queries/xrayimage.py# ----------------------------------------------------------------------------
# CLASSES: nightly
#
# Test Case: xrayimage.py
# Tests: queries - xray imagel
#
# Programmer: Eric Brugger
# Date: July 13, 2010
#
# Modifications:
# Kathleen Bonnell, Thu Jul 14 10:44:55 PDT 2011
# Change most of code to use python dictionary to pass query parameters.
# First call to 'Query' still tests old-style argument passing.
# Second call to 'Query' creates a Python dictionary from scratch and
# uses that. Prior to third call to Query, retrieve default dictionary via
# GetQueryParameters. All subsequent calls to Query modify that dictionary
# object as necessary and pass it.
#
# Kathleen Biagas, Wed Oct 17 14:25:05 PDT 2012
# Show usage of new 'up_vector' parameter.
#
# ----------------------------------------------------------------------------
import os
#
# Test a single block structured grid with scalars.
#
OpenDatabase(silo_data_path("curv3d.silo"))
AddPlot("Pseudocolor", "d")
DrawPlots()
# old style argument passing
Query("XRay Image", "png", 1, 0.0, 2.5, 10.0, 0, 0, 10., 10., 300, 300, ("d", "p"))
if not os.path.isdir(out_path("current","queries")):
os.mkdir(out_path("current","queries"))
out_base = out_path("current","queries","xrayimage")
if not os.path.isdir(out_base):
os.mkdir(out_base)
os.rename("output00.png", out_path(out_base,"xrayimage00.png"))
Test("xrayimage00", 0, 1)
s = GetQueryOutputString()
TestText("xrayimage01", s)
#
# Test a multi block structured grid with an array variable.
#
DefineScalarExpression("d1", 'recenter(d, "zonal")')
DefineScalarExpression("p1", 'recenter(p, "zonal")')
DefineArrayExpression("da", "array_compose(d1,d1)")
DefineArrayExpression("pa", "array_compose(p1,p1)")
DeleteAllPlots()
OpenDatabase(silo_data_path("multi_curv3d.silo"))
AddPlot("Pseudocolor", "d")
DrawPlots()
#create our own dictionary
params = dict(output_type="png", divide_emis_by_absorb=1, origin=(0.0, 2.5, 10.0), up_vector=(0, 1, 0), theta=0, phi=0, width = 10., height=10., image_size=(300, 300), vars=("da", "pa"))
Query("XRay Image", params)
os.rename("output00.png", out_path(out_base,"xrayimage02.png"))
os.rename("output01.png", out_path(out_base,"xrayimage03.png"))
Test("xrayimage02", 0, 1)
Test("xrayimage03", 0, 1)
s = GetQueryOutputString()
TestText("xrayimage04", s)
#
# Test a 2d structured grid with scalars.
#
DeleteAllPlots()
OpenDatabase(silo_data_path("curv2d.silo"))
AddPlot("Pseudocolor", "d")
DrawPlots()
#retreive default query parameters
params = GetQueryParameters("XRay Image")
#modify as necessary
params['image_size'] = (300, 300)
params['divide_emis_by_absorb'] = 1
params['width'] = 10.
params['height'] = 10.
params['vars'] = ("d", "p")
Query("XRay Image", params)
os.rename("output00.png", out_path(out_base,"xrayimage05.png"))
Test("xrayimage05", 0, 1)
s = GetQueryOutputString()
TestText("xrayimage06", s)
params['theta'] = 90
params['phi'] = 0
Query("XRay Image", params)
os.rename("output00.png", out_path(out_base,"xrayimage07.png"))
Test("xrayimage07", 0, 1)
s = GetQueryOutputString()
TestText("xrayimage08", s)
#
# Test an unstructured grid with scalars.
#
DefineScalarExpression("u1", 'recenter(((u+10.)*0.01), "zonal")')
DefineScalarExpression("v1", 'recenter(((v+10.)*0.01*matvf(mat1,1)), "zonal")')
DefineScalarExpression("v2", 'recenter(((v+10.)*0.01*matvf(mat1,2)), "zonal")')
DefineScalarExpression("v3", 'recenter(((v+10.)*0.01*matvf(mat1,3)), "zonal")')
DefineScalarExpression("v4", 'recenter(((v+10.)*0.01*matvf(mat1,4)), "zonal")')
DefineScalarExpression("w1", 'recenter(((w+10.)*0.01), "zonal")')
DeleteAllPlots()
OpenDatabase(silo_data_path("globe.silo"))
AddPlot("Pseudocolor", "u")
DrawPlots()
# Do tets.
params['theta'] = 0
params['phi'] = 0
params['width'] = 1.
params['height'] = 1.
params['vars'] = ("w1", "v1")
Query("XRay Image", params)
os.rename("output00.png", out_path(out_base,"xrayimage09.png"))
Test("xrayimage09", 0, 1)
s = GetQueryOutputString()
TestText("xrayimage10", s)
params['theta'] = 90
params['width'] = 4.
params['height'] = 4.
Query("XRay Image", params)
os.rename("output00.png", out_path(out_base,"xrayimage11.png"))
Test("xrayimage11", 0, 1)
s = GetQueryOutputString()
TestText("xrayimage12", s)
# Do pyramids.
params['theta'] = 0
params['vars'] = ("w1", "v2")
Query("XRay Image", params)
os.rename("output00.png", out_path(out_base,"xrayimage13.png"))
Test("xrayimage13", 0, 1)
s = GetQueryOutputString()
TestText("xrayimage14", s)
params['theta'] = 90
Query("XRay Image", params)
os.rename("output00.png", out_path(out_base,"xrayimage15.png"))
Test("xrayimage15", 0, 1)
s = GetQueryOutputString()
TestText("xrayimage16", s)
# Do wedges.
params['theta'] = 0
params['width'] = 8.
params['height'] = 8.
params['vars'] = ("w1", "v3")
Query("XRay Image", params)
os.rename("output00.png", out_path(out_base,"xrayimage17.png"))
Test("xrayimage17", 0, 1)
s = GetQueryOutputString()
TestText("xrayimage18", s)
params['theta'] = 90
params['width'] = 20.
params['height'] = 20.
Query("XRay Image", params)
os.rename("output00.png", out_path(out_base,"xrayimage19.png"))
Test("xrayimage19", 0, 1)
s = GetQueryOutputString()
TestText("xrayimage20", s)
# Do hexes.
params['theta'] = 0
params['vars'] = ("w1", "v4")
Query("XRay Image", params)
os.rename("output00.png", out_path(out_base,"xrayimage21.png"))
Test("xrayimage21", 0, 1)
s = GetQueryOutputString()
TestText("xrayimage22", s)
params['theta'] = 90
Query("XRay Image", params)
os.rename("output00.png", out_path(out_base,"xrayimage23.png"))
Test("xrayimage23", 0, 1)
s = GetQueryOutputString()
TestText("xrayimage24", s)
#
# Test with perspective.
#
DeleteAllPlots()
OpenDatabase(silo_data_path("multi_curv3d.silo"))
AddPlot("Pseudocolor", "d")
DrawPlots()
params = dict(output_type="png", divide_emis_by_absorb=1, focus=(0.0, 2.5, 15.0), view_up=(0., 1., 0.), normal=(0., 0., 1.), view_angle=30., parallel_scale = 16.0078, near_plane = -32.0156, far_plane = 32.0156, image_pan=(0., 0.), image_zoom = 2.4, perspective = 1, image_size=(300, 300), vars=("d", "p"))
Query("XRay Image", params)
os.rename("output00.png", out_path(out_base,"xrayimage25.png"))
Test("xrayimage25", 0, 1)
s = GetQueryOutputString()
TestText("xrayimage26", s)
#
# Test with background intensities.
#
DefineArrayExpression("wa", "array_compose(w1,w1)")
DefineArrayExpression("va", "array_compose(v4,v4)")
DeleteAllPlots()
OpenDatabase(silo_data_path("globe.silo"))
AddPlot("Pseudocolor", "u")
DrawPlots()
params = dict(output_type="png", divide_emis_by_absorb=1, theta=90., phi=0., width=20., height=20., image_size=(300, 300), vars=("wa", "va"), background_intensities=(0.05, 0.1))
Query("XRay Image", params)
os.rename("output00.png", out_path(out_base,"xrayimage27.png"))
os.rename("output01.png", out_path(out_base,"xrayimage28.png"))
Test("xrayimage27", 0, 1)
Test("xrayimage28", 0, 1)
s = GetQueryOutputString()
TestText("xrayimage29", s)
Exit()