replaces CDU_Mbed_26

Dependencies:   4DGL MODSERIAL mbed mbos

Fork of CDU_Mbed_26 by Engravity-CDU

Committer:
WillemBraat
Date:
Tue Aug 26 14:18:39 2014 +0000
Revision:
17:b3545e9d38f7
Parent:
13:d60c746c097c
All pin-definitions are driven by pins.h

Who changed what in which revision?

UserRevisionLine numberNew contents of line
LvdK 7:6576a287e563 1 //Display control functions --
LvdK 7:6576a287e563 2 #include "mbed.h"
LvdK 7:6576a287e563 3 #include "TFT_4DGL.h"
LvdK 7:6576a287e563 4 #include "display.h"
LvdK 8:422544d24df3 5 #include <string>
WillemBraat 17:b3545e9d38f7 6 #include "pins.h"
LvdK 7:6576a287e563 7 using namespace std;
WillemBraat 17:b3545e9d38f7 8
WillemBraat 17:b3545e9d38f7 9 DigitalOut VGA_SOURCE( VGA_SOURCE_SELECT ); //control line for video switch between INT and EXT video
WillemBraat 17:b3545e9d38f7 10 DigitalOut VGA_SELECT( VGA_ON_OFF ); //control line to select/deselect video switch
LvdK 7:6576a287e563 11 /*
LvdK 7:6576a287e563 12 =====================================================
LvdK 7:6576a287e563 13 SGC (Serial Graphics Controller) PLATFORM OUTPUT FILE
LvdK 7:6576a287e563 14 =====================================================
LvdK 7:6576a287e563 15 *******************************************************
LvdK 7:6576a287e563 16 * Must set 'New image format' for usage on Picaso SGC *
LvdK 7:6576a287e563 17 * Data: *
LvdK 7:6576a287e563 18 * 0x59, 0x06, 0x00 *
LvdK 7:6576a287e563 19 * 4DSL command: *
LvdK 7:6576a287e563 20 * Control(6,0) *
LvdK 7:6576a287e563 21 *******************************************************
LvdK 7:6576a287e563 22 ---------------------------------------------------------------------------------------
LvdK 7:6576a287e563 23 File "logo_flyengravity.jpg" (logo_flyengravity.jpg)
LvdK 7:6576a287e563 24 Sector Address 0x000000
LvdK 7:6576a287e563 25 X = 0 Y = 135 Width = 640 Height = 215 Bits = 16
LvdK 7:6576a287e563 26 Display Image from Memory Card (Serial Command):
LvdK 7:6576a287e563 27 Syntax:
LvdK 7:6576a287e563 28 @, I, x, y, SectorAdd(hi), SectorAdd(mid), SectorAdd(lo)
LvdK 7:6576a287e563 29 Picaso Data:
LvdK 7:6576a287e563 30 0x40, 0x49, 0x00, 0x00, 0x00, 0x87, 0x00, 0x00, 0x00
LvdK 7:6576a287e563 31 4DSL command:
LvdK 7:6576a287e563 32 NewUSDImage(0, 135, 0x000000)
LvdK 7:6576a287e563 33 ---------------------------------------------------------------------------------------
LvdK 7:6576a287e563 34 File "Testscreen.png" (Testscreen.png)
LvdK 7:6576a287e563 35 Sector Address 0x00021A
LvdK 7:6576a287e563 36 X = 0 Y = 0 Width = 640 Height = 480 Bits = 16
LvdK 7:6576a287e563 37 Display Image from Memory Card (Serial Command):
LvdK 7:6576a287e563 38 Syntax:
LvdK 7:6576a287e563 39 @, I, x, y, SectorAdd(hi), SectorAdd(mid), SectorAdd(lo)
LvdK 7:6576a287e563 40 Picaso Data:
LvdK 7:6576a287e563 41 0x40, 0x49, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x1A
LvdK 7:6576a287e563 42 4DSL command:
LvdK 7:6576a287e563 43 NewUSDImage(0, 0, 0x00021A)
LvdK 7:6576a287e563 44 */
LvdK 7:6576a287e563 45 /*Display Commands
LvdK 7:6576a287e563 46 $PCDUCLS Erase to active background colour (default black) or white
LvdK 7:6576a287e563 47 ===================================================================
LvdK 7:6576a287e563 48 Syntax: $PCDUCLS, <mode>*<checksum>CRLF
LvdK 8:422544d24df3 49 <mode>=0 : Clear screen to current background colour (default=black)
LvdK 8:422544d24df3 50 <mode>=1 : Clear screen to white
LvdK 7:6576a287e563 51 $PCDUSBC Set Background Color
LvdK 7:6576a287e563 52 ====================================================================
LvdK 7:6576a287e563 53 Syntax: $PCDUSBC,<Rcolour>,<Gcolour>,<Bcolour>*<checksum>CRLF
LvdK 8:422544d24df3 54 < Rcolour > : RED (000‐255)
LvdK 8:422544d24df3 55 < Gcolour > : GREEN (000‐255)
LvdK 8:422544d24df3 56 < Bcolour > : BLUE (000‐255)
LvdK 8:422544d24df3 57 Set background colour to RGB as defined in the three data fields.
LvdK 7:6576a287e563 58 $PCDUWTX WTX=WRITE TEXT Write text on any X,Y position on the screen.
LvdK 7:6576a287e563 59 =====================================================================
LvdK 7:6576a287e563 60 Syntax: $PCDUWTX,<Fsize>,<Fstyle>,<Rcolour>,<Gcolour>,<Bcolour>,<Text><Col>,<Row>*<checksum>CRLF
LvdK 8:422544d24df3 61 <Fsize> : Font size (F0..F9). Currently F0 and F1 are implemented.
LvdK 8:422544d24df3 62 <Fstyle> : Font style (S=Standard, B=Bold, I=Italic, U=Underline, N=Negative)
LvdK 8:422544d24df3 63 < Rcolour > : RED (000‐255)
LvdK 8:422544d24df3 64 < Gcolour > : GREEN (000‐255)
LvdK 8:422544d24df3 65 < Bcolour > : BLUE (000‐255)
LvdK 8:422544d24df3 66 <Text> : Any printable ASCII character except the * character as this is used as the text field delimiter.
LvdK 7:6576a287e563 67 Maximum length is 24 characters, minimum length is 1 character for font F0.
LvdK 7:6576a287e563 68 Maximum length is 48 characters, minumum length is 1 character for font F1.
LvdK 8:422544d24df3 69 <Col> : Horizontal position of the first character (1..24)
LvdK 8:422544d24df3 70 <Row> : Vertical position of the line (1..14)
LvdK 7:6576a287e563 71 $PCDUETX ETX=ERASE TEXT
LvdK 8:422544d24df3 72 =============================================================
LvdK 7:6576a287e563 73 Syntax: $PCDUETX, <Col>,<Row>,<n>*<checksum>CRLF
LvdK 8:422544d24df3 74 <Col> : Horizontal position of the first character (1..24 for font F0 or 1..48 for font F1)
LvdK 8:422544d24df3 75 <Row> : Vertical position of the line (1‐14)
LvdK 8:422544d24df3 76 <n> : number of characters to be erased (1..24 for font F0 or 1..48 for font F1)
LvdK 7:6576a287e563 77 $PCDUKTX Write text attached to a Select Key
LvdK 7:6576a287e563 78 ===========================================================
LvdK 7:6576a287e563 79 Syntax: $PCDUKTX,<KeyID>,<Texttype>,<Fsize>,<Fstyle>,<Rcolour>,<Gcolour>,<Bcolour>,<Text>*< checksum>CRLF
LvdK 8:422544d24df3 80 <KeyID> : Numbering is 00 – 49 for left keys and 50 – 99 for right keys. Top keys are 00 and 50.
LvdK 8:422544d24df3 81 <Texttype> : M or S, meaning Main text or Subtext.
LvdK 8:422544d24df3 82 <Fsize> : Font size (F0..F9). Currently F0 and F1 are implemented.
LvdK 8:422544d24df3 83 <Fstyle> : Font style (S=Standard, B=Bold, I=Italic, U=Underline, N=Negative)
LvdK 8:422544d24df3 84 < Rcolour > : RED (000‐255)
LvdK 8:422544d24df3 85 < Gcolour > : GREEN (000‐255)
LvdK 8:422544d24df3 86 < Bcolour > : BLUE (000‐255)
LvdK 8:422544d24df3 87 <Text> : Any printable ASCII character within the character set.except the * character as this is used as the text field delimiter.
LvdK 7:6576a287e563 88 Maximum length is 24 characters, minimum length is 1 character for font F0
LvdK 8:422544d24df3 89 Maximum length is 48 characters, minumum length is 1 character for font F1.
LvdK 7:6576a287e563 90 */
WillemBraat 17:b3545e9d38f7 91
LvdK 7:6576a287e563 92 //Control lines for VGA driver board
WillemBraat 17:b3545e9d38f7 93 TFT_4DGL display(VGA_TX,VGA_RX,VGA_RESET); // serial tx, serial rx, reset pin
WillemBraat 17:b3545e9d38f7 94
LvdK 7:6576a287e563 95 //Character & String functions
LvdK 7:6576a287e563 96 char* str2char( string cString ) //convert a string to a character array
LvdK 7:6576a287e563 97 {
LvdK 7:6576a287e563 98 int nStrLen=cString.size();
LvdK 7:6576a287e563 99 std::string cInput( cString );
LvdK 7:6576a287e563 100 char* cText = new char[nStrLen+1];
LvdK 7:6576a287e563 101 strncpy(cText, cInput.c_str(), nStrLen);
LvdK 7:6576a287e563 102 cText[nStrLen] = '\0';
LvdK 7:6576a287e563 103 return cText;
LvdK 7:6576a287e563 104 }
LvdK 8:422544d24df3 105
LvdK 7:6576a287e563 106 int centertext( string cString, int nChars, int nCharWidth )
LvdK 7:6576a287e563 107 //calculates the startposition on the screen to center the text
LvdK 7:6576a287e563 108 //needs the actual string (cString), screenwidth in characters (nChars) and the character width (nCharWidth)
LvdK 7:6576a287e563 109 {
LvdK 7:6576a287e563 110 int nStart;
LvdK 7:6576a287e563 111 nStart = nCharWidth*( nChars/2-( cString.size()/2 ));
LvdK 7:6576a287e563 112 return nStart;
LvdK 7:6576a287e563 113 }
LvdK 8:422544d24df3 114
LvdK 7:6576a287e563 115 int righttext( string cString, int nChars, int nCharWidth )
LvdK 7:6576a287e563 116 //calculates the startposition on the screen to right-align the text
LvdK 7:6576a287e563 117 //needs the actual string (cString), screenwidth in characters (nChars) and the character width (nCharWidth)
LvdK 7:6576a287e563 118 {
LvdK 7:6576a287e563 119 int nStart;
LvdK 7:6576a287e563 120 nStart = nCharWidth*( nChars - cString.size());
LvdK 7:6576a287e563 121 return nStart;
LvdK 7:6576a287e563 122 }
WillemBraat 13:d60c746c097c 123
LvdK 7:6576a287e563 124 int nFontSize( int nfont_number )
LvdK 7:6576a287e563 125 {
LvdK 8:422544d24df3 126 int nFontWidth = 24;
LvdK 7:6576a287e563 127 switch ( nfont_number )
LvdK 7:6576a287e563 128 {
LvdK 7:6576a287e563 129 case 0:
LvdK 7:6576a287e563 130 {
LvdK 8:422544d24df3 131 nFontWidth = SMALLCHAR;
LvdK 8:422544d24df3 132 //nFontWidth = FONT_12X34;
LvdK 7:6576a287e563 133 break;
LvdK 7:6576a287e563 134 }
LvdK 7:6576a287e563 135 case 1:
LvdK 7:6576a287e563 136 {
LvdK 8:422544d24df3 137 nFontWidth = LARGECHAR;
LvdK 8:422544d24df3 138 //nFontWidth = FONT_24X34;
LvdK 7:6576a287e563 139 break;
LvdK 7:6576a287e563 140 }
LvdK 7:6576a287e563 141 }
LvdK 8:422544d24df3 142 return ( nFontWidth );
LvdK 8:422544d24df3 143 }
LvdK 7:6576a287e563 144
LvdK 7:6576a287e563 145 int nFontWidth (int nfont_number )
LvdK 7:6576a287e563 146 {
LvdK 7:6576a287e563 147 int nFont = 12;
LvdK 7:6576a287e563 148 switch ( nfont_number )
LvdK 7:6576a287e563 149 {
LvdK 7:6576a287e563 150 case 0:
LvdK 7:6576a287e563 151 {
LvdK 7:6576a287e563 152 nFont = 12;
LvdK 7:6576a287e563 153 break;
LvdK 7:6576a287e563 154 }
LvdK 7:6576a287e563 155 case 1:
LvdK 7:6576a287e563 156 {
LvdK 7:6576a287e563 157 nFont = 24;
LvdK 7:6576a287e563 158 break;
LvdK 7:6576a287e563 159 }
LvdK 7:6576a287e563 160 }
LvdK 7:6576a287e563 161 return ( nFont );
LvdK 8:422544d24df3 162 }
LvdK 7:6576a287e563 163
LvdK 7:6576a287e563 164 unsigned int cRGB( char cRED, char cGREEN, char cBLUE )
LvdK 7:6576a287e563 165 {
LvdK 7:6576a287e563 166 //assemble separate colors into 1 integer value as 0xRRGGBB
LvdK 7:6576a287e563 167 //Display driver requires this format
LvdK 7:6576a287e563 168 unsigned int RGB = cBLUE + 256*cGREEN + 65536*cRED;
LvdK 7:6576a287e563 169 return ( RGB );
LvdK 8:422544d24df3 170 }
LvdK 7:6576a287e563 171
LvdK 7:6576a287e563 172 int LeftOrRight( int nTextLine, string cString, int nChars, int nCharWidth )
LvdK 7:6576a287e563 173 {
LvdK 8:422544d24df3 174 // nChars is the maximum numbers of characters on the line
LvdK 8:422544d24df3 175 // nCharWidth is the characterwidth in pixels
LvdK 7:6576a287e563 176 //decide to print data left aligned or right aligned
LvdK 7:6576a287e563 177 //00 - 49 is left side of screen
LvdK 7:6576a287e563 178 //50 - 99 is right side of screen
LvdK 8:422544d24df3 179 int nHorPos = 0;
LvdK 7:6576a287e563 180 // nChars is number of characters on this line (24 or 48)
LvdK 7:6576a287e563 181 // nCharWidth is the character width in pixels
LvdK 8:422544d24df3 182
LvdK 7:6576a287e563 183 if ( nTextLine < 50 )
LvdK 7:6576a287e563 184 // Left side adjust
LvdK 7:6576a287e563 185 {
LvdK 7:6576a287e563 186 nHorPos = 0;
LvdK 7:6576a287e563 187 }
LvdK 7:6576a287e563 188 else
LvdK 7:6576a287e563 189 // Right side adjust
LvdK 7:6576a287e563 190 {
LvdK 7:6576a287e563 191 nHorPos = righttext( cString, nChars, nCharWidth );
LvdK 7:6576a287e563 192 }
LvdK 7:6576a287e563 193 return ( nHorPos );
LvdK 7:6576a287e563 194 }
LvdK 7:6576a287e563 195 int nLine2Pixel( int nLine )
LvdK 7:6576a287e563 196 {
LvdK 7:6576a287e563 197 //calculate vertical pixelposition from linenumber
LvdK 7:6576a287e563 198 int nPixel = 0;
LvdK 7:6576a287e563 199 switch ( nLine )
LvdK 7:6576a287e563 200 {
LvdK 7:6576a287e563 201 case 1:
LvdK 7:6576a287e563 202 {
LvdK 7:6576a287e563 203 nPixel = LINE1;
LvdK 7:6576a287e563 204 break;
LvdK 7:6576a287e563 205 }
LvdK 7:6576a287e563 206 case 2:
LvdK 7:6576a287e563 207 {
LvdK 7:6576a287e563 208 nPixel = LINE2;
LvdK 7:6576a287e563 209 break;
LvdK 7:6576a287e563 210 }
LvdK 8:422544d24df3 211
LvdK 7:6576a287e563 212 case 3:
LvdK 7:6576a287e563 213 {
LvdK 7:6576a287e563 214 nPixel = LINE3;
LvdK 7:6576a287e563 215 break;
LvdK 7:6576a287e563 216 }
LvdK 8:422544d24df3 217
LvdK 7:6576a287e563 218 case 4:
LvdK 7:6576a287e563 219 {
LvdK 7:6576a287e563 220 nPixel = LINE4;
LvdK 7:6576a287e563 221 break;
LvdK 7:6576a287e563 222 }
LvdK 8:422544d24df3 223
LvdK 7:6576a287e563 224 case 5:
LvdK 7:6576a287e563 225 {
LvdK 7:6576a287e563 226 nPixel = LINE5;
LvdK 7:6576a287e563 227 break;
LvdK 7:6576a287e563 228 }
LvdK 8:422544d24df3 229
LvdK 7:6576a287e563 230 case 6:
LvdK 7:6576a287e563 231 {
LvdK 7:6576a287e563 232 nPixel = LINE6;
LvdK 7:6576a287e563 233 break;
LvdK 7:6576a287e563 234 }
LvdK 8:422544d24df3 235
LvdK 7:6576a287e563 236 case 7:
LvdK 7:6576a287e563 237 {
LvdK 7:6576a287e563 238 nPixel = LINE7;
LvdK 7:6576a287e563 239 break;
LvdK 7:6576a287e563 240 }
LvdK 8:422544d24df3 241
LvdK 7:6576a287e563 242 case 8:
LvdK 7:6576a287e563 243 {
LvdK 7:6576a287e563 244 nPixel = LINE8;
LvdK 7:6576a287e563 245 break;
LvdK 7:6576a287e563 246 }
LvdK 8:422544d24df3 247
LvdK 7:6576a287e563 248 case 9:
LvdK 7:6576a287e563 249 {
LvdK 7:6576a287e563 250 nPixel = LINE9;
LvdK 7:6576a287e563 251 break;
LvdK 7:6576a287e563 252 }
LvdK 8:422544d24df3 253
LvdK 7:6576a287e563 254 case 10:
LvdK 7:6576a287e563 255 {
LvdK 7:6576a287e563 256 nPixel = LINE10;
LvdK 7:6576a287e563 257 break;
LvdK 7:6576a287e563 258 }
LvdK 8:422544d24df3 259
LvdK 7:6576a287e563 260 case 11:
LvdK 7:6576a287e563 261 {
LvdK 7:6576a287e563 262 nPixel = LINE11;
LvdK 7:6576a287e563 263 break;
LvdK 7:6576a287e563 264 }
LvdK 8:422544d24df3 265
LvdK 7:6576a287e563 266 case 12:
LvdK 7:6576a287e563 267 {
LvdK 7:6576a287e563 268 nPixel = LINE12;
LvdK 7:6576a287e563 269 break;
LvdK 7:6576a287e563 270 }
LvdK 8:422544d24df3 271
LvdK 7:6576a287e563 272 case 13:
LvdK 7:6576a287e563 273 {
LvdK 7:6576a287e563 274 nPixel = LINE13;
LvdK 7:6576a287e563 275 break;
LvdK 7:6576a287e563 276 }
LvdK 8:422544d24df3 277
LvdK 7:6576a287e563 278 case 14:
LvdK 7:6576a287e563 279 {
LvdK 7:6576a287e563 280 nPixel = LINE14;
LvdK 7:6576a287e563 281 break;
LvdK 7:6576a287e563 282 }
LvdK 8:422544d24df3 283
LvdK 7:6576a287e563 284 }
LvdK 7:6576a287e563 285 return ( nPixel ) ;
LvdK 7:6576a287e563 286 }
LvdK 7:6576a287e563 287 void VGA_SIGNAL( int Source, int On_Off)
LvdK 7:6576a287e563 288 {
LvdK 7:6576a287e563 289 VGA_SOURCE = Source;
LvdK 7:6576a287e563 290 VGA_SELECT = On_Off;
LvdK 7:6576a287e563 291 }
LvdK 7:6576a287e563 292 void CDU_InitDisplay()
LvdK 7:6576a287e563 293 {
LvdK 7:6576a287e563 294 display.baudrate( 9600 ); //init uVGAIII card
LvdK 7:6576a287e563 295 VGA_SIGNAL( VGA_INT, VGA_ON ); //select INTERNTAL video and set VGA switch ON
LvdK 7:6576a287e563 296 }
LvdK 7:6576a287e563 297 void CDU_StartScreen()
LvdK 8:422544d24df3 298 {
LvdK 7:6576a287e563 299 string cTitle1="ENGRAVITY";
LvdK 7:6576a287e563 300 string cTitle2="CONTROL & DISPLAY UNIT";
LvdK 8:422544d24df3 301 display.cls();
LvdK 7:6576a287e563 302
LvdK 7:6576a287e563 303 display.graphic_string( str2char( cTitle1 ), centertext( cTitle1, 24, LARGECHAR), LINE6, FONT_24X34, WHITE, 1, 1 );
LvdK 8:422544d24df3 304 wait_ms(100);
LvdK 7:6576a287e563 305 display.graphic_string( str2char( cTitle2 ), centertext( cTitle2, 24, LARGECHAR), LINE8, FONT_24X34, RED, 1, 1 );
LvdK 8:422544d24df3 306 wait_ms(100);
LvdK 7:6576a287e563 307 display.graphic_string( str2char( cTitle2 ), centertext( cTitle2, 24, LARGECHAR), LINE8, FONT_24X34, GREEN, 1, 1 );
LvdK 8:422544d24df3 308 wait_ms(100);
LvdK 7:6576a287e563 309 display.graphic_string( str2char( cTitle2) , centertext( cTitle2, 24, LARGECHAR), LINE8, FONT_24X34, BLUE, 1, 1 );
LvdK 8:422544d24df3 310 wait_ms(100);
LvdK 7:6576a287e563 311 display.graphic_string( str2char( cTitle2) , centertext( cTitle2, 24, LARGECHAR), LINE8, FONT_24X34, WHITE, 1, 1 );
LvdK 8:422544d24df3 312 wait_ms(100);
LvdK 8:422544d24df3 313 }
LvdK 7:6576a287e563 314 void CDU_ScreenAlign()
LvdK 7:6576a287e563 315 //Draw a wireframe for aligning the screen on display with keys
LvdK 7:6576a287e563 316 {
LvdK 7:6576a287e563 317 display.cls();
LvdK 8:422544d24df3 318
LvdK 7:6576a287e563 319 display.pen_size(WIREFRAME);
LvdK 7:6576a287e563 320 display.rectangle(XMIN,YMIN,XMAX,YMAX, WHITE);
LvdK 7:6576a287e563 321 display.line(XMIN,LINE2,XMAX,LINE2, WHITE);
LvdK 7:6576a287e563 322 display.line(XMIN,LINE3,XMAX,LINE3, WHITE);
LvdK 7:6576a287e563 323 display.line(XMIN,LINE4,XMAX,LINE4, WHITE);
LvdK 7:6576a287e563 324 display.line(XMIN,LINE5,XMAX,LINE5, WHITE);
LvdK 7:6576a287e563 325 display.line(XMIN,LINE6,XMAX,LINE6, WHITE);
LvdK 7:6576a287e563 326 display.line(XMIN,LINE7,XMAX,LINE7, WHITE);
LvdK 7:6576a287e563 327 display.line(XMIN,LINE8,XMAX,LINE8, WHITE);
LvdK 7:6576a287e563 328 display.line(XMIN,LINE9,XMAX,LINE9, WHITE);
LvdK 7:6576a287e563 329 display.line(XMIN,LINE10,XMAX,LINE10, WHITE);
LvdK 7:6576a287e563 330 display.line(XMIN,LINE11,XMAX,LINE11, WHITE);
LvdK 7:6576a287e563 331 display.line(XMIN,LINE12,XMAX,LINE12, WHITE);
LvdK 7:6576a287e563 332 display.line(XMIN,LINE13,XMAX,LINE13, WHITE);
LvdK 7:6576a287e563 333 display.line(XMIN,LINE14,XMAX,LINE14, WHITE);
LvdK 7:6576a287e563 334 }
LvdK 7:6576a287e563 335 void CDU_TestScreen()
LvdK 7:6576a287e563 336 {
LvdK 7:6576a287e563 337 display.display_control(IMAGE_FORMAT, NEW); //set correct image for reading from SD
LvdK 7:6576a287e563 338 display.cls();
LvdK 7:6576a287e563 339 display.showpicture(0x00, 0x00, 0x00, 0x14, 0x00, 0x01, 0xB5); // Testscreen
LvdK 7:6576a287e563 340 }
LvdK 7:6576a287e563 341 void CDU_LogoScreen()
LvdK 7:6576a287e563 342 {
LvdK 8:422544d24df3 343 display.display_control(IMAGE_FORMAT, NEW); //set correct image for reading from SD
LvdK 7:6576a287e563 344 display.cls();
LvdK 7:6576a287e563 345 display.showpicture(0x00, 0x00, 0x00, 0x87, 0x00, 0x00, 0x00); // Engravity logo
LvdK 7:6576a287e563 346 }
LvdK 8:422544d24df3 347
LvdK 7:6576a287e563 348 void CDU_Page()
LvdK 7:6576a287e563 349 {
LvdK 7:6576a287e563 350 display.cls();
LvdK 7:6576a287e563 351 display.graphic_string( "PERF INIT" , 8*24, LINE1, FONT_24X34, WHITE, 1, 1 );
LvdK 8:422544d24df3 352
LvdK 7:6576a287e563 353 display.graphic_string( "GW/CRZ CG" , 0, LINE2, FONT_12X34, WHITE, 1, 1 );
LvdK 7:6576a287e563 354 display.graphic_string( "CRZ ALT" , 41*12, LINE2, FONT_12X34, WHITE, 1, 1 );
LvdK 8:422544d24df3 355
LvdK 7:6576a287e563 356 display.graphic_string( "___._ / 26.2%" , 0, LINE3, FONT_24X34, WHITE, 1, 1 );
LvdK 7:6576a287e563 357 display.graphic_string( "_____" , 19*24, LINE3, FONT_24X34, WHITE, 1, 1 );
LvdK 7:6576a287e563 358 display.graphic_string( "FUEL" , 0, LINE4, FONT_12X34, WHITE, 1, 1 );
LvdK 7:6576a287e563 359 display.graphic_string( "CRZ/WIND" , 40*12, LINE4, FONT_12X34, WHITE, 1, 1 );
LvdK 8:422544d24df3 360
LvdK 7:6576a287e563 361 display.graphic_string( "0.0" , 0, LINE5, FONT_24X34, WHITE, 1, 1 );
LvdK 7:6576a287e563 362 display.graphic_string( "000$ /---" , 15*24, LINE5, FONT_24X34, WHITE, 1, 1 );
LvdK 8:422544d24df3 363
LvdK 7:6576a287e563 364 display.graphic_string( "ZFW" , 0, LINE6, FONT_12X34, WHITE, 1, 1 );
LvdK 7:6576a287e563 365 display.graphic_string( "___._ " , 0, LINE7, FONT_24X34, WHITE, 1, 1 );
LvdK 8:422544d24df3 366
LvdK 7:6576a287e563 367 display.graphic_string( "RESERVES" , 0, LINE8, FONT_12X34, WHITE, 1, 1 );
LvdK 7:6576a287e563 368 display.graphic_string( "__._ " , 0, LINE9, FONT_24X34, WHITE, 1, 1 );
LvdK 8:422544d24df3 369
LvdK 7:6576a287e563 370 display.graphic_string( "COST INDEX" , 0, LINE10, FONT_12X34, WHITE, 1, 1 );
LvdK 8:422544d24df3 371 display.graphic_string( "TRANS ALT" , 39*12, LINE10, FONT_12X34, WHITE, 1, 1 );
LvdK 7:6576a287e563 372
LvdK 7:6576a287e563 373 display.graphic_string( "___" , 0, LINE11, FONT_24X34, WHITE, 1, 1 );
LvdK 7:6576a287e563 374 display.graphic_string( "_____" , 19*24, LINE11, FONT_24X34, WHITE, 1, 1 );
LvdK 8:422544d24df3 375
LvdK 8:422544d24df3 376 display.graphic_string( "------------------------------------------------" , 0, LINE12, FONT_12X34, WHITE, 1, 1 );
LvdK 7:6576a287e563 377
LvdK 7:6576a287e563 378 display.graphic_string( "<INDEX" , 0, LINE13, FONT_24X34, WHITE, 1, 1 );
LvdK 7:6576a287e563 379 display.graphic_string( "N1 LIMIT>" , 15*24, LINE13, FONT_24X34, WHITE, 1, 1 );
LvdK 8:422544d24df3 380
LvdK 7:6576a287e563 381 display.graphic_string( "SCRATCHPAD DATA LINE", centertext("SCRATCHPAD DATA LINE", 24, LARGECHAR) , LINE14, FONT_24X34, RED, 1, 1 );
LvdK 8:422544d24df3 382
LvdK 7:6576a287e563 383 }
LvdK 8:422544d24df3 384
LvdK 7:6576a287e563 385 void CDU_displayclear(){
LvdK 7:6576a287e563 386 display.cls();
LvdK 7:6576a287e563 387 }
LvdK 8:422544d24df3 388
LvdK 7:6576a287e563 389