162 lines
6.5 KiB
Python
162 lines
6.5 KiB
Python
import gameio
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import cv2
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import numpy as np
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from utility import *
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import pointcluster
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class GameModel:
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"""Platform-independent representation of the game's state."""
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def __init__(self, io:gameio.AbstractGameIO):
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self.gameio = io
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self.asteroids = [
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("big", cv2.imread("images/game_assets/rock-big.png", 0)),
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("normal", cv2.imread("images/game_assets/rock-normal.png", 0)),
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("small", cv2.imread("images/game_assets/rock-small.png", 0))
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]
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self.ships = [
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("ship_off", cv2.imread("images/game_assets/spaceship-off.png", 0)),
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("ship_on", cv2.imread("images/game_assets/spaceship-on.png", 0))
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]
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#self.missile = ("missile", cv2.imread("images/game_assets/missile.png", 0))
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self.frame = None
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self.cv_template_thresh = 0.6 # reconfigurable at runtime
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self.duplicate_dist_thresh = 36
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def with_frame(fn):
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"""Decorator to process screenshot to cv2 format once upon first requirement, then reuse."""
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def inner(self, *args, **kwargs):
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if self.frame is None:
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#print("Fetching frame.")
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sshot = self.gameio.fetch_sshot()
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open_cv_image = np.array(sshot)
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# Convert RGB to BGR
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self.frame = open_cv_image[:, :, ::-1].copy()
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self.color_frame = np.copy(self.frame)
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self.frame = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
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return fn(self, *args, **kwargs)
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return inner
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def clear_frame(self):
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self.frame = None
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@with_frame
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def find_asteroids(self):
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asteroid_rects = []
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for label, a in self.asteroids:
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h, w = a.shape
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res = cv2.matchTemplate(self.frame, a, cv2.TM_CCOEFF_NORMED)
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loc = np.where( res >= self.cv_template_thresh)
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for pt in zip(*loc[::-1]):
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if not asteroid_rects or squared_distance(asteroid_rects[-1][0], pt) > self.duplicate_dist_thresh:
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asteroid_rects.append((pt, (pt[0] + w, pt[1] + h), label))
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return asteroid_rects
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@with_frame
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def display_results(self, rects = [], pointsets = [], circles = []):
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"""Draws results on the current frame for test purposes."""
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displayable = np.copy(self.color_frame)
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for pt, wh, label in rects:
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color = { "big": (255, 0, 0),
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"normal": (0, 255, 0),
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"small": (0, 0, 255),
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"missile": (128, 0, 0),
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"ship_on": (0, 0, 128),
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"ship_off": (0, 64, 128)}[label]
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cv2.rectangle(displayable, pt, wh, color, 1)
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cv2.putText(displayable, label, pt,
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cv2.FONT_HERSHEY_PLAIN,
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1.0, color)
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for ps in pointsets:
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color = (0, 255, 255)
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cv2.polylines(displayable, np.int32([ps]), True, color)
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for center, radius, label in circles:
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color = (255, 255, 0)
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cv2.circle(displayable, np.int32(center), int(radius), color, 1)
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cv2.putText(displayable, label, np.int32(center),
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cv2.FONT_HERSHEY_PLAIN,
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1.0, color)
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cv2.imshow("Results", displayable)
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cv2.waitKey(0)
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@with_frame
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def frame_sift(self):
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sift = cv2.SIFT_create()
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kp_desc = {} # dict of (keypoints, descriptions) for all ship sprites
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kp_desc["frame"] = sift.detectAndCompute(self.frame, None)
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frame_kp, frame_desc = kp_desc["frame"]
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## for label, s in self.ships:
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## kp_desc[label] = sift.detectAndCompute(s, None)
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## bf = cv2.BFMatcher(cv2.NORM_L1, crossCheck=True)
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## matchsets = {}
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## for label in kp_desc:
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## _, desc = kp_desc[label]
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## matchsets[label] = bf.match(frame_desc, desc)
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## #return { "matchsets": matchsets,
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## # "kp_desc": kp_desc
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## # }
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ship_rsq = rect_radius_squared(*self.ships[0][1].shape)
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#print(f"max radius^2: {ship_rsq}")
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clusters = pointcluster.cluster_set([k.pt for k in frame_kp], sqrt(ship_rsq))
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return clusters
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@with_frame
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def find_ships(self):
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ship_rects = []
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for label, a in self.ships:
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h, w = a.shape
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res = cv2.matchTemplate(self.frame, a, cv2.TM_CCOEFF_NORMED)
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loc = np.where( res >= self.cv_template_thresh)
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for pt in zip(*loc[::-1]):
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if not ship_rects or squared_distance(ship_rects[-1][0], pt) > self.duplicate_dist_thresh:
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ship_rects.append((pt, (pt[0] + w, pt[1] + h), label))
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return ship_rects
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## @with_frame
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## def find_missiles(self):
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## """This technique does not work for the 9x9 pixel missile image."""
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## missile_rects = []
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## label, img = self.missile
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## h, w = img.shape
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## res = cv2.matchTemplate(self.frame, img, cv2.TM_CCOEFF_NORMED)
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## loc = np.where( res >= self.cv_template_thresh)
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## for pt in zip(*loc[::-1]):
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## if not missile_rects or squared_distance(missile_rects[-1][0], pt) > self.duplicate_dist_thresh:
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## missile_rects.append((pt, (pt[0] + w, pt[1] + h), label))
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## return missile_rects
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if __name__ == '__main__':
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import platform
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if platform.system() == "Windows":
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io = gameio.WindowsGameIO()
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# TODO: Detect OSX or show a message of sadness
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else:
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io = gameio.LinuxGameIO()
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#input("Press <enter> to locate the game at the start screen.")
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gm = GameModel(io)
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# for testing purposes, populating window location at top-left of my screen
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# io.loc is None when the title screen isn't found.
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# manually setting io.loc crops all screenshots as if the title was found.
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import pyscreeze
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io.loc = pyscreeze.Box(0, 25, 800, 599)
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#input("Press <enter> to detect asteroids on screen.")
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a_results = gm.find_asteroids()
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print(f"Found {len(a_results)} asteroids")
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#for a in a_results:
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# print(a[0]) # position tuple
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#gm.display_results(results)
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s_results = gm.frame_sift()
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ship_results = gm.find_ships()
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polygons = [c.points for c in s_results]
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#circles = [(c.center, c.max_distance, f"cluster_{i}") for i, c in enumerate(s_results)]
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r_circles = [(c.center, sqrt(rect_radius_squared(*gm.ships[0][1].shape)), f"cluster_{i}") for i, c in enumerate(s_results)]
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gm.display_results(rects=a_results+ship_results, pointsets=polygons, circles=r_circles)
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