Macro Deodatis 1996 Wind Simulation Points: Difference between revisions

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{{Macro
{{Macro
|Name=Macro Deodatis 1996 Wind Simulation Points
|Name=Macro Deodatis 1996 Wind Simulation Points
|Icon=Macro_Deodatis_1996_Wind_Simulation_Points.png
|Description=This macro create simulation point according to G. Deodatis 1996.
|Description=This macro create simulation point according to G. Deodatis 1996.
|Author=Koffi Daniel
|Author=LabRPS
|Version=1.0
|Version=1.0
|Date=2024-04-15
|Date=2024-04-15
Line 21: Line 20:
[https://github.com/LabRPS/LabRPS-macros/blob/master/WindLab/Deodatis1996/Deodatis1996_LocationDistribution.RPSMacro Get the code here!]
[https://github.com/LabRPS/LabRPS-macros/blob/master/WindLab/Deodatis1996/Deodatis1996_LocationDistribution.RPSMacro Get the code here!]


'''Macro Deodatis 1996 Wind Simulation Points.RPSMacro'''
'''Macro_Deodatis_1996_Wind_Simulation_Points.RPSMacro'''


{{MacroCode|code=
{{MacroCode|code=
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import WindLabObjects
import WindLabObjects


#install the WindLab plugin with all its plugged features
class Deodatis1996LocationDistribution():
installResuslt = WindLab.installPlugin("WindLabPlugin")
    def __init__(self):
        #install the WindLab plugin with all its plugged features
        installResuslt = WindLab.installPlugin("WindLabPlugin")


doc = LabRPS.newDocument()
        # create new document
        doc = LabRPS.newDocument()


# create new simulation with default name "Simulation"
        # create new simulation with default name "Simulation" in the above document
sim = WindLabObjects.makeSimulation(doc)
        sim = WindLabObjects.makeSimulation(doc)
      
      
# check if the simulation is successfully created
        # check if the simulation is successfully created
if not sim:
        if not sim:
    LabRPS.Console.PrintError("The simulation does not exist.\n")
            LabRPS.Console.PrintError("The simulation does not exist.\n")
            return None


# create new location distribution in the simulation called "Simulation"
        # create new location distribution in the simulation called "Simulation"
loc = WindLabObjects.makeFeature("SimulationPoints", "Simulation", "Location Distribution",  "General Distribution")
        loc = WindLabObjects.makeFeature("SimulationPoints", "Simulation", "Location Distribution",  "General Distribution")
      
      
# check if the created location distribution feature is null
        # check if the created location distribution feature is null
if not loc:
        if not loc:
    LabRPS.Console.PrintError("Error on creating the location distribution.\n")
            LabRPS.Console.PrintError("Error on creating the location distribution.\n")
            return None


v1 = vec(0, 0, 35)
        # set the coordinates of the simulation points
v2 = vec(0, 0, 40)
        v1 = vec(0, 0, 35000)
v3 = vec(0, 0, 140)
        v2 = vec(0, 0, 40000)
loc.Locations = [v1, v2, v3]
        v3 = vec(0, 0, 140000)
        loc.Locations = [v1, v2, v3]


# run the method "computeLocationCoordinateMatrixP3" of the feature and store the result.
        # run the method "computeLocationCoordinateMatrixP3" of the feature and store the result.
# Note that here, this method will be called for the active location distribution feature in case they are more than one
        locRes = sim.computeLocationCoordinateMatrixP3()
locRes = sim.computeLocationCoordinateMatrixP3()


if LabRPS.GuiUp:
        if LabRPS.GuiUp:
    import WindLabGui
            import WindLabGui
    #show the location coordinate in Alphaplot
            #show the location coordinate in Alphaplot
    WindLabGui.WindLabPythonPluginUtilities.showArray(sim.getSimulationData().numberOfSpatialPosition, 4, locRes)
            WindLabGui.WindLabPyTool.showArray(sim.getSimulationData().numberOfSpatialPosition, 4, locRes)
    loc.ViewObject.Document.activeView().viewAxonometric()
            loc.ViewObject.Document.activeView().viewAxonometric()
    loc.ViewObject.Document.activeView().fitAll()
            loc.ViewObject.Document.activeView().fitAll()


    import numpy
            import numpy
    import matplotlib.pyplot as plt
            import matplotlib.pyplot as plt
    arr = numpy.asarray(locRes)
            arr = numpy.asarray(locRes)
    fig, ax = plt.subplots()
            fig, ax = plt.subplots()
    fig.suptitle('Location Distribution')
            fig.suptitle('Location Distribution')
    ax.plot(arr[:,0], arr[:,3], 'o-')
            ax.plot(arr[:,0], arr[:,3], 'o-')
    ax.set_xlabel('Simulation Point Number')
            ax.set_xlabel('Simulation Point Number')
    ax.set_ylabel('Height (m)')
            ax.set_ylabel('Height (m)')
    ax.grid(True)
            ax.grid(True)
    plt.show()
            plt.show()
 
   
doc.recompute()
        doc.recompute()
 
Deodatis1996LocationDistribution()


}}
}}


{{clear}}
{{clear}}

Latest revision as of 13:58, 15 November 2024

Macro Deodatis 1996 Wind Simulation Points.png Macro Deodatis 1996 Wind Simulation Points

Description
This macro create simulation point according to G. Deodatis 1996.

Macro version: 1.0
Last modified: 2024-04-15
LabRPS version: All
Author: LabRPS
Author
LabRPS
Download
None
Links
Macro Version
1.0
Date last modified
2024-04-15
LabRPS Version(s)
All
Default shortcut
None
See also
Macro Deodatis 1996 Mean Wind Profile

This macro create simulation point according to G. Deodatis 1996. There are three simulation points created with WindLabFeatureLocationDistribution feature.

Deodatis1996WindSimulationPoints.png

Simulation Point Distribution

Points Heights‎

Script

You can find the source code on the following Github repository: Get the code here!

Macro_Deodatis_1996_Wind_Simulation_Points.RPSMacro

# -*- coding: utf-8 -*-
# (c) Koffi Daniel 2024

import LabRPS
from LabRPS import Vector as vec

import WindLab
import WindLabObjects

class Deodatis1996LocationDistribution():
    def __init__(self):
        #install the WindLab plugin with all its plugged features
        installResuslt = WindLab.installPlugin("WindLabPlugin")

        # create new document
        doc = LabRPS.newDocument()

        # create new simulation with default name "Simulation" in the above document
        sim = WindLabObjects.makeSimulation(doc)
    
        # check if the simulation is successfully created
        if not sim:
            LabRPS.Console.PrintError("The simulation does not exist.\n")
            return None

        # create new location distribution in the simulation called "Simulation"
        loc = WindLabObjects.makeFeature("SimulationPoints", "Simulation", "Location Distribution",  "General Distribution")
    
        # check if the created location distribution feature is null
        if not loc:
            LabRPS.Console.PrintError("Error on creating the location distribution.\n")
            return None

        # set the coordinates of the simulation points
        v1 = vec(0, 0, 35000)
        v2 = vec(0, 0, 40000)
        v3 = vec(0, 0, 140000)
        loc.Locations = [v1, v2, v3]

        # run the method "computeLocationCoordinateMatrixP3" of the feature and store the result.
        locRes = sim.computeLocationCoordinateMatrixP3()

        if LabRPS.GuiUp:
            import WindLabGui
            #show the location coordinate in Alphaplot
            WindLabGui.WindLabPyTool.showArray(sim.getSimulationData().numberOfSpatialPosition, 4, locRes)
            loc.ViewObject.Document.activeView().viewAxonometric()
            loc.ViewObject.Document.activeView().fitAll()

            import numpy
            import matplotlib.pyplot as plt
            arr = numpy.asarray(locRes)
            fig, ax = plt.subplots()
            fig.suptitle('Location Distribution')
            ax.plot(arr[:,0], arr[:,3], 'o-')
            ax.set_xlabel('Simulation Point Number')
            ax.set_ylabel('Height (m)')
            ax.grid(True)
            plt.show()
    
        doc.recompute()

Deodatis1996LocationDistribution()