x20,0x40,0x20,0x1C}, // ( 86) v - 0x0076 Latin Small Letter V
{ 0x3C,0x40,0x30,0x40,0x3C}, // ( 87) w - 0x0077 Latin Small Letter W
{ 0x44,0x28,0x10,0x28,0x44}, // ( 88) x - 0x0078 Latin Small Letter X
{ 0x0C,0x50,0x50,0x50,0x3C}, // ( 89) y - 0x0079 Latin Small Letter Y
{ 0x44,0x64,0x54,0x4C,0x44}, // ( 90) z - 0x007A Latin Small Letter Z
{ 0x00,0x08,0x36,0x41,0x00}, // ( 91) { - 0x007B Left Curly Bracket
{ 0x00,0x00,0x7F,0x00,0x00}, // ( 92) | - 0x007C Vertical Line
{ 0x00,0x41,0x36,0x08,0x00}, // ( 93) } - 0x007D Right Curly Bracket
{ 0x02,0x01,0x02,0x04,0x02}, // ( 94) ~ - 0x007E Tilde
{ 0x3E,0x55,0x55,0x41,0x22}, // ( 95) C - 0x0080 <Control>
{ 0x00,0x00,0x00,0x00,0x00}, // ( 96) - 0x00A0 No-Break Space
{ 0x00,0x00,0x79,0x00,0x00}, // ( 97) ! - 0x00A1 Inverted Exclamation Mark
{ 0x18,0x24,0x74,0x2E,0x24}, // ( 98) c - 0x00A2 Cent Sign
{ 0x48,0x7E,0x49,0x42,0x40}, // ( 99) L - 0x00A3 Pound Sign
{ 0x5D,0x22,0x22,0x22,0x5D}, // (100) o - 0x00A4 Currency Sign
{ 0x15,0x16,0x7C,0x16,0x15}, // (101) Y - 0x00A5 Yen Sign
{ 0x00,0x00,0x77,0x00,0x00}, // (102) | - 0x00A6 Broken Bar
{ 0x0A,0x55,0x55,0x55,0x28}, // (103) - 0x00A7 Section Sign
{ 0x00,0x01,0x00,0x01,0x00}, // (104) " - 0x00A8 Diaeresis
{ 0x00,0x0A,0x0D,0x0A,0x04}, // (105) - 0x00AA Feminine Ordinal Indicator
{ 0x08,0x14,0x2A,0x14,0x22}, // (106) << - 0x00AB Left-Pointing Double Angle Quotation Mark
{ 0x04,0x04,0x04,0x04,0x1C}, // (107) - 0x00AC Not Sign
{ 0x00,0x08,0x08,0x08,0x00}, // (108) - - 0x00AD Soft Hyphen
{ 0x01,0x01,0x01,0x01,0x01}, // (109) - 0x00AF Macron
{ 0x00,0x02,0x05,0x02,0x00}, // (110) - 0x00B0 Degree Sign
{ 0x44,0x44,0x5F,0x44,0x44}, // (111) +- - 0x00B1 Plus-Minus Sign
{ 0x00,0x00,0x04,0x02,0x01}, // (112) ` - 0x00B4 Acute Accent
{ 0x7E,0x20,0x20,0x10,0x3E}, // (113) u - 0x00B5 Micro Sign
{ 0x06,0x0F,0x7F,0x00,0x7F}, // (114) - 0x00B6 Pilcrow Sign
{ 0x00,0x18,0x18,0x00,0x00}, // (115) . - 0x00B7 Middle Dot
{ 0x00,0x40,0x50,0x20,0x00}, // (116) - 0x00B8 Cedilla
{ 0x00,0x0A,0x0D,0x0A,0x00}, // (117) - 0x00BA Masculine Ordinal Indicator
{ 0x22,0x14,0x2A,0x14,0x08}, // (118) >> - 0x00BB Right-Pointing Double Angle Quotation Mark
{ 0x17,0x08,0x34,0x2A,0x7D}, // (119) /4 - 0x00BC Vulgar Fraction One Quarter
{ 0x17,0x08,0x04,0x6A,0x59}, // (120) /2 - 0x00BD Vulgar Fraction One Half
{ 0x30,0x48,0x45,0x40,0x20}, // (121) ? - 0x00BE Inverted Question Mark
{ 0x42,0x00,0x42,0x00,0x42}, // (122) - 0x00BF Bargraph - 0
{ 0x7E,0x42,0x00,0x42,0x00}, // (123) - 0x00BF Bargraph - 1
{ 0x7E,0x7E,0x00,0x42,0x00}, // (124) - 0x00BF Bargraph - 2
{ 0x7E,0x7E,0x7E,0x42,0x00}, // (125) - 0x00BF Bargraph - 3
{ 0x7E,0x7E,0x7E,0x7E,0x00}, // (126) - 0x00BF Bargraph - 4
{ 0x7E,0x7E,0x7E,0x7E,0x7E}, // (127) - 0x00BF Bargraph - 5
};
void i2c_OLED_send_cmd(uint8_t command) {
TWBR = ((F_CPU / 400000L) - 16) / 2; // change the I2C clock rate
i2c_writeReg(OLED_address, 0x80, (uint8_t)command);
}
void i2c_OLED_send_byte(uint8_t val) {
TWBR = ((F_CPU / 400000L) - 16) / 2; // change the I2C clock rate
i2c_writeReg(OLED_address, 0x40, (uint8_t)val);
}
void i2c_OLED_init(void){
i2c_OLED_send_cmd(0xae); //display off
i2c_OLED_send_cmd(0xa4); //SET All pixels OFF
// i2c_OLED_send_cmd(0xa5); //SET ALL pixels ON
delay(50);
i2c_OLED_send_cmd(0x20); //Set Memory Addressing Mode
i2c_OLED_send_cmd(0x02); //Set Memory Addressing Mode to Page addressing mode(RESET)
// i2c_OLED_send_cmd(0xa0); //colum address 0 mapped to SEG0 (POR)*** wires at bottom
i2c_OLED_send_cmd(0xa1); //colum address 127 mapped to SEG0 (POR) ** wires at top of board
// i2c_OLED_send_cmd(0xC0); // Scan from Right to Left (POR) *** wires at bottom
i2c_OLED_send_cmd(0xC8); // Scan from Left to Right ** wires at top
i2c_OLED_send_cmd(0xa6); // Set WHITE chars on BLACK backround
// i2c_OLED_send_cmd(0xa7); // Set BLACK chars on WHITE backround
i2c_OLED_send_cmd(0x81); // Setup CONTRAST CONTROL, following byte is the contrast Value
i2c_OLED_send_cmd(0xaf); // contrast value between 1 ( == dull) to 256 ( == bright)
// i2c_OLED_send_cmd(0xd3); // Display Offset :
// i2c_OLED_send_cmd(0x0); // 0
// delay(20);
// i2c_OLED_send_cmd(0x40); // Display start line [0;63] -> [0x40;0x7f]
// delay(20);
#ifdef DISPLAY_FONT_DSIZE
i2c_OLED_send_cmd(0xd6); // zoom
i2c_OLED_send_cmd(0x01); // on
#else
// i2c_OLED_send_cmd(0xd6); // zoom
// i2c_OLED_send_cmd(0x00); // off
#endif
delay(20);
i2c_OLED_send_cmd(0xaf); //display on
delay(20);
}
void i2c_OLED_send_char(unsigned char ascii){
unsigned char i;
for(i=0;i<5;i++){
buffer = pgm_read_byte(&(myFont[ascii - 32][i])); // call the macro to read ROM byte and put it in buffer
buffer ^= CHAR_FORMAT; // apply
i2c_OLED_send_byte(buffer);
}
i2c_OLED_send_byte(CHAR_FORMAT); // the gap
}
void i2c_OLED_send_string(const char *string){ // Sends a string of chars untill null terminator
unsigned char i=0;
while(*string){
for(i=0;i<5;i++){
buffer = pgm_read_byte(&(myFont[(*string)- 32][i])); // call the macro to read the ROM ASCII table
buffer ^= CHAR_FORMAT;
i2c_OLED_send_byte((unsigned char)buffer);
}
i2c_OLED_send_byte(CHAR_FORMAT); // the gap
*string++;
}
}
#ifndef SUPPRESS_OLED_I2C_128x64LOGO // Do we want the Logo displayed ?
void i2c_OLED_send_logo(void){
unsigned char i,j;
i2c_OLED_send_cmd(0xa6); //Set Normal Display
i2c_OLED_send_cmd(0xae); // Display OFF
i2c_OLED_send_cmd(0x20); // Set Memory Addressing Mode
i2c_OLED_send_cmd(0x00); // Set Memory Addressing Mode to Horizontal addressing mode
i2c_OLED_send_cmd(0xb0); // set page address to 0
i2c_OLED_send_cmd(0X40); // Display start line register to 0
i2c_OLED_send_cmd(0); // Set low col address to 0
i2c_OLED_send_cmd(0x10); // Set high col address to 0
for(uint16_t k=0; k<1024; k++) { // fill the display's RAM with graphic... 128*64 pixel picture
buffer = pgm_read_byte(&(LOGO[k]));
i2c_OLED_send_byte(buffer);
}
i2c_OLED_send_cmd(0x81); // Setup CONTRAST CONTROL, following byte is the contrast Value... always a 2 byte instruction
i2c_OLED_send_cmd(0x0); // Set contrast value to 0
i2c_OLED_send_cmd(0xaf); // display on
for(j=0; j<2; j++){
for(i=0x01; i<0xff; i++){
i2c_OLED_send_cmd(0x81); // Setup CONTRAST CONTROL, following byte is the contrast Value
i2c_OLED_send_cmd(i); // Set contrast value
delay(1);
}
for(i=0xff; i>0x01; i--){
i2c_OLED_send_cmd(0x81); // Setup CONTRAST CONTROL, following byte is the contrast Value
i2c_OLED_send_cmd(i); // Set contrast value
delay(1);
}
}
i2c_OLED_init();
i2c_clear_OLED();
}
#if defined (OLED_I2C_128x64LOGO_PERMANENT)
void i2c_OLED_Put_Logo(void){
unsigned char i,j;
i2c_OLED_send_cmd(0xa6); //Set Normal Display
i2c_OLED_send_cmd(0xae); // Display OFF
i2c_OLED_send_cmd(0x20); // Set Memory Addressing Mode
i2c_OLED_send_cmd(0x00); // Set Memory Addressing Mode to Horizontal addressing mode
i2c_OLED_send_cmd(0xb0); // set page address to 0
i2c_OLED_send_cmd(0X40); // Display start line register to 0
i2c_OLED_send_cmd(0); // Set low col address to 0
i2c_OLED_send_cmd(0x10); // Set high col address to 0
for(int i=0; i<1024; i++) { // fill the display's RAM with graphic... 128*64 pixel picture
buffer = pgm_read_byte(&(LOGO[i]));
i2c_OLED_send_byte(buffer);
}
i2c_OLED_send_cmd(0x81); // Setup CONTRAST CONTROL, following byte is the contrast Value... always a 2 byte instruction
i2c_OLED_send_cmd(250); // Here you can set the brightness 1 = dull, 255 is very bright
i2c_OLED_send_cmd(0xaf); // display on
}
#endif // OLED_I2C_128x64LOGO_PERMANENT
#endif // SUPPRESS_OLED_I2C_128x64LOGO
void i2c_OLED_set_XY(byte col, byte row) { // Not used in MW V2.0 but its here anyway!
i2c_OLED_send_cmd(0xb0+row); //set page address
i2c_OLED_send_cmd(0x00+(8*col&0x0f)); //set low col address
i2c_OLED_send_cmd(0x10+((8*col>>4)&0x0f)); //set high col address
}
void i2c_OLED_set_line(byte row) { // goto the beginning of a single row, compattible with LCD_CONFIG
i2c_OLED_send_cmd(0xb0+row); //set page address
i2c_OLED_send_cmd(0); //set low col address
i2c_OLED_send_cmd(0x10); //set high col address
}
void i2c_clear_OLED(void){
// unsigned char i;
// for(i=0;i<8;i++){
// i2c_OLED_set_XY(0,i);
// i2c_OLED_send_string(LINE_FILL_STRING);
// }
i2c_OLED_send_cmd(0xa6); //Set Normal Display
i2c_OLED_send_cmd(0xae); // Display OFF
i2c_OLED_send_cmd(0x20); // Set Memory Addressing Mode
i2c_OLED_send_cmd(0x00); // Set Memory Addressing Mode to Horizontal addressing mode
i2c_OLED_send_cmd(0xb0); // set page address to 0
i2c_OLED_send_cmd(0X40); // Display start line register to 0
i2c_OLED_send_cmd(0); // Set low col address to 0
i2c_OLED_send_cmd(0x10); // Set high col address to 0
for(uint16_t i=0; i<1024; i++) { // fill the display's RAM with graphic... 128*64 pixel picture
i2c_OLED_send_byte(0); // clear
}
i2c_OLED_send_cmd(0x81); // Setup CONTRAST CONTROL, following byte is the contrast Value... always a 2 byte instruction
i2c_OLED_send_cmd(200); // Here you can set the brightness 1 = dull, 255 is very bright
i2c_OLED_send_cmd(0xaf); // display on
}
#endif // OLED_I2C_128x64
#if defined(LCD_ETPP)
#define LCD_ETPP_ADDRESS 0x3B
// *********************
// i2c Eagle Tree Power Panel primitives
// *********************
void i2c_ETPP_init () {
i2c_rep_start(LCD_ETPP_ADDRESS<<1); // LCD_ETPP i2c address: 0x3B in 7 bit form. Shift left one bit and concatenate i2c write command bit of zero
i2c_write(0x00);// LCD_ETPP command register
i2c_write(0x24);// Function Set 001D0MSL D : data length for parallel interface only; M: 0 = 1x32 , 1 = 2x16; S: 0 = 1:18 multiplex drive mode, 1x32 or 2x16 character display, 1 = 1:9 multiplex drive mode, 1x16 character display; H: 0 = basic instruction set plus standard instruction set, 1 = basic instruction set plus extended instruction set
i2c_write(0x0C);// Display on 00001DCB D : 0 = Display Off, 1 = Display On; C : 0 = Underline Cursor Off, 1 = Underline Cursor On; B : 0 = Blinking Cursor Off, 1 = Blinking Cursor On
i2c_write(0x06);// Cursor Move 000001IS I : 0 = DDRAM or CGRAM address decrements by 1, cursor moves to the left, 1 = DDRAM or CGRAM address increments by 1, cursor moves to the right; S : 0 = display does not shift, 1 = display does shifts
LCDclear();
}
void i2c_ETPP_send_cmd (byte c) {
i2c_rep_start(LCD_ETPP_ADDRESS<<1); // I2C write direction
i2c_write(0x00);// LCD_ETPP command register
i2c_write(c);
}
void i2c_ETPP_send_char (char c) {
if (c > 0x0f) c |= 0x80; // LCD_ETPP uses character set "R", which has A->z mapped same as ascii + high bit; don't mess with custom chars.
i2c_rep_start(LCD_ETPP_ADDRESS<<1);// I2C write direction
i2c_write(0x40);// LCD_ETPP data register
i2c_write(c);
}
void i2c_ETPP_set_cursor (byte addr) {
i2c_ETPP_send_cmd(0x80 | addr); // High bit is "Set DDRAM" command, remaing bits are addr.
}
void i2c_ETPP_set_cursor (byte col, byte row) {
row = min(row,1);
col = min(col,15);
byte addr = col + row * 0x40; // Why 0x40? RAM in this controller has many more bytes than are displayed. In particular, the start of the second line (line 1 char 0) is 0x40 in DDRAM. The bytes between 0x0F (last char of line 1) and 0x40 are not displayable (unless the display is placed in marquee scroll mode)
i2c_ETPP_set_cursor(addr);
}
void i2c_ETPP_create_char (byte idx, uint8_t* array) {
i2c_ETPP_send_cmd(0x80); // CGRAM and DDRAM share an address register, but you can't set certain bits with the CGRAM address command. Use DDRAM address command to be sure high order address bits are zero.
i2c_ETPP_send_cmd(0x40 | byte(idx * 8));// Set CGRAM address
i2c_rep_start(LCD_ETPP_ADDRESS<<1);// I2C write direction
i2c_write(0x40);// LCD_ETPP data register
for (byte i = 0; i<8; i++) {i2c_write(*array); array++;}
}
static boolean charsInitialized; // chars for servo signals are initialized
void ETPP_barGraph(byte num, int val) { // num chars in graph; percent as 1 to 100
if (!charsInitialized) {
charsInitialized = true;
static byte bars[8] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x15,};
static byte less[8] = {0x00, 0x04, 0x0C, 0x1C, 0x0C, 0x04, 0x00, 0x15,};
static byte grt [8] = {0x00, 0x04, 0x06, 0x07, 0x06, 0x04, 0x00, 0x15,};
byte pattern = 0x10;
for (int8_t i = 0; i <= 5; i++) {
for (int8_t j = 0; j < 7; j++) {
bars[j] = pattern;
}
i2c_ETPP_create_char(i, bars);
pattern >>= 1;
}
i2c_ETPP_create_char(6, less);
i2c_ETPP_create_char(7, grt);
}
static char bar[16];
for (int8_t i = 0; i < num; i++) {bar[i] = 5;}
if (val < -100 || val > 100) {bar[0] = 6; bar[num] = 7;} // invalid
else if (val < 0) {bar[0] = 6;} // <...
else if (val >= 100) {bar[3] = 7;} // ...>
else {bar[val/(100/num)] = (val%(100/num))/5;} // ..|.
for (int8_t i = 0; i < num; i++) {
i2c_ETPP_send_char(bar[i]);
}
}
#endif //LCD_ETPP
#if defined(LCD_LCD03) // LCD_LCD03
#define LCD_LCD03_ADDRESS 0x63
// *********************
// I2C LCD03 primitives
// *********************
void i2c_LCD03_init () {
i2c_rep_start(LCD_LCD03_ADDRESS<<1); // The LCD03 is located on the I2C bus at address 0xC6
i2c_write(0x00);// Command register
i2c_write(04);// Hide cursor
i2c_write(12);// Clear screen
i2c_write(19);// Backlight on
}
void i2c_LCD03_send_cmd (byte c) {
i2c_rep_start(LCD_LCD03_ADDRESS<<1);
i2c_write(0x00);
i2c_write(c);
}
void i2c_LCD03_send_char (char c) {
i2c_rep_start(LCD_LCD03_ADDRESS<<1);
i2c_write(0x00);
i2c_write(c);
}
void i2c_LCD03_set_cursor (byte col, byte row) {
row = min(row,1);
col = min(col,15);
i2c_LCD03_send_cmd(03); // set cursor (row, column)
i2c_LCD03_send_cmd(row+1);
i2c_LCD03_send_cmd(col+1);
}
#endif // LCD_LCD03
#if defined(LCD_LCD03S) // LCD_LCD03S
// *********************
// LCD03S serial primitives
// *********************
void serial_LCD03_init () {
SerialWrite(LCD_SERIAL_PORT, 0x00 );// Command register
SerialWrite(LCD_SERIAL_PORT, 04 );// Hide cursor
SerialWrite(LCD_SERIAL_PORT, 12 );// Clear screen
SerialWrite(LCD_SERIAL_PORT, 19 );// Backlight on
}
void serial_LCD03_send_cmd (byte c) {
SerialWrite(LCD_SERIAL_PORT, 0x00 );// Command register
SerialWrite(LCD_SERIAL_PORT, c );
}
void serial_LCD03_send_char (char c) {
//SerialWrite(LCD_SERIAL_PORT, 0x00 );// Command register
SerialWrite(LCD_SERIAL_PORT, c );
}
void serial_LCD03_set_cursor (byte col, byte row) {
row = min(row,1);
col = min(col,15);
serial_LCD03_send_cmd(03); // set cursor (row, column)
serial_LCD03_send_char(row+1);
serial_LCD03_send_char(col+1);
}
#endif // LCD_LCD03S
#if defined(OLED_DIGOLE) // OLED_DIGOLE
#define OLED_DIGOLE_ADDRESS 0x27 // 7bit address
// *********************
// I2C DIGOLE primitives
// *********************
void i2c_OLED_DIGOLE_init () {
i2c_OLED_DIGOLE_send_string("CL"); // clear screen
// delayMicroseconds(500);
// i2c_OLED_DIGOLE_send_string("BL"); // backlight _
// i2c_write(0x01); // _ on
i2c_OLED_DIGOLE_send_string("CT"); // contrast _
i2c_write(100); // contrast [0;100]
// i2c_write('C'); i2c_write('T'); i2c_write(100); // contrast [0;100]
//i2c_OLED_DIGOLE_send_string("DSS"); // display start screen _
//i2c_write(0); // _ off
//i2c_OLED_DIGOLE_send_string("CS"); // show cursor _
//i2c_write(0); // _ off
//i2c_OLED_DIGOLE_printString("123456789.123456789.");
// delayMicroseconds(500);
// i2c_OLED_DIGOLE_send_string("MCD"); // manual command
// i2c_write(0x81); //ssd1306: set contrast to _
// i2c_OLED_DIGOLE_send_string("MCD"); // manual data
// i2c_write(0xFF); // _ value [0;255]
// delayMicroseconds(500);
}
void i2c_OLED_DIGOLE_send_byte (byte c) {
i2c_rep_start(OLED_DIGOLE_ADDRESS<<1);
i2c_write(0x00);
i2c_write(c);
}
void i2c_OLED_DIGOLE_send_string(const char *string){ // Sends a string of chars but not the null terminator
i2c_rep_start(OLED_DIGOLE_ADDRESS<<1);
i2c_write(0x00);
while(*string){
i2c_write(*string);
*string++;
}
//delayMicroseconds(10);
}
void i2c_OLED_DIGOLE_printString(const char *string){ // prints a string of chars
// i2c_rep_start(OLED_DIGOLE_ADDRESS<<1);
// i2c_write(0x00);
// i2c_write('T');
// i2c_write('T');
i2c_OLED_DIGOLE_send_string("TT"); // type text _
while(*string){
i2c_write(*string);
*string++;
}
i2c_write(0x00);
//delayMicroseconds(10);
}
void i2c_OLED_DIGOLE_printChar(char c){ // prints a single char - should be printable
i2c_rep_start(OLED_DIGOLE_ADDRESS<<1);
i2c_write(0x00);
i2c_write('T');
i2c_write('T');
i2c_write(c);
i2c_write(0x00);
//delayMicroseconds(10);
}
void i2c_OLED_DIGOLE_clear(void) {
i2c_OLED_DIGOLE_send_string("CLSF"); // set font _
#ifdef DISPLAY_FONT_DSIZE
i2c_write(0); // _ one of 6,10,18,51,120,123,0 - font 0 is 5x16 linesxrows; font 10 is 7x21
#else
i2c_write(10);
#endif
}
#endif // OLED_DIGOLE
/* ------------------------------------------------------------------ */
void LCDprint(uint8_t i) {
#ifdef DISPLAY_FONT_DSIZE
if (! line_is_valid) return;
#endif
#if defined(LCD_SERIAL3W)
// 1000000 / 9600 = 104 microseconds at 9600 baud.
// we set it below to take some margin with the running interrupts
#define BITDELAY 102
LCDPIN_OFF;
delayMicroseconds(BITDELAY);
for (uint8_t mask = 0x01; mask; mask <<= 1) {
if (i & mask) {LCDPIN_ON;} else {LCDPIN_OFF;} // choose bit
delayMicroseconds(BITDELAY);
}
LCDPIN_ON //switch ON digital PIN 0
delayMicroseconds(BITDELAY);
#elif defined(LCD_TEXTSTAR) || defined(LCD_VT100) || defined(LCD_TTY)
SerialWrite(LCD_SERIAL_PORT, i );
#elif defined(LCD_ETPP)
i2c_ETPP_send_char(i);
#elif defined(LCD_LCD03)
i2c_LCD03_send_char(i);
#elif defined(LCD_LCD03S)
serial_LCD03_send_char(i);
#elif defined(OLED_I2C_128x64)
i2c_OLED_send_char(i);
#elif defined(OLED_DIGOLE)
i2c_OLED_DIGOLE_printChar(i);
#endif
}
void LCDprintChar(const char *s) {
#ifdef OLED_DIGOLE
#ifdef DISPLAY_FONT_DSIZE
if (! line_is_valid) return;
#endif
i2c_OLED_DIGOLE_printString(s);
#else
while (*s) {LCDprint(*s++);}
#endif
}
void LCDcrlf() {
#if ( defined(OLED_I2C_128x64)|| defined(LCD_VT100) || defined(OLED_DIGOLE) )
// do nothing - these displays use line positioning
#else
LCDprintChar("\r\n");
#endif
}
void LCDclear() {
#if defined(LCD_SERIAL3W)
LCDprint(0xFE);LCDprint(0x01);delay(10);LCDprint(0xFE);LCDprint(0x02);delay(10); // clear screen, cursor line 1, pos 0 for serial LCD Sparkfun - contrib by flyman777
#elif defined(LCD_TEXTSTAR)
LCDprint(0x0c);
#elif defined(LCD_VT100)
LCDcrlf();
LCDprint(0x1B); LCDprint(0x5B); LCDprintChar("2J"); //ED2
LCDcrlf();
LCDprint(0x1B); LCDprint(0x5B); LCDprintChar("1;1H");//cursor top left
#elif defined(LCD_TTY)
LCDcrlf();
#elif defined(LCD_ETPP)
i2c_ETPP_send_cmd(0x01); // Clear display command, which does NOT clear an Eagle Tree because character set "R" has a '>' at 0x20
for (byte i = 0; i<80; i++) i2c_ETPP_send_char(' ');// Blanks for all 80 bytes of RAM in the controller, not just the 2x16 display
#elif defined(LCD_LCD03)
i2c_LCD03_send_cmd(12); // clear screen
#elif defined(LCD_LCD03S)
serial_LCD03_send_cmd(12); // clear screen
#elif defined(OLED_I2C_128x64)
i2c_clear_OLED();
#elif defined(OLED_DIGOLE)
i2c_OLED_DIGOLE_clear();
#endif
#if ( defined(LOG_PERMANENT) && defined(DISPLAY_MULTILINE) )
lnr = 0;
#endif
}
void LCDsetLine(byte line) { // Line = 1 or 2 - vt100 has lines 1-99
#ifdef DISPLAY_FONT_DSIZE
if (line >=1 && line <= (MULTILINE_PRE+MULTILINE_POST)) {
line_is_valid = 1;
} else {
line_is_valid = 0;
return;
}
#endif
#if defined(LCD_SERIAL3W)
if (line==1) {LCDprint(0xFE);LCDprint(128);} else {LCDprint(0xFE);LCDprint(192);}
#elif defined(LCD_TEXTSTAR)
LCDcrlf(); LCDprint(0xfe);LCDprint('L');LCDprint(line);
#elif defined(LCD_VT100)
#ifndef DEBUG // sanity check for production only. Debug runs with all possible side effects
if (line<1 || line>(MULTILINE_PRE+MULTILINE_POST)) line = 1;
#endif
LCDcrlf();
LCDprint(0x1b); LCDprint(0x5b);
LCDprint( digit10(line) );
LCDprint( digit1(line) );
LCDprintChar(";1H"); //pos line 1
LCDprint(0x1b); LCDprint(0x5b); LCDprintChar("2K");//EL2
#elif defined(LCD_TTY)
LCDcrlf();
#elif defined(LCD_ETPP)
i2c_ETPP_set_cursor(0,line-1);
#elif defined(LCD_LCD03)
i2c_LCD03_set_cursor(0,line-1);
#elif defined(LCD_LCD03S)
serial_LCD03_set_cursor(0,line-1);
#elif defined(OLED_I2C_128x64)
// #ifndef DEBUG // sanity check for production only. Debug runs with all possible side effects
// if (line<1 || line>(MULTILINE_PRE+MULTILINE_POST)) line = 1;
// #endif
i2c_OLED_set_line(line-1);
#elif defined(OLED_DIGOLE)
i2c_OLED_DIGOLE_send_string("TP"); i2c_write(0);i2c_write(line-1); // first column is 0, line numbers start with 0
#endif
}
#if defined(LCD_VT100)
void LCDattributesBold() {LCDprint(0x1b); LCDprint(0x5b); LCDprintChar("1m");}
void LCDattributesReverse() {LCDprint(0x1b); LCDprint(0x5b); LCDprintChar("7m");}
void LCDattributesOff() {LCDprint(0x1b); LCDprint(0x5b); LCDprintChar("0m");}
void LCDalarmAndReverse() {LCDattributesReverse(); if (f.ARMED) { LCDprint(0x07); }; } // audio for errors only while armed
#elif defined(OLED_I2C_128x64)
void LCDattributesBold() {/*CHAR_FORMAT = 0b01111111; */}
void LCDattributesReverse() {CHAR_FORMAT = 0b01111111; }
void LCDattributesOff() {CHAR_FORMAT = 0; }
void LCDalarmAndReverse() {LCDattributesReverse(); }
#else
void LCDattributesBold() {}
void LCDattributesReverse() {}
void LCDattributesOff() {}
void LCDalarmAndReverse() {}
#endif
void LCDprintInt16(int16_t v) {
uint16_t unit;
char line[7]; // = " ";
if (v < 0 ) {
unit = -v;
line[0] = '-';
} else {
unit = v;
line[0] = ' ';
}
line[1] = digit10000(unit);
line[2] = digit1000(unit);
line[3] = digit100(unit);
line[4] = digit10(unit);
line[5] = digit1(unit);
line[6] = 0;
LCDprintChar(line);
}
void lcdprint_uint32(uint32_t v) {
static char line[14] = "-.---.---.---";
// 0 2 4 6 8 12
line[0] = '0' + v / 1000000000;
line[2] = '0' + v / 100000000 - (v/1000000000) * 10;
line[3] = '0' + v / 10000000 - (v/100000000) * 10;
line[4] = '0' + v / 1000000 - (v/10000000) * 10;
line[6] = '0' + v / 100000 - (v/1000000) * 10;
line[7] = '0' + v / 10000 - (v/100000) * 10;
line[8] = '0' + v / 1000 - (v/10000) * 10;
line[10] = '0' + v / 100 - (v/1000) * 10;
line[11] = '0' + v / 10 - (v/100) * 10;
line[12] = '0' + v - (v/10) * 10;
LCDprintChar(line);
}
void initLCD() {
blinkLED(20,30,1);
SET_ALARM_BUZZER(ALRM_FAC_CONFIRM, ALRM_LVL_CONFIRM_1);
#if defined(LCD_SERIAL3W)
SerialEnd(0);
//init LCD
PINMODE_LCD;//TX PIN for LCD = Arduino RX PIN (more convenient to connect a servo plug on arduino pro mini)
#elif defined(LCD_TEXTSTAR)
// Cat's Whisker Technologies 'TextStar' Module CW-LCD-02
// http://cats-whisker.com/resources/documents/cw-lcd-02_datasheet.pdf
//LCDprint(0xFE);LCDprint(0x43);LCDprint(0x02); //cursor blink mode
LCDprint(0xFE);LCDprint('R');//reset
#elif defined(LCD_VT100)
//LCDprint(0x1b); LCDprint('c'); //RIS
#elif defined(LCD_TTY)
; // do nothing special to init the serial tty device
#elif defined(LCD_ETPP)
// Eagle Tree Power Panel - I2C & Daylight Readable LCD
i2c_ETPP_init();
#elif defined(LCD_LCD03)
// LCD03 - I2C LCD
// http://www.robot-electronics.co.uk/htm/Lcd03tech.htm
i2c_LCD03_init();
#elif defined(LCD_LCD03S)
// LCD03 - SERIAL LCD
// http://www.robot-electronics.co.uk/htm/Lcd03tech.htm
serial_LCD03_init();
#elif defined(OLED_I2C_128x64)
i2c_OLED_init();
#ifndef SUPPRESS_OLED_I2C_128x64LOGO
i2c_OLED_send_logo();
#if defined (OLED_I2C_128x64LOGO_PERMANENT)
i2c_OLED_Put_Logo();
#endif
#endif
#elif defined(OLED_DIGOLE)
i2c_OLED_DIGOLE_init();
#endif
#ifndef OLED_I2C_128x64LOGO_PERMANENT
LCDclear();
strcpy_P(line1,PSTR( BOARD_NAME )); // user defined macro
// 0123456789.123456
line1[12] = digit100(VERSION);
line1[14] = digit10(VERSION);
line1[15] = digit1(VERSION);
LCDattributesBold();
LCDsetLine(1); LCDprintChar(line1);
strcpy_P(line2,PSTR(" Unknown Modell"));
#if defined(TRI)
strcpy_P(line2,PSTR(" TRICopter"));
#elif defined(QUADP)
strcpy_P(line2,PSTR(" QUAD-P"));
#elif defined(QUADX)
strcpy_P(line2,PSTR(" QUAD-X"));
#elif defined(BI)
strcpy_P(line2,PSTR(" BICopter"));
#elif defined(Y6)
strcpy_P(line2,PSTR(" Y6"));
#elif defined(HEX6)
strcpy_P(line2,PSTR(" HEX6"));
#elif defined(FLYING_WING)
strcpy_P(line2,PSTR(" FLYING_WING"));
#elif defined(Y4)
strcpy_P(line2,PSTR(" Y4"));
#elif defined(HEX6X)
strcpy_P(line2,PSTR(" HEX6-X"));
#elif defined(HEX6H)
strcpy_P(line2,PSTR(" HEX6-H"));
#elif defined(OCTOX8)
strcpy_P(line2,PSTR(" OCTOX8"));
#elif defined(OCTOFLATP)
strcpy_P(line2,PSTR(" OCTOFLAT-P"));
#elif defined(OCTOFLATX)
strcpy_P(line2,PSTR(" OCTOFLAT-X"));
#elif defined (AIRPLANE)
strcpy_P(line2,PSTR(" AIRPLANE"));
#elif defined (HELI_120_CCPM)
strcpy_P(line2,PSTR(" HELI_120_CCPM"));
#elif defined (HELI_90_DEG)
strcpy_P(line2,PSTR(" HELI_90_DEG"));
#elif defined(VTAIL4)
strcpy_P(line2,PSTR(" VTAIL Quad"));
#endif
//LCDattributesBold();
LCDsetLine(2); LCDprintChar(line2);
LCDattributesOff();
delay(2500);
#endif // OLED_I2C_128x64LOGO_PERMANENT
#if defined(LCD_TEXTSTAR) || defined(LCD_VT100)
//delay(2500);
LCDclear();
#endif
#if defined(OLED_I2C_128x64) && !(defined(OLED_I2C_128x64LOGO_PERMANENT)) && defined(NEW_OLED_FONT) && !(defined(LCD_TELEMETRY))
// no need to diplay this, if LCD telemetry is enabled
// optional instruction on the display......
LCDsetLine(4); LCDprintChar("To ENTER CONFIG ");// 21 characters on each line
LCDsetLine(5); LCDprintChar("YAW RIGHT & PITCH FWD");
LCDsetLine(7); LCDprintChar("To SAVE CONFIG ");
LCDsetLine(8); LCDprintChar("YAW LEFT & PITCH FWD ");
#endif
// if (cycleTime == 0) { //Called from Setup()
// strcpy_P(line1,PSTR("Ready to Fly")); LCDsetLine(2); LCDprintChar(line1);
// } else {
// strcpy_P(line1,PSTR("Config All Parms")); LCDsetLine(2); LCDprintChar(line1);
// }
#ifdef LCD_TELEMETRY_STEP
// load the first page of the step sequence
LCDclear();
telemetry = telemetryStepSequence[telemetryStepIndex]; //[++telemetryStepIndex % strlen(telemetryStepSequence)];
#endif
}
#endif //Support functions for LCD_CONF and LCD_TELEMETRY
// -------------------- configuration menu to LCD over serial/i2c ----------------------------------
#ifdef LCD_CONF
static uint8_t reset_to_defaults;
typedef void (*formatter_func_ptr)(void *, uint8_t, uint8_t);
typedef void (*inc_func_ptr)(void *, int16_t);
/*typedef*/struct lcd_type_desc_t {
formatter_func_ptr fmt;
inc_func_ptr inc;
};
static lcd_type_desc_t LTU8 = {&__u8Fmt, &__u8Inc};
static lcd_type_desc_t LTS8 = {&__s8BitsFmt, &__s8Inc};
static lcd_type_desc_t LTU16 = {&__u16Fmt, &__u16Inc};
static lcd_type_desc_t LTS16 = {&__s16Fmt, &__s16Inc};
static lcd_type_desc_t LPMM = {&__upMFmt, &__nullInc};
//static lcd_type_desc_t LPMS = {&__upSFmt, &__nullInc};
static lcd_type_desc_t LAUX1 = {&__uAuxFmt1, &__u16Inc};
static lcd_type_desc_t LAUX2 = {&__uAuxFmt2, &__u16Inc};
static lcd_type_desc_t LAUX3 = {&__uAuxFmt3, &__u16Inc};
static lcd_type_desc_t LAUX4 = {&__uAuxFmt4, &__u16Inc};
/*typedef*/struct lcd_param_def_t {
lcd_type_desc_t * type;
uint8_t decimal;
uint8_t multiplier;
uint16_t increment;
};
//typedef struct lcd_param_t{
// char* paramText;
// void * var;
// lcd_param_def_t * def;
//};
// ************************************************************************************************************
// LCD Layout definition
// ************************************************************************************************************
// Descriptors
static lcd_param_def_t __P = {<U8, 1, 1, 1};
static lcd_param_def_t __I = {<U8, 3, 1, 1};
static lcd_param_def_t __D = {<U8, 0, 1, 1};
static lcd_param_def_t __RC = {<U8, 2, 1, 1};
static lcd_param_def_t __PM = {&LPMM, 1, 1, 0};
//static lcd_param_def_t __PS = {&LPMS, 1, 1, 0};
static lcd_param_def_t __PT = {<U8, 0, 1, 1};
static lcd_param_def_t __VB = {<U8, 1, 1, 0};
static lcd_param_def_t __L = {<U8, 0, 1, 0};
static lcd_param_def_t __FS = {<U8, 1, 1, 0};
static lcd_param_def_t __SE = {<U16, 0, 1, 10};
static lcd_param_def_t __SE1 = {<U16, 0, 1, 1};
static lcd_param_def_t __ST = {<S16, 0, 1, 10};
static lcd_param_def_t __AUX1 = {&LAUX1, 0, 1, 1};
static lcd_param_def_t __AUX2 = {&LAUX2, 0, 1, 8};
static lcd_param_def_t __AUX3 = {&LAUX3, 0, 1, 64};
static lcd_param_def_t __AUX4 = {&LAUX4, 0, 1, 512};
static lcd_param_def_t __BITS = {<S8, 0, 1, 1};
// Program Space Strings - These sit in program flash, not SRAM.
// 0123456789
const char PROGMEM lcd_param_text01 [] = "Pit&Roll P";
const char PROGMEM lcd_param_text02 [] = "Roll P";
const char PROGMEM lcd_param_text03 [] = "Roll I";
const char PROGMEM lcd_param_text04 [] = "Roll D";
const char PROGMEM lcd_param_text05 [] = "Pitch P";
const char PROGMEM lcd_param_text06 [] = "Pitch I";
const char PROGMEM lcd_param_text07 [] = "Pitch D";
const char PROGMEM lcd_param_text08 [] = "Yaw P";
const char PROGMEM lcd_param_text09 [] = "Yaw I";
const char PROGMEM lcd_param_text10 [] = "Yaw D";
#if BARO
const char PROGMEM lcd_param_text11 [] = "Alt P";
const char PROGMEM lcd_param_text12 [] = "Alt I";
const char PROGMEM lcd_param_text13 [] = "Alt D";
const char PROGMEM lcd_param_text14 [] = "Vel P";
const char PROGMEM lcd_param_text15 [] = "Vel I";
const char PROGMEM lcd_param_text16 [] = "Vel D";
#endif
const char PROGMEM lcd_param_text17 [] = "Ang/Hor P";
const char PROGMEM lcd_param_text18 [] = "Ang/Hor I";
const char PROGMEM lcd_param_text188[] = "Ang/Hor D";
const char PROGMEM lcd_param_text19 [] = "Mag P";