我对Arduino和
Java有一个很好的了解,我决定采取一个刺,试图用我的三星Galaxy 10.1选项卡来控制我的Arduino ATMega.我已经使用SDK管理器安装了API 12,Eclipse的ADT插件,现在我按照
Installing the Arduino software and necessary libraries(Android Open Accessory Development Kit)的说明安装ADK板的固件.当我编译它给我两个错误:
demokit:146: error: ‘acc’ was not declared in this scope
demokit:249: error: ‘touch_robot’ was not declared in this scope
并说
‘AndroidAccessory’ does not name a type.
代码如下所示:
#include <Wire.h>
#include <Servo.h>
#include <Max3421e.h>
#include <Usb.h>
#include <AndroidAccessory.h>
#include <CapSense.h>
#define LED3_RED 2
#define LED3_GREEN 4
#define LED3_BLUE 3
#define LED2_RED 5
#define LED2_GREEN 7
#define LED2_BLUE 6
#define LED1_RED 8
#define LED1_GREEN 10
#define LED1_BLUE 9
#define SERVO1 11
#define SERVO2 12
#define SERVO3 13
#define TOUCH_RECV 14
#define TOUCH_SEND 15
#define RELAY1 A0
#define RELAY2 A1
#define LIGHT_SENSOR A2
#define TEMP_SENSOR A3
#define BUTTON1 A6
#define BUTTON2 A7
#define BUTTON3 A8
#define JOY_SWITCH A9 // pulls line down when pressed
#define JOY_nINT A10 // active low interrupt input
#define JOY_nRESET A11 // active low reset output
AndroidAccessory acc("Google,Inc.","DemoKit","DemoKit Arduino Board","1.0","http://www.android.com","0000000012345678");
Servo servos[3];
// 10 Mohm resistor on demo shield
CapSense touch_robot = CapSense(TOUCH_SEND,TOUCH_RECV);
void setup();
void loop();
void init_buttons()
{
pinMode(BUTTON1,INPUT);
pinMode(BUTTON2,INPUT);
pinMode(BUTTON3,INPUT);
pinMode(JOY_SWITCH,INPUT);
// enable the internal pullups
digitalWrite(BUTTON1,HIGH);
digitalWrite(BUTTON2,HIGH);
digitalWrite(BUTTON3,HIGH);
digitalWrite(JOY_SWITCH,HIGH);
}
void init_relays()
{
pinMode(RELAY1,OUTPUT);
pinMode(RELAY2,OUTPUT);
}
void init_LEDs()
{
digitalWrite(LED1_RED,1);
digitalWrite(LED1_GREEN,1);
digitalWrite(LED1_BLUE,1);
pinMode(LED1_RED,OUTPUT);
pinMode(LED1_GREEN,OUTPUT);
pinMode(LED1_BLUE,OUTPUT);
digitalWrite(LED2_RED,1);
digitalWrite(LED2_GREEN,1);
digitalWrite(LED2_BLUE,1);
pinMode(LED2_RED,OUTPUT);
pinMode(LED2_GREEN,OUTPUT);
pinMode(LED2_BLUE,OUTPUT);
digitalWrite(LED3_RED,1);
digitalWrite(LED3_GREEN,1);
digitalWrite(LED3_BLUE,1);
pinMode(LED3_RED,OUTPUT);
pinMode(LED3_GREEN,OUTPUT);
pinMode(LED3_BLUE,OUTPUT);
}
void init_joystick(int threshold);
byte b1,b2,b3,b4,c;
void setup()
{
Serial.begin(115200);
Serial.print("\r\nStart");
init_LEDs();
init_relays();
init_buttons();
init_joystick( 5 );
// autocalibrate OFF
touch_robot.set_CS_AutocaL_Millis(0xFFFFFFFF);
servos[0].attach(SERVO1);
servos[0].write(90);
servos[1].attach(SERVO2);
servos[1].write(90);
servos[2].attach(SERVO3);
servos[2].write(90);
b1 = digitalRead(BUTTON1);
b2 = digitalRead(BUTTON2);
b3 = digitalRead(BUTTON3);
b4 = digitalRead(JOY_SWITCH);
c = 0;
acc.powerOn();
}
void loop()
{
byte err;
byte idle;
static byte count = 0;
byte msg[3];
long touchcount;
if (acc.isConnected()) {
int len = acc.read(msg,sizeof(msg),1);
int i;
byte b;
uint16_t val;
int x,y;
char c0;
if (len > 0) {
// assumes only one command per packet
if (msg[0] == 0x2) {
if (msg[1] == 0x0)
analogWrite(LED1_RED,255 - msg[2]);
else if (msg[1] == 0x1)
analogWrite(LED1_GREEN,255 - msg[2]);
else if (msg[1] == 0x2)
analogWrite(LED1_BLUE,255 - msg[2]);
else if (msg[1] == 0x3)
analogWrite(LED2_RED,255 - msg[2]);
else if (msg[1] == 0x4)
analogWrite(LED2_GREEN,255 - msg[2]);
else if (msg[1] == 0x5)
analogWrite(LED2_BLUE,255 - msg[2]);
else if (msg[1] == 0x6)
analogWrite(LED3_RED,255 - msg[2]);
else if (msg[1] == 0x7)
analogWrite(LED3_GREEN,255 - msg[2]);
else if (msg[1] == 0x8)
analogWrite(LED3_BLUE,255 - msg[2]);
else if (msg[1] == 0x10)
servos[0].write(map(msg[2],255,180));
else if (msg[1] == 0x11)
servos[1].write(map(msg[2],180));
else if (msg[1] == 0x12)
servos[2].write(map(msg[2],180));
} else if (msg[0] == 0x3) {
if (msg[1] == 0x0)
digitalWrite(RELAY1,msg[2] ? HIGH : LOW);
else if (msg[1] == 0x1)
digitalWrite(RELAY2,msg[2] ? HIGH : LOW);
}
}
msg[0] = 0x1;
b = digitalRead(BUTTON1);
if (b != b1) {
msg[1] = 0;
msg[2] = b ? 0 : 1;
acc.write(msg,3);
b1 = b;
}
b = digitalRead(BUTTON2);
if (b != b2) {
msg[1] = 1;
msg[2] = b ? 0 : 1;
acc.write(msg,3);
b2 = b;
}
b = digitalRead(BUTTON3);
if (b != b3) {
msg[1] = 2;
msg[2] = b ? 0 : 1;
acc.write(msg,3);
b3 = b;
}
b = digitalRead(JOY_SWITCH);
if (b != b4) {
msg[1] = 4;
msg[2] = b ? 0 : 1;
acc.write(msg,3);
b4 = b;
}
switch (count++ % 0x10) {
case 0:
val = analogRead(TEMP_SENSOR);
msg[0] = 0x4;
msg[1] = val >> 8;
msg[2] = val & 0xff;
acc.write(msg,3);
break;
case 0x4:
val = analogRead(LIGHT_SENSOR);
msg[0] = 0x5;
msg[1] = val >> 8;
msg[2] = val & 0xff;
acc.write(msg,3);
break;
case 0x8:
read_joystick(&x,&y);
msg[0] = 0x6;
msg[1] = constrain(x,-128,127);
msg[2] = constrain(y,127);
acc.write(msg,3);
break;
case 0xc:
touchcount = touch_robot.capSense(5);
c0 = touchcount > 750;
if (c0 != c) {
msg[0] = 0x1;
msg[1] = 3;
msg[2] = c0;
acc.write(msg,3);
c = c0;
}
break;
}
}
else {
// reset outputs to default values on disconnect
analogWrite(LED1_RED,255);
analogWrite(LED1_GREEN,255);
analogWrite(LED1_BLUE,255);
analogWrite(LED2_RED,255);
analogWrite(LED2_GREEN,255);
analogWrite(LED2_BLUE,255);
analogWrite(LED3_RED,255);
analogWrite(LED3_GREEN,255);
analogWrite(LED3_BLUE,255);
servos[0].write(90);
servos[0].write(90);
servos[0].write(90);
digitalWrite(RELAY1,LOW);
digitalWrite(RELAY2,LOW);
}
delay(10);
}
// ==============================================================================
// Austria Microsystems i2c Joystick
void init_joystick(int threshold)
{
byte status = 0;
pinMode(JOY_SWITCH,INPUT);
digitalWrite(JOY_SWITCH,HIGH);
pinMode(JOY_nINT,INPUT);
digitalWrite(JOY_nINT,HIGH);
pinMode(JOY_nRESET,OUTPUT);
digitalWrite(JOY_nRESET,1);
delay(1);
digitalWrite(JOY_nRESET,0);
delay(1);
digitalWrite(JOY_nRESET,1);
Wire.begin();
do {
status = read_joy_reg(0x0f);
} while ((status & 0xf0) != 0xf0);
// invert magnet polarity setting,per datasheet
write_joy_reg(0x2e,0x86);
calibrate_joystick(threshold);
}
int offset_X,offset_Y;
void calibrate_joystick(int dz)
{
char iii;
int x_cal = 0;
int y_cal = 0;
// Low Power Mode,20ms auto wakeup
// INTn output enabled
// INTn active after each measurement
// Normal (non-Reset) mode
write_joy_reg(0x0f,0x00);
delay(1);
// dummy read of Y_reg to reset interrupt
read_joy_reg(0x11);
for(iii = 0; iii != 16; iii++) {
while(!joystick_interrupt()) {}
x_cal += read_joy_reg(0x10);
y_cal += read_joy_reg(0x11);
}
// Divide by 16 to get average
offset_X = -(x_cal>>4);
offset_Y = -(y_cal>>4);
write_joy_reg(0x12,dz - offset_X); // Xp,LEFT threshold for INTn
write_joy_reg(0x13,-dz - offset_X); // Xn,RIGHT threshold for INTn
write_joy_reg(0x14,dz - offset_Y); // Yp,UP threshold for INTn
write_joy_reg(0x15,-dz - offset_Y); // Yn,DOWN threshold for INTn
// Dead zone threshold detect requested?
if (dz)
write_joy_reg(0x0f,0x04);
}
void read_joystick(int *x,int *y)
{
*x = read_joy_reg(0x10) + offset_X;
*y = read_joy_reg(0x11) + offset_Y; // reading Y clears the interrupt
}
char joystick_interrupt()
{
return digitalRead(JOY_nINT) == 0;
}
#define JOY_I2C_ADDR 0x40
char read_joy_reg(char reg_addr)
{
char c;
Wire.beginTransmission(JOY_I2C_ADDR);
Wire.send(reg_addr);
Wire.endTransmission();
Wire.requestFrom(JOY_I2C_ADDR,1);
while(Wire.available())
c = Wire.receive();
return c;
}
void write_joy_reg(char reg_addr,char val)
{
Wire.beginTransmission(JOY_I2C_ADDR);
Wire.send(reg_addr);
Wire.send(val);
Wire.endTransmission();
}
顺便说一句,我甚至试图复制我的arduino目录中的ADK_relsease_0512文件夹仍然没有工作.提前致谢!
解决方法
现在我用Arduino 1.0获得了成功,我想分享解决方案:
>我用的是CapSense04.zip库:
>我从arduino_bundle_ADK.zip更改了以下文件中的类型从void到size_t:
AndroidAccessory.cpp行280:size_t AndroidAccessory :: write(uint8_t b)
AndroidAccessory.h第71行:size_t write(uint8_t b);
Max_LCD.cpp行257:inline size_t Max_LCD :: write(uint8_t value)
Max_LCD.h行101:virtual size_t write(uint8_t);
我也改了发送来写和接收来读,在demokit.pde(你会发现它在adk_release_0512.zip)
Demokit.pde行377:Wire.write(reg_addr);行383:c = Wire.read();第391行:Wire.write(reg_addr);第392行:Wire.write(val);
