done

Dependents:   AwesomeAlarm_BLE

Committer:
wim
Date:
Sat Jan 30 20:35:25 2016 +0000
Revision:
0:dc8789a6e21f
Child:
1:f63d87466f55
TM1637 Library, for TM1637 LEDcontroller

Who changed what in which revision?

UserRevisionLine numberNew contents of line
wim 0:dc8789a6e21f 1 /* mbed TM1637 Library, for TM1637 LED controller
wim 0:dc8789a6e21f 2 * Copyright (c) 2016, v01: WH, Initial version
wim 0:dc8789a6e21f 3 *
wim 0:dc8789a6e21f 4 * Permission is hereby granted, free of charge, to any person obtaining a copy
wim 0:dc8789a6e21f 5 * of this software and associated documentation files (the "Software"), to deal
wim 0:dc8789a6e21f 6 * in the Software without restriction, inclumosig without limitation the rights
wim 0:dc8789a6e21f 7 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
wim 0:dc8789a6e21f 8 * copies of the Software, and to permit persons to whom the Software is
wim 0:dc8789a6e21f 9 * furnished to do so, subject to the following conditions:
wim 0:dc8789a6e21f 10 *
wim 0:dc8789a6e21f 11 * The above copyright notice and this permission notice shall be included in
wim 0:dc8789a6e21f 12 * all copies or substantial portions of the Software.
wim 0:dc8789a6e21f 13 *
wim 0:dc8789a6e21f 14 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
wim 0:dc8789a6e21f 15 * IMPLIED, INCLUmosiG BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
wim 0:dc8789a6e21f 16 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
wim 0:dc8789a6e21f 17 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
wim 0:dc8789a6e21f 18 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
wim 0:dc8789a6e21f 19 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
wim 0:dc8789a6e21f 20 * THE SOFTWARE.
wim 0:dc8789a6e21f 21 */
wim 0:dc8789a6e21f 22 #include "mbed.h"
wim 0:dc8789a6e21f 23 #include "TM1637.h"
wim 0:dc8789a6e21f 24
wim 0:dc8789a6e21f 25 /** Constructor for class for driving TM1637 LED controller with Serial bus interface device.
wim 0:dc8789a6e21f 26 * @brief Supports 6 digits @ 8 segments.
wim 0:dc8789a6e21f 27 *
wim 0:dc8789a6e21f 28 * @param PinName mosi Serial bus MOSI pin
wim 0:dc8789a6e21f 29 * @param PinName miso Serial bus MISO pin
wim 0:dc8789a6e21f 30 * @param PinName sclk Serial bus SCLK pin
wim 0:dc8789a6e21f 31 */
wim 0:dc8789a6e21f 32 TM1637::TM1637(PinName mosi, PinName miso, PinName sclk) : _mosi(mosi), _miso(miso), _sclk(sclk) {
wim 0:dc8789a6e21f 33
wim 0:dc8789a6e21f 34 _init();
wim 0:dc8789a6e21f 35 }
wim 0:dc8789a6e21f 36
wim 0:dc8789a6e21f 37 /** Init the Serial interface and the controller
wim 0:dc8789a6e21f 38 * @param none
wim 0:dc8789a6e21f 39 * @return none
wim 0:dc8789a6e21f 40 */
wim 0:dc8789a6e21f 41 void TM1637::_init(){
wim 0:dc8789a6e21f 42
wim 0:dc8789a6e21f 43 //TM1637 uses a Serial bus that looks like I2C, but really is not.
wim 0:dc8789a6e21f 44 //It has Start and Stop conditions like I2C and an Ack pulse, but instead of slaveaddresses and a RW bit it just transmits commands and data.
wim 0:dc8789a6e21f 45 //init Serial bus
wim 0:dc8789a6e21f 46 _mosi=1;
wim 0:dc8789a6e21f 47 _sclk=1;
wim 0:dc8789a6e21f 48
wim 0:dc8789a6e21f 49 //init controller
wim 0:dc8789a6e21f 50 _display = TM1637_DSP_ON;
wim 0:dc8789a6e21f 51 _bright = TM1637_BRT_DEF;
wim 0:dc8789a6e21f 52 _writeCmd(TM1637_DSP_CTRL_CMD, _display | _bright ); // Display control cmd, display on/off, brightness
wim 0:dc8789a6e21f 53
wim 0:dc8789a6e21f 54 _writeCmd(TM1637_DATA_SET_CMD, TM1637_DATA_WR | TM1637_ADDR_INC | TM1637_MODE_NORM); // Data set cmd, normal mode, auto incr, write data
wim 0:dc8789a6e21f 55 }
wim 0:dc8789a6e21f 56
wim 0:dc8789a6e21f 57
wim 0:dc8789a6e21f 58 /** Clear the screen and locate to 0
wim 0:dc8789a6e21f 59 */
wim 0:dc8789a6e21f 60 void TM1637::cls() {
wim 0:dc8789a6e21f 61
wim 0:dc8789a6e21f 62 _start();
wim 0:dc8789a6e21f 63
wim 0:dc8789a6e21f 64 _write(TM1637_ADDR_SET_CMD | 0x00); // Address set cmd, 0
wim 0:dc8789a6e21f 65 for (int cnt=0; cnt<TM1637_DISPLAY_MEM; cnt++) {
wim 0:dc8789a6e21f 66 _write(0x00); // data
wim 0:dc8789a6e21f 67 }
wim 0:dc8789a6e21f 68
wim 0:dc8789a6e21f 69 _stop();
wim 0:dc8789a6e21f 70 }
wim 0:dc8789a6e21f 71
wim 0:dc8789a6e21f 72 /** Set Brightness
wim 0:dc8789a6e21f 73 *
wim 0:dc8789a6e21f 74 * @param char brightness (3 significant bits, valid range 0..7 (1/16 .. 14/14 dutycycle)
wim 0:dc8789a6e21f 75 * @return none
wim 0:dc8789a6e21f 76 */
wim 0:dc8789a6e21f 77 void TM1637::setBrightness(char brightness){
wim 0:dc8789a6e21f 78
wim 0:dc8789a6e21f 79 _bright = brightness & TM1637_BRT_MSK; // mask invalid bits
wim 0:dc8789a6e21f 80
wim 0:dc8789a6e21f 81 _writeCmd(TM1637_DSP_CTRL_CMD, _display | _bright ); // Display control cmd, display on/off, brightness
wim 0:dc8789a6e21f 82 }
wim 0:dc8789a6e21f 83
wim 0:dc8789a6e21f 84 /** Set the Display mode On/off
wim 0:dc8789a6e21f 85 *
wim 0:dc8789a6e21f 86 * @param bool display mode
wim 0:dc8789a6e21f 87 */
wim 0:dc8789a6e21f 88 void TM1637::setDisplay(bool on) {
wim 0:dc8789a6e21f 89
wim 0:dc8789a6e21f 90 if (on) {
wim 0:dc8789a6e21f 91 _display = TM1637_DSP_ON;
wim 0:dc8789a6e21f 92 }
wim 0:dc8789a6e21f 93 else {
wim 0:dc8789a6e21f 94 _display = TM1637_DSP_OFF;
wim 0:dc8789a6e21f 95 }
wim 0:dc8789a6e21f 96
wim 0:dc8789a6e21f 97 _writeCmd(TM1637_DSP_CTRL_CMD, _display | _bright ); // Display control cmd, display on/off, brightness
wim 0:dc8789a6e21f 98 }
wim 0:dc8789a6e21f 99
wim 0:dc8789a6e21f 100 /** Write databyte to TM1637
wim 0:dc8789a6e21f 101 * @param int address display memory location to write byte
wim 0:dc8789a6e21f 102 * @param char data byte written at given address
wim 0:dc8789a6e21f 103 * @return none
wim 0:dc8789a6e21f 104 */
wim 0:dc8789a6e21f 105 void TM1637::writeData(char data, int address) {
wim 0:dc8789a6e21f 106
wim 0:dc8789a6e21f 107 _start();
wim 0:dc8789a6e21f 108
wim 0:dc8789a6e21f 109 _write(TM1637_ADDR_SET_CMD | (address & TM1637_ADDR_MSK)); // Set Address cmd
wim 0:dc8789a6e21f 110 _write(data); // data
wim 0:dc8789a6e21f 111
wim 0:dc8789a6e21f 112 _stop();
wim 0:dc8789a6e21f 113 }
wim 0:dc8789a6e21f 114
wim 0:dc8789a6e21f 115 /** Write Display datablock to TM1637
wim 0:dc8789a6e21f 116 * @param DisplayData_t data Array of TM1637_DISPLAY_MEM (=16) bytes for displaydata
wim 0:dc8789a6e21f 117 * @param length number bytes to write (valid range 0..(TM1637_MAX_NR_GRIDS * TM1637_BYTES_PER_GRID) (=16), when starting at address 0)
wim 0:dc8789a6e21f 118 * @param int address display memory location to write bytes (default = 0)
wim 0:dc8789a6e21f 119 * @return none
wim 0:dc8789a6e21f 120 */
wim 0:dc8789a6e21f 121 void TM1637::writeData(DisplayData_t data, int length, int address) {
wim 0:dc8789a6e21f 122
wim 0:dc8789a6e21f 123 _start();
wim 0:dc8789a6e21f 124
wim 0:dc8789a6e21f 125 // sanity check
wim 0:dc8789a6e21f 126 address &= TM1637_ADDR_MSK;
wim 0:dc8789a6e21f 127 if (length < 0) {length = 0;}
wim 0:dc8789a6e21f 128 if ((length + address) > TM1637_DISPLAY_MEM) {length = (TM1637_DISPLAY_MEM - address);}
wim 0:dc8789a6e21f 129
wim 0:dc8789a6e21f 130 // _write(TM1637_ADDR_SET_CMD | 0x00); // Set Address at 0
wim 0:dc8789a6e21f 131 _write(TM1637_ADDR_SET_CMD | address); // Set Address
wim 0:dc8789a6e21f 132
wim 0:dc8789a6e21f 133 for (int idx=0; idx<length; idx++) {
wim 0:dc8789a6e21f 134 // _write(data[idx]); // data
wim 0:dc8789a6e21f 135 _write(data[address + idx]); // data
wim 0:dc8789a6e21f 136 }
wim 0:dc8789a6e21f 137
wim 0:dc8789a6e21f 138 _stop();
wim 0:dc8789a6e21f 139 }
wim 0:dc8789a6e21f 140
wim 0:dc8789a6e21f 141 /** Read keydata block from TM1637
wim 0:dc8789a6e21f 142 * @param *keydata Ptr to bytes for keydata
wim 0:dc8789a6e21f 143 * @return bool keypress True when at least one key was pressed
wim 0:dc8789a6e21f 144 *
wim 0:dc8789a6e21f 145 */
wim 0:dc8789a6e21f 146 bool TM1637::getKeys(KeyData_t *keydata) {
wim 0:dc8789a6e21f 147
wim 0:dc8789a6e21f 148 _start();
wim 0:dc8789a6e21f 149
wim 0:dc8789a6e21f 150 // Enable Key Read mode
wim 0:dc8789a6e21f 151 _write(TM1637_DATA_SET_CMD | TM1637_KEY_RD | TM1637_ADDR_INC | TM1637_MODE_NORM); // Data set cmd, normal mode, auto incr, read data
wim 0:dc8789a6e21f 152
wim 0:dc8789a6e21f 153 // Read keys
wim 0:dc8789a6e21f 154 *keydata = _read(0xFF);
wim 0:dc8789a6e21f 155
wim 0:dc8789a6e21f 156 _stop();
wim 0:dc8789a6e21f 157
wim 0:dc8789a6e21f 158 // Restore Data Write mode
wim 0:dc8789a6e21f 159 _writeCmd(TM1637_DATA_SET_CMD, TM1637_DATA_WR | TM1637_ADDR_INC | TM1637_MODE_NORM); // Data set cmd, normal mode, auto incr, write data
wim 0:dc8789a6e21f 160
wim 0:dc8789a6e21f 161 return (*keydata != TM1637_SW_NONE);
wim 0:dc8789a6e21f 162 }
wim 0:dc8789a6e21f 163
wim 0:dc8789a6e21f 164
wim 0:dc8789a6e21f 165 /** Generate Start condition for TM1637
wim 0:dc8789a6e21f 166 * @param none
wim 0:dc8789a6e21f 167 * @return none
wim 0:dc8789a6e21f 168 */
wim 0:dc8789a6e21f 169 void TM1637::_start() {
wim 0:dc8789a6e21f 170
wim 0:dc8789a6e21f 171 _mosi=0;
wim 0:dc8789a6e21f 172 wait_us(1);
wim 0:dc8789a6e21f 173 _sclk=0;
wim 0:dc8789a6e21f 174 wait_us(1);
wim 0:dc8789a6e21f 175 }
wim 0:dc8789a6e21f 176
wim 0:dc8789a6e21f 177 /** Generate Stop condition for TM1637
wim 0:dc8789a6e21f 178 * @param none
wim 0:dc8789a6e21f 179 * @return none
wim 0:dc8789a6e21f 180 */
wim 0:dc8789a6e21f 181 void TM1637::_stop() {
wim 0:dc8789a6e21f 182
wim 0:dc8789a6e21f 183 _mosi=0;
wim 0:dc8789a6e21f 184 wait_us(1);
wim 0:dc8789a6e21f 185 _sclk=1;
wim 0:dc8789a6e21f 186 wait_us(1);
wim 0:dc8789a6e21f 187 _mosi=1;
wim 0:dc8789a6e21f 188 wait_us(1);
wim 0:dc8789a6e21f 189 }
wim 0:dc8789a6e21f 190
wim 0:dc8789a6e21f 191 /** Send byte to TM1637
wim 0:dc8789a6e21f 192 * @param int data
wim 0:dc8789a6e21f 193 * @return none
wim 0:dc8789a6e21f 194 */
wim 0:dc8789a6e21f 195 void TM1637::_write(int data) {
wim 0:dc8789a6e21f 196
wim 0:dc8789a6e21f 197 for (int bit=0; bit<8; bit++) {
wim 0:dc8789a6e21f 198 //The TM1637 expects LSB first
wim 0:dc8789a6e21f 199 if (((data >> bit) & 0x01) == 0x01) {
wim 0:dc8789a6e21f 200 _mosi=1;
wim 0:dc8789a6e21f 201 }
wim 0:dc8789a6e21f 202 else {
wim 0:dc8789a6e21f 203 _mosi=0;
wim 0:dc8789a6e21f 204 }
wim 0:dc8789a6e21f 205 wait_us(1);
wim 0:dc8789a6e21f 206 _sclk=1;
wim 0:dc8789a6e21f 207 wait_us(1);
wim 0:dc8789a6e21f 208 _sclk=0;
wim 0:dc8789a6e21f 209 wait_us(1);
wim 0:dc8789a6e21f 210 }
wim 0:dc8789a6e21f 211
wim 0:dc8789a6e21f 212 // dummy Ack
wim 0:dc8789a6e21f 213 _sclk=1;
wim 0:dc8789a6e21f 214 wait_us(1);
wim 0:dc8789a6e21f 215 _sclk=0;
wim 0:dc8789a6e21f 216 wait_us(1);
wim 0:dc8789a6e21f 217 }
wim 0:dc8789a6e21f 218
wim 0:dc8789a6e21f 219 /** Read byte from TM1637
wim 0:dc8789a6e21f 220 * @param int senddata
wim 0:dc8789a6e21f 221 * @return read byte
wim 0:dc8789a6e21f 222 */
wim 0:dc8789a6e21f 223 char TM1637::_read(int data) {
wim 0:dc8789a6e21f 224 char keycode = 0;
wim 0:dc8789a6e21f 225
wim 0:dc8789a6e21f 226 for (int bit=0; bit<8; bit++) {
wim 0:dc8789a6e21f 227
wim 0:dc8789a6e21f 228 // Prepare to read next bit, LSB first
wim 0:dc8789a6e21f 229 keycode = keycode << 1;
wim 0:dc8789a6e21f 230
wim 0:dc8789a6e21f 231 //The TM1637 expects LSB first
wim 0:dc8789a6e21f 232 if (((data >> bit) & 0x01) == 0x01) {
wim 0:dc8789a6e21f 233 _mosi=1;
wim 0:dc8789a6e21f 234 }
wim 0:dc8789a6e21f 235 else {
wim 0:dc8789a6e21f 236 _mosi=0;
wim 0:dc8789a6e21f 237 }
wim 0:dc8789a6e21f 238 wait_us(1);
wim 0:dc8789a6e21f 239 _sclk=1;
wim 0:dc8789a6e21f 240 wait_us(1);
wim 0:dc8789a6e21f 241
wim 0:dc8789a6e21f 242 // Read next bit, LSB first
wim 0:dc8789a6e21f 243 if (_miso) { keycode |= 0x01; }
wim 0:dc8789a6e21f 244
wim 0:dc8789a6e21f 245 _sclk=0;
wim 0:dc8789a6e21f 246 wait_us(1);
wim 0:dc8789a6e21f 247 }
wim 0:dc8789a6e21f 248
wim 0:dc8789a6e21f 249 // dummy Ack
wim 0:dc8789a6e21f 250 _sclk=1;
wim 0:dc8789a6e21f 251 wait_us(1);
wim 0:dc8789a6e21f 252 _sclk=0;
wim 0:dc8789a6e21f 253 wait_us(1);
wim 0:dc8789a6e21f 254
wim 0:dc8789a6e21f 255 return keycode;
wim 0:dc8789a6e21f 256 }
wim 0:dc8789a6e21f 257
wim 0:dc8789a6e21f 258
wim 0:dc8789a6e21f 259 /** Write command and parameter to TM1637
wim 0:dc8789a6e21f 260 * @param int cmd Command byte
wim 0:dc8789a6e21f 261 * &Param int data Parameters for command
wim 0:dc8789a6e21f 262 * @return none
wim 0:dc8789a6e21f 263 */
wim 0:dc8789a6e21f 264 void TM1637::_writeCmd(int cmd, int data){
wim 0:dc8789a6e21f 265
wim 0:dc8789a6e21f 266 _start();
wim 0:dc8789a6e21f 267
wim 0:dc8789a6e21f 268 _write((cmd & TM1637_CMD_MSK) | (data & ~TM1637_CMD_MSK));
wim 0:dc8789a6e21f 269
wim 0:dc8789a6e21f 270 _stop();
wim 0:dc8789a6e21f 271 }
wim 0:dc8789a6e21f 272
wim 0:dc8789a6e21f 273
wim 0:dc8789a6e21f 274 #if (CATALEX_TEST == 1)
wim 0:dc8789a6e21f 275 // Derived class for TM1637 used in LED&KEY display unit
wim 0:dc8789a6e21f 276 //
wim 0:dc8789a6e21f 277
wim 0:dc8789a6e21f 278 /** Constructor for class for driving TM1637 LED controller as used in CATALEX
wim 0:dc8789a6e21f 279 *
wim 0:dc8789a6e21f 280 * @brief Supports 8 Digits of 7 Segments + DP.
wim 0:dc8789a6e21f 281 *
wim 0:dc8789a6e21f 282 * @param PinName mosi Serial bus MOSI pin
wim 0:dc8789a6e21f 283 * @param PinName miso Serial bus MISO pin
wim 0:dc8789a6e21f 284 * @param PinName sclk Serial bus SCLK pin
wim 0:dc8789a6e21f 285 */
wim 0:dc8789a6e21f 286 TM1637_CATALEX::TM1637_CATALEX(PinName mosi, PinName miso, PinName sclk) : TM1637(mosi, miso, sclk) {
wim 0:dc8789a6e21f 287 _column = 0;
wim 0:dc8789a6e21f 288 _columns = CATALEX_NR_DIGITS;
wim 0:dc8789a6e21f 289 }
wim 0:dc8789a6e21f 290
wim 0:dc8789a6e21f 291 #if(0)
wim 0:dc8789a6e21f 292 #if DOXYGEN_ONLY
wim 0:dc8789a6e21f 293 /** Write a character to the Display
wim 0:dc8789a6e21f 294 *
wim 0:dc8789a6e21f 295 * @param c The character to write to the display
wim 0:dc8789a6e21f 296 */
wim 0:dc8789a6e21f 297 int putc(int c);
wim 0:dc8789a6e21f 298
wim 0:dc8789a6e21f 299 /** Write a formatted string to the Display
wim 0:dc8789a6e21f 300 *
wim 0:dc8789a6e21f 301 * @param format A printf-style format string, followed by the
wim 0:dc8789a6e21f 302 * variables to use in formatting the string.
wim 0:dc8789a6e21f 303 */
wim 0:dc8789a6e21f 304 int printf(const char* format, ...);
wim 0:dc8789a6e21f 305 #endif
wim 0:dc8789a6e21f 306 #endif
wim 0:dc8789a6e21f 307
wim 0:dc8789a6e21f 308 /** Locate cursor to a screen column
wim 0:dc8789a6e21f 309 *
wim 0:dc8789a6e21f 310 * @param column The horizontal position from the left, indexed from 0
wim 0:dc8789a6e21f 311 */
wim 0:dc8789a6e21f 312 void TM1637_CATALEX::locate(int column) {
wim 0:dc8789a6e21f 313 //sanity check
wim 0:dc8789a6e21f 314 if (column < 0) {column = 0;}
wim 0:dc8789a6e21f 315 if (column > (_columns - 1)) {column = _columns - 1;}
wim 0:dc8789a6e21f 316
wim 0:dc8789a6e21f 317 _column = column;
wim 0:dc8789a6e21f 318 }
wim 0:dc8789a6e21f 319
wim 0:dc8789a6e21f 320
wim 0:dc8789a6e21f 321 /** Number of screen columns
wim 0:dc8789a6e21f 322 *
wim 0:dc8789a6e21f 323 * @param none
wim 0:dc8789a6e21f 324 * @return columns
wim 0:dc8789a6e21f 325 */
wim 0:dc8789a6e21f 326 int TM1637_CATALEX::columns() {
wim 0:dc8789a6e21f 327 return _columns;
wim 0:dc8789a6e21f 328 }
wim 0:dc8789a6e21f 329
wim 0:dc8789a6e21f 330
wim 0:dc8789a6e21f 331 /** Clear the screen and locate to 0
wim 0:dc8789a6e21f 332 * @param bool clrAll Clear Icons also (default = false)
wim 0:dc8789a6e21f 333 */
wim 0:dc8789a6e21f 334 void TM1637_CATALEX::cls(bool clrAll) {
wim 0:dc8789a6e21f 335
wim 0:dc8789a6e21f 336 if (clrAll) {
wim 0:dc8789a6e21f 337 //clear local buffer (inclumosig Icons)
wim 0:dc8789a6e21f 338 for (int idx=0; idx < CATALEX_NR_GRIDS; idx++) {
wim 0:dc8789a6e21f 339 _displaybuffer[idx] = 0x00;
wim 0:dc8789a6e21f 340 }
wim 0:dc8789a6e21f 341 }
wim 0:dc8789a6e21f 342 else {
wim 0:dc8789a6e21f 343 //clear local buffer (preserving Icons)
wim 0:dc8789a6e21f 344 for (int idx=0; idx < CATALEX_NR_GRIDS; idx++) {
wim 0:dc8789a6e21f 345 _displaybuffer[idx] = _displaybuffer[idx] & MASK_ICON_GRID[idx];
wim 0:dc8789a6e21f 346 }
wim 0:dc8789a6e21f 347 }
wim 0:dc8789a6e21f 348
wim 0:dc8789a6e21f 349 writeData(_displaybuffer, (CATALEX_NR_GRIDS * TM1637_BYTES_PER_GRID));
wim 0:dc8789a6e21f 350
wim 0:dc8789a6e21f 351 _column = 0;
wim 0:dc8789a6e21f 352 }
wim 0:dc8789a6e21f 353
wim 0:dc8789a6e21f 354 /** Set Icon
wim 0:dc8789a6e21f 355 *
wim 0:dc8789a6e21f 356 * @param Icon icon Enums Icon has Grid position encoded in 8 MSBs, Icon pattern encoded in 16 LSBs
wim 0:dc8789a6e21f 357 * @return none
wim 0:dc8789a6e21f 358 */
wim 0:dc8789a6e21f 359 void TM1637_CATALEX::setIcon(Icon icon) {
wim 0:dc8789a6e21f 360 int addr, icn;
wim 0:dc8789a6e21f 361
wim 0:dc8789a6e21f 362 icn = icon & 0xFFFF;
wim 0:dc8789a6e21f 363 addr = (icon >> 24) & 0xFF;
wim 0:dc8789a6e21f 364 addr = (addr - 1);
wim 0:dc8789a6e21f 365
wim 0:dc8789a6e21f 366 //Save char...and set bits for icon to write
wim 0:dc8789a6e21f 367 _displaybuffer[addr] = _displaybuffer[addr] | LO(icn);
wim 0:dc8789a6e21f 368 // writeData(_displaybuffer, (CATALEX_NR_GRIDS * TM1637_BYTES_PER_GRID));
wim 0:dc8789a6e21f 369 writeData(_displaybuffer, TM1637_BYTES_PER_GRID, addr);
wim 0:dc8789a6e21f 370 }
wim 0:dc8789a6e21f 371
wim 0:dc8789a6e21f 372 /** Clr Icon
wim 0:dc8789a6e21f 373 *
wim 0:dc8789a6e21f 374 * @param Icon icon Enums Icon has Grid position encoded in 8 MSBs, Icon pattern encoded in 16 LSBs
wim 0:dc8789a6e21f 375 * @return none
wim 0:dc8789a6e21f 376 */
wim 0:dc8789a6e21f 377 void TM1637_CATALEX::clrIcon(Icon icon) {
wim 0:dc8789a6e21f 378 int addr, icn;
wim 0:dc8789a6e21f 379
wim 0:dc8789a6e21f 380 icn = icon & 0xFFFF;
wim 0:dc8789a6e21f 381 addr = (icon >> 24) & 0xFF;
wim 0:dc8789a6e21f 382 addr = (addr - 1);
wim 0:dc8789a6e21f 383
wim 0:dc8789a6e21f 384 //Save char...and clr bits for icon to write
wim 0:dc8789a6e21f 385 _displaybuffer[addr] = _displaybuffer[addr] & ~LO(icn);
wim 0:dc8789a6e21f 386 // writeData(_displaybuffer, (CATALEX_NR_GRIDS * TM1637_BYTES_PER_GRID));
wim 0:dc8789a6e21f 387 writeData(_displaybuffer, TM1637_BYTES_PER_GRID, addr);
wim 0:dc8789a6e21f 388 }
wim 0:dc8789a6e21f 389
wim 0:dc8789a6e21f 390
wim 0:dc8789a6e21f 391 /** Set User Defined Characters (UDC)
wim 0:dc8789a6e21f 392 *
wim 0:dc8789a6e21f 393 * @param unsigned char udc_idx The Index of the UDC (0..7)
wim 0:dc8789a6e21f 394 * @param int udc_data The bitpattern for the UDC (8 bits)
wim 0:dc8789a6e21f 395 */
wim 0:dc8789a6e21f 396 void TM1637_CATALEX::setUDC(unsigned char udc_idx, int udc_data) {
wim 0:dc8789a6e21f 397
wim 0:dc8789a6e21f 398 //Sanity check
wim 0:dc8789a6e21f 399 if (udc_idx > (CATALEX_NR_UDC-1)) {
wim 0:dc8789a6e21f 400 return;
wim 0:dc8789a6e21f 401 }
wim 0:dc8789a6e21f 402 // Mask out Icon bits?
wim 0:dc8789a6e21f 403
wim 0:dc8789a6e21f 404 _UDC_7S[udc_idx] = LO(udc_data);
wim 0:dc8789a6e21f 405 }
wim 0:dc8789a6e21f 406
wim 0:dc8789a6e21f 407
wim 0:dc8789a6e21f 408 /** Write a single character (Stream implementation)
wim 0:dc8789a6e21f 409 */
wim 0:dc8789a6e21f 410 int TM1637_CATALEX::_putc(int value) {
wim 0:dc8789a6e21f 411 int addr;
wim 0:dc8789a6e21f 412 bool validChar = false;
wim 0:dc8789a6e21f 413 char pattern = 0x00;
wim 0:dc8789a6e21f 414
wim 0:dc8789a6e21f 415 if ((value == '\n') || (value == '\r')) {
wim 0:dc8789a6e21f 416 //No character to write
wim 0:dc8789a6e21f 417 validChar = false;
wim 0:dc8789a6e21f 418
wim 0:dc8789a6e21f 419 //Update Cursor
wim 0:dc8789a6e21f 420 _column = 0;
wim 0:dc8789a6e21f 421 }
wim 0:dc8789a6e21f 422 else if ((value == '.') || (value == ',')) {
wim 0:dc8789a6e21f 423 //No character to write
wim 0:dc8789a6e21f 424 validChar = false;
wim 0:dc8789a6e21f 425 pattern = S7_DP; // placeholder for all DPs
wim 0:dc8789a6e21f 426
wim 0:dc8789a6e21f 427 // Check to see that DP can be shown for current column
wim 0:dc8789a6e21f 428 if (_column > 0) {
wim 0:dc8789a6e21f 429 //Translate between _column and displaybuffer entries
wim 0:dc8789a6e21f 430 //Add DP to bitpattern of digit left of current column.
wim 0:dc8789a6e21f 431 addr = (_column - 1);
wim 0:dc8789a6e21f 432
wim 0:dc8789a6e21f 433 //Save icons...and set bits for decimal point to write
wim 0:dc8789a6e21f 434 _displaybuffer[addr] = _displaybuffer[addr] | pattern;
wim 0:dc8789a6e21f 435 // writeData(_displaybuffer, (CATALEX_NR_GRIDS * TM1637_BYTES_PER_GRID));
wim 0:dc8789a6e21f 436 writeData(_displaybuffer, TM1637_BYTES_PER_GRID, addr);
wim 0:dc8789a6e21f 437
wim 0:dc8789a6e21f 438 //No Cursor Update
wim 0:dc8789a6e21f 439 }
wim 0:dc8789a6e21f 440 }
wim 0:dc8789a6e21f 441 else if ((value >= 0) && (value < CATALEX_NR_UDC)) {
wim 0:dc8789a6e21f 442 //Character to write
wim 0:dc8789a6e21f 443 validChar = true;
wim 0:dc8789a6e21f 444 pattern = _UDC_7S[value];
wim 0:dc8789a6e21f 445 }
wim 0:dc8789a6e21f 446
wim 0:dc8789a6e21f 447 #if (SHOW_ASCII == 1)
wim 0:dc8789a6e21f 448 //display all ASCII characters
wim 0:dc8789a6e21f 449 else if ((value >= FONT_7S_START) && (value <= FONT_7S_END)) {
wim 0:dc8789a6e21f 450 //Character to write
wim 0:dc8789a6e21f 451 validChar = true;
wim 0:dc8789a6e21f 452 pattern = FONT_7S[value - FONT_7S_START];
wim 0:dc8789a6e21f 453 } // else
wim 0:dc8789a6e21f 454 #else
wim 0:dc8789a6e21f 455 //display only digits and hex characters
wim 0:dc8789a6e21f 456 else if (value == '-') {
wim 0:dc8789a6e21f 457 //Character to write
wim 0:dc8789a6e21f 458 validChar = true;
wim 0:dc8789a6e21f 459 pattern = C7_MIN;
wim 0:dc8789a6e21f 460 }
wim 0:dc8789a6e21f 461 else if ((value >= (int)'0') && (value <= (int) '9')) {
wim 0:dc8789a6e21f 462 //Character to write
wim 0:dc8789a6e21f 463 validChar = true;
wim 0:dc8789a6e21f 464 pattern = FONT_7S[value - (int) '0'];
wim 0:dc8789a6e21f 465 }
wim 0:dc8789a6e21f 466 else if ((value >= (int) 'A') && (value <= (int) 'F')) {
wim 0:dc8789a6e21f 467 //Character to write
wim 0:dc8789a6e21f 468 validChar = true;
wim 0:dc8789a6e21f 469 pattern = FONT_7S[10 + value - (int) 'A'];
wim 0:dc8789a6e21f 470 }
wim 0:dc8789a6e21f 471 else if ((value >= (int) 'a') && (value <= (int) 'f')) {
wim 0:dc8789a6e21f 472 //Character to write
wim 0:dc8789a6e21f 473 validChar = true;
wim 0:dc8789a6e21f 474 pattern = FONT_7S[10 + value - (int) 'a'];
wim 0:dc8789a6e21f 475 } //else
wim 0:dc8789a6e21f 476 #endif
wim 0:dc8789a6e21f 477
wim 0:dc8789a6e21f 478 if (validChar) {
wim 0:dc8789a6e21f 479 //Character to write
wim 0:dc8789a6e21f 480
wim 0:dc8789a6e21f 481 //Translate between _column and displaybuffer entries
wim 0:dc8789a6e21f 482 addr = _column;
wim 0:dc8789a6e21f 483
wim 0:dc8789a6e21f 484 //Save icons...and set bits for character to write
wim 0:dc8789a6e21f 485 _displaybuffer[addr] = (_displaybuffer[addr] & MASK_ICON_GRID[_column]) | pattern;
wim 0:dc8789a6e21f 486
wim 0:dc8789a6e21f 487 // writeData(_displaybuffer, (CATALEX_NR_GRIDS * TM1637_BYTES_PER_GRID));
wim 0:dc8789a6e21f 488 writeData(_displaybuffer, TM1637_BYTES_PER_GRID, addr);
wim 0:dc8789a6e21f 489
wim 0:dc8789a6e21f 490 //Update Cursor
wim 0:dc8789a6e21f 491 _column++;
wim 0:dc8789a6e21f 492 if (_column > (CATALEX_NR_DIGITS - 1)) {
wim 0:dc8789a6e21f 493 _column = 0;
wim 0:dc8789a6e21f 494 }
wim 0:dc8789a6e21f 495
wim 0:dc8789a6e21f 496 } // if validChar
wim 0:dc8789a6e21f 497
wim 0:dc8789a6e21f 498 return value;
wim 0:dc8789a6e21f 499 }
wim 0:dc8789a6e21f 500
wim 0:dc8789a6e21f 501
wim 0:dc8789a6e21f 502 // get a single character (Stream implementation)
wim 0:dc8789a6e21f 503 int TM1637_CATALEX::_getc() {
wim 0:dc8789a6e21f 504 return -1;
wim 0:dc8789a6e21f 505 }
wim 0:dc8789a6e21f 506
wim 0:dc8789a6e21f 507 #endif