Exemplo n.º 1
0
 def __init__(self, modeSwitcher, is_testing=False, repeat_delay=REPEAT_DELAY, repeat_rate=REPEAT_RATE):
     self.inputManager = InputManager(is_testing=is_testing, use_direct_keys=self.use_direct_keys, input_release_lag_ms=self.input_release_lag * 1000)
     self.mode = "regular"
     self.modeSwitcher = modeSwitcher
     self.detector = PatternDetector(self.patterns)
     self.pressed_keys = {}
     self.should_drag = False
     self.ctrlKey = False
     self.shiftKey = False
     self.altKey = False
     
     if( SPEECHREC_ENABLED == True and IS_WINDOWS == True ):
         from dragonfly import Grammar
         from lib.grammar.simple_grammar import SimpleSpeechCommand
         import pythoncom
         self.grammar = Grammar("Simple")
         self.simpleCommandRule = SimpleSpeechCommand(self.speech_commands, callback=self.toggle_speech)
         self.grammar.add_rule( self.simpleCommandRule )
Exemplo n.º 2
0
    def __init__(self, modeSwitcher, is_testing=False):
        self.inputManager = InputManager(is_testing=is_testing)
        if (SPEECHREC_ENABLED == True):
            self.grammar = Grammar("Starcraft")
            self.chatCommandRule = ChatCommandRule()
            self.chatCommandRule.set_callback(self.toggle_speech)
            self.replayCommandRule = ReplaySpeechCommand()
            self.toggleEyetracker = ToggleEyetrackerCommand()
            self.quitReplayCommand = QuitReplayCommand()
            self.quitReplayCommand.set_callback(self.toggle_speech)
            self.grammar.add_rule(self.chatCommandRule)
            self.grammar.add_rule(self.replayCommandRule)
            self.grammar.add_rule(self.toggleEyetracker)
            self.grammar.add_rule(self.quitReplayCommand)

        self.mode = "regular"
        self.modeSwitcher = modeSwitcher
        self.patterns = {
            'select': {
                'strategy': 'continuous',
                'sound': 'sibilant_s',
                'percentage': 95,
                'intensity': 1400,
                'lowest_percentage': 50,
                'lowest_intensity': 1000,
                'throttle': 0
            },
            'rapidclick': {
                'strategy': 'continuous_power',
                'sound': 'general_thrill_thr',
                'percentage': 80,
                'lowest_percentage': 40,
                'power': 20000,
                'lowest_power': 15000,
                'throttle': 0
            },
            'click': {
                'strategy': 'frequency_threshold',
                'sound': 'click_alveolar',
                'percentage': 90,
                'above_frequency': 58,
                'power': 20000,
                'throttle': 0.2
            },
            'movement': {
                'strategy': 'frequency_threshold',
                'sound': 'sound_whistle',
                'percentage': 80,
                'below_frequency': 54,
                'power': 23000,
                'throttle': 0.3
            },
            'click_after_movement': {
                'strategy': 'frequency_threshold',
                'sound': 'sound_whistle',
                'percentage': 80,
                'above_frequency': 54,
                'power': 23000,
                'throttle': 0.3
            },
            'secondary_movement': {
                'strategy': 'rapid_power',
                'sound': 'sound_finger_snap',
                'percentage': 90,
                'power': 100000,
                'throttle': 0.3
            },
            'control': {
                'strategy': 'rapid_power',
                'sound': 'vowel_oh',
                'percentage': 80,
                'below_frequency': 40,
                'ratio': 0.01,
                'power': 20000,
                'throttle': 0.2
            },
            'secondary_control': {
                'strategy': 'combined_power',
                'sound': 'sibilant_z',
                'secondary_sound': 'fricative_v',
                'percentage': 90,
                'power': 20000,
                'ratio': 0,
                'throttle': 0.2
            },
            'shift': {
                'strategy': 'rapid_power',
                'sound': 'sibilant_sh',
                'percentage': 90,
                'power': 18000,
                'throttle': 0.4
            },
            'alt': {
                'strategy': 'rapid_power',
                'sound': 'fricative_v',
                'percentage': 95,
                'power': 200000,
                'throttle': 0.4
            },
            'camera': {
                'strategy': 'combined_power',
                'sound': 'vowel_y',
                'secondary_sound': 'vowel_u',
                'ratio': 4,
                'percentage': 85,
                'power': 15000,
                'throttle': 0.25
            },
            'camera_secondary': {
                'strategy': 'combined_power',
                'sound': 'vowel_eu',
                'secondary_sound': 'vowel_y',
                'percentage': 60,
                'ratio': 0,
                'power': 20000,
                'throttle': 0.18
            },
            'first_ability': {
                'strategy': 'combined',
                'sound': 'vowel_ow',
                'secondary_sound': 'vowel_u',
                'ratio': 0.3,
                'percentage': 90,
                'intensity': 1000,
                'throttle': 0.3
            },
            'second_ability': {
                'strategy': 'rapid_power',
                'sound': 'vowel_ae',
                'percentage': 90,
                'power': 25000,
                'throttle': 0
            },
            'third_ability': {
                'strategy': 'rapid_power',
                'sound': 'approximant_r',
                'percentage': 90,
                'power': 45000,
                'throttle': 0
            },
            'r': {
                'strategy': 'rapid_power',
                'sound': 'fricative_f',
                'percentage': 90,
                'power': 20000,
                'throttle': 0.4
            },
            'grid_ability': {
                'strategy': 'combined_continuous',
                'sound': 'general_vowel_aa',
                'secondary_sound': 'vowel_ah',
                'ratio': 0,
                'percentage': 90,
                'intensity': 1500,
                'lowest_percentage': 12,
                'lowest_intensity': 900
            },
            'numbers': {
                'strategy': 'combined_power',
                'sound': 'vowel_iy',
                'secondary_sound': 'approximant_j',
                'ratio': 0,
                'percentage': 80,
                'power': 25000,
                'throttle': 0.16
            },
            'numbers_secondary': {
                'strategy': 'combined_power',
                'sound': 'vowel_y',
                'secondary_sound': 'vowel_ih',
                'percentage': 60,
                'ratio': 0,
                'power': 20000,
                'throttle': 0.16
            },
            'menu': {
                'strategy': 'rapid_power',
                'sound': 'sound_call_bell',
                'percentage': 80,
                'power': 100000,
                'throttle': 0.5
            }
        }

        self.detector = PatternDetector(self.patterns)

        self.KEY_DELAY_THROTTLE = 0.4

        self.pressed_keys = []
        self.should_follow = False
        self.should_drag = False
        self.last_control_group = -1
        self.ability_selected = False
        self.last_ability_selected = None
        self.ctrlKey = False
        self.shiftKey = False
        self.altKey = False
        self.hold_down_start_timer = 0
        self.hold_down_key_timer = 0
        self.last_key_timestamp = 0

        self.hold_key = ""
Exemplo n.º 3
0
class BaseMode:
    quadrant3x3 = 0
    quadrant4x3 = 0
    speech_commands = {}
    patterns = {}
    toggles = {}
    use_direct_keys = False
    input_release_lag = 0

    def __init__(self, modeSwitcher, is_testing=False, repeat_delay=REPEAT_DELAY, repeat_rate=REPEAT_RATE):
        self.inputManager = InputManager(is_testing=is_testing, use_direct_keys=self.use_direct_keys, input_release_lag_ms=self.input_release_lag * 1000)
        self.mode = "regular"
        self.modeSwitcher = modeSwitcher
        self.detector = PatternDetector(self.patterns)
        self.pressed_keys = {}
        self.should_drag = False
        self.ctrlKey = False
        self.shiftKey = False
        self.altKey = False
        
        if( SPEECHREC_ENABLED == True and IS_WINDOWS == True ):
            from dragonfly import Grammar
            from lib.grammar.simple_grammar import SimpleSpeechCommand
            import pythoncom
            self.grammar = Grammar("Simple")
            self.simpleCommandRule = SimpleSpeechCommand(self.speech_commands, callback=self.toggle_speech)
            self.grammar.add_rule( self.simpleCommandRule )
        
    def start( self ):
        update_overlay_image( "default" )
        toggle_eyetracker()
        
    def exit( self ):
        if( self.mode == "speech" ):
            self.toggle_speech()
    
        update_overlay_image( "default" )
        toggle_eyetracker()
                    
    def handle_input( self, dataDicts ):
        self.detector.tick( dataDicts )
        self.quadrant3x3 = self.detector.detect_mouse_quadrant( 3, 3 )
        self.quadrant4x3 = self.detector.detect_mouse_quadrant( 4, 3 )
        
        if( self.detect_silence() ):
            self.stop_drag_mouse()
            self.inputManager.release_non_toggle_keys()
                
        # Recognize speech commands in speech mode
        if( self.mode == "speech" ):
            if (IS_WINDOWS == True):
                pythoncom.PumpWaitingMessages()
                self.handle_speech( dataDicts )
            else:
                print( "Speech recognition is only implemented for Windows")
                self.mode = "regular"
            
        # Regular quick command mode
        elif( self.mode == "regular" ):
            self.handle_sounds( dataDicts )
            
        return self.detector.tickActions
                
    def handle_speech( self, dataDicts ):
        if (IS_WINDOWS == False):
            print( "No speech handler" )
        return
        
    def handle_sounds( self, dataDicts ):
        print( "No sound handler" )
        return
        
    # Toggle between variables
    # If the value is a list, turn them on in sequence after another
    def toggle( self, value ):
        if (isinstance(value, list)):
            turned_on_index = -1
            for index, key in enumerate(value):
                if (key not in self.toggles):
                    self.toggles[key] = False
                elif (self.toggles[key] == True):
                    turned_on_index = index
                    self.toggles[key] = False
                    
            next_index = turned_on_index + 1
            if (next_index >= len(value)):
                next_index = 0

            self.toggles[value[next_index]] = True
        else:
            if (value not in self.toggles ):
                self.toggles[value] = False
                
            self.toggles[value] = not self.toggles[value]
    
    def enable( self, value ):
        if (isinstance(value, list)):
            for index, key in enumerate(value):
                self.toggles[key] = True
        else:
            self.toggles[value] = True

    def disable( self, value ):
        if (isinstance(value, list)):
            for index, key in enumerate(value):
                self.toggles[key] = False
        else:
            self.toggles[value] = False
        
    def detect( self, key ):
        if (key in self.toggles):
            return self.toggles[key]
    
        return self.detector.detect( key )
        
    def detect_silence( self ):
        return self.detector.detect_silence()        
        
    def drag_mouse( self ):
        self.toggle_drag_mouse( True )

    def stop_drag_mouse( self ):
        self.toggle_drag_mouse( False )
                
    def leftclick( self ):
        self.inputManager.click(button='left')

    def rightclick( self ):
        self.inputManager.click(button='right')
        
    def press( self, key ):
        self.inputManager.press( key )
        
    def hold( self, key, repeat_rate_ms=0 ):
        self.inputManager.hold( key, repeat_rate_ms )
        
    def release( self, key ):
        self.inputManager.release( key )
        
    def release_special_keys( self ):
        self.inputManager.release_special_keys()
        
    def toggle_speech( self ):
        if( self.mode != "speech" ):
            self.mode = "speech"
            self.grammar.load()
            print( "--- TOGGLING SPEECH RECOGNITION ON" )
        else:
            self.mode = "regular"
            self.grammar.unload()
            print( "--- TOGGLING SPEECH RECOGNITION OFF" )
        toggle_speechrec()

    # Drag mouse for selection purposes
    def toggle_drag_mouse( self, should_drag ):
        if( self.should_drag != should_drag ):
            if( should_drag == True ):
                self.inputManager.mouseDown()
            else:
                self.inputManager.mouseUp()
                
        self.should_drag = should_drag
        
    # Detect when the cursor is inside an area
    def detect_inside_area( self, x, y, width, height ):
        return self.detector.detect_inside_minimap( x, y, width, height )

    def update_overlay( self ):
        if( not( self.ctrlKey or self.shiftKey or self.altKey ) ):
            update_overlay_image( "default" )
        else:
            modes = []
            if( self.ctrlKey ):
                modes.append( "ctrl" )
            if( self.shiftKey ):
                modes.append( "shift" )
            if( self.altKey ):
                modes.append( "alt" )
                
            update_overlay_image( "mode-%s" % ( "-".join( modes ) ) )        
Exemplo n.º 4
0
class StarcraftMode:
    def __init__(self, modeSwitcher, is_testing=False):
        self.inputManager = InputManager(is_testing=is_testing)
        if (SPEECHREC_ENABLED == True):
            self.grammar = Grammar("Starcraft")
            self.chatCommandRule = ChatCommandRule()
            self.chatCommandRule.set_callback(self.toggle_speech)
            self.replayCommandRule = ReplaySpeechCommand()
            self.toggleEyetracker = ToggleEyetrackerCommand()
            self.quitReplayCommand = QuitReplayCommand()
            self.quitReplayCommand.set_callback(self.toggle_speech)
            self.grammar.add_rule(self.chatCommandRule)
            self.grammar.add_rule(self.replayCommandRule)
            self.grammar.add_rule(self.toggleEyetracker)
            self.grammar.add_rule(self.quitReplayCommand)

        self.mode = "regular"
        self.modeSwitcher = modeSwitcher
        self.patterns = {
            'select': {
                'strategy': 'continuous',
                'sound': 'sibilant_s',
                'percentage': 95,
                'intensity': 1400,
                'lowest_percentage': 50,
                'lowest_intensity': 1000,
                'throttle': 0
            },
            'rapidclick': {
                'strategy': 'continuous_power',
                'sound': 'general_thrill_thr',
                'percentage': 80,
                'lowest_percentage': 40,
                'power': 20000,
                'lowest_power': 15000,
                'throttle': 0
            },
            'click': {
                'strategy': 'frequency_threshold',
                'sound': 'click_alveolar',
                'percentage': 90,
                'above_frequency': 58,
                'power': 20000,
                'throttle': 0.2
            },
            'movement': {
                'strategy': 'frequency_threshold',
                'sound': 'sound_whistle',
                'percentage': 80,
                'below_frequency': 54,
                'power': 23000,
                'throttle': 0.3
            },
            'click_after_movement': {
                'strategy': 'frequency_threshold',
                'sound': 'sound_whistle',
                'percentage': 80,
                'above_frequency': 54,
                'power': 23000,
                'throttle': 0.3
            },
            'secondary_movement': {
                'strategy': 'rapid_power',
                'sound': 'sound_finger_snap',
                'percentage': 90,
                'power': 100000,
                'throttle': 0.3
            },
            'control': {
                'strategy': 'rapid_power',
                'sound': 'vowel_oh',
                'percentage': 80,
                'below_frequency': 40,
                'ratio': 0.01,
                'power': 20000,
                'throttle': 0.2
            },
            'secondary_control': {
                'strategy': 'combined_power',
                'sound': 'sibilant_z',
                'secondary_sound': 'fricative_v',
                'percentage': 90,
                'power': 20000,
                'ratio': 0,
                'throttle': 0.2
            },
            'shift': {
                'strategy': 'rapid_power',
                'sound': 'sibilant_sh',
                'percentage': 90,
                'power': 18000,
                'throttle': 0.4
            },
            'alt': {
                'strategy': 'rapid_power',
                'sound': 'fricative_v',
                'percentage': 95,
                'power': 200000,
                'throttle': 0.4
            },
            'camera': {
                'strategy': 'combined_power',
                'sound': 'vowel_y',
                'secondary_sound': 'vowel_u',
                'ratio': 4,
                'percentage': 85,
                'power': 15000,
                'throttle': 0.25
            },
            'camera_secondary': {
                'strategy': 'combined_power',
                'sound': 'vowel_eu',
                'secondary_sound': 'vowel_y',
                'percentage': 60,
                'ratio': 0,
                'power': 20000,
                'throttle': 0.18
            },
            'first_ability': {
                'strategy': 'combined',
                'sound': 'vowel_ow',
                'secondary_sound': 'vowel_u',
                'ratio': 0.3,
                'percentage': 90,
                'intensity': 1000,
                'throttle': 0.3
            },
            'second_ability': {
                'strategy': 'rapid_power',
                'sound': 'vowel_ae',
                'percentage': 90,
                'power': 25000,
                'throttle': 0
            },
            'third_ability': {
                'strategy': 'rapid_power',
                'sound': 'approximant_r',
                'percentage': 90,
                'power': 45000,
                'throttle': 0
            },
            'r': {
                'strategy': 'rapid_power',
                'sound': 'fricative_f',
                'percentage': 90,
                'power': 20000,
                'throttle': 0.4
            },
            'grid_ability': {
                'strategy': 'combined_continuous',
                'sound': 'general_vowel_aa',
                'secondary_sound': 'vowel_ah',
                'ratio': 0,
                'percentage': 90,
                'intensity': 1500,
                'lowest_percentage': 12,
                'lowest_intensity': 900
            },
            'numbers': {
                'strategy': 'combined_power',
                'sound': 'vowel_iy',
                'secondary_sound': 'approximant_j',
                'ratio': 0,
                'percentage': 80,
                'power': 25000,
                'throttle': 0.16
            },
            'numbers_secondary': {
                'strategy': 'combined_power',
                'sound': 'vowel_y',
                'secondary_sound': 'vowel_ih',
                'percentage': 60,
                'ratio': 0,
                'power': 20000,
                'throttle': 0.16
            },
            'menu': {
                'strategy': 'rapid_power',
                'sound': 'sound_call_bell',
                'percentage': 80,
                'power': 100000,
                'throttle': 0.5
            }
        }

        self.detector = PatternDetector(self.patterns)

        self.KEY_DELAY_THROTTLE = 0.4

        self.pressed_keys = []
        self.should_follow = False
        self.should_drag = False
        self.last_control_group = -1
        self.ability_selected = False
        self.last_ability_selected = None
        self.ctrlKey = False
        self.shiftKey = False
        self.altKey = False
        self.hold_down_start_timer = 0
        self.hold_down_key_timer = 0
        self.last_key_timestamp = 0

        self.hold_key = ""

    def toggle_speech(self, with_enter=True):
        self.release_hold_keys()

        if (self.mode != "speech"):
            self.mode = "speech"
            self.grammar.load()
            if (with_enter):
                self.inputManager.press('enter')
        else:
            self.mode = "regular"
            self.grammar.unload()
        toggle_speechrec()

    # Used in case the speech recognition is triggered accidentally
    def reset_mode(self):
        if (self.mode == "speech"):
            self.grammar.unload()
            toggle_speechrec()
        self.inputManager.press("esc")
        self.detector.add_tick_action("Esc")
        self.mode = "regular"

    def start(self):
        mute_sound()
        toggle_eyetracker()
        update_overlay_image("default")

    def cast_ability(self, ability):
        self.press_ability(ability)
        self.ability_selected = True

    def hold_shift(self, shift):
        if (self.shiftKey != shift):
            if (shift == True):
                self.inputManager.keyDown('shift')
                self.shiftKey = shift
                self.update_overlay()
            else:
                self.inputManager.keyUp('shift')
                self.shiftKey = shift
                self.update_overlay()

    def hold_alt(self, alt):
        if (self.altKey != alt):
            if (alt == True):
                self.altKey = alt
                self.update_overlay()
                self.detector.deactivate_for('first_ability', 0.1)
                self.detector.deactivate_for('second_ability', 0.1)
            else:
                self.altKey = alt
                self.update_overlay()
                self.detector.deactivate_for('first_ability', 0.3)
                self.detector.deactivate_for('second_ability', 0.15)

    def hold_control(self, ctrlKey):
        if (self.ctrlKey != ctrlKey):
            if (ctrlKey == True):
                self.inputManager.keyDown('ctrl')
                self.ctrlKey = ctrlKey
                self.update_overlay()
            else:
                self.inputManager.keyUp('ctrl')
                self.ctrlKey = ctrlKey
                self.update_overlay()

    def release_hold_keys(self):
        self.ability_selected = False
        self.hold_control(False)
        self.hold_shift(False)
        self.hold_alt(False)
        self.update_overlay()

    def handle_input(self, dataDicts):
        self.detector.tick(dataDicts)

        # Always allow switching between speech and regular mode
        if (self.detector.detect("menu")):
            self.release_hold_keys()

            quadrant3x3 = self.detector.detect_mouse_quadrant(3, 3)
            if (quadrant3x3 == 9):
                self.press_ability('f10')
            elif (quadrant3x3 == 2):
                self.release_hold_keys()
                self.toggle_speech(False)
            elif (quadrant3x3 == 1):
                self.reset_mode()
            elif (quadrant3x3 == 7):
                self.mode = "ignore_commands"
            elif (quadrant3x3 == 3):
                self.release_hold_keys()
                self.toggle_speech()
            else:
                self.press_ability('esc')
                self.detector.add_tick_action("Esc")

            self.update_command_file(dataDicts)

            return self.detector.tickActions
        # Recognize speech commands in speech mode
        elif (self.mode == "speech"):
            pythoncom.PumpWaitingMessages()

            return self.detector.tickActions

        # Regular quick command mode
        elif (self.mode == "regular"):
            self.handle_quick_commands(dataDicts)

        self.update_command_file(dataDicts)

        return self.detector.tickActions

    def handle_quick_commands(self, dataDicts):
        # Early escape for performance
        if (self.detector.detect_silence()):
            self.drag_mouse(False)
            self.hold_down_start_timer = 0
            return

        if (self.detector.detect_below_threshold(800)):
            self.hold_down_start_timer = 0

        # Selecting units
        rapidclick = self.detector.detect("rapidclick")
        selecting = self.detector.detect("select")
        if (self.ability_selected and selecting):
            self.inputManager.click(button='left')
            self.ability_selected = False

            # Clear the throttles for abilities
            self.detector.clear_throttle('camera')
            self.detector.clear_throttle('first_ability')
            self.detector.clear_throttle('second_ability')
            self.detector.clear_throttle('third_ability')
            self.detector.deactivate_for('select', 0.3)
        elif (rapidclick):
            if (self.last_ability_selected == 'first'):
                self.cast_ability_throttled('z', 0.03)
            elif (self.last_ability_selected == 'second'):
                self.cast_ability_throttled('x', 0.03)
            elif (self.last_ability_selected == 'third'):
                self.cast_ability_throttled('c', 0.03)

            # Prevent some misclassifying errors when using the thr sound
            self.detector.deactivate_for('control', 0.3)
            self.detector.deactivate_for('click', 0.1)
            self.detector.deactivate_for('grid_ability', 0.3)
            self.ability_selected = False
        else:
            self.drag_mouse(selecting)

        ## Click after attacking
        if (self.detector.is_throttled('movement')
                and self.detector.detect("click_after_movement")):
            self.inputManager.click(button='left')
            self.detector.add_tick_action("Lclick")

            self.ability_selected = False

        ## Press Grid ability
        if (self.detector.detect("grid_ability") and not rapidclick):
            quadrant4x3 = self.detector.detect_mouse_quadrant(4, 3)
            if (time.time() - self.hold_down_start_timer >
                    self.KEY_DELAY_THROTTLE):
                self.use_ability_throttled(quadrant4x3, 0.025)
                self.release_hold_keys()

            if (self.hold_down_start_timer == 0):
                self.hold_down_start_timer = time.time()

            self.detector.deactivate_for('control', 0.15)
            self.detector.deactivate_for('secondary_control', 0.15)
            self.detector.deactivate_for('movement', 0.15)

        if (selecting):
            self.ability_selected = False
            self.hold_control(False)

        elif (self.detector.detect("click")):

            # Cast selected ability or Ctrl+click
            if (self.detect_command_area() or self.ability_selected == True
                    or self.ctrlKey == True or self.altKey == True
                    or (self.shiftKey and self.detect_selection_tray())):
                self.inputManager.click(button='left')
                self.detector.add_tick_action("left click")
            else:
                self.inputManager.click(button='right')
                self.detector.add_tick_action("right click")

            self.detector.deactivate_for('grid_ability', 0.4)
            self.detector.deactivate_for('secondary_movement', 0.4)
            self.detector.deactivate_for('movement', 0.3)

            # Release the held keys - except when shift clicking units in the selection tray ( for easy removing from the unit group )
            if (not (self.shiftKey and self.detect_selection_tray())):
                self.release_hold_keys()

        # CTRL KEY holding
        elif (self.detector.detect("control")):
            self.hold_control(True)
            self.detector.add_tick_action("CTRL")
        elif (self.detector.detect("secondary_control")):
            self.hold_control(True)
            self.detector.deactivate_for('select', 0.2)
            self.detector.deactivate_for('camera', 0.2)
            self.detector.add_tick_action("CTRL")

        # SHIFT KEY holding / toggling
        elif (self.detector.detect("shift")):
            self.hold_shift(not self.shiftKey)
            if (self.shiftKey):
                self.detector.add_tick_action("SHIFT")

        # ALT KEY holding / toggling
        elif (self.detector.detect("alt")):
            self.hold_alt(not self.altKey)
            if (self.shiftKey):
                self.detector.add_tick_action("ALT")

        ## Primary movement options
        elif (self.detector.detect("movement")):
            self.cast_ability('k')
            self.detector.deactivate_for('control', 0.4)

            self.hold_shift(False)
        ## Secondary movement options
        elif (self.detector.detect("secondary_movement")):
            quadrant3x3 = self.detector.detect_mouse_quadrant(3, 3)
            if (quadrant3x3 == 1):
                self.cast_ability('p')
                self.hold_shift(False)
            elif (quadrant3x3 == 3):
                self.press_ability('h')
                self.hold_shift(False)

        ## Press Q
        elif (self.detector.detect("first_ability")):
            self.ability_selected = True
            self.detector.clear_throttle('rapidclick')
            self.last_ability_selected = 'first'

            self.inputManager.press('q')
            self.detector.add_tick_action("Q")
            self.detector.deactivate_for('control', 0.25)

        ## Press W
        elif (self.detector.detect("second_ability")):
            self.ability_selected = True
            self.detector.clear_throttle('rapidclick')
            self.last_ability_selected = 'second'

            if (time.time() - self.hold_down_key_timer >
                    self.KEY_DELAY_THROTTLE):
                self.press_ability_throttled('w', 0.1)

            if (self.hold_down_key_timer == 0):
                self.hold_down_key_timer = time.time()
        ## Press E
        elif (self.detector.detect("third_ability")):
            print("THIRD ABILITY!")
            self.ability_selected = True
            self.detector.clear_throttle('rapidclick')
            self.last_ability_selected = 'third'

            if (time.time() - self.hold_down_key_timer >
                    self.KEY_DELAY_THROTTLE):
                self.press_ability_throttled('e', 0.1)

            if (self.hold_down_key_timer == 0):
                self.hold_down_key_timer = time.time()
        ## Press R ( Burrow )
        elif (self.detector.detect("r")):
            self.last_ability_selected = 'third'

            self.inputManager.press('r')
            self.detector.add_tick_action("R")

        ## Move the camera
        elif (self.detector.detect("camera")):
            quadrant3x3 = self.detector.detect_mouse_quadrant(3, 3)
            self.camera_movement(quadrant3x3)
            self.hold_control(False)
            self.hold_shift(False)
            self.hold_alt(False)
        elif (self.ctrlKey == True and self.detector.is_throttled('control')
              and self.detector.detect("camera_secondary")):
            quadrant3x3 = self.detector.detect_mouse_quadrant(3, 3)
            self.camera_movement(quadrant3x3)
            self.hold_control(False)
            self.hold_shift(False)
            self.hold_alt(False)

            self.detector.deactivate_for('camera', 0.3)
            self.detector.deactivate_for('numbers', 0.3)
        ## Press control group ( only allow CTRL and SHIFT )
        elif (self.detector.detect("numbers")):
            quadrant3x3 = self.detector.detect_mouse_quadrant(3, 3)
            self.use_control_group(quadrant3x3)

            self.hold_alt(False)
            self.hold_control(False)
            self.hold_shift(False)
            self.detector.deactivate_for('camera', 0.3)
        elif (((self.ctrlKey == True
                and self.detector.is_throttled('secondary_control'))
               or self.shiftKey == True)
              and self.detector.detect("numbers_secondary")):
            quadrant3x3 = self.detector.detect_mouse_quadrant(3, 3)
            self.use_control_group(quadrant3x3)

            self.hold_alt(False)
            self.hold_control(False)
            self.hold_shift(False)
            self.detector.deactivate_for('camera', 0.3)
            self.detector.deactivate_for('numbers', 0.3)
        else:
            self.hold_down_key_timer = 0

        return

    def use_control_group(self, quadrant):
        if (quadrant == 1):
            self.press_ability('1')
        elif (quadrant == 2):
            self.press_ability('2')
        elif (quadrant == 3):
            self.press_ability('3')
        elif (quadrant == 4):
            self.press_ability('4')
        elif (quadrant == 5):
            self.press_ability('5')
        elif (quadrant == 6):
            self.press_ability('6')
        elif (quadrant == 7):
            self.press_ability('7')
        elif (quadrant == 8):
            self.press_ability('8')
        elif (quadrant == 9):
            self.press_ability('9')

        self.last_control_group = quadrant

    def use_ability(self, quadrant):
        if (quadrant == 1):
            self.press_ability('q')
        elif (quadrant == 2):
            self.press_ability('w')
        elif (quadrant == 3):
            self.press_ability('e')
        elif (quadrant == 4):
            self.press_ability('r')
        elif (quadrant == 5):
            self.press_ability('a')
        elif (quadrant == 6):
            self.press_ability('s')
        elif (quadrant == 7):
            self.press_ability('d')
        elif (quadrant == 8):
            self.press_ability('f')
        elif (quadrant == 9):
            self.press_ability('z')
        elif (quadrant == 10):
            self.press_ability('x')
        elif (quadrant == 11):
            self.press_ability('c')
        elif (quadrant == 12):
            self.press_ability('v')

    def use_ability_throttled(self, quadrant, throttle):
        if (time.time() - self.last_key_timestamp > throttle):
            self.last_key_timestamp = time.time()
            self.use_ability(quadrant)

    def press_ability(self, key):
        self.inputManager.press(key)
        self.detector.add_tick_action(key.upper())
        self.release_hold_keys()

    def cast_ability_throttled(self, key, throttle):
        if (time.time() - self.last_key_timestamp > throttle):
            self.last_key_timestamp = time.time()
            self.inputManager.press(key)
            self.detector.add_tick_action(key)

    def press_ability_throttled(self, key, throttle):
        if (time.time() - self.last_key_timestamp > throttle):
            self.last_key_timestamp = time.time()
            self.press_ability(key)

    def camera_movement(self, quadrant):
        ## Move camera to kerrigan when looking above the UI
        if (quadrant == 1):
            self.inputManager.press("f1")
            self.detector.add_tick_action("F1")
        elif (quadrant == 2):
            self.inputManager.press("f2")
            self.detector.add_tick_action("F2")
        elif (quadrant == 3):
            self.inputManager.press("f3")
            self.detector.add_tick_action("F3")
        elif (quadrant == 4):
            self.inputManager.press("f5")
            self.detector.add_tick_action("F5")
        elif (quadrant == 5):
            self.inputManager.press("backspace")
            self.detector.add_tick_action("backspace")
        ## Camera hotkeys
        elif (quadrant == 6):
            self.inputManager.press("f6")
            self.detector.add_tick_action("F6")

        ## Camera hotkey
        elif (quadrant == 7):
            self.inputManager.press("f7")
            self.detector.add_tick_action("F7")

        ## Camera hotkey
        elif (quadrant == 8):
            self.inputManager.press("f8")
            self.detector.add_tick_action("F8")

        ## Camera hotkey
        elif (quadrant == 9):
            self.inputManager.press("f9")
            self.detector.add_tick_action("F9")

    # Detect when the cursor is inside the command area
    def detect_command_area(self):
        return self.detector.detect_inside_minimap(1521, 815, 396, 266)

    # Detect when the cursor is inside the command area
    def detect_selection_tray(self):
        return self.detector.detect_inside_minimap(360, 865, 1000, 215)

    # Drag mouse for selection purposes
    def drag_mouse(self, should_drag):
        if (self.should_drag != should_drag):
            if (should_drag == True):
                self.inputManager.mouseDown()
                self.detector.add_tick_action("Mouse drag")
            else:
                self.inputManager.mouseUp()

        self.should_drag = should_drag

    def update_overlay(self):
        if (not (self.ctrlKey or self.shiftKey or self.altKey)):
            update_overlay_image("default")
        else:
            modes = []
            if (self.ctrlKey):
                modes.append("ctrl")
            if (self.shiftKey):
                modes.append("shift")
            if (self.altKey):
                modes.append("alt")

            update_overlay_image("mode-starcraft-%s" % ("-".join(modes)))

    def update_command_file(self, dataDicts):
        with open(COMMAND_FILE, 'r+') as fp:

            # Read initial data first
            ctrl_shift_alt = fp.readline()
            sound = fp.readline().rstrip("\n")
            command = fp.readline().rstrip("\n")
            times = fp.readline().rstrip("\n")
            if (times == ""):
                times = 0

            ctrl_shift_alt = ""
            if (self.ctrlKey):
                ctrl_shift_alt = "ctrl"
            if (self.shiftKey):
                ctrl_shift_alt = ctrl_shift_alt + "shift"
            if (self.altKey):
                ctrl_shift_alt = ctrl_shift_alt + "alt"

            if (len(self.detector.tickActions) > 1):
                sound = self.strat_to_sound(self.detector.tickActions[0])

                new_command = self.detector.tickActions[-1]
                if (new_command == command):
                    times = int(times) + 1
                else:
                    times = 1
                command = new_command
                fp.truncate(0)

            # Start writing new information
            fp.seek(0)
            fp.write(ctrl_shift_alt + '\n')
            fp.write(sound + '\n')
            fp.write(command + '\n')
            fp.write(str(times))
            fp.close()

    def strat_to_sound(self, strategy):
        sound = self.patterns[strategy]['sound']
        sound = "/" + sound.replace("general_", "").replace(
            "vowel_",
            "").replace("sibilant_", "").replace("thrill_", "").replace(
                "sound_", "").replace("fricative_", "").replace(
                    "_alveolar", "").replace("approximant_", "") + "/"
        return sound

    def exit(self):
        if (self.mode == "speech"):
            self.toggle_speech()

        self.release_hold_keys()
        self.mode = "regular"
        turn_on_sound()
        update_overlay_image("default")
        toggle_eyetracker()