mirror of
https://github.com/LmeSzinc/StarRailCopilot.git
synced 2024-11-25 18:05:26 +00:00
179 lines
5.2 KiB
Python
179 lines
5.2 KiB
Python
import os
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import numpy as np
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from PIL import Image
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from module.base.utils import load_image
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class ResourceConst:
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SRCMAP = ''
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# Hard-coded coordinates under 1280x720
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MINIMAP_CENTER = (39 + 78, 48 + 78)
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MINIMAP_RADIUS = 78
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POSITION_RADIUS = 75
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# Downscale GIMAP and minimap for faster run
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POSITION_SEARCH_SCALE = 0.5
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# Search the area that is 1.666x minimap, about 100px in wild on GIMAP
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POSITION_SEARCH_RADIUS = 1.666
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# Can't figure out why but the result_of_0.5_lookup_scale + 0.5 ~= result_of_1.0_lookup_scale
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POSITION_MOVE_PATCH = (0.5, 0.5)
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# Position starting from the upper-left corner of the template image
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# but search an area larger than map
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# MINIMAP_RADIUS * POSITION_SEARCH_RADIUS * <max_scale>
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# POSITION_FEATURE_PAD = int(MINIMAP_RADIUS * POSITION_SEARCH_RADIUS * 1.5)
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POSITION_FEATURE_PAD = 155
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# Must be odd, equals int(9 * POSITION_SEARCH_SCALE) + 1
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POSITION_AREA_DILATE = 5
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# Radius to search direction arrow, about 12px
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DIRECTION_RADIUS = 12
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# Downscale direction arrows for faster run
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DIRECTION_SEARCH_SCALE = 0.5
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# Scale to 1280x720
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DIRECTION_ROTATION_SCALE = 1.0
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# Color of the direction arrow
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DIRECTION_ARROW_COLOR = (2, 199, 255)
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# Downscale GIMAP to run faster
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BIGMAP_SEARCH_SCALE = 0.25
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# Magic number that resize a 1280x720 screenshot to GIMAP_luma_05x_ps
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BIGMAP_POSITION_SCALE = 0.6137
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BIGMAP_POSITION_SCALE_ENKANOMIYA = 0.6137 * 0.7641
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# Pad 600px, cause camera sight in game is larger than GIMAP
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BIGMAP_BORDER_PAD = int(600 * BIGMAP_SEARCH_SCALE)
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# Swipe 400px is about 85~90 degree
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# <rotation_diff> * ROTATION_SWIPE_MULTIPLY = <distance_to_swipe>
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ROTATION_SWIPE_MULTIPLY = 400 / 85
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# Max distance in one swipe, limited in -600px~600px
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ROTATION_SWIPE_MAX_DISTANCE = 600
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def __init__(self):
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# Usually to be 0.4~0.5
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self.position_similarity = 0.
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# Usually > 0.05
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self.position_similarity_local = 0.
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# Current position on GIMAP with an error of about 0.1 pixel
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self.position: tuple[float, float] = (0, 0)
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# Minimap scale factor, 1.0~1.25
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self.position_scale = 1.0
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# Usually > 0.3
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# Warnings will be logged if similarity <= 0.8
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self.direction_similarity = 0.
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# Current character direction with an error of about 0.1 degree
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self.direction: float = 0.
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# Usually > 0.9
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self.rotation_confidence = 0.
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# Current cameta rotation with an error of about 1 degree
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self.rotation: int = 0
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# Usually to be 0.4~0.5
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self.bigmap_similarity = 0.
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# Usually > 0.05
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self.bigmap_similarity_local = 0.
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# Current position on GIMAP with an error of about 0.1 pixel
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self.bigmap: tuple[float, float] = (0, 0)
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def filepath(self, path: str) -> str:
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return os.path.abspath(os.path.join(self.SRCMAP, path))
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def load_image(self, file):
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if os.path.isabs(file):
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return load_image(file)
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else:
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return load_image(self.filepath(file))
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def save_image(self, image, file):
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file = self.filepath(file)
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print(f'Save image: {file}')
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Image.fromarray(image).save(file)
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def position_diff(self, target):
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"""
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Args:
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target: Target position (x, y)
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Returns:
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float: Distance to current position
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"""
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diff = np.linalg.norm(np.subtract(target, self.position))
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diff = round(diff, 3)
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return diff
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def is_position_near(self, target, threshold=5):
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return self.position_diff(target) <= threshold
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def position2direction(self, target):
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"""
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Args:
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target: Target position (x, y)
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Returns:
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float: Direction from current position to target position (0~360)
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"""
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diff = np.subtract(target, self.position)
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distance = np.linalg.norm(diff)
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if distance < 0.05:
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return 0
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theta = np.rad2deg(np.arccos(-diff[1] / distance))
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if diff[0] < 0:
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theta = 360 - theta
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theta = round(theta, 3)
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return theta
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def direction_diff(self, target):
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"""
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Args:
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target: Target degree (0~360)
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Returns:
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float: Diff to current direction (-180~180)
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"""
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return diff_to_180_180(self.direction - target)
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def is_direction_near(self, target, threshold=15):
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return abs(self.direction_diff(target)) <= threshold
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def rotation_diff(self, target):
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"""
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Args:
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target: Target degree (0~360)
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Returns:
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float: Diff to current rotation (-180~180)
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"""
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return diff_to_180_180(self.rotation - target)
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def is_rotation_near(self, target, threshold=10):
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return abs(self.rotation_diff(target)) <= threshold
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def diff_to_180_180(diff):
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"""
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Args:
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diff: Degree diff
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Returns:
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float: Degree diff (-180~180)
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"""
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diff = diff % 360
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if diff > 180:
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diff -= 360
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return round(diff, 3)
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def diff_to_0_360(diff):
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"""
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Args:
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diff: Degree diff
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Returns:
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float: Degree diff (0~360)
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"""
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return round(diff % 360, 3)
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