warzone2100/tools/tech-tree-chart-generator/warzoneresearch.py

245 lines
8.6 KiB
Python

#!/usr/bin/env python
# -*- coding: UTF-8 -*-
#
# Copyright © 2009 Adam Olsen
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from __future__ import with_statement, division
import re, hashlib
import pydot
PATH='../../data/mp/'
PREREQS='stats/research/multiplayer/prresearch.txt'
NAMES='messages/strings/names.txt'
COSTS='stats/research/multiplayer/research.txt'
class Tech(object):
def __init__(self, name, rawcosttime):
self.name = name
self.rawcosttime = rawcosttime
self.prereqs = set()
self.dependants = set()
self._cumcost = None
@property
def color(self):
if not hasattr(self, '_color'):
if self.matches(['flamer', 'phosphor', 'thermite', 'plasmite']):
self._color = 'orange'
elif self.matches(['missile', 'rocket', 'lancer', 'scourge', 'sam']):
self._color = 'red'
elif (self.matches(['cannon', 'mortar', 'shell', 'howitzer', 'pepperpot', 'rail', 'massdriver'])
and not self.matches(['plasma', 'emp'])):
self._color = 'blue'
elif (self.matches(['mg', 'machinegun']) or
(self.matches(['aa']) and not self.matches(['sam', 'laser']))):
self._color = 'purple'
elif self.matches(['plasma', 'laser', 'energy']) and not self.matches(['lassat', 'bomb']):
self._color = 'green'
else:
self._color = None
return self._color
@property
def fillcolor(self):
if not hasattr(self, '_fillcolor'):
if self.matches(['cyborg']):
self._fillcolor = 'lightblue'
elif self.matches(['r-vehicle-body', 'r-vehicle-prop-']):
self._fillcolor = 'greenyellow' # Really just light green
elif self.matches(['r-vehicle-engine']):
self._fillcolor = '#32cd32' # limegreen
elif self.matches(['bunker', 'hardpoint', 'emplacement', 'aasite', 'sam site', 'fortress', 'battery', 'tower', 'pit']):
self._fillcolor = 'peachpuff'
elif self.matches(['r-struc-research-upgrade']):
self._fillcolor = 'darkkhaki'
elif self.matches(['r-struc-power-upgrade']):
self._fillcolor = 'goldenrod'
else:
self._fillcolor = None
return self._fillcolor
@property
def edgestyle(self):
if not hasattr(self, '_edgestyle'):
#from random import choice
STYLES = 'dashed dotted solid'.split()
hashvalue = int(hashlib.sha256(self.name).hexdigest(), 16)
style = STYLES[hashvalue % len(STYLES)]
self._edgestyle = style
return self._edgestyle
@property
def deepprereqs(self):
x = set(self.prereqs)
for prereq in self.prereqs:
x.update(prereq.deepprereqs)
return x
@property
def cost(self):
# rawcosttime is used for both research time and research cost,
# but cost divides it by 32, then applies a cap of 450
return min(self.rawcosttime // 32, 450)
@property
def cumcost(self):
if self._cumcost is None:
self._cumcost = (self.cost +
sum(prereq.cost for prereq in self.deepprereqs))
return self._cumcost
def __repr__(self):
return 'Tech(%s, %s)' % (self.name, self.cost)
def matches(self, names):
for name in names:
if name.lower() in self.label.lower() or name.lower() in self.name.lower():
return True
else:
return False
def main():
techs = {}
with open(PATH + COSTS) as costs:
for line in costs:
x = line.split(',')
name, cost = x[0], int(x[11])
if name.startswith('CAM1'): # Automatic stuff
continue
if cost > 450 * 32:
cost = 450 * 32 # A runtime cap, according to Zarel
techs[name] = Tech(name, cost)
from pprint import pprint
#pprint(techs)
with open(PATH + PREREQS) as prereqs:
for line in prereqs:
name, prereq, junk = line.split(',')
if name == prereq: # This tells the game the tech is automatic
continue
if prereq.startswith('CAM1'): # Automatic stuff
continue
techs[name].prereqs.add(techs[prereq])
techs[prereq].dependants.add(techs[name])
with open(PATH + NAMES) as names:
for line in names:
m = re.match(r'^([a-zA-Z0-9-]+)\s+_\("(.*)"\)\s*$', line)
if m is not None:
name, label = m.groups()
if name in techs:
techs[name].label = label
#print techs['R-Vehicle-Body01'].cumcost
#for tech in techs.itervalues():
# print tech, list(tech.prereqs), tech.cumcost
#sortedtechs = sorted(techs.itervalues(), key=lambda tech: tech.cumcost)
#for tech in sortedtechs:
# print tech.cumcost, tech, tech.prereqs
graph = pydot.Dot()
graph.set_ranksep('1.0')
graph.set_rank('min')
graph.set_rankdir('LR')
graph.set_concentrate('true')
#graph.set_size('60,60')
automatic = pydot.Cluster()
automatic.set_label("Automatic")
automatic.set_fontcolor("darkgrey") # Lighter than "grey". Don't ask me why.
graph.add_subgraph(automatic)
# Pick out the ones we want
#chosen_techs = techs.values()
#import random
#random.shuffle(techvalues)
chosen_techs = set(tech for tech in techs.values() if tech.prereqs) # if tech.color == 'red')
# Recursively grab their dependencies
dirty = set(chosen_techs)
while dirty:
x = set(dirty)
dirty.clear()
chosen_techs |= x
for tech in x:
dirty.update(tech.prereqs - chosen_techs)
#print "Retaliation:", techs['R-Vehicle-Body03'].cumcost
#print "Turbo-Charged Engine:", techs['R-Vehicle-Engine04'].cumcost
#print "Gas Turbine Engine:", techs['R-Vehicle-Engine07'].cumcost
chosen_techs = sorted(chosen_techs, key=lambda tech: (tech.cumcost, tech.label))
# Add nodes
for tech in chosen_techs:
node = pydot.Node(tech.name)
node.set_label(tech.label)
#node.set_label(tech.name)
#node.set_label(r'%s\n%s' % (tech.label, tech.name))
node.set_shape('box')
node.set_style('filled,setlinewidth(3.0)')
node.set_color('black')
node.set_fillcolor('lightgrey')
node.set_fontsize('24')
if tech.color is not None:
node.set_color(tech.color)
if tech.fillcolor is not None:
node.set_fillcolor(tech.fillcolor)
if tech.name in ['R-Sys-Engineering01', 'R-Sys-Sensor-Turret01', 'R-Wpn-MG1Mk1']:
#node.set_URL(r"//wzguide.co.cc/new/r/sensorturret")
automatic.add_node(node)
else:
graph.add_node(node)
# Add edges
for tech in chosen_techs:
for prereq in tech.prereqs:
edge = pydot.Edge(prereq.name, tech.name)
edge.set_tailport('e')
edge.set_headport('w')
#if prereq.name in ['R-Struc-Research-Upgrade07', 'R-Sys-Sensor-Upgrade01']:
# edge.set_style('dashed')
#elif prereq.name in ['R-Defense-HardcreteWall', 'R-Struc-Research-Upgrade04']:
# edge.set_style('dotted')
style = prereq.edgestyle
if prereq.color is None:
edge.set_color('black')
else:
edge.set_color(prereq.color)
edge.set_style(style)
#edge.set_weight(str(20.0 / (len(tech.prereqs) + len(prereq.dependants))))
weight = 8.0 / 1.2**(len(prereq.dependants) + len(tech.prereqs) / 4)
if tech.color != prereq.color:
weight /= 2
if tech.cumcost:
weight /= (tech.cumcost / 10000)
edge.set_weight(str(weight))
graph.add_edge(edge)
graph.write_svg('warzoneresearch.svg')
if __name__ == '__main__':
main()