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简介:FRED作为COM组件可以实现与Excel、VB、Matlab等调用来完成庞大的计算任务或画图,本文的目的是通过运行一个案例来实现与Matlab的相互调用,在此我们需要借助脚本来完成,此脚本为视为通用型脚本。 'wEQvC��S ]Z�5m_-I� 配置:在执行调用之前,我们需要在Matlab命令行窗口输入如下命令: y#B=�9Ri=z enableservice('AutomationServer', true) `�;Tf�_6�c enableservice('AutomationServer') QO}~�"lM�j  ldUZ�\z(*� 结果输出为1,这种操作方式保证了当前的Matlab实体可以用于通信。 ��:41����Y w@^J.��7h^ 在winwrp界面,为增加和使用Matlab类型的目录库,我们需要如下步骤: ��xH\\#�4/ 1. 在FRED脚本编辑界面找到参考. 73rme,���� 2. 找到Matlab Automation Server Type Library pF�S@��yHs 3. 将名字改为MLAPP 7*u�N[g�#p )�n�O ^A�y ��;Va(l$zD 在Matlab里面有两种常用的数据发送选项PutWorkspaceData 及PutFullMatrix,PutWorkspaceData适用于存储一般的数据在工作区,并赋予其为变量,PutFullMatrix试用于复数数据。 pFY*�Y>6ar ]0*���a�E 图 编辑/参考 C
��zJ-tEO ={%�'tv�` 现在将脚本代码公布如下,此脚本执行如下几个步骤: r�1< '��l� 1. 创建Matlab服务器。 kMCP .D45; 2. 移动探测面对于前一聚焦面的位置。 �Z�q�8�5�q 3. 在探测面追迹光线 B��za�<.E= 4. 在探测面计算照度 R 9`���[�C 5. 使用PutWorkspaceData发送照度数据到Matlab `{!A1xK�Z� 6. 使用PutFullMatrix发送标量场数据到Matlab中 L@GICW��~� 7. 用Matlab画出照度数据 �?�YR;o��4 8. 在Matlab计算照度平均值 �B-N�//ef} 9. 返回数据到FRED中 ��C/�Q�20� F%-@_IsG# 代码分享: y\^zx�G*]' "b`#Roh�Ci Option Explicit �VQpt1�cK* a���Int[D( Sub Main 9<�?w9�D.1 'O)�v@p "� Dim ana As T_ANALYSIS )!2�7=R�/� Dim move As T_OPERATION �"'�[M�~Js Dim Matlab As MLApp.MLApp wA�$7�SWC Dim detNode As Long, detSurfNode As Long, anaSurfNode As Long 5��%���\K� Dim raysUsed As Long, nXpx As Long, nYpx As Long �3R<�r[3WP Dim irrad() As Double, imagData() As Double, reals() As Double, imags() As Double �%U{sn�\�V Dim z As Double, xMin As Double, xMax As Double, yMin As Double, yMax As Double �I%�r7�L�� Dim meanVal As Variant �>KuN�HuHu P1[.�[q/-e Set Matlab = CreateObject("Matlab.Application") Db Q�p�(W0 �,Jd�B��Vt ClearOutputWindow ��4A@H��R� .t�\J�@?�Z 'Find the node numbers for the entities being used. r5s{t4 ;Ch detNode = FindFullName("Geometry.Screen") lVT*�Ev{&. detSurfNode = FindFullName("Geometry.Screen.Surf 1") �2?�%*UxcO anaSurfNode = FindFullName("Analysis Surface(s).Analysis 1") e=VSO!(r�Y y��`zdI_!7 'Load the properties of the analysis surface being used. I*T�TD]e'X LoadAnalysis anaSurfNode, ana ]\fHc"�/�� o(e(|�k
�{ 'Move the detector custom element to the desired z position. (Z>?�\iNJ� z = 50 y/S�3ZJ�Y� GetOperation detNode,1,move 'Gre�j8��� move.Type = "Shift" xMk�>r1U�d move.val3 = z [,Rc&�7p~R SetOperation detNode,1,move gH(#<f@�ZI Print "New screen position, z = " &z ys[xR=nbD� �1;~s�NSTo 'Update the model and trace rays. Fy5�:�|C�N EnableTextPrinting (False) u�|wl�;+.� Update T^^7@\v�DI DeleteRays ���t �}4� TraceCreateDraw Wy-_�}wqHg EnableTextPrinting (True) 4�Mg%�}/cC Y�`2��2DFO 'Calculate the irradiance for rays on the detector surface. eMd��P4<�u raysUsed = Irradiance( detSurfNode, -1, ana, irrad ) $&.(7F��^D Print raysUsed & " rays were included in the irradiance calculation. -_9�*BvS]R �>�uZ�c#Zt 'When using real number data to send to MATLAB, it is simplest to use PutWorkspaceData. .�^A4w;jPU Matlab.PutWorkspaceData("irradiance_pwd","base",irrad) �&V
axv$v} vW�mt<E�|e 'PutFullMatrix is more useful when actually having complex data such as with Q3i\`-kbb 'scalar wavefield, for example. Note that the scalarfield array in MATLAB �JG�^G�EJ 'is a complex valued array. pS��Q�X��� raysUsed = ScalarField ( detSurfNode, -1, ana, reals, imags ) jjH2!�R]^> Matlab.PutFullMatrix("scalarfield","base", reals, imags ) r��Y�t|[Pk Print raysUsed & " rays were included in the scalar field calculation." wclj9�&�k� 2|?U%YrHWs 'Calculate plot characteristics from the T_ANALYSIS structure. This information is used N}/V2�K�]Q 'to customize the plot figure. ���Y!]a*== xMin = ana.posX+ana.AcellX*(ana.Amin-0.5) p}==a�NZK� xMax = ana.posX+ana.AcellX*(ana.Amax+0.5) h(�@�.bt#� yMin = ana.posY+ana.BcellY*(ana.Bmin-0.5) kJB:=iq/x$ yMax = ana.posY+ana.BcellY*(ana.Bmax+0.5) j{FR�D8]V
nXpx = ana.Amax-ana.Amin+1 \h[*o�eh� nYpx = ana.Bmax-ana.Bmin+1 en|~`]H��F fC�u;n�%
� 'Plot the data in Matlab with some parameters calculated from the T_ANALYSIS 5�+{�o�Qs_ 'structure. Set the axes labels, title, colorbar and plot view. j8�Q��_s/n Matlab.Execute( "figure; surf(linspace("&xMin &","&xMax &","&nXpx &"),linspace("& yMin &"," & yMax & "," & nYpx & "),irradiance_pwd, 'EdgeColor', 'None');" ) p/0�dtnXa( Matlab.Execute( "xlabel('X Position (" & GetUnits() & ")')" ) : Matlab.Execute( "ylabel('Y Position (" & GetUnits() & ")')" ) : Matlab.Execute( "zLabel( 'Irradiance' )" ) |a��]���)o Matlab.Execute( "title('Detector Irradiance')" ) w�G:Rv�gX} Matlab.Execute( "colorbar" ) mW)kW�uO�O Matlab.Execute( "view(2)" ) GBZ�u��<t/ Print "" Z~�(X[Zl
: Print "Matlab figure plotted..." �f8K�0/��z *l���Z V3F 'Have Matlab calculate and return the mean value. U�7U&^s6` Matlab.Execute( "irrad = mean(mean(irradiance_pwd));" ) v"
#�8^�q� Matlab.GetWorkspaceData( "irrad", "base", meanVal ) z�E�8_3�UC Print "The mean irradiance value calculated by Matlab is: " & meanVal IX
6� �jb" �?2o�+x D2 'Release resources ^3�vI�
�NF Set Matlab = Nothing Jon�3ywd1Y �dL'�oIB�p End Sub 9q��i|)!!L xv>8rW(Np5 最后在Matlab画图如下: A+Un(tU2�( '_DB0�_Dp� 并在工作区保存了数据: 9:%�')M&Q� jEx8G3E��L  �Z�! /_H($
Z8�h;3��Ek 与FRED中计算的照度图对比: =v|$d�D�z� DI-&P3�iGx 例: ��?�^:5��` �^Hf?["m^@ 此例系统数据,可按照此数据建立模型 /!5cf;kl*l
`��:ZaT('h 系统数据 �F{ 4k2Izr
FN26�f*�/� .j)DE}�[q> 光源数据: YJz06E1 -9 Type: Laser Beam(Gaussian 00 mode) 7�/]�R���a Beam size: 5; "�� 5Pq�vi Grid size: 12; ~.e~Y�I80� Sample pts: 100; \qW^AD(it< 相干光; yHf^6��|$8 波长0.5876微米, �S_�AN.�8T 距离原点沿着Z轴负方向25mm。 u1'l�4VgT NP�\/9
8|1 对于执行代码,如果想保存图片,请在开始之前一定要执行如下代码: aY,��'^S�� enableservice('AutomationServer', true) �UY� *Z�`$ enableservice('AutomationServer') ;x|?���N�*
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