Hello Stan I tried to understand the format of the output you wanted but didn't quite understand it. The KL has turned out not to be as friendly as I thought it would be.

Fork of SLCD by Stanley Cohen

Committer:
star297
Date:
Mon Jan 20 21:08:32 2014 +0000
Revision:
1:1579bcd31410
Parent:
0:d04758e76d5b
Child:
2:6a5095c98da1
Child:
3:f70873bc6121
added functions

Who changed what in which revision?

UserRevisionLine numberNew contents of line
Sissors 0:d04758e76d5b 1 #include "SLCD.h"
star297 1:1579bcd31410 2 #include "LCDconfig.h"
Sissors 0:d04758e76d5b 3
Sissors 0:d04758e76d5b 4
Sissors 0:d04758e76d5b 5 const uint8_t WF_ORDERING_TABLE[ ] =
Sissors 0:d04758e76d5b 6 {
Sissors 0:d04758e76d5b 7 CHAR1a, // LCD81 --- Pin:5 LCDnAddress=51
Sissors 0:d04758e76d5b 8 CHAR1b, // LCD82 --- Pin:6 LCDnAddress=52
Sissors 0:d04758e76d5b 9 CHAR2a, // LCD83 --- Pin:7 LCDnAddress=53
Sissors 0:d04758e76d5b 10 CHAR2b, // LCD84 --- Pin:8 LCDnAddress=54
Sissors 0:d04758e76d5b 11 CHAR3a, // LCD85 --- Pin:9 LCDnAddress=55
star297 1:1579bcd31410 12 CHAR3b, // LCD86 --- Pin:10 LCDnAddress=56
star297 1:1579bcd31410 13 CHAR4a, // LCD87 --- Pin:11 LCDnAddress=57
star297 1:1579bcd31410 14 CHAR4b, // LCD88 --- Pin:12 LCDnAddress=58
star297 1:1579bcd31410 15 CHARCOM0, // LCD77 --- Pin:1 LCDnAddress=4D
star297 1:1579bcd31410 16 CHARCOM1, // LCD78 --- Pin:2 LCDnAddress=4E
star297 1:1579bcd31410 17 CHARCOM2, // LCD79 --- Pin:3 LCDnAddress=4F
star297 1:1579bcd31410 18 CHARCOM3, // LCD80 --- Pin:4 LCDnAddress=50
Sissors 0:d04758e76d5b 19 };
Sissors 0:d04758e76d5b 20
Sissors 0:d04758e76d5b 21 const char ASCII_TO_WF_CODIFICATION_TABLE [ ] =
Sissors 0:d04758e76d5b 22 {
star297 1:1579bcd31410 23
star297 1:1579bcd31410 24 /*
star297 1:1579bcd31410 25 segA
star297 1:1579bcd31410 26 ________
star297 1:1579bcd31410 27 | |
star297 1:1579bcd31410 28 segF | | segB
star297 1:1579bcd31410 29 | |
star297 1:1579bcd31410 30 -segG--
star297 1:1579bcd31410 31 | |
star297 1:1579bcd31410 32 segE | | segC
star297 1:1579bcd31410 33 |________|
star297 1:1579bcd31410 34 segD
star297 1:1579bcd31410 35 */
star297 1:1579bcd31410 36
Sissors 0:d04758e76d5b 37 ( SEGD+ SEGE+ SEGF+!SEGG) , ( SEGC+ SEGB+ SEGA) ,//Char = 0, offset=0
Sissors 0:d04758e76d5b 38 (!SEGD+!SEGE+!SEGF+!SEGG) , ( SEGC+ SEGB+!SEGA) ,//Char = 1, offset=4
Sissors 0:d04758e76d5b 39 ( SEGD+ SEGE+!SEGF+ SEGG) , (!SEGC+ SEGB+ SEGA) ,//Char = 2, offset=8
Sissors 0:d04758e76d5b 40 ( SEGD+!SEGE+!SEGF+ SEGG) , ( SEGC+ SEGB+ SEGA) ,//Char = 3, offset=12
Sissors 0:d04758e76d5b 41 (!SEGD+!SEGE+ SEGF+ SEGG) , ( SEGC+ SEGB+!SEGA) ,//Char = 4, offset=16
Sissors 0:d04758e76d5b 42 ( SEGD+!SEGE+ SEGF+ SEGG) , ( SEGC+!SEGB+ SEGA) ,//Char = 5, offset=20
Sissors 0:d04758e76d5b 43 ( SEGD+ SEGE+ SEGF+ SEGG) , ( SEGC+!SEGB+ SEGA) ,//Char = 6, offset=24
Sissors 0:d04758e76d5b 44 (!SEGD+!SEGE+!SEGF+!SEGG) , ( SEGC+ SEGB+ SEGA) ,//Char = 7, offset=28
Sissors 0:d04758e76d5b 45 ( SEGD+ SEGE+ SEGF+ SEGG) , ( SEGC+ SEGB+ SEGA) ,//Char = 8, offset=32
Sissors 0:d04758e76d5b 46 ( SEGD+!SEGE+ SEGF+ SEGG) , ( SEGC+ SEGB+ SEGA) ,//Char = 9, offset=36
Sissors 0:d04758e76d5b 47 (!SEGD+!SEGE+!SEGF+!SEGG) , (!SEGC+!SEGB+!SEGA) ,//Char = :, offset=40
Sissors 0:d04758e76d5b 48 (!SEGD+!SEGE+!SEGF+!SEGG) , (!SEGC+!SEGB+!SEGA) ,//Char = ;, offset=44
Sissors 0:d04758e76d5b 49 (!SEGD+!SEGE+!SEGF+!SEGG) , (!SEGC+!SEGB+!SEGA) ,//Char = <, offset=48
Sissors 0:d04758e76d5b 50 ( SEGD+!SEGE+!SEGF+ SEGG) , (!SEGC+!SEGB+!SEGA) ,//Char = =, offset=52
Sissors 0:d04758e76d5b 51 (!SEGD+!SEGE+!SEGF+!SEGG) , (!SEGC+!SEGB+!SEGA) ,//Char = >, offset=56
Sissors 0:d04758e76d5b 52 (!SEGD+!SEGE+!SEGF+!SEGG) , (!SEGC+!SEGB+ SEGA) ,//Char = ?, offset=60
Sissors 0:d04758e76d5b 53 ( SEGD+ SEGE+ SEGF+ SEGG) , ( SEGC+ SEGB+ SEGA) ,//Char = @, offset=64
Sissors 0:d04758e76d5b 54 (!SEGD+ SEGE+ SEGF+ SEGG) , ( SEGC+ SEGB+ SEGA) ,//Char = A, offset=68
Sissors 0:d04758e76d5b 55 ( SEGD+ SEGE+ SEGF+ SEGG) , ( SEGC+!SEGB+!SEGA) ,//Char = B, offset=72
Sissors 0:d04758e76d5b 56 ( SEGD+ SEGE+ SEGF+!SEGG) , (!SEGC+!SEGB+ SEGA) ,//Char = C, offset=76
star297 1:1579bcd31410 57 ( SEGD+ SEGE+!SEGF+ SEGG) , ( SEGC+ SEGB+!SEGA) ,//Char = D, offset=80
Sissors 0:d04758e76d5b 58 ( SEGD+ SEGE+ SEGF+ SEGG) , (!SEGC+!SEGB+ SEGA) ,//Char = E, offset=84
Sissors 0:d04758e76d5b 59 (!SEGD+ SEGE+ SEGF+ SEGG) , (!SEGC+!SEGB+ SEGA) ,//Char = F, offset=88
Sissors 0:d04758e76d5b 60 ( SEGD+ SEGE+ SEGF+ SEGG) , ( SEGC+!SEGB+ SEGA) ,//Char = G, offset=92
Sissors 0:d04758e76d5b 61 (!SEGD+ SEGE+ SEGF+ SEGG) , ( SEGC+ SEGB+!SEGA) ,//Char = H, offset=96
Sissors 0:d04758e76d5b 62 (!SEGD+!SEGE+!SEGF+!SEGG) , ( SEGC+!SEGB+!SEGA) ,//Char = I, offset=100
Sissors 0:d04758e76d5b 63 ( SEGD+ SEGE+!SEGF+!SEGG) , ( SEGC+ SEGB+!SEGA) ,//Char = J, offset=104
star297 1:1579bcd31410 64 (!SEGD+ SEGE+ SEGF+ SEGG) , ( SEGC+!SEGB+ SEGA) ,//Char = K, offset=108
Sissors 0:d04758e76d5b 65 ( SEGD+ SEGE+ SEGF+!SEGG) , (!SEGC+!SEGB+!SEGA) ,//Char = L, offset=112
Sissors 0:d04758e76d5b 66 (!SEGD+ SEGE+ SEGF+!SEGG) , ( SEGC+ SEGB+!SEGA) ,//Char = M, offset=116
Sissors 0:d04758e76d5b 67 (!SEGD+ SEGE+!SEGF+ SEGG) , ( SEGC+!SEGB+!SEGA) ,//Char = N, offset=120
Sissors 0:d04758e76d5b 68 ( SEGD+ SEGE+!SEGF+ SEGG) , ( SEGC+!SEGB+!SEGA) ,//Char = O, offset=124
star297 1:1579bcd31410 69 (!SEGD+ SEGE+ SEGF+ SEGG) , (!SEGC+ SEGB+ SEGA) ,//Char = P, offset=128
Sissors 0:d04758e76d5b 70 ( SEGD+!SEGE+ SEGF+ SEGG) , ( SEGC+ SEGB+ SEGA) ,//Char = Q, offset=132
star297 1:1579bcd31410 71 (!SEGD+ SEGE+!SEGF+ SEGG) , (!SEGC+!SEGB+!SEGA) ,//Char = R, offset=136
Sissors 0:d04758e76d5b 72 ( SEGD+!SEGE+ SEGF+ SEGG) , ( SEGC+!SEGB+ SEGA) ,//Char = S, offset=140
Sissors 0:d04758e76d5b 73 ( SEGD+ SEGE+ SEGF+ SEGG) , (!SEGC+!SEGB+!SEGA) ,//Char = T, offset=144
Sissors 0:d04758e76d5b 74 ( SEGD+ SEGE+ SEGF+!SEGG) , ( SEGC+ SEGB+!SEGA) ,//Char = U, offset=148
star297 1:1579bcd31410 75 ( SEGD+ SEGE+!SEGF+!SEGG) , ( SEGC+!SEGB+!SEGA) ,//Char = V, offset=152
star297 1:1579bcd31410 76 ( SEGD+ SEGE+ SEGF+!SEGG) , ( SEGC+ SEGB+!SEGA) ,//Char = W, offset=156
star297 1:1579bcd31410 77 (!SEGD+ SEGE+ SEGF+ SEGG) , ( SEGC+ SEGB+!SEGA) ,//Char = X, offset=160
star297 1:1579bcd31410 78 ( SEGD+!SEGE+ SEGF+ SEGG) , ( SEGC+ SEGB+!SEGA) ,//Char = Y, offset=164
star297 1:1579bcd31410 79 ( SEGD+!SEGE+!SEGF+ SEGG) , (!SEGC+!SEGB+!SEGA) ,//Char = Z, offset=168
Sissors 0:d04758e76d5b 80 ( SEGD+!SEGE+!SEGF+!SEGG) , (!SEGC+!SEGB+ SEGA) ,//Char = [, offset=172
Sissors 0:d04758e76d5b 81 ( SEGD+!SEGE+!SEGF+!SEGG) , (!SEGC+!SEGB+ SEGA) ,//Char = \, offset=176
Sissors 0:d04758e76d5b 82 ( SEGD+!SEGE+!SEGF+!SEGG) , (!SEGC+!SEGB+ SEGA) ,//Char = ], offset=180
Sissors 0:d04758e76d5b 83 ( SEGD+!SEGE+!SEGF+!SEGG) , (!SEGC+!SEGB+ SEGA) ,//Char = ^, offset=184
Sissors 0:d04758e76d5b 84 ( SEGD+!SEGE+!SEGF+!SEGG) , (!SEGC+!SEGB+ SEGA) ,//Char = _, offset=188
Sissors 0:d04758e76d5b 85 ( SEGD+!SEGE+!SEGF+!SEGG) , (!SEGC+!SEGB+ SEGA) ,//Char = `, offset=192
Sissors 0:d04758e76d5b 86 };
Sissors 0:d04758e76d5b 87
Sissors 0:d04758e76d5b 88 SLCD::SLCD() {
Sissors 0:d04758e76d5b 89 init();
star297 1:1579bcd31410 90 bLCD_CharPosition = 0;
Sissors 0:d04758e76d5b 91 }
Sissors 0:d04758e76d5b 92
star297 1:1579bcd31410 93 int SLCD::_putc(int c) {
star297 1:1579bcd31410 94 LCD_Write_Char(c);
star297 1:1579bcd31410 95 return 0;
star297 1:1579bcd31410 96 }
Sissors 0:d04758e76d5b 97
Sissors 0:d04758e76d5b 98 void SLCD::init(){
Sissors 0:d04758e76d5b 99 SIM->SCGC5 |= SIM_SCGC5_SLCD_MASK | SIM_SCGC5_PORTB_MASK | SIM_SCGC5_PORTC_MASK | SIM_SCGC5_PORTD_MASK | SIM_SCGC5_PORTE_MASK;
Sissors 0:d04758e76d5b 100
star297 1:1579bcd31410 101 // configure pins for LCD operation
Sissors 0:d04758e76d5b 102 PORTC->PCR[20] = 0x00000000; //VLL2
Sissors 0:d04758e76d5b 103 PORTC->PCR[21] = 0x00000000; //VLL1
Sissors 0:d04758e76d5b 104 PORTC->PCR[22] = 0x00000000; //VCAP2
Sissors 0:d04758e76d5b 105 PORTC->PCR[23] = 0x00000000; //VCAP1
Sissors 0:d04758e76d5b 106
Sissors 0:d04758e76d5b 107
Sissors 0:d04758e76d5b 108
Sissors 0:d04758e76d5b 109 // Enable IRCLK
Sissors 0:d04758e76d5b 110 MCG->C1 = MCG_C1_IRCLKEN_MASK | MCG_C1_IREFSTEN_MASK;
Sissors 0:d04758e76d5b 111 MCG->C2 &= ~MCG_C2_IRCS_MASK ; //0 32KHZ internal reference clock; 1= 4MHz irc
Sissors 0:d04758e76d5b 112
Sissors 0:d04758e76d5b 113 LCD->GCR = 0x0;
Sissors 0:d04758e76d5b 114 LCD->AR = 0x0;
Sissors 0:d04758e76d5b 115
star297 1:1579bcd31410 116 // LCD configurartion according to */
star297 1:1579bcd31410 117 LCD->GCR = ( LCD_GCR_RVEN_MASK*_LCDRVEN
star297 1:1579bcd31410 118 | LCD_GCR_RVTRIM(_LCDRVTRIM) //0-15
Sissors 0:d04758e76d5b 119 | LCD_GCR_CPSEL_MASK*_LCDCPSEL
star297 1:1579bcd31410 120 | LCD_GCR_LADJ(_LCDLOADADJUST) //0-3
star297 1:1579bcd31410 121 | LCD_GCR_VSUPPLY_MASK*_LCDSUPPLY //0-1
Sissors 0:d04758e76d5b 122 |!LCD_GCR_FDCIEN_MASK
star297 1:1579bcd31410 123 | LCD_GCR_ALTDIV(_LCDALTDIV) //0-3
Sissors 0:d04758e76d5b 124 |!LCD_GCR_LCDDOZE_MASK
Sissors 0:d04758e76d5b 125 |!LCD_GCR_LCDSTP_MASK
star297 1:1579bcd31410 126 |!LCD_GCR_LCDEN_MASK //WILL BE ENABLE ON SUBSEQUENT STEP
Sissors 0:d04758e76d5b 127 | LCD_GCR_SOURCE_MASK*_LCDCLKSOURCE
Sissors 0:d04758e76d5b 128 | LCD_GCR_ALTSOURCE_MASK*_LCDALRCLKSOURCE
Sissors 0:d04758e76d5b 129 | LCD_GCR_LCLK(_LCDLCK) //0-7
Sissors 0:d04758e76d5b 130 | LCD_GCR_DUTY(_LCDDUTY) //0-7
Sissors 0:d04758e76d5b 131 );
Sissors 0:d04758e76d5b 132
star297 1:1579bcd31410 133 EnablePins(); // Enable LCD pins and Configure BackPlanes
Sissors 0:d04758e76d5b 134 LCD->GCR |= LCD_GCR_LCDEN_MASK;
Sissors 0:d04758e76d5b 135 }
Sissors 0:d04758e76d5b 136
star297 1:1579bcd31410 137 void SLCD::EnablePins (void)
Sissors 0:d04758e76d5b 138 {
Sissors 0:d04758e76d5b 139 uint8_t i;
Sissors 0:d04758e76d5b 140 uint32_t *p_pen;
Sissors 0:d04758e76d5b 141 uint8_t pen_offset; // 0 or 1
star297 1:1579bcd31410 142 uint8_t pen_bit; // 0 to 31
Sissors 0:d04758e76d5b 143
Sissors 0:d04758e76d5b 144 LCD->PEN[0] = 0x0;
Sissors 0:d04758e76d5b 145 LCD->PEN[1] = 0x0;
Sissors 0:d04758e76d5b 146 LCD->BPEN[0] = 0x0;
Sissors 0:d04758e76d5b 147 LCD->BPEN[1] = 0x0;
Sissors 0:d04758e76d5b 148
Sissors 0:d04758e76d5b 149 p_pen = (uint32_t *)&LCD->PEN[0];
Sissors 0:d04758e76d5b 150
Sissors 0:d04758e76d5b 151 for (i=0;i<_LCDUSEDPINS;i++)
Sissors 0:d04758e76d5b 152 {
Sissors 0:d04758e76d5b 153 pen_offset = WF_ORDERING_TABLE[i]/32;
Sissors 0:d04758e76d5b 154 pen_bit = WF_ORDERING_TABLE[i]%32;
Sissors 0:d04758e76d5b 155 p_pen[pen_offset] |= 1 << pen_bit;
Sissors 0:d04758e76d5b 156 if (i>= _LCDFRONTPLANES) // Pin is a backplane
Sissors 0:d04758e76d5b 157 {
Sissors 0:d04758e76d5b 158 p_pen[pen_offset+2] |= 1 << pen_bit; // Enable BPEN
Sissors 0:d04758e76d5b 159 LCD->WF8B[(uint8_t)WF_ORDERING_TABLE[i]] = 1 << (i - _LCDFRONTPLANES); // fill with 0x01, 0x02, etc
Sissors 0:d04758e76d5b 160 }
Sissors 0:d04758e76d5b 161 }
Sissors 0:d04758e76d5b 162 }
Sissors 0:d04758e76d5b 163
Sissors 0:d04758e76d5b 164
star297 1:1579bcd31410 165 void SLCD::LCD_Write_Char (char lbValue) {
Sissors 0:d04758e76d5b 166 uint8_t char_val;
Sissors 0:d04758e76d5b 167 uint8_t temp;
Sissors 0:d04758e76d5b 168 uint8_t *lbpLCDWF;
Sissors 0:d04758e76d5b 169 uint8_t lbCounter;
Sissors 0:d04758e76d5b 170 uint16_t arrayOffset;
Sissors 0:d04758e76d5b 171 uint8_t position;
Sissors 0:d04758e76d5b 172
Sissors 0:d04758e76d5b 173 if (bLCD_CharPosition >= _CHARNUM)
Sissors 0:d04758e76d5b 174 bLCD_CharPosition = 0;
Sissors 0:d04758e76d5b 175
Sissors 0:d04758e76d5b 176 lbpLCDWF = (uint8_t *)&LCD->WF8B[0];
Sissors 0:d04758e76d5b 177 /* only ascii character if value not writeable write as @ */
Sissors 0:d04758e76d5b 178 if (lbValue>='a' && lbValue<='z') {
Sissors 0:d04758e76d5b 179 lbValue -= 32; // UpperCase
Sissors 0:d04758e76d5b 180 }
Sissors 0:d04758e76d5b 181 if (lbValue<ASCCI_TABLE_START || lbValue >ASCCI_TABLE_END) {
Sissors 0:d04758e76d5b 182 lbValue = BLANK_CHARACTER; // default value as space
Sissors 0:d04758e76d5b 183 }
Sissors 0:d04758e76d5b 184 lbValue -=ASCCI_TABLE_START; // Remove the offset to search in the ascci table
Sissors 0:d04758e76d5b 185 arrayOffset = (lbValue * _CHAR_SIZE); // Compensate matrix offset
Sissors 0:d04758e76d5b 186 // ensure bLCD position is in valid limit
Sissors 0:d04758e76d5b 187 lbCounter = 0; //number of writings to complete one char
Sissors 0:d04758e76d5b 188 while (lbCounter<_CHAR_SIZE) {
Sissors 0:d04758e76d5b 189 position = (bLCD_CharPosition) *_LCDTYPE + lbCounter;
Sissors 0:d04758e76d5b 190 temp=0;
Sissors 0:d04758e76d5b 191 if (lbCounter==1) {
Sissors 0:d04758e76d5b 192 temp = lbpLCDWF[WF_ORDERING_TABLE[position]] & 0x01;//bit 0 has the special symbol information
Sissors 0:d04758e76d5b 193 }
Sissors 0:d04758e76d5b 194 char_val = ASCII_TO_WF_CODIFICATION_TABLE[arrayOffset + lbCounter];
Sissors 0:d04758e76d5b 195 lbpLCDWF[WF_ORDERING_TABLE[position]] = char_val | temp;
Sissors 0:d04758e76d5b 196 // if (char_val==0) lbCounter = _CHAR_SIZE; //end of this character
Sissors 0:d04758e76d5b 197 lbCounter++;
Sissors 0:d04758e76d5b 198 }
Sissors 0:d04758e76d5b 199
Sissors 0:d04758e76d5b 200 bLCD_CharPosition++;
Sissors 0:d04758e76d5b 201 }
Sissors 0:d04758e76d5b 202
star297 1:1579bcd31410 203 /* Fill Backplanes with normal mask for 0x01, 0x02, according to BP_ORDERING_TABLE;*/
star297 1:1579bcd31410 204 void SLCD::SetBackplanes(void)
star297 1:1579bcd31410 205 {
star297 1:1579bcd31410 206 uint8_t i;
star297 1:1579bcd31410 207 for (i=0;i<_LCDBACKPLANES;i++)
star297 1:1579bcd31410 208 {
star297 1:1579bcd31410 209 LCD->WF8B[(uint8_t)WF_ORDERING_TABLE[i+_LCDFRONTPLANES]] = 0x01<<i;
star297 1:1579bcd31410 210 }
star297 1:1579bcd31410 211 }
star297 1:1579bcd31410 212
star297 1:1579bcd31410 213 void SLCD::LCD_Home (void)
star297 1:1579bcd31410 214 {
star297 1:1579bcd31410 215 bLCD_CharPosition = 0;
star297 1:1579bcd31410 216 }
star297 1:1579bcd31410 217
star297 1:1579bcd31410 218 void SLCD::LCD_Contrast (uint8_t lbContrast)
star297 1:1579bcd31410 219 {
star297 1:1579bcd31410 220 lbContrast &= 0x0F; //Forced to the only values accepted
star297 1:1579bcd31410 221 LCD->GCR |= LCD_GCR_RVTRIM(lbContrast);
star297 1:1579bcd31410 222 }
star297 1:1579bcd31410 223
star297 1:1579bcd31410 224 void SLCD::LCD_All_Segments_ON (void)
star297 1:1579bcd31410 225 {
star297 1:1579bcd31410 226 uint8_t lbTotalBytes = _CHARNUM * _LCDTYPE;
star297 1:1579bcd31410 227 uint8_t lbCounter=0;
star297 1:1579bcd31410 228 uint8_t *lbpLCDWF;
star297 1:1579bcd31410 229
star297 1:1579bcd31410 230 lbpLCDWF = (uint8_t *)&LCD->WF8B[0];
star297 1:1579bcd31410 231 while (lbCounter < lbTotalBytes)
star297 1:1579bcd31410 232 {
star297 1:1579bcd31410 233 lbpLCDWF[(uint8_t)WF_ORDERING_TABLE[lbCounter++]]=_ALLON;
star297 1:1579bcd31410 234 }
star297 1:1579bcd31410 235 }
star297 1:1579bcd31410 236
star297 1:1579bcd31410 237 void SLCD::LCD_All_Segments_OFF (void)
star297 1:1579bcd31410 238 {
star297 1:1579bcd31410 239 uint8_t lbTotalBytes = _CHARNUM * _LCDTYPE;
star297 1:1579bcd31410 240 uint8_t lbCounter=0;
star297 1:1579bcd31410 241 uint8_t *lbpLCDWF;
star297 1:1579bcd31410 242
star297 1:1579bcd31410 243 lbpLCDWF = (uint8_t *)&LCD->WF8B[0];
star297 1:1579bcd31410 244 while (lbCounter < lbTotalBytes)
star297 1:1579bcd31410 245 {
star297 1:1579bcd31410 246 lbpLCDWF[WF_ORDERING_TABLE[lbCounter++]]=0;
star297 1:1579bcd31410 247 }
Sissors 0:d04758e76d5b 248 }
star297 1:1579bcd31410 249
star297 1:1579bcd31410 250 void SLCD::DP1_ON (void)
star297 1:1579bcd31410 251 {
star297 1:1579bcd31410 252 uint8_t *lbpLCDWF;
star297 1:1579bcd31410 253 lbpLCDWF = (uint8_t *)&LCD->WF8B[0];
star297 1:1579bcd31410 254 lbpLCDWF[(uint8_t)WF_ORDERING_TABLE[1]]=1;
star297 1:1579bcd31410 255 }
star297 1:1579bcd31410 256
star297 1:1579bcd31410 257 void SLCD::DP1_OFF (void)
star297 1:1579bcd31410 258 {
star297 1:1579bcd31410 259 uint8_t *lbpLCDWF;
star297 1:1579bcd31410 260 lbpLCDWF = (uint8_t *)&LCD->WF8B[0];
star297 1:1579bcd31410 261 lbpLCDWF[(uint8_t)WF_ORDERING_TABLE[1]]=14;
star297 1:1579bcd31410 262 }
star297 1:1579bcd31410 263
star297 1:1579bcd31410 264 void SLCD::DP2_ON (void)
star297 1:1579bcd31410 265 {
star297 1:1579bcd31410 266 uint8_t *lbpLCDWF;
star297 1:1579bcd31410 267 lbpLCDWF = (uint8_t *)&LCD->WF8B[0];
star297 1:1579bcd31410 268 lbpLCDWF[(uint8_t)WF_ORDERING_TABLE[3]]=1;
star297 1:1579bcd31410 269 }
star297 1:1579bcd31410 270
star297 1:1579bcd31410 271 void SLCD::DP2_OFF (void)
star297 1:1579bcd31410 272 {
star297 1:1579bcd31410 273 uint8_t *lbpLCDWF;
star297 1:1579bcd31410 274 lbpLCDWF = (uint8_t *)&LCD->WF8B[0];
star297 1:1579bcd31410 275 lbpLCDWF[(uint8_t)WF_ORDERING_TABLE[3]]=14;
star297 1:1579bcd31410 276 }
star297 1:1579bcd31410 277
star297 1:1579bcd31410 278 void SLCD::DP3_ON (void)
star297 1:1579bcd31410 279 {
star297 1:1579bcd31410 280 uint8_t *lbpLCDWF;
star297 1:1579bcd31410 281 lbpLCDWF = (uint8_t *)&LCD->WF8B[0];
star297 1:1579bcd31410 282 lbpLCDWF[(uint8_t)WF_ORDERING_TABLE[5]]=1;
star297 1:1579bcd31410 283 }
star297 1:1579bcd31410 284
star297 1:1579bcd31410 285 void SLCD::DP3_OFF (void)
star297 1:1579bcd31410 286 {
star297 1:1579bcd31410 287 uint8_t *lbpLCDWF;
star297 1:1579bcd31410 288 lbpLCDWF = (uint8_t *)&LCD->WF8B[0];
star297 1:1579bcd31410 289 lbpLCDWF[(uint8_t)WF_ORDERING_TABLE[5]]=14;
star297 1:1579bcd31410 290 }
star297 1:1579bcd31410 291
star297 1:1579bcd31410 292 void SLCD::COLON_ON (void)
star297 1:1579bcd31410 293 {
star297 1:1579bcd31410 294 uint8_t *lbpLCDWF;
star297 1:1579bcd31410 295 lbpLCDWF = (uint8_t *)&LCD->WF8B[0];
star297 1:1579bcd31410 296 lbpLCDWF[(uint8_t)WF_ORDERING_TABLE[7]]=1;
star297 1:1579bcd31410 297 }
star297 1:1579bcd31410 298
star297 1:1579bcd31410 299 void SLCD::COLON_OFF (void)
star297 1:1579bcd31410 300 {
star297 1:1579bcd31410 301
star297 1:1579bcd31410 302 uint8_t *lbpLCDWF;
star297 1:1579bcd31410 303 lbpLCDWF = (uint8_t *)&LCD->WF8B[0];
star297 1:1579bcd31410 304 lbpLCDWF[(uint8_t)WF_ORDERING_TABLE[7]]=14;
star297 1:1579bcd31410 305 }
star297 1:1579bcd31410 306