#include "key_events.h" void handle_synthetic_key_event(uint8_t switchState, Key mappedKey) { if (mappedKey.flags & IS_MOUSE_KEY && !( mappedKey.rawKey & KEY_MOUSE_WARP) ) { handle_mouse_key_event(switchState, mappedKey); } else if (! (mappedKey.flags & IS_INTERNAL) && (mappedKey.rawKey == KEY_MOUSE_BTN_L || mappedKey.rawKey == KEY_MOUSE_BTN_M || mappedKey.rawKey == KEY_MOUSE_BTN_R)) { if (key_toggled_on (switchState)) { MouseWrapper.press_button( (mappedKey.rawKey == KEY_MOUSE_BTN_L ? KEY_MOUSE_BUTTON_LEFT : 0x00) | (mappedKey.rawKey == KEY_MOUSE_BTN_M ? KEY_MOUSE_BUTTON_MIDDLE : 0x00) | (mappedKey.rawKey == KEY_MOUSE_BTN_R ? KEY_MOUSE_BUTTON_RIGHT : 0x00) ); } else if (key_toggled_off(switchState)) { MouseWrapper.release_button( (mappedKey.rawKey == KEY_MOUSE_BTN_L ? KEY_MOUSE_BUTTON_LEFT : 0x00) | (mappedKey.rawKey == KEY_MOUSE_BTN_M ? KEY_MOUSE_BUTTON_MIDDLE : 0x00) | (mappedKey.rawKey == KEY_MOUSE_BTN_R ? KEY_MOUSE_BUTTON_RIGHT : 0x00) ); } } else if (key_toggled_on(switchState)) { if (mappedKey.rawKey & KEY_MOUSE_WARP && mappedKey.flags & IS_MOUSE_KEY) { // we don't pass in the left and up values because those are the // default, "no-op" conditionals MouseWrapper.warp( ((mappedKey.rawKey & KEY_MOUSE_WARP_END) ? WARP_END : 0x00) | ((mappedKey.rawKey & KEY_MOUSE_DOWN) ? WARP_DOWN : 0x00) | ((mappedKey.rawKey & KEY_MOUSE_RIGHT) ? WARP_RIGHT : 0x00) ); } else if (mappedKey.flags & IS_CONSUMER) { ConsumerControl.press(mappedKey.rawKey); } else if (mappedKey.flags & IS_INTERNAL) { if (mappedKey.rawKey == LED_TOGGLE) { LEDControl.next_mode(); } } else if (mappedKey.flags & IS_SYSCTL) { SystemControl.press(mappedKey.rawKey); } else if (mappedKey.flags & IS_MACRO) { if (mappedKey.rawKey == 1) { Serial.print("Keyboard.IO keyboard driver v0.00"); } } } } void handle_key_event(byte row, byte col, uint8_t *switchState) { //for every newly pressed button, figure out what logical key it is and send a key down event // for every newly released button, figure out what logical key it is and send a key up event Key mappedKey = keymaps[temporary_keymap][row][col]; if (keymaps[primary_keymap][row][col].flags & SWITCH_TO_KEYMAP) { handle_keymap_key_event(*switchState, keymaps[primary_keymap][row][col]); } if (mappedKey.flags & SYNTHETIC_KEY) { handle_synthetic_key_event(*switchState, mappedKey); } else if (key_is_pressed(*switchState)) { press_key(mappedKey); } } void press_key(Key mappedKey) { if (mappedKey.flags & SHIFT_HELD) { Keyboard.press(Key_LShift.rawKey); } if (mappedKey.flags & CTRL_HELD) { Keyboard.press(Key_LCtrl.rawKey); } if (mappedKey.flags & ALT_HELD) { Keyboard.press(Key_RAlt.rawKey); } if (mappedKey.flags & GUI_HELD) { Keyboard.press(Key_LGUI.rawKey); } Keyboard.press(mappedKey.rawKey); } void handle_keymap_key_event(uint8_t switchState, Key keymapEntry) { if (keymapEntry.flags & MOMENTARY ) { if (key_toggled_on(switchState)) { if ( keymapEntry.rawKey == KEYMAP_NEXT) { temporary_keymap++; } else if ( keymapEntry.rawKey == KEYMAP_PREVIOUS) { temporary_keymap--; } else { temporary_keymap = keymapEntry.rawKey; } } if (key_toggled_off(switchState)) { temporary_keymap = primary_keymap; } // switch keymap and stay there } else if (key_toggled_on(switchState)) { temporary_keymap = primary_keymap = keymapEntry.rawKey; Storage.save_primary_keymap(primary_keymap); } } void handle_mouse_key_event(uint8_t switchState, Key mappedKey) { if (key_is_pressed(switchState)) { if (mappedKey.rawKey & KEY_MOUSE_UP) { MouseWrapper.move(0,-1); } if (mappedKey.rawKey & KEY_MOUSE_DOWN) { MouseWrapper.move(0,1); } if (mappedKey.rawKey & KEY_MOUSE_LEFT) { MouseWrapper.move(-1,0); } if (mappedKey.rawKey & KEY_MOUSE_RIGHT) { MouseWrapper.move(1,0); } } }