diff --git a/clitools/generators/drawingTests/adjust_brightness.py b/clitools/generators/drawingTests/adjust_brightness.py new file mode 100644 index 0000000..060be26 --- /dev/null +++ b/clitools/generators/drawingTests/adjust_brightness.py @@ -0,0 +1,73 @@ + +#!/usr/bin/python3 +# -*- coding: utf-8 -*- +# -*- mode: Python -*- + + +''' + +This generator print different squar from big to small. +The purepose is to see the difference of brightness with the length + +v0.1.0 + +LICENCE : CC + +by lapin (aka nipal) + +''' + +from __future__ import print_function +import time +import argparse +import sys +import math + +name="generator::endingPoint" + + +def debug(*args, **kwargs): + if( verbose == False ): + return + print(*args, file=sys.stderr, **kwargs) + +argsparser = argparse.ArgumentParser(description="dummy generator") +argsparser.add_argument("-f","--fps",help="Frame Per Second",default=30,type=int) +argsparser.add_argument("-s","--speed",help="point per frame progress",default=3,type=int) +argsparser.add_argument("-v","--verbose",action="store_true",help="Verbose output") +args = argsparser.parse_args() + +fps=args.fps +verbose=args.verbose +optimal_looptime = 1 / fps +debug(name+" optimal looptime "+str(optimal_looptime)) + +width = 800 +height = 800 +offset = 50 + +white = 0xFFFFFF +blank = 0x0 + +shape = [] + +def set_shape(): + nb_spire = int(width / (2 * offset)) - 1 + for i in range(1, nb_spire + 1): + shape.append([ i * offset, i * offset, blank]) + shape.append([ i * offset, i * offset, white]) + shape.append([ i * offset, height - i * offset, white]) + shape.append([width - i * offset, height - i * offset, white]) + shape.append([width - i * offset, i * offset, white]) + shape.append([ i * offset, i * offset, white]) + shape.append([ i * offset, i * offset, blank]) + +set_shape() + +while True: + start = time.time() + print(shape, flush=True); + looptime = time.time() - start + if( looptime < optimal_looptime ): + time.sleep( optimal_looptime - looptime) + debug(name+" micro sleep:"+str( optimal_looptime - looptime)) diff --git a/clitools/generators/drawingTests/angleInteractive.py b/clitools/generators/drawingTests/angleInteractive.py new file mode 100644 index 0000000..3fa8e30 --- /dev/null +++ b/clitools/generators/drawingTests/angleInteractive.py @@ -0,0 +1,262 @@ +#!/usr/bin/python3 +# -*- coding: utf-8 -*- +# -*- mode: Python -*- + + +''' + +This generator print diferent one angle but you can modify it interactively. +The key are: + * '' => *somthing* + * ... + +v0.1.0 + +LICENCE : CC + +by lapin (aka nipal) + +''' + +from __future__ import print_function +import time +import argparse +import math +import sys +# import for non-bloking input reading +#import sys +import select +import tty +import termios + +name="generator::endingPoint" + +def debug(*args, **kwargs): + if( verbose == False ): + return + print(*args, file=sys.stderr, **kwargs) + +def isData(): + return select.select([sys.stdin], [], [], 0) == ([sys.stdin], [], []) + +def flush_input(): + try: + import msvcrt + while msvcrt.kbhit(): + msvcrt.getch() + except ImportError: + import sys, termios #for linux/unix + termios.tcflush(sys.stdin, termios.TCIOFLUSH) + +old_settings = termios.tcgetattr(sys.stdin) + + +argsparser = argparse.ArgumentParser(description="dummy generator") +argsparser.add_argument("-f","--fps",help="Frame Per Second",default=30,type=int) +argsparser.add_argument("-s","--speed",help="point per frame progress",default=3,type=int) +argsparser.add_argument("-v","--verbose",action="store_true",help="Verbose output") +args = argsparser.parse_args() + +fps=args.fps +verbose=args.verbose +optimal_looptime = 1 / fps +#debug(name+" optimal looptime "+str(optimal_looptime)) + +width = 800 +height = 800 + +white = 0xFFFFFF +blank = 0x0 + +seg1_length = 100 +seg2_length = 100 +ang = 50 + +incrLengthLittle= 5 +incrLengthLot= 20 +incrAngleLittle= 1 +incrAngleLot= 10 +angle_min = 0 +angle_max = 90 +length_min = 1 +length_max = 350 + +shape = [] + +# angle +def ang_add_1(): + global ang + + if ang + incrAngleLittle <= angle_max: + ang += incrAngleLittle + else: + ang = angle_max + +def ang_add_2(): + global ang + + if ang + incrAngleLot <= angle_max: + ang += incrAngleLot + else: + ang = angle_max + +def ang_sub_1(): + global ang + + if ang - incrAngleLittle >= angle_min: + ang -= incrAngleLittle + else: + ang = angle_min + +def ang_sub_2(): + global ang + + if ang - incrAngleLot >= angle_min: + ang -= incrAngleLot + else: + ang = angle_min + +# seg1 +def seg_1_add_1(): + global seg1_length + + if seg1_length + incrLengthLittle <= length_max: + seg1_length += incrLengthLittle + else: + seg1_length = length_max + +def seg_1_add_2(): + global seg1_length + + if seg1_length + incrLengthLot <= length_max: + seg1_length += incrLengthLot + else: + seg1_length = length_max + +def seg_1_sub_1(): + global seg1_length + + if seg1_length - incrLengthLittle >= length_min: + seg1_length -= incrLengthLittle + else: + seg1_length = length_min + +def seg_1_sub_2(): + global seg1_length + + if seg1_length - incrLengthLot >= length_min: + seg1_length -= incrLengthLot + else: + seg1_length = length_min + +# seg2 +def seg_2_add_1(): + global seg2_length + + if seg2_length + incrLengthLittle <= length_max: + seg2_length += incrLengthLittle + else: + seg2_length = length_max + +def seg_2_add_2(): + global seg2_length + + if seg2_length + incrLengthLot <= length_max: + seg2_length += incrLengthLot + else: + seg2_length = length_max + +def seg_2_sub_1(): + global seg2_length + + if seg2_length - incrLengthLittle >= length_min: + seg2_length -= incrLengthLittle + else: + seg2_length = length_min + +def seg_2_sub_2(): + global seg2_length + + if seg2_length - incrLengthLot >= length_min: + seg2_length -= incrLengthLot + else: + seg2_length = length_min + +action = { + # segment 1 + 'q': seg_1_sub_1, + 'w': ssg_1_add_1, + 'a': seg_1_sub_2, + 's': seg_1_add_2, + + # segment 2 + 'o': seg_2_sub_1, + 'p': seg_2_add_1, + 'l': seg_2_sub_2, + ';': seg_2_add_2, + + # angle + 't': ang_sub_1, + 'y': ang_add_1, + 'g': ang_sub_2, + 'h': ang_add_2, + } + +def print_param(): + debug("\n\n===") + debug("segment 1 length:", seg1_length) + debug("segment 2 length:", seg2_length) + debug("angle:", ang) + +def set_shape(): + global shape + shape.clear() + + cx = width / 2 + cy = height / 2 + + px1 = int(seg1_length * math.cos(math.radians(ang))) + py1 = int(seg1_length * math.sin(math.radians(ang))) + px2 = int(seg2_length * math.cos(math.radians(ang))) + py2 = int(seg2_length * math.sin(math.radians(ang))) + + # line up + shape.append([-px1 + cx, -py1 + cy, blank]) + shape.append([-px1 + cx, -py1 + cy, white]) + shape.append([ cx, + cy, white]) + shape.append([ px2 + cx, -py2 + cy, white]) + shape.append([ px2 + cx, -py2 + cy, blank]) + + # line down + shape.append([ px1 + cx, py1 + cy, blank]) + shape.append([ px1 + cx, py1 + cy, white]) + shape.append([ cx, + cy, white]) + shape.append([-px2 + cx, py2 + cy, white]) + shape.append([-px2 + cx, py2 + cy, blank]) + +def update_param(c): + if c in action: + action[c]() + print_param() + set_shape() + +try: + tty.setcbreak(sys.stdin.fileno()) + + set_shape() + print_param() + print(shape, flush=True); + while 1: + if isData(): + c = sys.stdin.read(1) + update_param(c) + + start = time.time() + print(shape, flush=True); + looptime = time.time() - start + if( looptime < optimal_looptime ): + time.sleep( optimal_looptime - looptime) + #debug(name+" micro sleep:"+str( optimal_looptime - looptime)) + +finally: + termios.tcsetattr(sys.stdin, termios.TCSADRAIN, old_settings) diff --git a/clitools/generators/drawingTests/keyborad_input.py b/clitools/generators/drawingTests/keyborad_input.py new file mode 100644 index 0000000..88a357d --- /dev/null +++ b/clitools/generators/drawingTests/keyborad_input.py @@ -0,0 +1,77 @@ +# code exemple find at : https://stackoverflow.com/questions/2408560/python-nonblocking-console-input + +import sys +import select +import tty +import termios + +def isData(): + return select.select([sys.stdin], [], [], 0) == ([sys.stdin], [], []) + +old_settings = termios.tcgetattr(sys.stdin) + +try: + tty.setcbreak(sys.stdin.fileno()) + + i = 0 + while 1: + #if i % 100000 == 0: + # print("i", i) + #i += 1 + if isData(): + c = sys.stdin.read(1) + print(c) + if c == '\x1b': # x1b is ESC + break + +finally: + termios.tcsetattr(sys.stdin, termios.TCSADRAIN, old_settings) + + + +### for windows +#import msvcrt +# +#num = 0 +#done = False +#while not done: +# print(num) +# num += 1 +# +# if msvcrt.kbhit(): +# print "you pressed",msvcrt.getch(),"so now i will quit" +# done = True +# + +## cross platforme (but may be a bit huge to import pygame...) +#import pygame +#from pygame.locals import * +# +#def display(str): +# text = font.render(str, True, (255, 255, 255), (159, 182, 205)) +# textRect = text.get_rect() +# textRect.centerx = screen.get_rect().centerx +# textRect.centery = screen.get_rect().centery +# +# screen.blit(text, textRect) +# pygame.display.update() +# +#pygame.init() +#screen = pygame.display.set_mode( (640,480) ) +#pygame.display.set_caption('Python numbers') +#screen.fill((159, 182, 205)) +# +#font = pygame.font.Font(None, 17) +# +#num = 0 +#done = False +#while not done: +# display( str(num) ) +# num += 1 +# +# pygame.event.pump() +# keys = pygame.key.get_pressed() +# if keys[K_ESCAPE]: +# done = True +# + diff --git a/libs3/plotOptimizer.py b/libs3/plotOptimizer.py index 3c6eadc..903e0fb 100644 --- a/libs3/plotOptimizer.py +++ b/libs3/plotOptimizer.py @@ -1,93 +1,255 @@ -class Node: - def __init__(self, sid, color): - self.sid = sid - self.connected = [] - self.used = False - self.color = color - self.is_free = None # may be an other value to initialise +import math + +# parameter for angles +pps = 25000 +time_us_angle_zero = float(400) # it's just a random value, it must be tested (us = micro second) +time_us_per_point = float(1000000 / pps) # 40 us for 25kpps (us = micro second) + +# parmeter for brightness +max_lengh = 50 # in pixel, random value as well + +import sys +def debug(*args, **kwargs): + print(*args, file=sys.stderr, **kwargs) + + +def different_position(p1, p2): + return (int(p2[0]) != int(p1[0])) or (int(p2[1]) != int(p1[1])) + +def sub(p1, p2): + return [] + +def no_blanks_points(*points): + for p in points: + if p[2] == 0: + return False + return True + +def angle_exist(p1, p2, p3): + return no_blanks_points(p1, p2, p3) and different_position(p1, p2) and different_position(p2, p3) + +def scalar_product(v1, v2): + return v1[0] * v2[0] + v1[1] * v2[1] + +def length(v): + return math.sqrt(scalar_product(v, v)) + +def normalize(v): + l = length(v) + return [v[0] / l, v[1] / l] + +def sub(p1, p2): + return [p1[0] - p2[0], p1[1] - p2[1]] + +def add(p1, p2): + return [p1[0] + p2[0], p1[1] + p2[1]] + +def mult_by_scalar(p, scalar): + return [p[0] * scalar, p[1] * scalar] + +# 90 deg rotate to the right of v1 when y axes is directed to the floor +def rot_90_right(v): + return [-v[1], v[0]] + +def get_angle_degree(p1, p2, p3): + v1 = sub(p2, p1) + v2 = sub(p2, p3) + d1x = normalize(v1) + d1y = rot_90_right(d1x) + x = scalar_product(d1x, v2) + y = scalar_product(d1y, v2) + angle = 180 - abs(math.degrees(math.atan2(y, x))) + return angle - def add_nodes(self, neighbord): - not_the_same = neighbord != self.sid - not_allrady_inside = neighbord not in self.connected +def point_to_add(angle): + return int(float((1 - (angle / 180.0)) * time_us_angle_zero) / time_us_per_point) - if neighbord != self.sid and neighbord not in self.connected: - self.connected.append(neighbord) +def adjusts_angles(pl): + if len(pl) < 3: + return pl - # print the content of the objet to debug with print() - def __repr__(self): - is_free = " \t###" if self.is_free else " \t___" - return is_free + str(self.connected) + "\n" + new_pl = [] + previous = pl[0] + middle = pl[1] + new_pl.append(pl[0]) + for ensuing in pl[2:]: + if angle_exist(previous, middle, ensuing): + angle = get_angle_degree(previous, middle, ensuing) + nb_point_added = point_to_add(angle) + for i in range(nb_point_added): + new_pl.append(middle) + new_pl.append(middle) + previous = middle + middle = ensuing + new_pl.append(pl[-1]) + return new_pl + +def adjusts_brightness(pl): + new_pl = [] + + if len(pl) < 1: + return pl + new_pl.append(pl[0]) + prev = pl[0] + for current in pl[1:]: + new_pl.append(prev) + if no_blanks_points(prev, current): + diff = sub(current, prev) + l = length(diff) + if l > max_lengh: + nb_add = math.ceil(l / max_lengh) + print("\n\n===") + print("from:", prev) + print("to:", current) + print("diff:", diff) + for i in range(nb_add): + factor = float(i) / float(nb_add) + print("factor:", factor) + new_point = add(prev, mult_by_scalar(diff, factor)) + [prev[2]] + print(new_point) + new_pl.append(new_point) + #else: + # new_pl.append() + prev = current + new_pl.append(pl[-1]) + + return new_pl + +def adjust_ending_point(pl): + # si il y a trop de point noir, on en enleve + # si il y a un que 1 point noir: + # on en met un autre + return pl + +def optimizer(pl): + initial_length = len(pl) + + pl = adjusts_angles(pl) + added_by_angle = len(pl) - initial_length + + pl = adjusts_brightness(pl) + added_by_brightness = len(pl) - (added_by_angle + initial_length) + + #points_added = added_by_angle + added_by_brightness + #print("\n\ninital_lenght:", initial_length, "\tadded by angles:", added_by_angle, "\tadded by brightness:", added_by_brightness ) + return pl + +if __name__ == '__main__': + # The 3 pl_somthing are used to test and debug the algorythm without + # using all the programe archithecture. The goal is to be able to execute + # the code snippet without errors being caught by LJ. + pl_component = [(355, 262, 0), (355, 262, 16777215), (300, 130, 16777215), (432, 75, 16777215), (487, 207, 16777215), (355, 262, 16777215), (355, 262, 0), (0, 435, 0), (0, 480, 16777215), (0, 300, 16777215), (135, 300, 16777215), (135, 570, 16777215), (135, 570, 16777215), (135, 300, 16777215), (135, 300, 0), (135, 300, 16777215), (225, 480, 16777215), (225, 480, 0), (510, 450, 0), (510, 450, 16777215), (600, 420, 16777215), (600, 300, 16777215), (720, 300, 16777215), (720, 420, 16777215), (810, 450, 16777215), (810, 450, 0)] + + pl_brightness = [[50, 50, 0], [50, 50, 16777215], [50, 750, 16777215], [750, 750, 16777215], [750, 50, 16777215], [50, 50, 16777215], [50, 50, 0], [100, 100, 0], [100, 100, 16777215], [100, 700, 16777215], [700, 700, 16777215], [700, 100, 16777215], [100, 100, 16777215], [100, 100, 0], [150, 150, 0], [150, 150, 16777215], [150, 650, 16777215], [650, 650, 16777215], [650, 150, 16777215], [150, 150, 16777215], [150, 150, 0], [200, 200, 0], [200, 200, 16777215], [200, 600, 16777215], [600, 600, 16777215], [600, 200, 16777215], [200, 200, 16777215], [200, 200, 0], [250, 250, 0], [250, 250, 16777215], [250, 550, 16777215], [550, 550, 16777215], [550, 250, 16777215], [250, 250, 16777215], [250, 250, 0], [300, 300, 0], [300, 300, 16777215], [300, 500, 16777215], [500, 500, 16777215], [500, 300, 16777215], [300, 300, 16777215], [300, 300, 0], [350, 350, 0], [350, 350, 16777215], [350, 450, 16777215], [450, 450, 16777215], [450, 350, 16777215], [350, 350, 16777215], [350, 350, 0]] + pl_angle = [[10.0, 83.0, 0], [10.0, 83.0, 16777215], [85, 83, 16777215], [160.0, 83.0, 16777215], [160.0, 83.0, 0], [160.0, 87.0, 0], [160.0, 87.0, 16777215], [85, 87, 16777215], [10.0, 87.0, 16777215], [10.0, 87.0, 0], [170.2853976431191, 76.46331929392564, 0], [170.2853976431191, 76.46331929392564, 16777215], [245, 83, 16777215], [319.7146023568809, 76.46331929392564, 16777215], [319.7146023568809, 76.46331929392564, 0], [319.7146023568809, 93.53668070607436, 0], [319.7146023568809, 93.53668070607436, 16777215], [245, 87, 16777215], [170.2853976431191, 93.53668070607436, 16777215], [170.2853976431191, 93.53668070607436, 0], [331.1394185240844, 69.97638667498022, 0], [331.1394185240844, 69.97638667498022, 16777215], [405, 83, 16777215], [478.8605814759156, 69.97638667498022, 16777215], [478.8605814759156, 69.97638667498022, 0], [478.8605814759156, 100.02361332501978, 0], [478.8605814759156, 100.02361332501978, 16777215], [405, 87, 16777215], [331.1394185240844, 100.02361332501978, 16777215], [331.1394185240844, 100.02361332501978, 0], [492.55556302831985, 63.58857161731095, 0], [492.55556302831985, 63.58857161731095, 16777215], [565, 83, 16777215], [637.4444369716801, 63.58857161731095, 16777215], [637.4444369716801, 63.58857161731095, 0], [637.4444369716801, 106.41142838268905, 0], [637.4444369716801, 106.41142838268905, 16777215], [565, 87, 16777215], [492.55556302831985, 106.41142838268905, 16777215], [492.55556302831985, 106.41142838268905, 0], [14.523053441056874, 217.34848925057486, 0], [14.523053441056874, 217.34848925057486, 16777215], [85, 243, 16777215], [155.47694655894313, 217.34848925057486, 16777215], [155.47694655894313, 217.34848925057486, 0], [155.47694655894313, 272.65151074942514, 0], [155.47694655894313, 272.65151074942514, 16777215], [85, 247, 16777215], [14.523053441056874, 272.65151074942514, 16777215], [14.523053441056874, 272.65151074942514, 0], [177.02691597225126, 211.30363036944755, 0], [177.02691597225126, 211.30363036944755, 16777215], [245, 243, 16777215], [312.97308402774877, 211.30363036944755, 16777215], [312.97308402774877, 211.30363036944755, 0], [312.97308402774877, 278.69636963055245, 0], [312.97308402774877, 278.69636963055245, 16777215], [245, 247, 16777215], [177.02691597225126, 278.69636963055245, 16777215], [177.02691597225126, 278.69636963055245, 0], [340.0480947161671, 205.5, 0], [340.0480947161671, 205.5, 16777215], [405, 243, 16777215], [469.9519052838329, 205.5, 16777215], [469.9519052838329, 205.5, 0], [469.9519052838329, 284.5, 0], [469.9519052838329, 284.5, 16777215], [405, 247, 16777215], [340.0480947161671, 284.5, 16777215], [340.0480947161671, 284.5, 0], [503.5635966783256, 199.98176727367155, 0], [503.5635966783256, 199.98176727367155, 16777215], [565, 243, 16777215], [626.4364033216743, 199.98176727367155, 16777215], [626.4364033216743, 199.98176727367155, 0], [626.4364033216743, 290.01823272632845, 0], [626.4364033216743, 290.01823272632845, 16777215], [565, 247, 16777215], [503.5635966783256, 290.01823272632845, 16777215], [503.5635966783256, 290.01823272632845, 0], [27.546666766076648, 354.79092927350956, 0], [27.546666766076648, 354.79092927350956, 16777215], [85, 403, 16777215], [142.45333323392336, 354.79092927350956, 16777215], [142.45333323392336, 354.79092927350956, 0], [142.45333323392336, 455.20907072649044, 0], [142.45333323392336, 455.20907072649044, 16777215], [85, 407, 16777215], [27.546666766076648, 455.20907072649044, 16777215], [27.546666766076648, 455.20907072649044, 0], [191.96699141100893, 349.96699141100896, 0], [191.96699141100893, 349.96699141100896, 16777215], [245, 403, 16777215], [298.03300858899104, 349.96699141100896, 16777215], [298.03300858899104, 349.96699141100896, 0], [298.03300858899104, 460.03300858899104, 0], [298.03300858899104, 460.03300858899104, 16777215], [245, 407, 16777215], [191.96699141100893, 460.03300858899104, 16777215], [191.96699141100893, 460.03300858899104, 0], [356.79092927350956, 345.54666676607667, 0], [356.79092927350956, 345.54666676607667, 16777215], [405, 403, 16777215], [453.20907072649044, 345.54666676607667, 16777215], [453.20907072649044, 345.54666676607667, 0], [453.20907072649044, 464.45333323392333, 0], [453.20907072649044, 464.45333323392333, 16777215], [405, 407, 16777215], [356.79092927350956, 464.45333323392333, 16777215], [356.79092927350956, 464.45333323392333, 0], [521.9817672736715, 341.5635966783256, 0], [521.9817672736715, 341.5635966783256, 16777215], [565, 403, 16777215], [608.0182327263285, 341.5635966783256, 16777215], [608.0182327263285, 341.5635966783256, 0], [608.0182327263285, 468.4364033216744, 0], [608.0182327263285, 468.4364033216744, 16777215], [565, 407, 16777215], [521.9817672736715, 468.4364033216744, 16777215], [521.9817672736715, 468.4364033216744, 0], [47.49999999999999, 498.0480947161671, 0], [47.49999999999999, 498.0480947161671, 16777215], [85, 563, 16777215], [122.5, 498.0480947161671, 16777215], [122.5, 498.0480947161671, 0], [122.5, 631.951905283833, 0], [122.5, 631.951905283833, 16777215], [85, 567, 16777215], [47.49999999999999, 631.951905283833, 16777215], [47.49999999999999, 631.951905283833, 0], [213.30363036944755, 495.02691597225123, 0], [213.30363036944755, 495.02691597225123, 16777215], [245, 563, 16777215], [276.69636963055245, 495.02691597225123, 16777215], [276.69636963055245, 495.02691597225123, 0], [276.69636963055245, 634.9730840277488, 0], [276.69636963055245, 634.9730840277488, 16777215], [245, 567, 16777215], [213.30363036944755, 634.9730840277488, 16777215], [213.30363036944755, 634.9730840277488, 0], [379.34848925057486, 492.52305344105685, 0], [379.34848925057486, 492.52305344105685, 16777215], [405, 563, 16777215], [430.65151074942514, 492.52305344105685, 16777215], [430.65151074942514, 492.52305344105685, 0], [430.65151074942514, 637.4769465589432, 0], [430.65151074942514, 637.4769465589432, 16777215], [405, 567, 16777215], [379.34848925057486, 637.4769465589432, 16777215], [379.34848925057486, 637.4769465589432, 0], [545.5885716173109, 490.55556302831985, 0], [545.5885716173109, 490.55556302831985, 16777215], [565, 563, 16777215], [584.4114283826891, 490.55556302831985, 16777215], [584.4114283826891, 490.55556302831985, 0], [584.4114283826891, 639.4444369716801, 0], [584.4114283826891, 639.4444369716801, 16777215], [565, 567, 16777215], [545.5885716173109, 639.4444369716801, 16777215], [545.5885716173109, 639.4444369716801, 0], [71.97638667498022, 649.1394185240844, 0], [71.97638667498022, 649.1394185240844, 16777215], [85, 723, 16777215], [98.02361332501978, 649.1394185240844, 16777215], [98.02361332501978, 649.1394185240844, 0], [98.02361332501978, 800.8605814759156, 0], [98.02361332501978, 800.8605814759156, 16777215], [85, 727, 16777215], [71.97638667498022, 800.8605814759156, 16777215], [71.97638667498022, 800.8605814759156, 0], [238.46331929392565, 648.285397643119, 0], [238.46331929392565, 648.285397643119, 16777215], [245, 723, 16777215], [251.53668070607435, 648.285397643119, 16777215], [251.53668070607435, 648.285397643119, 0], [251.53668070607435, 801.714602356881, 0], [251.53668070607435, 801.714602356881, 16777215], [245, 727, 16777215], [238.46331929392565, 801.714602356881, 16777215], [238.46331929392565, 801.714602356881, 0], [405.0, 648.0, 0], [405.0, 648.0, 16777215], [405, 723, 16777215], [405.0, 648.0, 16777215], [405.0, 648.0, 0], [405.0, 802.0, 0], [405.0, 802.0, 16777215], [405, 727, 16777215], [405.0, 802.0, 16777215], [405.0, 802.0, 0]] + + optimizer(pl_brightness) + + +###########################################################################3333 +# | Not used yet, it's for the eulerian graph optimization, probably comming soon =) +# v +# +#class Node: +# def __init__(self, sid, color): +# self.sid = sid +# self.connected = [] +# self.used = False +# self.color = color +# self.is_free = None # may be an other value to initialise +# self.blank_connection = "" +# +# def add_nodes(self, neighbord): +# not_the_same = neighbord != self.sid +# not_allrady_inside = neighbord not in self.connected +# +# if neighbord != self.sid and neighbord not in self.connected: +# self.connected.append(neighbord) +# +# # print the content of the objet to debug with print() +# def __repr__(self): +# is_free = " \t###" if self.is_free else " \t___" +# return is_free + str(self.connected) + "\n" +# +#class Component: +# def __init__(self, all_nodes, comp_nodes): +# self.all_nodes = all_nodes +# self.id_nodes = comp_nodes +# self.id_free_nodes = [] +# self.is_eulerian_circuit = True +# # centre x,y +# # bounding box +# # other +# pass +# #class Graph: # nodes = {} # dict of all nodes # # def __init__(selt): # pass - -def list_to_nodes(pl): - all_nodes = {} # it will contain all nodes - sid_prev = None - - for p in pl: - sid = str([int(p[0]), int(p[1])]) - is_colored = p[2] != 0 - - if is_colored: - if sid not in all_nodes: - all_nodes[sid] = Node(sid, p[2]) - if sid_prev != None: - all_nodes[sid].add_nodes(sid_prev) - all_nodes[sid_prev].add_nodes(sid) - sid_prev = sid if is_colored else None - return all_nodes - -# recursiv function witch get all connected node for one component and tag them as used -def get_one_comp(id_elem, nodes): - comp = [] - - comp.append(id_elem) - nodes[id_elem].used = True - for id_near in nodes[id_elem].connected: - if nodes[id_near].used == False: - comp += get_one_comp(id_near, nodes) - return comp - -def get_comps(nodes): - comps = [] #all component - iter_nodes = iter(nodes) - nb_elem = len(nodes) - - for id_nodes in iter_nodes: - if nodes[id_nodes].used == False: - comps.append(get_one_comp(id_nodes, nodes)) - return comps - -# if ther is a class for the component it would be a good idea to set en atribute about eulerian graph or non eulerian graph -def set_free_vertices(components, nodes): - for comp in components: - all_even_neighbord = True - for id_node in comp: - if len(nodes[id_node].connected) % 2 == 0: # test if even neighbord - nodes[id_node].is_free = False - else: - nodes[id_node].is_free = True - all_even_neighbord = False - if all_even_neighbord: - for id_node in comp: - nodes[id_node].is_free = True - -def optimizer(pl): - all_nodes = {} # it will contain all nodes - components = [] # list of connected node as a graph - - # construct dict of connected all_nodes - all_nodes = list_to_nodes(pl) - components = get_comps(all_nodes) - set_free_vertices(components, all_nodes) - print("\n\nall_nodes:\n", all_nodes) - print("\n\nconnected_components:\n", components) - return pl - -if __name__ == '__main__': - pl = [(355, 262, 0), (355, 262, 16777215), (300, 130, 16777215), (432, 75, 16777215), (487, 207, 16777215), (355, 262, 16777215), (355, 262, 0), (0, 435, 0), (0, 480, 16777215), (0, 300, 16777215), (135, 300, 16777215), (135, 570, 16777215), (135, 570, 16777215), (135, 300, 16777215), (135, 300, 0), (135, 300, 16777215), (225, 480, 16777215), (225, 480, 0), (510, 450, 0), (510, 450, 16777215), (600, 420, 16777215), (600, 300, 16777215), (720, 300, 16777215), (720, 420, 16777215), (810, 450, 16777215), (810, 450, 0)] - optimizer(pl) +# +#def list_to_nodes(pl): +# all_nodes = {} # it will contain all nodes +# sid_prev = None +# +# for p in pl: +# sid = str([int(p[0]), int(p[1])]) +# is_colored = p[2] != 0 +# +# if is_colored: +# if sid not in all_nodes: +# all_nodes[sid] = Node(sid, p[2]) +# if sid_prev != None: +# all_nodes[sid].add_nodes(sid_prev) +# all_nodes[sid_prev].add_nodes(sid) +# sid_prev = sid if is_colored else None +# return all_nodes +# +## recursiv function witch get all connected node for one component and tag them as used +#def get_one_comp(id_elem, nodes): +# comp = [] +# +# comp.append(id_elem) +# nodes[id_elem].used = True +# for id_near in nodes[id_elem].connected: +# if nodes[id_near].used == False: +# comp += get_one_comp(id_near, nodes) +# return comp +# +#def get_comps(nodes): +# comps = [] #all component +# iter_nodes = iter(nodes) +# nb_elem = len(nodes) +# +# for id_nodes in iter_nodes: +# if nodes[id_nodes].used == False: +# comps.append(get_one_comp(id_nodes, nodes)) +# return comps +# +## if ther is a class for the component it would be a good idea to set en atribute about eulerian graph or non eulerian graph +#def set_free_vertices(components, nodes): +# for comp in components: +# all_even_neighbord = True +# for id_node in comp: +# if len(nodes[id_node].connected) % 2 == 0: # test if even neighbord +# nodes[id_node].is_free = False +# else: +# nodes[id_node].is_free = True +# all_even_neighbord = False +# if all_even_neighbord: +# for id_node in comp: +# nodes[id_node].is_free = True +# +#def optimizer_old(pl): +# all_nodes = {} # it will contain all nodes +# components = [] # list of connected node as a graph +# +# # construct dict of connected all_nodes +# all_nodes = list_to_nodes(pl) +# components = get_comps(all_nodes) +# set_free_vertices(components, all_nodes) +##@ print("\n\nall_nodes:\n", all_nodes) +##@ print("\n\nconnected_components:\n", components) +# return pl +#