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!_TAG_PATTERN_LENGTH_LIMIT	96	/0 for no limit/
!_TAG_PROC_CWD	/home/anthony/Documents/Models/htrdr-wrapper/	//
!_TAG_PROGRAM_AUTHOR	Universal Ctags Team	//
!_TAG_PROGRAM_NAME	Universal Ctags	/Derived from Exuberant Ctags/
!_TAG_PROGRAM_URL	https://ctags.io/	/official site/
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B	src/htrdrPy/helperFunctions.py	/^    B = planck(T, wvl)$/;"	v
Data	src/htrdrPy/data.py	/^class Data:$/;"	c
Geometry	src/htrdrPy/geometry.py	/^class Geometry:$/;"	c
Postprocess	src/htrdrPy/postprocess.py	/^class Postprocess:$/;"	c
Script	src/htrdrPy/script.py	/^class Script:$/;"	c
T	src/htrdrPy/helperFunctions.py	/^    T = T.reshape((10,3,10))$/;"	v
T	src/htrdrPy/helperFunctions.py	/^    T = np.linspace(200, 1000, 300)$/;"	v
__calculateRoll	src/htrdrPy/geometry.py	/^    def __calculateRoll(self):$/;"	m	class:Geometry	file:
__calculateTopoFromLMDZinput	src/htrdrPy/data.py	/^    def __calculateTopoFromLMDZinput(self):$/;"	m	class:Data	file:
__call__	src/htrdrPy/script.py	/^    def __call__(self, data: Data):$/;"	m	class:Script
__cells2nodes	src/htrdrPy/data.py	/^    def __cells2nodes(self, cellCoord):$/;"	m	class:Data	file:
__compositeRGB	src/htrdrPy/postprocess.py	/^    def __compositeRGB(self):$/;"	m	class:Postprocess	file:
__extractSingleCell	src/htrdrPy/geometry.py	/^    def __extractSingleCell(self, data, altitude, latitude, longitude):$/;"	m	class:Geometry	file:
__imageRatio	src/htrdrPy/postprocess.py	/^    def __imageRatio(self, threshold=0):$/;"	m	class:Postprocess	file:
__init__	src/htrdrPy/data.py	/^    def __init__(self, radius, nTheta=None, nPhi=None, mass=None, gravity=None,$/;"	m	class:Data
__init__	src/htrdrPy/geometry.py	/^    def __init__(self, source=None, camera=None, image=None, volrad=None, case=None):$/;"	m	class:Geometry
__init__	src/htrdrPy/postprocess.py	/^    def __init__(self, script: Script=None, exposure=1, cmap="inferno",$/;"	m	class:Postprocess
__init__	src/htrdrPy/script.py	/^    def __init__(self, case=""):$/;"	m	class:Script
__lineOfSight	src/htrdrPy/geometry.py	/^    def __lineOfSight(self):$/;"	m	class:Geometry	file:
__makeAtmosphereFrom1D	src/htrdrPy/data.py	/^    def __makeAtmosphereFrom1D(self, readingRoutine, files, temperature=0):$/;"	m	class:Data	file:
__makeAtmosphereFromLMDZ	src/htrdrPy/data.py	/^    def __makeAtmosphereFromLMDZ(self, phaseFunc):$/;"	m	class:Data	file:
__makeColumnPP	src/htrdrPy/geometry.py	/^    def __makeColumnPP(self, altitudes, hwidth, center=True):$/;"	m	class:Geometry	file:
__makeGroundFromLMDZ	src/htrdrPy/data.py	/^    def __makeGroundFromLMDZ(self):$/;"	m	class:Data	file:
__makeMeshExtractFromData	src/htrdrPy/geometry.py	/^    def __makeMeshExtractFromData(self, data, cells):$/;"	m	class:Geometry	file:
__makeMeshFromCellCoord	src/htrdrPy/geometry.py	/^    def __makeMeshFromCellCoord(self, cellCoord, radius, poles=False,$/;"	m	class:Geometry	file:
__makeMeshSliceAltLat	src/htrdrPy/geometry.py	/^    def __makeMeshSliceAltLat(self, cellCoord, radius, dLongitude, poles=False,$/;"	m	class:Geometry	file:
__precalculateOctrees	src/htrdrPy/data.py	/^    def __precalculateOctrees(self):$/;"	m	class:Data	file:
__radiativeBudget	src/htrdrPy/postprocess.py	/^    def __radiativeBudget(self, heatCapacity, rho):$/;"	m	class:Postprocess	file:
__readLMDZintput	src/htrdrPy/data.py	/^    def __readLMDZintput(self, file):$/;"	m	class:Data	file:
__readLMDZoutput	src/htrdrPy/data.py	/^    def __readLMDZoutput(self, file, keys, wavelength=None):$/;"	m	class:Data	file:
__run	src/htrdrPy/script.py	/^    def __run(self, wavelengths, $/;"	m	class:Script	file:
__runRadBudget	src/htrdrPy/script.py	/^    def __runRadBudget(self, wavelengths, $/;"	m	class:Script	file:
__spectrum	src/htrdrPy/postprocess.py	/^    def __spectrum(self):$/;"	m	class:Postprocess	file:
__testNoScript	src/htrdrPy/script.py	/^    def __testNoScript(self):$/;"	m	class:Script	file:
__twoStreamInColumnV1	src/htrdrPy/script.py	/^    def __twoStreamInColumnV1(self, i, j):$/;"	m	class:Script	file:
__twoStreamInColumnV2	src/htrdrPy/script.py	/^    def __twoStreamInColumnV2(self, i, j):$/;"	m	class:Script	file:
__twoStreamInColumnV3	src/htrdrPy/script.py	/^    def __twoStreamInColumnV3(self, i, j):$/;"	m	class:Script	file:
__twoStreamV1	src/htrdrPy/postprocess.py	/^    def __twoStreamV1(self, heatCapacity):$/;"	m	class:Postprocess	file:
__twoStreamV2	src/htrdrPy/postprocess.py	/^    def __twoStreamV2(self, heatCapacity):$/;"	m	class:Postprocess	file:
__twoStreamV3	src/htrdrPy/postprocess.py	/^    def __twoStreamV3(self, heatCapacity):$/;"	m	class:Postprocess	file:
__writeBRDFfile	src/htrdrPy/data.py	/^    def __writeBRDFfile(self, filename, brdf):$/;"	m	class:Data	file:
__writeHGphaseFunction	src/htrdrPy/data.py	/^    def __writeHGphaseFunction(self, fileName, asymetries):$/;"	m	class:Data	file:
__writeRadiance	src/htrdrPy/geometry.py	/^    def __writeRadiance(self, wavelength, spectrum):$/;"	m	class:Geometry	file:
_count	src/htrdrPy/data.py	/^    _count = 0$/;"	v	class:Data
_count	src/htrdrPy/geometry.py	/^    _count = 0$/;"	v	class:Geometry
_count	src/htrdrPy/script.py	/^    _count = 0$/;"	v	class:Script
add_Alt	src/htrdrPy/include/interpolate.py	/^def add_Alt(Alt,P,T,Alt_max):$/;"	f
arr	src/htrdrPy/include/write.py	/^    arr = np.ones((ncells, 23*16))$/;"	v
attach_values_to_cells	src/htrdrPy/include/meshvisual.py	/^def attach_values_to_cells(file_name, values,output_name):$/;"	f
attach_values_to_nodes	src/htrdrPy/include/meshvisual.py	/^def attach_values_to_nodes(file_name, values,output_name):$/;"	f
bandIntegratedImage	src/htrdrPy/script.py	/^    def bandIntegratedImage(self, geometry: Geometry, kind, wavelengthUp, wavelengthLow,$/;"	m	class:Script
brdf	src/htrdrPy/data.py	/^    brdf = {$/;"	v
brdf	tests/spectrum.py	/^brdf = {$/;"	v
calc_absorption_coefficient	src/htrdrPy/include/interpolate.py	/^def calc_absorption_coefficient(P_mbar, T, sigma, Vratio):$/;"	f
calc_rayleigh_cross_section_ch4	src/htrdrPy/include/interpolate.py	/^def calc_rayleigh_cross_section_ch4(wavelength):$/;"	f
calc_rayleigh_cross_section_n2	src/htrdrPy/include/interpolate.py	/^def calc_rayleigh_cross_section_n2(wavelength):$/;"	f
calc_rayleigh_ks	src/htrdrPy/include/interpolate.py	/^def calc_rayleigh_ks(P_mbar, T, sigma, Vratio):$/;"	f
calculate_Alt_PTlevel_from_P_T	src/htrdrPy/include/interpolate.py	/^def calculate_Alt_PTlevel_from_P_T(P_top,P_bottom,N_level,P,T,P_ch4,xch4):$/;"	f
calculate_Alt_from_P_T	src/htrdrPy/include/interpolate.py	/^def calculate_Alt_from_P_T(P_top,P_bottom,N_level,P,T,P_ch4,xch4):$/;"	f
cart2sphere	src/htrdrPy/helperFunctions.py	/^def cart2sphere(vec):$/;"	f
cleanInputs	src/htrdrPy/data.py	/^    def cleanInputs(self):$/;"	m	class:Data
combineEstimates	src/htrdrPy/helperFunctions.py	/^def combineEstimates(sumX, sumXsquare, numbers):$/;"	f
commpositeRBG	src/htrdrPy/script.py	/^    def commpositeRBG(self, geometry: Geometry, wavelength1, wavelength2, wavelength3, kind,$/;"	m	class:Script
cst	src/htrdrPy/data.py	/^import scipy.constants as cst$/;"	I	nameref:module:scipy.constants
cst	src/htrdrPy/helperFunctions.py	/^import scipy.constants as cst$/;"	I	nameref:module:scipy.constants
cst	tests/spectrum.py	/^import scipy.constants as cst$/;"	I	nameref:module:scipy.constants
cubic_atm_mesh	src/htrdrPy/include/meshgen.py	/^def cubic_atm_mesh(a,b,c):$/;"	f
cubic_cloud_mesh	src/htrdrPy/include/meshgen.py	/^def cubic_cloud_mesh(a,b,c,center):$/;"	f
cubic_ground_mesh	src/htrdrPy/include/meshgen.py	/^def cubic_ground_mesh(a,b,c):$/;"	f
data	src/htrdrPy/data.py	/^    data = Data(radius=2575 * cst.kilo, nPhi=32)$/;"	v
data	tests/spectrum.py	/^data = htrdr.Data(radius, nTheta=nLat, nPhi=nLon, name=name)$/;"	v
dictionnary	tests/spectrum.py	/^dictionnary = readInput(file)$/;"	v
distance2sun	tests/spectrum.py	/^distance2sun = 1 * cst.au$/;"	v
dplanck_dT	src/htrdrPy/helperFunctions.py	/^def dplanck_dT(T, wvl, r_d=False): $/;"	f
exportGeometry	src/htrdrPy/geometry.py	/^    def exportGeometry(self):$/;"	m	class:Geometry
extractMeanRadianceFromOutput	src/htrdrPy/postprocess.py	/^    def extractMeanRadianceFromOutput(self, file, time=False):$/;"	m	class:Postprocess
extractMeanRadiances	src/htrdrPy/postprocess.py	/^    def extractMeanRadiances(self, indices=False):$/;"	m	class:Postprocess
file	tests/spectrum.py	/^file = "\/path\/to\/input\/file"$/;"	v
find_closest_index	src/htrdrPy/include/interpolate.py	/^def find_closest_index(array, value1):$/;"	f
find_nearest	src/htrdrPy/include/interpolate.py	/^def find_nearest(P,T,data):$/;"	f
geometry	tests/spectrum.py	/^geometry = htrdr.geometry()$/;"	v
geometryFromAPIE	src/htrdrPy/geometry.py	/^    def geometryFromAPIE(self, observation, distance, radius, cameraFOV, sourceDist, sourceRad, /;"	m	class:Geometry
getImage	src/htrdrPy/postprocess.py	/^    def getImage(self, file):    $/;"	m	class:Postprocess
getImages	src/htrdrPy/postprocess.py	/^    def getImages(self):$/;"	m	class:Postprocess
get_distance	src/htrdrPy/include/interpolate.py	/^def get_distance(pt1, pt2):$/;"	f
get_pdf_cdf_from_data	src/htrdrPy/include/interpolate.py	/^def get_pdf_cdf_from_data(input_data,input_bins):$/;"	f
imageRatio	src/htrdrPy/script.py	/^    def imageRatio(self, geometry: Geometry, wavelength1, wavelength2, kind,$/;"	m	class:Script
integral	src/htrdrPy/helperFunctions.py	/^def integral(X, Y, low, up):$/;"	f
interp	src/htrdrPy/helperFunctions.py	/^import scipy.interpolate as interp$/;"	I	nameref:module:scipy.interpolate
interpolate	src/htrdrPy/helperFunctions.py	/^def interpolate(dataPoints, dataValues, nodes, flagNearest=False):$/;"	f
interpolate_c_array	src/htrdrPy/include/interpolate.py	/^def interpolate_c_array(prop,P_layer,T_layer):$/;"	f
interpolate_c_point	src/htrdrPy/include/interpolate.py	/^def interpolate_c_point(status_point, reference_points, c_values):$/;"	f
interpolate_gaska	src/htrdrPy/include/interpolate.py	/^def interpolate_gaska(ka1,ka2,weights):$/;"	f
keysLMDZtitan_ir	src/htrdrPy/helperFunctions.py	/^keysLMDZtitan_ir = {$/;"	v
keysLMDZtitan_vi	src/htrdrPy/helperFunctions.py	/^keysLMDZtitan_vi = {$/;"	v
loadScript	src/htrdrPy/script.py	/^def loadScript(filename):$/;"	f
makeAtmosphereFrom1D	src/htrdrPy/data.py	/^    def makeAtmosphereFrom1D(self, data):$/;"	m	class:Data
makeAtmosphereFrom1D_PP	src/htrdrPy/data.py	/^    def makeAtmosphereFrom1D_PP(self, data):$/;"	m	class:Data
makeAtmosphereFrom1Danalytic	src/htrdrPy/data.py	/^    def makeAtmosphereFrom1Danalytic(self, extinction, singleScatteringAlbedo, assymetry, args, /;"	m	class:Data
makeAtmosphereFrom1Danalytic_PP	src/htrdrPy/data.py	/^    def makeAtmosphereFrom1Danalytic_PP(self, extinction, singleScatteringAlbedo, assymetry, arg/;"	m	class:Data
makeAtmosphereFrom1DhazeNgas	src/htrdrPy/data.py	/^    def makeAtmosphereFrom1DhazeNgas(self, readingRoutine, files, temperature=0):$/;"	m	class:Data
makeAtmosphereFrom2D	src/htrdrPy/data.py	/^    def makeAtmosphereFrom2D(self, data):$/;"	m	class:Data
makeAtmosphereFrom3D	src/htrdrPy/data.py	/^    def makeAtmosphereFrom3D(self, data):$/;"	m	class:Data
makeFromLMDZ	src/htrdrPy/data.py	/^    def makeFromLMDZ(self, LMDZinput, LMDZouput, weights=None, keys=keysLMDZtitan_vi, wavelength/;"	m	class:Data
makeGroundFrom1D	src/htrdrPy/data.py	/^    def makeGroundFrom1D(self, SurfaceTemperature, brdf):$/;"	m	class:Data
makeGroundFrom1D_PP	src/htrdrPy/data.py	/^    def makeGroundFrom1D_PP(self, SurfaceTemperature, brdf):$/;"	m	class:Data
makeGroundFrom2D	src/htrdrPy/data.py	/^    def makeGroundFrom2D(self, SurfaceTemperature, brdf):$/;"	m	class:Data
makeGroundFrom3D	src/htrdrPy/data.py	/^    def makeGroundFrom3D(self, SurfaceTemperature, brdf):$/;"	m	class:Data
monochromaticImage	src/htrdrPy/script.py	/^    def monochromaticImage(self, geometry: Geometry, kind, wavelength,$/;"	m	class:Script
nLat	tests/spectrum.py	/^nLat = 50$/;"	v
nLon	tests/spectrum.py	/^nLon = 50$/;"	v
name	tests/spectrum.py	/^name = "spectrum_exemple"$/;"	v
nc	src/htrdrPy/data.py	/^import netCDF4 as nc$/;"	I	nameref:module:netCDF4
ncells	src/htrdrPy/include/write.py	/^    ncells = int(1e6)$/;"	v
nlat	src/htrdrPy/data.py	/^    nlat = 40$/;"	v
nlon	src/htrdrPy/data.py	/^    nlon = 50$/;"	v
np	src/htrdrPy/data.py	/^import numpy as np$/;"	I	nameref:module:numpy
np	src/htrdrPy/geometry.py	/^import numpy as np$/;"	I	nameref:module:numpy
np	src/htrdrPy/helperFunctions.py	/^import numpy as np$/;"	I	nameref:module:numpy
np	src/htrdrPy/include/interpolate.py	/^import numpy as np $/;"	I	nameref:module:numpy
np	src/htrdrPy/include/meshgen.py	/^import numpy as np $/;"	I	nameref:module:numpy
np	src/htrdrPy/include/meshvisual.py	/^import numpy as np $/;"	I	nameref:module:numpy
np	src/htrdrPy/include/read.py	/^import numpy as np $/;"	I	nameref:module:numpy
np	src/htrdrPy/include/write.py	/^import numpy as np $/;"	I	nameref:module:numpy
np	src/htrdrPy/postprocess.py	/^import numpy as np$/;"	I	nameref:module:numpy
np	src/htrdrPy/script.py	/^import numpy as np$/;"	I	nameref:module:numpy
np	tests/spectrum.py	/^import numpy as np$/;"	I	nameref:module:numpy
nwvl	src/htrdrPy/data.py	/^    nwvl = 20$/;"	v
observation	tests/spectrum.py	/^observation = {$/;"	v
pad_to_align	src/htrdrPy/include/write.py	/^    def pad_to_align(current_pos):$/;"	f	function:writeSourceRadiance	file:
pad_to_align	src/htrdrPy/include/write.py	/^    def pad_to_align(current_pos):$/;"	f	function:write_binary_file_T	file:
pad_to_align	src/htrdrPy/include/write.py	/^    def pad_to_align(current_pos):$/;"	f	function:write_binary_file_k	file:
pad_to_align	src/htrdrPy/include/write.py	/^    def pad_to_align(current_pos):$/;"	f	function:write_binary_file_k_haze	file:
pad_to_align	src/htrdrPy/include/write.py	/^    def pad_to_align(current_pos):$/;"	f	function:write_binary_file_k_haze_sphere	file:
pad_to_align	src/htrdrPy/include/write.py	/^    def pad_to_align(current_pos):$/;"	f	function:write_binary_file_k_sphere	file:
pad_to_align	src/htrdrPy/include/write.py	/^    def pad_to_align(current_pos):$/;"	f	function:write_binary_file_phase_function	file:
pad_to_align	src/htrdrPy/include/write.py	/^    def pad_to_align(current_pos):$/;"	f	function:write_binary_file_phase_function_het	file:
pad_to_align	src/htrdrPy/include/write.py	/^    def pad_to_align(current_pos):$/;"	f	function:write_binary_file_surface_properties	file:
pad_to_align	src/htrdrPy/include/write.py	/^    def pad_to_align(current_pos, alignSize):$/;"	f	function:write_binary_file_spectral_pdf	file:
parser	src/htrdrPy/helperFunctions.py	/^    def parser(u, SIkeys, nonSIkeys):$/;"	f	function:toSI	file:
plan_atm_mesh	src/htrdrPy/include/meshgen.py	/^def plan_atm_mesh(Alt,b,c):$/;"	f
planck	src/htrdrPy/helperFunctions.py	/^def planck(T, wvl, r_d=False):$/;"	f
plotGeometry	src/htrdrPy/geometry.py	/^    def plotGeometry(self, ax, radius):$/;"	m	class:Geometry
plotVector	src/htrdrPy/helperFunctions.py	/^def plotVector(ax, origin, vector, color='k', arrow_length_ratio=0.01, zorder=0):$/;"	f
plot_points	src/htrdrPy/include/meshgen.py	/^def plot_points(node_coord,r):$/;"	f
plt	src/htrdrPy/geometry.py	/^import matplotlib.pyplot as plt$/;"	I	nameref:module:matplotlib.pyplot
plt	src/htrdrPy/include/meshgen.py	/^import matplotlib.pyplot as plt$/;"	I	nameref:module:matplotlib.pyplot
pp	tests/spectrum.py	/^pp = htrdr.Postprocess(script)$/;"	v
processImages	src/htrdrPy/postprocess.py	/^    def processImages(self, exposure=1, cmap="inferno"):$/;"	m	class:Postprocess
processSingleArrayObsSW	src/htrdrPy/postprocess.py	/^    def processSingleArrayObsSW(self):$/;"	m	class:Postprocess
pv	src/htrdrPy/include/meshvisual.py	/^import pyvista as pv$/;"	I	nameref:module:pyvista
radius	tests/spectrum.py	/^radius = 2575 * cst.kilo$/;"	v
readInput	tests/spectrum.py	/^def readInput(file):$/;"	f
readRadianceKurucz	src/htrdrPy/helperFunctions.py	/^def readRadianceKurucz(file, radius):$/;"	f
read_abondance_file	src/htrdrPy/include/read.py	/^def read_abondance_file(file_path):$/;"	f
read_haze_albedo_file	src/htrdrPy/include/read.py	/^def read_haze_albedo_file(file_path):$/;"	f
read_haze_kext_file	src/htrdrPy/include/read.py	/^def read_haze_kext_file(file_path):$/;"	f
read_haze_phase_function_file	src/htrdrPy/include/read.py	/^def read_haze_phase_function_file(file_path):$/;"	f
read_haze_q_file	src/htrdrPy/include/read.py	/^def read_haze_q_file(file_path):$/;"	f
read_huygens_file	src/htrdrPy/include/read.py	/^def read_huygens_file(file_path):$/;"	f
read_properties_file	src/htrdrPy/include/read.py	/^def read_properties_file(kfile):$/;"	f
read_temp_profile	src/htrdrPy/include/read.py	/^def read_temp_profile(file_path):$/;"	f
read_temperature_file	src/htrdrPy/include/read.py	/^def read_temperature_file(file_path):$/;"	f
reflectanceSpectrum	src/htrdrPy/script.py	/^    def reflectanceSpectrum(self,   geometry: Geometry, $/;"	m	class:Script
sc	src/htrdrPy/include/interpolate.py	/^import scipy.constants as sc$/;"	I	nameref:module:scipy.constants
script	tests/spectrum.py	/^script = htrdr.Script()$/;"	v
select_albedo_from_Alt_lambda	src/htrdrPy/include/interpolate.py	/^def select_albedo_from_Alt_lambda(alt,lamb,ALBEDO):$/;"	f
setCamera	src/htrdrPy/geometry.py	/^    def setCamera(self, position, targetPosition, fieldOfView, roll=None):$/;"	m	class:Geometry
setImage	src/htrdrPy/geometry.py	/^    def setImage(self, definition, sampling):$/;"	m	class:Geometry
setSource	src/htrdrPy/geometry.py	/^    def setSource(self, longitude, latitude, distance, radius, temperature=None, radianceFile=No/;"	m	class:Geometry
setSpectralCumulDist	src/htrdrPy/geometry.py	/^    def setSpectralCumulDist(self, pdf, data=None):$/;"	m	class:Geometry
setVolrad	src/htrdrPy/geometry.py	/^    def setVolrad(self, sampling, mesh="origin", args=None):$/;"	m	class:Geometry
set_axes_equal	src/htrdrPy/helperFunctions.py	/^def set_axes_equal(ax):$/;"	f
spectrum	src/htrdrPy/script.py	/^    def spectrum(self,   geometry: Geometry, $/;"	m	class:Script
spher2cart	src/htrdrPy/include/meshgen.py	/^def spher2cart(theta,phi,r):$/;"	f
sphere2cart	src/htrdrPy/helperFunctions.py	/^def sphere2cart(vec):$/;"	f
sphere_ground_mesh	src/htrdrPy/include/meshgen.py	/^def sphere_ground_mesh(Ntheta,Nphi,R):$/;"	f
spherical_mesh_control_cell	src/htrdrPy/include/meshgen.py	/^def spherical_mesh_control_cell(Ntheta,Nphi,Alt_level):$/;"	f
spherical_mesh_control_pt	src/htrdrPy/include/meshgen.py	/^def spherical_mesh_control_pt(Ntheta,Nphi,Alt_level):$/;"	f
startMultipleObsGeometry	src/htrdrPy/script.py	/^    def startMultipleObsGeometry(self,  obsList: list[Geometry], $/;"	m	class:Script
startRadBudgetGCM	src/htrdrPy/script.py	/^    def startRadBudgetGCM(self, geometry: Geometry, kind,$/;"	m	class:Script
startThermalTwoStream	src/htrdrPy/script.py	/^    def startThermalTwoStream(self, source, kind, method=3, nAngle=4, angle=30, sampling=1e4,$/;"	m	class:Script
sunRadius	tests/spectrum.py	/^sunRadius = 7e5 * cst.kilo$/;"	v
sunTemperature	tests/spectrum.py	/^sunTemperature = 5772 K$/;"	v
toSI	src/htrdrPy/helperFunctions.py	/^def toSI(value, unit):$/;"	f
topo_ground_mesh	src/htrdrPy/include/meshgen.py	/^def topo_ground_mesh(R,Z):$/;"	f
tsurf	src/htrdrPy/data.py	/^    tsurf = np.linspace(90, 95, nlat*nlon).reshape((nlon,nlat)).T$/;"	v
visibleImage	src/htrdrPy/script.py	/^    def visibleImage(self, geometry: Geometry,$/;"	m	class:Script
wavelengths	tests/spectrum.py	/^wavelengths = np.array([...])$/;"	v
writeInputAtmosphere	src/htrdrPy/data.py	/^    def writeInputAtmosphere(self):$/;"	m	class:Data
writeInputGround	src/htrdrPy/data.py	/^    def writeInputGround(self):$/;"	m	class:Data
writeInputs	src/htrdrPy/data.py	/^    def writeInputs(self, octree_def="512", opthick="1", nthOctree=8, procOctree="master", octre/;"	m	class:Data
writeInputsParallel	src/htrdrPy/data.py	/^    def writeInputsParallel(self):$/;"	m	class:Data
writeSourceRadiance	src/htrdrPy/include/write.py	/^def writeSourceRadiance(file_path, wavelength, spectrum, page_size):$/;"	f
writeVTKfiles	src/htrdrPy/data.py	/^    def writeVTKfiles(self):$/;"	m	class:Data
writeVTKfilesAtmosphere	src/htrdrPy/data.py	/^    def writeVTKfilesAtmosphere(self):$/;"	m	class:Data
writeVTKfilesGround	src/htrdrPy/data.py	/^    def writeVTKfilesGround(self):$/;"	m	class:Data
write_binary_file_T	src/htrdrPy/include/write.py	/^def write_binary_file_T(file_path, page_size, T):$/;"	f
write_binary_file_grid	src/htrdrPy/include/write.py	/^def write_binary_file_grid(filename, pagesize, node_positions, cell_ids):$/;"	f
write_binary_file_k	src/htrdrPy/include/write.py	/^def write_binary_file_k(file_path, page_size, bands_low, bands_upp, quad_pts, ka, ks):$/;"	f
write_binary_file_k_haze	src/htrdrPy/include/write.py	/^def write_binary_file_k_haze(file_path, page_size, bands_low, bands_upp, ka, ks):$/;"	f
write_binary_file_k_haze_sphere	src/htrdrPy/include/write.py	/^def write_binary_file_k_haze_sphere(file_path, page_size, bands_low, bands_upp, ka, ks):$/;"	f
write_binary_file_k_sphere	src/htrdrPy/include/write.py	/^def write_binary_file_k_sphere(file_path, page_size, bands_low, bands_upp, quad_pts, ka, ks):$/;"	f
write_binary_file_phase_function	src/htrdrPy/include/write.py	/^def write_binary_file_phase_function(file_path, page_size, ka, idx):$/;"	f
write_binary_file_phase_function_het	src/htrdrPy/include/write.py	/^def write_binary_file_phase_function_het(file_path, page_size, idx):$/;"	f
write_binary_file_spectral_pdf	src/htrdrPy/include/write.py	/^def write_binary_file_spectral_pdf(file_path, page_size, nCells, pdf):$/;"	f
write_binary_file_surface_properties	src/htrdrPy/include/write.py	/^def write_binary_file_surface_properties(file_path, page_size, celles, T, idx):$/;"	f
write_obj	src/htrdrPy/include/meshvisual.py	/^def write_obj(vertices, faces,file_path):$/;"	f
write_phase_function_decrete_dat	src/htrdrPy/include/write.py	/^def write_phase_function_decrete_dat(filename,arr ):$/;"	f
write_vtk	src/htrdrPy/include/meshvisual.py	/^def write_vtk(vertices, cells,file_path):$/;"	f
write_vtk_tetr	src/htrdrPy/include/meshvisual.py	/^def write_vtk_tetr(node_coord, cell_ids, output_file):$/;"	f
wvl	src/htrdrPy/helperFunctions.py	/^    wvl = np.linspace(1e-7, 8e-7, 16)$/;"	v
