TAU_ReSpeaker_DSP_V01 - Tau ReSpeaker Setup V01

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Tau ReSpeaker Setup V01

Fork of TAU_ReSpeaker_DSP_Test by Yossi_Students

main.cpp@6:e8b4ca41c691, 2018-08-06 (annotated)

Committer:: Arkadi
Date:: Mon Aug 06 09:34:45 2018 +0000
Revision:: 6:e8b4ca41c691
Parent:: 5:ec6f2323a263
Child:: 7:25c81cb23e42

Minor changes Trigger mode bug fix

Who changed what in which revision?

User	Revision	Line number	New contents of line
Arkadi	0:bfac05b2d50f	1	////////////////////////////////////////
Arkadi	1:574b54755983	2	// Tau_ReSpeaker_DSP V01 //
Arkadi	5:ec6f2323a263	3	// Arkadiraf@gmail.com - 09/04/2018 //
Arkadi	0:bfac05b2d50f	4	////////////////////////////////////////
Arkadi	0:bfac05b2d50f	5	/*
Arkadi	5:ec6f2323a263	6	Json Format: json:{"name":"dsp","mode":"off"}\r\n
Arkadi	2:59c1a24aed7c	7	*/
Arkadi	1:574b54755983	8
Arkadi	3:48258b86e182	9
Arkadi	0:bfac05b2d50f	10
Arkadi	0:bfac05b2d50f	11	/*
Arkadi	0:bfac05b2d50f	12	Board : Nucleo STM32F446RE
Arkadi	0:bfac05b2d50f	13	Power Source : USB
Arkadi	0:bfac05b2d50f	14	*/
Arkadi	0:bfac05b2d50f	15
Arkadi	0:bfac05b2d50f	16	/*
Arkadi	0:bfac05b2d50f	17	Pinout:
Arkadi	0:bfac05b2d50f	18	PC - Serial 2
Arkadi	0:bfac05b2d50f	19	PA_2 (Tx) --> STLINK
Arkadi	0:bfac05b2d50f	20	PA_3 (Rx) --> STLINK
Arkadi	0:bfac05b2d50f	21
Arkadi	0:bfac05b2d50f	22	Switch - Serial 3
Arkadi	0:bfac05b2d50f	23	PC_10 (Tx) --> SW_Rx
Arkadi	0:bfac05b2d50f	24	PC_11 (Rx) --> SW_Tx
Arkadi	0:bfac05b2d50f	25
Arkadi	0:bfac05b2d50f	26	I2C_Bus
Arkadi	0:bfac05b2d50f	27	PB_8 --> SCL
Arkadi	0:bfac05b2d50f	28	PB_9 --> SDA
Arkadi	0:bfac05b2d50f	29
Arkadi	0:bfac05b2d50f	30	Digital output
Arkadi	0:bfac05b2d50f	31	PA_5 --> led (DigitalOut)
Arkadi	0:bfac05b2d50f	32
Arkadi	0:bfac05b2d50f	33	Digital Input
Arkadi	0:bfac05b2d50f	34	PA_10 --> SW_Trigger
Arkadi	0:bfac05b2d50f	35	PC_13 --> BTN (Blue)
Arkadi	0:bfac05b2d50f	36
Arkadi	1:574b54755983	37	PA_6 --> Toggle Pin (Loop Freq D12)
Arkadi	1:574b54755983	38
Arkadi	0:bfac05b2d50f	39	Analog Input
Arkadi	1:574b54755983	40	PA_0 --> SIG_IN_DSP (A0)
Arkadi	0:bfac05b2d50f	41
Arkadi	0:bfac05b2d50f	42	Analog Output
Arkadi	1:574b54755983	43	PA_4 --> SIG_OUT_DSP (A2)
Arkadi	0:bfac05b2d50f	44
Arkadi	0:bfac05b2d50f	45	*/
Arkadi	0:bfac05b2d50f	46
Arkadi	0:bfac05b2d50f	47	///////////////
Arkadi	0:bfac05b2d50f	48	// Libraries //
Arkadi	0:bfac05b2d50f	49	///////////////
Arkadi	0:bfac05b2d50f	50	#include "mbed.h"
Arkadi	1:574b54755983	51	#include "MbedJSONValue.h"
Arkadi	0:bfac05b2d50f	52
Arkadi	0:bfac05b2d50f	53	///////////////
Arkadi	0:bfac05b2d50f	54	// #defines //
Arkadi	0:bfac05b2d50f	55	///////////////
Arkadi	1:574b54755983	56	// UART debug modes:
Arkadi	1:574b54755983	57	//#define DEBUG_MOD1 // json packet recognise
Arkadi	1:574b54755983	58	#define DEBUG_MOD2 // json parse
Arkadi	1:574b54755983	59	#define DEBUG_MOD3 // dsp handler
Arkadi	5:ec6f2323a263	60	#define DEBUG_MOD10 // responsivity msges to gui
Arkadi	6:e8b4ca41c691	61	#define DEBUG_MOD11 // loop frequency indicator
Arkadi	0:bfac05b2d50f	62	// Sine generator
Arkadi	1:574b54755983	63	#define PI_DOUBLE (3.141592653589793238462)
Arkadi	1:574b54755983	64	#define PI_FLOAT (3.14159f)
Arkadi	1:574b54755983	65
Arkadi	1:574b54755983	66	// json commad
Arkadi	1:574b54755983	67	#define MSG_BUFFER_SIZE 512
Arkadi	1:574b54755983	68	#define HEADER_SIZE 5
Arkadi	1:574b54755983	69	#define FOOTER_SIZE 2
Arkadi	0:bfac05b2d50f	70
Arkadi	0:bfac05b2d50f	71	/////////////
Arkadi	0:bfac05b2d50f	72	// Objects //
Arkadi	0:bfac05b2d50f	73	/////////////
Arkadi	1:574b54755983	74	// json
Arkadi	1:574b54755983	75	MbedJSONValue guiCmd;
Arkadi	0:bfac05b2d50f	76
Arkadi	0:bfac05b2d50f	77	// uart
Arkadi	1:574b54755983	78	Serial pc(USBTX, USBRX);
Arkadi	0:bfac05b2d50f	79
Arkadi	2:59c1a24aed7c	80	// uart switch_dsp
Arkadi	2:59c1a24aed7c	81	Serial switch_dsp(PC_10, PC_11);
Arkadi	2:59c1a24aed7c	82
Arkadi	0:bfac05b2d50f	83	// digital
Arkadi	0:bfac05b2d50f	84	DigitalIn user_button(PC_13);
Arkadi	0:bfac05b2d50f	85	DigitalIn sw_trigger(PA_10);
Arkadi	0:bfac05b2d50f	86	DigitalOut led(PA_5);
Arkadi	1:574b54755983	87	DigitalOut mytoggle(PA_6);
Arkadi	0:bfac05b2d50f	88
Arkadi	1:574b54755983	89	// analog / define to init at mbed initialization. work directly with registers
Arkadi	0:bfac05b2d50f	90	AnalogOut dsp_output(PA_4);
Arkadi	0:bfac05b2d50f	91	AnalogIn dsp_input(PA_0);
Arkadi	0:bfac05b2d50f	92
Arkadi	1:574b54755983	93
Arkadi	1:574b54755983	94	// ADC/DAC declarations
Arkadi	1:574b54755983	95	ADC_HandleTypeDef hadc1;
Arkadi	1:574b54755983	96	DAC_HandleTypeDef hdac1;
Arkadi	1:574b54755983	97
Arkadi	0:bfac05b2d50f	98	///////////////
Arkadi	0:bfac05b2d50f	99	// variables //
Arkadi	0:bfac05b2d50f	100	///////////////
Arkadi	0:bfac05b2d50f	101
Arkadi	1:574b54755983	102	// json buffer
Arkadi	1:574b54755983	103	char json[MSG_BUFFER_SIZE];
Arkadi	1:574b54755983	104
Arkadi	1:574b54755983	105	// packet variables
Arkadi	1:574b54755983	106	struct packetMSG_struct {
Arkadi	1:574b54755983	107	// recieve message variables
Arkadi	1:574b54755983	108	uint8_t header[HEADER_SIZE];
Arkadi	1:574b54755983	109	uint8_t footer[FOOTER_SIZE];
Arkadi	1:574b54755983	110	uint8_t syncIndex; // sync index for header / footer
Arkadi	1:574b54755983	111	uint8_t syncFlag; // 0 - waiting for header, 1 - waiting for footer, 2 - verify footer, 3 - finish footer send to parser, flash buffer
Arkadi	1:574b54755983	112	// buffer
Arkadi	1:574b54755983	113	uint16_t bufferIndex; // buffer index
Arkadi	1:574b54755983	114	uint8_t buffer[MSG_BUFFER_SIZE];
Arkadi	1:574b54755983	115	} ;
Arkadi	1:574b54755983	116	packetMSG_struct packetMSG;
Arkadi	1:574b54755983	117
Arkadi	1:574b54755983	118
Arkadi	1:574b54755983	119	// Dac Register for direct method of setting DAC value`s
Arkadi	1:574b54755983	120	__IO uint32_t Dac_Reg = 0;
Arkadi	1:574b54755983	121
Arkadi	0:bfac05b2d50f	122	// analog input
Arkadi	0:bfac05b2d50f	123	uint16_t adc_in=0;
Arkadi	0:bfac05b2d50f	124
Arkadi	1:574b54755983	125	// toogle pin state
Arkadi	1:574b54755983	126	bool toggelState=0;
Arkadi	1:574b54755983	127
Arkadi	1:574b54755983	128	// create function pointer
Arkadi	1:574b54755983	129	typedef void(*functionPtr)(void);
Arkadi	1:574b54755983	130	functionPtr FilterFunction;
Arkadi	1:574b54755983	131
Arkadi	3:48258b86e182	132	// alternative functuin selection (faster mcu process)
Arkadi	5:ec6f2323a263	133	volatile uint8_t operationMode = 1;
Arkadi	4:59319802012b	134	// 0 - off
Arkadi	4:59319802012b	135	// 1 - passthrough - no filter
Arkadi	4:59319802012b	136	// 2 - highpass - High Pass filter
Arkadi	4:59319802012b	137	// 3 - hpf_trig - High Pass filter + Trigger mode
Arkadi	3:48258b86e182	138
Arkadi	5:ec6f2323a263	139
Arkadi	5:ec6f2323a263	140	// Trigger mode variables
Arkadi	5:ec6f2323a263	141	float trigTresh = 0.75; // threshold for trigger mode
Arkadi	5:ec6f2323a263	142	uint32_t trigDelaySet = 3000; // counter for pulse pass
Arkadi	5:ec6f2323a263	143	uint32_t trigDelay = trigDelaySet; // counter for pulse pass
Arkadi	5:ec6f2323a263	144	uint32_t trigPause = 5000; // pause after trigger in microseconds
Arkadi	5:ec6f2323a263	145
Arkadi	0:bfac05b2d50f	146	///////////////
Arkadi	0:bfac05b2d50f	147	// Functions //
Arkadi	0:bfac05b2d50f	148	///////////////
Arkadi	0:bfac05b2d50f	149
Arkadi	1:574b54755983	150	// init functions header //hadc1 needs to be defined preiod #incude
Arkadi	1:574b54755983	151	#include "adc_init.h" // initialize adc/dac directly for continious sample
Arkadi	1:574b54755983	152	#include "filters.h"
Arkadi	1:574b54755983	153
Arkadi	1:574b54755983	154	// nop operation
Arkadi	1:574b54755983	155	inline void NOP()
Arkadi	1:574b54755983	156	{
Arkadi	1:574b54755983	157	__ASM volatile ("nop"); // one tick operation, Use to adjust frequency by slowing down the proccess
Arkadi	1:574b54755983	158	}
Arkadi	1:574b54755983	159
Arkadi	1:574b54755983	160	// Serial Event function
Arkadi	1:574b54755983	161	void rxCallback(void);
Arkadi	1:574b54755983	162
Arkadi	1:574b54755983	163	// initialize packet struct
Arkadi	1:574b54755983	164	void initPacket(void);
Arkadi	1:574b54755983	165
Arkadi	1:574b54755983	166	// Packet Parser
Arkadi	1:574b54755983	167	void parsePacket(void);
Arkadi	1:574b54755983	168
Arkadi	1:574b54755983	169	// DSP Packet Handler
Arkadi	1:574b54755983	170	void dspPacket(void);
Arkadi	1:574b54755983	171
Arkadi	1:574b54755983	172	// initialize DSP
Arkadi	1:574b54755983	173	void initDSP(void);
Arkadi	0:bfac05b2d50f	174
Arkadi	0:bfac05b2d50f	175	////////////////////////
Arkadi	0:bfac05b2d50f	176	// Main Code Setup : //
Arkadi	0:bfac05b2d50f	177	////////////////////////
Arkadi	0:bfac05b2d50f	178	int main()
Arkadi	0:bfac05b2d50f	179	{
Arkadi	1:574b54755983	180	// init packet:
Arkadi	1:574b54755983	181	initPacket();
Arkadi	1:574b54755983	182
Arkadi	1:574b54755983	183	// initialize DSP
Arkadi	1:574b54755983	184	initDSP();
Arkadi	1:574b54755983	185
Arkadi	0:bfac05b2d50f	186	pc.baud(57600);
Arkadi	2:59c1a24aed7c	187	switch_dsp.baud(57600);
Arkadi	2:59c1a24aed7c	188
Arkadi	2:59c1a24aed7c	189
Arkadi	2:59c1a24aed7c	190	// pc is used for debbuging, in application mode the commands are from the switch_dsp.
Arkadi	1:574b54755983	191	// attach serial event interrupt
Arkadi	1:574b54755983	192	pc.attach(&rxCallback, Serial::RxIrq);
Arkadi	2:59c1a24aed7c	193
Arkadi	2:59c1a24aed7c	194	// attach serial event interrupt
Arkadi	2:59c1a24aed7c	195	switch_dsp.attach(&rxCallback, Serial::RxIrq);
Arkadi	2:59c1a24aed7c	196
Arkadi	0:bfac05b2d50f	197	#ifdef DEBUG_MOD1
Arkadi	0:bfac05b2d50f	198	pc.printf("ReSpeaker Test \r\n");
Arkadi	0:bfac05b2d50f	199	#endif
Arkadi	0:bfac05b2d50f	200
Arkadi	0:bfac05b2d50f	201	///////////////////////
Arkadi	0:bfac05b2d50f	202	// Main Code Loop : //
Arkadi	0:bfac05b2d50f	203	///////////////////////
Arkadi	0:bfac05b2d50f	204	while(1) {
Arkadi	1:574b54755983	205	// run selected filter
Arkadi	3:48258b86e182	206	if (operationMode == 0) {
Arkadi	4:59319802012b	207	offMode();
Arkadi	3:48258b86e182	208	} else if (operationMode == 1) {
Arkadi	4:59319802012b	209	passthrough();
Arkadi	4:59319802012b	210	} else if (operationMode == 2) {
Arkadi	4:59319802012b	211	highpass();
Arkadi	4:59319802012b	212	} else if (operationMode == 3) {
Arkadi	4:59319802012b	213	highpassTrig();
Arkadi	3:48258b86e182	214	}
Arkadi	4:59319802012b	215	//highpass_filter();
Arkadi	3:48258b86e182	216	// more elegant but much slower option:
Arkadi	3:48258b86e182	217	//FilterFunction();
Arkadi	1:574b54755983	218	#ifdef DEBUG_MOD11
Arkadi	1:574b54755983	219	// toggle pin, Loop frequency indicator
Arkadi	1:574b54755983	220	toggelState=!toggelState;
Arkadi	1:574b54755983	221	mytoggle.write(toggelState);
Arkadi	1:574b54755983	222	#endif
Arkadi	3:48258b86e182	223	} // end loop
Arkadi	3:48258b86e182	224	} // end main
Arkadi	0:bfac05b2d50f	225
Arkadi	0:bfac05b2d50f	226	///////////////
Arkadi	0:bfac05b2d50f	227	// Functions //
Arkadi	0:bfac05b2d50f	228	///////////////
Arkadi	0:bfac05b2d50f	229
Arkadi	1:574b54755983	230	// initialize DSP
Arkadi	1:574b54755983	231	void initDSP(void)
Arkadi	1:574b54755983	232	{
Arkadi	1:574b54755983	233	// init dac
Arkadi	1:574b54755983	234	ADC1_Init();
Arkadi	1:574b54755983	235	DAC1_Init();
Arkadi	1:574b54755983	236
Arkadi	1:574b54755983	237	HAL_ADC_Start(&hadc1);
Arkadi	1:574b54755983	238	HAL_DAC_Start(&hdac1, DAC_CHANNEL_1);
Arkadi	1:574b54755983	239
Arkadi	1:574b54755983	240	// define Dac Register for direct method of setting DAC value`s
Arkadi	1:574b54755983	241	Dac_Reg = (uint32_t) (hdac1.Instance);
Arkadi	1:574b54755983	242	Dac_Reg += __HAL_DHR12R1_ALIGNEMENT(DAC_ALIGN_12B_R);
Arkadi	1:574b54755983	243
Arkadi	1:574b54755983	244	// intialize filter function pointer
Arkadi	5:ec6f2323a263	245	FilterFunction = passthrough;//highpass_filter;
Arkadi	6:e8b4ca41c691	246	operationMode = 0 ;
Arkadi	1:574b54755983	247	}
Arkadi	1:574b54755983	248
Arkadi	1:574b54755983	249	// Serial Event function
Arkadi	1:574b54755983	250	void rxCallback(void)
Arkadi	0:bfac05b2d50f	251	{
Arkadi	2:59c1a24aed7c	252	while ((pc.readable()) \|\| (switch_dsp.readable())) {
Arkadi	1:574b54755983	253	// read icoming
Arkadi	2:59c1a24aed7c	254	uint8_t in_byte=0;
Arkadi	1:574b54755983	255	//led = !led;
Arkadi	2:59c1a24aed7c	256	if (pc.readable()) {
Arkadi	2:59c1a24aed7c	257	in_byte = pc.getc();
Arkadi	2:59c1a24aed7c	258	} else if (switch_dsp.readable()) {
Arkadi	2:59c1a24aed7c	259	in_byte = switch_dsp.getc();
Arkadi	2:59c1a24aed7c	260	}
Arkadi	1:574b54755983	261	#ifdef DEBUG_MOD1
Arkadi	1:574b54755983	262	pc.putc(in_byte);
Arkadi	1:574b54755983	263	#endif
Arkadi	1:574b54755983	264	// detect start message , end message
Arkadi	1:574b54755983	265	switch (packetMSG.syncFlag) {
Arkadi	1:574b54755983	266	// waiting for header
Arkadi	1:574b54755983	267	case 0: {
Arkadi	1:574b54755983	268	if (packetMSG.header[packetMSG.syncIndex] == in_byte) {
Arkadi	1:574b54755983	269	packetMSG.syncIndex++;
Arkadi	1:574b54755983	270	if (packetMSG.syncIndex == HEADER_SIZE) { // finish header SYNC
Arkadi	1:574b54755983	271	packetMSG.syncFlag = 1; // start collecting data, wait for footer
Arkadi	1:574b54755983	272	packetMSG.bufferIndex = 0;
Arkadi	1:574b54755983	273	packetMSG.syncIndex=0;
Arkadi	1:574b54755983	274	}
Arkadi	1:574b54755983	275	} else { // reinit sync
Arkadi	1:574b54755983	276	packetMSG.syncIndex=0;
Arkadi	1:574b54755983	277	}
Arkadi	1:574b54755983	278	//pc.printf("case 0 , %d \r\n",packetMSG.syncIndex);
Arkadi	1:574b54755983	279	break;
Arkadi	1:574b54755983	280	}
Arkadi	1:574b54755983	281	// waiting for footer
Arkadi	1:574b54755983	282	case 1: {
Arkadi	1:574b54755983	283	// add byte to buffer
Arkadi	1:574b54755983	284	packetMSG.buffer[packetMSG.bufferIndex] = in_byte;
Arkadi	1:574b54755983	285	packetMSG.bufferIndex++;
Arkadi	1:574b54755983	286	if (packetMSG.bufferIndex >= MSG_BUFFER_SIZE) { // buffer overflow
Arkadi	1:574b54755983	287	// reset buffer
Arkadi	1:574b54755983	288	packetMSG.bufferIndex = 0;
Arkadi	1:574b54755983	289	packetMSG.syncIndex = 0;
Arkadi	1:574b54755983	290	packetMSG.syncFlag = 0;
Arkadi	1:574b54755983	291	} else if (packetMSG.footer[packetMSG.syncIndex] == in_byte) { // footer char recieved
Arkadi	1:574b54755983	292	packetMSG.syncIndex++;
Arkadi	1:574b54755983	293	packetMSG.syncFlag=2; // move to verify footer
Arkadi	1:574b54755983	294	}
Arkadi	1:574b54755983	295	//pc.printf("case 2 , %d \r\n",packetMSG.syncIndex);
Arkadi	1:574b54755983	296	break;
Arkadi	1:574b54755983	297	}
Arkadi	1:574b54755983	298	// verify footer
Arkadi	1:574b54755983	299	case 2: {
Arkadi	1:574b54755983	300	// add byte to buffer
Arkadi	1:574b54755983	301	packetMSG.buffer[packetMSG.bufferIndex] = in_byte;
Arkadi	1:574b54755983	302	packetMSG.bufferIndex++;
Arkadi	1:574b54755983	303	if (packetMSG.bufferIndex >= MSG_BUFFER_SIZE) { // buffer overflow
Arkadi	1:574b54755983	304	// reset buffer
Arkadi	1:574b54755983	305	packetMSG.bufferIndex = 0;
Arkadi	1:574b54755983	306	packetMSG.syncIndex = 0;
Arkadi	1:574b54755983	307	packetMSG.syncFlag = 0;
Arkadi	1:574b54755983	308	} else if (packetMSG.footer[packetMSG.syncIndex] == in_byte) { // footer char recieved
Arkadi	1:574b54755983	309	packetMSG.syncIndex++;
Arkadi	1:574b54755983	310	if (packetMSG.syncIndex == FOOTER_SIZE) { // finish footer SYNC
Arkadi	1:574b54755983	311	packetMSG.syncFlag = 3;
Arkadi	1:574b54755983	312	// copy packet to json buffer
Arkadi	1:574b54755983	313	memcpy (&json, &packetMSG.buffer, packetMSG.bufferIndex);
Arkadi	1:574b54755983	314	json[packetMSG.bufferIndex]=NULL; // end with NULL to indicate end of string
Arkadi	1:574b54755983	315	// copy packet to json buffer with sprintf
Arkadi	1:574b54755983	316	//sprintf(json, "%.*s", packetMSG.bufferIndex, packetMSG.buffer );
Arkadi	1:574b54755983	317	// send msg to parse.
Arkadi	1:574b54755983	318	parsePacket();
Arkadi	1:574b54755983	319	// reset buffer
Arkadi	1:574b54755983	320	packetMSG.bufferIndex = 0;
Arkadi	1:574b54755983	321	packetMSG.syncIndex = 0;
Arkadi	1:574b54755983	322	packetMSG.syncFlag = 0;
Arkadi	1:574b54755983	323	}
Arkadi	1:574b54755983	324	} else { // footer broke restart wait for footer
Arkadi	1:574b54755983	325	packetMSG.syncFlag=1;
Arkadi	1:574b54755983	326	// verify that it didnt broke on first footer char
Arkadi	1:574b54755983	327	if (packetMSG.footer[0] == in_byte) {
Arkadi	1:574b54755983	328	packetMSG.syncIndex=1;
Arkadi	1:574b54755983	329	} else {
Arkadi	1:574b54755983	330	packetMSG.syncIndex=0;
Arkadi	1:574b54755983	331	}
Arkadi	1:574b54755983	332	}
Arkadi	1:574b54755983	333	break;
Arkadi	1:574b54755983	334	}
Arkadi	1:574b54755983	335	default: {
Arkadi	1:574b54755983	336	pc.printf("Sonmething went wrong \r\n");
Arkadi	1:574b54755983	337	break;
Arkadi	1:574b54755983	338	}
Arkadi	1:574b54755983	339	} // end switch
Arkadi	1:574b54755983	340	}// end uart readable
Arkadi	1:574b54755983	341	} // end rxCallback
Arkadi	1:574b54755983	342
Arkadi	1:574b54755983	343	// initialize packet struct
Arkadi	1:574b54755983	344	void initPacket(void)
Arkadi	1:574b54755983	345	{
Arkadi	1:574b54755983	346	// init variables to default:
Arkadi	1:574b54755983	347	packetMSG.header[0] = 'j';
Arkadi	1:574b54755983	348	packetMSG.header[1] = 's';
Arkadi	1:574b54755983	349	packetMSG.header[2] = 'o';
Arkadi	1:574b54755983	350	packetMSG.header[3] = 'n';
Arkadi	1:574b54755983	351	packetMSG.header[4] = ':';
Arkadi	1:574b54755983	352
Arkadi	1:574b54755983	353	packetMSG.footer[0]= 13; // /r
Arkadi	1:574b54755983	354	packetMSG.footer[1]= 10; // /n
Arkadi	1:574b54755983	355
Arkadi	1:574b54755983	356	packetMSG.syncIndex=0; // sync index for header / footer
Arkadi	1:574b54755983	357	packetMSG.syncFlag=0; // 0 - waiting for header, 1 - waiting for footer, 2 - verify footer, 3 - finish footer send to parser, flash buffer
Arkadi	1:574b54755983	358	packetMSG.bufferIndex=0; // buffer index
Arkadi	1:574b54755983	359	}// end init Packet struct
Arkadi	1:574b54755983	360
Arkadi	1:574b54755983	361
Arkadi	1:574b54755983	362
Arkadi	1:574b54755983	363	// Packet Parser
Arkadi	1:574b54755983	364	void parsePacket(void)
Arkadi	1:574b54755983	365	{
Arkadi	1:574b54755983	366	string targetName;
Arkadi	1:574b54755983	367	#ifdef DEBUG_MOD2
Arkadi	1:574b54755983	368	// write buffer to screen
Arkadi	1:574b54755983	369	//pc.printf("%d, %.*s", packetMSG.bufferIndex ,packetMSG.bufferIndex, packetMSG.buffer );
Arkadi	1:574b54755983	370	pc.printf("%s", json);
Arkadi	1:574b54755983	371	#endif
Arkadi	1:574b54755983	372
Arkadi	1:574b54755983	373	// GUI message format Switch: {"name":"switch","mic":0, "spk": [0,1,0,0,0]}
Arkadi	1:574b54755983	374	parse(guiCmd, json);
Arkadi	1:574b54755983	375
Arkadi	1:574b54755983	376	// get target:
Arkadi	1:574b54755983	377	targetName = guiCmd["name"].get<string>(); // switch / dsp
Arkadi	1:574b54755983	378
Arkadi	1:574b54755983	379	#ifdef DEBUG_MOD2
Arkadi	1:574b54755983	380	// send parsed values
Arkadi	1:574b54755983	381	pc.printf("targetName: %s \r\n", targetName.c_str());
Arkadi	1:574b54755983	382	#endif
Arkadi	1:574b54755983	383
Arkadi	1:574b54755983	384	// select handler based on target mcu
Arkadi	1:574b54755983	385	if (targetName == "dsp") {
Arkadi	1:574b54755983	386	dspPacket();
Arkadi	1:574b54755983	387	} else {
Arkadi	1:574b54755983	388	#ifdef DEBUG_MOD2
Arkadi	1:574b54755983	389	// unrecognised target
Arkadi	1:574b54755983	390	pc.printf("unrecognised target: %s \r\n", targetName.c_str());
Arkadi	1:574b54755983	391	#endif
Arkadi	0:bfac05b2d50f	392	}
Arkadi	1:574b54755983	393	// led blink
Arkadi	1:574b54755983	394	led = !led;
Arkadi	1:574b54755983	395	}// end parse
Arkadi	1:574b54755983	396
Arkadi	1:574b54755983	397	// DSP Packet Handler
Arkadi	1:574b54755983	398	void dspPacket(void)
Arkadi	1:574b54755983	399	{
Arkadi	1:574b54755983	400	string modeType;
Arkadi	4:59319802012b	401	// get operation mode
Arkadi	1:574b54755983	402	modeType = guiCmd["mode"].get<string>();
Arkadi	1:574b54755983	403
Arkadi	1:574b54755983	404	#ifdef DEBUG_MOD10
Arkadi	1:574b54755983	405	// send parsed values
Arkadi	4:59319802012b	406	pc.printf("mode: %s\r\n", modeType.c_str());
Arkadi	4:59319802012b	407	switch_dsp.printf("mode: %s\r\n", modeType.c_str());
Arkadi	1:574b54755983	408	#endif
Arkadi	1:574b54755983	409	// selected operation mode
Arkadi	4:59319802012b	410	if ( modeType == "off" ) {
Arkadi	4:59319802012b	411	FilterFunction = offMode;
Arkadi	3:48258b86e182	412	operationMode = 0 ;
Arkadi	4:59319802012b	413	} else if( modeType == "passthrough" ) {
Arkadi	4:59319802012b	414	FilterFunction = passthrough;
Arkadi	3:48258b86e182	415	operationMode = 1 ;
Arkadi	4:59319802012b	416	}else if( modeType == "highpass" ) {
Arkadi	4:59319802012b	417	FilterFunction = highpass;
Arkadi	4:59319802012b	418	operationMode = 2 ;
Arkadi	4:59319802012b	419	}else if( modeType == "hpf_trig" ) {
Arkadi	4:59319802012b	420	FilterFunction = highpassTrig;
Arkadi	4:59319802012b	421	operationMode = 3 ;
Arkadi	1:574b54755983	422	} else {
Arkadi	4:59319802012b	423	switch_dsp.printf("undefined mode %s \r\n", modeType.c_str());
Arkadi	4:59319802012b	424	FilterFunction = offMode;
Arkadi	3:48258b86e182	425	operationMode = 0 ;
Arkadi	1:574b54755983	426	}
Arkadi	1:574b54755983	427
Arkadi	1:574b54755983	428	}// end dspPacket

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	11 Feb 2018
Imports:	2
Forks:	0
Commits:	13
Dependents:	0
Dependencies:	2
Followers:	6

main.cpp@6:e8b4ca41c691, 2018-08-06 (annotated)

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