Pinscape_Controller_V2_arnoz

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Arnaud VALLEY / Mbed 2 deprecated Pinscape_Controller_V2_arnoz

Dependencies: mbed FastIO FastPWM USBDevice

config.h@65:739875521aae, 2016-11-23 (annotated)

Committer:: mjr
Date:: Wed Nov 23 19:49:20 2016 +0000
Revision:: 65:739875521aae
Parent:: 61:3c7e6e9ec355
Child:: 66:2e3583fbd2f4

Increased button limit to 48; allocate live button structures dynamically

Who changed what in which revision?

User	Revision	Line number	New contents of line
mjr	17:ab3cec0c8bf4	1	// Pinscape Controller Configuration
mjr	17:ab3cec0c8bf4	2	//
mjr	55:4db125cd11a0	3	// New for 2016: dynamic configuration! To configure the controller,
mjr	55:4db125cd11a0	4	// connect the KL25Z to your PC, install the STANDARD pre-compiled .bin
mjr	55:4db125cd11a0	5	// file, and run the Windows config tool. There's no need (as there was in
mjr	55:4db125cd11a0	6	// the past) to edit the source code or to compile a custom version of the
mjr	55:4db125cd11a0	7	// binary just to customize setup options.
mjr	35:e959ffba78fd	8	//
mjr	55:4db125cd11a0	9	// In earlier versions, configuration was handled mostly with #ifdef and
mjr	55:4db125cd11a0	10	// similar constructs. To customize the setup, you had to create a private
mjr	55:4db125cd11a0	11	// forked copy of the source code, edit the constants defined in config.h,
mjr	55:4db125cd11a0	12	// and compile a custom binary. That's no longer necessary!
mjr	35:e959ffba78fd	13	//
mjr	35:e959ffba78fd	14	// The new approach is to do everything (or as much as possible, anyway)
mjr	35:e959ffba78fd	15	// via the Windows config tool. You shouldn't have to recompile a custom
mjr	35:e959ffba78fd	16	// version just to make a configurable change. Of course, you're still free
mjr	55:4db125cd11a0	17	// to create a custom version if you want to add entirely new features or
mjr	55:4db125cd11a0	18	// make changes that go beyond what the setup tool exposes.
mjr	35:e959ffba78fd	19	//
mjr	35:e959ffba78fd	20
mjr	55:4db125cd11a0	21	// Pre-packaged configuration selection.
mjr	55:4db125cd11a0	22	//
mjr	55:4db125cd11a0	23	// IMPORTANT! If you just want to create a custom configuration, DON'T
mjr	55:4db125cd11a0	24	// modify this file, DON'T use these macros, and DON'T compiler on mbed.
mjr	55:4db125cd11a0	25	// Instead, use the unmodified standard build and configure your system
mjr	55:4db125cd11a0	26	// using the Pinscape Config Tool on Windows. That's easier and better
mjr	55:4db125cd11a0	27	// because the config tool will be able to back up your settings to a
mjr	55:4db125cd11a0	28	// local file on your PC, and will automatically preserve your settings
mjr	55:4db125cd11a0	29	// across upgrades. You won't have to worry about merging your changes
mjr	55:4db125cd11a0	30	// into every update of the repository source code, since you'll never
mjr	55:4db125cd11a0	31	// have to change the source code.
mjr	55:4db125cd11a0	32	//
mjr	55:4db125cd11a0	33	// The different configurations here are purely for testing purposes.
mjr	55:4db125cd11a0	34	// The standard build uses the STANDARD_CONFIG settings, which are the
mjr	55:4db125cd11a0	35	// same as the original version where you had to modify config.h by hand
mjr	55:4db125cd11a0	36	// to customize your system.
mjr	55:4db125cd11a0	37	//
mjr	55:4db125cd11a0	38	#define STANDARD_CONFIG 1 // standard settings, based on v1 base settings
mjr	55:4db125cd11a0	39	#define TEST_CONFIG_EXPAN 0 // configuration for the expansion boards
mjr	55:4db125cd11a0	40	#define TEST_KEEP_PRINTF 0 // for debugging purposes, keep printf() enabled
mjr	55:4db125cd11a0	41	// by leaving the SDA UART GPIO pins unallocated
mjr	48:058ace2aed1d	42
mjr	17:ab3cec0c8bf4	43
mjr	25:e22b88bd783a	44	#ifndef CONFIG_H
mjr	25:e22b88bd783a	45	#define CONFIG_H
mjr	17:ab3cec0c8bf4	46
mjr	35:e959ffba78fd	47	// Plunger type codes
mjr	35:e959ffba78fd	48	// NOTE! These values are part of the external USB interface. New
mjr	35:e959ffba78fd	49	// values can be added, but the meaning of an existing assigned number
mjr	35:e959ffba78fd	50	// should remain fixed to keep the PC-side config tool compatible across
mjr	35:e959ffba78fd	51	// versions.
mjr	35:e959ffba78fd	52	const int PlungerType_None = 0; // no plunger
mjr	35:e959ffba78fd	53	const int PlungerType_TSL1410RS = 1; // TSL1410R linear image sensor (1280x1 pixels, 400dpi), serial mode
mjr	35:e959ffba78fd	54	const int PlungerType_TSL1410RP = 2; // TSL1410R, parallel mode (reads the two sensor sections concurrently)
mjr	35:e959ffba78fd	55	const int PlungerType_TSL1412RS = 3; // TSL1412R linear image sensor (1536x1 pixels, 400dpi), serial mode
mjr	35:e959ffba78fd	56	const int PlungerType_TSL1412RP = 4; // TSL1412R, parallel mode
mjr	35:e959ffba78fd	57	const int PlungerType_Pot = 5; // potentionmeter
mjr	35:e959ffba78fd	58	const int PlungerType_OptQuad = 6; // AEDR8300 optical quadrature sensor
mjr	35:e959ffba78fd	59	const int PlungerType_MagQuad = 7; // AS5304 magnetic quadrature sensor
mjr	21:5048e16cc9ef	60
mjr	35:e959ffba78fd	61	// Accelerometer orientation codes
mjr	35:e959ffba78fd	62	// These values are part of the external USB interface
mjr	35:e959ffba78fd	63	const int OrientationFront = 0; // USB ports pointed toward front of cabinet
mjr	35:e959ffba78fd	64	const int OrientationLeft = 1; // ports pointed toward left side of cabinet
mjr	35:e959ffba78fd	65	const int OrientationRight = 2; // ports pointed toward right side of cabinet
mjr	35:e959ffba78fd	66	const int OrientationRear = 3; // ports pointed toward back of cabinet
mjr	25:e22b88bd783a	67
mjr	35:e959ffba78fd	68	// input button types
mjr	53:9b2611964afc	69	const int BtnTypeNone = 0; // unused
mjr	35:e959ffba78fd	70	const int BtnTypeJoystick = 1; // joystick button
mjr	53:9b2611964afc	71	const int BtnTypeKey = 2; // keyboard key
mjr	38:091e511ce8a0	72
mjr	38:091e511ce8a0	73	// input button flags
mjr	38:091e511ce8a0	74	const uint8_t BtnFlagPulse = 0x01; // pulse mode - reports each change in the physical switch state
mjr	38:091e511ce8a0	75	// as a brief press of the logical button/keyboard key
mjr	40:cc0d9814522b	76
mjr	40:cc0d9814522b	77	// button setup structure
mjr	40:cc0d9814522b	78	struct ButtonCfg
mjr	40:cc0d9814522b	79	{
mjr	40:cc0d9814522b	80	uint8_t pin; // physical input GPIO pin - a USB-to-PinName mapping index
mjr	40:cc0d9814522b	81	uint8_t typ; // key type reported to PC - a BtnTypeXxx value
mjr	53:9b2611964afc	82	uint8_t val; // key value reported - meaning depends on 'typ' value:
mjr	53:9b2611964afc	83	// none -> no PC input reports (val is unused)
mjr	53:9b2611964afc	84	// joystick -> val is joystick button number (1..32)
mjr	53:9b2611964afc	85	// keyboard -> val is USB scan code
mjr	40:cc0d9814522b	86	uint8_t flags; // key flags - a bitwise combination of BtnFlagXxx values
mjr	40:cc0d9814522b	87
mjr	40:cc0d9814522b	88	void set(uint8_t pin, uint8_t typ, uint8_t val, uint8_t flags = 0)
mjr	40:cc0d9814522b	89	{
mjr	40:cc0d9814522b	90	this->pin = pin;
mjr	40:cc0d9814522b	91	this->typ = typ;
mjr	40:cc0d9814522b	92	this->val = val;
mjr	40:cc0d9814522b	93	this->flags = flags;
mjr	40:cc0d9814522b	94	}
mjr	40:cc0d9814522b	95
mjr	40:cc0d9814522b	96	} __attribute__((packed));
mjr	40:cc0d9814522b	97
mjr	33:d832bcab089e	98
mjr	65:739875521aae	99	// maximum number of input button mappings in configuration
mjr	65:739875521aae	100	const int MAX_BUTTONS = 48;
mjr	65:739875521aae	101
mjr	65:739875521aae	102	// extra slots for virtual buttons (ZB Launch Ball)
mjr	65:739875521aae	103	const int VIRTUAL_BUTTONS = 1; // total number of buttons
mjr	65:739875521aae	104	const int ZBL_BUTTON_CFG = MAX_BUTTONS; // index of ZB Launch Ball slot
mjr	33:d832bcab089e	105
mjr	35:e959ffba78fd	106	// LedWiz output port type codes
mjr	35:e959ffba78fd	107	// These values are part of the external USB interface
mjr	35:e959ffba78fd	108	const int PortTypeDisabled = 0; // port is disabled - not visible to LedWiz/DOF host
mjr	35:e959ffba78fd	109	const int PortTypeGPIOPWM = 1; // GPIO port, PWM enabled
mjr	35:e959ffba78fd	110	const int PortTypeGPIODig = 2; // GPIO port, digital out
mjr	35:e959ffba78fd	111	const int PortTypeTLC5940 = 3; // TLC5940 port
mjr	35:e959ffba78fd	112	const int PortType74HC595 = 4; // 74HC595 port
mjr	53:9b2611964afc	113	const int PortTypeVirtual = 5; // Virtual port - visible to host software, but not connected
mjr	53:9b2611964afc	114	// to a physical output
mjr	17:ab3cec0c8bf4	115
mjr	35:e959ffba78fd	116	// LedWiz output port flag bits
mjr	38:091e511ce8a0	117	const uint8_t PortFlagActiveLow = 0x01; // physical output is active-low
mjr	38:091e511ce8a0	118	const uint8_t PortFlagNoisemaker = 0x02; // noisemaker device - disable when night mode is engaged
mjr	40:cc0d9814522b	119	const uint8_t PortFlagGamma = 0x04; // apply gamma correction to this output
mjr	35:e959ffba78fd	120
mjr	35:e959ffba78fd	121	// maximum number of output ports
mjr	48:058ace2aed1d	122	const int MAX_OUT_PORTS = 128;
mjr	33:d832bcab089e	123
mjr	38:091e511ce8a0	124	// port configuration data
mjr	38:091e511ce8a0	125	struct LedWizPortCfg
mjr	38:091e511ce8a0	126	{
mjr	38:091e511ce8a0	127	uint8_t typ; // port type: a PortTypeXxx value
mjr	38:091e511ce8a0	128	uint8_t pin; // physical output pin: for a GPIO port, this is an index in the
mjr	38:091e511ce8a0	129	// USB-to-PinName mapping list; for a TLC5940 or 74HC595 port, it's
mjr	38:091e511ce8a0	130	// the output number, starting from 0 for OUT0 on the first chip in
mjr	38:091e511ce8a0	131	// the daisy chain. For inactive and virtual ports, it's unused.
mjr	38:091e511ce8a0	132	uint8_t flags; // flags: a combination of PortFlagXxx values
mjr	40:cc0d9814522b	133
mjr	40:cc0d9814522b	134	void set(uint8_t typ, uint8_t pin, uint8_t flags = 0)
mjr	40:cc0d9814522b	135	{
mjr	40:cc0d9814522b	136	this->typ = typ;
mjr	40:cc0d9814522b	137	this->pin = pin;
mjr	40:cc0d9814522b	138	this->flags = flags;
mjr	40:cc0d9814522b	139	}
mjr	40:cc0d9814522b	140
mjr	38:091e511ce8a0	141	} __attribute__((packed));
mjr	38:091e511ce8a0	142
mjr	38:091e511ce8a0	143
mjr	53:9b2611964afc	144	// Convert a physical pin name to a wire pin name
mjr	53:9b2611964afc	145	#define PINNAME_TO_WIRE(p) \
mjr	53:9b2611964afc	146	uint8_t((p) == NC ? 0xFF : \
mjr	53:9b2611964afc	147	(((p) & 0xF000 ) >> (PORT_SHIFT - 5)) \| (((p) & 0xFF) >> 2))
mjr	53:9b2611964afc	148
mjr	35:e959ffba78fd	149	struct Config
mjr	35:e959ffba78fd	150	{
mjr	35:e959ffba78fd	151	// set all values to factory defaults
mjr	35:e959ffba78fd	152	void setFactoryDefaults()
mjr	35:e959ffba78fd	153	{
mjr	35:e959ffba78fd	154	// By default, pretend to be LedWiz unit #8. This can be from 1 to 16. Real
mjr	35:e959ffba78fd	155	// LedWiz units have their unit number set at the factory, and the vast majority
mjr	35:e959ffba78fd	156	// are set up as unit #1, since that's the default for anyone who doesn't ask
mjr	35:e959ffba78fd	157	// for a different setting. It seems rare for anyone to use more than one unit
mjr	35:e959ffba78fd	158	// in a pin cab, but for the few who do, the others will probably be numbered
mjr	35:e959ffba78fd	159	// sequentially as #2, #3, etc. It seems safe to assume that no one out there
mjr	48:058ace2aed1d	160	// has a unit #8, so we'll use that as our default. This can be changed from
mjr	48:058ace2aed1d	161	// the config tool, but for the sake of convenience, it's better to pick a
mjr	48:058ace2aed1d	162	// default that most people won't have to change.
mjr	54:fd77a6b2f76c	163	usbVendorID = 0xFAFA; // LedWiz vendor code
mjr	48:058ace2aed1d	164	usbProductID = 0x00F7; // LedWiz product code for unit #8
mjr	61:3c7e6e9ec355	165
mjr	55:4db125cd11a0	166	// Set the default Pinscape unit number to #1. This is a separate identifier
mjr	55:4db125cd11a0	167	// from the LedWiz ID, so you don't have to worry about making this different
mjr	55:4db125cd11a0	168	// from your LedWiz units. Each Pinscape unit should have a unique value for
mjr	55:4db125cd11a0	169	// this ID, though.
mjr	55:4db125cd11a0	170	//
mjr	55:4db125cd11a0	171	// Note that Pinscape unit #1 corresponds to DOF Pinscape #51, PS 2 -> DOF 52,
mjr	55:4db125cd11a0	172	// and so on - just add 50 to get the DOF ID.
mjr	55:4db125cd11a0	173	psUnitNo = 1;
mjr	35:e959ffba78fd	174
mjr	51:57eb311faafa	175	// set a disconnect reboot timeout of 10 seconds by default
mjr	55:4db125cd11a0	176	disconnectRebootTimeout = 10;
mjr	51:57eb311faafa	177
mjr	35:e959ffba78fd	178	// enable joystick reports
mjr	35:e959ffba78fd	179	joystickEnabled = true;
mjr	35:e959ffba78fd	180
mjr	35:e959ffba78fd	181	// assume standard orientation, with USB ports toward front of cabinet
mjr	35:e959ffba78fd	182	orientation = OrientationFront;
mjr	25:e22b88bd783a	183
mjr	52:8298b2a73eb2	184	// assume a basic setup with no expansion boards
mjr	53:9b2611964afc	185	expan.typ = 0;
mjr	53:9b2611964afc	186	expan.vsn = 0;
mjr	53:9b2611964afc	187	memset(expan.ext, 0, sizeof(expan.ext));
mjr	52:8298b2a73eb2	188
mjr	35:e959ffba78fd	189	// assume no plunger is attached
mjr	35:e959ffba78fd	190	plunger.enabled = false;
mjr	35:e959ffba78fd	191	plunger.sensorType = PlungerType_None;
mjr	35:e959ffba78fd	192
mjr	55:4db125cd11a0	193	#if TEST_CONFIG_EXPAN \|\| STANDARD_CONFIG
mjr	43:7a6364d82a41	194	plunger.enabled = true;
mjr	43:7a6364d82a41	195	plunger.sensorType = PlungerType_TSL1410RS;
mjr	53:9b2611964afc	196	plunger.sensorPin[0] = PINNAME_TO_WIRE(PTE20); // SI
mjr	53:9b2611964afc	197	plunger.sensorPin[1] = PINNAME_TO_WIRE(PTE21); // SCLK
mjr	53:9b2611964afc	198	plunger.sensorPin[2] = PINNAME_TO_WIRE(PTB0); // AO1 = PTB0 = ADC0_SE8
mjr	53:9b2611964afc	199	plunger.sensorPin[3] = PINNAME_TO_WIRE(PTE22); // AO2 (parallel mode) = PTE22 = ADC0_SE3
mjr	43:7a6364d82a41	200	#endif
mjr	43:7a6364d82a41	201
mjr	48:058ace2aed1d	202	// default plunger calibration button settings
mjr	55:4db125cd11a0	203	plunger.cal.features = 0x03; // 0x01 = enable button, 0x02 = enable indicator lamp
mjr	55:4db125cd11a0	204	plunger.cal.btn = PINNAME_TO_WIRE(PTE29); // button input (DigitalIn port)
mjr	55:4db125cd11a0	205	plunger.cal.led = PINNAME_TO_WIRE(PTE23); // button output (DigitalOut port)
mjr	35:e959ffba78fd	206
mjr	44:b5ac89b9cd5d	207	// set the default plunger calibration
mjr	44:b5ac89b9cd5d	208	plunger.cal.setDefaults();
mjr	35:e959ffba78fd	209
mjr	35:e959ffba78fd	210	// disable the ZB Launch Ball by default
mjr	53:9b2611964afc	211	plunger.zbLaunchBall.port = 0; // 0 = disabled
mjr	65:739875521aae	212	plunger.zbLaunchBall.keytype = BtnTypeKey; // keyboard key
mjr	61:3c7e6e9ec355	213	plunger.zbLaunchBall.keycode = 0x28; // USB keyboard scan code for Enter key
mjr	61:3c7e6e9ec355	214	plunger.zbLaunchBall.pushDistance = 63; // 63/1000 in == .063" == about 1/16"
mjr	35:e959ffba78fd	215
mjr	35:e959ffba78fd	216	// assume no TV ON switch
mjr	53:9b2611964afc	217	TVON.statusPin = PINNAME_TO_WIRE(NC);
mjr	53:9b2611964afc	218	TVON.latchPin = PINNAME_TO_WIRE(NC);
mjr	53:9b2611964afc	219	TVON.relayPin = PINNAME_TO_WIRE(NC);
mjr	53:9b2611964afc	220	TVON.delayTime = 700; // 7 seconds
mjr	55:4db125cd11a0	221
mjr	55:4db125cd11a0	222	#if TEST_CONFIG_EXPAN
mjr	55:4db125cd11a0	223	// expansion board TV ON wiring
mjr	53:9b2611964afc	224	TVON.statusPin = PINNAME_TO_WIRE(PTD2);
mjr	53:9b2611964afc	225	TVON.latchPin = PINNAME_TO_WIRE(PTE0);
mjr	53:9b2611964afc	226	TVON.relayPin = PINNAME_TO_WIRE(PTD3);
mjr	53:9b2611964afc	227	TVON.delayTime = 700; // 7 seconds
mjr	38:091e511ce8a0	228	#endif
mjr	53:9b2611964afc	229
mjr	53:9b2611964afc	230	// assume no night mode switch or indicator lamp
mjr	53:9b2611964afc	231	nightMode.btn = 0;
mjr	53:9b2611964afc	232	nightMode.flags = 0;
mjr	53:9b2611964afc	233	nightMode.port = 0;
mjr	35:e959ffba78fd	234
mjr	35:e959ffba78fd	235	// assume no TLC5940 chips
mjr	35:e959ffba78fd	236	tlc5940.nchips = 0;
mjr	55:4db125cd11a0	237
mjr	55:4db125cd11a0	238	#if TEST_CONFIG_EXPAN
mjr	55:4db125cd11a0	239	// for expansion board testing purposes, assume the common setup
mjr	55:4db125cd11a0	240	// with one main board and one power board
mjr	48:058ace2aed1d	241	tlc5940.nchips = 4;
mjr	38:091e511ce8a0	242	#endif
mjr	38:091e511ce8a0	243
mjr	55:4db125cd11a0	244	// Default TLC5940 pin assignments. Note that it's harmless to set
mjr	55:4db125cd11a0	245	// these to valid pins even if no TLC5940 chips are actually present,
mjr	55:4db125cd11a0	246	// since the main program won't allocate the connections if 'nchips'
mjr	55:4db125cd11a0	247	// is zero. This means that the pins are free to be used for other
mjr	55:4db125cd11a0	248	// purposes (such as output ports) if not using TLC5940 chips.
mjr	53:9b2611964afc	249	tlc5940.sin = PINNAME_TO_WIRE(PTC6);
mjr	53:9b2611964afc	250	tlc5940.sclk = PINNAME_TO_WIRE(PTC5);
mjr	53:9b2611964afc	251	tlc5940.xlat = PINNAME_TO_WIRE(PTC10);
mjr	59:94eb9265b6d7	252	tlc5940.blank = PINNAME_TO_WIRE(PTC7);
mjr	59:94eb9265b6d7	253	#if TEST_KEEP_PRINTF
mjr	59:94eb9265b6d7	254	tlc5940.gsclk = PINNAME_TO_WIRE(PTA13); // PTA1 is reserved for SDA printf()
mjr	59:94eb9265b6d7	255	#else
mjr	53:9b2611964afc	256	tlc5940.gsclk = PINNAME_TO_WIRE(PTA1);
mjr	59:94eb9265b6d7	257	#endif
mjr	35:e959ffba78fd	258
mjr	35:e959ffba78fd	259	// assume no 74HC595 chips
mjr	35:e959ffba78fd	260	hc595.nchips = 0;
mjr	55:4db125cd11a0	261
mjr	55:4db125cd11a0	262	#if TEST_CONFIG_EXPAN
mjr	55:4db125cd11a0	263	// for expansion board testing purposes, assume one chime board
mjr	48:058ace2aed1d	264	hc595.nchips = 1;
mjr	40:cc0d9814522b	265	#endif
mjr	40:cc0d9814522b	266
mjr	55:4db125cd11a0	267	// Default 74HC595 pin assignments. As with the TLC5940 pins, it's
mjr	55:4db125cd11a0	268	// harmless to assign pins here even if no 74HC595 chips are used,
mjr	55:4db125cd11a0	269	// since the main program won't actually allocate the pins if 'nchips'
mjr	55:4db125cd11a0	270	// is zero.
mjr	53:9b2611964afc	271	hc595.sin = PINNAME_TO_WIRE(PTA5);
mjr	53:9b2611964afc	272	hc595.sclk = PINNAME_TO_WIRE(PTA4);
mjr	53:9b2611964afc	273	hc595.latch = PINNAME_TO_WIRE(PTA12);
mjr	53:9b2611964afc	274	hc595.ena = PINNAME_TO_WIRE(PTD4);
mjr	38:091e511ce8a0	275
mjr	35:e959ffba78fd	276	// initially configure with no LedWiz output ports
mjr	35:e959ffba78fd	277	outPort[0].typ = PortTypeDisabled;
mjr	53:9b2611964afc	278
mjr	35:e959ffba78fd	279	// initially configure with no input buttons
mjr	35:e959ffba78fd	280	for (int i = 0 ; i < MAX_BUTTONS ; ++i)
mjr	53:9b2611964afc	281	button[i].set(PINNAME_TO_WIRE(NC), BtnTypeNone, 0);
mjr	38:091e511ce8a0	282
mjr	55:4db125cd11a0	283	#if STANDARD_CONFIG \| TEST_CONFIG_EXPAN
mjr	55:4db125cd11a0	284	// For the standard configuration, assign 24 input ports to
mjr	55:4db125cd11a0	285	// joystick buttons 1-24. Assign the same GPIO pins used
mjr	55:4db125cd11a0	286	// in the original v1 default configuration. For expansion
mjr	55:4db125cd11a0	287	// board testing purposes, also assign the input ports, with
mjr	55:4db125cd11a0	288	// the noted differences.
mjr	38:091e511ce8a0	289	for (int i = 0 ; i < 24 ; ++i) {
mjr	55:4db125cd11a0	290	static const int bp[] = {
mjr	53:9b2611964afc	291	PINNAME_TO_WIRE(PTC2), // 1
mjr	53:9b2611964afc	292	PINNAME_TO_WIRE(PTB3), // 2
mjr	53:9b2611964afc	293	PINNAME_TO_WIRE(PTB2), // 3
mjr	53:9b2611964afc	294	PINNAME_TO_WIRE(PTB1), // 4
mjr	53:9b2611964afc	295	PINNAME_TO_WIRE(PTE30), // 5
mjr	48:058ace2aed1d	296	#if TEST_CONFIG_EXPAN
mjr	55:4db125cd11a0	297	PINNAME_TO_WIRE(PTC11), // 6 - expansion boards use PTC11 for this, since PTE22
mjr	55:4db125cd11a0	298	// is reserved for a plunger connection
mjr	55:4db125cd11a0	299	#elif STANDARD_CONFIG
mjr	55:4db125cd11a0	300	PINNAME_TO_WIRE(PTE22), // 6 - original standalone setup uses PTE22
mjr	48:058ace2aed1d	301	#endif
mjr	53:9b2611964afc	302	PINNAME_TO_WIRE(PTE5), // 7
mjr	53:9b2611964afc	303	PINNAME_TO_WIRE(PTE4), // 8
mjr	53:9b2611964afc	304	PINNAME_TO_WIRE(PTE3), // 9
mjr	53:9b2611964afc	305	PINNAME_TO_WIRE(PTE2), // 10
mjr	53:9b2611964afc	306	PINNAME_TO_WIRE(PTB11), // 11
mjr	53:9b2611964afc	307	PINNAME_TO_WIRE(PTB10), // 12
mjr	53:9b2611964afc	308	PINNAME_TO_WIRE(PTB9), // 13
mjr	53:9b2611964afc	309	PINNAME_TO_WIRE(PTB8), // 14
mjr	53:9b2611964afc	310	PINNAME_TO_WIRE(PTC12), // 15
mjr	53:9b2611964afc	311	PINNAME_TO_WIRE(PTC13), // 16
mjr	53:9b2611964afc	312	PINNAME_TO_WIRE(PTC16), // 17
mjr	53:9b2611964afc	313	PINNAME_TO_WIRE(PTC17), // 18
mjr	53:9b2611964afc	314	PINNAME_TO_WIRE(PTA16), // 19
mjr	53:9b2611964afc	315	PINNAME_TO_WIRE(PTA17), // 20
mjr	53:9b2611964afc	316	PINNAME_TO_WIRE(PTE31), // 21
mjr	53:9b2611964afc	317	PINNAME_TO_WIRE(PTD6), // 22
mjr	53:9b2611964afc	318	PINNAME_TO_WIRE(PTD7), // 23
mjr	53:9b2611964afc	319	PINNAME_TO_WIRE(PTE1) // 24
mjr	40:cc0d9814522b	320	};
mjr	48:058ace2aed1d	321	button[i].set(bp[i],
mjr	48:058ace2aed1d	322	#if TEST_CONFIG_EXPAN
mjr	55:4db125cd11a0	323	// For expansion board testing only, assign the inputs
mjr	55:4db125cd11a0	324	// to keyboard keys A, B, etc. This isn't useful; it's
mjr	55:4db125cd11a0	325	// just for testing purposes. Note that the USB key code
mjr	55:4db125cd11a0	326	// for "A" is 4, "B" is 5, and so on sequentially through
mjr	55:4db125cd11a0	327	// the alphabet.
mjr	55:4db125cd11a0	328	BtnTypeKey, i+4);
mjr	55:4db125cd11a0	329	#elif STANDARD_CONFIG
mjr	55:4db125cd11a0	330	// For the standard configuration, assign the input to
mjr	55:4db125cd11a0	331	// joystick buttons 1-24, as in the original v1 default
mjr	55:4db125cd11a0	332	// configuration.
mjr	55:4db125cd11a0	333	BtnTypeJoystick, i+1);
mjr	48:058ace2aed1d	334	#endif
mjr	48:058ace2aed1d	335
mjr	38:091e511ce8a0	336	}
mjr	38:091e511ce8a0	337	#endif
mjr	38:091e511ce8a0	338
mjr	55:4db125cd11a0	339	#if TEST_CONFIG_EXPAN
mjr	55:4db125cd11a0	340	// For testing purposes, configure the basic complement of
mjr	55:4db125cd11a0	341	// expansion board ports. AS MENTIONED ABOVE, THIS IS PURELY FOR
mjr	55:4db125cd11a0	342	// TESTING. DON'T USE THIS METHOD TO CONFIGURE YOUR EXPANSION
mjr	55:4db125cd11a0	343	// BOARDS FOR ACTUAL DEPLOYMENT. It's much easier and cleaner
mjr	55:4db125cd11a0	344	// to use the unmodified standard build, and customize your
mjr	55:4db125cd11a0	345	// installation with the Pinscape Config Tool on Windows.
mjr	40:cc0d9814522b	346	//
mjr	55:4db125cd11a0	347	// For this testing setup, we'll configure one main board, one
mjr	55:4db125cd11a0	348	// power board, and one chime board. The physical ports on
mjr	55:4db125cd11a0	349	// the board are shown below. The logical (LedWiz/DOF) numbering
mjr	55:4db125cd11a0	350	// ISN'T sequential through the physical ports, because we want
mjr	55:4db125cd11a0	351	// to arrange the DOF ports so that the most important and most
mjr	55:4db125cd11a0	352	// common toys are assigned to ports 1-32. Those ports are
mjr	55:4db125cd11a0	353	// special because they're accessible to ALL software on the PC,
mjr	55:4db125cd11a0	354	// including older LedWiz-only software such as Future Pinball.
mjr	55:4db125cd11a0	355	// Ports above 32 are accessible only to modern DOF software,
mjr	55:4db125cd11a0	356	// like Visual Pinball and PinballX.
mjr	40:cc0d9814522b	357	//
mjr	40:cc0d9814522b	358	// Main board
mjr	40:cc0d9814522b	359	// TLC ports 0-15 -> flashers
mjr	40:cc0d9814522b	360	// TLC ports 16 -> strobe
mjr	40:cc0d9814522b	361	// TLC ports 17-31 -> flippers
mjr	40:cc0d9814522b	362	// Dig GPIO PTC8 -> knocker (timer-protected outputs)
mjr	40:cc0d9814522b	363	//
mjr	40:cc0d9814522b	364	// Power board:
mjr	40:cc0d9814522b	365	// TLC ports 32-63 -> general purpose outputs
mjr	40:cc0d9814522b	366	//
mjr	40:cc0d9814522b	367	// Chime board:
mjr	40:cc0d9814522b	368	// HC595 ports 0-7 -> timer-protected outputs
mjr	40:cc0d9814522b	369	//
mjr	38:091e511ce8a0	370	{
mjr	38:091e511ce8a0	371	int n = 0;
mjr	40:cc0d9814522b	372
mjr	40:cc0d9814522b	373	// 1-15 = flashers (TLC ports 0-15)
mjr	40:cc0d9814522b	374	// 16 = strobe (TLC port 15)
mjr	40:cc0d9814522b	375	for (int i = 0 ; i < 16 ; ++i)
mjr	40:cc0d9814522b	376	outPort[n++].set(PortTypeTLC5940, i, PortFlagGamma);
mjr	40:cc0d9814522b	377
mjr	53:9b2611964afc	378	// 17 = knocker (PTC8)
mjr	53:9b2611964afc	379	outPort[n++].set(PortTypeGPIODig, PINNAME_TO_WIRE(PTC8));
mjr	35:e959ffba78fd	380
mjr	40:cc0d9814522b	381	// 18-49 = power board outputs 1-32 (TLC ports 32-63)
mjr	40:cc0d9814522b	382	for (int i = 0 ; i < 32 ; ++i)
mjr	40:cc0d9814522b	383	outPort[n++].set(PortTypeTLC5940, i+32);
mjr	40:cc0d9814522b	384
mjr	40:cc0d9814522b	385	// 50-65 = flipper RGB (TLC ports 16-31)
mjr	40:cc0d9814522b	386	for (int i = 0 ; i < 16 ; ++i)
mjr	40:cc0d9814522b	387	outPort[n++].set(PortTypeTLC5940, i+16, PortFlagGamma);
mjr	59:94eb9265b6d7	388
mjr	40:cc0d9814522b	389	// 66-73 = chime board ports 1-8 (74HC595 ports 0-7)
mjr	40:cc0d9814522b	390	for (int i = 0 ; i < 8 ; ++i)
mjr	40:cc0d9814522b	391	outPort[n++].set(PortType74HC595, i);
mjr	59:94eb9265b6d7	392
mjr	40:cc0d9814522b	393	// set Disabled to signify end of configured outputs
mjr	38:091e511ce8a0	394	outPort[n].typ = PortTypeDisabled;
mjr	38:091e511ce8a0	395	}
mjr	38:091e511ce8a0	396	#endif
mjr	48:058ace2aed1d	397
mjr	55:4db125cd11a0	398	#if STANDARD_CONFIG
mjr	55:4db125cd11a0	399	//
mjr	55:4db125cd11a0	400	// For the standard build, set up the original complement
mjr	55:4db125cd11a0	401	// of 22 ports from the v1 default onfiguration.
mjr	55:4db125cd11a0	402	//
mjr	55:4db125cd11a0	403	// IMPORTANT! As mentioned above, don't edit this file to
mjr	55:4db125cd11a0	404	// customize this for your machine. Instead, use the unmodified
mjr	55:4db125cd11a0	405	// standard build, and customize your installation using the
mjr	55:4db125cd11a0	406	// Pinscape Config Tool on Windows.
mjr	55:4db125cd11a0	407	//
mjr	48:058ace2aed1d	408	#if TEST_KEEP_PRINTF
mjr	55:4db125cd11a0	409	outPort[ 0].set(PortTypeVirtual, PINNAME_TO_WIRE(NC)); // port 1 = NC to keep debug printf (PTA1 is SDA UART)
mjr	55:4db125cd11a0	410	outPort[ 1].set(PortTypeVirtual, PINNAME_TO_WIRE(NC)); // port 2 = NC to keep debug printf (PTA2 is SDA UART)
mjr	48:058ace2aed1d	411	#else
mjr	53:9b2611964afc	412	outPort[ 0].set(PortTypeGPIOPWM, PINNAME_TO_WIRE(PTA1)); // port 1 = PTA1
mjr	53:9b2611964afc	413	outPort[ 1].set(PortTypeGPIOPWM, PINNAME_TO_WIRE(PTA2)); // port 2 = PTA2
mjr	48:058ace2aed1d	414	#endif
mjr	53:9b2611964afc	415	outPort[ 2].set(PortTypeGPIOPWM, PINNAME_TO_WIRE(PTD4)); // port 3 = PTD4
mjr	53:9b2611964afc	416	outPort[ 3].set(PortTypeGPIOPWM, PINNAME_TO_WIRE(PTA12)); // port 4 = PTA12
mjr	53:9b2611964afc	417	outPort[ 4].set(PortTypeGPIOPWM, PINNAME_TO_WIRE(PTA4)); // port 5 = PTA4
mjr	53:9b2611964afc	418	outPort[ 5].set(PortTypeGPIOPWM, PINNAME_TO_WIRE(PTA5)); // port 6 = PTA5
mjr	53:9b2611964afc	419	outPort[ 6].set(PortTypeGPIOPWM, PINNAME_TO_WIRE(PTA13)); // port 7 = PTA13
mjr	53:9b2611964afc	420	outPort[ 7].set(PortTypeGPIOPWM, PINNAME_TO_WIRE(PTD5)); // port 8 = PTD5
mjr	53:9b2611964afc	421	outPort[ 8].set(PortTypeGPIOPWM, PINNAME_TO_WIRE(PTD0)); // port 9 = PTD0
mjr	53:9b2611964afc	422	outPort[ 9].set(PortTypeGPIOPWM, PINNAME_TO_WIRE(PTD3)); // port 10 = PTD3
mjr	53:9b2611964afc	423	outPort[10].set(PortTypeGPIODig, PINNAME_TO_WIRE(PTD2)); // port 11 = PTD2
mjr	53:9b2611964afc	424	outPort[11].set(PortTypeGPIODig, PINNAME_TO_WIRE(PTC8)); // port 12 = PTC8
mjr	53:9b2611964afc	425	outPort[12].set(PortTypeGPIODig, PINNAME_TO_WIRE(PTC9)); // port 13 = PTC9
mjr	53:9b2611964afc	426	outPort[13].set(PortTypeGPIODig, PINNAME_TO_WIRE(PTC7)); // port 14 = PTC7
mjr	53:9b2611964afc	427	outPort[14].set(PortTypeGPIODig, PINNAME_TO_WIRE(PTC0)); // port 15 = PTC0
mjr	53:9b2611964afc	428	outPort[15].set(PortTypeGPIODig, PINNAME_TO_WIRE(PTC3)); // port 16 = PTC3
mjr	53:9b2611964afc	429	outPort[16].set(PortTypeGPIODig, PINNAME_TO_WIRE(PTC4)); // port 17 = PTC4
mjr	53:9b2611964afc	430	outPort[17].set(PortTypeGPIODig, PINNAME_TO_WIRE(PTC5)); // port 18 = PTC5
mjr	53:9b2611964afc	431	outPort[18].set(PortTypeGPIODig, PINNAME_TO_WIRE(PTC6)); // port 19 = PTC6
mjr	53:9b2611964afc	432	outPort[19].set(PortTypeGPIODig, PINNAME_TO_WIRE(PTC10)); // port 20 = PTC10
mjr	53:9b2611964afc	433	outPort[20].set(PortTypeGPIODig, PINNAME_TO_WIRE(PTC11)); // port 21 = PTC11
mjr	53:9b2611964afc	434	outPort[21].set(PortTypeGPIODig, PINNAME_TO_WIRE(PTE0)); // port 22 = PTE0
mjr	48:058ace2aed1d	435	#endif
mjr	35:e959ffba78fd	436	}
mjr	35:e959ffba78fd	437
mjr	35:e959ffba78fd	438	// --- USB DEVICE CONFIGURATION ---
mjr	35:e959ffba78fd	439
mjr	35:e959ffba78fd	440	// USB device identification - vendor ID and product ID. For LedLWiz
mjr	35:e959ffba78fd	441	// emulation, use vendor ID 0xFAFA and product ID 0x00EF + unit#, where
mjr	35:e959ffba78fd	442	// unit# is the nominal LedWiz unit number from 1 to 16. Alternatively,
mjr	35:e959ffba78fd	443	// if LedWiz emulation isn't desired or causes any driver conflicts on
mjr	35:e959ffba78fd	444	// the host, we have a private Pinscape assignment as vendor ID 0x1209
mjr	35:e959ffba78fd	445	// and product ID 0xEAEA (registered with http://pid.codes, a registry
mjr	35:e959ffba78fd	446	// for open-source USB projects).
mjr	35:e959ffba78fd	447	uint16_t usbVendorID;
mjr	35:e959ffba78fd	448	uint16_t usbProductID;
mjr	35:e959ffba78fd	449
mjr	35:e959ffba78fd	450	// Pinscape Controller unit number. This is the nominal unit number,
mjr	35:e959ffba78fd	451	// from 1 to 16. We report this in the status query; DOF uses it to
mjr	53:9b2611964afc	452	// distinguish among Pinscape units. Note that this doesn't affect
mjr	35:e959ffba78fd	453	// the LedWiz unit numbering, which is implied by the USB Product ID.
mjr	35:e959ffba78fd	454	uint8_t psUnitNo;
mjr	35:e959ffba78fd	455
mjr	35:e959ffba78fd	456	// Are joystick reports enabled? Joystick reports can be turned off, to
mjr	35:e959ffba78fd	457	// use the device as purely an output controller.
mjr	35:e959ffba78fd	458	char joystickEnabled;
mjr	35:e959ffba78fd	459
mjr	51:57eb311faafa	460	// Timeout for rebooting the KL25Z when the connection is lost. On some
mjr	51:57eb311faafa	461	// hosts, the mbed USB stack has problems reconnecting after an initial
mjr	51:57eb311faafa	462	// connection is dropped. As a workaround, we can automatically reboot
mjr	51:57eb311faafa	463	// the KL25Z when it detects that it's no longer connected, after the
mjr	51:57eb311faafa	464	// interval set here expires. The timeout is in seconds; setting this
mjr	51:57eb311faafa	465	// to 0 disables the automatic reboot.
mjr	51:57eb311faafa	466	uint8_t disconnectRebootTimeout;
mjr	35:e959ffba78fd	467
mjr	35:e959ffba78fd	468	// --- ACCELEROMETER ---
mjr	35:e959ffba78fd	469
mjr	35:e959ffba78fd	470	// accelerometer orientation (ORIENTATION_xxx value)
mjr	35:e959ffba78fd	471	char orientation;
mjr	35:e959ffba78fd	472
mjr	35:e959ffba78fd	473
mjr	52:8298b2a73eb2	474	// --- EXPANSION BOARDS ---
mjr	52:8298b2a73eb2	475	struct
mjr	52:8298b2a73eb2	476	{
mjr	53:9b2611964afc	477	uint8_t typ; // expansion board set type:
mjr	53:9b2611964afc	478	// 1 -> Pinscape expansion boards
mjr	53:9b2611964afc	479	uint8_t vsn; // board set interface version
mjr	53:9b2611964afc	480	uint8_t ext[3]; // board set type-specific extended data
mjr	52:8298b2a73eb2	481
mjr	52:8298b2a73eb2	482	} expan;
mjr	52:8298b2a73eb2	483
mjr	52:8298b2a73eb2	484
mjr	35:e959ffba78fd	485	// --- PLUNGER CONFIGURATION ---
mjr	35:e959ffba78fd	486	struct
mjr	35:e959ffba78fd	487	{
mjr	35:e959ffba78fd	488	// plunger enabled/disabled
mjr	35:e959ffba78fd	489	char enabled;
mjr	33:d832bcab089e	490
mjr	35:e959ffba78fd	491	// plunger sensor type
mjr	35:e959ffba78fd	492	char sensorType;
mjr	35:e959ffba78fd	493
mjr	35:e959ffba78fd	494	// Plunger sensor pins. To accommodate a wide range of sensor types,
mjr	35:e959ffba78fd	495	// we keep a generic list of 4 pin assignments. The use of each pin
mjr	35:e959ffba78fd	496	// varies by sensor. The lists below are in order of the generic
mjr	35:e959ffba78fd	497	// pins; NC means that the pin isn't used by the sensor. Each pin's
mjr	35:e959ffba78fd	498	// GPIO usage is also listed. Certain usages limit which physical
mjr	35:e959ffba78fd	499	// pins can be assigned (e.g., AnalogIn or PwmOut).
mjr	35:e959ffba78fd	500	//
mjr	35:e959ffba78fd	501	// TSL1410R/1412R, serial: SI (DigitalOut), CLK (DigitalOut), AO (AnalogIn), NC
mjr	35:e959ffba78fd	502	// TSL1410R/1412R, parallel: SI (DigitalOut), CLK (DigitalOut), AO1 (AnalogIn), AO2 (AnalogIn)
mjr	35:e959ffba78fd	503	// Potentiometer: AO (AnalogIn), NC, NC, NC
mjr	35:e959ffba78fd	504	// AEDR8300: A (InterruptIn), B (InterruptIn), NC, NC
mjr	35:e959ffba78fd	505	// AS5304: A (InterruptIn), B (InterruptIn), NC, NC
mjr	53:9b2611964afc	506	//
mjr	53:9b2611964afc	507	// Note! These are stored in uint8_t WIRE format, not PinName format.
mjr	53:9b2611964afc	508	uint8_t sensorPin[4];
mjr	35:e959ffba78fd	509
mjr	53:9b2611964afc	510	// ZB LAUNCH BALL button setup.
mjr	35:e959ffba78fd	511	//
mjr	35:e959ffba78fd	512	// This configures the "ZB Launch Ball" feature in DOF, based on Zeb's (of
mjr	35:e959ffba78fd	513	// zebsboards.com) scheme for using a mechanical plunger as a Launch button.
mjr	35:e959ffba78fd	514	// Set the port to 0 to disable the feature.
mjr	35:e959ffba78fd	515	//
mjr	35:e959ffba78fd	516	// The port number is an LedWiz port number that we monitor for activation.
mjr	53:9b2611964afc	517	// This port isn't meant to be connected to a physical device, although it
mjr	53:9b2611964afc	518	// can be if desired. It's primarily to let the host tell the controller
mjr	53:9b2611964afc	519	// when the ZB Launch feature is active. The port numbering starts at 1;
mjr	53:9b2611964afc	520	// set this to zero to disable the feature.
mjr	35:e959ffba78fd	521	//
mjr	53:9b2611964afc	522	// The key type and code has the same meaning as for a button mapping. This
mjr	53:9b2611964afc	523	// sets the key input sent to the PC when the plunger triggers a launch when
mjr	53:9b2611964afc	524	// the mode is active. For example, set keytype=2 and keycode=0x28 to send
mjr	53:9b2611964afc	525	// the Enter key (which is the key almost all PC pinball software uses for
mjr	53:9b2611964afc	526	// plunger and Launch button input).
mjr	35:e959ffba78fd	527	//
mjr	40:cc0d9814522b	528	// The "push distance" is the distance, in 1/1000 inch units, for registering a
mjr	40:cc0d9814522b	529	// push on the plunger as a button push. If the player pushes the plunger
mjr	40:cc0d9814522b	530	// forward of the rest position by this amount, we'll treat it as pushing the
mjr	40:cc0d9814522b	531	// button, even if the player didn't pull back the plunger first. This lets
mjr	40:cc0d9814522b	532	// the player treat the plunger knob as a button for games where it's meaningful
mjr	35:e959ffba78fd	533	// to hold down the Launch button for specific intervals (e.g., "Championship
mjr	35:e959ffba78fd	534	// Pub").
mjr	35:e959ffba78fd	535	struct
mjr	35:e959ffba78fd	536	{
mjr	53:9b2611964afc	537	uint8_t port;
mjr	53:9b2611964afc	538	uint8_t keytype;
mjr	53:9b2611964afc	539	uint8_t keycode;
mjr	53:9b2611964afc	540	uint16_t pushDistance;
mjr	35:e959ffba78fd	541
mjr	35:e959ffba78fd	542	} zbLaunchBall;
mjr	35:e959ffba78fd	543
mjr	35:e959ffba78fd	544	// --- PLUNGER CALIBRATION ---
mjr	35:e959ffba78fd	545	struct
mjr	35:e959ffba78fd	546	{
mjr	35:e959ffba78fd	547	// has the plunger been calibrated?
mjr	53:9b2611964afc	548	bool calibrated;
mjr	55:4db125cd11a0	549
mjr	55:4db125cd11a0	550	// Feature enable mask:
mjr	55:4db125cd11a0	551	//
mjr	55:4db125cd11a0	552	// 0x01 = calibration button enabled
mjr	55:4db125cd11a0	553	// 0x02 = indicator light enabled
mjr	55:4db125cd11a0	554	uint8_t features;
mjr	35:e959ffba78fd	555
mjr	35:e959ffba78fd	556	// calibration button switch pin
mjr	53:9b2611964afc	557	uint8_t btn;
mjr	35:e959ffba78fd	558
mjr	35:e959ffba78fd	559	// calibration button indicator light pin
mjr	53:9b2611964afc	560	uint8_t led;
mjr	35:e959ffba78fd	561
mjr	48:058ace2aed1d	562	// Plunger calibration min, zero, and max. These are in terms of the
mjr	48:058ace2aed1d	563	// unsigned 16-bit scale (0x0000..0xffff) that we use for the raw sensor
mjr	48:058ace2aed1d	564	// readings.
mjr	48:058ace2aed1d	565	//
mjr	48:058ace2aed1d	566	// The zero point is the rest position (aka park position), where the
mjr	48:058ace2aed1d	567	// plunger is in equilibrium between the main spring and the barrel
mjr	48:058ace2aed1d	568	// spring. In the standard setup, the plunger can travel a small
mjr	48:058ace2aed1d	569	// distance forward of the rest position, because the barrel spring
mjr	48:058ace2aed1d	570	// can be compressed a bit. The minimum is the maximum forward point
mjr	48:058ace2aed1d	571	// where the barrel spring can't be compressed any further.
mjr	48:058ace2aed1d	572	uint16_t min;
mjr	48:058ace2aed1d	573	uint16_t zero;
mjr	48:058ace2aed1d	574	uint16_t max;
mjr	52:8298b2a73eb2	575
mjr	52:8298b2a73eb2	576	// Measured release time, in milliseconds.
mjr	52:8298b2a73eb2	577	uint8_t tRelease;
mjr	35:e959ffba78fd	578
mjr	44:b5ac89b9cd5d	579	// Reset the plunger calibration
mjr	44:b5ac89b9cd5d	580	void setDefaults()
mjr	35:e959ffba78fd	581	{
mjr	44:b5ac89b9cd5d	582	calibrated = false; // not calibrated
mjr	48:058ace2aed1d	583	min = 0; // assume we can go all the way forward...
mjr	48:058ace2aed1d	584	max = 0xffff; // ...and all the way back
mjr	48:058ace2aed1d	585	zero = max/6; // the rest position is usually around 1/2" back = 1/6 of total travel
mjr	52:8298b2a73eb2	586	tRelease = 65; // standard 65ms release time
mjr	44:b5ac89b9cd5d	587	}
mjr	44:b5ac89b9cd5d	588
mjr	44:b5ac89b9cd5d	589	// Begin calibration. This sets each limit to the worst
mjr	44:b5ac89b9cd5d	590	// case point - for example, we set the retracted position
mjr	44:b5ac89b9cd5d	591	// to all the way forward. Each actual reading that comes
mjr	44:b5ac89b9cd5d	592	// in is then checked against the current limit, and if it's
mjr	44:b5ac89b9cd5d	593	// outside of the limit, we reset the limit to the new reading.
mjr	44:b5ac89b9cd5d	594	void begin()
mjr	44:b5ac89b9cd5d	595	{
mjr	48:058ace2aed1d	596	min = 0; // we don't calibrate the maximum forward position, so keep this at zero
mjr	48:058ace2aed1d	597	zero = 0xffff; // set the zero position all the way back
mjr	48:058ace2aed1d	598	max = 0; // set the retracted position all the way forward
mjr	52:8298b2a73eb2	599	tRelease = 65; // revert to a default release time
mjr	35:e959ffba78fd	600	}
mjr	17:ab3cec0c8bf4	601
mjr	35:e959ffba78fd	602	} cal;
mjr	18:5e890ebd0023	603
mjr	35:e959ffba78fd	604	} plunger;
mjr	29:582472d0bc57	605
mjr	35:e959ffba78fd	606
mjr	35:e959ffba78fd	607	// --- TV ON SWITCH ---
mjr	35:e959ffba78fd	608	//
mjr	35:e959ffba78fd	609	// To use the TV ON switch feature, the special power sensing circuitry
mjr	35:e959ffba78fd	610	// implemented on the Expansion Board must be attached (or an equivalent
mjr	35:e959ffba78fd	611	// circuit, as described in the Build Guide). The circuitry lets us
mjr	35:e959ffba78fd	612	// detect power state changes on the secondary power supply.
mjr	35:e959ffba78fd	613	struct
mjr	35:e959ffba78fd	614	{
mjr	35:e959ffba78fd	615	// PSU2 power status sense (DigitalIn pin). This pin goes LOW when the
mjr	35:e959ffba78fd	616	// secondary power supply is turned off, and remains LOW until the LATCH
mjr	35:e959ffba78fd	617	// pin is raised high AND the secondary PSU is turned on. Once HIGH,
mjr	35:e959ffba78fd	618	// it remains HIGH as long as the secondary PSU is on.
mjr	53:9b2611964afc	619	uint8_t statusPin;
mjr	35:e959ffba78fd	620
mjr	35:e959ffba78fd	621	// PSU2 power status latch (DigitalOut pin)
mjr	53:9b2611964afc	622	uint8_t latchPin;
mjr	35:e959ffba78fd	623
mjr	35:e959ffba78fd	624	// TV ON relay pin (DigitalOut pin). This pin controls the TV switch
mjr	35:e959ffba78fd	625	// relay. Raising the pin HIGH turns the relay ON (energizes the coil).
mjr	53:9b2611964afc	626	uint8_t relayPin;
mjr	35:e959ffba78fd	627
mjr	40:cc0d9814522b	628	// TV ON delay time, in 1/100 second units. This is the interval between
mjr	40:cc0d9814522b	629	// sensing that the secondary power supply has turned on and pulsing the
mjr	40:cc0d9814522b	630	// TV ON switch relay.
mjr	40:cc0d9814522b	631	int delayTime;
mjr	35:e959ffba78fd	632
mjr	35:e959ffba78fd	633	} TVON;
mjr	35:e959ffba78fd	634
mjr	53:9b2611964afc	635	// --- Night Mode ---
mjr	53:9b2611964afc	636	struct
mjr	53:9b2611964afc	637	{
mjr	55:4db125cd11a0	638	uint8_t btn; // night mode button number (1..MAX_BUTTONS, 0 = no button)
mjr	53:9b2611964afc	639	uint8_t flags; // flags:
mjr	53:9b2611964afc	640	// 0x01 = on/off switch (if not set, it's a momentary button)
mjr	55:4db125cd11a0	641	uint8_t port; // indicator output port number (1..MAX_OUT_PORTS, 0 = no indicator)
mjr	53:9b2611964afc	642	} nightMode;
mjr	53:9b2611964afc	643
mjr	29:582472d0bc57	644
mjr	35:e959ffba78fd	645	// --- TLC5940NT PWM Controller Chip Setup ---
mjr	35:e959ffba78fd	646	struct
mjr	35:e959ffba78fd	647	{
mjr	35:e959ffba78fd	648	// number of TLC5940NT chips connected in daisy chain
mjr	35:e959ffba78fd	649	int nchips;
mjr	35:e959ffba78fd	650
mjr	53:9b2611964afc	651	// pin connections (wire pin IDs)
mjr	53:9b2611964afc	652	uint8_t sin; // Serial data - must connect to SPIO MOSI -> PTC6 or PTD2
mjr	53:9b2611964afc	653	uint8_t sclk; // Serial clock - must connect to SPIO SCLK -> PTC5 or PTD1
mjr	35:e959ffba78fd	654	// (but don't use PTD1, since it's hard-wired to the on-board blue LED)
mjr	53:9b2611964afc	655	uint8_t xlat; // XLAT (latch) signal - connect to any GPIO pin
mjr	53:9b2611964afc	656	uint8_t blank; // BLANK signal - connect to any GPIO pin
mjr	53:9b2611964afc	657	uint8_t gsclk; // Grayscale clock - must connect to a PWM-out capable pin
mjr	29:582472d0bc57	658
mjr	35:e959ffba78fd	659	} tlc5940;
mjr	35:e959ffba78fd	660
mjr	35:e959ffba78fd	661
mjr	35:e959ffba78fd	662	// --- 74HC595 Shift Register Setup ---
mjr	35:e959ffba78fd	663	struct
mjr	35:e959ffba78fd	664	{
mjr	35:e959ffba78fd	665	// number of 74HC595 chips attached in daisy chain
mjr	35:e959ffba78fd	666	int nchips;
mjr	35:e959ffba78fd	667
mjr	35:e959ffba78fd	668	// pin connections
mjr	53:9b2611964afc	669	uint8_t sin; // Serial data - use any GPIO pin
mjr	53:9b2611964afc	670	uint8_t sclk; // Serial clock - use any GPIO pin
mjr	53:9b2611964afc	671	uint8_t latch; // Latch - use any GPIO pin
mjr	53:9b2611964afc	672	uint8_t ena; // Enable signal - use any GPIO pin
mjr	35:e959ffba78fd	673
mjr	35:e959ffba78fd	674	} hc595;
mjr	34:6b981a2afab7	675
mjr	25:e22b88bd783a	676
mjr	35:e959ffba78fd	677	// --- Button Input Setup ---
mjr	65:739875521aae	678	ButtonCfg button[MAX_BUTTONS + VIRTUAL_BUTTONS] __attribute__((packed));
mjr	17:ab3cec0c8bf4	679
mjr	35:e959ffba78fd	680	// --- LedWiz Output Port Setup ---
mjr	38:091e511ce8a0	681	LedWizPortCfg outPort[MAX_OUT_PORTS] __attribute__((packed)); // LedWiz & extended output ports
mjr	48:058ace2aed1d	682
mjr	17:ab3cec0c8bf4	683	};
mjr	17:ab3cec0c8bf4	684
mjr	35:e959ffba78fd	685	#endif

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	01 Oct 2021
Imports:	0
Forks:	0
Commits:	117
Dependents:	0
Dependencies:	4
Followers:	1

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