RTOS_HW_07 - homework 7

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Mike Moore / Mbed 2 deprecated RTOS_HW_07

homework 7

Dependencies: mbed-rtos mbed C12832_lcd LM75B

main.cpp@84:fee8fb80d190, 2013-09-12 (annotated)

Committer:: gatedClock
Date:: Thu Sep 12 04:50:06 2013 +0000
Revision:: 84:fee8fb80d190
Parent:: 83:2e01f2a799ba
Child:: 85:dfc5add157e7
Child:: 86:388c2b4b7cf5

remove unneeded globals.

Who changed what in which revision?

User	Revision	Line number	New contents of line
gatedClock	0:fcca4db7b32a	1	/*----------------------------------------------//------------------------------
gatedClock	0:fcca4db7b32a	2	student : m-moore
gatedClock	0:fcca4db7b32a	3	class : rtos
gatedClock	10:2b0a9fc39109	4	directory : RTOS_HW_07
gatedClock	0:fcca4db7b32a	5	file : main.cpp
gatedClock	0:fcca4db7b32a	6	----description---------------------------------//------------------------------
gatedClock	70:7c0743c28b11	7	gotchyas
gatedClock	70:7c0743c28b11	8	1. using pc.printf inside a ticker routine will freeze the routine.
gatedClock	71:4a5f256ecf7c	9	2. using queues (get, put) will not work within a ticker routine.
gatedClock	76:74c454c9d75b	10	3. Ticker has a bug. http://mbed.org/questions/1563/Mbed-Tickerfunction-hangs-system-from-re/
gatedClock	80:e3e1a2161435	11
gatedClock	80:e3e1a2161435	12	improvements
gatedClock	80:e3e1a2161435	13	countdown timer needs to be sync'd to start button press.
gatedClock	80:e3e1a2161435	14
gatedClock	80:e3e1a2161435	15
gatedClock	0:fcca4db7b32a	16	-----includes-----------------------------------//----------------------------*/
gatedClock	0:fcca4db7b32a	17	#include "mbed.h" // mbed class.
gatedClock	10:2b0a9fc39109	18	#include "rtos.h" // rtos class.
gatedClock	39:4e7e4d935a87	19	#include "LM75B.h" // thermometer class.
gatedClock	10:2b0a9fc39109	20	#include "C12832_lcd.h" // LCD class.
gatedClock	0:fcca4db7b32a	21	//---defines------------------------------------//------------------------------
gatedClock	9:cfdb9aa5857c	22	#define LCD1 lcd.locate(0, 0); // LCD line 1.
gatedClock	9:cfdb9aa5857c	23	#define LCD2 lcd.locate(0,11); // LCD line 2.
gatedClock	9:cfdb9aa5857c	24	#define LCD3 lcd.locate(0,22); // LCD line 3.
gatedClock	9:cfdb9aa5857c	25
gatedClock	10:2b0a9fc39109	26
gatedClock	66:4a0006fa5cc1	27	#define DEBOUNCEmS 16 // debounce wait in mS.
gatedClock	19:92b11e30aaaf	28	#define uS_TIMEOUT 100 // Timer uS timeout.
gatedClock	19:92b11e30aaaf	29	#define LBSIG 1 // left button signal code.
gatedClock	33:34c1bef3c4ff	30	#define PIPEuS 1000 // pipeline clock period.
gatedClock	19:92b11e30aaaf	31	#define SLOWCLOCKuS 500000 // slow-clock period.
gatedClock	39:4e7e4d935a87	32	#define TEMPCLOCKS 1 // temperature-measuring period in S.
gatedClock	26:bff592483cb1	33	#define PIPEDATASIZE 8 // dimension of tPipeData.
gatedClock	44:d16e813e61ef	34	#define THREAD_1_WAITmS 400 // thread 1 wait in mS.
gatedClock	67:1d9c85a4c3c1	35	#define THREAD_2_WAITmS 20 // LCD thread wait.
gatedClock	67:1d9c85a4c3c1	36	#define THREAD_3_WAITmS 80 // thread 3 wait in mS.
gatedClock	66:4a0006fa5cc1	37	#define THREAD_4_WAITmS 1 // thread 4 wait in mS.
gatedClock	78:7df160e0db7b	38	#define THREAD_5_WAITmS 1 // FSM thread wait.
gatedClock	44:d16e813e61ef	39	#define HB_MODULO 1024 // heartbeat modulo divisor.
gatedClock	50:2928c3cbdcc3	40
gatedClock	54:b0e7352d2516	41	#define MSG_INC_TIME 0x01
gatedClock	54:b0e7352d2516	42	#define MSG_DEC_TIME 0x02
gatedClock	58:ec630b6dd9b1	43	#define MSG_START 0x04
gatedClock	58:ec630b6dd9b1	44	#define MSG_STOP 0x08
gatedClock	58:ec630b6dd9b1	45	#define MSG_OPEN 0x10
gatedClock	58:ec630b6dd9b1	46	#define MSG_CLOSED 0x20
gatedClock	57:0432c68ad232	47
gatedClock	78:7df160e0db7b	48	#define FSM_IDLE 0x01 // cook-state state-machine.
gatedClock	78:7df160e0db7b	49	#define FSM_COOK 0x02 // cook-state state-machine.
gatedClock	78:7df160e0db7b	50	#define FSM_PAUSE 0x04 // cook-state state-machine.
gatedClock	78:7df160e0db7b	51	#define FSM_CONTINUE 0x08 // cook-state state-machine.
gatedClock	78:7df160e0db7b	52	#define FSM_DONE 0x10 // cook-state state-machine.
gatedClock	65:e39360da5929	53
gatedClock	71:4a5f256ecf7c	54	#define RT_PRELOAD 0x01 // remaining-time preload.
gatedClock	71:4a5f256ecf7c	55	#define RT_DECREMENT 0x02 // remaining-time decrement.
gatedClock	71:4a5f256ecf7c	56	#define RT_PAUSE 0x03 // remaining-time don't change.
gatedClock	71:4a5f256ecf7c	57	#define RT_CLEAR 0x04 // remaining-time set to zero.
gatedClock	71:4a5f256ecf7c	58
gatedClock	65:e39360da5929	59	#define DEBUG1 // debug preprocessor control.
gatedClock	0:fcca4db7b32a	60	//--global_definitions--------------------------//------------------------------
gatedClock	26:bff592483cb1	61	struct tButtons // button ISR updates.
gatedClock	26:bff592483cb1	62	{
gatedClock	26:bff592483cb1	63	char cLeftButton; // cooktime +60S.
gatedClock	26:bff592483cb1	64	char cRightButton; // cooktime -60S.
gatedClock	26:bff592483cb1	65	char cTopButton; // start cook.
gatedClock	26:bff592483cb1	66	char cBottomButton; // stop cook.
gatedClock	58:ec630b6dd9b1	67	char cCenterButton; // center button pressed.
gatedClock	53:8c2baf5623c8	68	char cDoorOpen; // door open.
gatedClock	26:bff592483cb1	69	};
gatedClock	34:b449d2a7c786	70
gatedClock	71:4a5f256ecf7c	71	struct tRemainingTime // remaining time related.
gatedClock	71:4a5f256ecf7c	72	{
gatedClock	71:4a5f256ecf7c	73	char cControl; // countdown control.
gatedClock	71:4a5f256ecf7c	74	int dTotalTime; // initialize to this.
gatedClock	71:4a5f256ecf7c	75	int dRemainingTime; // the countdown value.
gatedClock	71:4a5f256ecf7c	76	};
gatedClock	71:4a5f256ecf7c	77
gatedClock	80:e3e1a2161435	78	struct tLCD // LCD related.
gatedClock	80:e3e1a2161435	79	{
gatedClock	80:e3e1a2161435	80	int dTotalCookTime; // display time in seconds.
gatedClock	80:e3e1a2161435	81	int dRemainingTime; // display time in seconds.
gatedClock	80:e3e1a2161435	82	float fCelsius; // temperature in celsius.
gatedClock	80:e3e1a2161435	83	};
gatedClock	80:e3e1a2161435	84
gatedClock	80:e3e1a2161435	85
gatedClock	80:e3e1a2161435	86
gatedClock	61:8026a9fc0cf1	87	Queue<int, 1> queueModTotalTime; // message to modify total time.
gatedClock	61:8026a9fc0cf1	88	Queue<int, 1> queueUpdateFSM; // message to inform FSM.
gatedClock	61:8026a9fc0cf1	89	Queue<int, 1> queueUpdateRemainingTime; // message to update remaining time.
gatedClock	71:4a5f256ecf7c	90	Queue<int, 1> queueSetRemainingTime; // tell countdown it's start time.
gatedClock	69:55b836e8ced7	91	Queue<int, 1> queueFSMnewState; // latest FSM state.
gatedClock	0:fcca4db7b32a	92	//--global_variables----------------------------//------------------------------
gatedClock	26:bff592483cb1	93	char gcSignalWaitEnable; // 1 to wait on a signal.
gatedClock	26:bff592483cb1	94	char gcSlowClock; // slow-clock signal.
gatedClock	33:34c1bef3c4ff	95	char gcInitializePipeline; // 1 to initialize pipeline state.
gatedClock	39:4e7e4d935a87	96	float gfCelsius; // from thermometer.
gatedClock	84:fee8fb80d190	97
gatedClock	26:bff592483cb1	98	tButtons gtButtons; // ISR button updates.
gatedClock	70:7c0743c28b11	99
gatedClock	71:4a5f256ecf7c	100	tRemainingTime giRemainingTime; // structure instance.
gatedClock	80:e3e1a2161435	101	tLCD giLCD; // structure instance.
gatedClock	71:4a5f256ecf7c	102
gatedClock	70:7c0743c28b11	103	int gdDiagTotalTime;
gatedClock	0:fcca4db7b32a	104	//--global_instances----------------------------//------------------------------
gatedClock	55:17f3354da63a	105	Serial pc(USBTX, USBRX); // PuTTY terminal communication.
gatedClock	39:4e7e4d935a87	106	LM75B temperature(p28,p27); // on-board thermometer.
gatedClock	9:cfdb9aa5857c	107	C12832_LCD lcd; // LCD object.
gatedClock	53:8c2baf5623c8	108	DigitalOut led0(LED4); // magnetron.
gatedClock	39:4e7e4d935a87	109	DigitalOut led1(LED3);
gatedClock	39:4e7e4d935a87	110	DigitalOut led2(LED2);
gatedClock	39:4e7e4d935a87	111	DigitalOut led3(LED1);
gatedClock	0:fcca4db7b32a	112
gatedClock	0:fcca4db7b32a	113	InterruptIn iJoyStickUp (p15); // joystick up rising edge.
gatedClock	0:fcca4db7b32a	114	InterruptIn iJoyStickDown (p12); // joystick down rising edge.
gatedClock	0:fcca4db7b32a	115	InterruptIn iJoyStickLeft (p13); // joystick left rising edge.
gatedClock	0:fcca4db7b32a	116	InterruptIn iJoyStickRight (p16); // joystick right rising edge.
gatedClock	0:fcca4db7b32a	117	InterruptIn iJoyStickCenter(p14); // 1 if joystick middle pressed.
gatedClock	66:4a0006fa5cc1	118
gatedClock	66:4a0006fa5cc1	119	Timer debounceTimer; // button debounce timer.
gatedClock	0:fcca4db7b32a	120
gatedClock	50:2928c3cbdcc3	121	Ticker tickerButtonStateManager; // manage the button states.
gatedClock	19:92b11e30aaaf	122	Ticker tickerSlowClock; // generate a ~1Hz clock.
gatedClock	77:73e4fd83642f	123	Ticker tickerCookCountdown; // remaining cook time.
gatedClock	63:63f362bcc2ac	124
gatedClock	63:63f362bcc2ac	125	// Timer timerFSMdone; // duration of FSM 'done' state.
gatedClock	40:7afff79f0d8b	126
gatedClock	0:fcca4db7b32a	127	//-------prototypes-----------------------------//------------------------------
gatedClock	49:56f790977983	128
gatedClock	19:92b11e30aaaf	129	void slowClock(); // 1Hz or thereabouts.
gatedClock	49:56f790977983	130
gatedClock	9:cfdb9aa5857c	131	void initialization(); // initialize settings.
gatedClock	13:21f27ba467c2	132
gatedClock	13:21f27ba467c2	133	void ISRleftButtonRising(); // cook-time increase.
gatedClock	13:21f27ba467c2	134	void ISRleftButtonFalling(); // button-release debounce.
gatedClock	13:21f27ba467c2	135	void ISRrightButtonRising(); // cook-time decrease.
gatedClock	13:21f27ba467c2	136	void ISRrightButtonFalling(); // button-release debounce.
gatedClock	13:21f27ba467c2	137	void ISRtopButtonRising(); // cook start.
gatedClock	13:21f27ba467c2	138	void ISRtopButtonFalling(); // button-release debounce.
gatedClock	13:21f27ba467c2	139	void ISRbottomButtonRising(); // cook stop.
gatedClock	13:21f27ba467c2	140	void ISRbottomButtonFalling(); // button-release debounce.
gatedClock	13:21f27ba467c2	141	void ISRcenterButtonRising(); // door state toggle.
gatedClock	13:21f27ba467c2	142	void ISRcenterButtonFalling(); // button-release debounce.
gatedClock	16:db7f0b3b2605	143	void disableSignalWaiting(); // break from signal waiting.
gatedClock	39:4e7e4d935a87	144
gatedClock	54:b0e7352d2516	145	void threadButtonStateManager(void const *args);
gatedClock	50:2928c3cbdcc3	146	void threadTotalTimeControl(void const *args);
gatedClock	57:0432c68ad232	147	void threadCookStateFSM(void const *args);
gatedClock	71:4a5f256ecf7c	148	void tickCookRemainingTime(); // remaining time countdown.
gatedClock	50:2928c3cbdcc3	149
gatedClock	40:7afff79f0d8b	150	void temperatureThread(void const *args); // temperature measurement.
gatedClock	42:266d5bbbfd19	151	void LCDthread (void const *args); // LCD display thread.
gatedClock	0:fcca4db7b32a	152	//==============================================//==============================
gatedClock	0:fcca4db7b32a	153	int main(void)
gatedClock	0:fcca4db7b32a	154	{
gatedClock	16:db7f0b3b2605	155	char cLeftButtonState; // 1 means button was pressed.
gatedClock	16:db7f0b3b2605	156
gatedClock	16:db7f0b3b2605	157
gatedClock	16:db7f0b3b2605	158
gatedClock	14:d3bb343cd5b2	159	iJoyStickLeft.rise (&ISRleftButtonRising);
gatedClock	14:d3bb343cd5b2	160	iJoyStickLeft.fall (&ISRleftButtonFalling);
gatedClock	9:cfdb9aa5857c	161
gatedClock	14:d3bb343cd5b2	162	iJoyStickRight.rise(&ISRrightButtonRising);
gatedClock	14:d3bb343cd5b2	163	iJoyStickRight.fall(&ISRrightButtonFalling);
gatedClock	14:d3bb343cd5b2	164
gatedClock	14:d3bb343cd5b2	165	iJoyStickUp.rise (&ISRtopButtonRising);
gatedClock	14:d3bb343cd5b2	166	iJoyStickUp.fall (&ISRtopButtonFalling);
gatedClock	9:cfdb9aa5857c	167
gatedClock	14:d3bb343cd5b2	168	iJoyStickDown.rise (&ISRbottomButtonRising);
gatedClock	14:d3bb343cd5b2	169	iJoyStickDown.fall (&ISRbottomButtonFalling);
gatedClock	7:9fbd1d540863	170
gatedClock	14:d3bb343cd5b2	171	iJoyStickCenter.rise(&ISRcenterButtonRising);
gatedClock	14:d3bb343cd5b2	172	iJoyStickCenter.fall(&ISRcenterButtonFalling);
gatedClock	9:cfdb9aa5857c	173
gatedClock	66:4a0006fa5cc1	174	debounceTimer.start(); // kick-off debounce timer.
gatedClock	66:4a0006fa5cc1	175
gatedClock	33:34c1bef3c4ff	176	gcInitializePipeline = 1; // tell pipeline to initialize.
gatedClock	16:db7f0b3b2605	177
gatedClock	9:cfdb9aa5857c	178	initialization(); // initialize variables.
gatedClock	21:b794d189c36b	179	gcSlowClock = 0;
gatedClock	44:d16e813e61ef	180	led1 = 0;
gatedClock	53:8c2baf5623c8	181	gtButtons.cDoorOpen = 0; // initialize with door closed.
gatedClock	63:63f362bcc2ac	182
gatedClock	63:63f362bcc2ac	183	// timerFSMdone.start(); // start 'done' timer.
gatedClock	49:56f790977983	184
gatedClock	70:7c0743c28b11	185	tickerSlowClock.attach_us(&slowClock ,SLOWCLOCKuS);
gatedClock	64:255295f1d782	186
gatedClock	75:c2894d531f42	187
gatedClock	77:73e4fd83642f	188	tickerCookCountdown.attach(&tickCookRemainingTime,1);
gatedClock	54:b0e7352d2516	189
gatedClock	40:7afff79f0d8b	190
gatedClock	70:7c0743c28b11	191	Thread thread_1(temperatureThread ,NULL,osPriorityIdle,DEFAULT_STACK_SIZE,NULL);
gatedClock	70:7c0743c28b11	192	Thread thread_2(LCDthread ,NULL,osPriorityIdle,DEFAULT_STACK_SIZE,NULL);
gatedClock	70:7c0743c28b11	193	Thread thread_3(threadTotalTimeControl ,NULL,osPriorityIdle,DEFAULT_STACK_SIZE,NULL);
gatedClock	70:7c0743c28b11	194	Thread thread_4(threadButtonStateManager,NULL,osPriorityIdle,DEFAULT_STACK_SIZE,NULL); // was osPriorityIdle
gatedClock	70:7c0743c28b11	195	Thread thread_5(threadCookStateFSM ,NULL,osPriorityIdle,DEFAULT_STACK_SIZE,NULL);
gatedClock	70:7c0743c28b11	196
gatedClock	66:4a0006fa5cc1	197	//Thread thread_4(threadButtonStateManager);
gatedClock	52:8ba6a0c91a89	198
gatedClock	40:7afff79f0d8b	199
gatedClock	59:5e45b5e4a874	200	// the message-receiving threads need 'else' for message-receive-timeout.
gatedClock	9:cfdb9aa5857c	201
gatedClock	14:d3bb343cd5b2	202	while(1)
gatedClock	0:fcca4db7b32a	203	{
gatedClock	75:c2894d531f42	204	// pc.printf("\n\r gdDiagTotalTime %d",gdDiagTotalTime);
gatedClock	70:7c0743c28b11	205
gatedClock	70:7c0743c28b11	206	Thread::wait(1000);
gatedClock	16:db7f0b3b2605	207
gatedClock	16:db7f0b3b2605	208
gatedClock	16:db7f0b3b2605	209
gatedClock	14:d3bb343cd5b2	210
gatedClock	0:fcca4db7b32a	211	}
gatedClock	19:92b11e30aaaf	212	}
gatedClock	19:92b11e30aaaf	213	/----------------------------------------------//----------------------------/
gatedClock	59:5e45b5e4a874	214
gatedClock	59:5e45b5e4a874	215	// this serves as the bottom-half for all of the button-press IRSs.
gatedClock	59:5e45b5e4a874	216	// it sends button-status messages to other threads, and it also
gatedClock	59:5e45b5e4a874	217	// clears the button-state globals to prepare them for the next
gatedClock	59:5e45b5e4a874	218	// button press.
gatedClock	59:5e45b5e4a874	219
gatedClock	59:5e45b5e4a874	220
gatedClock	54:b0e7352d2516	221	void threadButtonStateManager(void const *args)
gatedClock	50:2928c3cbdcc3	222	{
gatedClock	56:18cff6eb91db	223	int dMessage; // message.
gatedClock	50:2928c3cbdcc3	224
gatedClock	54:b0e7352d2516	225	while(1) // thread loop.
gatedClock	67:1d9c85a4c3c1	226	{
gatedClock	54:b0e7352d2516	227	//--- // TOTAL TIME CONTROL.
gatedClock	56:18cff6eb91db	228
gatedClock	56:18cff6eb91db	229	// encoded integers will be sent,
gatedClock	56:18cff6eb91db	230	// not pointers.
gatedClock	50:2928c3cbdcc3	231
gatedClock	50:2928c3cbdcc3	232	if (gtButtons.cLeftButton) // total time increment button.
gatedClock	50:2928c3cbdcc3	233	{
gatedClock	54:b0e7352d2516	234	dMessage = MSG_INC_TIME; // set message.
gatedClock	69:55b836e8ced7	235	queueModTotalTime.put((int *) dMessage,1);// pretend it's a pointer.
gatedClock	50:2928c3cbdcc3	236	gtButtons.cLeftButton = 0; // clear the button state.
gatedClock	50:2928c3cbdcc3	237	}
gatedClock	67:1d9c85a4c3c1	238
gatedClock	59:5e45b5e4a874	239	if (gtButtons.cRightButton) // total time decrement button.
gatedClock	50:2928c3cbdcc3	240	{
gatedClock	54:b0e7352d2516	241	dMessage = MSG_DEC_TIME; // set message.
gatedClock	69:55b836e8ced7	242	queueModTotalTime.put((int *) dMessage,1);// pretend it's a pointer.
gatedClock	50:2928c3cbdcc3	243	gtButtons.cRightButton = 0; // clear the button state.
gatedClock	50:2928c3cbdcc3	244	}
gatedClock	67:1d9c85a4c3c1	245
gatedClock	59:5e45b5e4a874	246	//--- // COOK-STATE FSM.
gatedClock	59:5e45b5e4a874	247
gatedClock	59:5e45b5e4a874	248	if (gtButtons.cTopButton) // start-cook button.
gatedClock	58:ec630b6dd9b1	249	{
gatedClock	59:5e45b5e4a874	250	dMessage = MSG_START; // set message.
gatedClock	69:55b836e8ced7	251	queueUpdateFSM.put((int *) dMessage,1); // pretend it's a pointer.
gatedClock	59:5e45b5e4a874	252	gtButtons.cTopButton = 0; // clear the button state.
gatedClock	58:ec630b6dd9b1	253	}
gatedClock	67:1d9c85a4c3c1	254
gatedClock	59:5e45b5e4a874	255	if (gtButtons.cBottomButton) // stop-cook button.
gatedClock	58:ec630b6dd9b1	256	{
gatedClock	59:5e45b5e4a874	257	dMessage = MSG_STOP; // set message.
gatedClock	69:55b836e8ced7	258	queueUpdateFSM.put((int *) dMessage,1); // pretend it's a pointer.
gatedClock	59:5e45b5e4a874	259	gtButtons.cBottomButton = 0; // clear the button state.
gatedClock	58:ec630b6dd9b1	260	}
gatedClock	67:1d9c85a4c3c1	261
gatedClock	59:5e45b5e4a874	262	if (gtButtons.cCenterButton) // door-state-toggle.
gatedClock	58:ec630b6dd9b1	263	{
gatedClock	59:5e45b5e4a874	264	dMessage = gtButtons.cDoorOpen; // determined in ISR.
gatedClock	69:55b836e8ced7	265	queueUpdateFSM.put((int *) dMessage,1); // pretend it's a pointer.
gatedClock	59:5e45b5e4a874	266	gtButtons.cCenterButton = 0; // clear the button state.
gatedClock	58:ec630b6dd9b1	267	}
gatedClock	59:5e45b5e4a874	268	//---
gatedClock	58:ec630b6dd9b1	269
gatedClock	54:b0e7352d2516	270	Thread::wait(THREAD_4_WAITmS); // multitasking.
gatedClock	54:b0e7352d2516	271	} // thread loop.
gatedClock	54:b0e7352d2516	272	} // threadButtonStateManager.
gatedClock	50:2928c3cbdcc3	273	/----------------------------------------------//----------------------------/
gatedClock	51:e5ec74c49b01	274	// the incoming messages are mutually-exclusive.
gatedClock	51:e5ec74c49b01	275	// total time controller.
gatedClock	51:e5ec74c49b01	276	void threadTotalTimeControl(void const *args)
gatedClock	50:2928c3cbdcc3	277	{
gatedClock	51:e5ec74c49b01	278	static int dTotalTime = 0; // total time variable.
gatedClock	60:e10bf95bbc96	279	int dMessage; // message.
gatedClock	51:e5ec74c49b01	280	osEvent queueEvent; // queue event.
gatedClock	70:7c0743c28b11	281	int dRC;
gatedClock	50:2928c3cbdcc3	282
gatedClock	50:2928c3cbdcc3	283	while(1) // thread loop.
gatedClock	50:2928c3cbdcc3	284	{
gatedClock	50:2928c3cbdcc3	285
gatedClock	55:17f3354da63a	286	queueEvent = queueModTotalTime.get(1); // get message.
gatedClock	51:e5ec74c49b01	287	if (queueEvent.status == osEventMessage)
gatedClock	51:e5ec74c49b01	288	{
gatedClock	56:18cff6eb91db	289	dMessage = (int) queueEvent.value.p; // interpret as integer, not pointer.
gatedClock	54:b0e7352d2516	290
gatedClock	54:b0e7352d2516	291	// increment total time.
gatedClock	56:18cff6eb91db	292	if (dMessage == MSG_INC_TIME) dTotalTime += 60;
gatedClock	54:b0e7352d2516	293
gatedClock	54:b0e7352d2516	294	// decrement total time.
gatedClock	56:18cff6eb91db	295	if (dMessage == MSG_DEC_TIME) dTotalTime -= 60;
gatedClock	65:e39360da5929	296
gatedClock	65:e39360da5929	297	// saturations.
gatedClock	65:e39360da5929	298	if (dTotalTime > 180) dTotalTime = 180;
gatedClock	65:e39360da5929	299	if (dTotalTime < 0) dTotalTime = 0;
gatedClock	65:e39360da5929	300
gatedClock	70:7c0743c28b11	301	dRC = queueSetRemainingTime.put((int *) dTotalTime,1);
gatedClock	75:c2894d531f42	302	giRemainingTime.dTotalTime = dTotalTime;
gatedClock	51:e5ec74c49b01	303	}
gatedClock	81:12bc26973cb8	304
gatedClock	50:2928c3cbdcc3	305	Thread::wait(THREAD_3_WAITmS); // multitasking.
gatedClock	50:2928c3cbdcc3	306	} // thread loop.
gatedClock	50:2928c3cbdcc3	307	} // threadTotalTimeControl.
gatedClock	33:34c1bef3c4ff	308	/----------------------------------------------//----------------------------/
gatedClock	81:12bc26973cb8	309
gatedClock	57:0432c68ad232	310	void threadCookStateFSM(void const *args) // cook-cycle FSM.
gatedClock	57:0432c68ad232	311	{
gatedClock	83:2e01f2a799ba	312	int dFSMstate = FSM_IDLE; // state of this FSM.
gatedClock	83:2e01f2a799ba	313	int dFSMstateLast = FSM_IDLE; // previous FSM state.
gatedClock	83:2e01f2a799ba	314	int dButtonState; // received button state.
gatedClock	83:2e01f2a799ba	315	int dRemainingTime = 0; // received remaining time.
gatedClock	62:48e7c196e2a5	316
gatedClock	83:2e01f2a799ba	317	int dButtonStart = 0;
gatedClock	83:2e01f2a799ba	318	int dButtonStop = 0;
gatedClock	83:2e01f2a799ba	319	int dDoorOpen = 0;
gatedClock	81:12bc26973cb8	320
gatedClock	81:12bc26973cb8	321	osEvent queueEvent; // from button state manager.
gatedClock	75:c2894d531f42	322
gatedClock	62:48e7c196e2a5	323
gatedClock	63:63f362bcc2ac	324
gatedClock	57:0432c68ad232	325	while(1) // thread loop.
gatedClock	57:0432c68ad232	326	{
gatedClock	81:12bc26973cb8	327
gatedClock	74:4debb8f2e21d	328	switch (dFSMstate) // cook-mode state machine.
gatedClock	62:48e7c196e2a5	329	{
gatedClock	82:73fa3fe8a217	330	//---
gatedClock	73:44739860198b	331	case FSM_IDLE : // IDLE.
gatedClock	73:44739860198b	332	{
gatedClock	75:c2894d531f42	333	if (dFSMstate != dFSMstateLast) // if just entered state.
gatedClock	80:e3e1a2161435	334	{
gatedClock	75:c2894d531f42	335	}
gatedClock	80:e3e1a2161435	336
gatedClock	80:e3e1a2161435	337	giLCD.dTotalCookTime = giRemainingTime.dTotalTime;
gatedClock	80:e3e1a2161435	338	giLCD.dRemainingTime = 0; // suppress remaining time display.
gatedClock	80:e3e1a2161435	339	giLCD.fCelsius = 0;
gatedClock	80:e3e1a2161435	340
gatedClock	78:7df160e0db7b	341	giRemainingTime.cControl = RT_PRELOAD;
gatedClock	76:74c454c9d75b	342	dFSMstateLast = dFSMstate; // determine next state.
gatedClock	75:c2894d531f42	343	if ((dButtonStart == 1) && (dDoorOpen == 0) && (giRemainingTime.dTotalTime > 0)) dFSMstate = FSM_COOK;
gatedClock	73:44739860198b	344	break;
gatedClock	73:44739860198b	345	}
gatedClock	82:73fa3fe8a217	346	//---
gatedClock	73:44739860198b	347	case FSM_COOK : // COOK.
gatedClock	73:44739860198b	348	{
gatedClock	75:c2894d531f42	349	if (dFSMstate != dFSMstateLast) // if just entered state.
gatedClock	75:c2894d531f42	350	{
gatedClock	75:c2894d531f42	351	giRemainingTime.cControl = RT_DECREMENT;
gatedClock	75:c2894d531f42	352	}
gatedClock	80:e3e1a2161435	353
gatedClock	80:e3e1a2161435	354	giLCD.dTotalCookTime = giRemainingTime.dTotalTime;
gatedClock	80:e3e1a2161435	355	giLCD.dRemainingTime = giRemainingTime.dRemainingTime;
gatedClock	80:e3e1a2161435	356	giLCD.fCelsius = 0;
gatedClock	80:e3e1a2161435	357
gatedClock	80:e3e1a2161435	358
gatedClock	76:74c454c9d75b	359
gatedClock	76:74c454c9d75b	360	dFSMstateLast = dFSMstate; // determine next state.
gatedClock	78:7df160e0db7b	361	if ((dDoorOpen == 1) && (dRemainingTime > 0)) dFSMstate = FSM_PAUSE;
gatedClock	78:7df160e0db7b	362	else
gatedClock	76:74c454c9d75b	363	if (dButtonStop) dFSMstate = FSM_IDLE;
gatedClock	78:7df160e0db7b	364	else
gatedClock	78:7df160e0db7b	365	if (dRemainingTime <= 0) dFSMstate = FSM_DONE;
gatedClock	73:44739860198b	366	break;
gatedClock	73:44739860198b	367	}
gatedClock	82:73fa3fe8a217	368	//---
gatedClock	73:44739860198b	369	case FSM_PAUSE : // PAUSE.
gatedClock	73:44739860198b	370	{
gatedClock	75:c2894d531f42	371
gatedClock	75:c2894d531f42	372	if (dFSMstate != dFSMstateLast) // if just entered state.
gatedClock	75:c2894d531f42	373	{
gatedClock	75:c2894d531f42	374	}
gatedClock	80:e3e1a2161435	375
gatedClock	80:e3e1a2161435	376
gatedClock	80:e3e1a2161435	377	giLCD.dTotalCookTime = giRemainingTime.dTotalTime;
gatedClock	80:e3e1a2161435	378	giLCD.dRemainingTime = giRemainingTime.dRemainingTime;
gatedClock	80:e3e1a2161435	379	giLCD.fCelsius = 0;
gatedClock	80:e3e1a2161435	380
gatedClock	80:e3e1a2161435	381
gatedClock	75:c2894d531f42	382	giRemainingTime.cControl = RT_PAUSE;
gatedClock	75:c2894d531f42	383	// determine next state.
gatedClock	75:c2894d531f42	384	dFSMstateLast = dFSMstate;
gatedClock	78:7df160e0db7b	385	if ((dButtonStart == 1) && (dDoorOpen == 0) && (giRemainingTime.dTotalTime > 0)) dFSMstate = FSM_CONTINUE;
gatedClock	75:c2894d531f42	386	else
gatedClock	78:7df160e0db7b	387	if (dButtonStop) dFSMstate = FSM_IDLE;
gatedClock	73:44739860198b	388	break;
gatedClock	73:44739860198b	389	}
gatedClock	78:7df160e0db7b	390
gatedClock	82:73fa3fe8a217	391	//---
gatedClock	79:4286319e48b4	392	case FSM_CONTINUE : // CONTINUE.
gatedClock	78:7df160e0db7b	393	{
gatedClock	78:7df160e0db7b	394
gatedClock	78:7df160e0db7b	395	if (dFSMstate != dFSMstateLast) // if just entered state.
gatedClock	78:7df160e0db7b	396	{
gatedClock	78:7df160e0db7b	397	}
gatedClock	80:e3e1a2161435	398
gatedClock	80:e3e1a2161435	399
gatedClock	80:e3e1a2161435	400	giLCD.dTotalCookTime = giRemainingTime.dTotalTime;
gatedClock	80:e3e1a2161435	401	giLCD.dRemainingTime = giRemainingTime.dRemainingTime;
gatedClock	80:e3e1a2161435	402	giLCD.fCelsius = 0;
gatedClock	80:e3e1a2161435	403
gatedClock	80:e3e1a2161435	404
gatedClock	78:7df160e0db7b	405	giRemainingTime.cControl = RT_DECREMENT;
gatedClock	78:7df160e0db7b	406	// determine next state.
gatedClock	78:7df160e0db7b	407	dFSMstateLast = dFSMstate;
gatedClock	78:7df160e0db7b	408	if (dRemainingTime <= 0) dFSMstate = FSM_DONE;
gatedClock	78:7df160e0db7b	409	else
gatedClock	78:7df160e0db7b	410	if (dButtonStop) dFSMstate = FSM_IDLE;
gatedClock	79:4286319e48b4	411	else
gatedClock	79:4286319e48b4	412	if ((dDoorOpen == 1) && (dRemainingTime > 0)) dFSMstate = FSM_PAUSE;
gatedClock	78:7df160e0db7b	413	break;
gatedClock	78:7df160e0db7b	414	}
gatedClock	78:7df160e0db7b	415
gatedClock	78:7df160e0db7b	416
gatedClock	82:73fa3fe8a217	417	//---
gatedClock	73:44739860198b	418	case FSM_DONE : // DONE.
gatedClock	73:44739860198b	419	{
gatedClock	75:c2894d531f42	420
gatedClock	75:c2894d531f42	421	if (dFSMstate != dFSMstateLast) // if just entered state.
gatedClock	75:c2894d531f42	422	{
gatedClock	75:c2894d531f42	423	}
gatedClock	80:e3e1a2161435	424
gatedClock	80:e3e1a2161435	425
gatedClock	80:e3e1a2161435	426	giLCD.dTotalCookTime = giRemainingTime.dTotalTime;
gatedClock	80:e3e1a2161435	427	giLCD.dRemainingTime = giRemainingTime.dRemainingTime;
gatedClock	80:e3e1a2161435	428	giLCD.fCelsius = 0;
gatedClock	80:e3e1a2161435	429
gatedClock	80:e3e1a2161435	430
gatedClock	80:e3e1a2161435	431
gatedClock	75:c2894d531f42	432	giRemainingTime.cControl = RT_CLEAR;
gatedClock	75:c2894d531f42	433	// determine next state.
gatedClock	75:c2894d531f42	434	dFSMstateLast = dFSMstate;
gatedClock	74:4debb8f2e21d	435	dFSMstate = FSM_IDLE;
gatedClock	73:44739860198b	436	break;
gatedClock	73:44739860198b	437	}
gatedClock	82:73fa3fe8a217	438	//---
gatedClock	73:44739860198b	439	default : {dFSMstate = FSM_IDLE; break;}
gatedClock	73:44739860198b	440
gatedClock	62:48e7c196e2a5	441	}
gatedClock	73:44739860198b	442
gatedClock	63:63f362bcc2ac	443
gatedClock	75:c2894d531f42	444
gatedClock	75:c2894d531f42	445	queueEvent = queueUpdateFSM.get(1); // threadButtonStateManager
gatedClock	60:e10bf95bbc96	446	if (queueEvent.status == osEventMessage)// update state variable.
gatedClock	60:e10bf95bbc96	447	{
gatedClock	61:8026a9fc0cf1	448	// interpret as integer, not pointer.
gatedClock	61:8026a9fc0cf1	449	dButtonState = (int) queueEvent.value.p;
gatedClock	63:63f362bcc2ac	450
gatedClock	75:c2894d531f42	451
gatedClock	69:55b836e8ced7	452
gatedClock	63:63f362bcc2ac	453	if (dButtonState == MSG_START)
gatedClock	63:63f362bcc2ac	454	{
gatedClock	63:63f362bcc2ac	455	dButtonStart = 1;
gatedClock	63:63f362bcc2ac	456	dButtonStop = 0;
gatedClock	79:4286319e48b4	457
gatedClock	79:4286319e48b4	458	// if the door is open, ignore
gatedClock	79:4286319e48b4	459	// and cancel 'start' state.
gatedClock	79:4286319e48b4	460	if (dDoorOpen) dButtonStart = 0;
gatedClock	63:63f362bcc2ac	461	}
gatedClock	63:63f362bcc2ac	462	if (dButtonState == MSG_STOP)
gatedClock	63:63f362bcc2ac	463	{
gatedClock	63:63f362bcc2ac	464	dButtonStart = 0;
gatedClock	63:63f362bcc2ac	465	dButtonStop = 1;
gatedClock	63:63f362bcc2ac	466	}
gatedClock	63:63f362bcc2ac	467
gatedClock	63:63f362bcc2ac	468	if (dButtonState == MSG_OPEN)
gatedClock	63:63f362bcc2ac	469	{
gatedClock	79:4286319e48b4	470	// if the door opens, clear current 'start' state.
gatedClock	79:4286319e48b4	471	dDoorOpen = 1;
gatedClock	79:4286319e48b4	472	dButtonStart = 0;
gatedClock	63:63f362bcc2ac	473	}
gatedClock	63:63f362bcc2ac	474
gatedClock	63:63f362bcc2ac	475	if (dButtonState == MSG_CLOSED)
gatedClock	63:63f362bcc2ac	476	{
gatedClock	63:63f362bcc2ac	477	dDoorOpen = 0;
gatedClock	63:63f362bcc2ac	478	}
gatedClock	63:63f362bcc2ac	479
gatedClock	61:8026a9fc0cf1	480	}
gatedClock	75:c2894d531f42	481
gatedClock	75:c2894d531f42	482	// fetch from global scope.
gatedClock	75:c2894d531f42	483	dRemainingTime = giRemainingTime.dRemainingTime;
gatedClock	69:55b836e8ced7	484
gatedClock	75:c2894d531f42	485	// pipeline variable.
gatedClock	57:0432c68ad232	486	Thread::wait(THREAD_5_WAITmS); // multitasking.
gatedClock	57:0432c68ad232	487	} // thread loop.
gatedClock	57:0432c68ad232	488	} // threadCookStateFSM.
gatedClock	57:0432c68ad232	489	/----------------------------------------------//----------------------------/
gatedClock	19:92b11e30aaaf	490	void slowClock(void) // 1Hz or thereabouts.
gatedClock	19:92b11e30aaaf	491	{
gatedClock	24:d39516e077ea	492	gcSlowClock = !gcSlowClock; // toggle clock.
gatedClock	19:92b11e30aaaf	493	}
gatedClock	19:92b11e30aaaf	494	/----------------------------------------------//----------------------------/
gatedClock	0:fcca4db7b32a	495	void initialization(void) // program initializations.
gatedClock	0:fcca4db7b32a	496	{
gatedClock	16:db7f0b3b2605	497	gcSignalWaitEnable = 1;
gatedClock	0:fcca4db7b32a	498	}
gatedClock	0:fcca4db7b32a	499	/----------------------------------------------//----------------------------/
gatedClock	26:bff592483cb1	500	void ISRleftButtonRising(void) // cooktime plus 60s.
gatedClock	1:9188d4668a88	501	{
gatedClock	66:4a0006fa5cc1	502	if (debounceTimer.read_ms() > DEBOUNCEmS)
gatedClock	26:bff592483cb1	503	gtButtons.cLeftButton = 1; // detect left button.
gatedClock	9:cfdb9aa5857c	504
gatedClock	66:4a0006fa5cc1	505	debounceTimer.reset(); // begin debounce period.
gatedClock	11:9cae003da12b	506	}
gatedClock	1:9188d4668a88	507	/----------------------------------------------//----------------------------/
gatedClock	15:5eaa2ab1d00d	508	void ISRleftButtonFalling(void) // button-release debounce.
gatedClock	1:9188d4668a88	509	{
gatedClock	66:4a0006fa5cc1	510	debounceTimer.reset(); // begin debounce period.
gatedClock	11:9cae003da12b	511	}
gatedClock	2:665ffa57031f	512	/----------------------------------------------//----------------------------/
gatedClock	26:bff592483cb1	513	void ISRrightButtonRising(void) // cooktime -60s.
gatedClock	12:e40272e1fd8f	514	{
gatedClock	66:4a0006fa5cc1	515	if (debounceTimer.read_ms() > DEBOUNCEmS)
gatedClock	26:bff592483cb1	516	gtButtons.cRightButton = 1; // detect right button.
gatedClock	12:e40272e1fd8f	517
gatedClock	66:4a0006fa5cc1	518	debounceTimer.reset(); // begin debounce period.
gatedClock	12:e40272e1fd8f	519	}
gatedClock	12:e40272e1fd8f	520	/----------------------------------------------//----------------------------/
gatedClock	15:5eaa2ab1d00d	521	void ISRrightButtonFalling(void) // button-release debounce.
gatedClock	12:e40272e1fd8f	522	{
gatedClock	66:4a0006fa5cc1	523	debounceTimer.reset(); // begin debounce period.
gatedClock	12:e40272e1fd8f	524	}
gatedClock	12:e40272e1fd8f	525	/----------------------------------------------//----------------------------/
gatedClock	26:bff592483cb1	526	void ISRtopButtonRising(void) // cook start.
gatedClock	12:e40272e1fd8f	527	{
gatedClock	66:4a0006fa5cc1	528	if (debounceTimer.read_ms() > DEBOUNCEmS)
gatedClock	26:bff592483cb1	529	gtButtons.cTopButton = 1; // detect top button.
gatedClock	12:e40272e1fd8f	530
gatedClock	66:4a0006fa5cc1	531	debounceTimer.reset(); // begin debounce period.
gatedClock	12:e40272e1fd8f	532	}
gatedClock	12:e40272e1fd8f	533	/----------------------------------------------//----------------------------/
gatedClock	15:5eaa2ab1d00d	534	void ISRtopButtonFalling(void) // button-release debounce.
gatedClock	12:e40272e1fd8f	535	{
gatedClock	66:4a0006fa5cc1	536	debounceTimer.reset(); // begin debounce period.
gatedClock	12:e40272e1fd8f	537	}
gatedClock	12:e40272e1fd8f	538	/----------------------------------------------//----------------------------/
gatedClock	53:8c2baf5623c8	539	// front-end control of magnetron off.
gatedClock	53:8c2baf5623c8	540	// due to physical danger, the magnetron is turned off immediately
gatedClock	53:8c2baf5623c8	541	// upon off-button press, in the interrupt that it generates.
gatedClock	53:8c2baf5623c8	542
gatedClock	26:bff592483cb1	543	void ISRbottomButtonRising(void) // cook stop.
gatedClock	12:e40272e1fd8f	544	{
gatedClock	66:4a0006fa5cc1	545	if (debounceTimer.read_ms() > DEBOUNCEmS)
gatedClock	66:4a0006fa5cc1	546	{
gatedClock	66:4a0006fa5cc1	547	led0 = 0; // magnetron off.
gatedClock	66:4a0006fa5cc1	548	gtButtons.cBottomButton = 1; // detect bottom button.
gatedClock	66:4a0006fa5cc1	549	}
gatedClock	66:4a0006fa5cc1	550	debounceTimer.reset(); // begin debounce period.
gatedClock	66:4a0006fa5cc1	551	}
gatedClock	12:e40272e1fd8f	552	/----------------------------------------------//----------------------------/
gatedClock	15:5eaa2ab1d00d	553	void ISRbottomButtonFalling(void) // button-release debounce.
gatedClock	12:e40272e1fd8f	554	{
gatedClock	66:4a0006fa5cc1	555	debounceTimer.reset(); // begin debounce period.
gatedClock	12:e40272e1fd8f	556	}
gatedClock	12:e40272e1fd8f	557	/----------------------------------------------//----------------------------/
gatedClock	53:8c2baf5623c8	558	// front-end control of magnetron off.
gatedClock	53:8c2baf5623c8	559	// due to physical danger, the magnetron is turned off immediately
gatedClock	53:8c2baf5623c8	560	// upon detection of an open door.
gatedClock	53:8c2baf5623c8	561
gatedClock	26:bff592483cb1	562	void ISRcenterButtonRising(void) // toggle door state.
gatedClock	12:e40272e1fd8f	563	{
gatedClock	66:4a0006fa5cc1	564	if (debounceTimer.read_ms() > DEBOUNCEmS)
gatedClock	66:4a0006fa5cc1	565	{
gatedClock	66:4a0006fa5cc1	566	if (gtButtons.cDoorOpen == MSG_OPEN) // calculate door state.
gatedClock	66:4a0006fa5cc1	567	gtButtons.cDoorOpen = MSG_CLOSED;
gatedClock	66:4a0006fa5cc1	568	else
gatedClock	66:4a0006fa5cc1	569	gtButtons.cDoorOpen = MSG_OPEN;
gatedClock	53:8c2baf5623c8	570
gatedClock	59:5e45b5e4a874	571	// magnetron off.
gatedClock	66:4a0006fa5cc1	572	if (gtButtons.cDoorOpen == MSG_OPEN) led0 = 0;
gatedClock	58:ec630b6dd9b1	573
gatedClock	66:4a0006fa5cc1	574	gtButtons.cCenterButton = 1;
gatedClock	66:4a0006fa5cc1	575	}
gatedClock	66:4a0006fa5cc1	576	debounceTimer.reset(); // begin debounce period.
gatedClock	12:e40272e1fd8f	577	}
gatedClock	12:e40272e1fd8f	578	/----------------------------------------------//----------------------------/
gatedClock	15:5eaa2ab1d00d	579	void ISRcenterButtonFalling(void) // button-release debounce.
gatedClock	12:e40272e1fd8f	580	{
gatedClock	66:4a0006fa5cc1	581	debounceTimer.reset(); // begin debounce period.
gatedClock	12:e40272e1fd8f	582	}
gatedClock	12:e40272e1fd8f	583	/----------------------------------------------//----------------------------/
gatedClock	40:7afff79f0d8b	584	void temperatureThread(void const *args) // temperature measurement.
gatedClock	39:4e7e4d935a87	585	{
gatedClock	45:e3207684e841	586	while(1) // thread loop.
gatedClock	45:e3207684e841	587	{
gatedClock	45:e3207684e841	588	gfCelsius = temperature.read(); // physical measurement.
gatedClock	40:7afff79f0d8b	589
gatedClock	45:e3207684e841	590	Thread::wait(THREAD_1_WAITmS); // multitasking.
gatedClock	45:e3207684e841	591	} // thread loop.
gatedClock	45:e3207684e841	592	} // temperatureThread.
gatedClock	42:266d5bbbfd19	593	/----------------------------------------------//----------------------------/
gatedClock	42:266d5bbbfd19	594	void LCDthread(void const *args) // LCD display thread.
gatedClock	42:266d5bbbfd19	595	{
gatedClock	67:1d9c85a4c3c1	596
gatedClock	67:1d9c85a4c3c1	597	static int dLCDtotalCookTimeSec = 0; // sample current values.
gatedClock	67:1d9c85a4c3c1	598	static int dCookTimeRemainingSec = 0;
gatedClock	67:1d9c85a4c3c1	599	static float fLCDcelsius = 0.0;
gatedClock	67:1d9c85a4c3c1	600
gatedClock	67:1d9c85a4c3c1	601	// remember previous values.
gatedClock	67:1d9c85a4c3c1	602	static int dLCDtotalCookTimeSecLast = 0;
gatedClock	67:1d9c85a4c3c1	603	static int dCookTimeRemainingSecLast = 0;
gatedClock	67:1d9c85a4c3c1	604	static float fLCDcelsiusLast = 0.0;
gatedClock	67:1d9c85a4c3c1	605
gatedClock	44:d16e813e61ef	606	while(1) // thread loop.
gatedClock	44:d16e813e61ef	607	{
gatedClock	67:1d9c85a4c3c1	608	// don't allow the values to
gatedClock	67:1d9c85a4c3c1	609	// change in the middle of the
gatedClock	67:1d9c85a4c3c1	610	// below else the anti-blink
gatedClock	67:1d9c85a4c3c1	611	// code won't work.
gatedClock	80:e3e1a2161435	612	dLCDtotalCookTimeSec = giLCD.dTotalCookTime;
gatedClock	80:e3e1a2161435	613	dCookTimeRemainingSec = giLCD.dRemainingTime;
gatedClock	80:e3e1a2161435	614	fLCDcelsius = giLCD.fCelsius;
gatedClock	80:e3e1a2161435	615
gatedClock	80:e3e1a2161435	616
gatedClock	67:1d9c85a4c3c1	617
gatedClock	67:1d9c85a4c3c1	618
gatedClock	67:1d9c85a4c3c1	619	// clear display only when
gatedClock	67:1d9c85a4c3c1	620	// necessary, in order to avoid
gatedClock	67:1d9c85a4c3c1	621	// 'blinkieness'.
gatedClock	67:1d9c85a4c3c1	622	if (dLCDtotalCookTimeSec != dLCDtotalCookTimeSecLast \|\|
gatedClock	67:1d9c85a4c3c1	623	dCookTimeRemainingSec != dCookTimeRemainingSecLast \|\|
gatedClock	67:1d9c85a4c3c1	624	fLCDcelsius != fLCDcelsiusLast)
gatedClock	67:1d9c85a4c3c1	625	lcd.cls();
gatedClock	42:266d5bbbfd19	626
gatedClock	44:d16e813e61ef	627	LCD1; // line 1.
gatedClock	67:1d9c85a4c3c1	628	lcd.printf(" total cook time: %d",dLCDtotalCookTimeSec);
gatedClock	42:266d5bbbfd19	629
gatedClock	44:d16e813e61ef	630	LCD2; // line 2.
gatedClock	67:1d9c85a4c3c1	631	lcd.printf(" remaing cook time: %d",dCookTimeRemainingSec);
gatedClock	42:266d5bbbfd19	632
gatedClock	44:d16e813e61ef	633	LCD3; // line 3.
gatedClock	67:1d9c85a4c3c1	634	lcd.printf(" temperature : %5.3f",fLCDcelsius);
gatedClock	67:1d9c85a4c3c1	635
gatedClock	67:1d9c85a4c3c1	636	// pipeline variables.
gatedClock	67:1d9c85a4c3c1	637	dLCDtotalCookTimeSecLast = dLCDtotalCookTimeSec;
gatedClock	67:1d9c85a4c3c1	638	dCookTimeRemainingSecLast = dCookTimeRemainingSec;
gatedClock	67:1d9c85a4c3c1	639	fLCDcelsiusLast = fLCDcelsius;
gatedClock	42:266d5bbbfd19	640
gatedClock	44:d16e813e61ef	641	Thread::wait(THREAD_2_WAITmS); // multitasking.
gatedClock	44:d16e813e61ef	642	} // thread loop.
gatedClock	44:d16e813e61ef	643	} // LCDthread.
gatedClock	42:266d5bbbfd19	644	/----------------------------------------------//----------------------------/
gatedClock	71:4a5f256ecf7c	645
gatedClock	71:4a5f256ecf7c	646	/*
gatedClock	71:4a5f256ecf7c	647	struct tRemainingTime // remaining time related.
gatedClock	64:255295f1d782	648	{
gatedClock	71:4a5f256ecf7c	649	char cControl; // countdown control.
gatedClock	71:4a5f256ecf7c	650	int dTotalTime; // initialize to this.
gatedClock	71:4a5f256ecf7c	651	int dRemainingTime; // the countdown value.
gatedClock	71:4a5f256ecf7c	652	}
gatedClock	71:4a5f256ecf7c	653
gatedClock	71:4a5f256ecf7c	654	giRemainingTime.
gatedClock	66:4a0006fa5cc1	655
gatedClock	71:4a5f256ecf7c	656	#define RT_PRELOAD 0x01 // remaining-time preload.
gatedClock	71:4a5f256ecf7c	657	#define RT_DECREMENT 0x02 // remaining-time decrement.
gatedClock	71:4a5f256ecf7c	658	#define RT_PAUSE 0x03 // remaining-time don't change.
gatedClock	71:4a5f256ecf7c	659	#define RT_CLEAR 0x04 // remaining-time set to zero.
gatedClock	71:4a5f256ecf7c	660
gatedClock	71:4a5f256ecf7c	661	*/
gatedClock	71:4a5f256ecf7c	662
gatedClock	71:4a5f256ecf7c	663
gatedClock	71:4a5f256ecf7c	664
gatedClock	71:4a5f256ecf7c	665
gatedClock	71:4a5f256ecf7c	666
gatedClock	71:4a5f256ecf7c	667
gatedClock	71:4a5f256ecf7c	668	void tickCookRemainingTime(void) // cook-cycle countdown.
gatedClock	71:4a5f256ecf7c	669	{
gatedClock	71:4a5f256ecf7c	670	static int dRemainingTime = 0; // remaining time in seconds.
gatedClock	70:7c0743c28b11	671
gatedClock	76:74c454c9d75b	672
gatedClock	75:c2894d531f42	673
gatedClock	75:c2894d531f42	674	switch (giRemainingTime.cControl) // control processing.
gatedClock	71:4a5f256ecf7c	675	{
gatedClock	72:b4d0c0aa3c26	676	case RT_PRELOAD : // preload with total time.
gatedClock	71:4a5f256ecf7c	677	{
gatedClock	72:b4d0c0aa3c26	678	dRemainingTime = giRemainingTime.dTotalTime;
gatedClock	72:b4d0c0aa3c26	679	if (dRemainingTime > 180) dRemainingTime = 180;
gatedClock	72:b4d0c0aa3c26	680	if (dRemainingTime < 0) dRemainingTime = 0;
gatedClock	71:4a5f256ecf7c	681	break;
gatedClock	71:4a5f256ecf7c	682	}
gatedClock	72:b4d0c0aa3c26	683	case RT_DECREMENT : // count-down.
gatedClock	71:4a5f256ecf7c	684	{
gatedClock	72:b4d0c0aa3c26	685	dRemainingTime--;
gatedClock	72:b4d0c0aa3c26	686	if (dRemainingTime > 180) dRemainingTime = 180;
gatedClock	72:b4d0c0aa3c26	687	if (dRemainingTime < 0) dRemainingTime = 0;
gatedClock	71:4a5f256ecf7c	688	break;
gatedClock	71:4a5f256ecf7c	689	}
gatedClock	71:4a5f256ecf7c	690
gatedClock	72:b4d0c0aa3c26	691	case RT_PAUSE : // suspend countdown.
gatedClock	69:55b836e8ced7	692	{
gatedClock	72:b4d0c0aa3c26	693	dRemainingTime = dRemainingTime;
gatedClock	72:b4d0c0aa3c26	694	if (dRemainingTime > 180) dRemainingTime = 180;
gatedClock	72:b4d0c0aa3c26	695	if (dRemainingTime < 0) dRemainingTime = 0;
gatedClock	71:4a5f256ecf7c	696	break;
gatedClock	71:4a5f256ecf7c	697	}
gatedClock	71:4a5f256ecf7c	698
gatedClock	72:b4d0c0aa3c26	699	case RT_CLEAR : // clear countdown.
gatedClock	71:4a5f256ecf7c	700	{
gatedClock	76:74c454c9d75b	701	dRemainingTime = 0;
gatedClock	76:74c454c9d75b	702	led3 = 1;
gatedClock	71:4a5f256ecf7c	703	break;
gatedClock	71:4a5f256ecf7c	704	}
gatedClock	69:55b836e8ced7	705
gatedClock	72:b4d0c0aa3c26	706	default : // saturate, just in case.
gatedClock	72:b4d0c0aa3c26	707	{
gatedClock	72:b4d0c0aa3c26	708	if (dRemainingTime > 180) dRemainingTime = 180;
gatedClock	72:b4d0c0aa3c26	709	if (dRemainingTime < 0) dRemainingTime = 0;
gatedClock	72:b4d0c0aa3c26	710	}
gatedClock	75:c2894d531f42	711	} // control processing.
gatedClock	71:4a5f256ecf7c	712
gatedClock	75:c2894d531f42	713	// promote to global scope.
gatedClock	75:c2894d531f42	714	giRemainingTime.dRemainingTime = dRemainingTime;
gatedClock	70:7c0743c28b11	715
gatedClock	70:7c0743c28b11	716	} // cookRemainingTime.
gatedClock	69:55b836e8ced7	717	/----------------------------------------------//----------------------------/
gatedClock	69:55b836e8ced7	718
gatedClock	69:55b836e8ced7	719
gatedClock	69:55b836e8ced7	720
gatedClock	69:55b836e8ced7	721
gatedClock	69:55b836e8ced7	722
gatedClock	69:55b836e8ced7	723
gatedClock	69:55b836e8ced7	724
gatedClock	69:55b836e8ced7	725
gatedClock	69:55b836e8ced7	726
gatedClock	69:55b836e8ced7	727
gatedClock	69:55b836e8ced7	728

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	30 Aug 2013
Imports:	3
Forks:	0
Commits:	127
Dependents:	0
Dependencies:	4
Followers:	1

The code in this repository is Apache licensed.

main.cpp@84:fee8fb80d190, 2013-09-12 (annotated)

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