#!/usr/bin/env python
#
# NopSCADlib Copyright Chris Palmer 2018
# nop.head@gmail.com
# hydraraptor.blogspot.com
#
# This file is part of NopSCADlib.
#
# NopSCADlib 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 3 of
# the License, or (at your option) any later version.
#
# NopSCADlib 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 NopSCADlib.
# If not, see .
#
#! Generates BOM files for the project.
from __future__ import print_function
import os
import sys
import shutil
import openscad
from time import *
from set_config import *
import json
import re
def find_scad_file(mname):
for filename in os.listdir(source_dir):
if filename[-5:] == ".scad":
#
# look for module which makes the assembly
#
with open(source_dir + "/" + filename, "r") as f:
for line in f.readlines():
words = line.split()
if len(words) and words[0] == "module":
module = words[1].split('(')[0]
if module == mname:
return filename
return None
class Part:
def __init__(self, args):
self.count = 1
for arg in args:
arg = arg.replace('true', 'True').replace('false', 'False').replace('undef', 'None')
exec('self.' + arg)
def data(self):
return self.__dict__
class BOM:
def __init__(self, name):
self.name = name
self.big = None
self.ngb = False
self.zoomed = 0
self.count = 1
self.vitamins = {}
self.printed = {}
self.routed = {}
self.assemblies = {}
def flat_data(self):
assemblies = {}
for ass in self.assemblies:
assemblies[ass] = self.assemblies[ass].count
return {
"name" : self.name,
"big" : self.big,
"ngb" : self.ngb,
"zoomed" : self.zoomed,
"count" : self.count,
"assemblies" : assemblies,
"vitamins" : {v : self.vitamins[v].data() for v in self.vitamins},
"printed" : {p : self.printed[p].data() for p in self.printed},
"routed" : {r : self.routed[r].data() for r in self.routed}
}
def add_part(self, s):
args = []
match = re.match(r'^(.*?\.stl|.*?\.dxf)\((.*)\)$', s) #look for name.stl(...) or name.dxf(...)
if match:
s = match.group(1)
args = [match.group(2)]
if s[-4:] == ".stl":
parts = self.printed
else:
if s[-4:] == ".dxf":
parts = self.routed
else:
parts = self.vitamins
if s in parts:
parts[s].count += 1
else:
parts[s] = Part(args)
def add_assembly(self, ass, args = []):
if ass in self.assemblies:
self.assemblies[ass].count += 1
else:
bom = BOM(ass)
for arg in args:
arg = arg.replace('true', 'True').replace('false', 'False').replace('undef', 'None')
exec('bom.' + arg, locals())
self.assemblies[ass] = bom
def make_name(self, ass):
if self.count == 1:
return ass
return ass.replace("assembly", "assemblies")
def print_bom(self, breakdown, file = None):
if self.vitamins:
print("Vitamins:", file=file)
if breakdown:
longest = 0
for ass in self.assemblies:
name = ass.replace("_assembly","")
longest = max(longest, len(name))
for i in range(longest):
line = ""
for ass in sorted(self.assemblies):
name = ass.replace("_assembly","").replace("_"," ").capitalize()
index = i - (longest - len(name))
if index < 0:
line += " "
else:
line += (" %s " % name[index])
print(line[:-1], file=file)
for part in sorted(self.vitamins):
if ': ' in part:
part_no, description = part.split(': ')
else:
part_no, description = "", part
if breakdown:
for ass in sorted(self.assemblies):
bom = self.assemblies[ass]
if part in bom.vitamins:
file.write("%2d|" % bom.vitamins[part].count)
else:
file.write(" |")
print("%3d" % self.vitamins[part].count, description, file=file)
if self.printed:
if self.vitamins:
print(file=file)
print("Printed:", file=file)
for part in sorted(self.printed):
if breakdown:
for ass in sorted(self.assemblies):
bom = self.assemblies[ass]
if part in bom.printed:
file.write("%2d|" % bom.printed[part].count)
else:
file.write(" |")
print("%3d" % self.printed[part].count, part, file=file)
if self.routed:
print(file=file)
print("CNC cut:", file=file)
for part in sorted(self.routed):
if breakdown:
for ass in sorted(self.assemblies):
bom = self.assemblies[ass]
if part in bom.routed:
file.write("%2d|" % bom.routed[part].count)
else:
file.write(" |")
print("%3d" % self.routed[part].count, part, file=file)
if self.assemblies:
print(file=file)
print("Assemblies:", file=file)
for ass in sorted(self.assemblies):
print("%3d %s" % (self.assemblies[ass].count, self.assemblies[ass].make_name(ass)), file=file)
def parse_bom(file = "openscad.log", name = None):
main = BOM(name)
main.ordered_assemblies = []
stack = []
prog = re.compile(r'^(.*)\((.*)\)$')
for line in open(file):
pos = line.find('ECHO: "~')
if pos > -1:
s = line[pos + 8 : line.rfind('"')]
if s[-1] == '{':
ass = s[:-1]
args = []
match = prog.match(ass) #look for (...)
if match:
ass = match.group(1)
args = match.group(2).split(',')
if stack:
main.assemblies[stack[-1]].add_assembly(ass) #add to nested BOM
stack.append(ass)
main.add_assembly(ass, args) #add to flat BOM
if ass in main.ordered_assemblies:
main.ordered_assemblies.remove(ass)
main.ordered_assemblies.insert(0, ass)
else:
if s[0] == '}':
if s[1:] != stack[-1]:
raise Exception("Mismatched assembly " + s[1:] + str(stack))
stack.pop()
else:
main.add_part(s)
if stack:
main.assemblies[stack[-1]].add_part(s)
else:
if 'ERROR:' in line or 'WARNING:' in line:
raise Exception(line[:-1])
return main
def usage():
print("\nusage:\n\tbom [target_config] [_assembly] - Generate BOMs for a project or an accessory to a project.")
sys.exit(1)
def boms(target = None, assembly = None):
try:
bom_dir = set_config(target, usage) + "bom"
if assembly:
bom_dir += "/accessories"
if not os.path.isdir(bom_dir):
os.makedirs(bom_dir)
else:
assembly = "main_assembly"
if os.path.isdir(bom_dir):
shutil.rmtree(bom_dir)
sleep(0.1)
os.makedirs(bom_dir)
#
# Find the scad file that makes the module
#
scad_file = find_scad_file(assembly)
if not scad_file:
raise Exception("can't find source for " + assembly)
#
# make a file to use the module
#
bom_maker_name = source_dir + "/bom.scad"
with open(bom_maker_name, "w") as f:
f.write("use <%s>\n" % scad_file)
f.write("%s();\n" % assembly);
#
# Run openscad
#
openscad.run("-D", "$bom=2", "-D", "$preview=true", "-o", "openscad.echo", "-d", bom_dir + "/bom.deps", bom_maker_name)
os.remove(bom_maker_name)
print("Generating bom ...", end=" ")
main = parse_bom("openscad.echo", assembly)
if assembly == "main_assembly":
main.print_bom(True, open(bom_dir + "/bom.txt","wt"))
for ass in main.assemblies:
with open(bom_dir + "/" + ass + ".txt", "wt") as f:
bom = main.assemblies[ass]
print(bom.make_name(ass) + ":", file=f)
bom.print_bom(False, f)
data = [main.assemblies[ass].flat_data() for ass in main.ordered_assemblies]
with open(bom_dir + "/bom.json", 'w') as outfile:
json.dump(data, outfile, indent = 4)
print("done")
except Exception as e:
print(str(e))
sys.exit(1)
if __name__ == '__main__':
if len(sys.argv) > 3: usage()
if len(sys.argv) == 3:
target, assembly = sys.argv[1], sys.argv[2]
else:
if len(sys.argv) == 2:
if sys.argv[1][-9:] == "_assembly":
target, assembly = None, sys.argv[1]
else:
target, assembly = sys.argv[1], None
else:
target, assembly = None, None
if assembly:
if assembly[-9:] != "_assembly": usage()
boms(target, assembly)