TEST

Dependents:   ADXL345Test ADXL345Test1

Fork of TM1638 by Wim Huiskamp

Committer:
jack__zen
Date:
Mon Sep 04 01:39:58 2017 +0000
Revision:
5:a4634cc2ab71
Parent:
4:b2bbdc58967e
TSET

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wim 0:201dfacbe0e5 1 /* mbed TM1638 Library, for TM1638 LED controller
wim 0:201dfacbe0e5 2 * Copyright (c) 2015, v01: WH, Initial version
wim 2:532ce15ea9ec 3 * 2016, v02: WH, refactored display and keyboard defines
wim 4:b2bbdc58967e 4 * 2016, v03: WH, Added QYF-TM1638 and LKM1638, refactoring of writeData()
wim 0:201dfacbe0e5 5 *
wim 0:201dfacbe0e5 6 * Permission is hereby granted, free of charge, to any person obtaining a copy
wim 0:201dfacbe0e5 7 * of this software and associated documentation files (the "Software"), to deal
wim 0:201dfacbe0e5 8 * in the Software without restriction, including without limitation the rights
wim 0:201dfacbe0e5 9 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
wim 0:201dfacbe0e5 10 * copies of the Software, and to permit persons to whom the Software is
wim 0:201dfacbe0e5 11 * furnished to do so, subject to the following conditions:
wim 0:201dfacbe0e5 12 *
wim 0:201dfacbe0e5 13 * The above copyright notice and this permission notice shall be included in
wim 0:201dfacbe0e5 14 * all copies or substantial portions of the Software.
wim 0:201dfacbe0e5 15 *
wim 0:201dfacbe0e5 16 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
wim 0:201dfacbe0e5 17 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
wim 0:201dfacbe0e5 18 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
wim 0:201dfacbe0e5 19 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
wim 0:201dfacbe0e5 20 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
wim 0:201dfacbe0e5 21 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
wim 0:201dfacbe0e5 22 * THE SOFTWARE.
wim 0:201dfacbe0e5 23 */
wim 0:201dfacbe0e5 24
wim 0:201dfacbe0e5 25 #ifndef TM1638_H
wim 0:201dfacbe0e5 26 #define TM1638_H
wim 0:201dfacbe0e5 27
wim 0:201dfacbe0e5 28 // Select one of the testboards for TM1638 LED controller
wim 0:201dfacbe0e5 29 #include "TM1638_Config.h"
wim 0:201dfacbe0e5 30
wim 0:201dfacbe0e5 31 /** An interface for driving TM1638 LED controller
wim 0:201dfacbe0e5 32 *
wim 0:201dfacbe0e5 33 * @code
wim 0:201dfacbe0e5 34 * #include "mbed.h"
wim 0:201dfacbe0e5 35 * #include "TM1638.h"
wim 0:201dfacbe0e5 36 *
wim 0:201dfacbe0e5 37 * DisplayData_t size is 16 bytes (8 grids @ 10 segments)
wim 0:201dfacbe0e5 38 * TM1638::DisplayData_t all_str = {0xFF,0x3F, 0xFF,0x3F, 0xFF,0x3F, 0xFF,0x3F, 0xFF,0x3F, 0xFF,0x3F, 0xFF,0x3F, 0xFF,0x3F};
wim 0:201dfacbe0e5 39 *
wim 1:1f2453ed85d7 40 * // KeyData_t size is 4 bytes
wim 0:201dfacbe0e5 41 * TM1638::KeyData_t keydata;
wim 0:201dfacbe0e5 42 *
wim 0:201dfacbe0e5 43 * // TM1638 declaration
wim 0:201dfacbe0e5 44 * TM1638 TM1638(p5,p6,p7, p8);
wim 0:201dfacbe0e5 45 *
wim 0:201dfacbe0e5 46 * int main() {
wim 0:201dfacbe0e5 47 * TM1638.cls();
wim 0:201dfacbe0e5 48 * TM1638.writeData(all_str);
wim 0:201dfacbe0e5 49 * wait(1);
wim 0:201dfacbe0e5 50 * TM1638.setBrightness(TM1638_BRT0);
wim 0:201dfacbe0e5 51 * wait(1);
wim 0:201dfacbe0e5 52 * TM1638.setBrightness(TM1638_BRT3);
wim 0:201dfacbe0e5 53 *
wim 0:201dfacbe0e5 54 * while (1) {
wim 0:201dfacbe0e5 55 * // Check and read keydata
wim 0:201dfacbe0e5 56 * if (TM1638.getKeys(&keydata)) {
wim 0:201dfacbe0e5 57 * pc.printf("Keydata 0..3 = 0x%02x 0x%02x 0x%02x 0x%02x\r\n", keydata[0], keydata[1], keydata[2], keydata[3]);
wim 0:201dfacbe0e5 58 *
wim 1:1f2453ed85d7 59 * if (keydata[0] == 0x01) { //sw1
wim 0:201dfacbe0e5 60 * TM1638.cls();
wim 0:201dfacbe0e5 61 * TM1638.writeData(all_str);
wim 0:201dfacbe0e5 62 * }
wim 0:201dfacbe0e5 63 * }
wim 0:201dfacbe0e5 64 * }
wim 0:201dfacbe0e5 65 * }
wim 0:201dfacbe0e5 66 * @endcode
wim 0:201dfacbe0e5 67 */
wim 0:201dfacbe0e5 68
wim 2:532ce15ea9ec 69
wim 2:532ce15ea9ec 70 //TM1638 Display and Keymatrix data
wim 2:532ce15ea9ec 71 #define TM1638_MAX_NR_GRIDS 8
wim 2:532ce15ea9ec 72 #define TM1638_BYTES_PER_GRID 2
wim 2:532ce15ea9ec 73 //Significant bits Keymatrix data
wim 2:532ce15ea9ec 74 #define TM1638_KEY_MSK 0x77
wim 2:532ce15ea9ec 75
wim 0:201dfacbe0e5 76 //Memory size in bytes for Display and Keymatrix
wim 2:532ce15ea9ec 77 #define TM1638_DISPLAY_MEM (TM1638_MAX_NR_GRIDS * TM1638_BYTES_PER_GRID)
wim 0:201dfacbe0e5 78 #define TM1638_KEY_MEM 4
wim 2:532ce15ea9ec 79
wim 0:201dfacbe0e5 80
wim 0:201dfacbe0e5 81 //Reserved bits for commands
wim 0:201dfacbe0e5 82 #define TM1638_CMD_MSK 0xC0
wim 0:201dfacbe0e5 83
wim 0:201dfacbe0e5 84 //Data setting commands
wim 0:201dfacbe0e5 85 #define TM1638_DATA_SET_CMD 0x40
wim 0:201dfacbe0e5 86 #define TM1638_DATA_WR 0x00
wim 0:201dfacbe0e5 87 #define TM1638_KEY_RD 0x02
wim 0:201dfacbe0e5 88 #define TM1638_ADDR_INC 0x00
wim 0:201dfacbe0e5 89 #define TM1638_ADDR_FIXED 0x04
wim 0:201dfacbe0e5 90 #define TM1638_MODE_NORM 0x00
wim 0:201dfacbe0e5 91 #define TM1638_MODE_TEST 0x08
wim 0:201dfacbe0e5 92
wim 0:201dfacbe0e5 93 //Address setting commands
wim 0:201dfacbe0e5 94 #define TM1638_ADDR_SET_CMD 0xC0
wim 0:201dfacbe0e5 95 #define TM1638_ADDR_MSK 0x0F
wim 0:201dfacbe0e5 96
wim 0:201dfacbe0e5 97 //Display control commands
wim 0:201dfacbe0e5 98 #define TM1638_DSP_CTRL_CMD 0x80
wim 0:201dfacbe0e5 99 #define TM1638_BRT_MSK 0x07
wim 0:201dfacbe0e5 100 #define TM1638_BRT0 0x00 //Pulsewidth 1/16
wim 0:201dfacbe0e5 101 #define TM1638_BRT1 0x01
wim 0:201dfacbe0e5 102 #define TM1638_BRT2 0x02
wim 0:201dfacbe0e5 103 #define TM1638_BRT3 0x03
wim 0:201dfacbe0e5 104 #define TM1638_BRT4 0x04
wim 0:201dfacbe0e5 105 #define TM1638_BRT5 0x05
wim 0:201dfacbe0e5 106 #define TM1638_BRT6 0x06
wim 0:201dfacbe0e5 107 #define TM1638_BRT7 0x07 //Pulsewidth 14/16
wim 0:201dfacbe0e5 108
wim 0:201dfacbe0e5 109 #define TM1638_BRT_DEF TM1638_BRT3
wim 0:201dfacbe0e5 110
wim 0:201dfacbe0e5 111 #define TM1638_DSP_OFF 0x00
wim 0:201dfacbe0e5 112 #define TM1638_DSP_ON 0x08
wim 0:201dfacbe0e5 113
wim 0:201dfacbe0e5 114
wim 0:201dfacbe0e5 115 /** A class for driving TM1638 LED controller
wim 0:201dfacbe0e5 116 *
wim 0:201dfacbe0e5 117 * @brief Supports 8 Grids @ 10 Segments.
wim 0:201dfacbe0e5 118 * Also supports a scanned keyboard of upto 24 keys.
wim 0:201dfacbe0e5 119 * SPI bus interface device.
wim 0:201dfacbe0e5 120 */
wim 0:201dfacbe0e5 121 class TM1638 {
wim 0:201dfacbe0e5 122 public:
wim 4:b2bbdc58967e 123 /** Datatype for display data */
wim 0:201dfacbe0e5 124 typedef char DisplayData_t[TM1638_DISPLAY_MEM];
wim 4:b2bbdc58967e 125
wim 4:b2bbdc58967e 126 /** Datatypes for keymatrix data */
wim 0:201dfacbe0e5 127 typedef char KeyData_t[TM1638_KEY_MEM];
wim 0:201dfacbe0e5 128
wim 0:201dfacbe0e5 129 /** Constructor for class for driving TM1638 LED controller
wim 0:201dfacbe0e5 130 *
wim 0:201dfacbe0e5 131 * @brief Supports 8 Grids @ 10 segments.
wim 0:201dfacbe0e5 132 * Also supports a scanned keyboard of upto 24 keys.
wim 0:201dfacbe0e5 133 * SPI bus interface device.
wim 0:201dfacbe0e5 134 *
wim 0:201dfacbe0e5 135 * @param PinName mosi, miso, sclk, cs SPI bus pins
wim 0:201dfacbe0e5 136 */
wim 0:201dfacbe0e5 137 TM1638(PinName mosi, PinName miso, PinName sclk, PinName cs);
wim 0:201dfacbe0e5 138
wim 0:201dfacbe0e5 139 /** Clear the screen and locate to 0
wim 0:201dfacbe0e5 140 */
wim 0:201dfacbe0e5 141 void cls();
wim 0:201dfacbe0e5 142
wim 0:201dfacbe0e5 143 /** Write databyte to TM1638
wim 4:b2bbdc58967e 144 * @param char data byte written at given address
wim 0:201dfacbe0e5 145 * @param int address display memory location to write byte
wim 0:201dfacbe0e5 146 * @return none
wim 0:201dfacbe0e5 147 */
wim 4:b2bbdc58967e 148 void writeData(char data, int address);
wim 4:b2bbdc58967e 149
wim 4:b2bbdc58967e 150 /** Write Display datablock to TM1638
wim 4:b2bbdc58967e 151 * @param DisplayData_t data Array of TM1638_DISPLAY_MEM (=16) bytes for displaydata
wim 4:b2bbdc58967e 152 * @param length number bytes to write (valid range 0..(TM1638_MAX_NR_GRIDS * TM1638_BYTES_PER_GRID) (=16), when starting at address 0)
wim 4:b2bbdc58967e 153 * @param int address display memory location to write bytes (default = 0)
wim 4:b2bbdc58967e 154 * @return none
wim 4:b2bbdc58967e 155 */
wim 4:b2bbdc58967e 156 void writeData(DisplayData_t data, int length = (TM1638_MAX_NR_GRIDS * TM1638_BYTES_PER_GRID), int address = 0);
wim 0:201dfacbe0e5 157
wim 0:201dfacbe0e5 158 /** Read keydata block from TM1638
wim 0:201dfacbe0e5 159 * @param *keydata Ptr to Array of TM1638_KEY_MEM (=4) bytes for keydata
wim 0:201dfacbe0e5 160 * @return bool keypress True when at least one key was pressed
wim 0:201dfacbe0e5 161 *
wim 0:201dfacbe0e5 162 * Note: Due to the hardware configuration the TM1638 key matrix scanner will detect multiple keys pressed at same time,
wim 0:201dfacbe0e5 163 * but this may result in some spurious keys also being set in keypress data array.
wim 0:201dfacbe0e5 164 * It may be best to ignore all keys in those situations. That option is implemented in this method depending on #define setting.
wim 0:201dfacbe0e5 165 */
wim 0:201dfacbe0e5 166 bool getKeys(KeyData_t *keydata);
wim 0:201dfacbe0e5 167
wim 0:201dfacbe0e5 168 /** Set Brightness
wim 0:201dfacbe0e5 169 *
wim 4:b2bbdc58967e 170 * @param char brightness (3 significant bits, valid range 0..7 (1/16 .. 14/16 dutycycle)
wim 0:201dfacbe0e5 171 * @return none
wim 0:201dfacbe0e5 172 */
wim 0:201dfacbe0e5 173 void setBrightness(char brightness = TM1638_BRT_DEF);
wim 0:201dfacbe0e5 174
wim 0:201dfacbe0e5 175 /** Set the Display mode On/off
wim 0:201dfacbe0e5 176 *
wim 0:201dfacbe0e5 177 * @param bool display mode
wim 0:201dfacbe0e5 178 */
wim 0:201dfacbe0e5 179 void setDisplay(bool on);
wim 0:201dfacbe0e5 180
wim 0:201dfacbe0e5 181 private:
wim 0:201dfacbe0e5 182 SPI _spi;
wim 0:201dfacbe0e5 183 DigitalOut _cs;
wim 0:201dfacbe0e5 184 char _display;
wim 0:201dfacbe0e5 185 char _bright;
wim 0:201dfacbe0e5 186
wim 0:201dfacbe0e5 187 /** Init the SPI interface and the controller
wim 0:201dfacbe0e5 188 * @param none
wim 0:201dfacbe0e5 189 * @return none
wim 0:201dfacbe0e5 190 */
wim 0:201dfacbe0e5 191 void _init();
wim 0:201dfacbe0e5 192
wim 0:201dfacbe0e5 193 /** Helper to reverse all command or databits. The TM1638 expects LSB first, whereas SPI is MSB first
wim 0:201dfacbe0e5 194 * @param char data
wim 0:201dfacbe0e5 195 * @return bitreversed data
wim 0:201dfacbe0e5 196 */
wim 0:201dfacbe0e5 197 char _flip(char data);
wim 0:201dfacbe0e5 198
wim 0:201dfacbe0e5 199 /** Write command and parameter to TM1638
wim 0:201dfacbe0e5 200 * @param int cmd Command byte
wim 0:201dfacbe0e5 201 * &Param int data Parameters for command
wim 0:201dfacbe0e5 202 * @return none
wim 0:201dfacbe0e5 203 */
wim 0:201dfacbe0e5 204 void _writeCmd(int cmd, int data);
wim 0:201dfacbe0e5 205 };
wim 0:201dfacbe0e5 206
wim 0:201dfacbe0e5 207
wim 0:201dfacbe0e5 208 #if (LEDKEY8_TEST == 1)
wim 0:201dfacbe0e5 209 // Derived class for TM1638 used in LED&KEY display unit
wim 0:201dfacbe0e5 210 //
wim 0:201dfacbe0e5 211
wim 0:201dfacbe0e5 212 #include "Font_7Seg.h"
wim 0:201dfacbe0e5 213
wim 0:201dfacbe0e5 214 #define LEDKEY8_NR_GRIDS 8
wim 0:201dfacbe0e5 215 #define LEDKEY8_NR_DIGITS 8
wim 0:201dfacbe0e5 216 #define LEDKEY8_NR_UDC 8
wim 0:201dfacbe0e5 217
wim 1:1f2453ed85d7 218 //Access to 8 Switches
wim 1:1f2453ed85d7 219 #define LEDKEY8_SW1_IDX 0
wim 1:1f2453ed85d7 220 #define LEDKEY8_SW1_BIT 0x01
wim 1:1f2453ed85d7 221 #define LEDKEY8_SW2_IDX 1
wim 1:1f2453ed85d7 222 #define LEDKEY8_SW2_BIT 0x01
wim 1:1f2453ed85d7 223 #define LEDKEY8_SW3_IDX 2
wim 1:1f2453ed85d7 224 #define LEDKEY8_SW3_BIT 0x01
wim 1:1f2453ed85d7 225 #define LEDKEY8_SW4_IDX 3
wim 1:1f2453ed85d7 226 #define LEDKEY8_SW4_BIT 0x01
wim 1:1f2453ed85d7 227
wim 1:1f2453ed85d7 228 #define LEDKEY8_SW5_IDX 0
wim 1:1f2453ed85d7 229 #define LEDKEY8_SW5_BIT 0x10
wim 1:1f2453ed85d7 230 #define LEDKEY8_SW6_IDX 1
wim 1:1f2453ed85d7 231 #define LEDKEY8_SW6_BIT 0x10
wim 1:1f2453ed85d7 232 #define LEDKEY8_SW7_IDX 2
wim 1:1f2453ed85d7 233 #define LEDKEY8_SW7_BIT 0x10
wim 1:1f2453ed85d7 234 #define LEDKEY8_SW8_IDX 3
wim 1:1f2453ed85d7 235 #define LEDKEY8_SW8_BIT 0x10
wim 1:1f2453ed85d7 236
wim 0:201dfacbe0e5 237 /** Constructor for class for driving TM1638 controller as used in LEDKEY8
wim 0:201dfacbe0e5 238 *
wim 0:201dfacbe0e5 239 * @brief Supports 8 Digits of 7 Segments + DP + LED Icons, Also supports a scanned keyboard of 8 keys.
wim 0:201dfacbe0e5 240 *
wim 0:201dfacbe0e5 241 * @param PinName mosi, miso, sclk, cs SPI bus pins
wim 0:201dfacbe0e5 242 */
wim 0:201dfacbe0e5 243 class TM1638_LEDKEY8 : public TM1638, public Stream {
wim 0:201dfacbe0e5 244 public:
wim 0:201dfacbe0e5 245
wim 0:201dfacbe0e5 246 /** Enums for Icons */
wim 1:1f2453ed85d7 247 // Grid encoded in 8 MSBs, Icon pattern encoded in 16 LSBs
wim 0:201dfacbe0e5 248 enum Icon {
wim 4:b2bbdc58967e 249 LD1 = (1<<24) | S7_LD1, /**< LED1 */
wim 4:b2bbdc58967e 250 LD2 = (2<<24) | S7_LD2, /**< LED2 */
wim 4:b2bbdc58967e 251 LD3 = (3<<24) | S7_LD3, /**< LED3 */
wim 4:b2bbdc58967e 252 LD4 = (4<<24) | S7_LD4, /**< LED4 */
wim 4:b2bbdc58967e 253 LD5 = (5<<24) | S7_LD5, /**< LED5 */
wim 4:b2bbdc58967e 254 LD6 = (6<<24) | S7_LD6, /**< LED6 */
wim 4:b2bbdc58967e 255 LD7 = (7<<24) | S7_LD7, /**< LED7 */
wim 4:b2bbdc58967e 256 LD8 = (8<<24) | S7_LD8, /**< LED8 */
wim 0:201dfacbe0e5 257
wim 4:b2bbdc58967e 258 DP1 = (1<<24) | S7_DP1, /**< Decimal Point 1 */
wim 4:b2bbdc58967e 259 DP2 = (2<<24) | S7_DP2, /**< Decimal Point 2 */
wim 4:b2bbdc58967e 260 DP3 = (3<<24) | S7_DP3, /**< Decimal Point 3 */
wim 4:b2bbdc58967e 261 DP4 = (4<<24) | S7_DP4, /**< Decimal Point 4 */
wim 4:b2bbdc58967e 262 DP5 = (5<<24) | S7_DP5, /**< Decimal Point 5 */
wim 4:b2bbdc58967e 263 DP6 = (6<<24) | S7_DP6, /**< Decimal Point 6 */
wim 4:b2bbdc58967e 264 DP7 = (7<<24) | S7_DP7, /**< Decimal Point 7 */
wim 4:b2bbdc58967e 265 DP8 = (8<<24) | S7_DP8 /**< Decimal Point 8 */
wim 0:201dfacbe0e5 266 };
wim 0:201dfacbe0e5 267
wim 0:201dfacbe0e5 268 typedef char UDCData_t[LEDKEY8_NR_UDC];
wim 0:201dfacbe0e5 269
wim 0:201dfacbe0e5 270 /** Constructor for class for driving TM1638 LED controller as used in LEDKEY8
wim 0:201dfacbe0e5 271 *
wim 0:201dfacbe0e5 272 * @brief Supports 8 Digits of 7 Segments + DP + LED Icons. Also supports a scanned keyboard of 8 keys.
wim 0:201dfacbe0e5 273 *
wim 0:201dfacbe0e5 274 * @param PinName mosi, miso, sclk, cs SPI bus pins
wim 0:201dfacbe0e5 275 */
wim 0:201dfacbe0e5 276 TM1638_LEDKEY8(PinName mosi, PinName miso, PinName sclk, PinName cs);
wim 0:201dfacbe0e5 277
wim 0:201dfacbe0e5 278 #if DOXYGEN_ONLY
wim 0:201dfacbe0e5 279 /** Write a character to the Display
wim 0:201dfacbe0e5 280 *
wim 0:201dfacbe0e5 281 * @param c The character to write to the display
wim 0:201dfacbe0e5 282 */
wim 0:201dfacbe0e5 283 int putc(int c);
wim 0:201dfacbe0e5 284
wim 0:201dfacbe0e5 285 /** Write a formatted string to the Display
wim 0:201dfacbe0e5 286 *
wim 0:201dfacbe0e5 287 * @param format A printf-style format string, followed by the
wim 0:201dfacbe0e5 288 * variables to use in formatting the string.
wim 0:201dfacbe0e5 289 */
wim 0:201dfacbe0e5 290 int printf(const char* format, ...);
wim 0:201dfacbe0e5 291 #endif
wim 0:201dfacbe0e5 292
wim 0:201dfacbe0e5 293 /** Locate cursor to a screen column
wim 0:201dfacbe0e5 294 *
wim 0:201dfacbe0e5 295 * @param column The horizontal position from the left, indexed from 0
wim 0:201dfacbe0e5 296 */
wim 0:201dfacbe0e5 297 void locate(int column);
wim 0:201dfacbe0e5 298
wim 0:201dfacbe0e5 299 /** Clear the screen and locate to 0
wim 0:201dfacbe0e5 300 * @param bool clrAll Clear Icons also (default = false)
wim 0:201dfacbe0e5 301 */
wim 0:201dfacbe0e5 302 void cls(bool clrAll = false);
wim 0:201dfacbe0e5 303
wim 0:201dfacbe0e5 304 /** Set Icon
wim 0:201dfacbe0e5 305 *
wim 1:1f2453ed85d7 306 * @param Icon icon Enums Icon has Grid position encoded in 8 MSBs, Icon pattern encoded in 16 LSBs
wim 0:201dfacbe0e5 307 * @return none
wim 0:201dfacbe0e5 308 */
wim 0:201dfacbe0e5 309 void setIcon(Icon icon);
wim 0:201dfacbe0e5 310
wim 0:201dfacbe0e5 311 /** Clr Icon
wim 0:201dfacbe0e5 312 *
wim 1:1f2453ed85d7 313 * @param Icon icon Enums Icon has Grid position encoded in 8 MSBs, Icon pattern encoded in 16 LSBs
wim 0:201dfacbe0e5 314 * @return none
wim 0:201dfacbe0e5 315 */
wim 0:201dfacbe0e5 316 void clrIcon(Icon icon);
wim 0:201dfacbe0e5 317
wim 0:201dfacbe0e5 318 /** Set User Defined Characters (UDC)
wim 0:201dfacbe0e5 319 *
wim 0:201dfacbe0e5 320 * @param unsigned char udc_idx The Index of the UDC (0..7)
wim 0:201dfacbe0e5 321 * @param int udc_data The bitpattern for the UDC (16 bits)
wim 0:201dfacbe0e5 322 */
wim 0:201dfacbe0e5 323 void setUDC(unsigned char udc_idx, int udc_data);
wim 0:201dfacbe0e5 324
wim 0:201dfacbe0e5 325
wim 0:201dfacbe0e5 326 /** Number of screen columns
wim 0:201dfacbe0e5 327 *
wim 0:201dfacbe0e5 328 * @param none
wim 0:201dfacbe0e5 329 * @return columns
wim 0:201dfacbe0e5 330 */
wim 0:201dfacbe0e5 331 int columns();
wim 0:201dfacbe0e5 332
wim 0:201dfacbe0e5 333 /** Write databyte to TM1638
wim 4:b2bbdc58967e 334 * @param char data byte written at given address
wim 0:201dfacbe0e5 335 * @param int address display memory location to write byte
wim 0:201dfacbe0e5 336 * @return none
wim 0:201dfacbe0e5 337 */
wim 4:b2bbdc58967e 338 void writeData(char data, int address){
wim 4:b2bbdc58967e 339 TM1638::writeData(data, address);
wim 4:b2bbdc58967e 340 }
wim 4:b2bbdc58967e 341
wim 4:b2bbdc58967e 342 /** Write Display datablock to TM1638
wim 4:b2bbdc58967e 343 * @param DisplayData_t data Array of TM1638_DISPLAY_MEM (=16) bytes for displaydata
wim 4:b2bbdc58967e 344 * @param length number bytes to write (valid range 0..(LEDKEY8_NR_GRIDS * TM1638_BYTES_PER_GRID) (=16), when starting at address 0)
wim 4:b2bbdc58967e 345 * @param int address display memory location to write bytes (default = 0)
wim 4:b2bbdc58967e 346 * @return none
wim 4:b2bbdc58967e 347 */
wim 4:b2bbdc58967e 348 void writeData(DisplayData_t data, int length = (LEDKEY8_NR_GRIDS * TM1638_BYTES_PER_GRID), int address = 0) {
wim 4:b2bbdc58967e 349 TM1638::writeData(data, length, address);
wim 4:b2bbdc58967e 350 }
wim 4:b2bbdc58967e 351
wim 4:b2bbdc58967e 352 protected:
wim 4:b2bbdc58967e 353 // Stream implementation functions
wim 4:b2bbdc58967e 354 virtual int _putc(int value);
wim 4:b2bbdc58967e 355 virtual int _getc();
wim 4:b2bbdc58967e 356
wim 4:b2bbdc58967e 357 private:
wim 4:b2bbdc58967e 358 int _column;
wim 4:b2bbdc58967e 359 int _columns;
wim 4:b2bbdc58967e 360
wim 4:b2bbdc58967e 361 DisplayData_t _displaybuffer;
wim 4:b2bbdc58967e 362 UDCData_t _UDC_7S;
wim 4:b2bbdc58967e 363 };
wim 4:b2bbdc58967e 364 #endif
wim 4:b2bbdc58967e 365
wim 4:b2bbdc58967e 366
wim 4:b2bbdc58967e 367 #if (QYF_TEST == 1)
wim 4:b2bbdc58967e 368 // Derived class for TM1638 used in QYF-TM1638 display unit
wim 4:b2bbdc58967e 369 //
wim 4:b2bbdc58967e 370
wim 4:b2bbdc58967e 371 #include "Font_7Seg.h"
wim 4:b2bbdc58967e 372
wim 4:b2bbdc58967e 373 #define QYF_NR_GRIDS 8
wim 4:b2bbdc58967e 374 #define QYF_NR_DIGITS 8
wim 4:b2bbdc58967e 375 #define QYF_NR_UDC 8
wim 4:b2bbdc58967e 376
wim 4:b2bbdc58967e 377 //Access to 16 Switches
wim 4:b2bbdc58967e 378 #define QYF_SW1_IDX 0
wim 4:b2bbdc58967e 379 #define QYF_SW1_BIT 0x04
wim 4:b2bbdc58967e 380 #define QYF_SW2_IDX 0
wim 4:b2bbdc58967e 381 #define QYF_SW2_BIT 0x40
wim 4:b2bbdc58967e 382 #define QYF_SW3_IDX 1
wim 4:b2bbdc58967e 383 #define QYF_SW3_BIT 0x04
wim 4:b2bbdc58967e 384 #define QYF_SW4_IDX 1
wim 4:b2bbdc58967e 385 #define QYF_SW4_BIT 0x40
wim 4:b2bbdc58967e 386
wim 4:b2bbdc58967e 387 #define QYF_SW5_IDX 2
wim 4:b2bbdc58967e 388 #define QYF_SW5_BIT 0x04
wim 4:b2bbdc58967e 389 #define QYF_SW6_IDX 2
wim 4:b2bbdc58967e 390 #define QYF_SW6_BIT 0x40
wim 4:b2bbdc58967e 391 #define QYF_SW7_IDX 3
wim 4:b2bbdc58967e 392 #define QYF_SW7_BIT 0x04
wim 4:b2bbdc58967e 393 #define QYF_SW8_IDX 3
wim 4:b2bbdc58967e 394 #define QYF_SW8_BIT 0x40
wim 4:b2bbdc58967e 395
wim 4:b2bbdc58967e 396 #define QYF_SW9_IDX 0
wim 4:b2bbdc58967e 397 #define QYF_SW9_BIT 0x02
wim 4:b2bbdc58967e 398 #define QYF_SW10_IDX 0
wim 4:b2bbdc58967e 399 #define QYF_SW10_BIT 0x20
wim 4:b2bbdc58967e 400 #define QYF_SW11_IDX 1
wim 4:b2bbdc58967e 401 #define QYF_SW11_BIT 0x02
wim 4:b2bbdc58967e 402 #define QYF_SW12_IDX 1
wim 4:b2bbdc58967e 403 #define QYF_SW12_BIT 0x20
wim 4:b2bbdc58967e 404
wim 4:b2bbdc58967e 405 #define QYF_SW13_IDX 2
wim 4:b2bbdc58967e 406 #define QYF_SW13_BIT 0x02
wim 4:b2bbdc58967e 407 #define QYF_SW14_IDX 2
wim 4:b2bbdc58967e 408 #define QYF_SW14_BIT 0x20
wim 4:b2bbdc58967e 409 #define QYF_SW15_IDX 3
wim 4:b2bbdc58967e 410 #define QYF_SW15_BIT 0x02
wim 4:b2bbdc58967e 411 #define QYF_SW16_IDX 3
wim 4:b2bbdc58967e 412 #define QYF_SW16_BIT 0x20
wim 4:b2bbdc58967e 413
wim 4:b2bbdc58967e 414 /** Constructor for class for driving TM1638 controller as used in QYF
wim 4:b2bbdc58967e 415 *
wim 4:b2bbdc58967e 416 * @brief Supports 8 Digits of 7 Segments + DP, Also supports a scanned keyboard of 16 keys.
wim 4:b2bbdc58967e 417 *
wim 4:b2bbdc58967e 418 * @param PinName mosi, miso, sclk, cs SPI bus pins
wim 4:b2bbdc58967e 419 */
wim 4:b2bbdc58967e 420 class TM1638_QYF : public TM1638, public Stream {
wim 4:b2bbdc58967e 421 public:
wim 4:b2bbdc58967e 422
wim 4:b2bbdc58967e 423 /** Enums for Icons */
wim 4:b2bbdc58967e 424 // Grid encoded in 8 MSBs, Icon pattern encoded in 16 LSBs
wim 4:b2bbdc58967e 425 enum Icon {
wim 4:b2bbdc58967e 426 DP1 = (8<<24) | S7_DP1, /**< Decimal Point 1 */
wim 4:b2bbdc58967e 427 DP2 = (8<<24) | S7_DP2, /**< Decimal Point 2 */
wim 4:b2bbdc58967e 428 DP3 = (8<<24) | S7_DP3, /**< Decimal Point 3 */
wim 4:b2bbdc58967e 429 DP4 = (8<<24) | S7_DP4, /**< Decimal Point 4 */
wim 4:b2bbdc58967e 430 DP5 = (8<<24) | S7_DP5, /**< Decimal Point 5 */
wim 4:b2bbdc58967e 431 DP6 = (8<<24) | S7_DP6, /**< Decimal Point 6 */
wim 4:b2bbdc58967e 432 DP7 = (8<<24) | S7_DP7, /**< Decimal Point 7 */
wim 4:b2bbdc58967e 433 DP8 = (8<<24) | S7_DP8 /**< Decimal Point 8 */
wim 4:b2bbdc58967e 434 };
wim 4:b2bbdc58967e 435
wim 4:b2bbdc58967e 436 typedef char UDCData_t[QYF_NR_UDC];
wim 4:b2bbdc58967e 437
wim 4:b2bbdc58967e 438 /** Constructor for class for driving TM1638 LED controller as used in QYF
wim 4:b2bbdc58967e 439 *
wim 4:b2bbdc58967e 440 * @brief Supports 8 Digits of 7 Segments + DP Icons. Also supports a scanned keyboard of 16 keys.
wim 4:b2bbdc58967e 441 *
wim 4:b2bbdc58967e 442 * @param PinName mosi, miso, sclk, cs SPI bus pins
wim 4:b2bbdc58967e 443 */
wim 4:b2bbdc58967e 444 TM1638_QYF(PinName mosi, PinName miso, PinName sclk, PinName cs);
wim 4:b2bbdc58967e 445
wim 4:b2bbdc58967e 446 #if DOXYGEN_ONLY
wim 4:b2bbdc58967e 447 /** Write a character to the Display
wim 4:b2bbdc58967e 448 *
wim 4:b2bbdc58967e 449 * @param c The character to write to the display
wim 4:b2bbdc58967e 450 */
wim 4:b2bbdc58967e 451 int putc(int c);
wim 4:b2bbdc58967e 452
wim 4:b2bbdc58967e 453 /** Write a formatted string to the Display
wim 4:b2bbdc58967e 454 *
wim 4:b2bbdc58967e 455 * @param format A printf-style format string, followed by the
wim 4:b2bbdc58967e 456 * variables to use in formatting the string.
wim 4:b2bbdc58967e 457 */
wim 4:b2bbdc58967e 458 int printf(const char* format, ...);
wim 4:b2bbdc58967e 459 #endif
wim 4:b2bbdc58967e 460
wim 4:b2bbdc58967e 461 /** Locate cursor to a screen column
wim 4:b2bbdc58967e 462 *
wim 4:b2bbdc58967e 463 * @param column The horizontal position from the left, indexed from 0
wim 4:b2bbdc58967e 464 */
wim 4:b2bbdc58967e 465 void locate(int column);
wim 4:b2bbdc58967e 466
wim 4:b2bbdc58967e 467 /** Clear the screen and locate to 0
wim 4:b2bbdc58967e 468 * @param bool clrAll Clear Icons also (default = false)
wim 4:b2bbdc58967e 469 */
wim 4:b2bbdc58967e 470 void cls(bool clrAll = false);
wim 4:b2bbdc58967e 471
wim 4:b2bbdc58967e 472 /** Set Icon
wim 4:b2bbdc58967e 473 *
wim 4:b2bbdc58967e 474 * @param Icon icon Enums Icon has Grid position encoded in 8 MSBs, Icon pattern encoded in 16 LSBs
wim 4:b2bbdc58967e 475 * @return none
wim 4:b2bbdc58967e 476 */
wim 4:b2bbdc58967e 477 void setIcon(Icon icon);
wim 4:b2bbdc58967e 478
wim 4:b2bbdc58967e 479 /** Clr Icon
wim 4:b2bbdc58967e 480 *
wim 4:b2bbdc58967e 481 * @param Icon icon Enums Icon has Grid position encoded in 8 MSBs, Icon pattern encoded in 16 LSBs
wim 4:b2bbdc58967e 482 * @return none
wim 4:b2bbdc58967e 483 */
wim 4:b2bbdc58967e 484 void clrIcon(Icon icon);
wim 4:b2bbdc58967e 485
wim 4:b2bbdc58967e 486 /** Set User Defined Characters (UDC)
wim 4:b2bbdc58967e 487 *
wim 4:b2bbdc58967e 488 * @param unsigned char udc_idx The Index of the UDC (0..7)
wim 4:b2bbdc58967e 489 * @param int udc_data The bitpattern for the UDC (16 bits)
wim 4:b2bbdc58967e 490 */
wim 4:b2bbdc58967e 491 void setUDC(unsigned char udc_idx, int udc_data);
wim 4:b2bbdc58967e 492
wim 4:b2bbdc58967e 493
wim 4:b2bbdc58967e 494 /** Number of screen columns
wim 4:b2bbdc58967e 495 *
wim 4:b2bbdc58967e 496 * @param none
wim 4:b2bbdc58967e 497 * @return columns
wim 4:b2bbdc58967e 498 */
wim 4:b2bbdc58967e 499 int columns();
wim 4:b2bbdc58967e 500
wim 4:b2bbdc58967e 501 /** Write databyte to TM1638
wim 4:b2bbdc58967e 502 * @param char data byte written at given address
wim 4:b2bbdc58967e 503 * @param int address display memory location to write byte
wim 4:b2bbdc58967e 504 * @return none
wim 4:b2bbdc58967e 505 */
wim 4:b2bbdc58967e 506 void writeData(char data, int address){
wim 4:b2bbdc58967e 507 TM1638::writeData(data, address);
wim 0:201dfacbe0e5 508 }
wim 0:201dfacbe0e5 509
wim 0:201dfacbe0e5 510 /** Write Display datablock to TM1638
wim 4:b2bbdc58967e 511 * @param DisplayData_t data Array of TM1638_DISPLAY_MEM (=16) bytes for displaydata
wim 4:b2bbdc58967e 512 * @param length number bytes to write (valid range 0..(QYF_NR_GRIDS * TM1638_BYTES_PER_GRID) (=16), when starting at address 0)
wim 4:b2bbdc58967e 513 * @param int address display memory location to write bytes (default = 0)
wim 0:201dfacbe0e5 514 * @return none
wim 0:201dfacbe0e5 515 */
wim 4:b2bbdc58967e 516 void writeData(DisplayData_t data, int length = (QYF_NR_GRIDS * TM1638_BYTES_PER_GRID), int address = 0) {
wim 4:b2bbdc58967e 517 TM1638::writeData(data, length, address);
wim 4:b2bbdc58967e 518 }
wim 4:b2bbdc58967e 519
wim 4:b2bbdc58967e 520 protected:
wim 4:b2bbdc58967e 521 // Stream implementation functions
wim 4:b2bbdc58967e 522 virtual int _putc(int value);
wim 4:b2bbdc58967e 523 virtual int _getc();
wim 4:b2bbdc58967e 524
wim 4:b2bbdc58967e 525 private:
wim 4:b2bbdc58967e 526 int _column;
wim 4:b2bbdc58967e 527 int _columns;
wim 4:b2bbdc58967e 528
wim 4:b2bbdc58967e 529 DisplayData_t _displaybuffer;
wim 4:b2bbdc58967e 530 UDCData_t _UDC_7S;
wim 4:b2bbdc58967e 531 };
wim 4:b2bbdc58967e 532 #endif
wim 4:b2bbdc58967e 533
wim 4:b2bbdc58967e 534 #if (LKM1638_TEST == 1)
wim 4:b2bbdc58967e 535 // Derived class for TM1638 used in LKM1638 TM1638 display unit
wim 4:b2bbdc58967e 536 //
wim 4:b2bbdc58967e 537
wim 4:b2bbdc58967e 538 #include "Font_7Seg.h"
wim 4:b2bbdc58967e 539
wim 4:b2bbdc58967e 540 #define LKM1638_NR_GRIDS 8
wim 4:b2bbdc58967e 541 #define LKM1638_NR_DIGITS 8
wim 4:b2bbdc58967e 542 #define LKM1638_NR_UDC 8
wim 4:b2bbdc58967e 543
wim 4:b2bbdc58967e 544 //Access to 8 Switches
wim 4:b2bbdc58967e 545 #define LKM1638_SW1_IDX 0
wim 4:b2bbdc58967e 546 #define LKM1638_SW1_BIT 0x01
wim 4:b2bbdc58967e 547 #define LKM1638_SW2_IDX 1
wim 4:b2bbdc58967e 548 #define LKM1638_SW2_BIT 0x01
wim 4:b2bbdc58967e 549 #define LKM1638_SW3_IDX 2
wim 4:b2bbdc58967e 550 #define LKM1638_SW3_BIT 0x01
wim 4:b2bbdc58967e 551 #define LKM1638_SW4_IDX 3
wim 4:b2bbdc58967e 552 #define LKM1638_SW4_BIT 0x01
wim 4:b2bbdc58967e 553
wim 4:b2bbdc58967e 554 #define LKM1638_SW5_IDX 0
wim 4:b2bbdc58967e 555 #define LKM1638_SW5_BIT 0x10
wim 4:b2bbdc58967e 556 #define LKM1638_SW6_IDX 1
wim 4:b2bbdc58967e 557 #define LKM1638_SW6_BIT 0x10
wim 4:b2bbdc58967e 558 #define LKM1638_SW7_IDX 2
wim 4:b2bbdc58967e 559 #define LKM1638_SW7_BIT 0x10
wim 4:b2bbdc58967e 560 #define LKM1638_SW8_IDX 3
wim 4:b2bbdc58967e 561 #define LKM1638_SW8_BIT 0x10
wim 4:b2bbdc58967e 562
wim 4:b2bbdc58967e 563 /** Constructor for class for driving TM1638 controller as used in LKM1638
wim 4:b2bbdc58967e 564 *
wim 4:b2bbdc58967e 565 * @brief Supports 8 Digits of 7 Segments + DP, Also supports 8 Bi-color LEDs and a scanned keyboard of 8 keys.
wim 4:b2bbdc58967e 566 *
wim 4:b2bbdc58967e 567 * @param PinName mosi, miso, sclk, cs SPI bus pins
wim 4:b2bbdc58967e 568 */
wim 4:b2bbdc58967e 569 class TM1638_LKM1638 : public TM1638, public Stream {
wim 4:b2bbdc58967e 570 public:
wim 4:b2bbdc58967e 571
wim 4:b2bbdc58967e 572 /** Enums for Icons */
wim 4:b2bbdc58967e 573 // Grid encoded in 8 MSBs, Icon pattern encoded in 16 LSBs
wim 4:b2bbdc58967e 574 enum Icon {
wim 4:b2bbdc58967e 575 DP1 = (1<<24) | S7_DP1, /**< Decimal Point 1 */
wim 4:b2bbdc58967e 576 DP2 = (2<<24) | S7_DP2, /**< Decimal Point 2 */
wim 4:b2bbdc58967e 577 DP3 = (3<<24) | S7_DP3, /**< Decimal Point 3 */
wim 4:b2bbdc58967e 578 DP4 = (4<<24) | S7_DP4, /**< Decimal Point 4 */
wim 4:b2bbdc58967e 579 DP5 = (5<<24) | S7_DP5, /**< Decimal Point 5 */
wim 4:b2bbdc58967e 580 DP6 = (6<<24) | S7_DP6, /**< Decimal Point 6 */
wim 4:b2bbdc58967e 581 DP7 = (7<<24) | S7_DP7, /**< Decimal Point 7 */
wim 4:b2bbdc58967e 582 DP8 = (8<<24) | S7_DP8, /**< Decimal Point 8 */
wim 4:b2bbdc58967e 583
wim 4:b2bbdc58967e 584 GR1 = (1<<24) | S7_GR1, /**< Green LED 1 */
wim 4:b2bbdc58967e 585 GR2 = (2<<24) | S7_GR2, /**< Green LED 2 */
wim 4:b2bbdc58967e 586 GR3 = (3<<24) | S7_GR3, /**< Green LED 3 */
wim 4:b2bbdc58967e 587 GR4 = (4<<24) | S7_GR4, /**< Green LED 4 */
wim 4:b2bbdc58967e 588 GR5 = (5<<24) | S7_GR5, /**< Green LED 5 */
wim 4:b2bbdc58967e 589 GR6 = (6<<24) | S7_GR6, /**< Green LED 6 */
wim 4:b2bbdc58967e 590 GR7 = (7<<24) | S7_GR7, /**< Green LED 7 */
wim 4:b2bbdc58967e 591 GR8 = (8<<24) | S7_GR8, /**< Green LED 8 */
wim 4:b2bbdc58967e 592
wim 4:b2bbdc58967e 593 RD1 = (1<<24) | S7_RD1, /**< Red LED 1 */
wim 4:b2bbdc58967e 594 RD2 = (2<<24) | S7_RD2, /**< Red LED 2 */
wim 4:b2bbdc58967e 595 RD3 = (3<<24) | S7_RD3, /**< Red LED 3 */
wim 4:b2bbdc58967e 596 RD4 = (4<<24) | S7_RD4, /**< Red LED 4 */
wim 4:b2bbdc58967e 597 RD5 = (5<<24) | S7_RD5, /**< Red LED 5 */
wim 4:b2bbdc58967e 598 RD6 = (6<<24) | S7_RD6, /**< Red LED 6 */
wim 4:b2bbdc58967e 599 RD7 = (7<<24) | S7_RD7, /**< Red LED 7 */
wim 4:b2bbdc58967e 600 RD8 = (8<<24) | S7_RD8, /**< Red LED 8 */
wim 4:b2bbdc58967e 601
wim 4:b2bbdc58967e 602 YL1 = (1<<24) | S7_YL1, /**< Yellow LED 1 */
wim 4:b2bbdc58967e 603 YL2 = (2<<24) | S7_YL2, /**< Yellow LED 2 */
wim 4:b2bbdc58967e 604 YL3 = (3<<24) | S7_YL3, /**< Yellow LED 3 */
wim 4:b2bbdc58967e 605 YL4 = (4<<24) | S7_YL4, /**< Yellow LED 4 */
wim 4:b2bbdc58967e 606 YL5 = (5<<24) | S7_YL5, /**< Yellow LED 5 */
wim 4:b2bbdc58967e 607 YL6 = (6<<24) | S7_YL6, /**< Yellow LED 6 */
wim 4:b2bbdc58967e 608 YL7 = (7<<24) | S7_YL7, /**< Yellow LED 7 */
wim 4:b2bbdc58967e 609 YL8 = (8<<24) | S7_YL8 /**< Yellow LED 8 */
wim 4:b2bbdc58967e 610 };
wim 4:b2bbdc58967e 611
wim 4:b2bbdc58967e 612 typedef char UDCData_t[LKM1638_NR_UDC];
wim 4:b2bbdc58967e 613
wim 4:b2bbdc58967e 614 /** Constructor for class for driving TM1638 LED controller as used in LKM1638
wim 4:b2bbdc58967e 615 *
wim 4:b2bbdc58967e 616 * @brief Supports 8 Digits of 7 Segments + DP Icons. Also supports 8 Bi-Color LEDs and a scanned keyboard of 8 keys.
wim 4:b2bbdc58967e 617 *
wim 4:b2bbdc58967e 618 * @param PinName mosi, miso, sclk, cs SPI bus pins
wim 4:b2bbdc58967e 619 */
wim 4:b2bbdc58967e 620 TM1638_LKM1638(PinName mosi, PinName miso, PinName sclk, PinName cs);
wim 4:b2bbdc58967e 621
wim 4:b2bbdc58967e 622 #if DOXYGEN_ONLY
wim 4:b2bbdc58967e 623 /** Write a character to the Display
wim 4:b2bbdc58967e 624 *
wim 4:b2bbdc58967e 625 * @param c The character to write to the display
wim 4:b2bbdc58967e 626 */
wim 4:b2bbdc58967e 627 int putc(int c);
wim 4:b2bbdc58967e 628
wim 4:b2bbdc58967e 629 /** Write a formatted string to the Display
wim 4:b2bbdc58967e 630 *
wim 4:b2bbdc58967e 631 * @param format A printf-style format string, followed by the
wim 4:b2bbdc58967e 632 * variables to use in formatting the string.
wim 4:b2bbdc58967e 633 */
wim 4:b2bbdc58967e 634 int printf(const char* format, ...);
wim 4:b2bbdc58967e 635 #endif
wim 4:b2bbdc58967e 636
wim 4:b2bbdc58967e 637 /** Locate cursor to a screen column
wim 4:b2bbdc58967e 638 *
wim 4:b2bbdc58967e 639 * @param column The horizontal position from the left, indexed from 0
wim 4:b2bbdc58967e 640 */
wim 4:b2bbdc58967e 641 void locate(int column);
wim 4:b2bbdc58967e 642
wim 4:b2bbdc58967e 643 /** Clear the screen and locate to 0
wim 4:b2bbdc58967e 644 * @param bool clrAll Clear Icons also (default = false)
wim 4:b2bbdc58967e 645 */
wim 4:b2bbdc58967e 646 void cls(bool clrAll = false);
wim 4:b2bbdc58967e 647
wim 4:b2bbdc58967e 648 /** Set Icon
wim 4:b2bbdc58967e 649 *
wim 4:b2bbdc58967e 650 * @param Icon icon Enums Icon has Grid position encoded in 8 MSBs, Icon pattern encoded in 16 LSBs
wim 4:b2bbdc58967e 651 * @return none
wim 4:b2bbdc58967e 652 */
wim 4:b2bbdc58967e 653 void setIcon(Icon icon);
wim 4:b2bbdc58967e 654
wim 4:b2bbdc58967e 655 /** Clr Icon
wim 4:b2bbdc58967e 656 *
wim 4:b2bbdc58967e 657 * @param Icon icon Enums Icon has Grid position encoded in 8 MSBs, Icon pattern encoded in 16 LSBs
wim 4:b2bbdc58967e 658 * @return none
wim 4:b2bbdc58967e 659 */
wim 4:b2bbdc58967e 660 void clrIcon(Icon icon);
wim 4:b2bbdc58967e 661
wim 4:b2bbdc58967e 662 /** Set User Defined Characters (UDC)
wim 4:b2bbdc58967e 663 *
wim 4:b2bbdc58967e 664 * @param unsigned char udc_idx The Index of the UDC (0..7)
wim 4:b2bbdc58967e 665 * @param int udc_data The bitpattern for the UDC (16 bits)
wim 4:b2bbdc58967e 666 */
wim 4:b2bbdc58967e 667 void setUDC(unsigned char udc_idx, int udc_data);
wim 4:b2bbdc58967e 668
wim 4:b2bbdc58967e 669
wim 4:b2bbdc58967e 670 /** Number of screen columns
wim 4:b2bbdc58967e 671 *
wim 4:b2bbdc58967e 672 * @param none
wim 4:b2bbdc58967e 673 * @return columns
wim 4:b2bbdc58967e 674 */
wim 4:b2bbdc58967e 675 int columns();
wim 4:b2bbdc58967e 676
wim 4:b2bbdc58967e 677 /** Write databyte to TM1638
wim 4:b2bbdc58967e 678 * @param char data byte written at given address
wim 4:b2bbdc58967e 679 * @param int address display memory location to write byte
wim 4:b2bbdc58967e 680 * @return none
wim 4:b2bbdc58967e 681 */
wim 4:b2bbdc58967e 682 void writeData(char data, int address){
wim 4:b2bbdc58967e 683 TM1638::writeData(data, address);
wim 4:b2bbdc58967e 684 }
wim 4:b2bbdc58967e 685
wim 4:b2bbdc58967e 686 /** Write Display datablock to TM1638
wim 4:b2bbdc58967e 687 * @param DisplayData_t data Array of TM1638_DISPLAY_MEM (=16) bytes for displaydata
wim 4:b2bbdc58967e 688 * @param length number bytes to write (valid range 0..(LKM1638_NR_GRIDS * TM1638_BYTES_PER_GRID) (=16), when starting at address 0)
wim 4:b2bbdc58967e 689 * @param int address display memory location to write bytes (default = 0)
wim 4:b2bbdc58967e 690 * @return none
wim 4:b2bbdc58967e 691 */
wim 4:b2bbdc58967e 692 void writeData(DisplayData_t data, int length = (LKM1638_NR_GRIDS * TM1638_BYTES_PER_GRID), int address = 0) {
wim 4:b2bbdc58967e 693 TM1638::writeData(data, length, address);
wim 0:201dfacbe0e5 694 }
wim 0:201dfacbe0e5 695
wim 0:201dfacbe0e5 696 protected:
wim 0:201dfacbe0e5 697 // Stream implementation functions
wim 0:201dfacbe0e5 698 virtual int _putc(int value);
wim 0:201dfacbe0e5 699 virtual int _getc();
wim 0:201dfacbe0e5 700
wim 0:201dfacbe0e5 701 private:
wim 0:201dfacbe0e5 702 int _column;
wim 0:201dfacbe0e5 703 int _columns;
wim 0:201dfacbe0e5 704
wim 0:201dfacbe0e5 705 DisplayData_t _displaybuffer;
wim 0:201dfacbe0e5 706 UDCData_t _UDC_7S;
wim 0:201dfacbe0e5 707 };
wim 0:201dfacbe0e5 708 #endif
wim 0:201dfacbe0e5 709
wim 0:201dfacbe0e5 710 #endif