Miisu - Six crescent shaped legs

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Six crescent shaped legs

main.cpp@45:409988ab53e4, 2016-06-21 (annotated)

Committer:: phairero
Date:: Tue Jun 21 10:56:08 2016 +0000
Revision:: 45:409988ab53e4
Parent:: 44:c2acf8d5e191
Child:: 46:49f3da891e24

Kinda sorta works walking and turning, RF problems

Who changed what in which revision?

User	Revision	Line number	New contents of line
phairero	0:0b7259fdb68a	1	#include "mbed.h"
sim642	3:2235787e78c4	2	#include "EncoderMotor.hpp"
phairero	0:0b7259fdb68a	3
phairero	0:0b7259fdb68a	4	InterruptIn bt(USER_BUTTON);
phairero	30:476ab400d765	5	Serial pc(PA_0, PA_1); //RF
phairero	30:476ab400d765	6	//Serial pc(SERIAL_TX, SERIAL_RX);
phairero	26:c865244ca3cf	7	//Serial pc(USBTX, USBRX);
sim642	2:cf0147952fb9	8
sim642	23:d844cc906b66	9	//PIDData speedPIDData = {0.3f, 2.0f, 0.02f};
sim642	23:d844cc906b66	10	//PIDData turnPIDData = {5.0f, 0.1f, 0.04f};
sim642	23:d844cc906b66	11	PIDData speedPIDData = {0.5f, 0.0f, 0.0f};
phairero	26:c865244ca3cf	12	PIDData turnPIDData = {30.0f, 0.01f, 1.0f};
sim642	27:24a9ac72fe92	13
sim642	27:24a9ac72fe92	14	/*
sim642	27:24a9ac72fe92	15	PWM timer channel
sim642	27:24a9ac72fe92	16	M1 1 2N
sim642	27:24a9ac72fe92	17	M2 4 2
sim642	27:24a9ac72fe92	18	M3 2 1
sim642	27:24a9ac72fe92	19	M4 4 4
sim642	27:24a9ac72fe92	20	M5 1 3N
sim642	27:24a9ac72fe92	21	M6 2 2
sim642	27:24a9ac72fe92	22	*/
phairero	26:c865244ca3cf	23
phairero	26:c865244ca3cf	24	// 1
sim642	39:e35a99801ec1	25	MotorData m1Data = {PB_0, PA_4, PC_0}; //PWM, Dir1, Dir2
sim642	39:e35a99801ec1	26	EncoderData enc1Data = {PC_3, PC_1, 102.083 * 64}; //EncA, encB // https://www.pololu.com/product/2826
sim642	41:8ce8a3a47a92	27	EncoderMotor m1(m1Data, enc1Data, speedPIDData, turnPIDData);
phairero	32:9db688917ca3	28	DigitalIn s1(PA_8);
phairero	26:c865244ca3cf	29	// 2
sim642	39:e35a99801ec1	30	MotorData m2Data = {PB_7, PA_6, PB_9}; //PB7 = fault dir2 oli enne PC13
sim642	39:e35a99801ec1	31	EncoderData enc2Data = {PC_14, PC_15, 102.083 * 64};
sim642	41:8ce8a3a47a92	32	EncoderMotor m2(m2Data, enc2Data, speedPIDData, turnPIDData);
phairero	32:9db688917ca3	33	DigitalIn s2(PH_1);
phairero	26:c865244ca3cf	34	// 3
sim642	35:bce9ac485178	35	MotorData m3Data = {PA_15, PC_12, PC_10};
sim642	35:bce9ac485178	36	EncoderData enc3Data = {PC_11, PA_9, 102.083 * 64}; //B oli varem PA_13
sim642	41:8ce8a3a47a92	37	EncoderMotor m3(m3Data, enc3Data, speedPIDData, turnPIDData);
phairero	32:9db688917ca3	38	DigitalIn s3(PA_14);
phairero	26:c865244ca3cf	39	// 4
phairero	26:c865244ca3cf	40	MotorData m4Data = {PB_8, PC_6, PC_9};
phairero	26:c865244ca3cf	41	EncoderData enc4Data = {PC_5, PA_12, 102.083 * 64};
sim642	41:8ce8a3a47a92	42	EncoderMotor m4(m4Data, enc4Data, speedPIDData, turnPIDData);
phairero	32:9db688917ca3	43	DigitalIn s4(PA_11);
phairero	26:c865244ca3cf	44	// 5
phairero	26:c865244ca3cf	45	MotorData m5Data = {PB_15, PB_1, PB_2};
phairero	33:ad2ebe22f8dd	46	EncoderData enc5Data = {PC_7, PB_6, 102.083 * 64}; //B oli varem PB_13, A oli varem PB_14
sim642	41:8ce8a3a47a92	47	EncoderMotor m5(m5Data, enc5Data, speedPIDData, turnPIDData);
phairero	32:9db688917ca3	48	DigitalIn s5(PC_4);
phairero	26:c865244ca3cf	49	// 6
sim642	39:e35a99801ec1	50	MotorData m6Data = {PB_3, PA_7, PB_5}; //PA_2 = TX; PA_3 (m6-fault) = RX DIR2 oli enne PA2
sim642	39:e35a99801ec1	51	EncoderData enc6Data = {PB_4, PA_10, 102.083 * 64};
sim642	41:8ce8a3a47a92	52	EncoderMotor m6(m6Data, enc6Data, speedPIDData, turnPIDData);
phairero	32:9db688917ca3	53	DigitalIn s6(PB_10);
sim642	35:bce9ac485178	54
phairero	30:476ab400d765	55	const int MOTORS = 6;
phairero	30:476ab400d765	56	EncoderMotor* ms[MOTORS] = {&m1, &m2, &m3, &m4, &m5, &m6};
phairero	32:9db688917ca3	57	DigitalIn ss[MOTORS] = {s1, s2, s3, s4, s5, s6};
sim642	35:bce9ac485178	58
phairero	43:0627a2245b9d	59	float volatile speed;
phairero	43:0627a2245b9d	60
phairero	43:0627a2245b9d	61	int volatile dir;
phairero	43:0627a2245b9d	62
phairero	43:0627a2245b9d	63	int volatile turn;
phairero	43:0627a2245b9d	64
sim642	27:24a9ac72fe92	65	Ticker ticker;
sim642	27:24a9ac72fe92	66
sim642	2:cf0147952fb9	67	void rise()
sim642	2:cf0147952fb9	68	{
sim642	24:fb1827be6f7e	69	//pc.printf("rise\n");
sim642	28:fd21faad6dd8	70	//m1.drive(0);
phairero	36:906323851366	71	//mod = mod*(-1);
sim642	2:cf0147952fb9	72	}
phairero	0:0b7259fdb68a	73
sim642	2:cf0147952fb9	74	void fall()
sim642	2:cf0147952fb9	75	{
sim642	24:fb1827be6f7e	76	//pc.printf("fall\n");
sim642	28:fd21faad6dd8	77	//m1.drive(0.25);
sim642	2:cf0147952fb9	78	}
phairero	1:8b0322a353f4	79
sim642	27:24a9ac72fe92	80	void tick()
sim642	27:24a9ac72fe92	81	{
sim642	28:fd21faad6dd8	82	for (int i = 0; i < MOTORS; i++)
sim642	28:fd21faad6dd8	83	ms[i]->tick();
sim642	27:24a9ac72fe92	84	}
sim642	27:24a9ac72fe92	85
sim642	27:24a9ac72fe92	86	const float tickTime = 1.f / 60;
sim642	27:24a9ac72fe92	87
sim642	37:8021b3ce241a	88	void waitAllRotate()
sim642	37:8021b3ce241a	89	{
sim642	37:8021b3ce241a	90	tick();
sim642	37:8021b3ce241a	91
sim642	37:8021b3ce241a	92	float sum;
sim642	37:8021b3ce241a	93	do {
sim642	37:8021b3ce241a	94	sum = 0;
sim642	37:8021b3ce241a	95	for (int i = 0; i < MOTORS; i++)
sim642	37:8021b3ce241a	96	sum += abs(ms[i]->errorTurn);
phairero	45:409988ab53e4	97
phairero	45:409988ab53e4	98	pc.printf("%.2f %d%d\n",speed,dir,turn);
phairero	43:0627a2245b9d	99	//pc.printf("%f\n",sum);
sim642	37:8021b3ce241a	100	}
sim642	37:8021b3ce241a	101	while(sum > 0.05f);
sim642	37:8021b3ce241a	102
sim642	37:8021b3ce241a	103	wait(0.1f);
sim642	37:8021b3ce241a	104	}
sim642	37:8021b3ce241a	105
sim642	42:7fa713d5d1af	106	void calibrateLegs()
sim642	42:7fa713d5d1af	107	{
sim642	37:8021b3ce241a	108	for (int i = 0; i < MOTORS; i++)
sim642	37:8021b3ce241a	109	{
sim642	40:01a97bc4ef7a	110	if (i != 3)
sim642	39:e35a99801ec1	111	ms[i]->drive(0.2f);
sim642	40:01a97bc4ef7a	112	}
sim642	40:01a97bc4ef7a	113
sim642	40:01a97bc4ef7a	114	bool done;
sim642	40:01a97bc4ef7a	115	do
sim642	40:01a97bc4ef7a	116	{
sim642	40:01a97bc4ef7a	117	done = true;
sim642	40:01a97bc4ef7a	118	for (int i = 0; i < MOTORS; i++)
sim642	40:01a97bc4ef7a	119	{
sim642	40:01a97bc4ef7a	120	if (i != 3)
sim642	40:01a97bc4ef7a	121	{
sim642	40:01a97bc4ef7a	122	if (ss[i].read())
sim642	40:01a97bc4ef7a	123	done = false;
sim642	40:01a97bc4ef7a	124	else
sim642	40:01a97bc4ef7a	125	ms[i]->drive(0.f);
sim642	40:01a97bc4ef7a	126	}
sim642	37:8021b3ce241a	127	}
sim642	40:01a97bc4ef7a	128	}
sim642	40:01a97bc4ef7a	129	while (!done);
sim642	40:01a97bc4ef7a	130
sim642	40:01a97bc4ef7a	131	for (int i = 0; i < MOTORS; i++)
sim642	37:8021b3ce241a	132	ms[i]->getEncoder().reset();
sim642	42:7fa713d5d1af	133
phairero	43:0627a2245b9d	134	pc.printf("done\n");
sim642	42:7fa713d5d1af	135	}
sim642	42:7fa713d5d1af	136
sim642	42:7fa713d5d1af	137	void standUp()
sim642	42:7fa713d5d1af	138	{
phairero	44:c2acf8d5e191	139	ms[0]->rotate(0.5f + 0.0625f, 0.75f);
phairero	44:c2acf8d5e191	140	ms[1]->rotate(0.5f - 0.0625f, 0.75f);
phairero	44:c2acf8d5e191	141	ms[2]->rotate(0.5f + 0.0625f, 0.75f);
phairero	44:c2acf8d5e191	142	ms[3]->rotate(0.5f - 0.0625f, 0.75f);
phairero	44:c2acf8d5e191	143	ms[4]->rotate(0.5f + 0.0625f, 0.75f);
phairero	44:c2acf8d5e191	144	ms[5]->rotate(0.5f - 0.0625f, 0.75f);
sim642	37:8021b3ce241a	145	waitAllRotate();
sim642	42:7fa713d5d1af	146	}
sim642	42:7fa713d5d1af	147
phairero	43:0627a2245b9d	148	void moveOne()
phairero	43:0627a2245b9d	149	{
phairero	44:c2acf8d5e191	150
phairero	44:c2acf8d5e191	151	ms[0]->rotate(dir*0.875f,speed);
phairero	44:c2acf8d5e191	152	ms[1]->rotate(dir*0.125f,speed/3);
phairero	44:c2acf8d5e191	153	ms[2]->rotate(dir*0.875f,speed);
phairero	44:c2acf8d5e191	154	ms[3]->rotate(dir*0.125f,speed/3);
phairero	44:c2acf8d5e191	155	ms[4]->rotate(dir*0.875f,speed);
phairero	44:c2acf8d5e191	156	ms[5]->rotate(dir*0.125f,speed/3);
phairero	43:0627a2245b9d	157	waitAllRotate();
phairero	43:0627a2245b9d	158	}
phairero	43:0627a2245b9d	159
phairero	43:0627a2245b9d	160	void moveTwo(){
phairero	44:c2acf8d5e191	161	ms[0]->rotate(dir*0.125f,speed/3);
phairero	44:c2acf8d5e191	162	ms[1]->rotate(dir*0.875f,speed);
phairero	44:c2acf8d5e191	163	ms[2]->rotate(dir*0.125f,speed/3);
phairero	44:c2acf8d5e191	164	ms[3]->rotate(dir*0.875f,speed);
phairero	44:c2acf8d5e191	165	ms[4]->rotate(dir*0.125f,speed/3);
phairero	44:c2acf8d5e191	166	ms[5]->rotate(dir*0.875f,speed);
phairero	44:c2acf8d5e191	167	waitAllRotate();
phairero	44:c2acf8d5e191	168	}
phairero	44:c2acf8d5e191	169
phairero	44:c2acf8d5e191	170	void turnOne(){
phairero	44:c2acf8d5e191	171	ms[0]->rotate(turndir0.875f,speed);
phairero	44:c2acf8d5e191	172	ms[1]->rotate(turndir0.125f,speed/3);
phairero	44:c2acf8d5e191	173	ms[2]->rotate(-turndir0.125f,speed/3);
phairero	44:c2acf8d5e191	174	ms[3]->rotate(-turndir0.875f,speed);
phairero	44:c2acf8d5e191	175	ms[4]->rotate(-turndir0.125f,speed/3);
phairero	44:c2acf8d5e191	176	ms[5]->rotate(turndir0.125f,speed/3);
phairero	44:c2acf8d5e191	177	waitAllRotate();
phairero	44:c2acf8d5e191	178	}
phairero	44:c2acf8d5e191	179
phairero	44:c2acf8d5e191	180	void turnTwo(){
phairero	44:c2acf8d5e191	181	ms[0]->rotate(turndir0.125f,speed/3);
phairero	45:409988ab53e4	182	ms[1]->rotate(0.0f, 1.0f);
phairero	44:c2acf8d5e191	183	ms[2]->rotate(-turndir0.875f,speed);
phairero	45:409988ab53e4	184	ms[3]->rotate(0.0f, 1.0f);
phairero	44:c2acf8d5e191	185	ms[4]->rotate(-turndir0.875f,speed);
phairero	45:409988ab53e4	186	ms[5]->rotate(0.0f, 1.0f);
phairero	44:c2acf8d5e191	187	waitAllRotate();
phairero	44:c2acf8d5e191	188	}
phairero	44:c2acf8d5e191	189
phairero	44:c2acf8d5e191	190	void turnThree(){
phairero	45:409988ab53e4	191	ms[0]->rotate(0.0f, 1.0f);
phairero	44:c2acf8d5e191	192	ms[1]->rotate(turndir0.875f,speed);
phairero	45:409988ab53e4	193	ms[2]->rotate(0.0f, 1.0f);
phairero	44:c2acf8d5e191	194	ms[3]->rotate(-turndir0.125f,speed/3);
phairero	45:409988ab53e4	195	ms[4]->rotate(0.0f, 1.0f);
phairero	44:c2acf8d5e191	196	ms[5]->rotate(turndir0.875f,speed);
phairero	43:0627a2245b9d	197	waitAllRotate();
phairero	43:0627a2245b9d	198	}
phairero	43:0627a2245b9d	199
phairero	43:0627a2245b9d	200
sim642	42:7fa713d5d1af	201	int main()
sim642	42:7fa713d5d1af	202	{
sim642	42:7fa713d5d1af	203	pc.printf("MAIN\n");
sim642	42:7fa713d5d1af	204	bt.rise(&rise);
sim642	42:7fa713d5d1af	205	bt.fall(&fall);
sim642	42:7fa713d5d1af	206
sim642	42:7fa713d5d1af	207	//ms[active]->drive(0.25);
sim642	42:7fa713d5d1af	208
sim642	42:7fa713d5d1af	209	ticker.attach(&tick, tickTime);
sim642	42:7fa713d5d1af	210
sim642	42:7fa713d5d1af	211	//unsigned char volatile rfget;
sim642	42:7fa713d5d1af	212
sim642	42:7fa713d5d1af	213	calibrateLegs();
sim642	42:7fa713d5d1af	214	standUp();
sim642	37:8021b3ce241a	215
phairero	43:0627a2245b9d	216	//float volatile sum;
phairero	36:906323851366	217
phairero	43:0627a2245b9d	218	speed = 0.0f;
phairero	43:0627a2245b9d	219	dir = 1;
phairero	43:0627a2245b9d	220	turn = 0;
phairero	36:906323851366	221
phairero	43:0627a2245b9d	222	pc.printf("start\n");
sim642	2:cf0147952fb9	223	while(1)
phairero	36:906323851366	224	{
phairero	36:906323851366	225
phairero	43:0627a2245b9d	226	//speed = 1.5f;
sim642	37:8021b3ce241a	227	//speed = 0;
phairero	36:906323851366	228	//int oldactive = active;
phairero	43:0627a2245b9d	229	if (pc.readable()){
phairero	45:409988ab53e4	230	int rfSpeed = 0;
phairero	45:409988ab53e4	231	pc.scanf("%d %d %d", &rfSpeed, &dir, &turn);
phairero	45:409988ab53e4	232	speed = rfSpeed/10.0f;
phairero	44:c2acf8d5e191	233	if (speed >= 10)
phairero	43:0627a2245b9d	234	speed = speed - (((int)(speed/10))*10);
phairero	44:c2acf8d5e191	235	else if (speed <= 0.25f)
phairero	44:c2acf8d5e191	236	speed = float(0);
phairero	44:c2acf8d5e191	237	}
phairero	45:409988ab53e4	238	pc.printf("%.2f %d%d\n",speed,dir,turn);
phairero	43:0627a2245b9d	239
phairero	36:906323851366	240	if (speed != 0){
phairero	43:0627a2245b9d	241	//for (int i = 0; i < MOTORS; i++)
phairero	43:0627a2245b9d	242	// pc.printf("%ld ", ms[i]->encoder.getCount());
phairero	43:0627a2245b9d	243	//pc.printf("\n");
phairero	43:0627a2245b9d	244
phairero	43:0627a2245b9d	245	//speed = (rfget0.3f); //+ ((speed < 0) ? -1 : 1) mod;
phairero	44:c2acf8d5e191	246	if (turn == 0) {
phairero	44:c2acf8d5e191	247	if (dir == 1){
phairero	44:c2acf8d5e191	248	moveOne();
phairero	44:c2acf8d5e191	249	moveTwo();
phairero	44:c2acf8d5e191	250	}
phairero	44:c2acf8d5e191	251	else {
phairero	44:c2acf8d5e191	252	moveTwo();
phairero	44:c2acf8d5e191	253	moveOne();
phairero	43:0627a2245b9d	254	}
phairero	44:c2acf8d5e191	255	}
phairero	43:0627a2245b9d	256	else {
phairero	44:c2acf8d5e191	257	if ((turn*dir) == 1){
phairero	44:c2acf8d5e191	258	turnOne();
phairero	44:c2acf8d5e191	259	turnTwo();
phairero	44:c2acf8d5e191	260	turnThree();
phairero	43:0627a2245b9d	261	}
phairero	44:c2acf8d5e191	262	else {
phairero	44:c2acf8d5e191	263	turnThree();
phairero	44:c2acf8d5e191	264	turnTwo();
phairero	44:c2acf8d5e191	265	turnOne();
phairero	44:c2acf8d5e191	266	}
phairero	44:c2acf8d5e191	267	}
phairero	36:906323851366	268	}
phairero	36:906323851366	269	else {
phairero	45:409988ab53e4	270	ms[0]->rotate(0.0f, 1.0f);
phairero	45:409988ab53e4	271	ms[1]->rotate(0.0f, 1.0f);
phairero	45:409988ab53e4	272	ms[2]->rotate(0.0f, 1.0f);
phairero	45:409988ab53e4	273	ms[3]->rotate(0.0f, 1.0f);
phairero	45:409988ab53e4	274	ms[4]->rotate(0.0f, 1.0f);
phairero	45:409988ab53e4	275	ms[5]->rotate(0.0f, 1.0f);
phairero	36:906323851366	276	}
phairero	36:906323851366	277
phairero	36:906323851366	278	//pc.printf("%f", speed);
phairero	32:9db688917ca3	279	//info enkoodritelt
phairero	36:906323851366	280	/*
sim642	29:f905e66e1a6f	281	for (int i = 0; i < MOTORS; i++)
sim642	29:f905e66e1a6f	282	pc.printf("%ld ", ms[i]->encoder.getCount());
sim642	29:f905e66e1a6f	283	pc.printf("\n");
phairero	36:906323851366	284	*/
sim642	37:8021b3ce241a	285
phairero	32:9db688917ca3	286	//info IRidelt
sim642	37:8021b3ce241a	287	/*for (int i = 0; i < MOTORS; i++)
phairero	32:9db688917ca3	288	pc.printf("%d ", ss[i].read());
phairero	32:9db688917ca3	289	pc.printf("\n");
sim642	37:8021b3ce241a	290	wait(1.0f);*/
sim642	37:8021b3ce241a	291
sim642	28:fd21faad6dd8	292	//pc.printf("%d", active);
phairero	31:8d8d31b6d8cd	293	//pc.scanf("%f", &turn);
sim642	23:d844cc906b66	294	//m.rotate(turn, 0.2);
phairero	31:8d8d31b6d8cd	295	//pc.scanf("%f %f", &rot, &speed);
sim642	28:fd21faad6dd8	296	//m1.rotate(rot, speed);
sim642	23:d844cc906b66	297	//m.drive(speed);
phairero	31:8d8d31b6d8cd	298	//pc.printf("%f %f\n", s.getTurnSpeed(), m.getSetSpeed());
phairero	31:8d8d31b6d8cd	299	//pc.printf("%f %f\n", m.s, m.getSetSpeed());
phairero	31:8d8d31b6d8cd	300	//pc.printf("%ld %f %f\n", m1.getEncoder().getCount(), m1.getEncoder().getTurn(), m1.getSetTurn());
phairero	31:8d8d31b6d8cd	301	//pc.printf("%f %f\n", m.getEncoder().getTurn(), m.getSetTurn());
phairero	36:906323851366	302
phairero	0:0b7259fdb68a	303	}
phairero	26:c865244ca3cf	304	}

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	24 Mar 2016
Imports:	2
Forks:	0
Commits:	48
Dependents:	0
Dependencies:	1
Followers:	0

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Rauno U

Simmo Saan

main.cpp@45:409988ab53e4, 2016-06-21 (annotated)

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