Rename Key.rawKey to Key.keyCode

Because we have `raw`, `rawKey` was confusing. Rename it to `keyCode` instead,
which better conveys what the byte is for.

Signed-off-by: Gergely Nagy <algernon@madhouse-project.org>
pull/80/head
Gergely Nagy 8 years ago
parent 910b9db948
commit 4b76f12ba4

@ -25,13 +25,13 @@ void Macros_::play(const macro_t *macro_p) {
} }
case MACRO_ACTION_STEP_KEYDOWN: case MACRO_ACTION_STEP_KEYDOWN:
key.flags = pgm_read_byte(macro_p++); key.flags = pgm_read_byte(macro_p++);
key.rawKey = pgm_read_byte(macro_p++); key.keyCode = pgm_read_byte(macro_p++);
handle_key_event(key, 255, 255, IS_PRESSED | INJECTED); handle_key_event(key, 255, 255, IS_PRESSED | INJECTED);
Keyboard.sendReport(); Keyboard.sendReport();
break; break;
case MACRO_ACTION_STEP_KEYUP: case MACRO_ACTION_STEP_KEYUP:
key.flags = pgm_read_byte(macro_p++); key.flags = pgm_read_byte(macro_p++);
key.rawKey = pgm_read_byte(macro_p++); key.keyCode = pgm_read_byte(macro_p++);
handle_key_event(key, 255, 255, WAS_PRESSED | INJECTED); handle_key_event(key, 255, 255, WAS_PRESSED | INJECTED);
Keyboard.sendReport(); Keyboard.sendReport();
break; break;
@ -51,7 +51,7 @@ static Key handleMacroEvent(Key mappedKey, byte row, byte col, uint8_t keyState)
if (!key_toggled_on(keyState)) if (!key_toggled_on(keyState))
return Key_NoKey; return Key_NoKey;
const macro_t *m = macroAction(mappedKey.rawKey, keyState); const macro_t *m = macroAction(mappedKey.keyCode, keyState);
Macros.play(m); Macros.play(m);
return Key_NoKey; return Key_NoKey;

@ -17,9 +17,9 @@ typedef uint8_t macro_t;
#define I(n) MACRO_ACTION_STEP_INTERVAL, n #define I(n) MACRO_ACTION_STEP_INTERVAL, n
#define W(n) MACRO_ACTION_STEP_WAIT, n #define W(n) MACRO_ACTION_STEP_WAIT, n
#define Dr(k) MACRO_ACTION_STEP_KEYDOWN, (k).flags, (k).rawKey #define Dr(k) MACRO_ACTION_STEP_KEYDOWN, (k).flags, (k).keyCode
#define D(k) Dr(Key_ ## k) #define D(k) Dr(Key_ ## k)
#define Ur(k) MACRO_ACTION_STEP_KEYUP, (k).flags, (k).rawKey #define Ur(k) MACRO_ACTION_STEP_KEYUP, (k).flags, (k).keyCode
#define U(k) Ur(Key_ ## k) #define U(k) Ur(Key_ ## k)
#define Tr(k) Dr(k), Ur(k) #define Tr(k) Dr(k), Ur(k)
#define T(k) D(k), U(k) #define T(k) D(k), U(k)

@ -8,16 +8,16 @@ static void handle_mouse_key_event(Key mappedKey, uint8_t keyState) {
if (!key_is_pressed(keyState)) if (!key_is_pressed(keyState))
return; return;
if (mappedKey.rawKey & KEY_MOUSE_UP) { if (mappedKey.keyCode & KEY_MOUSE_UP) {
MouseWrapper.move(0,-1); MouseWrapper.move(0,-1);
} }
if (mappedKey.rawKey & KEY_MOUSE_DOWN) { if (mappedKey.keyCode & KEY_MOUSE_DOWN) {
MouseWrapper.move(0,1); MouseWrapper.move(0,1);
} }
if (mappedKey.rawKey & KEY_MOUSE_LEFT) { if (mappedKey.keyCode & KEY_MOUSE_LEFT) {
MouseWrapper.move(-1,0); MouseWrapper.move(-1,0);
} }
if (mappedKey.rawKey & KEY_MOUSE_RIGHT) { if (mappedKey.keyCode & KEY_MOUSE_RIGHT) {
MouseWrapper.move(1,0); MouseWrapper.move(1,0);
} }
} }
@ -26,23 +26,23 @@ static Key handleMouseKeys(Key mappedKey, byte row, byte col, uint8_t keyState)
if (mappedKey.flags != (SYNTHETIC | IS_MOUSE_KEY)) if (mappedKey.flags != (SYNTHETIC | IS_MOUSE_KEY))
return mappedKey; return mappedKey;
if (mappedKey.rawKey & KEY_MOUSE_BUTTON) { if (mappedKey.keyCode & KEY_MOUSE_BUTTON) {
uint8_t button = mappedKey.rawKey & ~KEY_MOUSE_BUTTON; uint8_t button = mappedKey.keyCode & ~KEY_MOUSE_BUTTON;
if (key_toggled_on(keyState)) { if (key_toggled_on(keyState)) {
MouseWrapper.press_button(button); MouseWrapper.press_button(button);
} else if (key_toggled_off(keyState)) { } else if (key_toggled_off(keyState)) {
MouseWrapper.release_button(button); MouseWrapper.release_button(button);
} }
} else if (!(mappedKey.rawKey & KEY_MOUSE_WARP)) { } else if (!(mappedKey.keyCode & KEY_MOUSE_WARP)) {
handle_mouse_key_event(mappedKey, keyState); handle_mouse_key_event(mappedKey, keyState);
} else if (key_toggled_on(keyState)) { } else if (key_toggled_on(keyState)) {
if (mappedKey.rawKey & KEY_MOUSE_WARP && mappedKey.flags & IS_MOUSE_KEY) { if (mappedKey.keyCode & KEY_MOUSE_WARP && mappedKey.flags & IS_MOUSE_KEY) {
// we don't pass in the left and up values because those are the // we don't pass in the left and up values because those are the
// default, "no-op" conditionals // default, "no-op" conditionals
MouseWrapper.warp( ((mappedKey.rawKey & KEY_MOUSE_WARP_END) ? WARP_END : 0x00) | MouseWrapper.warp( ((mappedKey.keyCode & KEY_MOUSE_WARP_END) ? WARP_END : 0x00) |
((mappedKey.rawKey & KEY_MOUSE_DOWN) ? WARP_DOWN : 0x00) | ((mappedKey.keyCode & KEY_MOUSE_DOWN) ? WARP_DOWN : 0x00) |
((mappedKey.rawKey & KEY_MOUSE_RIGHT) ? WARP_RIGHT : 0x00) ); ((mappedKey.keyCode & KEY_MOUSE_RIGHT) ? WARP_RIGHT : 0x00) );
} }
} }

@ -6,7 +6,7 @@ typedef union {
struct { struct {
uint8_t flags; uint8_t flags;
uint8_t rawKey; uint8_t keyCode;
}; };
uint16_t raw; uint16_t raw;
} Key; } Key;
@ -22,11 +22,11 @@ typedef union {
#define SYNTHETIC B01000000 #define SYNTHETIC B01000000
#define RESERVED B10000000 #define RESERVED B10000000
#define LCTRL(k) ((Key) { k.flags | CTRL_HELD, k.rawKey }) #define LCTRL(k) ((Key) { k.flags | CTRL_HELD, k.keyCode })
#define LALT(k) ((Key) { k.flags | LALT_HELD, k.rawKey }) #define LALT(k) ((Key) { k.flags | LALT_HELD, k.keyCode })
#define RALT(k) ((Key) { k.flags | RALT_HELD, k.rawKey }) #define RALT(k) ((Key) { k.flags | RALT_HELD, k.keyCode })
#define LSHIFT(k) ((Key) { k.flags | SHIFT_HELD, k.rawKey }) #define LSHIFT(k) ((Key) { k.flags | SHIFT_HELD, k.keyCode })
#define LGUI(k) ((Key) { k.flags | GUI_HELD, k.rawKey }) #define LGUI(k) ((Key) { k.flags | GUI_HELD, k.keyCode })
// we assert that synthetic keys can never have keys held, so we reuse the _HELD bits // we assert that synthetic keys can never have keys held, so we reuse the _HELD bits
#define IS_SYSCTL B00000001 #define IS_SYSCTL B00000001

@ -18,9 +18,9 @@ static bool handle_synthetic_key_event(Key mappedKey, uint8_t keyState) {
return false; return false;
} }
} else if (mappedKey.flags & IS_CONSUMER) { } else if (mappedKey.flags & IS_CONSUMER) {
ConsumerControl.press(mappedKey.rawKey); ConsumerControl.press(mappedKey.keyCode);
} else if (mappedKey.flags & IS_SYSCTL) { } else if (mappedKey.flags & IS_SYSCTL) {
SystemControl.press(mappedKey.rawKey); SystemControl.press(mappedKey.keyCode);
} else if (mappedKey.flags & SWITCH_TO_KEYMAP) { } else if (mappedKey.flags & SWITCH_TO_KEYMAP) {
// Should not happen, handled elsewhere. // Should not happen, handled elsewhere.
} }
@ -46,41 +46,41 @@ static bool handle_key_event_default(Key mappedKey, byte row, byte col, uint8_t
void press_key(Key mappedKey) { void press_key(Key mappedKey) {
if (mappedKey.flags & SHIFT_HELD) { if (mappedKey.flags & SHIFT_HELD) {
Keyboard.press(Key_LShift.rawKey); Keyboard.press(Key_LShift.keyCode);
} }
if (mappedKey.flags & CTRL_HELD) { if (mappedKey.flags & CTRL_HELD) {
Keyboard.press(Key_LCtrl.rawKey); Keyboard.press(Key_LCtrl.keyCode);
} }
if (mappedKey.flags & LALT_HELD) { if (mappedKey.flags & LALT_HELD) {
Keyboard.press(Key_LAlt.rawKey); Keyboard.press(Key_LAlt.keyCode);
} }
if (mappedKey.flags & RALT_HELD) { if (mappedKey.flags & RALT_HELD) {
Keyboard.press(Key_RAlt.rawKey); Keyboard.press(Key_RAlt.keyCode);
} }
if (mappedKey.flags & GUI_HELD) { if (mappedKey.flags & GUI_HELD) {
Keyboard.press(Key_LGUI.rawKey); Keyboard.press(Key_LGUI.keyCode);
} }
Keyboard.press(mappedKey.rawKey); Keyboard.press(mappedKey.keyCode);
} }
void release_key(Key mappedKey) { void release_key(Key mappedKey) {
if (mappedKey.flags & SHIFT_HELD) { if (mappedKey.flags & SHIFT_HELD) {
Keyboard.release(Key_LShift.rawKey); Keyboard.release(Key_LShift.keyCode);
} }
if (mappedKey.flags & CTRL_HELD) { if (mappedKey.flags & CTRL_HELD) {
Keyboard.release(Key_LCtrl.rawKey); Keyboard.release(Key_LCtrl.keyCode);
} }
if (mappedKey.flags & LALT_HELD) { if (mappedKey.flags & LALT_HELD) {
Keyboard.release(Key_LAlt.rawKey); Keyboard.release(Key_LAlt.keyCode);
} }
if (mappedKey.flags & RALT_HELD) { if (mappedKey.flags & RALT_HELD) {
Keyboard.release(Key_RAlt.rawKey); Keyboard.release(Key_RAlt.keyCode);
} }
if (mappedKey.flags & GUI_HELD) { if (mappedKey.flags & GUI_HELD) {
Keyboard.release(Key_LGUI.rawKey); Keyboard.release(Key_LGUI.keyCode);
} }
Keyboard.release(mappedKey.rawKey); Keyboard.release(mappedKey.keyCode);
} }
void handle_key_event(Key mappedKey, byte row, byte col, uint8_t keyState) { void handle_key_event(Key mappedKey, byte row, byte col, uint8_t keyState) {

@ -5,8 +5,8 @@ static uint8_t DefaultLayer;
static uint32_t LayerState; static uint32_t LayerState;
static void handle_keymap_key_event(Key keymapEntry, uint8_t keyState) { static void handle_keymap_key_event(Key keymapEntry, uint8_t keyState) {
if (keymapEntry.rawKey >= MOMENTARY_OFFSET) { if (keymapEntry.keyCode >= MOMENTARY_OFFSET) {
uint8_t target = keymapEntry.rawKey - MOMENTARY_OFFSET; uint8_t target = keymapEntry.keyCode - MOMENTARY_OFFSET;
if (key_toggled_on(keyState)) { if (key_toggled_on(keyState)) {
if ( target == KEYMAP_NEXT) { if ( target == KEYMAP_NEXT) {
@ -29,7 +29,7 @@ static void handle_keymap_key_event(Key keymapEntry, uint8_t keyState) {
// switch keymap and stay there // switch keymap and stay there
} else if (key_toggled_on(keyState)) { } else if (key_toggled_on(keyState)) {
Layer.on (keymapEntry.rawKey); Layer.on (keymapEntry.keyCode);
} }
} }

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