Commit 0ba6f998 authored by Dick Hollenbeck's avatar Dick Hollenbeck

Clarify, extend, and rename ky*.py to kicad_netlist_reader.py.

Significantly enhance the bom_csv_grouped_by_value.py BOM generator.
IMO it at this moment, the best BOM production tool for KiCad.
parent b6110bfc
...@@ -4,8 +4,10 @@ ...@@ -4,8 +4,10 @@
# Example: Sorted and Grouped HTML BOM with more advanced grouping # Example: Sorted and Grouped HTML BOM with more advanced grouping
# #
from __future__ import print_function
# Import the KiCad python helper module and the csv formatter # Import the KiCad python helper module and the csv formatter
import ky_generic_netlist_reader import kicad_netlist_reader
import sys import sys
# Start with a basic html template # Start with a basic html template
...@@ -43,9 +45,9 @@ def myEqu(self, other): ...@@ -43,9 +45,9 @@ def myEqu(self, other):
result = True result = True
if self.getValue() != other.getValue(): if self.getValue() != other.getValue():
result = False result = False
elif self.getLib() != other.getLib(): elif self.getLibName() != other.getLibName():
result = False result = False
elif self.getPart() != other.getPart(): elif self.getPartName() != other.getPartName():
result = False result = False
elif self.getFootprint() != other.getFootprint(): elif self.getFootprint() != other.getFootprint():
result = False result = False
...@@ -61,18 +63,18 @@ def myEqu(self, other): ...@@ -61,18 +63,18 @@ def myEqu(self, other):
# Override the component equivalence operator - it is important to do this # Override the component equivalence operator - it is important to do this
# before loading the netlist, otherwise all components will have the original # before loading the netlist, otherwise all components will have the original
# equivalency operator. # equivalency operator.
ky_generic_netlist_reader.component.__equ__ = myEqu kicad_netlist_reader.comp.__equ__ = myEqu
# Generate an instance of a generic netlist, and load the netlist tree from # Generate an instance of a generic netlist, and load the netlist tree from
# video.tmp. If the file doesn't exist, execution will stop # video.tmp. If the file doesn't exist, execution will stop
net = ky_generic_netlist_reader.netlist(sys.argv[1]) net = kicad_netlist_reader.netlist(sys.argv[1])
# Open a file to write too, if the file cannot be opened output to stdout # Open a file to write too, if the file cannot be opened output to stdout
# instead # instead
try: try:
f = open(sys.argv[2], 'w') f = open(sys.argv[2], 'w')
except IOError: except IOError:
print >> sys.stderr, __file__, ":", e print(__file__, ":", e, file=sys.stderr)
f = stdout f = stdout
# Output a set of rows for a header providing general information # Output a set of rows for a header providing general information
...@@ -88,9 +90,11 @@ row += "<th>Description</th>" + "<th>Vendor</th></tr>" ...@@ -88,9 +90,11 @@ row += "<th>Description</th>" + "<th>Vendor</th></tr>"
html = html.replace('<!--TABLEROW-->', row + "<!--TABLEROW-->") html = html.replace('<!--TABLEROW-->', row + "<!--TABLEROW-->")
components = net.getInterestingComponents()
# Get all of the components in groups of matching parts + values # Get all of the components in groups of matching parts + values
# (see ky_generic_netlist_reader.py) # (see kicad_netlist_reader.py)
grouped = net.groupComponents() grouped = net.groupComponents(components)
# Output all of the component information # Output all of the component information
for group in grouped: for group in grouped:
...@@ -99,17 +103,19 @@ for group in grouped: ...@@ -99,17 +103,19 @@ for group in grouped:
# Add the reference of every component in the group and keep a reference # Add the reference of every component in the group and keep a reference
# to the component so that the other data can be filled in once per group # to the component so that the other data can be filled in once per group
for component in group: for component in group:
refs += component.getRef() + ", " if len(refs) > 0:
refs += ", "
refs += component.getRef()
c = component c = component
row = "\n " row = "\n "
row += "<tr><td>" + refs +"</td><td>" + str(len(group)) row += "<tr><td>" + refs +"</td><td>" + str(len(group))
row += "</td><td>" + c.getValue() + "</td><td>" + c.getLib() + "/" row += "</td><td>" + c.getValue() + "</td><td>" + c.getLibName() + ":"
row += c.getPart() + "</td><td>" + c.getDatasheet() + "</td><td>" row += c.getPartName() + "</td><td>" + c.getDatasheet() + "</td><td>"
row += c.getDescription() + "</td><td>" + c.getField("Vendor") row += c.getDescription() + "</td><td>" + c.getField("Vendor")
row += "</td></tr>" row += "</td></tr>"
html = html.replace('<!--TABLEROW-->', row + "<!--TABLEROW-->") html = html.replace('<!--TABLEROW-->', row + "<!--TABLEROW-->")
# Print the formatted html to output file # Print the formatted html to output file
print >> f, html print(html, file=f)
...@@ -4,21 +4,23 @@ ...@@ -4,21 +4,23 @@
# Example: Tab delimited list (The same as std output) Ungrouped # Example: Tab delimited list (The same as std output) Ungrouped
# #
from __future__ import print_function
# Import the KiCad python helper module and the csv formatter # Import the KiCad python helper module and the csv formatter
import ky_generic_netlist_reader import kicad_netlist_reader
import csv import csv
import sys import sys
# Generate an instance of a generic netlist, and load the netlist tree from # Generate an instance of a generic netlist, and load the netlist tree from
# the command line option. If the file doesn't exist, execution will stop # the command line option. If the file doesn't exist, execution will stop
net = ky_generic_netlist_reader.netlist(sys.argv[1]) net = kicad_netlist_reader.netlist(sys.argv[1])
# Open a file to write to, if the file cannot be opened output to stdout # Open a file to write to, if the file cannot be opened output to stdout
# instead # instead
try: try:
f = open(sys.argv[2], 'w') f = open(sys.argv[2], 'w')
except IOError: except IOError:
print >> sys.stderr, __file__, ":", e print(__file__, ":", e, file=sys.stderr)
f = stdout f = stdout
# Create a new csv writer object to use as the output formatter, although we # Create a new csv writer object to use as the output formatter, although we
...@@ -32,7 +34,9 @@ out.writerow(['Tool:', net.getTool()]) ...@@ -32,7 +34,9 @@ out.writerow(['Tool:', net.getTool()])
out.writerow(['Component Count:', len(net.components)]) out.writerow(['Component Count:', len(net.components)])
out.writerow(['Ref', 'Value', 'Part', 'Documentation', 'Description', 'Vendor']) out.writerow(['Ref', 'Value', 'Part', 'Documentation', 'Description', 'Vendor'])
components = net.getInterestingComponents()
# Output all of the component information # Output all of the component information
for c in net.components: for c in components:
out.writerow([c.getRef(), c.getValue(), c.getLib() + "/" + c.getPart(), out.writerow([c.getRef(), c.getValue(), c.getLibName() + ":" + c.getPartName(),
c.getDatasheet(), c.getDescription(), c.getField("Vendor")]) c.getDatasheet(), c.getDescription(), c.getField("Vendor")])
...@@ -4,21 +4,23 @@ ...@@ -4,21 +4,23 @@
# Example: Ungrouped (One component per row) CSV output # Example: Ungrouped (One component per row) CSV output
# #
from __future__ import print_function
# Import the KiCad python helper module # Import the KiCad python helper module
import ky_generic_netlist_reader import kicad_netlist_reader
import csv import csv
import sys import sys
# Generate an instance of a generic netlist, and load the netlist tree from # Generate an instance of a generic netlist, and load the netlist tree from
# the command line option. If the file doesn't exist, execution will stop # the command line option. If the file doesn't exist, execution will stop
net = ky_generic_netlist_reader.netlist(sys.argv[1]) net = kicad_netlist_reader.netlist(sys.argv[1])
# Open a file to write to, if the file cannot be opened output to stdout # Open a file to write to, if the file cannot be opened output to stdout
# instead # instead
try: try:
f = open(sys.argv[2], 'w') f = open(sys.argv[2], 'w')
except IOError: except IOError:
print >> sys.stderr, __file__, ":", e print(__file__, ":", e, file=sys.stderr)
f = stdout f = stdout
# Create a new csv writer object to use as the output formatter # Create a new csv writer object to use as the output formatter
...@@ -31,8 +33,10 @@ out.writerow(['Tool:', net.getTool()]) ...@@ -31,8 +33,10 @@ out.writerow(['Tool:', net.getTool()])
out.writerow(['Component Count:', len(net.components)]) out.writerow(['Component Count:', len(net.components)])
out.writerow(['Ref', 'Value', 'Footprint', 'Datasheet', 'Manufacturer', 'Vendor']) out.writerow(['Ref', 'Value', 'Footprint', 'Datasheet', 'Manufacturer', 'Vendor'])
components = net.getInterestingComponents()
# Output all of the component information (One component per row) # Output all of the component information (One component per row)
for c in net.components: for c in components:
out.writerow([c.getRef(), c.getValue(), c.getFootprint(), c.getDatasheet(), out.writerow([c.getRef(), c.getValue(), c.getFootprint(), c.getDatasheet(),
c.getField("Manufacturer"), c.getField("Vendor")]) c.getField("Manufacturer"), c.getField("Vendor")])
...@@ -4,49 +4,123 @@ ...@@ -4,49 +4,123 @@
# Example: Sorted and Grouped CSV BOM # Example: Sorted and Grouped CSV BOM
# #
from __future__ import print_function
# Import the KiCad python helper module and the csv formatter # Import the KiCad python helper module and the csv formatter
import ky_generic_netlist_reader import kicad_netlist_reader
import csv import csv
import sys import sys
if len(sys.argv) != 3:
print("Usage ", __file__, "<generic_netlist.xml> <output.csv>", file=sys.stderr)
sys.exit(1)
# Generate an instance of a generic netlist, and load the netlist tree from # Generate an instance of a generic netlist, and load the netlist tree from
# the command line option. If the file doesn't exist, execution will stop # the command line option. If the file doesn't exist, execution will stop
net = ky_generic_netlist_reader.netlist(sys.argv[1]) net = kicad_netlist_reader.netlist(sys.argv[1])
# Open a file to write to, if the file cannot be opened output to stdout # Open a file to write to, if the file cannot be opened output to stdout
# instead # instead
try: try:
f = open(sys.argv[2], 'w') f = open(sys.argv[2], 'w')
except IOError: except IOError:
print >> sys.stderr, __file__, ":", e print(__file__, ":", e, file=sys.stderr)
f = stdout f = stdout
# subset the components to those wanted in the BOM, controlled
# by <configure> block in kicad_netlist_reader.py
components = net.getInterestingComponents()
compfields = net.gatherComponentFieldUnion(components)
partfields = net.gatherLibPartFieldUnion()
# remove Reference, Value, Datasheet, and Footprint, they will come from 'columns' below
partfields -= set( ['Reference', 'Value', 'Datasheet', 'Footprint'] )
columnset = compfields | partfields # union
# prepend an initial 'hard coded' list and put the enchillada into list 'columns'
columns = ['Item', 'Qty', 'Reference(s)', 'Value', 'LibPart', 'Footprint', 'Datasheet'] + sorted(list(columnset))
# Create a new csv writer object to use as the output formatter # Create a new csv writer object to use as the output formatter
out = csv.writer(f, lineterminator='\n', delimiter=',', quotechar='\"', quoting=csv.QUOTE_ALL) out = csv.writer(f, lineterminator='\n', delimiter=',', quotechar='\"', quoting=csv.QUOTE_MINIMAL)
# Output a set of rows for a header providing general information # Output a set of rows as a header providing general information
out.writerow(['Source:', net.getSource()]) out.writerow(['Source:', net.getSource()])
out.writerow(['Date:', net.getDate()]) out.writerow(['Date:', net.getDate()])
out.writerow(['Tool:', net.getTool()]) out.writerow(['Tool:', net.getTool()])
out.writerow(['Component Count:', len(net.components)]) out.writerow(['Component Count:', len(components)])
out.writerow(['Ref', 'Qnty', 'Value', 'Part', 'Datasheet', 'Description', 'Vendor']) out.writerow([])
out.writerow(['Individual Components:'])
out.writerow([]) # blank line
out.writerow(columns)
# Output all the interesting components individually first:
row = []
for c in components:
del row[:]
row.append('') # item is blank in individual table
row.append('') # Qty is always 1, why print it
row.append( c.getRef() ) # Reference
row.append( c.getValue() ) # Value
row.append( c.getLibName() + ":" + c.getPartName() ) # LibPart
#row.append( c.getDescription() )
row.append( c.getFootprint() )
row.append( c.getDatasheet() )
# from column 7 upwards, use the fieldnames to grab the data
for field in columns[7:]:
row.append( c.getField( field ) );
out.writerow(row)
out.writerow([]) # blank line
out.writerow([]) # blank line
out.writerow([]) # blank line
out.writerow(['Collated Components:'])
out.writerow([]) # blank line
out.writerow(columns) # reuse same columns
# Get all of the components in groups of matching parts + values # Get all of the components in groups of matching parts + values
# (see ky_generic_netlist_reader.py) # (see kicad_netlist_reader.py)
grouped = net.groupComponents() grouped = net.groupComponents(components)
# Output all of the component information
# Output component information organized by group, aka as collated:
item = 0
for group in grouped: for group in grouped:
del row[:]
refs = "" refs = ""
# Add the reference of every component in the group and keep a reference # Add the reference of every component in the group and keep a reference
# to the component so that the other data can be filled in once per group # to the component so that the other data can be filled in once per group
for component in group: for component in group:
refs += component.getRef() + ", " if len(refs) > 0:
refs += ", "
refs += component.getRef()
c = component c = component
# Fill in the component groups common data # Fill in the component groups common data
out.writerow([refs, len(group), c.getValue(), c.getLib() + "/" + c.getPart(), c.getDatasheet(), # columns = ['Item', 'Qty', 'Reference(s)', 'Value', 'LibPart', 'Footprint', 'Datasheet'] + sorted(list(columnset))
c.getDescription(), c.getField("Vendor")]) item += 1
row.append( item )
row.append( len(group) )
row.append( refs );
row.append( c.getValue() )
row.append( c.getLibName() + ":" + c.getPartName() )
row.append( net.getGroupFootprint(group) )
row.append( net.getGroupDatasheet(group) )
# from column 7 upwards, use the fieldnames to grab the data
for field in columns[7:]:
row.append( net.getGroupField(group, field) );
out.writerow( row )
f.close()
...@@ -4,8 +4,10 @@ ...@@ -4,8 +4,10 @@
# Example: Sorted and Grouped HTML BOM with more advanced grouping # Example: Sorted and Grouped HTML BOM with more advanced grouping
# #
from __future__ import print_function
# Import the KiCad python helper module and the csv formatter # Import the KiCad python helper module and the csv formatter
import ky_generic_netlist_reader import kicad_netlist_reader
import sys import sys
# Start with a basic html template # Start with a basic html template
...@@ -43,9 +45,9 @@ def myEqu(self, other): ...@@ -43,9 +45,9 @@ def myEqu(self, other):
result = True result = True
if self.getValue() != other.getValue(): if self.getValue() != other.getValue():
result = False result = False
elif self.getLib() != other.getLib(): elif self.getLibName() != other.getLibName():
result = False result = False
elif self.getPart() != other.getPart(): elif self.getPartName() != other.getPartName():
result = False result = False
elif self.getFootprint() != other.getFootprint(): elif self.getFootprint() != other.getFootprint():
result = False result = False
...@@ -61,18 +63,18 @@ def myEqu(self, other): ...@@ -61,18 +63,18 @@ def myEqu(self, other):
# Override the component equivalence operator - it is important to do this # Override the component equivalence operator - it is important to do this
# before loading the netlist, otherwise all components will have the original # before loading the netlist, otherwise all components will have the original
# equivalency operator. # equivalency operator.
ky_generic_netlist_reader.component.__equ__ = myEqu kicad_netlist_reader.comp.__equ__ = myEqu
# Generate an instance of a generic netlist, and load the netlist tree from # Generate an instance of a generic netlist, and load the netlist tree from
# video.xml. If the file doesn't exist, execution will stop # video.xml. If the file doesn't exist, execution will stop
net = ky_generic_netlist_reader.netlist(sys.argv[1]) net = kicad_netlist_reader.netlist(sys.argv[1])
# Open a file to write too, if the file cannot be opened output to stdout # Open a file to write too, if the file cannot be opened output to stdout
# instead # instead
try: try:
f = open(sys.argv[2], 'w') f = open(sys.argv[2], 'w')
except IOError: except IOError:
print >> sys.stderr, __file__, ":", e print(__file__, ":", e, file=sys.stderr)
f = stdout f = stdout
# Output a set of rows for a header providing general information # Output a set of rows for a header providing general information
...@@ -90,9 +92,11 @@ row += "<th>PartNumber</th>" + "<th>Vendor</th></tr>" ...@@ -90,9 +92,11 @@ row += "<th>PartNumber</th>" + "<th>Vendor</th></tr>"
html = html.replace('<!--TABLEROW-->', row + "<!--TABLEROW-->") html = html.replace('<!--TABLEROW-->', row + "<!--TABLEROW-->")
components = net.getInterestingComponents()
# Get all of the components in groups of matching parts + values # Get all of the components in groups of matching parts + values
# (see ky_generic_netlist_reader.py) # (see kicad_netlist_reader.py)
grouped = net.groupComponents() grouped = net.groupComponents(components)
# Output all of the component information # Output all of the component information
for group in grouped: for group in grouped:
...@@ -101,12 +105,14 @@ for group in grouped: ...@@ -101,12 +105,14 @@ for group in grouped:
# Add the reference of every component in the group and keep a reference # Add the reference of every component in the group and keep a reference
# to the component so that the other data can be filled in once per group # to the component so that the other data can be filled in once per group
for component in group: for component in group:
refs += component.getRef() + ", " if len(refs) > 0:
refs += ", "
refs += component.getRef()
c = component c = component
row = "<tr><td>" + refs +"</td><td>" + str(len(group)) row = "<tr><td>" + refs +"</td><td>" + str(len(group))
row += "</td><td>" + c.getValue() + "</td><td>" row += "</td><td>" + c.getValue() + "</td><td>"
row += c.getLib() + "/" + c.getPart() + "</td><td>" row += c.getLibName() + ":" + c.getPartName() + "</td><td>"
#row += c.getDatasheet() + "</td><td>" #row += c.getDatasheet() + "</td><td>"
row += c.getDescription() + "</td><td>" row += c.getDescription() + "</td><td>"
row += c.getField("PartNumber") + "</td><td>" row += c.getField("PartNumber") + "</td><td>"
...@@ -116,4 +122,4 @@ for group in grouped: ...@@ -116,4 +122,4 @@ for group in grouped:
html = html.replace('<!--TABLEROW-->', row + "<!--TABLEROW-->") html = html.replace('<!--TABLEROW-->', row + "<!--TABLEROW-->")
# Print the formatted html to output file # Print the formatted html to output file
print >> f, html print(html, file=f)
...@@ -4,8 +4,10 @@ ...@@ -4,8 +4,10 @@
# Example: Sorted and Grouped HTML BOM # Example: Sorted and Grouped HTML BOM
# #
from __future__ import print_function
# Import the KiCad python helper module and the csv formatter # Import the KiCad python helper module and the csv formatter
import ky_generic_netlist_reader import kicad_netlist_reader
import sys import sys
# Start with a basic html template # Start with a basic html template
...@@ -30,14 +32,14 @@ html = """ ...@@ -30,14 +32,14 @@ html = """
# Generate an instance of a generic netlist, and load the netlist tree from # Generate an instance of a generic netlist, and load the netlist tree from
# the command line option. If the file doesn't exist, execution will stop # the command line option. If the file doesn't exist, execution will stop
net = ky_generic_netlist_reader.netlist(sys.argv[1]) net = kicad_netlist_reader.netlist(sys.argv[1])
# Open a file to write to, if the file cannot be opened output to stdout # Open a file to write to, if the file cannot be opened output to stdout
# instead # instead
try: try:
f = open(sys.argv[2], 'w') f = open(sys.argv[2], 'w')
except IOError: except IOError:
print >> sys.stderr, __file__, ":", e print(__file__, ":", e, file=sys.stderr)
f = stdout f = stdout
# Output a set of rows for a header providing general information # Output a set of rows for a header providing general information
...@@ -53,9 +55,11 @@ row += "<th>Description</th>" + "<th>Vendor</th></tr>" ...@@ -53,9 +55,11 @@ row += "<th>Description</th>" + "<th>Vendor</th></tr>"
html = html.replace('<!--TABLEROW-->', row + "<!--TABLEROW-->") html = html.replace('<!--TABLEROW-->', row + "<!--TABLEROW-->")
components = net.getInterestingComponents()
# Get all of the components in groups of matching parts + values # Get all of the components in groups of matching parts + values
# (see ky_generic_netlist_reader.py) # (see kicad_netlist_reader.py)
grouped = net.groupComponents() grouped = net.groupComponents(components)
# Output all of the component information # Output all of the component information
for group in grouped: for group in grouped:
...@@ -64,16 +68,18 @@ for group in grouped: ...@@ -64,16 +68,18 @@ for group in grouped:
# Add the reference of every component in the group and keep a reference # Add the reference of every component in the group and keep a reference
# to the component so that the other data can be filled in once per group # to the component so that the other data can be filled in once per group
for component in group: for component in group:
refs += component.getRef() + ", " if len(refs) > 0:
refs += ", "
refs += component.getRef()
c = component c = component
row = "<tr><td>" + refs +"</td><td>" + str(len(group)) row = "<tr><td>" + refs +"</td><td>" + str(len(group))
row += "</td><td>" + c.getValue() + "</td><td>" + c.getLib() + "/" row += "</td><td>" + c.getValue() + "</td><td>" + c.getLibName() + ":"
row += c.getPart() + "</td><td>" + c.getDatasheet() + "</td><td>" row += c.getPartName() + "</td><td>" + c.getDatasheet() + "</td><td>"
row += c.getDescription() + "</td><td>" + c.getField("Vendor") row += c.getDescription() + "</td><td>" + c.getField("Vendor")
row += "</td></tr>" row += "</td></tr>"
html = html.replace('<!--TABLEROW-->', row + "<!--TABLEROW-->") html = html.replace('<!--TABLEROW-->', row + "<!--TABLEROW-->")
# Print the formatted html to the file # Print the formatted html to the file
print >> f, html print(html, file=f)
...@@ -7,99 +7,64 @@ ...@@ -7,99 +7,64 @@
# is due to be deprecated in 3.0+ soon # is due to be deprecated in 3.0+ soon
# #
from __future__ import print_function
import sys import sys
import xml.sax as sax import xml.sax as sax
import re
import pdb
#-----<Configure>----------------------------------------------------------------
class component(): # excluded_fields is a list of regular expressions. If any one matches a field
"""Class for a set of component information""" # from either a component or a libpart, then that will not be included as a
def __init__(self, element): # column in the BOM. Otherwise all columns from all used libparts and components
self.element = element # will be unionized and will appear. Some fields are impossible to blacklist, such
self.libpart = None # as Ref, Value, Footprint, and Datasheet. Additionally Qty and Item are supplied
# unconditionally as columns, and may not be removed.
# Set to true when this component is included in a component group excluded_fields = [
self.grouped = False #'Price@1000'
]
def __eq__(self, other):
"""Equlivalency operator, remember this can be easily overloaded"""
result = False
if self.getValue() == other.getValue():
if self.getLib() == other.getLib():
if self.getPart() == other.getPart():
result = True
return result
def setPart(self, part):
self.libpart = part
def setValue(self, value): # You may exlude components from the BOM by either:
"""Set the value of this component""" #
v = self.element.getChild("value") # 1) adding a custom field named "Installed" to your components and filling it
if v: # with a value of "NU" (Normally Uninstalled).
v.setChars(value) # See netlist.getInterestingComponents(), or
#
def getValue(self): # 2) blacklisting it in any of the three following lists:
return self.element.get("value")
def getRef(self):
return self.element.get("comp", "ref")
def getFootprint(self): # regular expressions which match component 'Reference' fields of components that
return self.element.get("footprint") # are to be excluded from the BOM.
excluded_references = [
'TP[0-9]+' # all test points
]
def getDatasheet(self):
return self.element.get("datasheet")
def getLib(self): # regular expressions which match component 'Value' fields of components that
return self.element.get("libsource", "lib") # are to be excluded from the BOM.
excluded_values = [
def getPart(self): 'MOUNTHOLE',
return self.element.get("libsource", "part") 'SCOPETEST',
'MOUNT_HOLE',
def getTimestamp(self): 'SOLDER_BRIDGE.*'
return self.element.get("tstamp") ]
def getDescription(self):
# When attempting to access the part, we must take care in case the part
# cannot be found in the netlist
try:
d = self.libpart.getDescription()
except AttributeError:
d = ""
return d
def getDatasheet(self):
# When attempting to access the part, we must take care in case the part
# cannot be found in the netlist
try:
d = self.libpart.getDatasheet()
except AttributeError:
d = ""
return d
def getField(self, name):
"""Return the value of a field named name. The component is first
checked for the field, and then the components library part is checked
for the field. If the field doesn't exist in either, an empty string is
returned
Keywords:
name -- The name of the field to return the value for
"""
field = self.element.get("field", "name", name)
if field == "":
try:
field = self.libpart.getField(name)
except AttributeError:
field = ""
return field
# regular expressions which match component 'Footprint' fields of components that
# are to be excluded from the BOM.
excluded_footprints = [
#'MOUNTHOLE'
]
#-----</Configure>---------------------------------------------------------------
class netlistElement():
"""Generic netlist element. All elements for a netlist tree which can be class xmlElement():
"""xml element which can represent all nodes of the netlist tree. It can be
used to easily generate various output formats by propogating format used to easily generate various output formats by propogating format
requests to all children requests to children recursively.
""" """
def __init__(self, name, parent=None): def __init__(self, name, parent=None):
self.name = name self.name = name
...@@ -107,55 +72,57 @@ class netlistElement(): ...@@ -107,55 +72,57 @@ class netlistElement():
self.parent = parent self.parent = parent
self.chars = "" self.chars = ""
self.children = [] self.children = []
self.indent = ""
def __str__(self): def __str__(self):
"""String representation of this netlist element """String representation of this netlist element
""" """
return (self.name + "[" + self.chars + "]" + " attr:" + return self.name + "[" + self.chars + "]" + " attr_count:" + str(len(self.attributes))
str(len(self.attributes[a])))
def formatXML(self, nestLevel=0, amChild=False):
def formatXML(self, amChild=False):
"""Return this element formatted as XML """Return this element formatted as XML
Keywords: Keywords:
amChild -- If set to True, the start of document is not returned nestLevel -- increases by one for each level of nesting.
amChild -- If set to True, the start of document is not returned.
""" """
s = "" s = ""
indent = ""
for i in range(nestLevel):
indent += " "
if not amChild: if not amChild:
s = "<?xml version=\"1.0\" encoding=\"utf-8\"?>\n" s = "<?xml version=\"1.0\" encoding=\"utf-8\"?>\n"
s += self.indent + "<" + self.name s += indent + "<" + self.name
for a in self.attributes: for a in self.attributes:
s += " " + a + "=\"" + self.attributes[a] + "\"" s += " " + a + "=\"" + self.attributes[a] + "\""
if (len(self.chars) == 0) and (len(self.children) == 0): if (len(self.chars) == 0) and (len(self.children) == 0):
s += "/>" s += "/>"
else: else:
s += ">" + self.chars s += ">" + self.chars
for c in self.children: for c in self.children:
c.indent += self.indent + " "
s += "\n" s += "\n"
s += c.formatXML(True) s += c.formatXML(nestLevel+1, True)
if (len(self.children) > 0): if (len(self.children) > 0):
s += "\n" + self.indent s += "\n" + indent
if (len(self.children) > 0) or (len(self.chars) > 0): if (len(self.children) > 0) or (len(self.chars) > 0):
s += "</" + self.name + ">" s += "</" + self.name + ">"
return s return s
def formatHTML(self, amChild=False): def formatHTML(self, amChild=False):
"""Return this element formatted as HTML """Return this element formatted as HTML
Keywords: Keywords:
amChild -- If set to True, the start of document is not returned amChild -- If set to True, the start of document is not returned
""" """
s = "" s = ""
...@@ -169,125 +136,296 @@ class netlistElement(): ...@@ -169,125 +136,296 @@ class netlistElement():
</head> </head>
<body> <body>
<table> <table>
""" """
s += "<tr><td><b>" + self.name + "</b><br>" + self.chars + "</td><td><ul>" s += "<tr><td><b>" + self.name + "</b><br>" + self.chars + "</td><td><ul>"
for a in self.attributes: for a in self.attributes:
s += "<li>" + a + " = " + self.attributes[a] + "</li>" s += "<li>" + a + " = " + self.attributes[a] + "</li>"
s += "</ul></td></tr>\n" s += "</ul></td></tr>\n"
for c in self.children: for c in self.children:
s += c.formatHTML(True) s += c.formatHTML(True)
if not amChild: if not amChild:
s += """</table> s += """</table>
</body> </body>
</html>""" </html>"""
return s return s
def addAttribute(self, attr, value): def addAttribute(self, attr, value):
"""Add an attribute to this element""" """Add an attribute to this element"""
self.attributes[attr] = value self.attributes[attr] = value
def setAttribute(self, attr, value):
"""Set an attributes value - in fact does the same thing as add
attribute
"""
self.attributes[attr] = value
def setChars(self, chars): def setChars(self, chars):
"""Set the characters for this element""" """Set the characters for this element"""
self.chars = chars self.chars = chars
def addChars(self, chars): def addChars(self, chars):
"""Add characters (textual value) to this element""" """Add characters (textual value) to this element"""
self.chars += chars self.chars += chars
def addChild(self, child): def addChild(self, child):
"""Add a child element to this element""" """Add a child element to this element"""
self.children.append(child) self.children.append(child)
return self.children[len(self.children) - 1] return self.children[len(self.children) - 1]
def getParent(self): def getParent(self):
"""Get the parent of this element (Could be None)""" """Get the parent of this element (Could be None)"""
return self.parent return self.parent
def setAttribute(self, attr, value):
"""Set an attributes value - in fact does the same thing as add
attribute
"""
self.attributes[attr] = value
def getChild(self, name): def getChild(self, name):
"""Returns a child element of name """Returns the first child element named 'name'
Keywords: Keywords:
name -- The name of the child element to return""" name -- The name of the child element to return"""
for child in self.children: for child in self.children:
if child.name == name: if child.name == name:
return child return child
return None return None
def get(self, element, attribute="", attrmatch=""): def getChildren(self, name=None):
"""Return the data for either an attribute, or else an element""" if name:
if (self.name == element): # return _all_ children named "name"
ret = []
for child in self.children:
if child.name == name:
ret.append(child)
return ret
else:
return self.children
def get(self, elemName, attribute="", attrmatch=""):
"""Return the text data for either an attribute or an xmlElement
"""
if (self.name == elemName):
if attribute != "": if attribute != "":
if attrmatch != "": try:
if self.attributes[attribute] == attrmatch: if attrmatch != "":
return self.chars if self.attributes[attribute] == attrmatch:
else: return self.chars
return self.attributes[attribute] else:
return self.attributes[attribute]
except AttributeError:
return ""
else: else:
return self.chars return self.chars
for child in self.children: for child in self.children:
if child.get(element, attribute, attrmatch) != "": ret = child.get(elemName, attribute, attrmatch)
return child.get(element, attribute, attrmatch) if ret != "":
return ret
return ""
return ""
class libpart():
"""Class for a library part, aka 'libpart' in the xml netlist file.
(Components in eeschema are instantiated from library parts.)
This part class is implemented by wrapping an xmlElement with accessors.
This xmlElement instance is held in field 'element'.
"""
def __init__(self, xml_element):
#
self.element = xml_element
#def __str__(self):
# simply print the xmlElement associated with this part
#return str(self.element)
def getLibName(self):
return self.element.get("libpart", "lib")
def getPartName(self):
return self.element.get("libpart", "part")
def getDescription(self):
return self.element.get("description")
def getField(self, name):
return self.element.get("field", "name", name)
def getFieldNames(self):
"""Return a list of field names in play for this libpart.
"""
fieldNames = []
fields = self.element.getChild('fields')
if fields:
for f in fields.getChildren():
fieldNames.append( f.get('field','name') )
return fieldNames
def getDatasheet(self):
return self.getField("Datasheet")
def getFootprint(self):
return self.getField("Footprint")
def getAliases(self):
"""Return a list of aliases or None"""
aliases = self.element.getChild("aliases")
if aliases:
ret = []
children = aliases.getChildren()
# grab the text out of each child:
for child in children:
ret.append( child.get("alias") )
return ret
return None
class comp():
"""Class for a component, aka 'comp' in the xml netlist file.
This component class is implemented by wrapping an xmlElement instance
with accessors. The xmlElement is held in field 'element'.
"""
def __init__(self, xml_element):
self.element = xml_element
self.libpart = None
# Set to true when this component is included in a component group
self.grouped = False
def __eq__(self, other):
"""Equlivalency operator, remember this can be easily overloaded"""
result = False
if self.getValue() == other.getValue():
if self.getLibName() == other.getLibName():
if self.getPartName() == other.getPartName():
result = True
return result
def setLibPart(self, part):
self.libpart = part
def getLibPart(self):
return self.libpart
def getPartName(self):
return self.element.get("libsource", "part")
def getLibName(self):
return self.element.get("libsource", "lib")
def setValue(self, value):
"""Set the value of this component"""
v = self.element.getChild("value")
if v:
v.setChars(value)
def getValue(self):
return self.element.get("value")
def getField(self, name, libraryToo=True):
"""Return the value of a field named name. The component is first
checked for the field, and then the components library part is checked
for the field. If the field doesn't exist in either, an empty string is
returned
Keywords:
name -- The name of the field to return the value for
libraryToo -- look in the libpart's fields for the same name if not found
in component itself
"""
field = self.element.get("field", "name", name)
if field == "" and libraryToo:
field = self.libpart.getField(name)
return field
def getFieldNames(self):
"""Return a list of field names in play for this component. Mandatory
fields are not included, and they are: Value, Footprint, Datasheet, Ref.
The netlist format only includes fields with non-empty values. So if a field
is empty, it will not be present in the returned list.
"""
fieldNames = []
fields = self.element.getChild('fields')
if fields:
for f in fields.getChildren():
fieldNames.append( f.get('field','name') )
return fieldNames
def getRef(self):
return self.element.get("comp", "ref")
def getFootprint(self, libraryToo=True):
ret = self.element.get("footprint")
if ret =="" and libraryToo:
ret = self.libpart.getFootprint()
return ret
def getDatasheet(self, libraryToo=True):
ret = self.element.get("datasheet")
if ret == '' and libraryToo:
ret = self.libpart.getDatasheet()
return ret
def getTimestamp(self):
return self.element.get("tstamp")
def getDescription(self):
return self.libpart.getDescription()
class netlist(): class netlist():
""" Kicad generic netlist class. Generally loaded from a kicad generic """ Kicad generic netlist class. Generally loaded from a kicad generic
netlist file. Includes several helper functions to ease BOM creating netlist file. Includes several helper functions to ease BOM creating
scripts scripts
""" """
def __init__(self, fname=""): def __init__(self, fname=""):
"""Initialiser for the genericNetlist class """Initialiser for the genericNetlist class
Keywords: Keywords:
fname -- The name of the generic netlist file to open (Optional) fname -- The name of the generic netlist file to open (Optional)
""" """
self.design = None self.design = None
self.components = [] self.components = []
self.libparts = [] self.libparts = []
self.libraries = [] self.libraries = []
self.nets = [] self.nets = []
# The entire tree is loaded into self.tree # The entire tree is loaded into self.tree
self.tree = [] self.tree = []
self._curr_element = None self._curr_element = None
if fname != "": # component blacklist regexs, made from exluded_* above.
self.excluded_references = []
self.excluded_values = []
self.excluded_footprints = []
if fname != "":
self.load(fname) self.load(fname)
def addChars(self, content): def addChars(self, content):
"""Add characters to the current element""" """Add characters to the current element"""
self._curr_element.addChars(content) self._curr_element.addChars(content)
def addElement(self, name): def addElement(self, name):
"""Add a new kicad generic element to the list""" """Add a new kicad generic element to the list"""
if self._curr_element == None: if self._curr_element == None:
self.tree = netlistElement(name) self.tree = xmlElement(name)
self._curr_element = self.tree self._curr_element = self.tree
else: else:
self._curr_element = self._curr_element.addChild( self._curr_element = self._curr_element.addChild(
netlistElement(name, self._curr_element)) xmlElement(name, self._curr_element))
# If this element is a component, add it to the components list # If this element is a component, add it to the components list
if self._curr_element.name == "comp": if self._curr_element.name == "comp":
self.components.append(component(self._curr_element)) self.components.append(comp(self._curr_element))
# Assign the design element # Assign the design element
if self._curr_element.name == "design": if self._curr_element.name == "design":
...@@ -295,17 +433,17 @@ class netlist(): ...@@ -295,17 +433,17 @@ class netlist():
# If this element is a library part, add it to the parts list # If this element is a library part, add it to the parts list
if self._curr_element.name == "libpart": if self._curr_element.name == "libpart":
self.libparts.append(part(self._curr_element)) self.libparts.append(libpart(self._curr_element))
# If this element is a net, add it to the nets list # If this element is a net, add it to the nets list
if self._curr_element.name == "net": if self._curr_element.name == "net":
self.nets.append(self._curr_element) self.nets.append(self._curr_element)
# If this element is a library, add it to the libraries list # If this element is a library, add it to the libraries list
if self._curr_element.name == "library": if self._curr_element.name == "library":
self.libraries.append(self._curr_element) self.libraries.append(self._curr_element)
return self._curr_element return self._curr_element
def endDocument(self): def endDocument(self):
"""Called when the netlist document has been fully parsed""" """Called when the netlist document has been fully parsed"""
...@@ -314,8 +452,25 @@ class netlist(): ...@@ -314,8 +452,25 @@ class netlist():
# duplicate library part information for every component # duplicate library part information for every component
for c in self.components: for c in self.components:
for p in self.libparts: for p in self.libparts:
if p.getPart() == c.getPart() and p.getLib() == c.getLib(): if p.getLibName() == c.getLibName():
c.setPart(p) if p.getPartName() == c.getPartName():
c.setLibPart(p)
break
else:
aliases = p.getAliases()
if aliases and self.aliasMatch( c.getPartName(), aliases ):
c.setLibPart(p)
break;
if not c.getLibPart():
print( 'missing libpart for ref:', c.getRef(), c.getPartName(), c.getLibName() )
def aliasMatch(self, partName, aliasList):
for alias in aliasList:
if partName == alias:
return True
return False
def endElement(self): def endElement(self):
"""End the current element and switch to its parent""" """End the current element and switch to its parent"""
...@@ -328,49 +483,196 @@ class netlist(): ...@@ -328,49 +483,196 @@ class netlist():
def getSource(self): def getSource(self):
"""Return the source string for the design""" """Return the source string for the design"""
return self.design.get("source") return self.design.get("source")
def getTool(self): def getTool(self):
"""Return the tool string which was used to create the netlist tree""" """Return the tool string which was used to create the netlist tree"""
return self.design.get("tool") return self.design.get("tool")
def groupComponents(self): def gatherComponentFieldUnion(self, components=None):
"""Gather the complete 'set' of unique component fields, fields found in any component.
"""
if not components:
components=self.components
s = set()
for c in components:
s.update( c.getFieldNames() )
# omit anything matching any regex in excluded_fields
ret = set()
for field in s:
exclude = False
for rex in excluded_fields:
if re.match( rex, field ):
exclude = True
break
if not exclude:
ret.add(field)
return ret # this is a python 'set'
def gatherLibPartFieldUnion(self):
"""Gather the complete 'set' of part fields, fields found in any part.
"""
s = set()
for p in self.libparts:
s.update( p.getFieldNames() )
# omit anything matching any regex in excluded_fields
ret = set()
for field in s:
exclude = False
for rex in excluded_fields:
if re.match( rex, field ):
exclude = True
break
if not exclude:
ret.add(field)
return ret # this is a python 'set'
def getInterestingComponents(self):
"""Return a subset of all components, those that should show up in the BOM.
Omit those that should not, by consulting the blacklists:
excluded_values, excluded_refs, and excluded_footprints, which hold one
or more regular expressions. If any of the the regular expressions match
the corresponding field's value in a component, then the component is exluded.
"""
# pre-compile all the regex expressions:
del self.excluded_references[:]
del self.excluded_values[:]
del self.excluded_footprints[:]
for rex in excluded_references:
self.excluded_references.append( re.compile( rex ) )
for rex in excluded_values:
self.excluded_values.append( re.compile( rex ) )
for rex in excluded_footprints:
self.excluded_footprints.append( re.compile( rex ) )
# the subset of components to return, considered as "interesting".
ret = []
# run each component thru a series of tests, if it passes all, then add it
# to the interesting list 'ret'.
for c in self.components:
exclude = False
if not exclude:
for refs in self.excluded_references:
if refs.match(c.getRef()):
exclude = True
break;
if not exclude:
for vals in self.excluded_values:
if vals.match(c.getValue()):
exclude = True
break;
if not exclude:
for mods in self.excluded_footprints:
if mods.match(c.getFootprint()):
exclude = True
break;
if not exclude:
# This is a fairly personal way to flag DNS (Do Not Stuff). NU for
# me means Normally Uninstalled. You can 'or in' another expression here.
if c.getField( "Installed" ) == 'NU':
exclude = True
if not exclude:
ret.append(c)
# Sort first by ref as this makes for easier to read BOM's
ret.sort(key=lambda g: g.getRef())
return ret
def groupComponents(self, components = None):
"""Return a list of component lists. Components are grouped together """Return a list of component lists. Components are grouped together
when the value, library and part identifiers match when the value, library and part identifiers match.
Keywords:
components -- is a list of components, typically an interesting subset
of all components, or None. If None, then all components are looked at.
""" """
if not components:
components = self.components
groups = [] groups = []
# Make sure to start off will all components ungrouped to begin with # Make sure to start off will all components ungrouped to begin with
for c in self.components: for c in components:
c.grouped = False c.grouped = False
# Group components based on the value, library and part identifiers # Group components based on the value, library and part identifiers
for c in self.components: for c in components:
if c.grouped == False: if c.grouped == False:
c.grouped = True c.grouped = True
newgroup = [] newgroup = []
newgroup.append(c) newgroup.append(c)
# Check every other ungrouped component against this component # Check every other ungrouped component against this component
# and add to the group as necessary # and add to the group as necessary
for ci in self.components: for ci in components:
if ci.grouped == False and ci == c: if ci.grouped == False and ci == c:
newgroup.append(ci) newgroup.append(ci)
ci.grouped = True ci.grouped = True
# Add the new component group to the groups list # Add the new component group to the groups list
groups.append(newgroup) groups.append(newgroup)
# Each group is a list of components, we need to sort each list first # Each group is a list of components, we need to sort each list first
# to get them in order as this makes for easier to read BOM's # to get them in order as this makes for easier to read BOM's
for g in groups: for g in groups:
g = sorted(g, key=lambda g: g.getRef()) g = sorted(g, key=lambda g: g.getRef())
# Finally, sort the groups to order the references alphabetically # Finally, sort the groups to order the references alphabetically
groups = sorted(groups, key=lambda group: group[0].getRef()) groups = sorted(groups, key=lambda group: group[0].getRef())
return groups return groups
def getGroupField(self, group, field):
"""Return the whatever is known about the given field by consulting each
component in the group. If any of them know something about the property/field,
then return that first non-blank value.
"""
for c in group:
ret = c.getField(field, False)
if ret != '':
return ret
return group[0].getLibPart().getField(field)
def getGroupFootprint(self, group):
"""Return the whatever is known about the Footprint by consulting each
component in the group. If any of them know something about the Footprint,
then return that first non-blank value.
"""
for c in group:
ret = c.getFootprint()
if ret != "":
return ret
return group[0].getLibPart().getFootprint()
def getGroupDatasheet(self, group):
"""Return the whatever is known about the Datasheet by consulting each
component in the group. If any of them know something about the Datasheet,
then return that first non-blank value.
"""
for c in group:
ret = c.getDatasheet()
if ret != "":
return ret
if len(group) > 0:
return group[0].getLibPart().getDatasheet()
else:
print("NULL!")
return ''
def formatXML(self): def formatXML(self):
"""Return the whole netlist formatted in XML""" """Return the whole netlist formatted in XML"""
return self.tree.formatXML() return self.tree.formatXML()
...@@ -378,73 +680,48 @@ class netlist(): ...@@ -378,73 +680,48 @@ class netlist():
def formatHTML(self): def formatHTML(self):
"""Return the whole netlist formatted in HTML""" """Return the whole netlist formatted in HTML"""
return self.tree.formatHTML() return self.tree.formatHTML()
def load(self, fname): def load(self, fname):
"""Load a kicad generic netlist """Load a kicad generic netlist
Keywords: Keywords:
fname -- The name of the generic netlist file to open fname -- The name of the generic netlist file to open
""" """
try: try:
self._reader = sax.make_parser() self._reader = sax.make_parser()
self._reader.setContentHandler(_gNetReader(self)) self._reader.setContentHandler(_gNetReader(self))
self._reader.parse(fname) self._reader.parse(fname)
except IOError as e: except IOError as e:
print >> sys.stderr, __file__, ":", e print( __file__, ":", e, file=sys.stderr )
sys.exit(-1) sys.exit(-1)
class part():
"""Class for a library part"""
def __init__(self, part):
# The part is a reference to a libpart generic netlist element
self.element = part
def __str__(self):
# simply print the generic netlist element associated with this part
return str(self.element)
def getDatasheet(self):
return self.element.get("docs")
def getLib(self):
return self.element.get("libpart", "lib")
def getPart(self):
return self.element.get("libpart", "part")
def getDescription(self):
return self.element.get("description")
def getField(self, name):
return self.element.get("field", "name", name)
class _gNetReader(sax.handler.ContentHandler): class _gNetReader(sax.handler.ContentHandler):
"""SAX kicad generic netlist content handler - passes most of the work back """SAX kicad generic netlist content handler - passes most of the work back
to the gNetlist class which builds a complete tree in RAM for the design to the 'netlist' class which builds a complete tree in RAM for the design
""" """
def __init__(self, aParent): def __init__(self, aParent):
self.parent = aParent self.parent = aParent
def startElement(self, name, attrs): def startElement(self, name, attrs):
"""Start of a new XML element event""" """Start of a new XML element event"""
element = self.parent.addElement(name) element = self.parent.addElement(name)
for name in attrs.getNames(): for name in attrs.getNames():
element.addAttribute(name, attrs.getValue(name)) element.addAttribute(name, attrs.getValue(name))
def endElement(self, name): def endElement(self, name):
self.parent.endElement() self.parent.endElement()
def characters(self, content): def characters(self, content):
# Ignore erroneous white space - ignoreableWhitespace does not get rid # Ignore erroneous white space - ignoreableWhitespace does not get rid
# of the need for this! # of the need for this!
if not content.isspace(): if not content.isspace():
self.parent.addChars(content) self.parent.addChars(content)
def endDocument(self): def endDocument(self):
"""End of the XML document event""" """End of the XML document event"""
self.parent.endDocument() self.parent.endDocument()
...@@ -4,20 +4,24 @@ ...@@ -4,20 +4,24 @@
# Example: Round robin, XML to XML conversion # Example: Round robin, XML to XML conversion
# #
from __future__ import print_function
# Import the KiCad python helper module and the csv formatter # Import the KiCad python helper module and the csv formatter
import ky_generic_netlist_reader import kicad_netlist_reader
import sys import sys
import pdb
# Generate an instance of a generic netlist, and load the netlist tree from # Generate an instance of a generic netlist, and load the netlist tree from
# the command line option. If the file doesn't exist, execution will stop # the command line option. If the file doesn't exist, execution will stop
net = ky_generic_netlist_reader.netlist(sys.argv[1]) net = kicad_netlist_reader.netlist(sys.argv[1])
# Open a file to write to, if the file cannot be opened output to stdout # Open a file to write to, if the file cannot be opened output to stdout
# instead # instead
try: try:
f = open(sys.argv[2], 'w') f = open(sys.argv[2], 'w')
except IOError: except IOError:
print >> sys.stderr, __file__, ":", e print( __file__, ":", e, file=sys.stderr)
f = stdout f = stdout
print >> f, net.formatXML() print(net.formatXML(), file=f)
...@@ -4,8 +4,10 @@ ...@@ -4,8 +4,10 @@
# Example: Round value robin, XML to XML conversion with partial value monging # Example: Round value robin, XML to XML conversion with partial value monging
# #
from __future__ import print_function
# Import the KiCad python helper module and the csv formatter # Import the KiCad python helper module and the csv formatter
import ky_generic_netlist_reader import kicad_netlist_reader
import sys import sys
def checkvalue(self): def checkvalue(self):
...@@ -51,21 +53,21 @@ def checkvalue(self): ...@@ -51,21 +53,21 @@ def checkvalue(self):
# Give components a new method for checking the values (this could easily be a # Give components a new method for checking the values (this could easily be a
# Company Part Number generator method instead) # Company Part Number generator method instead)
ky_generic_netlist_reader.component.checkvalue = checkvalue kicad_netlist_reader.comp.checkvalue = checkvalue
# Generate an instance of a generic netlist, and load the netlist tree from # Generate an instance of a generic netlist, and load the netlist tree from
# the command line option. If the file doesn't exist, execution will stop # the command line option. If the file doesn't exist, execution will stop
net = ky_generic_netlist_reader.netlist(sys.argv[1]) net = kicad_netlist_reader.netlist(sys.argv[1])
# Open a file to write to, if the file cannot be opened output to stdout # Open a file to write to, if the file cannot be opened output to stdout
# instead # instead
try: try:
f = open(sys.argv[2], 'w') f = open(sys.argv[2], 'w')
except IOError: except IOError:
print >> sys.stderr, __file__, ":", e print(__file__, ":", e, file=sys.stderr)
f = stdout f = stdout
for c in net.components: for c in net.components:
c.checkvalue() c.checkvalue()
print >> f, net.formatXML() print(net.formatXML(), file=f)
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