PT6964 - Princeton PT6964 LED controller supports 4 Digits…

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Princeton PT6964 LED controller supports 4 Digits @ 13 Segments, 5 Digits @ 12 Segments, 6 Digits @ 11 Segments or 7 Digits @ 10 Segments. Also supports a scanned keyboard of upto 20 keys. SPI bus interface.

Dependents: mbed_PT6964

See Component page here.

PT6964.cpp@1:1adf993a3e34, 2016-01-09 (annotated)

Committer:: wim
Date:: Sat Jan 09 13:40:06 2016 +0000
Revision:: 1:1adf993a3e34
Parent:: 0:27f32a087e5a
Child:: 2:eaf2f5d1af34

Updated Icon handling, UDCs and _putc()

Who changed what in which revision?

User	Revision	Line number	New contents of line
wim	0:27f32a087e5a	1	/* mbed PT6964 Library, for PT6964 LED controller
wim	0:27f32a087e5a	2	* Copyright (c) 2015, v01: WH, Initial version
wim	1:1adf993a3e34	3	* 2015, v02: WH, rename Digit/Grid
wim	1:1adf993a3e34	4	* 2016, v03: WH, updated Icon handling, UDCs and _putc()
wim	0:27f32a087e5a	5	*
wim	0:27f32a087e5a	6	* Permission is hereby granted, free of charge, to any person obtaining a copy
wim	0:27f32a087e5a	7	* of this software and associated documentation files (the "Software"), to deal
wim	0:27f32a087e5a	8	* in the Software without restriction, including without limitation the rights
wim	0:27f32a087e5a	9	* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
wim	0:27f32a087e5a	10	* copies of the Software, and to permit persons to whom the Software is
wim	0:27f32a087e5a	11	* furnished to do so, subject to the following conditions:
wim	0:27f32a087e5a	12	*
wim	0:27f32a087e5a	13	* The above copyright notice and this permission notice shall be included in
wim	0:27f32a087e5a	14	* all copies or substantial portions of the Software.
wim	0:27f32a087e5a	15	*
wim	0:27f32a087e5a	16	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
wim	0:27f32a087e5a	17	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
wim	0:27f32a087e5a	18	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
wim	0:27f32a087e5a	19	* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
wim	0:27f32a087e5a	20	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
wim	0:27f32a087e5a	21	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
wim	0:27f32a087e5a	22	* THE SOFTWARE.
wim	0:27f32a087e5a	23	*/
wim	0:27f32a087e5a	24	#include "mbed.h"
wim	0:27f32a087e5a	25	#include "PT6964.h"
wim	0:27f32a087e5a	26	#include "Font_7Seg.h"
wim	0:27f32a087e5a	27
wim	0:27f32a087e5a	28	/** Constructor for class for driving PT6964 LED controller with SPI bus interface device.
wim	0:27f32a087e5a	29	* Note: the PT6964 is also available from other chipvendors eg AIP1628, HT1628, CM1628, SM1628
wim	0:27f32a087e5a	30	* @brief Supports 4 digits @ 13 segments or 5 digits @ 12 segments or 6 Digits @ 11 Segments or 7 Digits @ 10 Segments.
wim	0:27f32a087e5a	31	* Also supports a scanned keyboard of upto 20 keys.
wim	0:27f32a087e5a	32	*
wim	0:27f32a087e5a	33	* @param PinName mosi, miso, sclk, cs SPI bus pins
wim	0:27f32a087e5a	34	* @param Mode selects either 6 Digits of 12 Segments or 7 Digits of 10 Segments (default)
wim	0:27f32a087e5a	35	*/
wim	0:27f32a087e5a	36	PT6964::PT6964(PinName mosi, PinName miso, PinName sclk, PinName cs, Mode mode) : _spi(mosi,miso,sclk), _cs(cs), _mode(mode) {
wim	0:27f32a087e5a	37
wim	0:27f32a087e5a	38	_init();
wim	0:27f32a087e5a	39	}
wim	0:27f32a087e5a	40
wim	0:27f32a087e5a	41	/** Init the SPI interface and the controller
wim	0:27f32a087e5a	42	* @param none
wim	0:27f32a087e5a	43	* @return none
wim	0:27f32a087e5a	44	*/
wim	0:27f32a087e5a	45	void PT6964::_init(){
wim	0:27f32a087e5a	46
wim	0:27f32a087e5a	47	//init SPI
wim	0:27f32a087e5a	48	_cs=1;
wim	0:27f32a087e5a	49	_spi.format(8,3); //PT6964 uses mode 3 (Clock High on Idle, Data latched on second (=rising) edge)
wim	0:27f32a087e5a	50	_spi.frequency(500000);
wim	0:27f32a087e5a	51
wim	0:27f32a087e5a	52	//init controller
wim	0:27f32a087e5a	53	_writeCmd(PT6964_MODE_SET_CMD, _mode); // Mode set command
wim	0:27f32a087e5a	54
wim	0:27f32a087e5a	55	_display = PT6964_DSP_ON;
wim	0:27f32a087e5a	56	_bright = PT6964_BRT_DEF;
wim	0:27f32a087e5a	57	_writeCmd(PT6964_DSP_CTRL_CMD, _display \| _bright ); // Display control cmd, display on/off, brightness
wim	0:27f32a087e5a	58
wim	0:27f32a087e5a	59	_writeCmd(PT6964_DATA_SET_CMD, PT6964_DATA_WR \| PT6964_ADDR_INC \| PT6964_MODE_NORM); // Data set cmd, normal mode, auto incr, write data
wim	0:27f32a087e5a	60	}
wim	0:27f32a087e5a	61
wim	0:27f32a087e5a	62
wim	0:27f32a087e5a	63	/** Clear the screen and locate to 0
wim	0:27f32a087e5a	64	*/
wim	0:27f32a087e5a	65	void PT6964::cls() {
wim	0:27f32a087e5a	66
wim	0:27f32a087e5a	67	_cs=0;
wim	0:27f32a087e5a	68	wait_us(1);
wim	0:27f32a087e5a	69	_spi.write(_flip(PT6964_ADDR_SET_CMD \| 0x00)); // Address set cmd, 0
wim	0:27f32a087e5a	70
wim	0:27f32a087e5a	71	for (int cnt=0; cnt<PT6964_DISPLAY_MEM; cnt++) {
wim	0:27f32a087e5a	72	_spi.write(0x00); // data
wim	0:27f32a087e5a	73	}
wim	0:27f32a087e5a	74
wim	0:27f32a087e5a	75	wait_us(1);
wim	0:27f32a087e5a	76	_cs=1;
wim	0:27f32a087e5a	77	}
wim	0:27f32a087e5a	78
wim	0:27f32a087e5a	79	/** Set Brightness
wim	0:27f32a087e5a	80	*
wim	0:27f32a087e5a	81	* @param char brightness (3 significant bits, valid range 0..7 (1/16 .. 14/14 dutycycle)
wim	0:27f32a087e5a	82	* @return none
wim	0:27f32a087e5a	83	*/
wim	0:27f32a087e5a	84	void PT6964::setBrightness(char brightness){
wim	0:27f32a087e5a	85
wim	0:27f32a087e5a	86	_bright = brightness & PT6964_BRT_MSK; // mask invalid bits
wim	0:27f32a087e5a	87
wim	0:27f32a087e5a	88	_writeCmd(PT6964_DSP_CTRL_CMD, _display \| _bright ); // Display control cmd, display on/off, brightness
wim	0:27f32a087e5a	89	}
wim	0:27f32a087e5a	90
wim	0:27f32a087e5a	91	/** Set the Display mode On/off
wim	0:27f32a087e5a	92	*
wim	0:27f32a087e5a	93	* @param bool display mode
wim	0:27f32a087e5a	94	*/
wim	0:27f32a087e5a	95	void PT6964::setDisplay(bool on) {
wim	0:27f32a087e5a	96
wim	0:27f32a087e5a	97	if (on) {
wim	0:27f32a087e5a	98	_display = PT6964_DSP_ON;
wim	0:27f32a087e5a	99	}
wim	0:27f32a087e5a	100	else {
wim	0:27f32a087e5a	101	_display = PT6964_DSP_OFF;
wim	0:27f32a087e5a	102	}
wim	0:27f32a087e5a	103
wim	0:27f32a087e5a	104	_writeCmd(PT6964_DSP_CTRL_CMD, _display \| _bright ); // Display control cmd, display on/off, brightness
wim	0:27f32a087e5a	105	}
wim	0:27f32a087e5a	106
wim	0:27f32a087e5a	107	/** Write databyte to PT6964
wim	0:27f32a087e5a	108	* @param int address display memory location to write byte
wim	0:27f32a087e5a	109	* @param char data byte written at given address
wim	0:27f32a087e5a	110	* @return none
wim	0:27f32a087e5a	111	*/
wim	0:27f32a087e5a	112	void PT6964::writeData(int address, char data) {
wim	0:27f32a087e5a	113	_cs=0;
wim	0:27f32a087e5a	114	wait_us(1);
wim	0:27f32a087e5a	115	_spi.write(_flip(PT6964_ADDR_SET_CMD \| (address & PT6964_ADDR_MSK))); // Set Address cmd
wim	0:27f32a087e5a	116
wim	0:27f32a087e5a	117	_spi.write(_flip(data)); // data
wim	0:27f32a087e5a	118
wim	0:27f32a087e5a	119	wait_us(1);
wim	0:27f32a087e5a	120	_cs=1;
wim	0:27f32a087e5a	121	}
wim	0:27f32a087e5a	122
wim	0:27f32a087e5a	123	/** Write Display datablock to PT6964
wim	0:27f32a087e5a	124	* @param DisplayData_t data Array of PT6964_DISPLAY_MEM (=14) bytes for displaydata (starting at address 0)
wim	0:27f32a087e5a	125	* @param length number bytes to write (valide range 0..PT6964_DISPLAY_MEM (=14), starting at address 0)
wim	0:27f32a087e5a	126	* @return none
wim	0:27f32a087e5a	127	*/
wim	0:27f32a087e5a	128	void PT6964::writeData(DisplayData_t data, int length) {
wim	0:27f32a087e5a	129	_cs=0;
wim	0:27f32a087e5a	130	wait_us(1);
wim	0:27f32a087e5a	131	_spi.write(_flip(PT6964_ADDR_SET_CMD \| 0x00)); // Set Address at 0
wim	0:27f32a087e5a	132
wim	0:27f32a087e5a	133	// sanity check
wim	0:27f32a087e5a	134	if (length < 0) {length = 0;}
wim	0:27f32a087e5a	135	if (length > PT6964_DISPLAY_MEM) {length = PT6964_DISPLAY_MEM;}
wim	0:27f32a087e5a	136
wim	0:27f32a087e5a	137	// for (int idx=0; idx<PT6964_DISPLAY_MEM; idx++) {
wim	0:27f32a087e5a	138	for (int idx=0; idx<length; idx++) {
wim	0:27f32a087e5a	139	_spi.write(_flip(data[idx])); // data
wim	0:27f32a087e5a	140	}
wim	0:27f32a087e5a	141
wim	0:27f32a087e5a	142	wait_us(1);
wim	0:27f32a087e5a	143	_cs=1;
wim	0:27f32a087e5a	144	}
wim	0:27f32a087e5a	145
wim	0:27f32a087e5a	146
wim	0:27f32a087e5a	147	/** Read keydata block from PT6964
wim	0:27f32a087e5a	148	* @param *keydata Ptr to Array of PT6964_KEY_MEM (=5) bytes for keydata
wim	0:27f32a087e5a	149	* @return bool keypress True when at least one key was pressed
wim	0:27f32a087e5a	150	*
wim	0:27f32a087e5a	151	* Note: Due to the hardware configuration the PT6964 key matrix scanner will detect multiple keys pressed at same time,
wim	0:27f32a087e5a	152	* but this may also result in some spurious keys being set in keypress data array.
wim	0:27f32a087e5a	153	* It may be best to ignore all keys in those situations. That option is implemented in this method depending on #define setting.
wim	0:27f32a087e5a	154	*/
wim	0:27f32a087e5a	155	bool PT6964::getKeys(KeyData_t *keydata) {
wim	0:27f32a087e5a	156	int keypress = 0;
wim	0:27f32a087e5a	157	char data;
wim	0:27f32a087e5a	158
wim	0:27f32a087e5a	159	// Read keys
wim	0:27f32a087e5a	160	_cs=0;
wim	0:27f32a087e5a	161	wait_us(1);
wim	0:27f32a087e5a	162
wim	0:27f32a087e5a	163	// Enable Key Read mode
wim	0:27f32a087e5a	164	_spi.write(_flip(PT6964_DATA_SET_CMD \| PT6964_KEY_RD \| PT6964_ADDR_INC \| PT6964_MODE_NORM)); // Data set cmd, normal mode, auto incr, read data
wim	0:27f32a087e5a	165
wim	0:27f32a087e5a	166	for (int idx=0; idx < PT6964_KEY_MEM; idx++) {
wim	0:27f32a087e5a	167	data = _flip(_spi.write(0xFF)); // read keys and correct bitorder
wim	0:27f32a087e5a	168
wim	0:27f32a087e5a	169	if (data != 0) { // Check for any pressed key
wim	0:27f32a087e5a	170	for (int bit=0; bit < PT6964_KEY_BITS; bit++) {
wim	0:27f32a087e5a	171	if (data & (1 << bit)) {keypress++;} // Test all significant bits
wim	0:27f32a087e5a	172	}
wim	0:27f32a087e5a	173	}
wim	0:27f32a087e5a	174
wim	0:27f32a087e5a	175	(*keydata)[idx] = data; // Store keydata after correcting bitorder
wim	0:27f32a087e5a	176	}
wim	0:27f32a087e5a	177
wim	0:27f32a087e5a	178	wait_us(1);
wim	0:27f32a087e5a	179	_cs=1;
wim	0:27f32a087e5a	180
wim	0:27f32a087e5a	181	// Restore Data Write mode
wim	0:27f32a087e5a	182	_writeCmd(PT6964_DATA_SET_CMD, PT6964_DATA_WR \| PT6964_ADDR_INC \| PT6964_MODE_NORM); // Data set cmd, normal mode, auto incr, write data
wim	0:27f32a087e5a	183
wim	0:27f32a087e5a	184	#if(1)
wim	0:27f32a087e5a	185	// Dismiss multiple keypresses at same time
wim	0:27f32a087e5a	186	return (keypress == 1);
wim	0:27f32a087e5a	187	#else
wim	0:27f32a087e5a	188	// Allow multiple keypress and accept possible spurious keys
wim	0:27f32a087e5a	189	return (keypress > 0);
wim	0:27f32a087e5a	190	#endif
wim	0:27f32a087e5a	191	}
wim	0:27f32a087e5a	192
wim	0:27f32a087e5a	193
wim	0:27f32a087e5a	194	/** Helper to reverse all command or databits. The PT6964 expects LSB first, whereas SPI is MSB first
wim	0:27f32a087e5a	195	* @param char data
wim	0:27f32a087e5a	196	* @return bitreversed data
wim	0:27f32a087e5a	197	*/
wim	0:27f32a087e5a	198	char PT6964::_flip(char data) {
wim	0:27f32a087e5a	199	char value=0;
wim	0:27f32a087e5a	200
wim	0:27f32a087e5a	201	if (data & 0x01) {value \|= 0x80;} ;
wim	0:27f32a087e5a	202	if (data & 0x02) {value \|= 0x40;} ;
wim	0:27f32a087e5a	203	if (data & 0x04) {value \|= 0x20;} ;
wim	0:27f32a087e5a	204	if (data & 0x08) {value \|= 0x10;} ;
wim	0:27f32a087e5a	205	if (data & 0x10) {value \|= 0x08;} ;
wim	0:27f32a087e5a	206	if (data & 0x20) {value \|= 0x04;} ;
wim	0:27f32a087e5a	207	if (data & 0x40) {value \|= 0x02;} ;
wim	0:27f32a087e5a	208	if (data & 0x80) {value \|= 0x01;} ;
wim	0:27f32a087e5a	209	return value;
wim	0:27f32a087e5a	210	}
wim	0:27f32a087e5a	211
wim	0:27f32a087e5a	212
wim	0:27f32a087e5a	213	/** Write command and parameter to PT6964
wim	0:27f32a087e5a	214	* @param int cmd Command byte
wim	0:27f32a087e5a	215	* &Param int data Parameters for command
wim	0:27f32a087e5a	216	* @return none
wim	0:27f32a087e5a	217	*/
wim	0:27f32a087e5a	218	void PT6964::_writeCmd(int cmd, int data){
wim	0:27f32a087e5a	219
wim	0:27f32a087e5a	220	_cs=0;
wim	0:27f32a087e5a	221	wait_us(1);
wim	0:27f32a087e5a	222	// _spi.write(_flip( (cmd & 0xF0) \| (data & 0x0F)));
wim	0:27f32a087e5a	223	_spi.write(_flip( (cmd & PT6964_CMD_MSK) \| (data & ~PT6964_CMD_MSK)));
wim	0:27f32a087e5a	224
wim	0:27f32a087e5a	225	wait_us(1);
wim	0:27f32a087e5a	226	_cs=1;
wim	0:27f32a087e5a	227	}
wim	0:27f32a087e5a	228
wim	0:27f32a087e5a	229
wim	0:27f32a087e5a	230
wim	0:27f32a087e5a	231
wim	0:27f32a087e5a	232	/** Constructor for class for driving Princeton PT6964 controller as used in DVD538A
wim	0:27f32a087e5a	233	*
wim	0:27f32a087e5a	234	* @brief Supports 4 Digits of 7 Segments, 1 Grid of 9 Icons. Also supports a scanned keyboard of 4.
wim	0:27f32a087e5a	235	*
wim	0:27f32a087e5a	236	* @param PinName mosi, miso, sclk, cs SPI bus pins
wim	0:27f32a087e5a	237	*/
wim	0:27f32a087e5a	238	PT6964_DVD538A::PT6964_DVD538A(PinName mosi, PinName miso, PinName sclk, PinName cs) : PT6964(mosi, miso, sclk, cs, Grid7_Seg10) {
wim	0:27f32a087e5a	239	_column = 0;
wim	0:27f32a087e5a	240	_columns = DVD538A_NR_DIGITS;
wim	0:27f32a087e5a	241	}
wim	0:27f32a087e5a	242
wim	0:27f32a087e5a	243	#if(0)
wim	0:27f32a087e5a	244	#if DOXYGEN_ONLY
wim	0:27f32a087e5a	245	/** Write a character to the Display
wim	0:27f32a087e5a	246	*
wim	0:27f32a087e5a	247	* @param c The character to write to the display
wim	0:27f32a087e5a	248	*/
wim	0:27f32a087e5a	249	int putc(int c);
wim	0:27f32a087e5a	250
wim	0:27f32a087e5a	251	/** Write a formatted string to the Display
wim	0:27f32a087e5a	252	*
wim	0:27f32a087e5a	253	* @param format A printf-style format string, followed by the
wim	0:27f32a087e5a	254	* variables to use in formatting the string.
wim	0:27f32a087e5a	255	*/
wim	0:27f32a087e5a	256	int printf(const char* format, ...);
wim	0:27f32a087e5a	257	#endif
wim	0:27f32a087e5a	258	#endif
wim	0:27f32a087e5a	259
wim	0:27f32a087e5a	260	/** Locate cursor to a screen column
wim	0:27f32a087e5a	261	*
wim	0:27f32a087e5a	262	* @param column The horizontal position from the left, indexed from 0
wim	0:27f32a087e5a	263	*/
wim	0:27f32a087e5a	264	void PT6964_DVD538A::locate(int column) {
wim	0:27f32a087e5a	265	//sanity check
wim	0:27f32a087e5a	266	if (column < 0) {column = 0;}
wim	0:27f32a087e5a	267	if (column > (_columns - 1)) {column = _columns - 1;}
wim	0:27f32a087e5a	268
wim	0:27f32a087e5a	269	_column = column;
wim	0:27f32a087e5a	270	}
wim	0:27f32a087e5a	271
wim	0:27f32a087e5a	272
wim	0:27f32a087e5a	273	/** Number of screen columns
wim	0:27f32a087e5a	274	*
wim	0:27f32a087e5a	275	* @param none
wim	0:27f32a087e5a	276	* @return columns
wim	0:27f32a087e5a	277	*/
wim	0:27f32a087e5a	278	int PT6964_DVD538A::columns() {
wim	0:27f32a087e5a	279	return _columns;
wim	0:27f32a087e5a	280	}
wim	0:27f32a087e5a	281
wim	1:1adf993a3e34	282
wim	0:27f32a087e5a	283	/** Clear the screen and locate to 0
wim	1:1adf993a3e34	284	* @param bool clrAll Clear Icons also (default = false)
wim	1:1adf993a3e34	285	*/
wim	1:1adf993a3e34	286	void PT6964_DVD538A::cls(bool clrAll) {
wim	1:1adf993a3e34	287
wim	1:1adf993a3e34	288	if (clrAll) {
wim	1:1adf993a3e34	289	//clear local buffer (including Icons)
wim	1:1adf993a3e34	290	for (int idx=0; idx < (DVD538A_NR_GRIDS << 1); idx++) {
wim	1:1adf993a3e34	291	_displaybuffer[idx] = 0x00;
wim	1:1adf993a3e34	292	}
wim	1:1adf993a3e34	293	}
wim	1:1adf993a3e34	294	else {
wim	1:1adf993a3e34	295	//clear local buffer (preserving Icons)
wim	1:1adf993a3e34	296	for (int idx=0; idx < DVD538A_NR_GRIDS; idx++) {
wim	1:1adf993a3e34	297	_displaybuffer[(idx<<1)] = _displaybuffer[(idx<<1)] & MASK_ICON_GRID[idx][0];
wim	1:1adf993a3e34	298	_displaybuffer[(idx<<1) + 1] = _displaybuffer[(idx<<1) + 1] & MASK_ICON_GRID[idx][1];
wim	1:1adf993a3e34	299	}
wim	0:27f32a087e5a	300	}
wim	0:27f32a087e5a	301
wim	0:27f32a087e5a	302	writeData(_displaybuffer, (DVD538A_NR_GRIDS*2));
wim	0:27f32a087e5a	303
wim	0:27f32a087e5a	304	_column = 0;
wim	1:1adf993a3e34	305	}
wim	1:1adf993a3e34	306
wim	0:27f32a087e5a	307
wim	0:27f32a087e5a	308	/** Set Icon
wim	0:27f32a087e5a	309	*
wim	1:1adf993a3e34	310	* @param Icon icon Enums Icon has Grid position encoded in 8 MSBs, Icon pattern encoded in 16 LSBs
wim	0:27f32a087e5a	311	* @return none
wim	0:27f32a087e5a	312	*/
wim	0:27f32a087e5a	313	void PT6964_DVD538A::setIcon(Icon icon) {
wim	0:27f32a087e5a	314	int addr, icn;
wim	0:27f32a087e5a	315
wim	1:1adf993a3e34	316	icn = icon & 0xFFFF;
wim	1:1adf993a3e34	317	addr = (icon >> 24) & 0xFF;
wim	1:1adf993a3e34	318	addr = (addr - 1) << 1;
wim	0:27f32a087e5a	319
wim	0:27f32a087e5a	320	//Save char...and set bits for icon to write
wim	0:27f32a087e5a	321	_displaybuffer[addr] = _displaybuffer[addr] \| LO(icn);
wim	0:27f32a087e5a	322	_displaybuffer[addr+1] = _displaybuffer[addr+1] \| HI(icn);
wim	0:27f32a087e5a	323	writeData(_displaybuffer, (DVD538A_NR_GRIDS*2));
wim	0:27f32a087e5a	324	}
wim	0:27f32a087e5a	325
wim	0:27f32a087e5a	326	/** Clr Icon
wim	0:27f32a087e5a	327	*
wim	1:1adf993a3e34	328	* @param Icon icon Enums Icon has Grid position encoded in 8 MSBs, Icon pattern encoded in 16 LSBs
wim	0:27f32a087e5a	329	* @return none
wim	0:27f32a087e5a	330	*/
wim	0:27f32a087e5a	331	void PT6964_DVD538A::clrIcon(Icon icon) {
wim	0:27f32a087e5a	332	int addr, icn;
wim	0:27f32a087e5a	333
wim	1:1adf993a3e34	334	icn = icon & 0xFFFF;
wim	1:1adf993a3e34	335	addr = (icon >> 24) & 0xFF;
wim	1:1adf993a3e34	336	addr = (addr - 1) << 1;
wim	1:1adf993a3e34	337
wim	0:27f32a087e5a	338	//Save char...and clr bits for icon to write
wim	0:27f32a087e5a	339	_displaybuffer[addr] = _displaybuffer[addr] & ~LO(icn);
wim	0:27f32a087e5a	340	_displaybuffer[addr+1] = _displaybuffer[addr+1] & ~HI(icn);
wim	0:27f32a087e5a	341	writeData(_displaybuffer, (DVD538A_NR_GRIDS*2));
wim	0:27f32a087e5a	342	}
wim	0:27f32a087e5a	343
wim	0:27f32a087e5a	344
wim	0:27f32a087e5a	345	/** Set User Defined Characters (UDC)
wim	0:27f32a087e5a	346	*
wim	0:27f32a087e5a	347	* @param unsigned char udc_idx The Index of the UDC (0..7)
wim	0:27f32a087e5a	348	* @param int udc_data The bitpattern for the UDC (16 bits)
wim	0:27f32a087e5a	349	*/
wim	0:27f32a087e5a	350	void PT6964_DVD538A::setUDC(unsigned char udc_idx, int udc_data) {
wim	0:27f32a087e5a	351
wim	0:27f32a087e5a	352	//Sanity check
wim	0:27f32a087e5a	353	if (udc_idx > (DVD538A_NR_UDC-1)) {
wim	0:27f32a087e5a	354	return;
wim	0:27f32a087e5a	355	}
wim	0:27f32a087e5a	356	// Mask out Icon bits?
wim	0:27f32a087e5a	357
wim	1:1adf993a3e34	358	_UDC_7S[udc_idx] = udc_data;
wim	0:27f32a087e5a	359	}
wim	0:27f32a087e5a	360
wim	1:1adf993a3e34	361
wim	0:27f32a087e5a	362	/** Write a single character (Stream implementation)
wim	0:27f32a087e5a	363	*/
wim	0:27f32a087e5a	364	int PT6964_DVD538A::_putc(int value) {
wim	1:1adf993a3e34	365	int addr;
wim	1:1adf993a3e34	366	bool validChar = false;
wim	1:1adf993a3e34	367	short pattern = 0x0000;
wim	0:27f32a087e5a	368
wim	0:27f32a087e5a	369	if ((value == '\n') \|\| (value == '\r')) {
wim	0:27f32a087e5a	370	//No character to write
wim	1:1adf993a3e34	371	validChar = false;
wim	0:27f32a087e5a	372
wim	0:27f32a087e5a	373	//Update Cursor
wim	0:27f32a087e5a	374	_column = 0;
wim	1:1adf993a3e34	375	}
wim	1:1adf993a3e34	376	else if (value == '-') {
wim	1:1adf993a3e34	377	//No character to write
wim	1:1adf993a3e34	378	validChar = true;
wim	1:1adf993a3e34	379	pattern = C7_MIN;
wim	0:27f32a087e5a	380	}
wim	0:27f32a087e5a	381	else if ((value >= 0) && (value < DVD538A_NR_UDC)) {
wim	0:27f32a087e5a	382	//Character to write
wim	1:1adf993a3e34	383	validChar = true;
wim	1:1adf993a3e34	384	pattern = _UDC_7S[value];
wim	0:27f32a087e5a	385	}
wim	0:27f32a087e5a	386	else if ((value >= (int)'0') && (value <= (int) '9')) {
wim	0:27f32a087e5a	387	//Character to write
wim	1:1adf993a3e34	388	validChar = true;
wim	1:1adf993a3e34	389	pattern = FONT_7S[value - (int) '0'];
wim	1:1adf993a3e34	390	}
wim	1:1adf993a3e34	391	else if ((value >= (int) 'A') && (value <= (int) 'F')) {
wim	1:1adf993a3e34	392	//Character to write
wim	1:1adf993a3e34	393	validChar = true;
wim	1:1adf993a3e34	394	pattern = FONT_7S[10 + value - (int) 'A'];
wim	1:1adf993a3e34	395	}
wim	1:1adf993a3e34	396	else if ((value >= (int) 'a') && (value <= (int) 'f')) {
wim	1:1adf993a3e34	397	//Character to write
wim	1:1adf993a3e34	398	validChar = true;
wim	1:1adf993a3e34	399	pattern = FONT_7S[10 + value - (int) 'a'];
wim	1:1adf993a3e34	400	} //else
wim	1:1adf993a3e34	401
wim	1:1adf993a3e34	402	if (validChar) {
wim	1:1adf993a3e34	403	//Character to write
wim	1:1adf993a3e34	404
wim	1:1adf993a3e34	405	//Translate between _column and displaybuffer entries
wim	1:1adf993a3e34	406	//_column == 0 => Grid5 => addr = 8
wim	1:1adf993a3e34	407	//_column == 1 => Grid4 => addr = 6
wim	1:1adf993a3e34	408	//_column == 2 => Grid3 => addr = 4
wim	1:1adf993a3e34	409	//_column == 3 => Grid4 => addr = 2
wim	1:1adf993a3e34	410	addr = (4 - _column) << 1;
wim	1:1adf993a3e34	411
wim	0:27f32a087e5a	412	//Save icons...and set bits for character to write
wim	1:1adf993a3e34	413	_displaybuffer[addr] = (_displaybuffer[addr] & MASK_ICON_GRID[4 - _column][0]) \| LO(pattern);
wim	1:1adf993a3e34	414	_displaybuffer[addr+1] = (_displaybuffer[addr+1] & MASK_ICON_GRID[4 - _column][1]) \| HI(pattern);
wim	1:1adf993a3e34	415
wim	0:27f32a087e5a	416	writeData(_displaybuffer, (DVD538A_NR_GRIDS*2));
wim	1:1adf993a3e34	417
wim	0:27f32a087e5a	418	//Update Cursor
wim	0:27f32a087e5a	419	_column++;
wim	0:27f32a087e5a	420	if (_column > (DVD538A_NR_DIGITS - 1)) {
wim	0:27f32a087e5a	421	_column = 0;
wim	0:27f32a087e5a	422	}
wim	0:27f32a087e5a	423
wim	1:1adf993a3e34	424	} // if validChar
wim	0:27f32a087e5a	425
wim	0:27f32a087e5a	426	return value;
wim	0:27f32a087e5a	427	}
wim	0:27f32a087e5a	428
wim	0:27f32a087e5a	429	// get a single character (Stream implementation)
wim	0:27f32a087e5a	430	int PT6964_DVD538A::_getc() {
wim	0:27f32a087e5a	431	return -1;
wim	0:27f32a087e5a	432	}

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Type:	Library
Created:	21 Nov 2015
Imports:	12
Forks:	0
Commits:	3
Dependents:	1
Dependencies:	0
Followers:	1
Issues:	0

The code in this repository is Apache licensed.

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PT6964 LED controller (70 LEDs max), Keyboard scan (20 keys max)

PT6964.cpp@1:1adf993a3e34, 2016-01-09 (annotated)

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