forked from protonphoton/LJ
[feat in progress]: drawing improvment
I understand the previous way to add Point. I have read the paper who describe the way to add point. I'm doing the the visual witch are used in the paper to test the optimisation.
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.gitignore
vendored
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.gitignore
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.*swp*
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.*sw*
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*__pycache__
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*__pycache__
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www/config.js
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www/config.js
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94
clitools/generators/drawingTests/angleOptimization.py
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94
clitools/generators/drawingTests/angleOptimization.py
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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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This generator print different engle form 0 to 180 degres
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v0.1.0
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LICENCE : CC
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by lapin (aka nipal)
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'''
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from __future__ import print_function
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import time
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import argparse
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import sys
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import math
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name="generator::endingPoint"
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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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argsparser = argparse.ArgumentParser(description="dummy generator")
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argsparser.add_argument("-f","--fps",help="Frame Per Second",default=30,type=int)
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argsparser.add_argument("-s","--speed",help="point per frame progress",default=3,type=int)
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argsparser.add_argument("-v","--verbose",action="store_true",help="Verbose output")
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args = argsparser.parse_args()
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fps=args.fps
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verbose=args.verbose
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optimal_looptime = 1 / fps
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debug(name+" optimal looptime "+str(optimal_looptime))
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width = 800
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height = 800
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white = 0xFFFF
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blank = 0
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radius = 70
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offset_circles = 12
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offset_angle = 10
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angles_lines = []
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shape = []
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def set_angles_lines():
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margin = radius + offset_circles
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spacing_betwen = 2 * radius + offset_circles
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circles_per_line = math.floor((width - margin) / spacing_betwen)
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for ang in range(0, 180 + offset_angle, offset_angle):
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nb = int(ang / offset_angle)
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cx = margin + (nb % circles_per_line) * spacing_betwen
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cy = margin + int(nb / circles_per_line) * spacing_betwen
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px = radius * math.cos(math.radians(ang))
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py = radius * math.sin(math.radians(ang))
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# line up
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angles_lines.append([-px + cx, py + cy, white])
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angles_lines.append([ cx, cy, white])
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angles_lines.append([ px + cx, py + cy, white])
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angles_lines.append([ px + cx, py + cy, blank])
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# line down
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angles_lines.append([-px + cx, -py + cy, white])
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angles_lines.append([ cx, cy, white])
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angles_lines.append([ px + cx, -py + cy, white])
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angles_lines.append([ px + cx, -py + cy, blank])
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set_angles_lines()
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shape = angles_lines
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# print(angles_lines)
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while True:
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start = time.time()
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print(shape, flush=True);
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looptime = time.time() - start
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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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77
clitools/generators/drawingTests/endingPoint.py
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clitools/generators/drawingTests/endingPoint.py
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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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This generator print 3 static vertical line.
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The aim is to show The aim is to show the laser beam ignition time.
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beam when ther is no optimisation
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v0.1.0
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LICENCE : CC
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by lapin (aka nipal)
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'''
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from __future__ import print_function
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import time
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import argparse
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import sys
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name="generator::endingPoint"
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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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argsparser = argparse.ArgumentParser(description="dummy generator")
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argsparser.add_argument("-f","--fps",help="Frame Per Second",default=30,type=int)
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argsparser.add_argument("-s","--speed",help="point per frame progress",default=3,type=int)
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argsparser.add_argument("-v","--verbose",action="store_true",help="Verbose output")
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args = argsparser.parse_args()
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fps=args.fps
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verbose=args.verbose
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optimal_looptime = 1 / fps
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debug(name+" optimal looptime "+str(optimal_looptime))
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white = 0xFFFFFF
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blank = 0
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offset_y = 100
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offset_x = 50
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begin_x = 200
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begin_y = 200
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shape_factor = [
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[0, 0, white],
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[0, 1, blank],
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[1, 1, white],
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[1, 0, blank],
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[2, 0, white],
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[2, 1, blank],
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[2, 1, blank],
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]
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shape = []
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for point in shape_factor:
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shape.append([begin_x + offset_x * point[0],
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begin_y + offset_y * point[1],
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point[2]])
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while True:
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start = time.time()
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print(shape, flush=True);
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looptime = time.time() - start
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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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@ -223,12 +223,23 @@ class DAC(object):
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while True:
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while True:
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print("\n\n\n\t\t^^^^")
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### here self.pl has all the point in one frame
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#pdb.set_trace()
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#pdb.set_trace()
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### print(self.pl)
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### <<<< On peut introduire ici l'autre optimisation
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for indexpoint,currentpoint in enumerate(self.pl):
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for indexpoint,currentpoint in enumerate(self.pl):
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#print indexpoint, currentpoint
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print(indexpoint, currentpoint)
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xyc = [currentpoint[0],currentpoint[1],currentpoint[2]]
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xyc = [currentpoint[0],currentpoint[1],currentpoint[2]]
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self.xyrgb = self.EtherPoint(xyc)
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self.xyrgb = self.EtherPoint(xyc)
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#print(self.xyrgb[2:])
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### ### print("1-\nxyrgb[2:]")
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### ### print(self.xyrgb[2:])
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### print("VVxyrgb")
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### print(self.xyrgb)
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### print("\n")
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rgb = (round(self.xyrgb[2:][0] *self.intred/100), round(self.xyrgb[2:][1] *self.intgreen/100), round(self.xyrgb[2:][2] *self.intblue/100))
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rgb = (round(self.xyrgb[2:][0] *self.intred/100), round(self.xyrgb[2:][1] *self.intgreen/100), round(self.xyrgb[2:][2] *self.intblue/100))
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#print("rgb :", rgb)
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#print("rgb :", rgb)
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delta_x, delta_y = self.xyrgb[0] - self.xyrgb_prev[0], self.xyrgb[1] - self.xyrgb_prev[1]
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delta_x, delta_y = self.xyrgb[0] - self.xyrgb_prev[0], self.xyrgb[1] - self.xyrgb_prev[1]
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#test adaptation selon longueur ligne
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#test adaptation selon longueur ligne
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print("delta_x: "+str(delta_x) + "\t\tdelta_y: "+str(delta_y))
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print("norme delta:\t" + str(math.hypot(delta_x, delta_y)))
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if math.hypot(delta_x, delta_y) < 4000:
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if math.hypot(delta_x, delta_y) < 4000:
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# For glitch art : decrease lsteps
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# For glitch art : decrease lsteps
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#l_steps = [ (1.0, 8)]
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#l_steps = [ (1.0, 8)]
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print("little line")
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l_steps = gstt.stepshortline
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l_steps = gstt.stepshortline
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else:
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else:
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# For glitch art : decrease lsteps
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# For glitch art : decrease lsteps
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#l_steps = [ (0.25, 3), (0.75, 3), (1.0, 10)]
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#l_steps = [ (0.25, 3), (0.75, 3), (1.0, 10)]
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l_steps = gstt.stepslongline
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l_steps = gstt.stepslongline
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print("big line")
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print(l_steps)
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for e in l_steps:
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### print("\n\nl_step:")
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step = e[0]
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### print(l_steps)
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pAdd = 0
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### *** ###for e in l_steps:
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### *** ### step = e[0]
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for i in range(0,e[1]):
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### *** ### for i in range(0,e[1]):
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### *** ### pAdd +=1
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self.xyrgb_step = (self.xyrgb_prev[0] + step*delta_x, self.xyrgb_prev[1] + step*delta_y) + rgb # + self.xyrgb_prev[2:]# + rgb
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### *** ### self.xyrgb_step = (self.xyrgb_prev[0] + step*delta_x, self.xyrgb_prev[1] + step*delta_y) + rgb # + self.xyrgb_prev[2:]# + rgb
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#print(self.xyrgb_step)
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### *** ### #print(self.xyrgb_step)
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yield self.xyrgb_step
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### *** ### yield self.xyrgb_step
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yield (self.xyrgb[0], self.xyrgb[1]) + rgb
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self.xyrgb_prev = self.xyrgb
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self.xyrgb_prev = self.xyrgb
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print("point added:\t" + str(pAdd))
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print("\n")
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def GetPoints(self, n):
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def GetPoints(self, n):
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