错误消息:] >>
][Arduino:1.8.12(Windows Store 1.8.33.0)(Windows 10),开发板:“ ArduinoUno“
C:\ Users \ ghane \ AppData \ Local \ Temp \ ccVLh1df.ltrans0.ltrans.o:在函数`build':
C:\ Users \ ghane \ OneDrive \ Documents \ Arduino \ libraries \ tinn-master / test.c:122:未定义对“ fopen”的引用
C:\ Users \ ghane \ AppData \ Local \ Temp \ ccVLh1df.ltrans0.ltrans.o:在函数“ lns”:
C:\ Users \ ghane \ OneDrive \ Documents \ Arduino \ libraries \ tinn-master / test.c:37:未定义对“倒带”的引用
C:\ Users \ ghane \ AppData \ Local \ Temp \ ccVLh1df.ltrans0.ltrans.o:在函数`xtsave':
C:\ Users \ ghane \ OneDrive \ Documents \ Arduino \ libraries \ tinn-master / Tinn.c:133:未定义对“ fopen”的引用
C:\ Users \ ghane \ AppData \ Local \ Temp \ ccVLh1df.ltrans0.ltrans.o:在函数`xtload':
C:\ Users \ ghane \ OneDrive \ Documents \ Arduino \ libraries \ tinn-master / Tinn.c:145:未定义对“ fopen”的引用
collect2.exe:错误:ld返回了1退出状态
退出状态1板Arduino Uno的编译错误。
[CODE:
extern "C" {
#include "Tinn.h"
};
#define IN1 1 //left motor
#define IN2 2 //left motor
#define IN3 4 //right motor
#define IN4 6 //right motor
#define LMOTOR 3 //left motor
#define RMOTOR 5 //left motor
#define RLED 7 //red led
#define YLED 8 //yellow led
#define GLED 12 //green led
#define Trig1 A0 //front uss sent
#define Echo1 A1 //front uss received
#define Trig2 A2 //left uss sent
#define Echo2 A3 //left uss received
#define Trig3 A4 //right uss sent
#define Echo3 A5 //right uss received
long duration, MyUSsensor1, MyUSsensor2, MyUSsensor3, y1, y2, y3;
int initial_motor_speed = 150;
int mtoutput;
float out;
float x1;
float x2;
float biases[] = {
0.375973, 0.226676
};
float weights[] = {
2.000090, -2.732119, -1.512398, 2.352158, -1.499895, -2.407945,
-3.524677, 1.051439, 4.120766, 0.006929, -2.855277, 0.514731,
5.028436, 1.573380, -4.188428, -1.534567, -1.662638, 1.460011,
-0.469579, -3.754514, 1.828197, 1.151905, -3.960257, -0.032369,
-4.076006, -4.283566, 6.279175, -2.485125, 1.049302, -1.357511,
-4.136541, -3.860311, -3.208045, 0.286115, -1.206529, -3.035516,
7.187942, -3.311538, -5.129674, -4.287395
};
Tinn tinn ;
void setup() {
// Setup the neural network
tinn = xtbuild(3, 8, 2);
for (int i = 0; i < tinn.nb; i++)
tinn.b[i] = biases[i];
for (int i = 0; i < tinn.nw; i++)
tinn.w[i] = weights[i];
pinMode(LMOTOR, OUTPUT); // PWM for Left Motor
pinMode(RMOTOR, OUTPUT); // PWM for Right Motor
pinMode(IN1, OUTPUT); // Control for Left Motor 1
pinMode(IN2, OUTPUT); // Control for Left Motor 2
pinMode(IN3, OUTPUT); // Control for Right Motor 1
pinMode(IN4, OUTPUT); // Control for Right Motor 2
pinMode (RLED, OUTPUT); //Control for rled
pinMode (YLED, OUTPUT); //Control for yled
pinMode (GLED, OUTPUT); //Control for gled
Serial.begin (9600);
pinMode (Trig1, OUTPUT); //control for front uss sent
pinMode (Echo1, INPUT); //control for front uss received
pinMode (Trig2, OUTPUT); //control for left uss sent
pinMode (Echo2, INPUT); //control for left uss received
pinMode (Trig3, OUTPUT); //control for right uss sent
pinMode (Echo3, INPUT); //control for right uss received
digitalWrite(IN1, HIGH); //Initially Moving Forward
digitalWrite(IN2, LOW);
digitalWrite(IN3, HIGH);
digitalWrite(IN4, LOW);
digitalWrite (RLED, LOW); //Initially no light
digitalWrite (YLED, LOW);
digitalWrite (GLED, LOW);
analogWrite(LMOTOR, initial_motor_speed); //Left Motor Speed
analogWrite(RMOTOR, initial_motor_speed); //Right Motor Speed
}
float get_ultrasensor (int trigPin, int echoPin) {
digitalWrite (trigPin, LOW);
delayMicroseconds(30);
digitalWrite (trigPin, HIGH);
delayMicroseconds (100);
digitalWrite(trigPin , LOW);
duration = pulseIn(echoPin, HIGH);
long distance = (duration / 2) / 29.1;
return distance;
}
float* predict_output() {
float NN_input[3] = { 0.0, 0.0, 0.0 };
NN_input[0] = y1;
NN_input[1] = y2;
NN_input[2] = y3;
return xtpredict(tinn, NN_input);
}
float integer(float value) {
if (value < 10) {
return 1.0;
}
else {
return 0.0;
}
}
void motor_output() {
if (x1 <= 0.5 && x2 <= 0.5) {
mtoutput = 0;
}
else if (x1 < 0.5 && x2 >= 0.5) {
mtoutput = 3;
}
else if (x1 >= 0.5 && x2 <= 0.5) {
mtoutput = 2;
}
else if (x1 >= 0.5 && x2 >= 0.5) {
mtoutput = 1;
}
if (mtoutput == 1) {
digitalWrite (RLED, HIGH); //active rled
analogWrite(LMOTOR, 0); //Stop the motor
analogWrite(RMOTOR, 0);
delay(1000); //Delay 1 second
digitalWrite (RLED, LOW); //deactive rled
digitalWrite(IN1, LOW); //Reverse //0
digitalWrite(IN2, HIGH); //1
digitalWrite(IN3, LOW); //0
digitalWrite(IN4, HIGH); //1
delay(50);
analogWrite(LMOTOR, 150); //reverse
analogWrite(RMOTOR, 150);
delay(2000); //Delay 2 seconds
analogWrite(LMOTOR, 0); //stop
analogWrite(RMOTOR, 0);
digitalWrite(IN1, LOW); //Perform U-Turn on current position
digitalWrite(IN2, HIGH);
digitalWrite(IN3, HIGH);
digitalWrite(IN4, LOW);
delay(50);
analogWrite(LMOTOR, 150);
analogWrite(RMOTOR, 150);
delay(4000); //Delay time need to change accordingly
digitalWrite(IN1, HIGH); //Moving Forward
digitalWrite(IN2, LOW);
digitalWrite(IN3, HIGH);
digitalWrite(IN4, LOW);
delay(50);
}
//RIGHT CORNER DETECTED, AVOID RIGHT CORNER
else if (mtoutput == 2) {
digitalWrite (GLED, HIGH); //active gled
analogWrite(LMOTOR, 0);
analogWrite(RMOTOR, 0);
delay(1000);
digitalWrite (GLED, LOW); //deactive gled
//2.TURN LEFT
digitalWrite(IN1, HIGH);
digitalWrite(IN2, LOW);
digitalWrite(IN3, LOW);
digitalWrite(IN4, HIGH);
delay(50);
analogWrite(LMOTOR, 150);
analogWrite(RMOTOR, 150);
delay(2000);
//3.MOVE FORWARD
digitalWrite(IN1, HIGH);
digitalWrite(IN2, LOW);
digitalWrite(IN3, HIGH);
digitalWrite(IN4, LOW);
delay(50);
delay(2000);
//4.TURN RIGHT
digitalWrite(IN1, LOW);
digitalWrite(IN2, HIGH);
digitalWrite(IN3, HIGH);
digitalWrite(IN4, LOW);
delay(50);
delay(2000);
//5.MOVE FORWARD
digitalWrite(IN1, HIGH);
digitalWrite(IN2, LOW);
digitalWrite(IN3, HIGH);
digitalWrite(IN4, LOW);
delay(50);
delay(2000);
//6.TURN RIGHT
digitalWrite(IN1, LOW);
digitalWrite(IN2, HIGH);
digitalWrite(IN3, HIGH);
digitalWrite(IN4, LOW);
delay(50);
delay(2000);
//7.MOVE FORWARD
digitalWrite(IN1, HIGH);
digitalWrite(IN2, LOW);
digitalWrite(IN3, HIGH);
digitalWrite(IN4, LOW);
delay(50);
delay(2000);
//8.TURN LEFT AND MOVE FORWARD
digitalWrite(IN1, HIGH); //TURN LEFT
digitalWrite(IN2, LOW);
digitalWrite(IN3, LOW);
digitalWrite(IN4, HIGH);
delay(50);
delay(2000);
digitalWrite(IN1, HIGH); //MOVE FORWARD
digitalWrite(IN2, LOW);
digitalWrite(IN3, HIGH);
digitalWrite(IN4, LOW);
delay(50);
delay(2000);
}
//LEFT CORNER DETECTED, AVOID LEFT CORNER
else if (mtoutput == 3) {
digitalWrite (YLED, HIGH); //active yled
analogWrite(LMOTOR, 0);
analogWrite(RMOTOR, 0);
delay(1000);
digitalWrite (YLED, LOW); //deactive yled
//2.TURN RIGHT
digitalWrite(IN1, LOW);
digitalWrite(IN2, HIGH);
digitalWrite(IN3, HIGH);
digitalWrite(IN4, LOW);
analogWrite(LMOTOR, 150);
analogWrite(RMOTOR, 150);
delay(50);
//3.MOVE FORWARD
digitalWrite(IN1, HIGH);
digitalWrite(IN2, LOW);
digitalWrite(IN3, HIGH);
digitalWrite(IN4, LOW);
delay(50);
delay(2000);
//4.TURN LEFT
digitalWrite(IN1, HIGH);
digitalWrite(IN2, LOW);
digitalWrite(IN3, LOW);
digitalWrite(IN4, HIGH);
delay(50);
delay(2000);
//5.MOVE FORWARD
digitalWrite(IN1, HIGH);
digitalWrite(IN2, LOW);
digitalWrite(IN3, HIGH);
digitalWrite(IN4, LOW);
delay(50);
delay(2000);
//6.TURN LEFT
digitalWrite(IN1, HIGH);
digitalWrite(IN2, LOW);
digitalWrite(IN3, LOW);
digitalWrite(IN4, HIGH);
delay(50);
delay(2000);
//7.MOVE FORWARD
digitalWrite(IN1, HIGH);
digitalWrite(IN2, LOW);
digitalWrite(IN3, HIGH);
digitalWrite(IN4, LOW);
delay(50);
delay(2000);
//8.TURN RIGHT AND MOVE FORWARD
digitalWrite(IN1, LOW);
digitalWrite(IN2, HIGH);
digitalWrite(IN3, HIGH);
digitalWrite(IN4, LOW);
delay(50);
delay(2000);
digitalWrite(IN1, HIGH); //MOVE FORWARD
digitalWrite(IN2, LOW);
digitalWrite(IN3, HIGH);
digitalWrite(IN4, LOW);
delay(50);
delay(2000);
}
else {
analogWrite(LMOTOR, 150);
analogWrite(RMOTOR, 150);
digitalWrite(IN1, HIGH);
digitalWrite(IN2, LOW);
digitalWrite(IN3, HIGH);
digitalWrite(IN4, LOW);
delay(50);
delay(2000);
}
}
void loop() {
MyUSsensor1 = get_ultrasensor(Trig1, Echo1);
Serial.println (MyUSsensor1);
MyUSsensor2 = get_ultrasensor(Trig2, Echo2);
Serial.println (MyUSsensor2);
MyUSsensor3 = get_ultrasensor(Trig3, Echo3);
Serial.println (MyUSsensor3);
y1 = integer(MyUSsensor1);
y2 = integer(MyUSsensor2);
y3 = integer(MyUSsensor3);
float *out = predict_output();
out[0] = x1;
out[1] = x2;
motor_output();
}
错误消息:Arduino:1.8.12(Windows Store 1.8.33.0)(Windows 10),开发板:“ Arduino Uno” C:\ Users \ ghane \ AppData \ Local \ Temp \ ccVLh1df.ltrans0.ltrans.o:在函数`build':C:\ Users \ ...
包含库的文件必须与.ino文件位于同一文件夹中。执行此操作后,未找到任何错误消息。