def make_distribution_movie(cellids,
rotated,
inputDirectory,
outputDirectory,
outputFileName,
zoom=1.0,
viewNormal=[0.488281, 0.382966, -0.784167],
minThreshold=1e-18,
maxThreshold=1e37):
'''Makes a distribution movie of some given distribution data
Example usage:
make_distribution_movie(cellids=[18302, 19432, 19042], rotated=True, inputDirectory=\"/home/hannukse/meteo/stornext/field/vlasiator/2D/AAJ/silo_files/\", outputDirectory=\"/home/hannukse/MOVIES/\", outputFileName=\"testmovie\", zoom=0.8, viewNormal=[0.488281, 0.382966, -0.784167], minThreshold=1e-17, maxThreshold=1.2e37)
Note: viewNormal determines the angle of view (straight from visit)
'''
if len(viewNormal) != 3:
print "ERROR, INVALID VIEWNORMAL LENGTH, SHOULD BE 3"
return
for cell in sorted(cellids):
# OPTIONS
###########################################################
cellid = str(cell)
#databaseName = "localhost:/home/hannukse/meteo/lustre/tmp/hannuksela/AAM/velgrid.rotated." + cellid + ".*.silo database"
if rotated == True:
rotateFix = "rotated."
else:
rotateFix = ""
inputFileName = "velgrid." + rotateFix + cellid + ".*.silo"
databaseName = "localhost:" + inputDirectory + inputFileName + " database"
outputDir = outputDirectory
fileName = outputFileName + "_" + cellid + "_"
WIDTH = 3000
HEIGHT = 3000
# Threshold values:
# TODO: USE VLSV READER TO AUTOMATE THIS
minimumThreshold = minThreshold
maximumThreshold = maxThreshold
###########################################################
vis.OpenDatabase(databaseName, 0)
#Load settings
visSettings.load_visit_settings()
#Make a plot
vis.AddPlot("Pseudocolor", "avgs", 1, 1)
vis.SetActivePlots(0)
vis.AddOperator("Threshold", 1)
vis.ThresholdAtts = vis.ThresholdAttributes()
vis.ThresholdAtts.outputMeshType = 0
vis.ThresholdAtts.listedVarNames = ("default")
vis.ThresholdAtts.zonePortions = (1)
vis.ThresholdAtts.lowerBounds = (minimumThreshold)
vis.ThresholdAtts.upperBounds = (maximumThreshold)
vis.ThresholdAtts.defaultVarName = "avgs"
vis.ThresholdAtts.defaultVarIsScalar = 1
vis.SetOperatorOptions(vis.ThresholdAtts, 1)
vis.DrawPlots()
# Begin spontaneous state
vis.View3DAtts = vis.View3DAttributes()
vis.View3DAtts.viewNormal = (viewNormal[0], viewNormal[1],
viewNormal[2])
vis.View3DAtts.focus = (-634.56, 91.3781, -13.7891)
vis.View3DAtts.viewUp = (-0.102795, 0.917551, 0.3841)
vis.View3DAtts.viewAngle = 30
vis.View3DAtts.parallelScale = 1.45614e+06
vis.View3DAtts.nearPlane = -2.91228e+06
vis.View3DAtts.farPlane = 2.91228e+06
vis.View3DAtts.imagePan = (0, 0)
vis.View3DAtts.imageZoom = zoom
vis.View3DAtts.perspective = 1
vis.View3DAtts.eyeAngle = 2
vis.View3DAtts.centerOfRotationSet = 0
vis.View3DAtts.centerOfRotation = (-634.56, 91.3781, -13.7891)
vis.View3DAtts.axis3DScaleFlag = 0
vis.View3DAtts.axis3DScales = (1, 1, 1)
vis.View3DAtts.shear = (0, 0, 1)
vis.SetView3D(vis.View3DAtts)
# End spontaneous state
vis.ViewCurveAtts = vis.ViewCurveAttributes()
vis.ViewCurveAtts.domainCoords = (0, 1)
vis.ViewCurveAtts.rangeCoords = (0, 1)
vis.ViewCurveAtts.viewportCoords = (0.2, 0.95, 0.15, 0.95)
vis.ViewCurveAtts.domainScale = vis.ViewCurveAtts.LINEAR # LINEAR, LOG
vis.ViewCurveAtts.rangeScale = vis.ViewCurveAtts.LINEAR # LINEAR, LOG
vis.SetViewCurve(vis.ViewCurveAtts)
vis.View2DAtts = vis.View2DAttributes()
vis.View2DAtts.windowCoords = (0, 1, 0, 1)
vis.View2DAtts.viewportCoords = (0.2, 0.95, 0.15, 0.95)
vis.View2DAtts.fullFrameActivationMode = vis.View2DAtts.Auto # On, Off, Auto
vis.View2DAtts.fullFrameAutoThreshold = 100
vis.View2DAtts.xScale = vis.View2DAtts.LINEAR # LINEAR, LOG
vis.View2DAtts.yScale = vis.View2DAtts.LINEAR # LINEAR, LOG
vis.View2DAtts.windowValid = 0
vis.SetView2D(vis.View2DAtts)
vis.View3DAtts = vis.View3DAttributes()
vis.View3DAtts.viewNormal = (viewNormal[0], viewNormal[1],
viewNormal[2])
vis.View3DAtts.focus = (-634.56, 91.3781, -13.7891)
vis.View3DAtts.viewUp = (-0.102795, 0.917551, 0.3841)
vis.View3DAtts.viewAngle = 30
vis.View3DAtts.parallelScale = 1.45614e+06
vis.View3DAtts.nearPlane = -2.91228e+06
vis.View3DAtts.farPlane = 2.91228e+06
vis.View3DAtts.imagePan = (0, 0)
vis.View3DAtts.imageZoom = zoom
vis.View3DAtts.perspective = 1
vis.View3DAtts.eyeAngle = 2
vis.View3DAtts.centerOfRotationSet = 0
vis.View3DAtts.centerOfRotation = (-634.56, 91.3781, -13.7891)
vis.View3DAtts.axis3DScaleFlag = 0
vis.View3DAtts.axis3DScales = (1, 1, 1)
vis.View3DAtts.shear = (0, 0, 1)
vis.SetView3D(vis.View3DAtts)
vis.ViewAxisArrayAtts = vis.ViewAxisArrayAttributes()
vis.ViewAxisArrayAtts.domainCoords = (0, 1)
vis.ViewAxisArrayAtts.rangeCoords = (0, 1)
vis.ViewAxisArrayAtts.viewportCoords = (0.15, 0.9, 0.1, 0.85)
vis.SetViewAxisArray(vis.ViewAxisArrayAtts)
for i in range(0, vis.GetDatabaseNStates()):
vis.SetTimeSliderState(i)
vis.SaveWindowAtts = vis.SaveWindowAttributes()
vis.SaveWindowAtts.outputToCurrentDirectory = 0
vis.SaveWindowAtts.outputDirectory = outputDir
vis.SaveWindowAtts.fileName = fileName
vis.SaveWindowAtts.family = 1
vis.SaveWindowAtts.format = vis.SaveWindowAtts.PNG # BMP, CURVE, JPEG, OBJ, PNG, POSTSCRIPT, POVRAY, PPM, RGB, STL, TIFF, ULTRA, VTK, PLY
vis.SaveWindowAtts.width = WIDTH
vis.SaveWindowAtts.height = HEIGHT
vis.SaveWindowAtts.screenCapture = 0
vis.SaveWindowAtts.saveTiled = 0
vis.SaveWindowAtts.quality = 100
vis.SaveWindowAtts.progressive = 0
vis.SaveWindowAtts.binary = 0
vis.SaveWindowAtts.stereo = 0
vis.SaveWindowAtts.compression = vis.SaveWindowAtts.PackBits # None, PackBits, Jpeg, Deflate
vis.SaveWindowAtts.forceMerge = 0
vis.SaveWindowAtts.resConstraint = vis.SaveWindowAtts.ScreenProportions # NoConstraint, EqualWidthHeight, ScreenProportions
vis.SaveWindowAtts.advancedMultiWindowSave = 0
vis.SetSaveWindowAttributes(vis.SaveWindowAtts)
vis.SaveWindow()
vis.DeleteActivePlots()
vis.CloseDatabase(databaseName)
# Make the movie:
framerate = 5
subprocess.call([
pythonLibDirectoryPath + pyVisitPath + "moviecompilescript.sh",
outputDir, fileName, framerate
])
def make_moving_frame_of_reference_movie(x_begin,
x_end,
y_begin,
y_end,
speed_x,
speed_y,
variable_name,
minThreshold,
maxThreshold,
input_directory,
input_file_name,
output_directory,
output_file_name,
color_table="hot_desaturated",
start_frame=-1,
end_frame=-1,
frame_skip_dt=1.0):
'''
Function for making a movie with a moving frame of reference.
:param x_begin The starting frame's beginning x-coordinate
:param x_end The starting frame's ending x-coordinate
:param y_begin The starting frame's beginning x-coordinate
:param y_end The starting frame's ending y-coordinate
:param speed_x The speed at which the frame moves in the x direction
:param speed_y The speed at which the frame moves in the y direction
:param variable_name Name of the variable (For ex \"rho\")
:param minThreshold Minimum threshold for the variable
:param maxThreshold Maximum threshold for the variable
:param input_directory The path to the directory where the files are
:param input_file_name Name of the files (For ex \"bulk.*.silo\")
:param output_directory Directory where to output the movie
:param output_file_name Name of the outputted file (For ex \"RHOMOVIE\")
:param color_table Name of the color table (\"hot_desaturated\" by default)
:param start_frame Starting frame for the movie (if -1, equals 0, -1 by default)
:param end_frame Ending frame for the movie (if -1, equals the last frame, -1 by default)
:param frame_skip_dt The number of seconds one skip in frame equals (1.0 by default) (Note: This may change depending on the run and should always be checked)
'''
# OPTIONS
#################################################################
# Input the boundary box for starting coordinates (Starting values)
startX = x_begin # The left x-boundary of the box
endX = x_end # The right x-boundary of the box
startY = y_begin # The bottom y-boundary of the box
endY = y_end # The upper y-boundary of the box
# Input frame properties
startFrame = start_frame # Note: if startFrame is set to -1 the start frame gets set to 0
endFrame = end_frame # Note: if endFrame is set to -1 the endFrame is automatically the number of frames in the database
frameInSeconds = frame_skip_dt # Set how many seconds one frame skip is
# Input speed in x and y direction
speedX = speed_x # Meters per second
speedY = speed_y # Meters per second
# Input variable
variableName = variable_name
minVariableValue = minThreshold
maxVariableValue = maxThreshold
colorTableName = color_table
# Input directory and file names
outputDir = output_directory # Set the output directory (Where .png s are saved)
outputFileName = output_file_name # The file names for the png files. These for ex. will be saved visit0000.png, visit0001.png, .
databaseName = "localhost:" + input_directory + input_file_name + " database" # For navigating to the silo files
# visitBinDirectory = "/usr/local/visit/bin" #Nevermind this
# Note: a slice of the plot in z-axis is taken automatically
#################################################################
# Launch visit
visitBinDirectory = '/home/htest/visit/bin'
vis.LaunchNowin(vdir=visitBinDirectory)
dx = speedX * frameInSeconds # Note: This is in meters per frame!
dy = speedY * frameInSeconds # Note: This is in meters per frame!
#Set up window and annotations
vis.OpenDatabase(databaseName, 0)
#Load settings
visSettings.load_visit_settings()
vis.AddPlot("Pseudocolor", variableName, 1, 1)
vis.SetActivePlots(0)
vis.PseudocolorAtts = vis.PseudocolorAttributes()
vis.PseudocolorAtts.legendFlag = 1
vis.PseudocolorAtts.lightingFlag = 1
vis.PseudocolorAtts.minFlag = 1
vis.PseudocolorAtts.maxFlag = 1
vis.PseudocolorAtts.centering = vis.PseudocolorAtts.Natural # Natural, Nodal, Zonal
vis.PseudocolorAtts.scaling = vis.PseudocolorAtts.Linear # Linear, Log, Skew
vis.PseudocolorAtts.limitsMode = vis.PseudocolorAtts.CurrentPlot # OriginalData, CurrentPlot
vis.PseudocolorAtts.min = minVariableValue
vis.PseudocolorAtts.max = maxVariableValue
vis.PseudocolorAtts.pointSize = 0.05
vis.PseudocolorAtts.pointType = vis.PseudocolorAtts.Point # Box, Axis, Icosahedron, Point, Sphere
vis.PseudocolorAtts.skewFactor = 1
vis.PseudocolorAtts.opacity = 1
vis.PseudocolorAtts.colorTableName = color_table
vis.PseudocolorAtts.invertColorTable = 0
vis.PseudocolorAtts.smoothingLevel = 0
vis.PseudocolorAtts.pointSizeVarEnabled = 0
vis.PseudocolorAtts.pointSizeVar = "default"
vis.PseudocolorAtts.pointSizePixels = 2
vis.PseudocolorAtts.lineStyle = vis.PseudocolorAtts.SOLID # SOLID, DASH, DOT, DOTDASH
vis.PseudocolorAtts.lineWidth = 0
vis.PseudocolorAtts.opacityType = vis.PseudocolorAtts.Explicit # Explicit, ColorTable
vis.SetPlotOptions(vis.PseudocolorAtts)
vis.SetActivePlots(0)
vis.AddOperator("Slice", 1)
vis.AddOperator("Threshold", 1)
vis.ThresholdAtts = vis.ThresholdAttributes()
vis.ThresholdAtts.outputMeshType = 0
vis.ThresholdAtts.listedVarNames = ("Boundary_type")
vis.ThresholdAtts.zonePortions = (1)
vis.ThresholdAtts.lowerBounds = (1)
vis.ThresholdAtts.upperBounds = (1)
vis.ThresholdAtts.defaultVarName = variableName
vis.ThresholdAtts.defaultVarIsScalar = 1
vis.SetOperatorOptions(vis.ThresholdAtts, 1)
vis.ThresholdAtts = vis.ThresholdAttributes()
vis.ThresholdAtts.outputMeshType = 0
vis.ThresholdAtts.listedVarNames = ("Boundary_type")
vis.ThresholdAtts.zonePortions = (1)
vis.ThresholdAtts.lowerBounds = (1)
vis.ThresholdAtts.upperBounds = (1)
vis.ThresholdAtts.defaultVarName = variableName
vis.ThresholdAtts.defaultVarIsScalar = 1
vis.SetOperatorOptions(vis.ThresholdAtts, 1)
vis.SetActivePlots(0)
vis.SliceAtts = vis.SliceAttributes()
vis.SliceAtts.originType = vis.SliceAtts.Intercept # Point, Intercept, Percent, Zone, Node
vis.SliceAtts.originPoint = (0, 0, 0)
vis.SliceAtts.originIntercept = 0
vis.SliceAtts.originPercent = 0
vis.SliceAtts.originZone = 0
vis.SliceAtts.originNode = 0
vis.SliceAtts.normal = (0, 0, 1)
vis.SliceAtts.axisType = vis.SliceAtts.ZAxis # XAxis, YAxis, ZAxis, Arbitrary, ThetaPhi
vis.SliceAtts.upAxis = (0, 1, 0)
vis.SliceAtts.project2d = 1
vis.SliceAtts.interactive = 1
vis.SliceAtts.flip = 0
vis.SliceAtts.originZoneDomain = 0
vis.SliceAtts.originNodeDomain = 0
vis.SliceAtts.meshName = "SpatialGrid"
vis.SliceAtts.theta = 0
vis.SliceAtts.phi = 90
vis.SetOperatorOptions(vis.SliceAtts, 1)
vis.DrawPlots()
if endFrame == -1:
endFrame = vis.TimeSliderGetNStates() - 1
if startFrame == -1:
startFrame = 0
# Iterate through frames
for i in xrange(startFrame, endFrame + 1):
vis.SetTimeSliderState(i)
frame = i - startFrame
vis.View2DAtts = vis.View2DAttributes()
vis.View2DAtts.windowCoords = (startX + frame * dx, endX + frame * dx,
startY + frame * dy, endY + frame * dy)
vis.View2DAtts.viewportCoords = (0.2, 0.95, 0.15, 0.95)
vis.View2DAtts.fullFrameActivationMode = vis.View2DAtts.Auto # On, Off, Auto
vis.View2DAtts.fullFrameAutoThreshold = 100
vis.View2DAtts.xScale = vis.View2DAtts.LINEAR # LINEAR, LOG
vis.View2DAtts.yScale = vis.View2DAtts.LINEAR # LINEAR, LOG
vis.View2DAtts.windowValid = 1
vis.SetView2D(vis.View2DAtts)
vis.SaveWindowAtts = vis.SaveWindowAttributes()
vis.SaveWindowAtts.outputToCurrentDirectory = 0
vis.SaveWindowAtts.outputDirectory = outputDir
vis.SaveWindowAtts.fileName = outputFileName
vis.SaveWindowAtts.family = 1
vis.SaveWindowAtts.format = vis.SaveWindowAtts.PNG # BMP, CURVE, JPEG, OBJ, PNG, POSTSCRIPT, POVRAY, PPM, RGB, STL, TIFF, ULTRA, VTK, PLY
vis.SaveWindowAtts.width = 1024
vis.SaveWindowAtts.height = 1024
vis.SaveWindowAtts.screenCapture = 0
vis.SaveWindowAtts.saveTiled = 0
vis.SaveWindowAtts.quality = 100
vis.SaveWindowAtts.progressive = 0
vis.SaveWindowAtts.binary = 0
vis.SaveWindowAtts.stereo = 0
vis.SaveWindowAtts.compression = vis.SaveWindowAtts.PackBits # None, PackBits, Jpeg, Deflate
vis.SaveWindowAtts.forceMerge = 0
vis.SaveWindowAtts.resConstraint = vis.SaveWindowAtts.ScreenProportions # NoConstraint, EqualWidthHeight, ScreenProportions
vis.SaveWindowAtts.advancedMultiWindowSave = 0
vis.SetSaveWindowAttributes(vis.SaveWindowAtts)
vis.SaveWindow()
vis.DeleteActivePlots()
vis.CloseDatabase(databaseName)
# Make the movie:
framerate = 7
subprocess.call([
pythonLibDirectoryPath + pyVisitPath + "moviecompilescript.sh",
outputDir, outputFileName, framerate
])