[562] | 1 | # Draws a genealogical tree (generates a SVG file) based on parent-child relationship information.
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| 2 |
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| 3 | import json
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| 4 | import random
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| 5 | import math
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| 6 | import argparse
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| 7 |
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[571] | 8 | TIME = "" # BIRTHS / GENERATIONAL / REAL
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| 9 | BALANCE = "" # MIN / DENSITY
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[562] | 10 |
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[571] | 11 | DOT_STYLE = "" # NONE / NORMAL / CLEAR
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| 12 |
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| 13 | JITTER = "" #
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| 14 |
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[562] | 15 | # ------SVG---------
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| 16 | svg_file = 0
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| 17 |
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| 18 | svg_line_style = 'stroke="rgb(90%,10%,16%)" stroke-width="1" stroke-opacity="0.8"'
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| 19 | svg_dot_style = 'r="2" stroke="black" stroke-width="0.2" fill="red"'
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[571] | 20 | svg_clear_dot_style = 'r="2" stroke="black" stroke-width="0.4" fill="none"'
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| 21 |
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[562] | 22 | svg_spine_line_style = 'stroke="rgb(0%,0%,80%)" stroke-width="2" stroke-opacity="1"'
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| 23 | svg_spine_dot_style = 'r="1" stroke="black" stroke-width="0.2" fill="rgb(50%,50%,100%)"'
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| 24 |
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| 25 | def svg_add_line(from_pos, to_pos, style=svg_line_style):
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| 26 | svg_file.write('<line ' + style + ' x1="' + str(from_pos[0]) + '" x2="' + str(to_pos[0]) + '" y1="' + str(from_pos[1]) + '" y2="' + str(to_pos[1]) + '" />')
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| 27 |
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| 28 | def svg_add_dot(pos, style=svg_dot_style):
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| 29 | svg_file.write('<circle ' + style + ' cx="' + str(pos[0]) + '" cy="' + str(pos[1]) + '" />')
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| 30 |
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| 31 | def svg_generate_line_style(percent):
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[564] | 32 | # hotdog
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[562] | 33 | from_col = [100, 70, 0]
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[564] | 34 | to_col = [60, 0, 0]
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[571] | 35 | # lava
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| 36 | # from_col = [100, 80, 0]
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| 37 | # to_col = [100, 0, 0]
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[564] | 38 | # neon
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| 39 | # from_col = [30, 200, 255]
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| 40 | # to_col = [240, 0, 220]
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[562] | 41 |
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[564] | 42 | from_opa = 0.2
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| 43 | to_opa = 1.0
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| 44 | from_stroke = 1
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| 45 | to_stroke = 3
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[562] | 46 |
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[564] | 47 | opa = from_opa*(1-percent) + to_opa*percent
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| 48 | stroke = from_stroke*(1-percent) + to_stroke*percent
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| 49 |
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| 50 | percent = 1 - ((1-percent)**20)
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| 51 |
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[562] | 52 | return 'stroke="rgb(' + str(from_col[0]*(1-percent) + to_col[0]*percent) + '%,' \
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| 53 | + str(from_col[1]*(1-percent) + to_col[1]*percent) + '%,' \
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[564] | 54 | + str(from_col[2]*(1-percent) + to_col[2]*percent) + '%)" stroke-width="' + str(stroke) + '" stroke-opacity="' + str(opa) + '"'
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[562] | 55 |
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| 56 | def svg_generate_dot_style(percent):
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[571] | 57 | from_col = [100, 70, 0]
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[564] | 58 | to_col = [60, 0, 0]
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| 59 | # neon
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| 60 | # from_col = [30, 200, 255]
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| 61 | # to_col = [240, 0, 220]
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[562] | 62 |
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[564] | 63 | from_opa = 0.2
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| 64 | to_opa = 1.0
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[562] | 65 |
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[564] | 66 | opa = from_opa*(1-percent) + to_opa*percent
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| 67 |
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| 68 | percent = 1 - ((1-percent)**20)
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| 69 |
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[562] | 70 | return 'fill="rgb(' + str(from_col[0]*(1-percent) + to_col[0]*percent) + '%,' \
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| 71 | + str(from_col[1]*(1-percent) + to_col[1]*percent) + '%,' \
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[564] | 72 | + str(from_col[2]*(1-percent) + to_col[2]*percent) + '%)" r="1.5" stroke="black" stroke-width="0.2" fill-opacity="' + str(opa) + '" ' \
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| 73 | 'stroke-opacity="' + str(opa) + '"'
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[562] | 74 |
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| 75 | # -------------------
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| 76 |
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| 77 | def load_data(dir):
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[571] | 78 | global firstnode, nodes, inv_nodes, time
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[562] | 79 | f = open(dir)
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| 80 | for line in f:
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[571] | 81 | sline = line.split(' ', 1)
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| 82 | if len(sline) == 2:
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| 83 | if sline[0] == "[OFFSPRING]":
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| 84 | creature = json.loads(sline[1])
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[562] | 85 | #print("B" +str(creature))
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[563] | 86 | if "FromIDs" in creature:
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[572] | 87 | if not creature["ID"] in nodes:
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| 88 | nodes[creature["ID"]] = {}
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| 89 | # we assign to each parent its contribution to the genotype of the child
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| 90 | for i in range(0, len(creature["FromIDs"])):
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| 91 | inherited = 1 #(creature["Inherited"][i] if 'Inherited' in creature else 1) #ONLY FOR NOW
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| 92 | nodes[creature["ID"]][creature["FromIDs"][i]] = inherited
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| 93 | else:
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| 94 | print("Doubled entry for " + creature["ID"])
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| 95 | quit()
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| 96 |
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[563] | 97 | if not creature["FromIDs"][0] in nodes:
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| 98 | firstnode = creature["FromIDs"][0]
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[572] | 99 |
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[566] | 100 | if "Time" in creature:
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| 101 | time[creature["ID"]] = creature["Time"]
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[562] | 102 |
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| 103 | for k, v in sorted(nodes.items()):
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[572] | 104 | for val in sorted(v):
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| 105 | inv_nodes[val] = inv_nodes.get(val, [])
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| 106 | inv_nodes[val].append(k)
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[562] | 107 |
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| 108 |
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| 109 | def load_simple_data(dir):
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| 110 | global firstnode, nodes, inv_nodes
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| 111 | f = open(dir)
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| 112 | for line in f:
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| 113 | sline = line.split()
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| 114 | if len(sline) > 1:
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| 115 | #if int(sline[0]) > 15000:
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| 116 | # break
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| 117 | if sline[0] == firstnode:
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| 118 | continue
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| 119 | nodes[sline[0]] = str(max(int(sline[1]), int(firstnode)))
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| 120 | else:
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| 121 | firstnode = sline[0]
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| 122 |
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| 123 | for k, v in sorted(nodes.items()):
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| 124 | inv_nodes[v] = inv_nodes.get(v, [])
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| 125 | inv_nodes[v].append(k)
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| 126 |
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| 127 | #print(str(inv_nodes))
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| 128 | #quit()
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| 129 |
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| 130 | def compute_depth(node):
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| 131 | my_depth = 0
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| 132 | if node in inv_nodes:
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| 133 | for c in inv_nodes[node]:
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| 134 | my_depth = max(my_depth, compute_depth(c)+1)
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| 135 | depth[node] = my_depth
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| 136 | return my_depth
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| 137 |
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| 138 | # ------------------------------------
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| 139 |
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| 140 | def xmin_crowd(x1, x2, y):
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| 141 | if BALANCE == "RANDOM":
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| 142 | return (x1 if random.randrange(2) == 0 else x2)
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| 143 | elif BALANCE == "MIN":
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| 144 | x1_closest = 999999
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| 145 | x2_closest = 999999
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| 146 | for pos in positions:
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| 147 | pos = positions[pos]
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| 148 | if pos[1] == y:
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| 149 | x1_closest = min(x1_closest, abs(x1-pos[0]))
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| 150 | x2_closest = min(x2_closest, abs(x2-pos[0]))
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| 151 | return (x1 if x1_closest > x2_closest else x2)
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| 152 | elif BALANCE == "DENSITY":
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| 153 | x1_dist = 0
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| 154 | x2_dist = 0
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| 155 | for pos in positions:
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| 156 | pos = positions[pos]
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| 157 | if pos[1] > y-10 or pos[1] < y+10:
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| 158 | dy = pos[1]-y
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| 159 | dx1 = pos[0]-x1
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| 160 | dx2 = pos[0]-x2
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| 161 |
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| 162 | x1_dist += math.sqrt(dy**2 + dx1**2)
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| 163 | x2_dist += math.sqrt(dy**2 + dx2**2)
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| 164 | return (x1 if x1_dist > x2_dist else x2)
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| 165 |
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| 166 | # ------------------------------------
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| 167 |
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| 168 | def prepos_children_reccurent(node):
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[572] | 169 | global visited
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[562] | 170 | for c in inv_nodes[node]:
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[572] | 171 |
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| 172 | # we want to visit the node just once, after all of its parents
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| 173 | if not all_parents_visited(c):
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| 174 | continue
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[571] | 175 | else:
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[572] | 176 | visited[c] = True
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[571] | 177 |
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[572] | 178 | # if JITTER == True:
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| 179 | # dissimilarity = random.gauss(0,1)
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| 180 | # else:
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| 181 | # dissimilarity = 1
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| 182 | # #TODO take this info from proper fields
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| 183 |
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| 184 | cy = 0
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[566] | 185 | if TIME == "BIRTHS":
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[562] | 186 | if c[0] == "c":
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[572] | 187 | cy = int(c[1:])
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[562] | 188 | else:
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[572] | 189 | cy = int(c)
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[562] | 190 | elif TIME == "GENERATIONAL":
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[572] | 191 | cy = positions[node][1]+1
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[566] | 192 | elif TIME == "REAL":
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[572] | 193 | cy = time[c]
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[562] | 194 |
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[572] | 195 | if len(nodes[c]) == 1:
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| 196 | dissimilarity = 0
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| 197 | if JITTER == True:
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| 198 | dissimilarity = random.gauss(0,1)
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| 199 | else:
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| 200 | dissimilarity = 1
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| 201 | positions[c] = [xmin_crowd(positions[node][0]-dissimilarity, positions[node][0]+dissimilarity, cy), cy]
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| 202 | else:
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| 203 | vsum = sum([v for k, v in nodes[c].items()])
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| 204 | cx = sum([positions[k][0]*v/vsum for k, v in nodes[c].items()])
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| 205 |
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| 206 | if JITTER == True:
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| 207 | positions[c] = [cx + random.gauss(0, 0.1), cy]
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| 208 | else:
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| 209 | positions[c] = [cx, cy]
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| 210 |
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| 211 |
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[562] | 212 | if c in inv_nodes:
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| 213 | prepos_children_reccurent(c)
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| 214 |
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| 215 | def prepos_children():
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[572] | 216 | global max_height, max_width, min_width, visited
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[562] | 217 |
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[566] | 218 | if not bool(time):
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| 219 | print("REAL time requested, but no real time data provided. Assuming BIRTHS time instead.")
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| 220 | TIME = "BIRTHS"
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| 221 |
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[562] | 222 | positions[firstnode] = [0, 0]
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| 223 |
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[572] | 224 | visited = {}
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| 225 | visited[firstnode] = True
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[562] | 226 | prepos_children_reccurent(firstnode)
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| 227 |
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| 228 | for pos in positions:
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| 229 | max_height = max(max_height, positions[pos][1])
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| 230 | max_width = max(max_width, positions[pos][0])
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| 231 | min_width = min(min_width, positions[pos][0])
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| 232 |
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| 233 | # ------------------------------------
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| 234 |
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[572] | 235 | def all_parents_visited(node):
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| 236 | apv = True
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| 237 | for k, v in sorted(nodes[node].items()):
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| 238 | if not k in visited:
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| 239 | apv = False
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| 240 | break
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| 241 | return apv
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| 242 | # ------------------------------------
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| 243 |
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[562] | 244 | def draw_children_recurrent(node, max_depth):
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[572] | 245 | global visited
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| 246 |
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[562] | 247 | for c in inv_nodes[node]:
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[572] | 248 |
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| 249 | # we want to draw the node just once
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| 250 | if not all_parents_visited(c):
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| 251 | continue
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| 252 | else:
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| 253 | visited[c] = True
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| 254 |
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[562] | 255 | if c in inv_nodes:
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| 256 | draw_children_recurrent(c, max_depth)
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[564] | 257 |
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| 258 | line_style = (svg_line_style if args.mono_tree else svg_generate_line_style(depth[c]/max_depth))
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[572] | 259 | for k, v in sorted(nodes[c].items()):
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| 260 | svg_add_line( (w_margin+w_no_margs*(positions[k][0]-min_width)/(max_width-min_width), h_margin+h_no_margs*positions[k][1]/max_height),
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| 261 | (w_margin+w_no_margs*(positions[c][0]-min_width)/(max_width-min_width), h_margin+h_no_margs*positions[c][1]/max_height), line_style)
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[571] | 262 |
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| 263 | if DOT_STYLE == "NONE":
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| 264 | continue
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| 265 | elif DOT_STYLE == "CLEAR":
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| 266 | dot_style = svg_clear_dot_style
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| 267 | else: # NORMAL, default
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| 268 | dot_style = svg_generate_dot_style(depth[c]/max_depth)
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[564] | 269 | svg_add_dot( (w_margin+w_no_margs*(positions[c][0]-min_width)/(max_width-min_width), h_margin+h_no_margs*positions[c][1]/max_height), dot_style)
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[562] | 270 | def draw_children():
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[572] | 271 | global visited
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| 272 | visited = {}
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| 273 | visited[firstnode] = True
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| 274 |
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[562] | 275 | max_depth = 0
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| 276 | for k, v in depth.items():
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| 277 | max_depth = max(max_depth, v)
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| 278 | draw_children_recurrent(firstnode, max_depth)
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[571] | 279 |
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| 280 | if DOT_STYLE == "NONE":
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| 281 | return
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| 282 | elif DOT_STYLE == "CLEAR":
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| 283 | dot_style = svg_clear_dot_style
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| 284 | else: # NORMAL, default
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| 285 | dot_style = svg_generate_dot_style(depth[firstnode]/max_depth)
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[564] | 286 | svg_add_dot( (w_margin+w_no_margs*(positions[firstnode][0]-min_width)/(max_width-min_width), h_margin+h_no_margs*positions[firstnode][1]/max_height), dot_style)
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[562] | 287 |
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| 288 | def draw_spine_recurrent(node):
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| 289 | for c in inv_nodes[node]:
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| 290 | if depth[c] == depth[node] - 1:
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| 291 | if c in inv_nodes:
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| 292 | draw_spine_recurrent(c)
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[564] | 293 |
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| 294 | line_style = svg_spine_line_style
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[562] | 295 | svg_add_line( (w_margin+w_no_margs*(positions[node][0]-min_width)/(max_width-min_width), h_margin+h_no_margs*positions[node][1]/max_height),
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[564] | 296 | (w_margin+w_no_margs*(positions[c][0]-min_width)/(max_width-min_width), h_margin+h_no_margs*positions[c][1]/max_height), line_style)
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[562] | 297 | #svg_add_dot( (w_margin+w_no_margs*(positions[c][0]-min_width)/(max_width-min_width), h_margin+h_no_margs*positions[c][1]/max_height), svg_spine_dot_style)
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| 298 | def draw_spine():
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| 299 | draw_spine_recurrent(firstnode)
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| 300 | #svg_add_dot( (w_margin+w_no_margs*(positions[firstnode][0]-min_width)/(max_width-min_width), h_margin+h_no_margs*positions[firstnode][1]/max_height), svg_spine_dot_style)
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| 301 |
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| 302 | def draw_skeleton_reccurent(node, max_depth):
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| 303 | for c in inv_nodes[node]:
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| 304 | if depth[c] >= min_skeleton_depth or depth[c] == max([depth[q] for q in inv_nodes[node]]):
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| 305 | if c in inv_nodes:
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| 306 | draw_skeleton_reccurent(c, max_depth)
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[564] | 307 |
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| 308 | line_style = svg_spine_line_style
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[562] | 309 | svg_add_line( (w_margin+w_no_margs*(positions[node][0]-min_width)/(max_width-min_width), h_margin+h_no_margs*positions[node][1]/max_height),
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[564] | 310 | (w_margin+w_no_margs*(positions[c][0]-min_width)/(max_width-min_width), h_margin+h_no_margs*positions[c][1]/max_height), line_style)
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[562] | 311 | #svg_add_dot( (w_margin+w_no_margs*(positions[c][0]-min_width)/(max_width-min_width), h_margin+h_no_margs*positions[c][1]/max_height),
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| 312 | # svg_spine_dot_style)
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| 313 | def draw_skeleton():
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| 314 | max_depth = 0
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| 315 | for k, v in depth.items():
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| 316 | max_depth = max(max_depth, v)
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| 317 |
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| 318 | draw_skeleton_reccurent(firstnode, max_depth)
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| 319 | #svg_add_dot( (w_margin+w_no_margs*(positions[firstnode][0]-min_width)/(max_width-min_width), h_margin+h_no_margs*positions[firstnode][1]/max_height),
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| 320 | # svg_spine_dot_style)
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| 321 |
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| 322 |
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| 323 |
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| 324 | ##################################################### main #####################################################
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| 325 |
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| 326 | args = 0
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| 327 |
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| 328 | h = 800
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| 329 | w = 600
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| 330 | h_margin = 10
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| 331 | w_margin = 10
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| 332 | h_no_margs = h - 2* h_margin
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| 333 | w_no_margs = w - 2* w_margin
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| 334 |
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| 335 | max_height = 0
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| 336 | max_width = 0
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| 337 | min_width = 9999999999
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| 338 |
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| 339 | min_skeleton_depth = 0
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| 340 |
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| 341 | firstnode = ""
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| 342 | nodes = {}
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| 343 | inv_nodes = {}
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| 344 | positions = {}
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[572] | 345 | visited= {}
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[562] | 346 | depth = {}
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[566] | 347 | time = {}
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[562] | 348 |
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| 349 | def main():
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[571] | 350 | global svg_file, min_skeleton_depth, args, TIME, BALANCE, DOT_STYLE, JITTER
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[562] | 351 |
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| 352 | parser = argparse.ArgumentParser(description='Process some integers.')
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| 353 | parser.add_argument('--in', dest='input', required=True, help='input file with stuctured evolutionary data')
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| 354 | parser.add_argument('--out', dest='output', required=True, help='output file for the evolutionary tree')
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| 355 | draw_tree_parser = parser.add_mutually_exclusive_group(required=False)
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| 356 | draw_tree_parser.add_argument('--draw-tree', dest='draw_tree', action='store_true', help='whether drawing the full tree should be skipped')
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| 357 | draw_tree_parser.add_argument('--no-draw-tree', dest='draw_tree', action='store_false')
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| 358 |
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| 359 | draw_skeleton_parser = parser.add_mutually_exclusive_group(required=False)
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| 360 | draw_skeleton_parser.add_argument('--draw-skeleton', dest='draw_skeleton', action='store_true', help='whether the skeleton of the tree should be drawn')
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| 361 | draw_skeleton_parser.add_argument('--no-draw-skeleton', dest='draw_skeleton', action='store_false')
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| 362 |
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| 363 | draw_spine_parser = parser.add_mutually_exclusive_group(required=False)
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| 364 | draw_spine_parser.add_argument('--draw-spine', dest='draw_spine', action='store_true', help='whether the spine of the tree should be drawn')
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| 365 | draw_spine_parser.add_argument('--no-draw-spine', dest='draw_spine', action='store_false')
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| 366 |
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| 367 | #TODO: better names for those parameters
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[571] | 368 | parser.add_argument('--time', default='BIRTHS', dest='time', help='values on vertical axis (BIRTHS/GENERATIONAL/REAL); '
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| 369 | 'BIRTHS: time measured as the number of births since the beggining; '
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| 370 | 'GENERATIONAL: time measured as number of ancestors; '
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| 371 | 'REAL: real time of the simulation')
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| 372 | parser.add_argument('--balance', default='MIN', dest='balance', help='method of placing node in the tree (RANDOM/MIN/DENSITY)')
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[562] | 373 |
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[571] | 374 | parser.add_argument('--dots', default='NORMAL', dest='dots', help='method of drawing dots (individuals) (NONE/NORMAL/CLEAR)')
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| 375 |
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| 376 | parser.add_argument('-j', '--jitter', dest="jitter", action='store_true', help='draw horizontal positions of children from the normal distribution')
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| 377 |
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[562] | 378 | mono_tree_parser = parser.add_mutually_exclusive_group(required=False)
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| 379 | mono_tree_parser.add_argument('--mono-tree', dest='mono_tree', action='store_true', help='whether the tree should be drawn with a single color')
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| 380 | mono_tree_parser.add_argument('--no-mono-tree', dest='mono_tree', action='store_false')
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| 381 |
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| 382 | parser.add_argument('--min-skeleton-depth', type=int, default=2, dest='min_skeleton_depth', help='minimal distance from the leafs for the nodes in the skeleton')
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| 383 | parser.add_argument('--seed', type=int, dest='seed', help='seed for the random number generator (-1 for random)')
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| 384 |
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| 385 | parser.add_argument('--simple-data', type=bool, dest='simple_data', help='input data are given in a simple format (#child #parent)')
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| 386 |
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| 387 | parser.set_defaults(mono_tree=False)
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| 388 | parser.set_defaults(draw_tree=True)
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| 389 | parser.set_defaults(draw_skeleton=False)
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| 390 | parser.set_defaults(draw_spine=False)
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| 391 |
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| 392 | parser.set_defaults(seed=-1)
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| 393 |
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| 394 | args = parser.parse_args()
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| 395 |
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| 396 | TIME = args.time
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| 397 | BALANCE = args.balance
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[571] | 398 | DOT_STYLE = args.dots
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| 399 | JITTER = args.jitter
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[562] | 400 |
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| 401 | dir = args.input
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| 402 | min_skeleton_depth = args.min_skeleton_depth
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| 403 | seed = args.seed
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| 404 | if seed == -1:
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| 405 | seed = random.randint(0, 10000)
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| 406 | random.seed(seed)
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| 407 | print("seed:", seed)
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| 408 |
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| 409 | if args.simple_data:
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| 410 | load_simple_data(dir)
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| 411 | else:
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| 412 | load_data(dir)
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| 413 |
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| 414 | compute_depth(firstnode)
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| 415 |
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| 416 | svg_file = open(args.output, "w")
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| 417 | svg_file.write('<svg xmlns:svg="http://www.w3.org/2000/svg" xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink" version="1.0" '
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| 418 | 'width="' + str(w) + '" height="' + str(h) + '">')
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| 419 |
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| 420 | prepos_children()
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| 421 |
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| 422 | if args.draw_tree:
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| 423 | draw_children()
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| 424 | if args.draw_skeleton:
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| 425 | draw_skeleton()
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| 426 | if args.draw_spine:
|
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| 427 | draw_spine()
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| 428 |
|
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| 429 | svg_file.write("</svg>")
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| 430 | svg_file.close()
|
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| 431 |
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| 432 | main()
|
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| 433 |
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