import re import typing as t import cv2 import numpy as np from scipy import signal from module.base.timer import Timer from module.base.utils import area_center, crop, rgb2luma from module.logger import logger from module.ocr.ocr import BoxedResult, OcrResultButton, OcrWhiteLetterOnComplexBackground from tasks.base.ui import UI from tasks.character.assets.assets_character_switch import * from tasks.character.keywords import CharacterList, DICT_SORTED_RANGES, KEYWORDS_CHARACTER_LIST class OcrCharacterName(OcrWhiteLetterOnComplexBackground): merge_thres_x = 20 merge_thres_y = 20 def after_process(self, result): result = result.replace('蛆', '妲') # Dan Heng o.ImbibitorLunae result = re.sub(r'[0Oo\-. ]{1,3}Imbi', 'Imbi', result) result = re.sub(r'院.?梅', '阮•梅', result) return super().after_process(result) class CharacterSwitch(UI): characters: list[CharacterList] = [] character_current: CharacterList | None = None character_buttons: list[OcrResultButton] = [] character_is_ranged: t.Optional[bool] = None def character_update(self, skip_first_screenshot=True) -> list[CharacterList]: """ The following properties will be updated: - self.characters - self.character_current - self.character_buttons Pages: in: page_main """ timeout = Timer(1, count=3).start() while 1: if skip_first_screenshot: skip_first_screenshot = False else: self.device.screenshot() # End if timeout.reached(): logger.warning('Character update timeout') break # Ocr names ocr = OcrCharacterName(OCR_MAP_CHARACTERS) buttons = ocr.matched_ocr(self.device.image, keyword_classes=CharacterList) # Add avatars characters = [button.matched_keyword for button in buttons] for trailblazer in self._iter_character_by_avatar(): if trailblazer.matched_keyword not in characters: buttons.append(trailblazer) # Set properties buttons = sorted(buttons, key=lambda b: area_center(b.area)[1]) self.character_buttons = buttons self.characters = [button.matched_keyword for button in self.character_buttons] logger.attr('Characters', self.characters) self.character_current = self._convert_selected_to_character(self._update_current_character()) # Must contain first character if not buttons: continue expected_peaks = np.array([201, 279, 357, 435]) if buttons[0].area[3] < expected_peaks[0]: break else: logger.info('No first character, retrying') continue return self.characters def _iter_character_by_avatar(self) -> t.Iterable[OcrResultButton]: """ Detect characters that can't be found by OCR """ dict_template = { KEYWORDS_CHARACTER_LIST.TrailblazerDestruction: [ TrailblazerDestructionMale, TrailblazerDestructionFemale, ], KEYWORDS_CHARACTER_LIST.TrailblazerPreservation: [ TrailblazerPreservationMale, TrailblazerPreservationFemale, ], KEYWORDS_CHARACTER_LIST.Huohuo: [Huohuo], KEYWORDS_CHARACTER_LIST.FuXuan: [FuXuan], } for character, templates in dict_template.items(): for template in templates: template.load_search(TRAILBLAZER_SEARCH.area) if template.match_template(self.device.image): logger.info(f'Found avatar {template}') # Create a fake OcrResultButton object box = BoxedResult(box=template.button, text_img=None, ocr_text='', score=1.0) button = OcrResultButton(boxed_result=box, matched_keyword=character) yield button def _update_current_character(self) -> list[int]: """ Returns: list[int]: Selected index, 1 to 4. """ # 50px-width area starting from the right edge of HP bars area = (1101, 151, 1151, 459) # Y coordinates where the color peaks should be when character is selected expected_peaks = np.array([201, 279, 357, 435]) expected_peaks_in_area = expected_peaks - area[1] # Use Luminance to fit H264 video stream image = rgb2luma(crop(self.device.image, area)) # Remove character names kernel = cv2.getStructuringElement(cv2.MORPH_RECT, (3, 3)) image = cv2.erode(image, kernel) # To find peaks along Y line = cv2.reduce(image, 1, cv2.REDUCE_AVG).flatten().astype(int) # Find color peaks parameters = { 'height': (60, 255), 'prominence': 30, 'distance': 5, } peaks, _ = signal.find_peaks(line, **parameters) # Remove smooth peaks parameters = { 'height': (5, 255), 'prominence': 5, 'distance': 5, } diff = -np.diff(line) diff_peaks, _ = signal.find_peaks(diff, **parameters) def is_steep_peak(y, threshold=5): return np.abs(diff_peaks - y).min() <= threshold def peak_to_selected(y, threshold=5): distance = np.abs(expected_peaks_in_area - y) return np.argmin(distance) + 1 if distance.min() < threshold else 0 selected = [peak_to_selected(peak) for peak in peaks if peak_to_selected(peak) and is_steep_peak(peak)] logger.attr('CharacterSelected', selected) return selected def _convert_selected_to_character(self, selected: list[int]) -> CharacterList | None: expected_peaks = [201, 279, 357, 435] if not selected: logger.warning(f'No current character') logger.attr('CurrentCharacter', None) return None elif len(selected) == 1: selected = selected[0] else: logger.warning(f'Too many current characters: {selected}, using first') selected = selected[0] expected_y = expected_peaks[selected - 1] for button in self.character_buttons: y = area_center(button.area)[1] if expected_y - 78 < y < expected_y: logger.attr('CurrentCharacter', button.matched_keyword) return button.matched_keyword logger.warning(f'Current character: {selected} does not belong to any detected character') logger.attr('CurrentCharacter', None) return None def character_switch(self, character: CharacterList | str | int, skip_first_screenshot=True) -> bool: """ character_update() must be called before switching. Args: character: CharacterList object, or character name, or select index from 1 to 4. skip_first_screenshot: Returns: bool: If chose success """ logger.info(f'Character choose: {character}') if isinstance(character, int): character = self._convert_selected_to_character([character]) if character is None: return False try: index = self.characters.index(character) + 1 except IndexError: logger.warning(f'Cannot choose character {character} as it was not detected') return False else: if isinstance(character, str): character = CharacterList.find(character) try: index = self.characters.index(character) + 1 except IndexError: logger.warning(f'Cannot choose character {character} as it was not detected') return False button = self.character_buttons[index - 1] interval = Timer(1, count=3) count = 0 while 1: if skip_first_screenshot: skip_first_screenshot = False else: self.device.screenshot() # End selected = self._update_current_character() if index in selected: if len(selected) > 1: logger.warning('Multiple selected characters found, cannot guarantee character selected') return False else: logger.info('Character chose') return True if count > 3: logger.warning('Failed to choose character, assume chose') return False if interval.reached() and self.is_in_main(): self.device.click(button) interval.reset() count += 1 def _get_ranged_character(self) -> CharacterList | bool: # Check if it's using a ranged character already for level, character_list in DICT_SORTED_RANGES.items(): if self.character_current in character_list: logger.info(f'Already using a ranged character: {self.character_current}, range={level}') return True # Check if there is a ranged character in team for level, character_list in DICT_SORTED_RANGES.items(): for ranged_character in character_list: if ranged_character in self.characters: logger.info(f'Use ranged character: {ranged_character}, range={level}') return ranged_character # No kids, as low camera height may miss enemy aim icon if self.character_current.height == 'Kid': # Switch to whoever tall for height in ['Male', 'Lad', 'Lady', 'Miss', 'Maid', 'Boy', 'Girl']: for tall_character in self.characters: if tall_character.height == height: logger.info(f'No kids, use tall character: {tall_character}') return tall_character # No ranged characters logger.info('No ranged characters in team') return False def character_switch_to_ranged(self, update=True) -> bool | None: """ Args: update: If update characters before switching Returns: bool: If using a ranged character now or None if failed to switch """ if self.character_is_ranged is not None: return self.character_is_ranged logger.hr('Character switch to ranged') if update: self.character_update() character = self._get_ranged_character() if character is True: self.character_is_ranged = True return True elif character is False: self.character_is_ranged = False return False success = self.character_switch(character) if success: self.character_is_ranged = True return True else: # Cannot switch, keep None to retry at next call self.character_is_ranged = None return None