232 lines
9.0 KiB
Python
232 lines
9.0 KiB
Python
import math
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import sys
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from kivy.graphics import Color,Line,Rectangle
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from point import Point,l_infinity
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from tools import isint_nonzero,sgn,in_interval
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# parent class of all polyominos
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class Polyomino():
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def __init__(self,**kwargs):
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# square elements that maje up the polyomino
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self.squares=kwargs.get("squares",[])
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self.color=kwargs.get("color",(0,0,1))
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self.selected=False
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# mesh of background grid (no grid for mesh size 0)
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self.grid=kwargs.get("grid",0)
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# draw function
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def draw(self,**kwargs):
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alpha=kwargs.get("alpha",1)
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# set color
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if not self.selected:
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Color(*self.color,alpha)
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else:
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(r,g,b)=self.color
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# darken selected
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Color(r/2,g/2,b/2,alpha)
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for square in self.squares:
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Rectangle(pos=((square.pos.x-0.5)*square.size,(square.pos.y-0.5)*square.size),size=(square.size,square.size))
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# draw boundary
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self.stroke()
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# draw boundary (override for connected polyominos)
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def stroke(self):
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# white
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Color(1,1,1)
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for square in self.squares:
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Line(points=(
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*((square.pos.x-0.5)*square.size,(square.pos.y-0.5)*square.size),
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*((square.pos.x-0.5)*square.size,(square.pos.y+0.5)*square.size),
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*((square.pos.x+0.5)*square.size,(square.pos.y+0.5)*square.size),
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*((square.pos.x+0.5)*square.size,(square.pos.y-0.5)*square.size),
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*((square.pos.x-0.5)*square.size,(square.pos.y-0.5)*square.size)
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))
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# move by delta
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def move(self,delta):
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for square in self.squares:
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square.pos+=delta
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# whether x is in the support of the polyomino
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def in_support(self,x):
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for square in self.squares:
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if l_infinity(square.pos-x)<=1/2:
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return True
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return False
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# check whether self interacts with candidate if candidate were moved by offset
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def check_interaction(self,candidate,offset):
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for square1 in self.squares:
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for square2 in candidate.squares:
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if square1.check_interaction(square2.pos+offset):
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return True
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return False
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# square
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class Square(Polyomino):
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def __init__(self,x,y,**kwargs):
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super(Square,self).__init__(**kwargs,squares=[Square_element(x,y)])
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# cross
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class Cross(Polyomino):
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def __init__(self,x,y,**kwargs):
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super(Cross,self).__init__(**kwargs,squares=[\
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Square_element(x,y),\
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Square_element(x+1,y),\
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Square_element(x-1,y),\
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Square_element(x,y+1),\
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Square_element(x,y-1)\
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])
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# redefine stroke to avoid lines between touching squares
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def stroke(self):
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Color(1,1,1)
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Line(points=(
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*((self.squares[0].pos.x-0.5)*Square_element.size,(self.squares[0].pos.y-0.5)*Square_element.size),
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*((self.squares[0].pos.x-0.5)*Square_element.size,(self.squares[0].pos.y-1.5)*Square_element.size),
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*((self.squares[0].pos.x+0.5)*Square_element.size,(self.squares[0].pos.y-1.5)*Square_element.size),
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*((self.squares[0].pos.x+0.5)*Square_element.size,(self.squares[0].pos.y-0.5)*Square_element.size),
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*((self.squares[0].pos.x+1.5)*Square_element.size,(self.squares[0].pos.y-0.5)*Square_element.size),
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*((self.squares[0].pos.x+1.5)*Square_element.size,(self.squares[0].pos.y+0.5)*Square_element.size),
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*((self.squares[0].pos.x+0.5)*Square_element.size,(self.squares[0].pos.y+0.5)*Square_element.size),
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*((self.squares[0].pos.x+0.5)*Square_element.size,(self.squares[0].pos.y+1.5)*Square_element.size),
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*((self.squares[0].pos.x-0.5)*Square_element.size,(self.squares[0].pos.y+1.5)*Square_element.size),
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*((self.squares[0].pos.x-0.5)*Square_element.size,(self.squares[0].pos.y+0.5)*Square_element.size),
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*((self.squares[0].pos.x-1.5)*Square_element.size,(self.squares[0].pos.y+0.5)*Square_element.size),
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*((self.squares[0].pos.x-1.5)*Square_element.size,(self.squares[0].pos.y-0.5)*Square_element.size),
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*((self.squares[0].pos.x-0.5)*Square_element.size,(self.squares[0].pos.y-0.5)*Square_element.size),
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))
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# square building block of polyominos
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class Square_element():
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# size
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size=50
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def __init__(self,x,y,**kwargs):
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self.pos=Point(x,y)
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# set position
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def setpos(self,x,y):
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self.pos.x=x
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self.pos.y=y
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# check whether a square at pos interacts with square
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def check_interaction(self,pos):
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return l_infinity(pos-self.pos)<1
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# check whether a square at position pos is touching self
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def check_touch(self,pos):
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# allow for error
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if in_interval(l_infinity(pos-self.pos),1-1e-11,1+1e-11):
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return True
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return False
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# find position along a line that comes in contact with the line going through pos in direction v
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def move_on_line_to_stick(self,pos,v):
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# compute intersections with four lines making up square
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if v.x!=0:
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if v.y!=0:
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intersections=[\
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Point(self.pos.x+1,pos.y+v.y/v.x*(self.pos.x+1-pos.x)),\
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Point(self.pos.x-1,pos.y+v.y/v.x*(self.pos.x-1-pos.x)),\
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Point(pos.x+v.x/v.y*(self.pos.y+1-pos.y),self.pos.y+1),\
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Point(pos.x+v.x/v.y*(self.pos.y-1-pos.y),self.pos.y-1)\
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]
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else:
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intersections=[\
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Point(self.pos.x+1,pos.y+v.y/v.x*(self.pos.x+1-pos.x)),\
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Point(self.pos.x-1,pos.y+v.y/v.x*(self.pos.x-1-pos.x))
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]
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else:
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if v.y!=0:
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intersections=[\
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Point(pos.x+v.x/v.y*(self.pos.y+1-pos.y),self.pos.y+1),\
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Point(pos.x+v.x/v.y*(self.pos.y-1-pos.y),self.pos.y-1)\
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]
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else:
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print("error: move_on_line_to_stick called with v=0, please file a bug report with the developer",file=sys.stderr)
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exit(-1)
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# compute closest one, on square
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closest=None
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dist=math.inf
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for i in range(0,len(intersections)):
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# check that it is on square
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if abs(intersections[i].x-self.pos.x)<=1+1e-11 and abs(intersections[i].y-self.pos.y)<=1+1e-11:
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if (intersections[i]-pos)**2<dist:
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closest=intersections[i]
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dist=(intersections[i]-pos)**2
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if closest==None:
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print("error: cannot move particle at (",pos.x,",",pos.y,") to the boundary of (",self.pos.x,",",self.pos.y,") in direction (",v.x,",",v.y,")",file=sys.stderr)
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exit(-1)
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# return difference to pos
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return closest-pos
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# move along edge of square
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def move_along(self,delta,pos):
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rel=pos-self.pos
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# check if the particle is stuck in the x direction
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if isint_nonzero(rel.x):
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# check y direction
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if isint_nonzero(rel.y):
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# in corner
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if sgn(delta.y)==-sgn(rel.y):
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# stuck in x direction
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return self.move_stuck_x(delta,pos)
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elif sgn(delta.x)==-sgn(rel.x):
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# stuck in y direction
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return self.move_stuck_y(delta,pos)
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# stuck in both directions
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return pos
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else:
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# stuck in x direction
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return self.move_stuck_x(delta,pos)
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elif isint_nonzero(rel.y):
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# stuck in y direction
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return self.move_stuck_y(delta,pos)
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# this should never happen
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else:
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print("error: stuck particle has non-integer relative position: (",rel.x,",",rel.y,")",file=sys.stderr)
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exit(-1)
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# move when stuck in the x direction
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def move_stuck_x(self,delta,pos):
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# only move in y direction
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candidate=Point(0,delta.y)
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# do not move past corners
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rel=pos.y-self.pos.y
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if delta.y>0:
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if rel<math.ceil(rel)-1e-11 and delta.y+rel>math.ceil(rel)+1e-11 and math.ceil(rel)!=0:
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# stick to corner
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candidate.y=math.ceil(rel)+self.pos.y-pos.y
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else:
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if rel>math.floor(rel)+1e-11 and delta.y+rel<math.floor(rel)-1e-11 and math.floor(rel)!=0:
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# stick to corner
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candidate.y=math.floor(rel)+self.pos.y-pos.y
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return candidate
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# move when stuck in the y direction
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def move_stuck_y(self,delta,pos):
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# onlx move in x direction
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candidate=Point(delta.x,0)
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# do not move past corners
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rel=pos.x-self.pos.x
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if delta.x>0:
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if rel<math.ceil(rel)-1e-11 and delta.x+rel>math.ceil(rel)+1e-11 and math.ceil(rel)!=0:
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# stick to corner
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candidate.x=math.ceil(rel)+self.pos.x-pos.x
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else:
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if rel>math.floor(rel)+1e-11 and delta.x+rel<math.floor(rel)-1e-11 and math.floor(rel)!=0:
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# stick to corner
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candidate.x=math.floor(rel)+self.pos.x-pos.x
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return candidate
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