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Add support for the txbolt protocol. Assign f1 and f2 to choosing the protocol.

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This commit is contained in:
Hesky Fisher 2014-04-09 21:03:07 -04:00
parent 0bd1797ff4
commit 1151396912
1 changed files with 113 additions and 20 deletions
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131
StenoFW.ino Executable file → Normal file
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@ -45,6 +45,11 @@ unsigned long debouncingMicros[ROWS][COLS];
// Other state variables // Other state variables
int ledIntensity = 1; // Min 0 - Max 255 int ledIntensity = 1; // Min 0 - Max 255
// Protocol state
#define GEMINI 0
#define TXBOLT 1
int protocol = GEMINI;
// This is called when the keyboard is connected // This is called when the keyboard is connected
void setup() { void setup() {
Serial.begin(9600); Serial.begin(9600);
@ -153,26 +158,11 @@ void readKeys() {
} }
} }
// Send current chord over serial using the Gemini protocol. If there are fn keys // Send current chord over serial using the Gemini protocol.
// pressed, delegate to the corresponding function instead. void sendChordGemini() {
// In future versions, there should also be a way to handle fn keys presses before
// they are released, eg. for mouse emulation functionality or custom key presses.
void sendChord() {
// Initialize chord bytes // Initialize chord bytes
byte chordBytes[] = {B10000000, B0, B0, B0, B0, B0}; byte chordBytes[] = {B10000000, B0, B0, B0, B0, B0};
// If fn keys have been pressed, delegate to corresponding method and return
if (currentChord[0][5] && currentChord[1][5]) {
fn1fn2();
return;
} else if (currentChord[0][5]) {
fn1();
return;
} else if (currentChord[1][5]) {
fn2();
return;
}
// Byte 0 // Byte 0
if (currentChord[2][4]) { if (currentChord[2][4]) {
chordBytes[0] = B10000001; chordBytes[0] = B10000001;
@ -260,14 +250,117 @@ void sendChord() {
} }
} }
void sendChordTxBolt() {
byte chordBytes[] = {B0, B0, B0, B0, B0};
int index = 0;
// TX Bolt uses a variable length packet. Only those bytes that have active
// keys are sent. The header bytes indicate which keys are being sent. They
// must be sent in order. It is a good idea to send a zero after every packet.
// 00XXXXXX 01XXXXXX 10XXXXXX 110XXXXX
// HWPKTS UE*OAR GLBPRF #ZDST
// byte 1
// S-
if (currentChord[0][0] || currentChord[1][0]) chordBytes[0] += B00000001;
// T-
if (currentChord[0][1]) chordBytes[index] += B00000010;
// K-
if (currentChord[1][1]) chordBytes[index] += B00000100;
// P-
if (currentChord[0][2]) chordBytes[index] += B00001000;
// W-
if (currentChord[1][2]) chordBytes[index] += B00010000;
// H-
if (currentChord[0][3]) chordBytes[index] += B00100000;
// Increment the index if the current byte has any keys set.
if (chordBytes[index]) index++;
// byte 2
// R-
if (currentChord[1][3]) chordBytes[index] += B01000001;
// A
if (currentChord[2][0]) chordBytes[index] += B01000010;
// O
if (currentChord[2][1]) chordBytes[index] += B01000100;
// *
if (currentChord[0][4] || currentChord[1][4]) chordBytes[index] += B01001000;
// E
if (currentChord[2][2]) chordBytes[index] += B01010000;
// U
if (currentChord[2][3]) chordBytes[index] += B01100000;
// Increment the index if the current byte has any keys set.
if (chordBytes[index]) index++;
// byte 3
// -F
if (currentChord[3][0]) chordBytes[index] += B10000001;
// -R
if (currentChord[4][0]) chordBytes[index] += B10000010;
// -P
if (currentChord[3][1]) chordBytes[index] += B10000100;
// -B
if (currentChord[4][1]) chordBytes[index] += B10001000;
// -L
if (currentChord[3][2]) chordBytes[index] += B10010000;
// -G
if (currentChord[4][2]) chordBytes[index] += B10100000;
// Increment the index if the current byte has any keys set.
if (chordBytes[index]) index++;
// byte 4
// -T
if (currentChord[3][3]) chordBytes[index] += B11000001;
// -S
if (currentChord[4][3]) chordBytes[index] += B11000010;
// -D
if (currentChord[3][4]) chordBytes[index] += B11000100;
// -Z
if (currentChord[4][3]) chordBytes[index] += B11001000;
// #
if (currentChord[2][4]) chordBytes[index] += B11010000;
// Increment the index if the current byte has any keys set.
if (chordBytes[index]) index++;
// Now we have index bytes followed by a zero byte where 0 < index <= 4.
index++; // Increment index to include the trailing zero byte.
for (int i = 0; i < index; i++) {
Serial.write(chordBytes[i]);
}
}
// Send the chord using the current protocol. If there are fn keys
// pressed, delegate to the corresponding function instead.
// In future versions, there should also be a way to handle fn keys presses before
// they are released, eg. for mouse emulation functionality or custom key presses.
void sendChord() {
// If fn keys have been pressed, delegate to corresponding method and return
if (currentChord[0][5] && currentChord[1][5]) {
fn1fn2();
return;
} else if (currentChord[0][5]) {
fn1();
return;
} else if (currentChord[1][5]) {
fn2();
return;
}
if (protocol == GEMINI) {
sendChordGemini();
} else {
sendChordTxBolt();
}
}
// This function is called when only "fn1" key has been pressed. // This function is called when only "fn1" key has been pressed.
void fn1() { void fn1() {
protocol = GEMINI;
} }
// This function is called when only "fn2" key has been pressed. // This function is called when only "fn2" key has been pressed.
void fn2() { void fn2() {
protocol = TXBOLT;
} }
// This function is called when both "fn1" and "fn1" key has been pressed. // This function is called when both "fn1" and "fn1" key has been pressed.