I need to exchange data (roughly 100 bytes 10 times a second) between Teensy4.1 and RaspberyPi 4. I decided to do this via serial interface. There is Teensy code:
float r=191.699997;
byte * b = (byte *) &r;
Serial8.write(b, 4);
I have hard-coded 191.699997 for test purposes.
Please find below RaspberryPi Java part:
System.out.println("----------------");
System.out.format(7 " : " TEENSY.getData(7) "\n");
System.out.format(8 " : " TEENSY.getData(8) "\n");
System.out.format(9 " : " TEENSY.getData(9) "\n");
System.out.format(10 " : " TEENSY.getData(10) "\n");
data[0]=(byte)TEENSY.getData(7);
data[1]=(byte)TEENSY.getData(8);
data[2]=(byte)TEENSY.getData(9);
data[3]=(byte)TEENSY.getData(10);
System.out.format(7 "' : " data[0] "\n");
System.out.format(8 "' : " data[1] "\n");
System.out.format(9 "' : " data[2] "\n");
System.out.format(10 "' : " data[3] "\n");
ByteBuffer buffer = ByteBuffer.wrap(data);
int first = buffer.getInt();
float second = buffer.getFloat();
System.out.print("int: " first); System.out.print("\n");
System.out.printf("float: %f \n", second);
System.out.println("----------------");
The output of the above code is the shown bellow:
----------------
7 : 51
8 : 179
9 : 63
10 : 67
7 : 51
8 : -77
9 : 63
10 : 67
int: 867385155
float: 0.000000
----------------
I understand why is the difference but have no idea how to make it working (by working I mean how to get 191.699997 on the Raspberry Pi side.
Thanks in advance for your hints.
CodePudding user response:
You have two issues: the ByteBuffer
advances position after "getting" and Java is big endian by default:
This code should demonstrate:
public static void main(String[] args) {
byte[] b = new byte[4];
b[0] = 51;
b[1] = -77;
b[2] = 63;
b[3] = 67;
ByteBuffer buffer = ByteBuffer.wrap(b);
int first = buffer.getInt();
float second = buffer.getFloat(0);
System.out.println("f=" first " s=" second);
b[0] = 67;
b[1] = 63;
b[2] = -77;
b[3] = 51;
buffer = ByteBuffer.wrap(b);
first = buffer.getInt();
second = buffer.getFloat(0);
System.out.println("f=" first " s=" second);
}
Prints:
f=867385155 s=8.346844E-8
f=1128248115 s=191.7
And looking further the integer 1128248115
(as printed from Java ) in hex :
0x433FB333
And the integer 867385155
your code displayed (from Java on PI side) in hex :
0x33B33F43
Note that you can change the byte-order of a ByteBuffer
by something like:
ByteBuffer buffer = ByteBuffer.wrap(b).order(ByteOrder.LITTLE_ENDIAN);
And then your code works (again with the getFloat(0)
!:
byte[] b = new byte[4];
b[0] = 51;
b[1] = -77;
b[2] = 63;
b[3] = 67;
ByteBuffer buffer = ByteBuffer.wrap(b).order(ByteOrder.LITTLE_ENDIAN);
int first = buffer.getInt();
float second = buffer.getFloat(0);
System.out.println("f=" first " s=" second);
Prints
f=1128248115 s=191.7