@ -5,8 +5,8 @@
KeyboardioScanner Model01 : : leftHand ( 0 ) ;
KeyboardioScanner Model01 : : rightHand ( 3 ) ;
bool Model01 : : isLEDChanged = true ;
uint8 _t Model01 : : leftHandMask [ 4 ] ;
uint8 _t Model01 : : rightHandMask [ 4 ] ;
keydata _t Model01 : : leftHandMask ;
keydata _t Model01 : : rightHandMask ;
static constexpr uint8_t key_led_map [ 4 ] [ 16 ] = {
{ 3 , 4 , 11 , 12 , 19 , 20 , 26 , 27 , 36 , 37 , 43 , 44 , 51 , 52 , 59 , 60 } ,
@ -209,9 +209,9 @@ void Model01::maskKey(byte row, byte col) {
return ;
if ( col > = 8 ) {
rightHandMask [row ] | = 1 < < ( 7 - ( col - 8 ) ) ;
rightHandMask .rows [row ] | = 1 < < ( 7 - ( col - 8 ) ) ;
} else {
leftHandMask [row ] | = 1 < < ( 7 - col ) ;
leftHandMask .rows [row ] | = 1 < < ( 7 - col ) ;
}
}
@ -220,9 +220,9 @@ void Model01::unMaskKey(byte row, byte col) {
return ;
if ( col > = 8 ) {
rightHandMask [row ] & = ~ ( 1 < < ( 7 - ( col - 8 ) ) ) ;
rightHandMask .rows [row ] & = ~ ( 1 < < ( 7 - ( col - 8 ) ) ) ;
} else {
leftHandMask [row ] & = ~ ( 1 < < ( 7 - col ) ) ;
leftHandMask .rows [row ] & = ~ ( 1 < < ( 7 - col ) ) ;
}
}
@ -231,15 +231,15 @@ bool Model01::isKeyMasked(byte row, byte col) {
return false ;
if ( col > = 8 ) {
return rightHandMask [row ] & ( 1 < < ( 7 - ( col - 8 ) ) ) ;
return rightHandMask .rows [row ] & ( 1 < < ( 7 - ( col - 8 ) ) ) ;
} else {
return leftHandMask [row ] & ( 1 < < ( 7 - col ) ) ;
return leftHandMask .rows [row ] & ( 1 < < ( 7 - col ) ) ;
}
}
void Model01 : : maskHeldKeys ( void ) {
memcpy ( leftHandMask , leftHandState . rows , sizeof ( leftHandMask ) ) ;
memcpy ( rightHandMask , rightHandState . rows , sizeof ( rightHandMask ) ) ;
memcpy ( leftHandMask .rows , leftHandState . rows , sizeof ( leftHandMask ) ) ;
memcpy ( rightHandMask .rows , rightHandState . rows , sizeof ( rightHandMask ) ) ;
}
HARDWARE_IMPLEMENTATION KeyboardHardware ;