robostep8th
/
F3RC-mbed-new
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Dependencies: mbed move3wheel
User.cpp
- Committer:
- yuki0701
- Date:
- 2018-11-01
- Revision:
- 21:0d063cc8b15f
- Parent:
- 20:18da3cef9b39
- Child:
- 22:b2237a179128
File content as of revision 21:0d063cc8b15f:
#include "Utils.h"
#include "USBHost.h"
#include "hci.h"
#include "ps3.h"
#include "User.h"
#include "mbed.h".
#include "math.h"
#include "move3wheel.h"
int RSX,RSY,LSX,LSY,BSU,BSL;
/*DigitalOut led1(LED1);
DigitalOut led2(LED2);
DigitalOut led3(LED3);
DigitalOut led4(LED4);*/
SPI spi(p5,p6,p7);
DigitalOut cs(p8);
int data1 = 0;
int a; //aは定数
double receive_data/*,true_data*/;
double now_angle,target_angle,out;
int count=0;
int temp1, temp2;
PwmOut motor0CW(p21); //0番motor 外から見て時計回り
PwmOut motor0CCW(p22); //0番motor 反時計回り
PwmOut motor1CW(p23); //1番motor
PwmOut motor1CCW(p24); //1番motor
PwmOut motor2CW(p26); //2番motor
PwmOut motor2CCW(p25); //2番motor
void motor(double cw0,double ccw0,double cw1,double ccw1,double cw2,double ccw2)
{
motor0CW = cw0;
motor0CCW = ccw0;
motor1CW = cw1;
motor1CCW = ccw1;
motor2CW = cw2;
motor2CCW = ccw2;
}
void UserLoopSetting()
{
spi.format(16,3);
spi.frequency(1000000);
motor0CW.period_us(50);
motor0CCW.period_us(50);
motor1CW.period_us(50);
motor1CCW.period_us(50);
motor2CW.period_us(50);
motor2CCW.period_us(50);
}
void UserLoop(char n,const u8* data)
{
u16 ButtonState;
if(n==0) { //有線Ps3USB.cpp
RSX = ((ps3report*)data)->RightStickX;
RSY = ((ps3report*)data)->RightStickY;
LSX = ((ps3report*)data)->LeftStickX;
LSY = ((ps3report*)data)->LeftStickY;
BSU = (u8)(((ps3report*)data)->ButtonState & 0x00ff);
BSL = (u8)(((ps3report*)data)->ButtonState >> 8);
//ボタンの処理
ButtonState = ((ps3report*)data)->ButtonState;
} else {//無線TestShell.cpp
RSX = ((ps3report*)(data + 1))->RightStickX;
RSY = ((ps3report*)(data + 1))->RightStickY;
LSX = ((ps3report*)(data + 1))->LeftStickX;
LSY = ((ps3report*)(data + 1))->LeftStickY;
BSU = (u8)(((ps3report*)(data + 1))->ButtonState & 0x00ff);
BSL = (u8)(((ps3report*)(data + 1))->ButtonState >> 8);
//ボタンの処理
ButtonState = ((ps3report*)(data + 1))->ButtonState;
}
///////////////////////////RスティックとLスティックの値を入れかえる///////////////////
temp1 = LSX;
LSX = RSX;
RSX = temp1;
temp2 = LSY;
LSY = LSY;
RSY = temp2;
///////////////////////////ここからmotorのプログラム///////////////////////////////
/*int a = (ButtonState >> BUTTONRIGHT)&1;
if(a == 0)led4=0;
else led4=1;*/
//printf("RSX = %d, RSY = %d\r\n", RSX, RSY);
if(RSX >=100 && RSX <150 && RSY >=100 && RSY <150
&& (((ButtonState >> BUTTONRIGHT)&1) == 0) && (((ButtonState >> BUTTONDOWN)&1) == 0) && (((ButtonState >> BUTTONUP)&1) == 0)) { //ニュートラルポジション
motor(0,0,0,0,0,0);
/*led1 = 1;
led2 = 0;
led3 = 0;
led4 = 0;*/
if(LSX >=100 && LSX <150 ) { //左スティックニュートラルポジション
motor(0,0,0,0,0,0);
} else if(LSX >=150 ) { //右回転
if((ButtonState >> BUTTONR1)&1 == 1) {
motor(0,0.13,0,0.13,0,0.13);
} else {
motor(0,0.3,0,0.3,0,0.3);
}
} else if(LSX <100 ) { //左回転
if((ButtonState >> BUTTONR1)&1 == 1) {
motor(0.13,0,0.13,0,0.13,0);
} else {
motor(0.3,0,0.3,0,0.3,0);
}
} else {
motor(0,0,0,0,0,0);
}
} else if(RSX >=100 && RSX <150 && RSY <100) { // ↑ 移動
if((ButtonState >> BUTTONR1)&1 == 1) {
CalMotorOut(0,0.13,0);
} else {
CalMotorOut(0,0.3,0); //走らせたい速さを入れる(X方向,y方向,回転) 回転方向は上から見て反時計回りが正
}
if(now_angle > 135 && now_angle < 225) {
motor(0,0,0,GetMotorOut(1),-GetMotorOut(2),0);
} else if(now_angle > 225 && now_angle < 315) {
if((ButtonState >> BUTTONR1)&1 == 1) {
CalMotorOut(0.13,0,0);
} else {
CalMotorOut(0.3,0,0);
}
motor(0,GetMotorOut(0),GetMotorOut(1),0,GetMotorOut(2),0);
} else {
motor(0,0,GetMotorOut(1),0,0,-GetMotorOut(2)-0.02); //1番motorはCW方向、2番motorはCCW方向に回す
}
} else if(RSX >=100 && RSX <150 && RSY >=150) { // ↓ 移動
if((ButtonState >> BUTTONR1)&1 == 1) {
CalMotorOut(0,0.13,0);
} else {
CalMotorOut(0,0.3,0);
}
if(now_angle > 135 && now_angle < 225) {
motor(0,0,GetMotorOut(1),0,0,-GetMotorOut(2));
} else if(now_angle > 225 && now_angle < 315) {
if((ButtonState >> BUTTONR1)&1 == 1) {
CalMotorOut(0.13,0,0);
} else {
CalMotorOut(0.3,0,0);
}
motor(GetMotorOut(0),0,0,GetMotorOut(1),0,GetMotorOut(2));
} else {
motor(0,0,0,GetMotorOut(1),-GetMotorOut(2)-0.02,0); //前進と逆の方向に回す
}
} else if(RSX >=150 && RSY >=100 && RSY <150) { // → 移動
if((ButtonState >> BUTTONR1)&1 == 1) {
CalMotorOut(0.13,0,0);
} else {
CalMotorOut(0.3,0,0);
}
if(now_angle > 135 && now_angle < 225) {
motor(0,GetMotorOut(0),GetMotorOut(1),0,GetMotorOut(2),0);
} else if(now_angle > 225 && now_angle < 315) {
if((ButtonState >> BUTTONR1)&1 == 1) {
CalMotorOut(0,0.13,0);
} else {
CalMotorOut(0,0.3,0);
}
motor(0,0,GetMotorOut(1),0,0,-GetMotorOut(2));
} else {
motor(GetMotorOut(0),0,0,GetMotorOut(1),0,GetMotorOut(2));
}
} else if(RSX <100 && RSY >=100 && RSY <150) { // ← 移動
if((ButtonState >> BUTTONR1)&1 == 1) {
CalMotorOut(0.13,0,0);
} else {
CalMotorOut(0.3,0,0);
}
if(now_angle > 135 && now_angle < 225) {
motor(GetMotorOut(0),0,0,GetMotorOut(1),0,GetMotorOut(2));
} else if(now_angle > 225 && now_angle < 315) {
if((ButtonState >> BUTTONR1)&1 == 1) {
CalMotorOut(0,0.13,0);
} else {
CalMotorOut(0,0.3,0);
}
motor(0,0,0,GetMotorOut(1),-GetMotorOut(2),0);
} else {
motor(0,GetMotorOut(0),GetMotorOut(1),0,GetMotorOut(2),0);
}
} else if(RSX < 100 && RSY <100) { // 左上移動
if((ButtonState >> BUTTONR1)&1 == 1) {
CalMotorOut(0.1,0.1,0);
} else {
CalMotorOut(0.2,0.2,0);
}
if(now_angle > 135 && now_angle < 225) {
motor(GetMotorOut(0),0,0,GetMotorOut(1),-GetMotorOut(2),0);
} else if(now_angle > 225 && now_angle < 315) {
if((ButtonState >> BUTTONR1)&1 == 1) {
CalMotorOut(0.1,-0.1,0);
} else {
CalMotorOut(0.2,-0.2,0);
}
motor(0,GetMotorOut(0),0,-GetMotorOut(1),GetMotorOut(2),0);
} else {
motor(0,GetMotorOut(0),GetMotorOut(1),0,0,-GetMotorOut(2));
}
} else if(RSX >= 150 && RSY <100) { // 右上移動
if((ButtonState >> BUTTONR1)&1 == 1) {
CalMotorOut(-0.1,0.1,0);
} else {
CalMotorOut(-0.2,0.2,0);
}
if(now_angle > 135 && now_angle < 225) {
motor(0,-GetMotorOut(0),0,GetMotorOut(1),-GetMotorOut(2),0);
} else if(now_angle > 225 && now_angle < 315) {
if((ButtonState >> BUTTONR1)&1 == 1) {
CalMotorOut(0.1,0.1,0);
} else {
CalMotorOut(0.2,0.2,0);
}
motor(0,GetMotorOut(0),GetMotorOut(1),0,0,-GetMotorOut(2));
} else {
motor(-GetMotorOut(0),0,GetMotorOut(1),0,0,-GetMotorOut(2));
}
} else if(RSX <100 && RSY >=150) { // 左下移動
if((ButtonState >> BUTTONR1)&1 == 1) {
CalMotorOut(0.1,-0.1,0);
} else {
CalMotorOut(0.2,-0.2,0);
}
if(now_angle > 135 && now_angle < 225) {
motor(GetMotorOut(0),0,-GetMotorOut(1),0,0,GetMotorOut(2));
} else if(now_angle > 225 && now_angle < 315) {
if((ButtonState >> BUTTONR1)&1 == 1) {
CalMotorOut(-0.1,-0.1,0);
} else {
CalMotorOut(-0.2,-0.2,0);
}
motor(-GetMotorOut(0),0,0,-GetMotorOut(1),GetMotorOut(2),0);
} else {
motor(0,GetMotorOut(0),0,-GetMotorOut(1),GetMotorOut(2),0);
}
} else if(RSX >= 150 && RSY >=150) { // 右下移動
if((ButtonState >> BUTTONR1)&1 == 1) {
CalMotorOut(-0.1,-0.1,0);
} else {
CalMotorOut(-0.2,-0.2,0);
}
if(now_angle > 135 && now_angle < 225) {
motor(0,-GetMotorOut(0),-GetMotorOut(1),0,0,GetMotorOut(2));
} else if(now_angle > 225 && now_angle < 315) {
if((ButtonState >> BUTTONR1)&1 == 1) {
CalMotorOut(-0.1,-0.1,0);
} else {
CalMotorOut(-0.2,0.2,0);
}
motor(-GetMotorOut(0),0,GetMotorOut(1),0,0,-GetMotorOut(2));
} else {
motor(-GetMotorOut(0),0,0,-GetMotorOut(1),GetMotorOut(2),0);
}
} else if ((ButtonState >> BUTTONR2)&1 == 1){
motor(0.3,0,0.3,0,0.3,0);
wait(0.5);
motor(0,0.3,0,0.3,0,0.3);
wait(0.5);
}else if((ButtonState >> BUTTONL2)&1 == 1){
motor(0,0,0.3,0,0,0.3);
wait(0.5);
motor(0,0,0,0.3,0.3,0);
wait(0.5);
}
////////////////////////////ここからヌクレオのプログラム/////////////////////////////
if((ButtonState >> BUTTONTRIANGEL)&1 == 1) { //servo1
wait(0.1);
if((ButtonState >> BUTTONTRIANGEL)&1 == 1) {
data1=1;
//printf("5");
}
}
if((ButtonState >> BUTTONCIRCLE)&1 == 1) { //servo2
wait(0.1);
if((ButtonState >> BUTTONCIRCLE)&1 == 1) {
data1=2;
//printf("2");
}
}
if((ButtonState >> BUTTONCROSS)&1 == 1 ) { //servo3
wait(0.1);
if((ButtonState >> BUTTONCROSS)&1 == 1 ) {
data1=3;
//printf("3\r\n");
}
}
if((ButtonState >> BUTTONSQUARE)&1 == 1 ) { //servo4
wait(0.1);
if((ButtonState >> BUTTONSQUARE)&1 == 1 ) {
data1=4;
//printf("4");
}
}
if((ButtonState >> BUTTONLEFT)&1 == 1) { //エアシリンダー
wait(0.1);
if((ButtonState >> BUTTONLEFT)&1 == 1) {
data1=5;
//printf("5");
}
}
////////////////////////ここからジャイロの角度指定プログラム//////////////////////////
/*if(receive_data >= 0) { //反時計回りに0~359°となるよう修正
a = receive_data / 360;
now_angle = receive_data - (360 * a); //現在の角度
} else {
a = receive_data / 360;
now_angle = 360 + receive_data - (360 * a);
}*/
/*true_data = receive_data - 65536;
} else {
true_data = receive_data;
}*/
//now_angle = true_data; //現在の角度
//out = 0.01 * (target_angle - now_angle); //P(目標の角度 - 現在の角度) Pは自分で決めた定数
if((ButtonState >> BUTTONRIGHT)&1 == 1) {
wait(0.1);
if((ButtonState >> BUTTONRIGHT)&1 == 1) {
target_angle = 270;
out = 0.01 * (target_angle - now_angle);
//printf("%f\r\n",now_angle);
//printf("%f\r\n",out);
if(now_angle >= 269 && now_angle <= 271) {
motor(0,0,0,0,0,0);
} else if(out > 1.8 || out <= -0.3) { //0~89°と270~359°のときは時計回りに回転
motor(0.3,0,0.3,0,0.3,0);
//printf("cw 0.3\r\n");
} else if(out > -0.3 && out <= 0) {
motor(-out,0,-out,0,-out,0);
//printf("cw -out\r\n");
} else if(out > 0 && out <= 0.3) { //90~269°のときは反時計回りに回転
motor(0,out,0,out,0,out);
//printf("ccw out\r\n");
} else if(out <= 1.8 && out > 0.3) {
motor(0,0.3,0,0.3,0,0.3);
//printf("ccw 0.3\r\n");
}
}
}
if((ButtonState >> BUTTONDOWN)&1 == 1) {
wait(0.1);
if((ButtonState >> BUTTONDOWN)&1 == 1) {
target_angle = 180;
out = 0.01 * (target_angle - now_angle);
if(now_angle >= 179 && now_angle <= 181) {
motor(0,0,0,0,0,0);
} else if(out > 0.3) { //0~178°のときは反時計回りに回転
motor(0,0.3,0,0.3,0,0.3);
} else if(out <= 0.3 && out > 0) {
motor(0,out,0,out,0,out);
} else if(out <= 0 && out > -0.3) { //180~359°のときは時計回りに回転
motor(-out,0,-out,0,-out,0);
} else if(out <= -0.3) {
motor(0.3,0,0.3,0,0.3,0);
}
}
}
if((ButtonState >> BUTTONUP)&1 == 1) {
wait(0.1);
if((ButtonState >> BUTTONUP)&1 == 1) {
if(0 <= now_angle && now_angle < 180) {
target_angle = 0;
out = -0.01 * (target_angle - now_angle);
if(now_angle <= 1) {
motor(0,0,0,0,0,0);
} else if(out > 0.3) { //0~179°のときは時計回りに回転
motor(0.3,0,0.3,0,0.3,0);
} else if(out <= 0.3 && out > 0) {
motor(out,0,out,0,out,0);
}
}
if(180 <= now_angle && now_angle< 360) {
target_angle = 360;
out = 0.01 * (target_angle - now_angle);
if(now_angle >= 359) {
motor(0,0,0,0,0,0);
} else if(out > 0.3) { //180~359°のときは反時計回りに回転
motor(0,0.3,0,0.3,0,0.3);
} else if(out <= 0.3 && out > 0) {
motor(0,out,0,out,0,out);
}
}
}
}
//printf("%f\t",receive_data);
//printf("%f\n\r",now_angle);
cs=0;
now_angle = spi.write(data1)*0.01;
cs=1;
data1=0;
}