# -*- coding: utf-8 -*- """ Created on Sun Jan 27 09:56:53 2013 PyKat - Python interface and wrapper for FINESSE Copyright (C) 2013 Daniel David Brown 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, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. Contact at ddb@star.sr.bham.ac.uk @author: Daniel Brown """ from __future__ import absolute_import from __future__ import division from __future__ import print_function from __future__ import unicode_literals import sys import os import subprocess import tempfile import numpy as np import datetime import time import pickle import pykat import warnings import re import math import itertools import ctypes import ctypes.util import collections import re import copy try: # Python 2 from itertools import izip_longest except ImportError: # Python 3 from itertools import zip_longest as izip_longest """ try: from future_builtins import zip_longest except ImportError: # not 2.6+ or is 3.x try: from itertools import izip_longest as zip_longest # < 2.5 or 3.x except ImportError: print("boom") pass """ from math import erfc, pi from collections import namedtuple, OrderedDict from pykat.node_network import NodeNetwork from pykat.detectors import BaseDetector as Detector from pykat.components import Component from pykat.commands import Command, xaxis from pykat.SIfloat import * from pykat.param import Param, AttrParam import pykat.external.six as six import pykat.exceptions as pkex from pykat import USE_GUI, HAS_OPTIVIS, NoGUIException if HAS_OPTIVIS: from optivis.bench.labels import Label as optivis_label from optivis.geometry import Coordinates as optivis_coord import PyQt4 if USE_GUI: from pykat.gui.gui import pyKatGUI from PyQt4.QtCore import QCoreApplication from PyQt4.QtGui import QApplication from multiprocessing import Process, Manager NO_BLOCK = "NO_BLOCK" pykat_web = "www.gwoptics.org/pykat" # containers used in the trace routine space_trace = namedtuple("space_trace", ['gouyx','gouyy']) node_trace = namedtuple("node_trace", ['qx','qy']) cav_trace = namedtuple("cav_trace", ['isStable','gx','gy','qx','qy','finesse','loss','length','FSR','FWHM','pole']) lkat_location = ctypes.util.find_library("kat") def f__lkat_process(callback, cmd, kwargs): """ """ if lkat_location is None: raise RuntimeError("Could not find shared library 'libkat', please install to a system location or copy to the same directory as this script") lkat = ctypes.PyDLL(lkat_location) try: lkat._pykat_preInit() # must always be called, sets up # exception handling and such no simulation # specifc code here # reads in the kat.ini and setups up other parts lkat._pykat_init() lkat._pykat_setup(cmd) callback(lkat, **kwargs) except Exception as ex: print ("Exception caught in python: ", ex.message) finally: # This should always be called no matter what lkat._pykat_finish(0) def f__lkat_trace_callback(lkat, trace_info, getCavities, getNodes, getSpaces): """ lkat callback for computing the beam traces through a setup. Returns a dictionary of nodes, spaces and cavities and the various outputs of the tracing algorithm. """ import pylibkat # first we need to get a handle on the internals of Finesse inter = pylibkat.interferometer.in_dll(lkat, "inter") lkat._pykat_step() if getNodes: for n in range(0, inter.num_nodes): node = inter.node_list[n] node_info = node_trace( qx = complex(node.qx.re, node.qx.im), qy = complex(node.qy.re, node.qy.im) ) trace_info[node.name] = node_info if getCavities: for c in range(0, inter.num_cavities): cav = inter.cavity_list[c] cav_info = cav_trace( isStable = (cav.stable == 1), gx = cav.stability_x, gy = cav.stability_y, qx = complex(cav.qx.re, cav.qx.im), qy = complex(cav.qy.re, cav.qy.im), finesse = cav.finesse, FSR = cav.FSR, FWHM = cav.FWHM, loss = cav.loss, length = cav.length, pole = cav.pole ) trace_info[cav.name] = cav_info if getSpaces: for s in range(0, inter.num_spaces): space = inter.space_list[s] trace_info[space.name] = space_trace(gouyx = space.gouy_x, gouyy = space.gouy_y) class KatBatch(object): """ """ def __init__(self): from IPython.parallel import Client self._c = Client() self._lb = c.load_balanced_view() self.lb.block = False self._todo = [] def _run(dir, commands, **kwargs): import pykat kat = pykat.finesse.kat() kat.verbose = False kat.parseCommands(commands) kw = dict() if "cmd_args" in kwargs: kw["cmd_args"] = kwargs["cmd_args"] return kat.run(printerr=1, **kw) def addKat(self, kat, **kwargs): import os cdir = os.getcwd() script = "\n".join(kat.generateKatScript()) self.todo.append(self.lb.apply_async(self._run, script, **kwargs)) return self.todo[-1] def wait(self): return self.lb.wait(self.todo) def results(self): return self.todo def GUILength(L): """ Should scale the lengths in some way to handle km and mm for time being """ return L # * ( 40 * erfc(L/400.0) + 0.01) class katRun(object): def __init__(self): self.runtime = None self.StartDateTime = datetime.datetime.now() self.x = None self.y = None self.xlabel = None self.ylabels = None self.katScript = None self.katVersion = None self.yaxis = None def plot(self, logy=False): import pylab pylab.plot(self.x, self.y) pylab.legend(self.ylabels,0) pylab.xlabel(self.xlabel) pylab.show() def savekatRun(self, filename): with open(filename,'w') as outfile: pickle.dump(self, outfile) @staticmethod def loadKatRun(filename): with open(filename,'r') as infile: return pickle.load(infile) def get(self, value): return self[value] def __getitem__(self, value): idx = [i for i in range(len(self.ylabels)) if self.ylabels[i].split()[0] == str(value)] out = None if len(idx) > 0: #out = self.y[:, idx] if len(idx) == 1: if self.yaxis == "abs:deg": out = self.y[:, idx[0]] elif self.yaxis == "re:im": out = self.y[:, idx[0]] else: if self.yaxis == "abs:deg": out = self.y[:, idx[0]] * np.exp(1j*math.pi*self.y[:, idx[1]]/180.0) elif self.yaxis == "re:im": out = self.y[:, idx[0]] + 1j*self.y[:, idx[1]] if out is None: out = self.y[:, idx] if out.size == 1: return out[0].squeeze() else: return out.squeeze() else: raise pkex.BasePyKatException("No output by the name '{0}' found in the output".format(str(value))) class katRun2D(object): def __init__(self): self.runtime = None self.startDateTime = datetime.datetime.now() self.x = None self.y = None self.z = None self.xlabel = None self.ylabel = None self.zlabels = None self.katScript = None self.katVersion = None def saveKatRun(self, filename): with open(filename,'w') as outfile: pickle.dump(self, outfile) @staticmethod def loadKatRun(filename): with open(filename,'r') as infile: return pickle.load(infile) def get(self, value): return self[value].squeeze() def __getitem__(self, value): idx = [i for i in range(len(self.zlabels)) if self.zlabels[i].split()[0] == str(value)] if len(idx) > 0: return self.z[idx].squeeze() else: raise pkex.BasePyKatException("No output by the name {0} found".format(str(value))) class Signals(object): class fsig(object): def __init__(self, param, name, amplitude, phase, signal): self._params = [] self.__target = param self.__name = name self.__amplitude = Param("amp", self, SIfloat(amplitude)) self.__phase = Param("phase", self, SIfloat(phase)) self.__removed = False self.__signal = signal # unfortunatenly the target names for fsig are not the same as the # various parameter names of the components, e.g. mirror xbeta is x # for fsig. So we need to check here what type of component we are targetting # and then based on the parameter specfied get the name if not param.canFsig: raise pkex.BasePyKatException("Cannot fsig parameter {1} on component {0}".format(str(param._owner().name), param.name)) def _register_param(self, param): self._params.append(param) @property def removed(self): return self.__removed def remove(self): self.__signal._kat.remove(self) def _on_remove(self): if self.__removed: raise pkex.BasePyKatException("Signal {0} has already been marked as removed".format(self.name)) else: self.__signal.targets.remove(self) self.__remove = True @property def name(self): return self.__name @property def amplitude(self): return self.__amplitude @amplitude.setter def amplitude(self,value): self.__amplitude.value = SIfloat(value) @property def phase(self): return self.__phase @phase.setter def phase(self,value): self.__phase.value = SIfloat(value) @property def target(self): return self.__target.fsig_name @property def owner(self): return self.__target._owner().name def getFinesseText(self): rtn = [] for p in self._params: rtn.extend(p.getFinesseText()) return rtn @property def name(self): # if we don't have any signals yet then use a dummy name # however we need to always tune a real fsig command # so need to get the name of at least one of them # as if you tune one you tune them all if len(self.targets) == 0: return "fsignal" else: return self.targets[0].name @property def removed(self): return False # we can never remove the Signal object altogethr just the individual fsig targets def remove(self): for t in self.targets: t.remove() del self.targets[:] @property def f(self): return self.__f @f.setter def f(self,value): self.__f.value = SIfloat(value) def __init__(self, kat): self.targets = [] self._params = [] self.__f = Param("f", self, 1) self._kat = kat def _register_param(self, param): self._params.append(param) def apply(self, target, amplitude, phase, name=None): if target is None: raise pkex.BasePyKatException("No target was specified for signal to be applied") if name is None: name = "sig_" + target._owner().name + "_" + target.name self.targets.append(Signals.fsig(target, name, amplitude, phase, self)) def getFinesseText(self): rtn = [] for t in self.targets: rtn.extend(t.getFinesseText()) rtn.append("fsig {name} {comp} {target} {frequency} {phase} {amplitude}" .format(name = t.name, comp=t.owner, target=t.target, frequency=str(self.f), phase=str(t.phase), amplitude=str(t.amplitude if t.amplitude != None else ""))) for p in self._params: rtn.extend(p.getFinesseText()) return rtn class Block: def __init__(self, name): self.__name = name self.contents = [] # List of objects and strings of finesse code self.enabled = True @property def name(self): return self.__name Constant = namedtuple('Constant', 'name, value, usedBy') id___ = 0 class kat(object): def __new__(cls, *args, **kwargs): # This may seem like an arbitrary step but here we are creating a # new class that is a base class of itself. This is because when # the kat object adds new components it also adds properties for # each of these. There properties are unique to each kat object, # but properties are part of the class definition. Thus if two # kat objects share the same class definition they also have the # same properties regardless of whether they have the actual # object added to it. So we create an instance specific class. global id___ id___ += 1 cnew = type(pykat.finesse.kat.__name__ + str("_") + str(id___), (pykat.finesse.kat,), {}) return object.__new__(cnew) def __init__(self, kat_file=None, kat_code=None, katdir="", katname="", tempdir=None, tempname=None): self.scene = None # scene object for GUI self.verbose = True self.__blocks = OrderedDict() # dictionary of blocks that are used self.__components = {} # dictionary of optical components self.__detectors = {} # dictionary of detectors self.__commands = {} # dictionary of commands self.__gui = None self.nodes = NodeNetwork(self) self.__katdir = katdir self.__katname = katname self.__tempdir = tempdir self.__tempname = tempname self.pykatgui = None self.__signals = Signals(self) self.constants = {} self.vacuum = [] self.__prevrunfilename = None self.printmatrix = None # initialise default block self.__currentTag= NO_BLOCK self.__blocks[NO_BLOCK] = Block(NO_BLOCK) # Various options for running finesse, typicaly the commands with just 1 input # and have no name attached to them. self.retrace = None self.deriv_h = None self.scale = None self.__trace = None self.__phase = None self.__maxtem = None self.__noxaxis = False self.__time_code = None self.__yaxis = "abs" # default yaxis self.__lambda0 = 1064e-9 if kat_code != None and kat_file != None: raise pkex.BasePyKatException("Specify either a Kat file or some Kat code, not both.") if kat_code != None: self.parseCommands(kat_code) if kat_file != None: self.loadKatFile(kat_file) def getAll(self, type): """ Returns a collection of all objects of the type argument that are part of this kat object. Example: # returns all cav commands that are present in this kat object cavs = kat.getAll(pykat.commands.cavity) """ items = [] for a in (item for item in self.__class__.__dict__): b = getattr(self, a) if isinstance(b, type): items.append(b) return tuple(items) def __deepcopy__(self, memo): """ When deep copying a kat object we need to take into account the instance specific properties. This is because when the kat object adds new components it also adds properties for each of these. There properties are unique to each kat object, but properties are part of the class definition. Thus if two kat objects share the same class definition they also have the same properties regardless of whether they have the actual object added to it. So we create an instance specific class. """ result = self.__class__.__new__(self.__class__.__base__) memo[id(self)] = result result.__dict__ = copy.deepcopy(self.__dict__, memo) # Find all properties in class we are copying # and deep copy these to the new class instance for x in self.__class__.__dict__.items(): if isinstance(x[1], property): setattr(result.__class__, x[0], x[1]) result.nodes._NodeNetwork__update_nodes_properties() # Update any weakrefs for c in result.components: result.components[c]._Component__update_node_setters() return result @property def signals(self): return self.__signals yaxis_options = ["abs:deg","db:deg","re:im","abs","db","deg"] @property def yaxis(self): return self.__yaxis @yaxis.setter def yaxis(self, value): if not str(value) in self.yaxis_options: raise pkex.BasePyKatException("yaxis value '{0}' is not a value option. Valid options are: {1}".format(str(value), ",".join(self.yaxis_options) )) self.__yaxis = str(value) @property def trace(self): return self.__trace @trace.setter def trace(self, value): value = int(value) if value < 0 or value > 255: raise pkex.BasePyKatException('trace command only accepts values in the range 0-255.') else: self.__trace = value @property def lambda0(self): return self.__lambda0 @lambda0.setter def lambda0(self, value): self.__lambda0 = SIfloat(value) for node in self.nodes.getNodes(): if self.nodes[node].q != None: self.nodes[node].q.wavelength = self.__lambda0 @property def maxtem(self): return self.__maxtem @maxtem.setter def maxtem(self,value): if value == "off": self.__maxtem = -1 else: self.__maxtem = int(value) @property def phase(self): return self.__phase @phase.setter def phase(self,value): self.__phase = int(value) @property def timeCode(self): return self.__time_code @timeCode.setter def timeCode(self,value): self.__time_code = bool(value) @property def components(self): return self.__components.copy() @property def detectors(self): return self.__detectors.copy() @property def commands(self): return self.__commands.copy() @property def noxaxis(self): return self.__noxaxis @noxaxis.setter def noxaxis(self,value): self.__noxaxis = bool(value) @staticmethod def logo(): print (""" ..- PyKat {0:7} _ '( \\`.|\\.__...-\"\"""-_." ) ..+-----.._ / ' ` .-' . ' `: 7/* _/._\\ \\ ( ( '::;;+;;: `-"' =" /,`"" `) / L. \\`:::a:f c_/ n_' ..`--...___`. . , `^-....____: +. {1}\n""".format(pykat.__version__, pykat_web)) def loadKatFile(self, katfile, blocks=None): commands=open(katfile).read() self.parseCommands(commands, blocks=blocks) def parseKatCode(self, code, blocks=None): #commands = code.split("\n") self.parseCommands(code, blocks=blocks) def processConstants(self, commands): """ Before fully parsing a bunch of commands firstly any constants or variables to be recorded and replaced. """ try: constants = self.constants for line in commands: values = line.split() if len(values)>0 and values[0] == 'const': if len(values) >= 3: if values[1] in constants: raise pkex.BasePyKatException('const command with the name "{0}" already used'.format(values[1])) else: constants[str(values[1])] = Constant(values[1], values[2], []) else: raise pkex.BasePyKatException('const command "{0}" was not the correct format'.format(line)) commands_new = [] for line in commands: values = line.split() if len(values) > 0 and values[0] != 'const': # check if we have a var/constant in this line if line.find('$') >= 0: for key in constants.keys(): # TODO: need to fix this for checking mulitple instances of const in a single line chars = [' ', '+', '-', '*', '/', ')'] for c in chars: none_found = False while not none_found: if line.find('$'+key+c) > -1: constants[key].usedBy.append(line) line = line.replace('$'+key+c, str(constants[key].value)+ c) else: none_found = True if line.endswith('$'+key): constants[key].usedBy.append(line) line = line.replace('$'+key, str(constants[key].value)) commands_new.append(line) self.constants = constants return commands_new except pkex.BasePyKatException as ex: pkex.PrintError("Error processing constants:", ex) sys.exit(1) def removeBlock(self, name): if name not in self.__blocks: pkex.PrintError("Error removing block:", pkex.BasePyKatException('Block "{0}" was not found'.format(name))) sys.exit(1) for o in self.__blocks[name].contents: self.remove(o) del self.__blocks[name] def parseCommands(self, commands, blocks=None, addToBlock=None): try: if addToBlock is not None and blocks is not None: raise pkex.BasePyKatException("When parsing commands you cannot set both blocks and addToBlock arguments") # Create a new block if one asked for isn't present if addToBlock is not None: if addToBlock not in self.__blocks: self.__blocks[addToBlock] = Block(addToBlock) blockComment = False commands=self.remove_comments(commands) commands=self.processConstants(commands) after_process = [] # list of commands that should be processed after # objects have been set and created for line in commands: if len(line.strip()) >= 2: line = line.strip() # Looking for block start or end values = line.split() if addToBlock is None: if values[0] == "%%%": if values[1] == "FTblock": newTag = values[2] if self.__currentTag != None and self.__currentTag != NO_BLOCK: warnings.warn("found block {0} before block {1} ended".format(newTag, self.__currentTag)) if newTag in self.__blocks: raise pkex.BasePyKatException("Block `{0}` has already been read".format(newTag)) self.__blocks[newTag] = Block(newTag) # create new list to store all references to components in block self.__currentTag = newTag if values[1] == "FTend": self.__currentTag = NO_BLOCK continue else: self.__currentTag = addToBlock # only include listed blocks, if we have specfied them if blocks != None and self.__currentTag not in blocks: continue # don't read comment lines if line[0] == "#" or line[0] == "%": continue # check if block comment is being used if not blockComment and line[0:2] == "/*": blockComment = True continue elif blockComment and line[0:2] == "*/": blockComment = False continue first = line.split(" ",1)[0] obj = None if(first == "m" or first == "m1" or first == "m2"): obj = pykat.components.mirror.parseFinesseText(line) elif(first == "s"): obj = pykat.components.space.parseFinesseText(line) elif(first == "l"): obj = pykat.components.laser.parseFinesseText(line) elif(first == "sq"): obj = pykat.components.squeezer.parseFinesseText(line) elif(first[0:2] == "bs"): obj = pykat.components.beamSplitter.parseFinesseText(line) elif(first[0:2] == "gr"): obj = pykat.components.grating.parseFinesseText(line) elif(first[0:4] == "isol"): obj = pykat.components.isolator.parseFinesseText(line) elif(first[0:4] == "lens"): obj = pykat.components.lens.parseFinesseText(line) elif(first[0:3] == "mod"): obj = pykat.components.modulator.parseFinesseText(line) elif(first[0:2] == "ad"): obj = pykat.detectors.ad.parseFinesseText(line) elif(first[0:2] == "bp"): obj = pykat.detectors.bp.parseFinesseText(line) elif(first[0:4] == "gouy"): obj = pykat.detectors.gouy.parseFinesseText(line) elif(first[0:2] == "pd" and first != "pdtype"): obj = pykat.detectors.pd.parseFinesseText(line) elif(first == "qshot" or first == "qshotS" or first == "qshotN"): obj = pykat.detectors.qshot.parseFinesseText(line) elif(first == "qnoised" or first == "qnoisedS" or first == "qnoisedN"): obj = pykat.detectors.qnoised.parseFinesseText(line) elif(first == "xaxis" or first == "xaxis*"): self.noxaxis = False obj = pykat.commands.xaxis.parseFinesseText(line) elif(first[0:2] == "hd"): obj = pykat.detectors.hd.parseFinesseText(line) elif(first.startswith("qhd")): obj = pykat.detectors.qhd.parseFinesseText(line) elif(first == "x2axis" or first == "x2axis*"): obj = pykat.commands.x2axis.parseFinesseText(line) elif(first == "gauss" or first == "gauss*" or first == "gauss**"): after_process.append((line, self.__currentTag)) elif(first == "scale"): after_process.append((line, self.__currentTag)) elif(first == "pdtype"): after_process.append((line, self.__currentTag)) elif(first == "cav"): after_process.append((line, self.__currentTag)) elif(first == "func"): after_process.append((line, self.__currentTag)) elif(first == "variable"): after_process.append((line, self.__currentTag)) elif(first == "lock"): after_process.append((line, self.__currentTag)) elif(first == "attr"): after_process.append((line, self.__currentTag)) elif(first == "noxaxis"): self.noxaxis = True elif(first == "lambda"): v = line.split() self.lambda0 = SIfloat(v[-1]) elif(first == "yaxis"): v = line.split() self.yaxis = v[-1] elif(first == "phase"): v = line.split() if len(v) != 2: raise pkex.BasePyKatException("phase command `{0}` is incorrect.".format(line)) else: self.phase = int(v[1]) elif(first == "maxtem"): v = line.split() if len(v) != 2: raise pkex.BasePyKatException("maxtem command `{0}` is incorrect.".format(line)) else: if v[1] == "off": self.maxtem = -1 else: self.maxtem = int(v[1]) elif(first == "trace"): v = line.split() if len(v) > 2: raise pkex.BasePyKatException("Trace command `{0}` is incorrect.".format(line)) elif len(v) == 2: self.trace = v[1] elif(first == "retrace"): v = line.split() if len(v) > 2: raise pkex.BasePyKatException("Retrace command `{0}` is incorrect.".format(line)) elif len(v) == 2: self.retrace = v[1] elif(first == "deriv_h"): v = line.split() if len(v) != 2: raise pkex.BasePyKatException("deriv_h command `{0}` is incorrect.".format(line)) else: self.deriv_h = float(v[1]) elif(first == "gnuterm" or first == "pyterm"): if self.verbose: print ("Ignoring Gnuplot/Python terminal command '{0}'".format(line)) elif(first == "fsig"): after_process.append((line, self.__currentTag)) elif(first == "noplot"): obj = line #self.__blocks[self.__currentTag].contents.append(line) else: if self.verbose: print ("Parsing `{0}` into pykat object not implemented yet, added as extra line.".format(line)) obj = line # manually add the line to the block contents self.__blocks[self.__currentTag].contents.append(line) if obj != None and not isinstance(obj, six.string_types): if self.hasNamedObject(obj.name): getattr(self, obj.name).remove() print ("Removed existing object '{0}' of type {1} to add line '{2}'".format(obj.name, obj.__class__, line)) self.add(obj, block=self.__currentTag) # now process all the varous gauss/attr etc. commands which require # components to exist first before they can be processed for item in after_process: line = item[0] first = line.split(" ",1)[0] block = item[1] if first == "gauss" or first == "gauss*" or first == "gauss**": pykat.commands.gauss.parseFinesseText(line, self) elif (first == "cav"): self.add(pykat.commands.cavity.parseFinesseText(line, self), block=block) elif (first == "lock"): self.add(pykat.commands.lock.parseFinesseText(line, self), block=block) elif (first == "func"): self.add(pykat.commands.func.parseFinesseText(line, self), block=block) elif (first == "variable"): self.add(pykat.commands.variable.parseFinesseText(line, self), block=block) elif (first == "scale"): v = line.split() accepted = ["psd","psd_hf","asd","asd_hf","meter", "ampere", "deg", "rad", "1/deg", "1/rad",] if len(v) == 3: component_name = v[2] if v[1].lower() in accepted: val = v[1] else: try: val = SIfloat(v[1]) except ValueError as ex: raise pkex.BasePyKatException("Line `{0}`:\nAccepted scale values are decimal numbers or %s." % (line,str(accepted))) if component_name in self.__detectors : self.__detectors[component_name].scale.append(val) else: raise pkex.BasePyKatException("scale command `{0}` refers to non-existing output".format(component_name)) elif len(v) == 2: if v[1] == "meter" or v[1] == "ampere" or v[1] == "deg": self.scale = v[1] else: self.scale = SIfloat(v[1]) else: raise pkex.BasePyKatException("scale command `{0}` is incorrect.".format(line)) elif (first == "pdtype"): v = line.split() if len(v) == 3: component_name = v[1] if component_name in self.__detectors : self.__detectors[component_name].pdtype = v[2] else: raise pkex.BasePyKatException("pdtype command `{0}` refers to non-existing detector".format(component_name)) else: raise pkex.BasePyKatException("pdtype command `{0}` is incorrect.".format(line)) elif(first == "attr"): v = line.split() if len(v) < 4: raise pkex.BasePyKatException("attr command `{0}` is incorrect.".format(line)) else: # get the component/detector in question if v[1] in self.__components: comp = self.__components[v[1]] elif v[1] in self.__detectors: comp = self.__detectors[v[1]] else: raise pkex.BasePyKatException("Could not find the component '{0}' for attr command in line '{1}'".format(v[1], line)) if len(v[2:]) % 2 == 1: raise pkex.BasePyKatException("Attr command '{0}' must specify both parameter and value pairs".format(line)) # convert split list to key value pairs #kv = dict(itertools.izip_longest(*[iter(v[2:])] * 2, fillvalue=None)) kv = dict(izip_longest(*[iter(v[2:])] * 2, fillvalue=None)) comp.parseAttributes(kv) elif(first == "fsig"): v = line.split() name = str(v[1]) if v[2] not in self.__components: raise pkex.BasePyKatException("Could not find the component '{0}'. Line: '{1}'".format(v[2], line)) comp = self.__components[v[2]] if comp._default_fsig() is None: raise pkex.BasePyKatException("Component '{0}' cannot be fsig'd. Line: '{1}'".format(comp.name, line)) param_name = None amp = None if len(v) == 5: #param is None freq = SIfloat(v[3]) phase = SIfloat(v[4]) elif len(v) == 6: try: SIfloat(v[3]) isFloat = True except: isFloat = False if isFloat: freq = SIfloat(v[3]) phase = SIfloat(v[4]) amp = SIfloat(v[5]) else: param_name = v[3] freq = SIfloat(v[4]) phase = SIfloat(v[5]) elif len(v) == 7: param_name = v[3] freq = SIfloat(v[4]) phase = SIfloat(v[5]) amp = SIfloat(v[6]) else: raise pkex.BasePyKatException("'{0}' isnot a valid fsig command".format(line)) self.signals.f = freq param = None if param_name is None: param = comp._default_fsig() else: for p in comp._params: if p.canFsig and p.fsigName == param_name: param = p break if param is None: raise pkex.BasePyKatException("Line: '{0}': {1} is not a valid fsig target for {2}".format(line, param_name, comp.name)) self.signals.apply(param, amp, phase, name) else: raise pkex.BasePyKatException("Haven't handled parsing of '{0}'".format(line)) self.__currentTag = NO_BLOCK except pkex.BasePyKatException as ex: pkex.PrintError("Error parsing line: '%s':"% line, ex) sys.exit(1) def saveScript(self, filename=None): """ Saves the current kat object to a Finesse input file """ try: katScript = "".join(self.generateKatScript()) katfile = open(filename,'w') katfile.writelines(katScript) katfile.flush() katfile.close() except pkex.BasePyKatException as ex: print (ex) def run(self, printout=0, printerr=0, plot=None, save_output=False, save_kat=False, kat_name=None, cmd_args=None, getTraceData=False): """ Runs the current simulation setup that has been built thus far. It returns a katRun or katRun2D object which is populated with the various data from the simulation run. printout=1 prints the Finesse banner printerr shows the Finesse progress (set kat.verbose=1 to see warnings and errors) plot (string) - Sets gnuterm for plotting save_output (bool) - if true does not delete out file save_kat (bool) - if true does not delete kat file kat_name (string) - name of kat file if needed, will be randomly generated otherwise cmd_args (list of strings) - command line flags to pass to FINESSE getTraceData (bool) - If true a list of dictionaries is returned along with the output file. Each dictionary is the result of the beam tracing that Finesse performs, the keys are the node names and the values are the x and y beam parameters. If no tracing is done a None is returned. """ start = datetime.datetime.now() try: if not hasattr(self, "xaxis") and self.noxaxis != None and self.noxaxis == False: raise pkex.BasePyKatException("No xaxis was defined") if len(self.__katdir) == 0: # Get the environment variable for where Finesse is stored self.__finesse_dir = os.environ.get('FINESSE_DIR') if self.__finesse_dir is None : raise pkex.MissingFinesseEnvVar() else: self.__finesse_dir = self.__katdir if len(self.__katname) == 0: katexe = "kat" if os.sys.platform == "win32": katexe += ".exe" else: katexe = self.__katname kat_exec = os.path.join(self.__finesse_dir, katexe) # check if kat file exists and it is executable by user if not (os.path.isfile(kat_exec) and os.access(kat_exec, os.X_OK)): raise pkex.MissingFinesse() if self.verbose: print ("--------------------------------------------------------------") if self.verbose: print ("Running kat - Started at " + str(start)) if hasattr(self, "x2axis") and self.noxaxis == False: r = katRun2D() else: r = katRun() r.yaxis = self.yaxis r.katScript = "".join(self.generateKatScript()) r.katScript += "time\n" if (plot==None): # ensure we don't do any plotting. That should be handled # by user themselves r.katScript+=("gnuterm no\n") r.katScript+=("pyterm no\n") else: r.katScript+=(plot+"\n") # create a kat file which we will write the script into if self.__tempname is None: katfile = tempfile.NamedTemporaryFile(mode ='w', suffix=".kat", dir=self.__tempdir, delete=False) else: filepath =os.path.join(self.__tempdir, self.__tempname+".kat" ) katfile = open( filepath, 'w' ) katfile.writelines(r.katScript) #katfile.writelines(bytes(r.katScript, 'UTF-8')) katfile.flush() if printout == 1 or plot != None: cmd=[kat_exec] else: cmd=[kat_exec, '--perl1'] if self.__time_code: cmd.append('--perf-timing') if cmd_args != None: cmd.extend(cmd_args) if getTraceData: cmd.append('--trace') cmd.append('--no-backspace') # set default format so that less repeated numbers are printed to the # output file, should speed up running and parsing of output files cmd.append('-format=%.15g') cmd.append(katfile.name) p=subprocess.Popen(cmd, shell=False, stdout=subprocess.PIPE, stderr=subprocess.PIPE) err = "" #if self.verbose: print "Finesse output:" for aline in iter(p.stderr.readline, b""): if six.PY2: line = unicode(aline, "utf-8") else: line = aline if len(line) > 0: # remove any ANSI commands line = re.sub(br'\x1b[^m]*m',b'', line, re.UNICODE) # warnings and errors start with an asterisk # so if verbose show them if line.lstrip().startswith(b'*PROG*'): line = line[8:-1] vals = line.split(b"-",1) action = vals[0].strip() prc = vals[1].strip()[:] if printerr == 1: if six.PY2: sys.stdout.write("\r{0} {1}".format(action, prc)) else: sys.stdout.write("\r{0} {1}".format(str(action, 'utf-8'), str(prc, 'utf-8'))) elif line.lstrip().startswith(b'*'): if self.verbose: if six.PY2: sys.stdout.write(line) else: sys.stdout.write(str(line,'utf-8')) elif line.rstrip().endswith(b'%'): vals = line.split(b'-') action = vals[0].strip() prc = vals[1].strip()[:] if printerr == 1: if six.PY2: sys.stdout.write("\r{0} {1}".format(action, prc)) else: sys.stdout.write("\r{0} {1}".format(str(action, 'utf-8'), str(prc, 'utf-8'))) else: if six.PY2: err="".join((err,line)) else: err="".join((err,str(line, 'utf-8'))) [out,errpipe] = p.communicate() if six.PY2: _out = str(out).split("\n") else: _out = str(out).split("\\n") for line in _out[::-1]: if line.lstrip().startswith('computation time:'): try: r.runtime = float(line.split(":")[1].replace("s","")) except: r.runtime = 0.0 if printout == 1: print (out) else: if printerr == 1: print ("") # get the version number ix = out.find(b'build ') + 6 ix2 = out.find(b')',ix) r.katVersion = out[ix:ix2] r.runDateTime = datetime.datetime.now() # If Finesse returned an error, just print that and exit! if p.returncode != 0: raise pkex.FinesseRunError(err, katfile.name) self.__prevrunfilename = katfile.name root = os.path.splitext(katfile.name) base = os.path.basename(root[0]) path = os.path.split(katfile.name)[0] outfile = root[0] + ".out" traceData = None if getTraceData: # First see if we have any trace files traceFiles = [file for file in os.listdir(path) if file.endswith(".trace") and file.startswith(base)] #print("Found %i trace files" % len(traceFiles)) #print(path) #print(traceFiles) if len(traceFiles) > 0: import fileinput traceData = [] for file in traceFiles: traceData.append({}) ifile = fileinput.input(os.path.join(path, file)) for line in ifile: line = line.strip() if len(line) > 0: a = line.split(':', 1) if a[0].isdigit(): #print("Found %s" % a[0]) values = a[1].split() node_name = values[1].split("(")[0] line1x = ifile.readline() line2x = ifile.readline() line1y = ifile.readline() line2y = ifile.readline() qx = line2x.strip().split()[0].split("=")[1] qy = line2y.strip().split()[0].split("=")[1] traceData[-1][node_name] = (pykat.beam_param(q=complex(qx)), pykat.beam_param(q=complex(qy))) if save_output: newoutfile = "{0}.out".format(base) cwd = os.path.os.getcwd() newoutfile = os.path.join(cwd,newoutfile) if os.path.isfile(newoutfile): os.remove(newoutfile) os.rename(outfile, newoutfile) if self.verbose: print ("\nOutput data saved to '{0}'".format(newoutfile)) # can't see why this check is needed, causes problems when only detectors # not parsed as pykat objects are used #if len(self.detectors.keys()) > 0: if hasattr(self, "x2axis") and self.noxaxis == False: [r.x,r.y,r.z,hdr] = self.readOutFile(outfile) r.xlabel = hdr[0] r.ylabel = hdr[1] r.zlabels = [s.strip() for s in hdr[2:]] #r.zlabels = map(str.strip, hdr[2:]) else: [r.x,r.y,hdr] = self.readOutFile(outfile) r.xlabel = hdr[0] r.ylabels = [s.strip() for s in hdr[1:]] #r.ylabels = map(str.strip, hdr[1:]) // replaced 090415 adf if save_kat: if kat_name is None: kat_name = "pykat_output" cwd = os.path.os.getcwd() newkatfile = os.path.join(cwd, kat_name + ".kat") if os.path.isfile(newkatfile): os.remove(newkatfile) os.rename(katfile.name, newkatfile) if self.verbose: print ("Kat file saved to '{0}'".format(newkatfile)) if self.trace != None and self.trace > 0: #print ("{0}".format(out)) #if self.trace & 1: #search = out.find(' --- highest order of TEM modes') #if search > -1: #print ("Trace 1: {0}".format(out[search:])) # for now, just try to print the trace block in full print (out[out.find(' ---') :]) katfile.close() perfData = [] rtn = [r] if sys.version > '3': long = int if self.__time_code: perffile = open(root[0] + ".perf",'r') for l in perffile.readlines(): vals = l.strip().split() perfData.append((vals[0], long(vals[1]), long(vals[2]))) #perfData.append((vals[0], float(vals[1]), float(vals[2]), float(vals[3]))) rtn.append(perfData) if getTraceData: rtn.append(traceData) if len(rtn) == 1: return rtn[0] else: return rtn except KeyboardInterrupt as ex: print("Keyboard interrupt caught, stopped simulation.") except pkex.FinesseRunError as ex: pkex.PrintError("Error from Finesse:", ex) except pkex.BasePyKatException as ex: pkex.PrintError("Error from pykat:", ex) finally: if self.verbose: print ("") if self.verbose: print ("Finished in " + str(datetime.datetime.now()-start)) def remove(self, obj): try: if hasattr(obj, "name") and not isinstance(obj, pykat.finesse.Signals) and not (obj.name in self.__components or obj.name in self.__detectors or obj.name in self.__commands or obj in self.signals.targets): raise pkex.BasePyKatException("'{0}' is not currently in the simulation".format(obj.name)) if hasattr(obj, "removed") and obj.removed: raise pkex.BasePyKatException("'{0}' has already been removed".format(obj.name)) nodes = None # store nodes that this componet is attached to as a reference for gui if isinstance(obj, Component): nodes = self.nodes.getComponentNodes(obj) if isinstance(obj, Component): del self.__components[obj.name] self.__del_component(obj) self.nodes._removeComponent(obj) elif isinstance(obj, Command): if obj._Command__unique: del self.__commands[obj.__class__.__name__] else: del self.__commands[obj.name] self.__del_command(obj) elif isinstance(obj, Detector): del self.__detectors[obj.name] self.__del_detector(obj) elif isinstance(obj, pykat.finesse.Signals): obj.remove() elif isinstance(obj, pykat.finesse.Signals.fsig): obj._on_remove() for b in self.__blocks: if obj in self.__blocks[b].contents: self.__blocks[b].contents.remove(obj) if self.pykatgui != None: self.pykatgui._onComponentRemoved(obj, nodes) del nodes #import gc #print (gc.get_referrers(obj)) except pkex.BasePyKatException as ex: pkex.PrintError("Error on removing object:", ex) def undumpNodes(self, undumped_name_prefix = "dump"): """ Loops through and removes all dump nodes. Required when running quantum noise calculations using qnoised as noise must be injected in where losses occur, such as power dumped. The nodes will be renamed 'dump0', 'dump1', ... If by change a kat file already has a node called dump0, dump1, etc. then it will skip that name and move on to the next until it finds one that doesn't exist. """ i = 0 node_name = "%s_%i" % (str(undumped_name_prefix), i) for c in self.components.values(): for n in c.nodes: if n.isDump: while hasattr(kat.nodes, node_name): node_name = "%s_%i" % (str(undumped_name_prefix), i) i += 1 self.nodes.replaceNode(c, n, self.nodes.createNode(node_name % i)) def getMatrices(self): import scipy from scipy.sparse import coo_matrix prev = self.noxaxis self.noxaxis = True self.printmatrix = True print ("".join(self.generateKatScript())) self.verbose = True self.run(printout=1) self.printmatrix = None self.noxaxis = prev if self.__prevrunfilename is None: return None else: Mcarrier = None Msignal = None if os.path.exists("klu_full_matrix_car.dat"): M = np.loadtxt("klu_full_matrix_car.dat") if M.size > 0: row = M[:,0]-1 col = M[:,1]-1 data = M[:,2] + 1j * M[:,3] N = row.max()+1 Mcarrier = coo_matrix((data,(row,col)), shape=(N,N)) if os.path.exists("klu_full_matrix_sig.dat"): M = np.loadtxt("klu_full_matrix_sig.dat") if M.size > 0: row = M[:,0]-1 col = M[:,1]-1 data = M[:,2] + 1j * M[:,3] N = row.max()+1 Msignal = coo_matrix((data,(row,col)), shape=(N,N)) return (Mcarrier, Msignal) def hasNamedObject(self, name): return name in self.__components or name in self.__detectors or name in self.__commands def add(self, obj, block=NO_BLOCK): try: obj.tag = block self.__blocks[block].contents.append(obj) if isinstance(obj, Component): if obj.name in self.__components : raise pkex.BasePyKatException("A component with name '{0}' has already been added".format([obj.name])) self.__components[obj.name] = obj self.__add_component(obj) elif isinstance(obj, Detector): if obj.name in self.__detectors : raise pkex.BasePyKatException("A detector '{0}' has already been added".format(obj.name)) self.__detectors[obj.name] = obj self.__add_detector(obj) elif isinstance(obj, Command): if obj._Command__unique: self.__commands[obj.__class__.__name__] = obj else: self.__commands[obj.name] = obj self.__add_command(obj) else: raise pkex.BasePyKatException("Object {0} could not be added".format(obj)) obj._on_kat_add(self) except pkex.BasePyKatException as ex: pkex.PrintError("Error on adding object:", ex) def readOutFile(self, filename): with open(filename,'r') as outfile: # read first to lines to get to header line outfile.readline() outfile.readline() hdr = outfile.readline().replace('%','').replace('\n','').split(',') data = np.loadtxt(filename, comments='%',skiprows=4) # convert 1D arrays into 2D ones for simpler selection if len(data.shape) == 1: data = np.array([data]) if hasattr(self, "x2axis") and self.noxaxis == False: # need to parse 2D outputs slightly different as they are effectively 2D matrices # written in linear form x = data[0::(1+self.x2axis.steps),0].squeeze() y = data[0:(1+self.x2axis.steps),1] # get rows and columns lined up so that we can reshape a single column of all x/y data # into a matrix z = data[:,2:].transpose().reshape(data.shape[1]-2, 1+self.xaxis.steps, 1+self.x2axis.steps).squeeze() # ensure we have a shape (num outputs, x, y) if len(z.shape) == 2: z = z.reshape(1, z.shape[0], z.shape[1]) # once you do this the data for y and x axes need swapping z = z.swapaxes(1,2) return [x, y, z, hdr] else: shape_len = len(data.shape) rows,cols = data.shape x = data[:,0].squeeze() y = data[:,1:cols] return [x, y, hdr] def removeLine(self, fragment) : """ This will search all blocks and search for the string fragment specified and remove it. WARNING: This will only remove non-parsed commands, it will not remove commands that have already been parsed into a pykat object, such as mirrors and beamsplitters, use kat.remove or kat.component.remove() to delete parsed objects. """ found = False for key in self.__blocks: objs = self.__blocks[key].contents for obj in objs: if isinstance(obj, six.string_types): if fragment in obj: print (" ** removing line '{0}'".format(obj)) objs.remove(obj) found = True if not found: pkex.BasePyKatException("The command fragment '%s' is not an extra line added to this kat object. Please check that the item you are trying to remove has not been parsed as a pykat object." % fragment) def addLine(self, line, block=NO_BLOCK) : """ This will forcefully add a line of FINESSE code to a particular block if specfied. This command will not undergo any parsing so it will remain as just a string. This of course can create possible conflicts with other pykat object that create similar commands so becareful. """ self.__blocks[block].contents.append(line) def printExtraLines(self): """ This prints all the Finesse commands that have not been parsed into pykat objects. This should be used for reference only. To add or remove extra lines use the addLine and removeLine methods. """ found = False for key in self.__blocks: objs = self.__blocks[key].contents for obj in objs: if isinstance(obj, six.string_types): print(obj) found = True if not found: print("No extra lines were found") def generateKatScript(self) : """ Generates the kat file which can then be run """ def writeBlock(): for obj in objs: if isinstance(obj, six.string_types): out.append(obj + '\n') elif isinstance(obj, Component) or isinstance(obj, Detector) or isinstance(obj, Command): txt = obj.getFinesseText() if txt != None: if isinstance(txt,list): for t in txt: out.append(t + "\n") else: out.append(txt + "\n") out = [] import datetime strtoday = datetime.datetime.now() out.append(strtoday.strftime("%% Generated by PyKat %d.%m.%Y %H:%M:%S\n") ) # write the FTblocks for key in self.__blocks: objs = self.__blocks[key].contents if key != NO_BLOCK: if np.size(objs)>0: out.append("\n") out.append("%%% FTblock " + key + "\n") writeBlock() out.append("%%% FTend " + key + "\n") # write the NO_BLOCK blocks for key in self.__blocks: objs = self.__blocks[key].contents if key == NO_BLOCK: if np.size(objs)>0: out.append("\n") writeBlock() # now loop through all the nodes and get any gauss commands for key in self.nodes.getNodes(): txt = self.nodes.getNodes()[key].getFinesseText() if txt != None: if isinstance(txt,list): for t in txt: out.append(t+ "\n") else: out.append(txt + "\n") # now get any signal commands txt = self.signals.getFinesseText() if txt != None: if isinstance(txt,list): for t in txt: out.append(t+ "\n") else: out.append(txt + "\n") if self.vacuum != None: if isinstance(self.vacuum, collections.Container): objs = [] if len(self.vacuum) > 0: for a in self.vacuum: if hasattr(a, 'name'): objs.append(a.name) else: objs.append(str(a)) out.append("vacuum {0}\n".format(" ".join(objs))) elif isinstance(self.vacuum, six.string_types): out.append("vacuum {0}\n".format(self.vacuum)) else: pkex.BasePyKatException("Couldn't understand vacuum input list") if self.scale != None and self.scale !='': out.append("scale {0}\n".format(self.scale)) if self.phase != None: out.append("phase {0}\n".format(self.phase)) if self.trace != None: out.append("trace {0}\n".format(self.trace)) if self.maxtem != None: if self.maxtem == -1: out.append("maxtem off\n") else: out.append("maxtem {0}\n".format(self.maxtem)) if self.noxaxis == True: out.append("noxaxis\n") if self.yaxis is not None: out.append("yaxis {0}\n".format(self.yaxis)) if self.retrace is not None: out.append("retrace {0}\n".format(str(self.retrace))) if self.printmatrix is not None and self.printmatrix == True: out.append("printmatrix\n") if self.lambda0 != 1064e-9: out.append("lambda {0}\n".format(self.lambda0)) # ensure we don't do any plotting. That should be handled # by user themselves #out.append("gnuterm no\n") #out.append("pyterm no\n") return out def optivis(self): if not HAS_OPTIVIS: print("Optivis is not installed") return None import optivis.scene as scene import optivis.bench.links as links import optivis.view.canvas as canvas scene = scene.Scene(title="My pykat layout") # Run through again to add links for c in self.getComponents(): if not isinstance(c, pykat.components.space): continue a = c.connectingComponents() # Need to handle where spaces don't connect two components but there is a loose # node, which may or may not have detectors attached if a[0] is None or a[1] is None: continue c1 = a[0].getOptivisComponent() c2 = a[1].getOptivisComponent() no = a[0].getOptivisNode("Output", c.nodes[0]) ni = a[1].getOptivisNode("Input", c.nodes[1]) if no is None or ni is None: raise pkex.BasePyKatException("Optivis node is None") c._optivis_component = links.Link(outputNode=no, inputNode=ni, length=c.L.value) c.label_node1 = optivis_label(text="", position=optivis_coord(-0.5, 0), item=c._optivis_component) c.label_node2 = optivis_label(text="", position=optivis_coord( 0.5, 0), item=c._optivis_component) label_name = optivis_label(text="", position=optivis_coord(0, -0.5), item=c._optivis_component) label_name.content["Name"] = c.name c._optivis_component.labels.append(c.label_node1) c._optivis_component.labels.append(c.label_node2) c._optivis_component.labels.append(label_name) scene.addLink(c._optivis_component) gui = canvas.Full(scene=scene) ### get menu bar from Optivis menubar = gui.qMainWindow.menuBar() ### add new Pykat menu and menu items pykatMenu = menubar.addMenu('&Pykat') # save save = PyQt4.QtGui.QAction('Save', gui.qMainWindow) save.setShortcut('Ctrl+S') save.triggered.connect(lambda: self._optivis_doSave(gui)) pykatMenu.addAction(save) # trace trace = PyQt4.QtGui.QAction('Trace', gui.qMainWindow) trace.setShortcut('Ctrl+T') trace.triggered.connect(lambda: self._optivis_doTrace(gui)) pykatMenu.addAction(trace) return gui def _optivis_doTrace(self, gui, **kwargs): """ Change at some point to use a stored GUI reference """ if not HAS_OPTIVIS: print("Optivis is not installed") return None prev = self.noxaxis self.noxaxis = True out, tdata = self.run(getTraceData=True, **kwargs) self.noxaxis = prev # For now just select the first trace computed # Later we could add some gui list to show the different ones tdata = tdata[0] for c in self.getComponents(): if not isinstance(c, pykat.components.space): continue if not (hasattr(c, "label_node1") and hasattr(c, "label_node2")): continue c.label_node1.content["w0_x"] = tdata[c.nodes[0].name][0].w0 c.label_node1.content["w_x"] = tdata[c.nodes[0].name][0].w c.label_node1.content["z_x"] = tdata[c.nodes[0].name][0].z c.label_node1.content["Rc_x"] = tdata[c.nodes[0].name][0].Rc c.label_node1.content["Zr_x"] = tdata[c.nodes[0].name][0].zr c.label_node1.content["w0_y"] = tdata[c.nodes[0].name][1].w0 c.label_node1.content["w_y"] = tdata[c.nodes[0].name][1].w c.label_node1.content["z_y"] = tdata[c.nodes[0].name][1].z c.label_node1.content["Rc_y"] = tdata[c.nodes[0].name][1].Rc c.label_node1.content["Zr_y"] = tdata[c.nodes[0].name][1].zr c.label_node2.content["w0_x"] = tdata[c.nodes[1].name][0].w0 c.label_node2.content["w_x"] = tdata[c.nodes[1].name][0].w c.label_node2.content["z_x"] = tdata[c.nodes[1].name][0].z c.label_node2.content["Rc_x"] = tdata[c.nodes[1].name][0].Rc c.label_node2.content["Zr_x"] = tdata[c.nodes[1].name][0].zr c.label_node2.content["w0_y"] = tdata[c.nodes[1].name][1].w0 c.label_node2.content["w_y"] = tdata[c.nodes[1].name][1].w c.label_node2.content["z_y"] = tdata[c.nodes[1].name][1].z c.label_node2.content["Rc_y"] = tdata[c.nodes[1].name][1].Rc c.label_node2.content["Zr_y"] = tdata[c.nodes[1].name][1].zr gui.redraw() def _optivis_doSave(self, gui, **kwargs): """ Save kat script from Optivis """ if not HAS_OPTIVIS: print("Optivis is not installed") return None # generate file path directory = os.path.join(os.path.expanduser('~'), '{0}.kat'.format(gui.scene.title)) # desired save path path = None # get path to file to export to while True: dialog = PyQt4.Qt.QFileDialog(parent=gui.qMainWindow, caption='Save Finesse Script', directory=directory) dialog.setAcceptMode(PyQt4.Qt.QFileDialog.AcceptSave) dialog.setFileMode(PyQt4.Qt.QFileDialog.AnyFile) # show dialog dialog.exec_() if len(dialog.selectedFiles()) is 0: # no filename specified return # get file path and format path = str(dialog.selectedFiles()[0]) try: # check if we can write to the path open(path, 'w').close() os.unlink(path) # if we get this far, all is good so we can break out the infinite loop break except OSError: PyQt4.Qt.QMessageBox.critical(gui.qMainWindow, 'Filename invalid', 'The specified filename is invalid') except IOError: PyQt4.Qt.QMessageBox.critical(gui.qMainWindow, 'Permission denied', 'You do not have permission to save the file to the specified location.') # save kat file self.saveScript(filename=path) def openGUI(self): if not USE_GUI: raise NoGUIException else: self.app = QCoreApplication.instance() created = False if self.app is None: created = True self.app = QApplication([""]) if self.pykatgui is None: self.pykatgui = pyKatGUI(self) self.pykatgui.main() else: self.pykatgui.show() if created: self.app.exec_() def getComponents(self): return self.__components.values() def hasComponent(self, name): return (name in self.__components) def _newName(self, container, prefix): n = 1 name = "{0}{1}".format(prefix, n) while name in container: n += 1 name = "{0}{1}".format(prefix,n) return name def getNewComponentName(self,prefix): ''' Returns a name for a component which hasn't already been added. Returns [prefix] + number, where number is greater than 1. e.g. if m1 exists getNewName('m') will return 'm2' ''' return self._newName(self.__components, prefix) def getNewDetectorName(self,prefix): ''' Returns a name for a component which hasn't already been added. Returns [prefix] + number, where number is greater than 1. e.g. if m1 exists getNewName('m') will return 'm2' ''' return self._newName(self.__detectors, prefix) def getNewNodeNames(self,prefix,N=1): ''' Returns a list of names for N number of nodes which haven't already been added. Returns [prefix] + number, where number is greater than 1. e.g. if m1 exists getNewName('m') will return 'm2' ''' rtn = [] n = 1 for M in range(1,N+1): name = "{0}{1}".format(prefix, n) while name in self.nodes.getNodes() or (name in rtn): n += 1 name = "{0}{1}".format(prefix,n) rtn.append(name) return rtn def _lkat_getProcess(self, callback, **kwargs): """ """ cmd = "\n".join(self.generateKatScript()) return Process(target=f__lkat_process, args=(callback, cmd, kwargs)) def _lkat_trace(self, getCavities=True, getNodes=True, getSpaces=True): """ Given the current state of the kat object a new FINESSE process is called and just the beam tracing routine is run. The object that is returned contains all the information from the beam tracing routine for each node and space components defined as well as cavity commands. """ if lkat_location is None: raise RuntimeError("Could not find shared library 'libkat', please install to a system location or copy to the same directory as this script") trace_info = Manager().dict() prev = self.maxtem self.maxtem = 0 try: p = self.getProcess(f__lkat_trace_callback, trace_info=trace_info, getCavities=getCavities, getNodes=getNodes, getSpaces=getSpaces) p.start() p.join() p.terminate() # return a local copy of the trace information dictionary return dict(trace_info) finally: self.maxtem = prev def __add_detector(self, det): if not isinstance(det, Detector): raise pkex.BasePyKatException("Argument is not of type Detector") name = det.name fget = lambda self: self.__get_detector(name) if hasattr(self, name): raise pkex.BasePyKatException("There is something attached to the kat object already called `%s`" % name) setattr(self.__class__, name, property(fget)) setattr(self, '__det_' + name, det) def __del_detector(self, det): if not isinstance(det, Detector): raise pkex.BasePyKatException("Argument is not of type Detector") name = det.name delattr(self.__class__, name) delattr(self, '__det_' + name) def __get_detector(self, name): return getattr(self, '__det_' + name) def __add_command(self, com): if not isinstance(com, Command): raise pkex.BasePyKatException("Argument is not of type Command") if com._Command__unique: name = com.__class__.__name__ else: name = com.name if hasattr(self, name): raise pkex.BasePyKatException("There is something attached to the kat object already called `%s`" % name) fget = lambda self: self.__get_command(name) setattr(self.__class__, name, property(fget)) setattr(self, '__com_' + name, com) def __del_command(self, com): if not isinstance(com, Command): raise exceptions.ValueError("Argument is not of type Command") if com._Command__unique: name = com.__class__.__name__ else: name = com.name delattr(self.__class__, name) delattr(self, '__com_' + name) def __get_command(self, name): return getattr(self, '__com_' + name) def __add_component(self, comp): if not isinstance(comp, Component): raise pkex.BasePyKatException("Argument is not of type Component") name = comp.name if hasattr(self, name): raise pkex.BasePyKatException("There is something attached to the kat object already called `%s`" % name) fget = lambda self: self.__get_component(name) setattr(self.__class__, name, property(fget)) setattr(self, '__comp_' + name, comp) def __del_component(self, comp): if not isinstance(comp, Component): raise pkex.BasePyKatException("Argument is not of type Component") delattr(self.__class__, comp.name) delattr(self, '__comp_' + comp.name) def __get_component(self, name): return getattr(self, '__comp_' + name) def remove_comments(self, string): """ This takes a raw Finesse code string and removes any comments It returns a list of lines however, not a multiline string. Also removes any extrawhite space in command lines. """ pattern = r"(\".*?\"|\'.*?\'|%{3}[^\r\n]*$)|(/\*.*?\*/|%[^\r\n]*$|#[^\r\n]*$|//[^\r\n]*$)" # first group captures quoted strings (double or single) # second group captures comments (//single-line or /* multi-line */) regex = re.compile(pattern, re.MULTILINE|re.DOTALL) def _replacer(match): # if the 2nd group (capturing comments) is not None, # it means we have captured a non-quoted (real) comment string. if match.group(2) is not None: return "" # so we will return empty to remove the comment else: # otherwise, we will return the 1st group return match.group(1) # captured quoted-string # remove any inline comments string = regex.sub(_replacer, string) commands = [] for line in string.split('\n'): line = line.replace('\r','') if len(line) > 0: # remove any mutliple whitespace line = " ".join(line.split()) # add to a list all the positions of any inline comment markers i = [line.find('#'), line.find('\\')] #i = filter(lambda a: a != -1, i) i = [a for a in i if a != -1] if len(i) == 0: commands.append(line) else: line = line[0:min(i)] if len(line): commands.append(line) return commands # printing pykat logo on first input kat.logo()