コード例 #1
0
ファイル: RTM_lil_toolbox.py プロジェクト: Ellutze/sysi
def initiate(RTMF, lPath_auto):
    #Open the initial file saved before flow rate assignment.
    var1 = VCmd.Activate(1, r"VHostManagerPlugin.VhmInterface", r"VhmCommand")
    var2 = VCmd.Activate(1, r"VSessionManager.Command", r"SessionCommand")
    var3 = VCmd.Activate(1, r"VToolKit.VSectionCutInterface", r"VEAction")
    ret = VE.ChangeContext(r"Visual-RTM")
    VE.SetActiveWindow(r"p1w1")
    ret = VExpMngr.LoadFile(
        lPath_auto + "\\pamrtm\\mainSimFiles\\" + RTMF + "_flowUnassigned.vdb",
        0)
    VE.SetCurrentPage(1)
    ret = VE.ModelChange("M  @0")
    return (var1)
コード例 #2
0
def getInit(RTMfile):
    #This is typically run before all the other functions in here to initiate
    #communication with the model.
    var1=VCmd.Activate( 1, r"VHostManagerPlugin.VhmInterface", r"VhmCommand" )
    var2=VCmd.Activate( 1, r"VSessionManager.Command", r"SessionCommand" )
    var3=VCmd.Activate( 1, r"VToolKit.VSectionCutInterface", r"VEAction" )
    ret=VE.ChangeContext( r"Visual-RTM" )
    VE.SetActiveWindow( r"p1w1" )
    ret=VExpMngr.LoadFile( r"D:\\IDPcode\\pamrtm\\mainSimFiles\\"+RTMfile+".vdb", 0 )
    VE.SetCurrentPage( 1 )
    ret=VE.ModelChange( "M  @0" )
    VScn.ExecutePythonInterpeter( r"C:\Program Files\ESI Group\Visual-Environment\15.0\COMMON\Resources\VisualProcessExec\user_scripts\CompositeLoadResult.py" )
    import Viewer
    Viewer.SetTHPdisplayOnOff( 0 )
    VE.Command( r">>> fpmmarkersize(3)" )
    Viewer.SetLogConstantInfo( 0.000000000100000000000000003643 , 1 )
コード例 #3
0
def initiate(filename, lPath_auto):
    #Basic settings and opening mesh-file.

    #__________________ VhmCommand BEGIN __________________
    var1 = VCmd.Activate(1, r"VHostManagerPlugin.VhmInterface", r"VhmCommand")
    #__________________ SessionCommand BEGIN __________________
    var2 = VCmd.Activate(1, r"VSessionManager.Command", r"SessionCommand")
    #__________________ VEAction BEGIN __________________
    var3 = VCmd.Activate(1, r"VToolKit.VSectionCutInterface", r"VEAction")
    ret = VE.ChangeContext(r"Visual-RTM")  #¬¬¬¬¬¬¬¬¬¬¬¬¬¬¬remove evenetually
    VE.SetActiveWindow(r"p1w1")
    ret = VE.ChangeContext(r"Visual-Mesh")
    ret = VE.ChangeSkin(r"General")
    #__________________ ModelingTolerance BEGIN __________________
    var4 = VCmd.Activate(0, r"VMeshModeler.VmmICommandGui",
                         r"ModelingTolerance")
    VCmd.SetIntValue(var4, r"ScaleModelToMMSystem", 0)
    VCmd.SetIntValue(var4, r"KeepFailedCADEntities", 1)
    VCmd.SetIntValue(var4, r"CheckUnitFlagAndNameToScaleModel", 0)
    VCmd.SetIntValue(var4, r"KeepBlankCADEntities", 1)
    VCmd.SetIntValue(var4, r"CleanSelfIntersectingSurfaces", 1)
    VCmd.SetIntValue(var4, r"StitchSurfaces", 1)
    VCmd.SetIntValue(var4, r"SurfaceStitchToleranceOption", 1)
    VCmd.SetIntValue(var4, r"CreatePartsByColor", 0)
    VCmd.SetIntValue(var4, r"ReadSubFigAsPartsOrAsm", 4)
    VCmd.SetIntValue(var4, r"RemovePointsAndCurves", 0)
    VCmd.SetIntValue(var4, r"CadAccuracyLevel", 0)
    VCmd.SetIntValue(var4, r"MergeLoopCurves", 1)
    VCmd.Accept(var4)
    VCmd.Quit(var4)
    #__________________ ModelingTolerance END __________________
    #__________________ ModelingTolerance BEGIN __________________
    var5 = VCmd.Activate(0, r"VMeshModeler.VmmICommandGui",
                         r"ModelingTolerance")
    VCmd.Quit(var5)
    #__________________ ModelingTolerance END __________________
    ret = VExpMngr.LoadFile(
        lPath_auto + "\\catiafiles\\meshfiles\\" + filename, 4)
    VE.SetCurrentPage(1)

    with open(lPath_auto + "\\pamrtm\\mainSimFiles\\currentProgress.txt",
              "a") as text_file:
        text_file.write("initiated\n")
    return (var1)
コード例 #4
0
#automatically adjusted path
lPath_auto = r'D:\sysi'

with open(lPath_auto + "\\pamrtm\\mainsimfiles\\currentProgress.txt",
          "a") as text_file:
    text_file.write("The initial simulation starts here:")

#input file - instead function arguments - which are not possible due to the command line passing
fl = open(lPath_auto + "\\temporary\\RTM_in.txt", "rt")
flstr = fl.read()
RTMfile = flstr.split("---")[1]

#__________________ SessionCommand BEGIN __________________
var2 = VCmd.Activate(1, r"VSessionManager.Command", r"SessionCommand")
#__________________ VEAction BEGIN __________________
var3 = VCmd.Activate(1, r"VToolKit.VSectionCutInterface", r"VEAction")
ret = VE.ChangeContext(r"Visual-RTM")
VE.SetActiveWindow(r"p1w1")
ret = VExpMngr.LoadFile(
    lPath_auto + "\\pamrtm\\mainsimfiles\\" + RTMfile + ".vdb", 0)
VE.SetCurrentPage(1)
ret = VE.ModelChange("M  @0")

var4 = VCmd.Activate(1, r"VRTMUtilities.VRTMInterface", r"SolverManager")
ret = VCmd.ExecuteCommand(var4, r"RUN")
ret = VCmd.ExecuteCommand(var4, r"OpenLogFile")
VScn.ExecutePythonInterpeter(
    r"C:\Program Files\ESI Group\Visual-Environment\15.0\COMMON\Resources\VisualProcessExec\user_scripts\CompositeLoadResult.py"
)
コード例 #5
0
def asnSurf(var1, INITIAL, lPath_auto):
    #For each section create a list of surfaces that correspond to it
    #assign it as new part.
    BCs = np.loadtxt(open(lPath_auto + "\\temporary\\braidsegments.csv", "rb"),
                     delimiter=",")
    if INITIAL == 0:
        surf_mat = np.load(lPath_auto + "\\temporary\\RTM_surfaces.npy")
    elif INITIAL == 1:
        surf_mat = np.load(lPath_auto + "\\temporary\\RTM_surfaces_2.npy")
    else:
        print("something went horribly wrong")
    with open(lPath_auto + "\\pamrtm\\mainSimFiles\\currentProgress.txt",
              "a") as text_file:
        text_file.write("yupgogoyup\n")

    refPTS = np.loadtxt(open("D:\\sysi\\temporary\\secPTS.csv", "rb"),
                        delimiter=",")
    secVECz = np.loadtxt(open("D:\\sysi\\temporary\\secVECz.csv", "rb"),
                         delimiter=",")
    secVECy = np.loadtxt(open("D:\\sysi\\temporary\\secVECy.csv", "rb"),
                         delimiter=",")
    secPTS = refPTS
    ret = VE.ChangeContext(r"Visual-RTM")
    VE.SetActiveWindow(r"p1w1")

    #The points section reference points are provided in local coordinate systems.
    #Therefore the surface coordinate systems have to be also translated,
    #globalToLocal function is used.
    with open(lPath_auto + "\\pamrtm\\mainSimFiles\\currentProgress.txt",
              "a") as text_file:
        text_file.write("yupyup\n")
    step = refPTS[0, 2]
    u = 0
    while u < np.size(surf_mat, 0):
        uu = 0
        while uu < np.size(refPTS, 0):
            if refPTS[uu, 2] - step <= surf_mat[u, 3] <= refPTS[uu, 2] + step:
                secVECx = np.cross(secVECy[uu, :], secVECz[uu, :])
                cSYS2 = np.array(
                    ([secVECx[0], secVECx[1], secVECx[2]
                      ], [secVECy[uu, 0], secVECy[uu, 1], secVECy[uu, 2]],
                     [secVECz[uu, 0], secVECz[uu, 1], secVECz[uu, 2]]))
                point1 = np.array([0, 0, 0])
                point2 = np.array(
                    [secPTS[uu, 0], secPTS[uu, 1], secPTS[uu, 2]])
                cSYS1 = np.array(([1, 0, 0], [0, 1, 0], [0, 0, 1]))
                GCP = np.array(
                    [surf_mat[u, 1], surf_mat[u, 2], surf_mat[u, 3]])
                kopyto = GlobalToLocal(point1, point2, cSYS1, cSYS2, GCP)
                surf_mat[u, 1] = kopyto[0]
                surf_mat[u, 2] = kopyto[1]
            uu = uu + 1
        u = u + 1
    np.savetxt(lPath_auto + "\\Temporary\\verify_toolbox.csv",
               surf_mat,
               delimiter=",")
    with open(lPath_auto + "\\pamrtm\\mainSimFiles\\currentProgress.txt",
              "a") as text_file:
        text_file.write("eaiho\n")

    #Match surfaces to parts.
    i = 0
    US = []
    while i < 240:
        ii = 0

        stringASN = "  MFace  "
        while ii < np.size(surf_mat, 0):
            if (BCs[i, 2] < surf_mat[ii, 1] < BCs[i, 1]) and (
                    BCs[i, 4] < surf_mat[ii, 2] <
                    BCs[i, 3]) and (BCs[i, 6] < surf_mat[ii, 3] < BCs[i, 5]):
                stringASN = stringASN + r"@0/@" + str(int(surf_mat[ii,
                                                                   0])) + " "
                surf_mat = np.delete(surf_mat, (ii), axis=0)
                ii = ii - 1
            ii = ii + 1
        with open(lPath_auto + "\\pamrtm\\mainSimFiles\\currentProgress.txt",
                  "a") as text_file:
            text_file.write("ssssss" + stringASN + "\n")
        if stringASN == "  MFace  ":
            US.append(BCs[i, 0])
        VE.SetCurrentPage(1)
        ret = VE.ModelChange("M  @0")
        lst1_count, lst1 = VScn.List("  P 10000 ")
        VCmd.SetObjectArrayValue(var1, r"GraphicSelection", lst1_count, lst1)
        ret = VCmd.ExecuteCommand(var1, r"EndSelection")
        VCmd.SetStringValue(var1, r"TargetName", r"Surface")
        lst1_count, lst1 = VScn.List("  MFace  @0/@1026 ")
        VCmd.SetObjectArrayValue(var1, r"GraphicSelection", lst1_count, lst1)
        lst1_count, lst1 = VScn.List(stringASN)
        VCmd.SetObjectArrayValue(var1, r"GraphicSelection", lst1_count, lst1)
        lst1_count, lst1 = VScn.List(stringASN)
        VMaterial.VMeCadDataMove(lst1_count, lst1, NULL)
        VExpMngr.RefreshExplorer(r"Parts")
        VExpMngr.RefreshExplorer(r"Elements")
        i = i + 1

    with open(lPath_auto + "\\temporary\\RTM_surf_matRR.txt",
              "w") as text_file:
        text_file.write(str(surf_mat))
    with open(lPath_auto + "\\pamrtm\\mainSimFiles\\currentProgress.txt",
              "a") as text_file:
        text_file.write("surfaces assigned\n")

    VExpMngr.ExportFile(lPath_auto + "\\pamrtm\\mainSimFiles\\vcelkamaja.vdb",
                        0)

    #Below adds flow mesh surface if already available.
    if INITIAL == 1:
        with open(lPath_auto + "\\pamrtm\\mainSimFiles\\currentProgress.txt",
                  "a") as text_file:
            text_file.write("flow mesh surface 1\n")
        FM_surf = np.load(r"D:\\sysi\\temporary\\FM_surfaces.npy")

        ret = VE.ChangeContext(r"Visual-RTM")
        VE.SetActiveWindow(r"p1w1")
        ii = 0
        stringASN = "  MFace  "
        while ii < len(FM_surf):

            stringASN = stringASN + r"@0/@" + str(int(FM_surf[ii, 0])) + " "

            ii = ii + 1
            #stringASN = stringASN+r""""  )""
        VE.SetCurrentPage(1)
        ret = VE.ModelChange("M  @0")
        lst1_count, lst1 = VScn.List("  P 10000 ")
        VCmd.SetObjectArrayValue(var1, r"GraphicSelection", lst1_count, lst1)
        ret = VCmd.ExecuteCommand(var1, r"EndSelection")
        VCmd.SetStringValue(var1, r"TargetName", r"Surface")
        lst1_count, lst1 = VScn.List(stringASN)
        VCmd.SetObjectArrayValue(var1, r"GraphicSelection", lst1_count, lst1)
        VMaterial.VMeCadDataMove(lst1_count, lst1, NULL)
        VExpMngr.RefreshExplorer(r"Parts")
        VExpMngr.RefreshExplorer(r"Elements")
        with open(lPath_auto + "\\pamrtm\\mainSimFiles\\currentProgress.txt",
                  "a") as text_file:
            text_file.write("flow mesh surfaces assigned\n")
        VExpMngr.ExportFile(
            lPath_auto + "\\pamrtm\\mainSimFiles\\broukpytlik.vdb", 0)

    return (US)
コード例 #6
0
def surfaceLocator(mesh_info, lPath_auto):

    #This function generates matrix of surfaces with their approximate 3D position.
    #The 3D position is recorded in global coordinate systems, as per CATIA .iges.
    iy = 0
    surf_mat = np.zeros([1, 4])
    temp_mat = np.zeros([1, 4])
    #Allel is the number of expected surfaces based on CATIA mesh generation.
    allel = mesh_info[0] * mesh_info[1]
    while iy < (allel):
        #__________________ TopologyMesh BEGIN __________________
        var444 = VCmd.Activate(1, r"VMeshModeler.VmmICommandGui",
                               r"TopologyMesh")
        VCmd.SetObjectValue(var444, r"CurrentModel", "M  @0")
        VCmd.SetDoubleValue(var444, r"ElementSize", 10)
        ret = VCmd.ExecuteCommand(var444, r"SetElementSizeToAllEdges")
        VCmd.SetObjectValue(var444, r"SplitEdge1", NULL)
        lst1_count, lst1 = VScn.List("  MFace  @0/@" + str(iy) + " ")
        VCmd.SetObjectArrayValue(var444, r"CreateMesh", lst1_count, lst1)
        VCmd.SetObjectValue(var444, r"SplitEdge1", NULL)
        VCmd.Cancel(var444)
        #Generate .inp file for the single meshed surface.
        VistaDb.ModelSetExportKeyWordOrder("M  @0", 0)
        VistaDb.ModelSetExportStateAsNoInclude("M  @0", 1)
        VExpMngr.ExportFile(
            lPath_auto + "\\pamrtm\\mainsimfiles\\240\\" + str(iy) + r".inp",
            34)
        #Delete the mesh, preparing it for the next element export.
        #__________________ TopologyMesh BEGIN __________________
        var444 = VCmd.Activate(1, r"VMeshModeler.VmmICommandGui",
                               r"TopologyMesh")
        VCmd.SetObjectValue(var444, r"CurrentModel", "M  @0")
        VCmd.SetObjectValue(var444, r"SplitEdge1", NULL)
        lst1_count, lst1 = VScn.List("  MFace  @0/@" + str(iy) + " ")
        VCmd.SetObjectArrayValue(var444, r"DeleteMesh", lst1_count, lst1)
        VCmd.SetObjectValue(var444, r"SplitEdge1", NULL)
        VCmd.Cancel(var444)

        #Next section processes the exported input file.
        #The nodes exported are collected, and their coordinates averaged.
        filer = str(iy) + ".inp"
        eex = open(lPath_auto + "\\pamrtm\\mainsimfiles\\240\\" + filer, "rt")
        ff = eex.read()
        ff = ff.split("*NODE")[1]
        ff = ff.split("*")[0]
        coord_mat = np.zeros([1, 4])
        temp_mat = np.zeros([1, 4])
        iiy = 0
        #Turnign the input file into matrix.
        coms = ff.count(',')
        while iiy < coms:
            if iiy != 0:
                ex = ff.split(',')[iiy]
                ex = float(ex.split()[1])
            else:
                ex = ff.split(',')[iiy]
            #node number
            temp_mat[0, 0] = float(ex)
            ex = ff.split(',')[iiy + 1]
            #x value
            temp_mat[0, 1] = float(ex)
            ex = ff.split(',')[iiy + 2]
            #y value
            temp_mat[0, 2] = float(ex)
            if iiy != coms - 3:
                ex = ff.split(',')[iiy + 3]
                ex = float(ex.split()[0])
            else:
                ex = ff.split(',')[iiy + 3]
                ex = float(ex)
            #z value
            temp_mat[0, 3] = float(ex)
            coord_mat = np.concatenate((coord_mat, temp_mat), axis=0)

            #add to coord mat matrix
            iiy = iiy + 3
        #delete the first row of coord mat
        coord_mat = np.delete(coord_mat, (0), axis=0)
        #average the matrix, input to surf_mat
        #surface number:
        temp_mat[0, 0] = iy
        #x value
        temp_mat[0, 1] = np.average(coord_mat[:, 1])
        #y value
        temp_mat[0, 2] = np.average(coord_mat[:, 2])
        #z value
        temp_mat[0, 3] = np.average(coord_mat[:, 3])
        surf_mat = np.concatenate((surf_mat, temp_mat), axis=0)
        iy = iy + 1
        eex.close()
    surf_mat = np.delete(surf_mat, (0), axis=0)
    #eex.close()

    #Just a marker of progress for log file.
    with open(lPath_auto + "\\pamrtm\\mainsimfiles\\currentProgress.txt",
              "a") as text_file:
        text_file.write("chopchop\n")

    #Delete current model to prevent any remaining mesh settings to affect
    #mesh in subsequent simulation.
    VE.SetCurrentPage(1)
    ret = VE.ModelChange("M  @0")
    ret = VE.ModelDestroy("M  @0")
    VE.SetCurrentPage(1)
    VE.SetCurrentPage(1)
    VE.SetActiveWindow(r"p1w1")
    VE.NewSession()

    #Safe the surface matrix.
    np.save(lPath_auto + "\\temporary\\RTM_surfaces.npy", surf_mat)

    #Delete the input files.
    filelist = [
        f for f in os.listdir(lPath_auto + "\\pamrtm\\mainsimfiles\\240\\")
        if f.endswith(".inp")
    ]
    for f in filelist:
        os.remove(os.path.join(lPath_auto + "\\pamrtm\\mainsimfiles\\240\\",
                               f))