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lt2ti.py
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lt2ti.py
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import uuid;
import re;
import math;
import copy;
import os;
import configparser;
class lt2circuiTikz:
lastASCfile = None;
reIsHdr = re.compile(r'[\s]*Version 4[\s]+', flags=re.IGNORECASE);
reIsSym = re.compile(r'[\s]*SymbolType[\s]+(.*)$', flags=re.IGNORECASE);# ASY file symbol type definition do NOT confuse with reIsComponent: an instance of a symbol
reIsSheet = re.compile(r'^[\s]*SHEET[\s]+([-\d]+)[\s]+([-\d]+)[\s]+([-\d]+)', flags=re.IGNORECASE);
# SHEET no wx1 wy1
reIsWire = re.compile(r'^[\s]*WIRE[\s]+([-\d]+)[\s]+([-\d]+)[\s]+([-\d]+)[\s]+([-\d]+)', flags=re.IGNORECASE);
# WIRE x1 y1 x2 y2
reIsNetLabel = re.compile(r'^[\s]*FLAG[\s]+([-\d]+)[\s]+([-\d]+)[\s]+(.*)', flags=re.IGNORECASE);
# FLAG x1 y1 label
reIsComponent = re.compile(r'^[\s]*SYMBOL[\s]+([\S]+)[\s]+([-\d]+)[\s]+([-\d]+)[\s]+([R|M])([-\d]+)', flags=re.IGNORECASE);
# SYMBOL path\\type x1 x2 [R|M] rotation
reIsCAttrName = re.compile(r'^[\s]*SYMATTR[\s]+InstName[\s]+(.*)', flags=re.IGNORECASE);
# SYMATTR InstName name
reIsCAttrValue = re.compile(r'^[\s]*SYMATTR[\s]+Value[\s]+(.*)', flags=re.IGNORECASE);
# SYMATTR Value value
reIsCAttrValue2 = re.compile(r'^[\s]*SYMATTR[\s]+Value2[\s]+(.*)', flags=re.IGNORECASE);
# SYMATTR Value2 value
reIsCAttrGeneric = re.compile(r'^[\s]*SYMATTR[\s]+([\S]+)[\s]+(.*)', flags=re.IGNORECASE);
# SYMATTR attr.name value
reIsWindow = re.compile(r'^[\s]*WINDOW[\s]+([-\d]+)[\s]+([-\d]+)[\s]([-\d]+)[\s]+([\S]+)[\s]+([-\d]+)', flags=re.IGNORECASE);
# WINDOW attr.No.Id rel.x1 rel y1 pos.str. size?=2
reIsText = re.compile(r'^[\s]*TEXT[\s]+([-\d]+)[\s]+([-\d]+)[\s]([\S]+)[\s]+([-\d]+)[\s]+[;!](.*)', flags=re.IGNORECASE);
# TEXT x1 y1 pos.str. size?=2 string
reIsLine = re.compile(r'^[\s]*LINE[\s]+([\S]+)[\s]+([-\d]+)[\s]+([-\d]+)[\s]+([-\d]+)[\s]+([-\d]+)[\s]*([-\d]*)', flags=re.IGNORECASE);
# Line type x1 y1 x2 y2 stype
reIsRect = re.compile(r'^[\s]*RECTANGLE[\s]+([\S]+)[\s]+([-\d]+)[\s]+([-\d]+)[\s]+([-\d]+)[\s]+([-\d]+)[\s]*([-\d]*)', flags=re.IGNORECASE);
# Rect type x1 y1 x2 y2 stype
reIsCircle = re.compile(r'^[\s]*CIRCLE[\s]+([\S]+)[\s]+([-\d]+)[\s]+([-\d]+)[\s]+([-\d]+)[\s]+([-\d]+)[\s]*([-\d]*)', flags=re.IGNORECASE);
# Circle/Oval type x1 y1 x2 y2 stype
# symbols:
reIsPin = re.compile(r'^[\s]*PIN[\s]+([-\d]+)[\s]+([-\d]+)[\s]([\S]+)[\s]+([-\d]+)', flags=re.IGNORECASE);
# PIN x1 y1 pos.str. offset
reIsPinName = re.compile(r'^[\s]*PINATTR[\s]+PinName[\s]+(.*)', flags=re.IGNORECASE);
# PIN PinName pin label
reIsPinOrder = re.compile(r'^[\s]*PINATTR[\s]+SpiceOrder[\s]+([-\d]+)', flags=re.IGNORECASE);
# PIN PinName pin order
reIsSAttrValue = re.compile(r'^[\s]*SYMATTR[\s]+Value[\s]+(.*)', flags=re.IGNORECASE);
# SYMATTR Value value
reIsSAttrPrefix = re.compile(r'^[\s]*SYMATTR[\s]+Prefix[\s]+(.*)', flags=re.IGNORECASE);
# SYMATTR Prefix value
reIsSAttrDescr = re.compile(r'^[\s]*SYMATTR[\s]+Description[\s]+(.*)', flags=re.IGNORECASE);
# SYMATTR Description value
reIsSAttrGeneric = re.compile(r'^[\s]*SYMATTR[\s]+([\S]+)[\s]+(.*)', flags=re.IGNORECASE);
# SYMATTR kind value
attrid2attr = {0:'InstName',3:'Value',123:'Value2',39:'SpiceLine',40:'SpiceLine2',38:'SpiceModel'};
attr2attrid = {'InstName':0,'Value':3, 'Value2':123, 'SpiceLine':39, 'SpiceLine2':40,'SpiceModel':38};
lastComponent = None;
lastWire = None;
lastLabel = None;
lastText = None;
lastPin =None;
lastSymbol =None;
lastAttributesDict = {};
lastLine = '';
lastSymLine = '';
linecnt = 0;
symlinecnt = 0;
translinecnt = 0;
config = None;
def __init__(self):
self.circDict = CircuitDict();
self.symbolDict = SymbolDict();
self.validInputFile = False;
#self.lt2tscale = 1.0/32.0;
#self.lt2tscale = (1.0/64.0);
self.lt2tscale = (1.0/48.0);
self.includepreamble = True;
self.lastASCfile = None;
try:
approot2 = (os.path.dirname(os.path.realpath(__file__)));
approot = os.path.dirname(os.path.abspath(__file__))
self.scriptmode = 'script'
except NameError: # We are the main py2exe script, not a module
import sys
approot = os.path.dirname(os.path.abspath(sys.argv[0]))
self.scriptmode = 'py2exe'
self.scriptdir = (approot);
self.symfilebasepath = 'sym'+os.sep;
configfileloc = self.scriptdir+os.sep+'lt2ti.ini'
print('lt2ti: Loading config at "'+configfileloc+'"')
self.config = configparser.RawConfigParser()
self.config.read(configfileloc)
if (self.config.has_option('general', 'symdir')):
self.symfilebasepath = self.config.get('general', 'symdir') + os.sep;
print('lt2ti: initial sym basepath="'+self.symfilebasepath+'"')
self.config = configparser.RawConfigParser()
conffiles = self.config.read([self.scriptdir+os.sep+'lt2ti.ini', self.scriptdir+os.sep+ self.symfilebasepath + 'sym.ini'])
#print('lt2ti: config sym basepath="' + self.config.get('general', 'symdir') + os.sep + '"')
self.defaultgnd = r'circuiTikz\\gnd'
if (self.config.has_option('general', 'lt2tscale')):
self.lt2tscale = float(self.config.get('general', 'lt2tscale'));
if (self.config.has_option('general', 'lt2tscale_inverse')):
self.lt2tscale = 1.0/float(self.config.get('general', 'lt2tscale_inverse'));
if (self.config.has_option('general', 'default_gnd')):
self.defaultgnd = (self.config.get('general', 'default_gnd'));
if (self.config.has_option('general', 'includepreamble')):
includepreamble = self.config.get('general', 'includepreamble');
self.includepreamble = ((str(includepreamble).lower() == 'true') or ((includepreamble) == '1'))
print('lt2ti ready for conversion.')
def _symresetSymbol(self):
if (self.lastPin != None):
if (self.lastSymbol != None):
self.lastSymbol.addPin(self.lastPin);
self.lastPin = None;
if (self.lastSymbol != None):
self.symbolDict.addSymbol(self.lastSymbol);
self.lastSymbol = None;
def symresetPin(self):
if (self.lastPin != None):
if (self.lastSymbol != None):
self.lastSymbol.addPin(self.lastPin);
self.lastPin = None;
return;
def translate2ospath(self,aPath):
tPath = aPath.replace("\\",os.sep) # localize to OS path, since LTSpice under Wine/Windows always uses \
return tPath
def readASYFile(self, relfileandpath):
relfileandpath_orig = relfileandpath
relfileandpath = self.translate2ospath(relfileandpath_orig) # localize to OS path, since LTSpice under Wine/Windows always uses \
print('Loading Symbol file "'+relfileandpath+'" (orig="'+relfileandpath_orig+'")...')
# read symbol file
self.symlinecnt = 0;
aSymbol = None;
try :
fhy = open(self.scriptdir+os.sep+ relfileandpath, mode='r', newline=None);
except Exception as e:
print('could not open ASY file "'+relfileandpath+'" (cwd="'+os.curdir+'", scriptdir="'+self.scriptdir+'", mode='+self.scriptmode+', fullpath="'+self.scriptdir+os.sep+ relfileandpath+'")');
return None;
for line in fhy:
self.symlinecnt = self.symlinecnt + 1;
self.lastSymLine = line;
m = self.reIsHdr.match(line);
if (m != None):
print('valid file header found:'+line);
self.validInputFile = True;
continue;
m = self.reIsSym.match(line);
if (m != None):
print('symbol of type '+m.group(1)+': '+line);
self._handleSType(m);
continue;
m = self.reIsSAttrPrefix.match(line);
if (m != None):
self._handleSymPrefix(m);
continue;
m = self.reIsSAttrDescr.match(line);
if (m != None):
self._handleSymDescr(m);
continue;
m = self.reIsSAttrValue.match(line);
if (m != None):
self._handleSymValue(m);
continue;
m = self.reIsSAttrGeneric.match(line);
if (m != None):
self._handleSymAttrGeneric(m);
continue;
m = self.reIsPin.match(line);
if (m != None):
self._handleSymPin(m);
continue;
m = self.reIsPinName.match(line);
if (m != None):
self._handleSymPinName(m);
continue;
m = self.reIsPinOrder.match(line);
if (m != None):
self._handlePinOrder(m);
continue;
print("could not match symbol line '"+line.replace('\n','')+"'");
aSymbol = self.lastSymbol;
self._symresetSymbol(); # handle last item
fhy.close();
return aSymbol;
def readASY2TexFile(self, relfileandpath, symbol):
relfileandpath_orig = relfileandpath
relfileandpath = self.translate2ospath(relfileandpath_orig)
asy2texfileandpath = self.scriptdir+os.sep+ relfileandpath
try :
fht = open(asy2texfileandpath, mode='r', newline=None);
except Exception as e:
print('Could not open requested asy2tex tile: "'+relfileandpath+'" (orig="'+relfileandpath_orig+'", cwd="'+os.curdir+'")');
return None;
print('Processing asy2tex file: "'+relfileandpath+'" (orig="'+relfileandpath_orig+'", cwd="'+os.curdir+'")');
rAliasFile = re.compile(r'ALIASFOR (.*\.asy2tex)[\s]*$', flags=re.IGNORECASE);
rType = re.compile(r'^[\s]*Type[\s]+([\S]+)', flags=re.IGNORECASE); # compile(r'^[\s]*SYMATTR[\s]+([\S]+)[\s]+(.*)', flags=re.IGNORECASE);
rOriginTex = re.compile(r'^[\s]*TexOrigin[\s]+([-\d\.]+)[\s]+([-\d\.]+)[\s]+([-\d]+)[\s]+([01TRUEtrueFALSEfalse]+)', flags=re.IGNORECASE);
rOriginSym = re.compile(r'^[\s]*SymOrigin[\s]+([-\d\.]+)[\s]+([-\d\.]+)[\s]+([-\d]+)[\s]+([01TRUEtrueFALSEfalse]+)', flags=re.IGNORECASE);
# x1 y1 rot mirror
rPinList_be = re.compile(r'^[\s]*(BeginPinList)[\s]*$', flags=re.IGNORECASE);
rPinListEntry = re.compile(r'^[\s]*([-\d]+)[\s]+([-\d]+)[\s]+([-\d]+)[\s]+([-\d]+)[\s]+([-\d]+)[\s]+(.*)$', flags=re.IGNORECASE);
# ord x1 y1 rot length PinName
rPinList_en = re.compile(r'^[\s]*(EndPinList)[\s]*$', flags=re.IGNORECASE);
rConKV_be = re.compile(r'^[\s]*(BeginConversionKeyvals)[\s]*$', flags=re.IGNORECASE); #BeginConversionKeyvals
rConKV_en = re.compile(r'^[\s]*(EndConversionKeyvals)[\s]*$', flags=re.IGNORECASE); #EndConversionKeyvals
rConvKVList = re.compile(r'([^=]+)=(.*)$', flags=re.IGNORECASE);
rTexName = re.compile(r'^[\s]*TexElementName[\s]+(.*)$', flags=re.IGNORECASE);
rTex_be = re.compile(r'^[\s]*(BeginTex)[\s]*$', flags=re.IGNORECASE);
rTex_en = re.compile(r'^[\s]*(EndTex)[\s]*$', flags=re.IGNORECASE);
ispinlist = False;
istexlist = False;
isconvkv = False;
texlist = [];
aTSymbol = copy.deepcopy(symbol);
self.translinecnt = 0;
for line in fht:
self.translinecnt = self.translinecnt+1;
m = rAliasFile.match(line);
if ((m != None) and (self.translinecnt < 2)): # must be at the beginning
fht.close();
pathtofile = os.path.dirname(asy2texfileandpath);
aliasfile = m.group(1);
aliasfileandpath = pathtofile+os.sep+aliasfile;
relaliasfileandpath = os.path.relpath(aliasfileandpath, self.scriptdir+os.sep);
print('Found an alias entry: "'+aliasfile+'" which resolved to "'+aliasfileandpath+'" and "'+relaliasfileandpath+'" ');
aTSymbol = self.readASY2TexFile(relaliasfileandpath, symbol);
return aTSymbol;
m = rPinList_be.match(line);
if (m != None):
ispinlist = True;
continue;
m = rPinList_en.match(line);
if (m != None):
ispinlist = False;
continue;
if (ispinlist):
m = rPinListEntry.match(line);
if (m != None):
# add pinlist entry
# Pinlist entry: ord x1 y1 rot length PinName
lxPin = SymPin();
lxPin.order = m.group(1);
lxPin.x1 = m.group(2);
lxPin.y1 = m.group(3);
lxPin.rot = m.group(4);
lxPin.length = m.group(5);
lxPin.name = m.group(6);
aTSymbol.latexPins.addPin(lxPin);
continue;
m = rConKV_be.match(line);
if (m != None):
ispinlist = False;
istexlist = False;
isconvkv = True;
continue;
m = rConKV_en.match(line);
if (m != None):
ispinlist = False;
istexlist = False;
isconvkv = False;
continue;
if (isconvkv):
m = rConvKVList.match(line);
if (m != None):
aTSymbol.conversionKV[m.group(1)] = m.group(2);
continue;
m = rTex_be.match(line);
if (m != None):
ispinlist = False;
istexlist = True;
isconvkv = False;
continue;
m = rTex_en.match(line);
if (m != None):
ispinlist = False;
istexlist = False;
isconvkv = False;
continue;
if (istexlist):
texlist.append(line);
continue;
m = rTexName.match(line);
if (m != None):
aTSymbol.latexElementName = m.group(1);
continue;
m = rType.match(line);
if (m != None):
aTSymbol.latexType = m.group(1);
continue;
m = rOriginTex.match(line);
if (m != None):
aTSymbol.latexOriginX1 = float(m.group(1));
aTSymbol.latexOriginY1 = float(m.group(2));
aTSymbol.latexOriginRot = int(m.group(3));
aTSymbol.latexOriginMirror = ((m.group(4) == '1') or (str.lower(m.group(4)) == 'true'));
continue;
m = rOriginSym.match(line);
if (m != None):
aTSymbol.symbolOriginX1 = float(m.group(1));
aTSymbol.symbolOriginY1 = float(m.group(2));
aTSymbol.symbolOriginRot = int(m.group(3));
aTSymbol.symbolOriginMirror = ((m.group(4) == '1') or (str.lower(m.group(4)) == 'true'));
continue;
print("coult not match line "+str(self.translinecnt)+" in asy2tex file '"+relfileandpath+"' :"+line);
aTSymbol.latexTemplate = texlist;
fht.close();
return aTSymbol;
def _handleSType(self, m):
self._symresetSymbol(); # no more attributes for previous lines
self.lastSymbol = Symbol(m.group(1))
self.lastSymbol.lt2tscale = self.lt2tscale;
return;
def _handleSymPrefix(self, m):
self.lastSymbol.prefix = m.group(1);
self.lastSymbol.attributes['Prefix'] = m.group(1);
return;
def _handleSymDescr(self, m):
self.lastSymbol.description = m.group(1);
self.lastSymbol.attributes['Description'] = m.group(1);
return;
def _handleSymValue(self, m):
self.lastSymbol.value = m.group(1);
self.lastSymbol.attributes['Value'] = m.group(1);
return;
def _handleSymAttrGeneric(self, m):
self.lastSymbol.attributes[m.group(1)] = m.group(2);
return;
def _handleSymPin(self, m):
self.symresetPin();
self.lastPin = SymPin();
self.lastPin.x1 = int(m.group(1));
self.lastPin.y1 = int(m.group(2));
self.lastPin.labelpos = (m.group(3));
self.lastPin.labeloffset = int(m.group(4));
return;
def _handleSymPinName(self, m):
self.lastPin.name = m.group(1);
def _handlePinOrder(self, m):
self.lastPin.order = int(m.group(1));
def _resetLast(self):
if (len(self.lastAttributesDict) > 0):
for aid, attr in self.lastAttributesDict.items():
self.lastComponent.addAttribute(attr);
#print("Adding component attrib kind="+str(attr.kind)+" val="+str(attr.value)+" to list, len="+str(len(self.lastComponent.attrlist)))
self.lastAttributesDict = {};
if (self.lastComponent != None):
self.circDict.addComponent(self.lastComponent);
self.lastComponent = None;
if (self.lastWire != None):
self.circDict.addWire(self.lastWire);
self.lastWire = None;
if (self.lastLabel != None):
self.circDict.addNetLabel(self.lastLabel);
self.lastLabel = None;
if (self.lastText != None):
self.circDict.addText(self.lastText);
self.lastText = None;
def readASCFile(self, fileandpath):
print('Reading ASC file "'+fileandpath+'"...')
self.lastComponent = None;
self.lastSymbol = None;
self.lastAttributesDict = {};
self.lastLabel = None;
self.lastWire = None
self.lastPin = None;
self.circDict = CircuitDict();
self.symbolDict = SymbolDict();
self.lastText = None
self.lastASCfile = fileandpath;
self.linecnt = 0;
try :
fhs = open(fileandpath, mode='r', newline=None, encoding='iso-8859-1');
except Exception as e:
print('could not open ASC file "'+fileandpath+'" (cwd="'+os.curdir+'")');
return None;
for line in fhs:
self.linecnt = self.linecnt + 1;
self.lastLine = line;
m = self.reIsHdr.match(line);
if (m != None):
print('valid file header found:'+line);
self.validInputFile = True;
continue;
m = self.reIsSheet.match(line);
if (m != None):
print('sheet: '+line);
continue;
m = self.reIsNetLabel.match(line);
if (m != None):
self._handleNetLabel(m);
continue;
m = self.reIsComponent.match(line);
if (m != None):
self._handleComponent(m);
continue;
m = self.reIsCAttrName.match(line);
if (m != None):
self._handleComponentName(m);
continue;
m = self.reIsCAttrValue.match(line);
if (m != None):
self._handleComponentValue(m);
continue;
m = self.reIsCAttrValue2.match(line);
if (m != None):
self._handleComponentValue2(m);
continue;
m = self.reIsCAttrGeneric.match(line);
if (m != None):
self._handleAttributeGeneric(m);
continue;
m = self.reIsWire.match(line);
if (m != None):
self._handleWire(m);
continue;
m = self.reIsWindow.match(line);
if (m != None):
self._handleWindow(m);
continue;
m = self.reIsText.match(line);
if (m != None):
self._handleText(m);
continue;
m = self.reIsLine.match(line);
if (m != None):
self._handleLine(m);
continue;
m = self.reIsRect.match(line);
if (m != None):
self._handleRect(m);
continue;
m = self.reIsCircle.match(line);
if (m != None):
self._handleCircle(m);
continue;
print("could not match line '"+line.replace('\n','')+"'");
self._resetLast(); # handle last item
fhs.close();
return self.circDict;
def _handleNetLabel(self, m):
self._resetLast(); # no more attributes for previous lines
# FLAG <x1> <y1> <label>
if (m.group(3) == '0'): # more a ground symbol than a net label
gndcomp = self.defaultgnd;
c = Component(gndcomp, int(m.group(1)), int(m.group(2)), 0, False, 'GND'+str(self.linecnt), '')
self._handleComponent_worker(c);
else:
lbl = NetLabel(m.group(3), int(m.group(1)), int(m.group(2)));
lbl.value = 'lbl'+str(self.linecnt)
pathandctype = 'netlabel';
if not self.symbolDict.hasSymbolPath(pathandctype):
# not cached, try to load
fullpath = self.symfilebasepath + pathandctype.replace('\\\\','\\');
sym = self.readASYFile(fullpath+'.asy');
sym.path = '';
sym.ctype = pathandctype;
sym.pathandctype = pathandctype;
tsym = self.readASY2TexFile(fullpath+'.asy2tex',sym);
if (tsym != None):
self.symbolDict.addSymbol(tsym); # add symbol and translation information
else:
# already existing in cache
tsym = self.symbolDict.getSymbolByPath(pathandctype);
lbl.symbol = tsym;
self.lastLabel = lbl;
return;
def _handleComponent(self, m):
self._resetLast(); # no more attributes for previous lines
# SYMBOL path\\type x1 x2 [R|M] rotation
# Component ( ctype, x1, y1, rot, mirror, name, value)
c = Component(m.group(1), int(m.group(2)), int(m.group(3)), int(m.group(5)), (str.upper(m.group(4)) == 'M'), '', "");
self._handleComponent_worker(c);
def _handleComponent_worker(self, c):
if not self.symbolDict.hasSymbolPath(c.pathandctype):
# not cached, try to load
fullpath = self.symfilebasepath + c.pathandctype.replace('\\\\','\\');
sym = self.readASYFile(fullpath+'.asy');
sym.path = c.path;
sym.ctype = c.ctype;
sym.pathandctype = c.pathandctype;
tsym = self.readASY2TexFile(fullpath+'.asy2tex',sym);
if (tsym != None):
self.symbolDict.addSymbol(tsym); # add symbol and translation information
else:
# already existing in cache
tsym = self.symbolDict.getSymbolByPath(c.pathandctype);
c.symbol = tsym;
self.lastComponent = c;
print('Found component: \n'+c.asString(' '));
return;
def _handleComponentName(self, m):
# SYMATTR InstName <name>
self.lastComponent.name = m.group(1);
attrkind = 'InstName';
attrval = m.group(1);
if (not attrkind in self.lastAttributesDict):
attr = Attribute(attrkind, attrval);
else:
attr = self.lastAttributesDict[attrkind];
attr.value = attrval;
if (attrval != "*"):
attr.visible = True;
self.lastAttributesDict[attr.kind] = attr;
return;
def _handleComponentValue(self, m):
# SYMATTR Value <value>
attrkind = 'Value';
attrval = m.group(1);
if (attrval == '""'): # this is the way LTspice indicates an empty value
attrval = '';
self.lastComponent.value = attrval;
if (not attrkind in self.lastAttributesDict):
attr = Attribute(attrkind, attrval);
else:
attr = self.lastAttributesDict[attrkind];
attr.value = attrval;
if (attrval != "*"):
attr.visible = True;
self.lastAttributesDict[attr.kind] = attr;
return;
def _handleComponentValue2(self, m):
#SYMATTR Value2 <value>
self.lastComponent.value2 = m.group(1);
attrkind = 'Value2';
attrval = m.group(1);
if (not attrkind in self.lastAttributesDict):
attr = Attribute(attrkind, attrval);
else:
attr = self.lastAttributesDict[attrkind];
attr.value = attrval;
if (attrval != "*"):
attr.visible = True;
self.lastAttributesDict[attr.kind] = attr;
return;
def _handleAttributeGeneric(self, m):
#SYMATTR <attrib.name> <value>
attrkind = m.group(1);
attrval = m.group(2);
if (not attrkind in self.lastAttributesDict):
attr = Attribute(attrkind, attrval);
self.lastAttributesDict[attr.kind] = attr;
#print("Added AttributeGeneric kind="+str(attr.kind)+" val="+str(attrval))
else:
attr = self.lastAttributesDict[attrkind];
attr.value = attrval;
self.lastAttributesDict[attr.kind] = attr;
#print("Updated AttributeGeneric kind="+str(attr.kind)+" val="+str(attrval))
return;
def _handleWire(self, m):
self._resetLast(); # no more attributes for previous lines
# WIRE <x1> <y1> <x2> <y2>
self.lastWire = Wire("w"+str(self.linecnt),int(m.group(1)),int(m.group(2)), int(m.group(3)), int(m.group(4)))
return;
def _handleWindow(self, m): # attribute display position
# WINDOW attr.No.Id rel.x1 rel y1 pos.str. size?=2
attrid = int(m.group(1));
if (attrid in self.attrid2attr):
attrkind = self.attrid2attr[attrid];
else:
print("Could not match attr.id="+m.group(1)+" to an attribute.")
return;
if (attrkind in self.lastAttributesDict):
# attribute exists: modify its values
attr = self.lastAttributesDict[attrkind];
else: # create new
attr = Attribute(attrkind, 'undefined');
attr.visible = True;
attr.idnum = m.group(1);
attr.x1rel = int(m.group(2));
attr.y1rel = int(m.group(3));
attr.align = m.group(4);
attr.size = float(m.group(5));
self.lastAttributesDict[attrkind] = attr;
return;
def _handleText(self, m): # attribute display position
self._resetLast(); # no more attributes for previous lines
# TEXT x1 y1 pos.str. size?=2 string
txt = SchText(m.group(5), int(m.group(1)), int(m.group(2)))
txt.align = m.group(3);
txt.size = float(m.group(4));
txt.value = 'lbl'+str(self.linecnt)
pathandctype = 'text';
if not self.symbolDict.hasSymbolPath(pathandctype):
# not cached, try to load
fullpath = self.symfilebasepath + pathandctype.replace('\\\\','\\');
sym = self.readASYFile(fullpath+'.asy');
sym.path = '';
sym.ctype = pathandctype;
sym.pathandctype = pathandctype;
tsym = self.readASY2TexFile(fullpath+'.asy2tex',sym);
if (tsym != None):
self.symbolDict.addSymbol(tsym); # add symbol and translation information
else:
# already existing in cache
tsym = self.symbolDict.getSymbolByPath(pathandctype);
txt.symbol = tsym;
self.lastText = txt;
return;
def _handleLine(self, m):
if ((m.group(6)) != ''):
lstyle = int(m.group(6));
else:
lstyle = 0;
schline = SchLine(int(m.group(2)), int(m.group(3)), int(m.group(4)), int(m.group(5)), lstyle)
schline.kind = (m.group(1));
pathandctype = 'SchLine';
if not self.symbolDict.hasSymbolPath(pathandctype):
# not cached, try to load
fullpath = self.symfilebasepath + pathandctype.replace('\\\\','\\');
#sym = self.readASYFile(fullpath+'.asy');
sym = Symbol(pathandctype);
sym.lt2tscale = self.lt2tscale;
sym.path = '';
sym.ctype = pathandctype;
sym.pathandctype = pathandctype;
tsym = self.readASY2TexFile(fullpath+'.asy2tex',sym);
if (tsym != None):
self.symbolDict.addSymbol(tsym); # add symbol and translation information
else:
# already existing in cache
tsym = self.symbolDict.getSymbolByPath(pathandctype);
schline.symbol = tsym;
self.circDict.addSchLine(schline);
return;
def _handleRect(self, m):
if ((m.group(6)) != ''):
lstyle = int(m.group(6));
else:
lstyle = 0;
schrect = SchRect(int(m.group(2)), int(m.group(3)), int(m.group(4)), int(m.group(5)), lstyle)
schrect.kind = (m.group(1));
pathandctype = 'SchRect';
if not self.symbolDict.hasSymbolPath(pathandctype):
# not cached, try to load
fullpath = self.symfilebasepath + pathandctype.replace('\\\\','\\');
#sym = self.readASYFile(fullpath+'.asy');
sym = Symbol(pathandctype);
sym.lt2tscale = self.lt2tscale;
sym.path = '';
sym.ctype = pathandctype;
sym.pathandctype = pathandctype;
tsym = self.readASY2TexFile(fullpath+'.asy2tex',sym);
if (tsym != None):
self.symbolDict.addSymbol(tsym); # add symbol and translation information
else:
# already existing in cache
tsym = self.symbolDict.getSymbolByPath(pathandctype);
schrect.symbol = tsym;
self.circDict.addSchLine(schrect);
return;
def _handleCircle(self, m):
if ((m.group(6)) != ''):
lstyle = int(m.group(6));
else:
lstyle = 0;
schcirc = SchCirc(int(m.group(2)), int(m.group(3)), int(m.group(4)), int(m.group(5)), lstyle)
schcirc.kind = (m.group(1));
pathandctype = 'SchCirc';
if not self.symbolDict.hasSymbolPath(pathandctype):
# not cached, try to load
fullpath = self.symfilebasepath + pathandctype.replace('\\\\','\\');
#sym = self.readASYFile(fullpath+'.asy');
sym = Symbol(pathandctype);
sym.lt2tscale = self.lt2tscale;
sym.path = '';
sym.ctype = pathandctype;
sym.pathandctype = pathandctype;
tsym = self.readASY2TexFile(fullpath+'.asy2tex',sym);
if (tsym != None):
self.symbolDict.addSymbol(tsym); # add symbol and translation information
else:
# already existing in cache
tsym = self.symbolDict.getSymbolByPath(pathandctype);
schcirc.symbol = tsym;
self.circDict.addSchLine(schcirc);
return;
def copyFileContents(self,source,destination):
fhs = open(source, mode='r', newline='');
fhd = open(destination, mode='a', newline=''); # prevent automatic newline conversion to have more control over nl chars.
for line in fhs:
#print('copying line "'+line+'" from source to destination');
fhd.write(line);
fhd.close();
fhs.close();
def copyFile(self,source,destination):
fhs = open(source, mode='r', newline='');
fhd = open(destination, mode='w', newline=''); # prevent automatic newline conversion to have more control over nl chars.
for line in fhs:
#print('copying line "'+line+'" from source to destination');
fhd.write(line);
fhd.close();
fhs.close();
def copyFileContentsToHandle(self,source,hdestination):
fhs = open(source, mode='r', newline=None);
for line in fhs:
#print('copying line "'+line+'" from source to destination');
hdestination.write(line);
fhs.close();
def writeCircuiTikz(self, outfile):
print('Writing Tex commands to "'+outfile+'"...')
xscale = 1 * self.lt2tscale;
yscale = -1 * self.lt2tscale; # y is inverse for LTspice files
xoffset = 0;
yoffset = 0;
fhd = open(outfile, mode='w', newline='\r\n'); # prevent automatic newline conversion to have more control over nl chars.
if (self.includepreamble):
self.copyFileContentsToHandle(self.scriptdir+os.sep+ self.symfilebasepath+'latex_preamble.tex', fhd);
if (self.config.has_option('general','latexincludes')):
incfiles = self.config.get('general','latexincludes');
incfiles = incfiles.split(';');
for incfile in incfiles:
srcfile = self.scriptdir+os.sep+ self.symfilebasepath + incfile;
dstfile = os.path.dirname(os.path.abspath(outfile)) +os.sep + os.path.basename(incfile);
self.copyFile(srcfile, dstfile)
print(' copying latexincludes: "'+srcfile+'" to "'+dstfile+'" ...')
if (self.config.has_option('general','bipoles_length')):
bipoles_length = self.config.get('general','bipoles_length');
fhd.write(r'\ctikzset{bipoles/length='+bipoles_length+'}\n');
self.circDict.wiresToPolyWires();
#output wires:
wireDict = self.circDict.getWiresByCoord();
for pp, dictWires in wireDict.items():
# all wires at the pp position
#jcnt = self.circDict.getJunctionCound(pp);
jcnt = self.circDict.getJunctionCount(pp);
if (jcnt <= 2): # no junction
p1junction = '';
else: # junction
p1junction = '*';
for uuid, wire in dictWires.items():
pp1 = wire.getP1Tuple();
if (pp1 == pp): # only draw wire if pos1 is attached. Otherwise wires will get drawn multiple times.
pp2 = wire.getP2Tuple();
jcnt2 = self.circDict.getJunctionCount(pp2);
if (jcnt2 <= 2):
p2junction = '';
else:
p2junction = '*';
x1 = pp[0]*xscale+xoffset;
y1 = pp[1]*yscale+yoffset;
x2 = pp2[0]*xscale+xoffset;
y2 = pp2[1]*yscale+yoffset;
lenxn = 0;
if ((type(wire) is PolyWire)):
lenxn = len(wire.xn);
if ( ((type(wire) is Wire) and not (type(wire) is PolyWire)) or ( (type(wire) is PolyWire) and ( len(wire.xn) <= 0) )): # normal wire or polywire with no intermediate segments
# \draw (8,2)to[*short,*-] (8,4);%
fhd.write(r'\draw [/lt2ti/Net]('+str(x1)+r','+str(y1)+r')to[*short,'+p1junction+'-'+p2junction+', color=netcolor] ('+str(x2)+','+str(y2)+');% wire '+wire.name+'\n');
else:
# polywire
# \draw (4,2) -- (4,4) -- (6,4);
xn = wire.xn;
yn = wire.yn;
x1b = xn[0]*xscale+xoffset;
y1b = yn[0]*yscale+yoffset;
x2b = xn[len(xn)-1]*xscale+xoffset;
y2b = yn[len(yn)-1]*yscale+yoffset;
# normal wire segments for junctions: (this works with zero length segements, so we do not use the x1b/y1b, x2b/y2b points any longer.)
fhd.write(r'\draw [/lt2ti/Net]('+str(x1)+r','+str(y1)+r')to[*short,'+p1junction+'-, color=netcolor] ('+str(x1)+','+str(y1)+');% wire '+wire.name+' start\n');
fhd.write(r'\draw [/lt2ti/Net]('+str(x2)+r','+str(y2)+r')to[*short,-'+p2junction+', color=netcolor] ('+str(x2)+','+str(y2)+');% wire '+wire.name+' end\n');
#fhd.write(r'\draw [/lt2ti/Net]('+str(x1)+r','+str(y1)+r')to[*short,'+p1junction+'-] ('+str(x1b)+','+str(y1b)+');% wire '+wire.name+' start\n');
#fhd.write(r'\draw [/lt2ti/Net]('+str(x2b)+r','+str(y2b)+r')to[*short,-'+p2junction+'] ('+str(x2)+','+str(y2)+');% wire '+wire.name+' end\n');
# polyline
wstr = '\draw [/lt2ti/Net]('+str(x1)+r','+str(y1)+r')';
for i in range(0, (len(xn))):
xni = xn[i]*xscale+xoffset;
yni = yn[i]*yscale+yoffset;
wstr = wstr + ' -- '
wstr = wstr + ' ('+str(xni)+','+str(yni)+')' ;
wstr = wstr + ' -- ('+str(x2)+','+str(y2)+'); % wire '+wire.name+ ' polyline \n' ;
fhd.write(wstr);
# output components
for pp, compDict in self.circDict.coordCompDict.items():
for c, comp in compDict.items():
comp.circuitDict = self.circDict; # used for junction lookup etc.
comp.config = self.config; # allow config parameters in components to be used
texlines = comp.translateToLatex({}); # ToDo: apply xoffset, yoffset (currently not in use)
for tl in texlines:
tl = re.sub(r'[\r]*[\n]$', '', tl); # remove trailing line break since we add it after the comment.
fhd.write(tl+' % component "'+comp.pathandctype+'" "'+comp.name+'" \n');
# output labels
for pp, labeldict in self.circDict.coordLabelDict.items():
for l, label in labeldict.items():
label.circuitDict = self.circDict;
texlines = label.translateToLatex({}); # ToDo: apply xoffset, yoffset (currently not in use)
for tl in texlines:
tl = re.sub(r'[\r]*[\n]$', '', tl); # remove trailing line break since we add it after the comment.
fhd.write(tl+' % label "'+label.pathandctype+'" "'+label.label+'" '+label.value+' \n');