Example 01 - Python
Last update: 17.07.2025Python
import clr, os, winreg
from itertools import islice
class PythonStandaloneApplication(object):
class LicenseException(Exception):
pass
class ConnectionException(Exception):
pass
class InitializationException(Exception):
pass
class SystemNotPresentException(Exception):
pass
def __init__(self, path=None):
# determine location of ZOSAPI_NetHelper.dll & add as reference
aKey = winreg.OpenKey(winreg.ConnectRegistry(None, winreg.HKEY_CURRENT_USER), r"Software\Zemax", 0, winreg.KEY_READ)
zemaxData = winreg.QueryValueEx(aKey, 'ZemaxRoot')
NetHelper = os.path.join(os.sep, zemaxData[0], r'ZOS-API\Libraries\ZOSAPI_NetHelper.dll')
winreg.CloseKey(aKey)
clr.AddReference(NetHelper)
import ZOSAPI_NetHelper
# Find the installed version of OpticStudio
if path is None:
isInitialized = ZOSAPI_NetHelper.ZOSAPI_Initializer.Initialize()
else:
# Note -- uncomment the following line to use a custom initialization path
isInitialized = ZOSAPI_NetHelper.ZOSAPI_Initializer.Initialize(path)
# determine the ZOS root directory
if isInitialized:
dir = ZOSAPI_NetHelper.ZOSAPI_Initializer.GetZemaxDirectory()
else:
raise PythonStandaloneApplication.InitializationException("Unable to locate Zemax OpticStudio. Try using a hard-coded path.")
# add ZOS-API referencecs
clr.AddReference(os.path.join(os.sep, dir, "ZOSAPI.dll"))
clr.AddReference(os.path.join(os.sep, dir, "ZOSAPI_Interfaces.dll"))
import ZOSAPI
# create a reference to the API namespace
self.ZOSAPI = ZOSAPI
# create a reference to the API namespace
self.ZOSAPI = ZOSAPI
# Create the initial connection class
self.TheConnection = ZOSAPI.ZOSAPI_Connection()
if self.TheConnection is None:
raise PythonStandaloneApplication.ConnectionException("Unable to initialize .NET connection to ZOSAPI")
self.TheApplication = self.TheConnection.CreateNewApplication()
if self.TheApplication is None:
raise PythonStandaloneApplication.InitializationException("Unable to acquire ZOSAPI application")
if self.TheApplication.IsValidLicenseForAPI == False:
raise PythonStandaloneApplication.LicenseException("License is not valid for ZOSAPI use")
self.TheSystem = self.TheApplication.PrimarySystem
if self.TheSystem is None:
raise PythonStandaloneApplication.SystemNotPresentException("Unable to acquire Primary system")
def __del__(self):
if self.TheApplication is not None:
self.TheApplication.CloseApplication()
self.TheApplication = None
self.TheConnection = None
def OpenFile(self, filepath, saveIfNeeded):
if self.TheSystem is None:
raise PythonStandaloneApplication.SystemNotPresentException("Unable to acquire Primary system")
self.TheSystem.LoadFile(filepath, saveIfNeeded)
def CloseFile(self, save):
if self.TheSystem is None:
raise PythonStandaloneApplication.SystemNotPresentException("Unable to acquire Primary system")
self.TheSystem.Close(save)
def SamplesDir(self):
if self.TheApplication is None:
raise PythonStandaloneApplication.InitializationException("Unable to acquire ZOSAPI application")
return self.TheApplication.SamplesDir
def ExampleConstants(self):
if self.TheApplication.LicenseStatus == self.ZOSAPI.LicenseStatusType.PremiumEdition:
return "Premium"
elif self.TheApplication.LicenseStatus == self.ZOSAPI.LicenseStatusTypeProfessionalEdition:
return "Professional"
elif self.TheApplication.LicenseStatus == self.ZOSAPI.LicenseStatusTypeStandardEdition:
return "Standard"
else:
return "Invalid"
def reshape(self, data, x, y, transpose = False):
"""Converts a System.Double[,] to a 2D list for plotting or post processing
Parameters
----------
data : System.Double[,] data directly from ZOS-API
x : x width of new 2D list [use var.GetLength(0) for dimension]
y : y width of new 2D list [use var.GetLength(1) for dimension]
transpose : transposes data; needed for some multi-dimensional line series data
Returns
-------
res : 2D list; can be directly used with Matplotlib or converted to
a numpy array using numpy.asarray(res)
"""
if type(data) is not list:
data = list(data)
var_lst = [y] * x;
it = iter(data)
res = [list(islice(it, i)) for i in var_lst]
if transpose:
return self.transpose(res);
return res
def transpose(self, data):
"""Transposes a 2D list (Python3.x or greater).
Useful for converting mutli-dimensional line series (i.e. FFT PSF)
Parameters
----------
data : Python native list (if using System.Data[,] object reshape first)
Returns
-------
res : transposed 2D list
"""
if type(data) is not list:
data = list(data)
return list(map(list, zip(*data)))
if __name__ == '__main__':
zos = PythonStandaloneApplication()
# load local variables
ZOSAPI = zos.ZOSAPI
TheApplication = zos.TheApplication
TheSystem = zos.TheSystem
# creates a new API directory
if not os.path.exists(TheApplication.SamplesDir + "\\API\\Python"):
os.makedirs(TheApplication.SamplesDir + "\\API\\Python")
# Set up primary optical system
sampleDir = TheApplication.SamplesDir
#! [e01s01_py]
# Make new file
testFile = os.path.join(os.sep, sampleDir, r'API\Python\e01_new_file_and_quickfocus.zos')
TheSystem.New(False)
TheSystem.SaveAs(testFile)
#! [e01s01_py]
TheSystem.SystemData.MaterialCatalogs.AddCatalog('SCHOTT')
#! [e01s02_py]
# Aperture
TheSystemData = TheSystem.SystemData
TheSystemData.Aperture.ApertureValue = 40
#! [e01s02_py]
#! [e01s03_py]
# Fields
Field_1 = TheSystemData.Fields.GetField(1)
NewField_2 = TheSystemData.Fields.AddField(0, 5.0, 1.0)
#! [e01s03_py]
#! [e01s04_py]
# Wavelength preset
slPreset = TheSystemData.Wavelengths.SelectWavelengthPreset(ZOSAPI.SystemData.WavelengthPreset.d_0p587)
#! [e01s04_py]
#! [e01s05_py]
# Lens data
TheLDE = TheSystem.LDE
TheLDE.InsertNewSurfaceAt(2)
TheLDE.InsertNewSurfaceAt(2)
Surface_1 = TheLDE.GetSurfaceAt(1)
Surface_2 = TheLDE.GetSurfaceAt(2)
Surface_3 = TheLDE.GetSurfaceAt(3)
#! [e01s05_py]
#! [e01s06_py]
# Changes surface cells in LDE
Surface_1.Thickness = 50.0
Surface_1.Comment = 'Stop is free to move'
Surface_2.Radius = 100.0
Surface_2.Thickness = 10.0
Surface_2.Comment = 'front of lens'
Surface_2.Material = 'N-BK7'
Surface_3.Comment = 'rear of lens'
#! [e01s06_py]
#! [e01s07_py]
# Solver
Solver = Surface_3.RadiusCell.CreateSolveType(ZOSAPI.Editors.SolveType.FNumber)
SolverFNumber = Solver._S_FNumber
SolverFNumber.FNumber = 10
Surface_3.RadiusCell.SetSolveData(Solver)
#! [e01s07_py]
#! [e01s08_py]
# QuickFocus
quickFocus = TheSystem.Tools.OpenQuickFocus()
quickFocus.Criterion = ZOSAPI.Tools.General.QuickFocusCriterion.SpotSizeRadial
quickFocus.UseCentroid = True
quickFocus.RunAndWaitForCompletion()
quickFocus.Close()
#! [e01s08_py]
#! [e01s09_py]
# Save and close
TheSystem.Save()
#! [e01s09_py]
# This will clean up the connection to OpticStudio.
# Note that it closes down the server instance of OpticStudio, so you for maximum performance do not do
# this until you need to.
del zos
zos = None
Definition: ZemaxService.cs:198
