2020-11-11 16:31:08 +00:00
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#!/usr/bin/python3
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# -*- coding: utf-8 -*-
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# -*- mode: Python -*-
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'''
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kaleidoscop
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v0.1.0
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A simple effect : mirror a quadrant of the input
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2020-11-11 21:14:38 +00:00
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Licensed under GNU GPLv3
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2020-11-11 16:31:08 +00:00
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by Sam Neurohack
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'''
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from __future__ import print_function
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import sys
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import ast
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import os
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import argparse
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ljpath = r'%s' % os.getcwd().replace('\\','/')
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sys.path.append(ljpath +'/../libs/')
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sys.path.append(ljpath +'/libs/')
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import time
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name = "filters::kaleidoscope"
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argsparser = argparse.ArgumentParser(description="Redis exporter LJ")
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argsparser.add_argument("-x","--centerX",help="geometrical center X position",default=400,type=int)
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argsparser.add_argument("-y","--centerY",help="geometrical center Y position",default=400,type=int)
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argsparser.add_argument("-f","--fps",help="Frame Per Second",default=30,type=int)
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argsparser.add_argument("-v","--verbose",action="store_true",help="Verbose")
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args = argsparser.parse_args()
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fps = args.fps
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centerX = args.centerX
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centerY = args.centerY
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verbose = args.verbose
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optimal_looptime = 1 / fps
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def debug(*args, **kwargs):
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if( verbose == False ):
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return
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print(*args, file=sys.stderr, **kwargs)
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def kaleidoscope( pl ):
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# Stage 1: Crop points in single quadrant
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quad1 = []
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# Iterate trough the segments
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for i in range( 0, len(pl) ):
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#debug(name+" point #", i)
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currentpoint = cp = pl[i]
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cx,cy,cc = [cp[0],cp[1],cp[2]]
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# Exception: escape early if last point
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if i == len(pl) - 1:
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if cx >= centerX and cy >= centerY :
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quad1.append( currentpoint )
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break
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# Search for the couple of points
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nextpoint = pl[i+1]
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nx,ny,nc = [nextpoint[0],nextpoint[1],nextpoint[2]]
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rect=[[cx,cy],[cx,ny],[nx,ny],[nx,cy]]
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right = wrong = 0
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#debug(name+" rect: ", rect,"curr",currentpoint,"next",nextpoint )
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# Enumerate the points in rectangle to see
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# how many right / wrong there are
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# either to add or skip early
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for iterator, p in enumerate(rect):
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if p[0] >= centerX and p[1] >= centerY:
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right += 1
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else:
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#if p[0] <= centerX and p[1] <= centerY:
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wrong += 1
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# If all rectangle points are in the right quadrant, Add and Skip
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if right == 4:
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quad1.append(pl[i])
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#debug(name+" found valid point", pl[i])
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continue
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# If all rectangle points in wrong quadrant, Skip
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if wrong == 4:
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#debug(name+" found bad point", pl[i])
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continue
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# Find the (x,y) intersections
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#
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#debug(name+" Looking for crossing point between ("+str(cx)+","+str(cy)+") and ("+str(nx)+","+str(ny)+")")
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delta=[ nx - cx, ny - cy ]
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#debug(name+" delta:",delta)
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crossX = None
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crossY = None
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absnewX = 0
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absnewY = 0
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# If one point has negative x, search y axis crossing
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if cx < centerX or nx < centerX:
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if delta[0] == 0 :
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delta[0] = 0.0000001
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v=[ delta[0]/abs(delta[0]), delta[1]/abs(delta[0]) ]
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absnewX = abs( centerX - cx )
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#print("on y axis, v=",str(v)," and absnewX=",str(absnewX))
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crossX = [( absnewX*v[0] + cx ),( absnewX*v[1]+cy ), nc]
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# If one point has negative y, search x axis crossing
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if cy < centerY or ny < centerY:
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if delta[1] == 0 :
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delta[1] = 0.0000001
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v=[ delta[0]/abs(delta[1]), delta[1]/abs(delta[1])]
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absnewY = abs( centerY - cy )
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#print("on x axis, v=",str(v)," and absnewY=",str(absnewY))
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crossY = [( absnewY*v[0] + cy ),( absnewY*v[1]+cy ), nc]
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# Inject in order
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# If current point is the quadrant, add it
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if cx >= centerX and cy >= centerY :
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quad1.append( currentpoint )
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# If absnewX smaller, it is closest to currentPoint
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if absnewX < absnewY:
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if None != crossX : quad1.append( crossX )
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if None != crossY : quad1.append( crossY )
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else :
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if None != crossY : quad1.append( crossY )
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if None != crossX : quad1.append( crossX )
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# Add a black point at the end
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#lastQuad1Point = quad1[-1]
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#quad1.append( [lastQuad1Point[0],lastQuad1Point[1],0] )
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## Stage 2 : Mirror points
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#
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quad2 = []
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# quad2 = vertical symetric of quad1
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for iterator in range( len(quad1) -1 , -1, -1):
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point = quad1[iterator]
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quad2.append([ point[0], 2*centerY - point[1], point[2] ])
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# quad3 is the merge of 1 and 2
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quad3 = quad1 + quad2
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# quad4 is the horizontal symetric of quad3
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quad4 = []
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for iterator in range( len(quad3) -1, -1, -1):
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point = quad3[iterator]
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quad4.append([ 2*centerX - point[0], point[1], point[2] ])
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#debug(name+" quad1:",quad1)
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#debug(name+" quad2:", quad2 )
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#debug(name+" quad3:", quad3 )
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#debug(name+" quad4:", quad4 )
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return quad3+quad4
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try:
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while True:
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start = time.time()
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line = sys.stdin.readline()
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if line == "":
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time.sleep(0.01)
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line = line.rstrip('\n')
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pointsList = ast.literal_eval(line)
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# Do the filter
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result = kaleidoscope( pointsList )
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2020-11-11 16:32:59 +00:00
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if len(result) : print( result, flush=True )
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2020-11-11 16:31:08 +00:00
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looptime = time.time() - start
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# debug(name+" looptime:"+str(looptime))
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if( looptime < optimal_looptime ):
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time.sleep( optimal_looptime - looptime)
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# debug(name+" micro sleep:"+str( optimal_looptime - looptime))
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except EOFError:
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debug(name+" break")# no more information
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