Index

_ | A | B | C | D | E | F | G | H | I | K | L | M | N | O | P | Q | R | S | T | U | V | W | X | Y

_

__abs__() (cfpylib.geom.minimal_geometry.Vector method)
__add__() (cfpylib.geom.minimal_geometry.Vector method)
__div__() (cfpylib.geom.minimal_geometry.Vector method)
__init__() (bc_defs.AdiabaticBC method)
(bc_defs.AdjacentBC method)
(bc_defs.AdjacentPlusUDFBC method)
(bc_defs.BoundaryCondition method)
(bc_defs.ExtrapolateOutBC method)
(bc_defs.FixedPOutBC method)
(bc_defs.FixedTBC method)
(bc_defs.SlidingTBC method)
(bc_defs.SlipWallBC method)
(bc_defs.StaticProfBC method)
(bc_defs.SubsonicInBC method)
(bc_defs.SupInBC method)
(bc_defs.TransientUniBC method)
(bc_defs.UserDefinedBC method)
(bc_defs.fstcBC method)
(cfpylib.flow.blockflow2d.BlockFlow2D method)
(cfpylib.gasdyn.cea2_gas.Gas method)
(cfpylib.gasdyn.ideal_gas.Gas method)
(cfpylib.gasdyn.libgas_gas.Gas method)
(cfpylib.geom.minimal_geometry.Vector method)
(cfpylib.geom.svg_render.SvgEnvironment method)
(cfpylib.util.FortranFile.FortranFile method)
(e3_block.Block2D method)
(e3_block.Block3D method)
(e3_block.MultiBlock2D method)
(e3_block.MultiBlock3D method)
(e3_block.SuperBlock2D method)
(e3_block.SuperBlock3D method)
(e3_flow.ExistingSolution method)
(e3_flow.FlowCondition method)
(e3_grid.StructuredGrid method)
(e3prep.HeatZone method)
(e3prep.ReactionZone method)
(e3prep.TurbulenceZone method)
(l_script.Diaphragm method)
(l_script.FreeEnd method)
(l_script.GasInterface method)
(l_script.GasSlug method)
(l_script.Piston method)
(l_script.VelocityEnd method)
__mul__() (cfpylib.geom.minimal_geometry.Vector method)
__neg__() (cfpylib.geom.minimal_geometry.Vector method)
__pos__() (cfpylib.geom.minimal_geometry.Vector method)
__repr__() (cfpylib.geom.minimal_geometry.Vector method)
__rmul__() (cfpylib.geom.minimal_geometry.Vector method)
__str__() (cfpylib.geom.minimal_geometry.Vector method)
__sub__() (cfpylib.geom.minimal_geometry.Vector method)

A

A_Astar() (in module cfpylib.gasdyn.ideal_gas_flow)
add_aux_variables() (e3_flow.StructuredGridFlow method)
add_auxiliary_variables() (in module e3_flow)
add_break_point() (in module l_script)
add_comment() (cfpylib.geom.svg_render.SvgEnvironment method)
add_dt_plot() (in module l_script)
add_history_loc() (in module l_script)
add_loss_region() (in module l_script)
add_T_patch() (in module l_script)
AdiabaticBC (class in bc_defs)
AdjacentBC (class in bc_defs)
AdjacentPlusUDFBC (class in bc_defs)
apply_uflowz() (in module cfpylib.flow.blockflow2d)
arc() (cfpylib.geom.svg_render.SvgEnvironment method)
assemble_gas_path() (in module l_script)

B

bc_defs (module)
beta_cone() (in module cfpylib.gasdyn.gas_flow)
(in module cfpylib.gasdyn.ideal_gas_flow)
beta_cone2() (in module cfpylib.gasdyn.ideal_gas_flow)
beta_obl() (in module cfpylib.gasdyn.ideal_gas_flow)
beta_oblique() (in module cfpylib.gasdyn.gas_flow)
bezier3() (cfpylib.geom.svg_render.SvgEnvironment method)
bisection() (in module cfpylib.nm.zero_solvers)
bisection_root() (in module cfpylib.nm.zero_finding)
Block (class in e3_block)
Block2D (class in e3_block)
Block3D (class in e3_block)
BlockFlow2D (class in cfpylib.flow.blockflow2d)
BoundaryCondition (class in bc_defs)

C

cell_centre_location() (e3_block.Block2D method)
(e3_block.Block3D method)
cell_count_consistent_3D() (in module e3_block)
cfpylib (module)
cfpylib.flow (module)
cfpylib.flow.blockflow2d (module)
cfpylib.flow.tecplot_writer (module)
cfpylib.flow.vtk_xml_writer (module)
cfpylib.gasdyn (module)
cfpylib.gasdyn.billig (module)
cfpylib.gasdyn.cea2_gas (module)
cfpylib.gasdyn.gas_flow (module)
cfpylib.gasdyn.ideal_gas (module)
cfpylib.gasdyn.ideal_gas_flow (module)
cfpylib.gasdyn.libgas_gas (module)
cfpylib.gasdyn.sutherland (module)
cfpylib.geom (module)
cfpylib.geom.minimal_geometry (module)
cfpylib.geom.svg_render (module)
cfpylib.geom.transform_pyfunc (module)
cfpylib.nm (module)
cfpylib.nm.adapti (module)
cfpylib.nm.collect_run_stats (module)
cfpylib.nm.least_squares (module)
cfpylib.nm.line_search (module)
cfpylib.nm.nelmin (module)
cfpylib.nm.ode (module)
cfpylib.nm.roberts (module)
cfpylib.nm.secant_method (module)
cfpylib.nm.sode (module)
cfpylib.nm.stats (module)
cfpylib.nm.zero_finding (module)
cfpylib.nm.zero_solvers (module)
cfpylib.util (module)
cfpylib.util.flatten (module)
cfpylib.util.FortranFile (module)
circle() (cfpylib.geom.svg_render.SvgEnvironment method)
clone() (cfpylib.gasdyn.cea2_gas.Gas method)
(cfpylib.gasdyn.ideal_gas.Gas method)
(cfpylib.gasdyn.libgas_gas.Gas method)
close() (cfpylib.geom.svg_render.SvgEnvironment method)
close_enough() (in module e3_block)
compute_difference_in_flow_data() (in module e3_flow)
compute_difference_in_flow_data2() (in module e3_flow)
compute_volume_weighted_norms() (in module e3_flow)
connect_blocks_2D() (in module e3_block)
connect_blocks_3D() (in module e3_block)
convert_string() (in module e3_flow)
create_subgrid() (e3_grid.StructuredGrid method)
cross() (in module cfpylib.geom.minimal_geometry)

D

decode_range_from_string() (in module e3_flow)
delta_over_R() (in module cfpylib.gasdyn.billig)
Diaphragm (class in l_script)
distribute_points_1() (in module cfpylib.nm.roberts)
do_labels() (e3_render.SketchEnvironment method)
dot() (in module cfpylib.geom.minimal_geometry)
dotlabel() (cfpylib.geom.svg_render.SvgEnvironment method)
DS_Cv() (in module cfpylib.gasdyn.ideal_gas_flow)

E

e3_block (module)
e3_defs (module)
e3_flow (module)
e3_grid (module)
e3_render (module)
e3cgns (module)
e3history (module)
e3post (module)
e3prep (module)
EOS() (cfpylib.gasdyn.cea2_gas.Gas method)
estcj (module)
euler_step() (in module cfpylib.nm.ode)
ExistingSolution (class in e3_flow)
expand_from_stagnation() (in module cfpylib.gasdyn.gas_flow)
ExtrapolateOutBC (class in bc_defs)

F

find_nearest_cell_centre() (e3_flow.StructuredGridFlow method)
finite_wave_dp() (in module cfpylib.gasdyn.gas_flow)
finite_wave_dv() (in module cfpylib.gasdyn.gas_flow)
FixedPOutBC (class in bc_defs)
FixedTBC (class in bc_defs)
flatten() (in module cfpylib.util.flatten)
FlowCondition (class in e3_flow)
flux_dict (module)
FortranFile (class in cfpylib.util.FortranFile)
FreeEnd (class in l_script)
fstcBC (class in bc_defs)

G

Gas (class in cfpylib.gasdyn.cea2_gas)
(class in cfpylib.gasdyn.ideal_gas)
(class in cfpylib.gasdyn.libgas_gas)
GasInterface (class in l_script)
GasSlug (class in l_script)
get_cea2_float() (in module cfpylib.gasdyn.cea2_gas)
get_cell_data() (e3_flow.StructuredGridFlow method)
get_fractions() (cfpylib.gasdyn.cea2_gas.Gas method)
get_species_composition() (in module cfpylib.gasdyn.cea2_gas)
get_vertex_coords() (e3_grid.StructuredGrid method)
get_vertex_list_for_cell() (e3_grid.StructuredGrid method)
get_with_ions_flag() (in module cfpylib.gasdyn.cea2_gas)
getLineStyle() (cfpylib.geom.svg_render.SvgEnvironment method)
GlobalData (class in e3prep)
(class in l_script)
golden_section() (in module cfpylib.nm.zero_finding)

H

HeatZone (class in e3prep)
hexahedron_properties() (in module cfpylib.geom.minimal_geometry)
hexahedron_volume() (in module cfpylib.geom.minimal_geometry)

I

identify_block_connections() (in module e3_block)
identify_block_connections_2D() (in module e3_block)
identify_block_connections_3D() (in module e3_block)
identify_colocated_vertices() (in module e3_block)
init_arrays() (cfpylib.flow.blockflow2d.BlockFlow2D method)
(e3_grid.StructuredGrid method)
interpolate_flow_condition() (e3_flow.ExistingSolution method)

K

k() (in module cfpylib.gasdyn.sutherland)

L

l_script (module)
least_squares() (in module cfpylib.nm.least_squares)
line() (cfpylib.geom.svg_render.SvgEnvironment method)
list_gas_names() (in module cfpylib.gasdyn.cea2_gas)
(in module cfpylib.gasdyn.ideal_gas)
(in module cfpylib.gasdyn.libgas_gas)
locate_cell_and_block() (in module e3_flow)
locate_executable_file() (in module cfpylib.gasdyn.cea2_gas)

M

M2_obl() (in module cfpylib.gasdyn.ideal_gas_flow)
m2_shock() (in module cfpylib.gasdyn.ideal_gas_flow)
M_Rayleigh() (in module cfpylib.gasdyn.ideal_gas_flow)
make_gas_from_name() (in module cfpylib.gasdyn.cea2_gas)
(in module cfpylib.gasdyn.ideal_gas)
(in module cfpylib.gasdyn.libgas_gas)
make_grid_from_surface() (e3_grid.StructuredGrid method)
make_patch() (in module e3_block)
make_reactants_dictionary() (in module cfpylib.gasdyn.cea2_gas)
make_TFI_grid_from_volume() (e3_grid.StructuredGrid method)
mean() (in module cfpylib.nm.stats)
minimize() (in module cfpylib.nm.line_search)
(in module cfpylib.nm.nelmin)
mu() (in module cfpylib.gasdyn.sutherland)
muller_root() (in module cfpylib.nm.zero_finding)
MultiBlock2D (class in e3_block)
MultiBlock3D (class in e3_block)

N

newton_root() (in module cfpylib.nm.zero_finding)
normal_shock() (in module cfpylib.gasdyn.gas_flow)
normal_shock_p2p1() (in module cfpylib.gasdyn.gas_flow)

O

ode_integrate() (in module cfpylib.nm.ode)
(in module cfpylib.nm.sode)
open() (cfpylib.geom.svg_render.SvgEnvironment method)
origin() (e3_render.SketchEnvironment method)

P

p02_p01() (in module cfpylib.gasdyn.ideal_gas_flow)
p02_p01_obl() (in module cfpylib.gasdyn.ideal_gas_flow)
p0_p() (in module cfpylib.gasdyn.ideal_gas_flow)
p0_p0star() (in module cfpylib.gasdyn.ideal_gas_flow)
p2_p1() (in module cfpylib.gasdyn.ideal_gas_flow)
p2_p1_obl() (in module cfpylib.gasdyn.ideal_gas_flow)
p_pstar() (in module cfpylib.gasdyn.ideal_gas_flow)
Piston (class in l_script)
pitot_condition() (in module cfpylib.gasdyn.gas_flow)
PM1() (in module cfpylib.gasdyn.ideal_gas_flow)
PM2() (in module cfpylib.gasdyn.ideal_gas_flow)
point_inside_cell() (e3_grid.StructuredGrid method)
polyline() (cfpylib.geom.svg_render.SvgEnvironment method)
pretty_print_norms() (in module e3_flow)

Q

quad_centroid() (in module cfpylib.geom.minimal_geometry)
quad_properties() (in module cfpylib.geom.minimal_geometry)

R

r0_r() (in module cfpylib.gasdyn.ideal_gas_flow)
r2_r1() (in module cfpylib.gasdyn.ideal_gas_flow)
r2_r1_obl() (in module cfpylib.gasdyn.ideal_gas_flow)
r_rstar() (in module cfpylib.gasdyn.ideal_gas_flow)
rad_to_degrees() (in module e3_render)
Rc_over_R() (in module cfpylib.gasdyn.billig)
ReactionZone (class in e3prep)
read() (cfpylib.flow.blockflow2d.BlockFlow2D method)
(e3_flow.StructuredGridFlow method)
(e3_grid.StructuredGrid method)
read_all_blocks() (in module e3_flow)
read_block_in_VTK_format() (e3_grid.StructuredGrid method)
read_from_plot3d_in_planes() (e3_grid.StructuredGrid method)
read_from_plot3d_whole_grid() (e3_grid.StructuredGrid method)
read_plot3d_grid() (in module e3_grid)
read_plot3d_grid_binary_file() (in module e3_grid)
read_plot3d_grid_from_pointwise() (in module e3_grid)
read_solution_for_cell() (cfpylib.flow.blockflow2d.BlockFlow2D method)
readInts() (cfpylib.util.FortranFile.FortranFile method)
readReals() (cfpylib.util.FortranFile.FortranFile method)
readRecord() (cfpylib.util.FortranFile.FortranFile method)
readString() (cfpylib.util.FortranFile.FortranFile method)
reflected_shock() (in module cfpylib.gasdyn.gas_flow)
reflected_shock_tube_calculation() (in module estcj)
rinteg() (in module cfpylib.nm.adapti)
rk1_step() (in module cfpylib.nm.sode)
rk2_step() (in module cfpylib.nm.sode)
rkf45_step() (in module cfpylib.nm.ode)
roberts() (in module cfpylib.nm.roberts)
rotate_pyfunc() (in module cfpylib.geom.transform_pyfunc)
run_cea_program() (in module cfpylib.gasdyn.cea2_gas)

S

scales() (e3_render.SketchEnvironment method)
secant() (in module cfpylib.nm.zero_solvers)
select_gas_model() (in module e3prep)
(in module l_script)
select_radiation_model() (in module e3prep)
set_BC() (e3_block.Block method)
set_drawing_size() (e3_render.SketchEnvironment method)
set_energy_exchange_scheme() (in module e3prep)
set_length_scale() (e3_render.SketchEnvironment method)
set_ph() (cfpylib.gasdyn.cea2_gas.Gas method)
(cfpylib.gasdyn.ideal_gas.Gas method)
set_ps() (cfpylib.gasdyn.cea2_gas.Gas method)
(cfpylib.gasdyn.ideal_gas.Gas method)
(cfpylib.gasdyn.libgas_gas.Gas method)
set_pT() (cfpylib.gasdyn.cea2_gas.Gas method)
(cfpylib.gasdyn.ideal_gas.Gas method)
(cfpylib.gasdyn.libgas_gas.Gas method)
set_reaction_scheme() (in module e3prep)
(in module l_script)
set_rhoe() (cfpylib.gasdyn.cea2_gas.Gas method)
set_rhoT() (cfpylib.gasdyn.cea2_gas.Gas method)
(cfpylib.gasdyn.ideal_gas.Gas method)
(cfpylib.gasdyn.libgas_gas.Gas method)
set_WBC() (e3_block.Block method)
setDashArray() (cfpylib.geom.svg_render.SvgEnvironment method)
setLineWidth() (cfpylib.geom.svg_render.SvgEnvironment method)
shock_ideal() (in module cfpylib.gasdyn.gas_flow)
shock_process() (cfpylib.gasdyn.cea2_gas.Gas method)
SketchEnvironment (class in e3_render)
SlidingTBC (class in bc_defs)
SlipWallBC (class in bc_defs)
solve() (in module cfpylib.nm.secant_method)
StaticProfBC (class in bc_defs)
std() (in module cfpylib.nm.stats)
steady_flow_with_area_change() (in module cfpylib.gasdyn.gas_flow)
StructuredGrid (class in e3_grid)
StructuredGridFlow (class in e3_flow)
SubsonicInBC (class in bc_defs)
suggest_better_cell() (e3_grid.StructuredGrid method)
sum() (cfpylib.geom.minimal_geometry.Vector method)
SuperBlock2D (class in e3_block)
SuperBlock3D (class in e3_block)
SupInBC (class in bc_defs)
sutherland() (in module cfpylib.gasdyn.sutherland)
SvgEnvironment (class in cfpylib.geom.svg_render)

T

T0_T() (in module cfpylib.gasdyn.ideal_gas_flow)
T0_T0star() (in module cfpylib.gasdyn.ideal_gas_flow)
T2_T1() (in module cfpylib.gasdyn.ideal_gas_flow)
T2_T1_obl() (in module cfpylib.gasdyn.ideal_gas_flow)
T_Tstar() (in module cfpylib.gasdyn.ideal_gas_flow)
tangent_slab_along_slice() (in module e3_flow)
tetrahedron_properties() (in module cfpylib.geom.minimal_geometry)
text() (cfpylib.geom.svg_render.SvgEnvironment method)
theta_cone() (in module cfpylib.gasdyn.gas_flow)
(in module cfpylib.gasdyn.ideal_gas_flow)
theta_obl() (in module cfpylib.gasdyn.ideal_gas_flow)
theta_oblique() (in module cfpylib.gasdyn.gas_flow)
to_dict() (e3_flow.FlowCondition method)
toPointsX() (cfpylib.geom.svg_render.SvgEnvironment method)
toPointsY() (cfpylib.geom.svg_render.SvgEnvironment method)
total_condition() (in module cfpylib.gasdyn.gas_flow)
TransientUniBC (class in bc_defs)
translate_pyfunc() (in module cfpylib.geom.transform_pyfunc)
TurbulenceZone (class in e3prep)

U

u2_u1() (in module cfpylib.gasdyn.ideal_gas_flow)
u2_u1_obl() (in module cfpylib.gasdyn.ideal_gas_flow)
uflowz() (in module e3_flow)
unit() (cfpylib.geom.minimal_geometry.Vector method)
UserDefinedBC (class in bc_defs)

V

variable_list_for_cell() (in module e3_flow)
Vector (class in cfpylib.geom.minimal_geometry)
VelocityEnd (class in l_script)

W

wedge_properties() (in module cfpylib.geom.minimal_geometry)
window() (e3_render.SketchEnvironment method)
write() (e3_grid.StructuredGrid method)
write_block_in_VTK_format() (e3_grid.StructuredGrid method)
write_cell_data() (in module e3_flow)
write_gnuplot_data_for_cell() (e3_flow.StructuredGridFlow method)
write_gnuplot_header() (e3_flow.StructuredGridFlow method)
write_plot3d_files() (in module e3_flow)
write_plot3d_grid() (in module e3_grid)
write_profile_along_line() (in module e3_flow)
write_profile_data() (in module e3_flow)
write_state() (cfpylib.gasdyn.cea2_gas.Gas method)
(cfpylib.gasdyn.ideal_gas.Gas method)
(cfpylib.gasdyn.libgas_gas.Gas method)
write_structured_plot3d() (e3_grid.StructuredGrid method)
write_tecplot_file_per_block() (in module cfpylib.flow.tecplot_writer)
write_tecplot_single_file() (in module cfpylib.flow.tecplot_writer)
write_tecplot_structured_block_2D() (in module cfpylib.flow.tecplot_writer)
write_to_ini_file() (e3_flow.FlowCondition method)
write_VTK_XML_files() (in module e3_flow)
write_vtk_xml_multi_block_2D() (in module cfpylib.flow.vtk_xml_writer)
write_VTK_XML_unstructured_file() (in module e3_flow)
write_vtk_xml_unstructured_grid_2D() (in module cfpylib.flow.vtk_xml_writer)
writeInts() (cfpylib.util.FortranFile.FortranFile method)
writeReals() (cfpylib.util.FortranFile.FortranFile method)
writeRecord() (cfpylib.util.FortranFile.FortranFile method)
writeString() (cfpylib.util.FortranFile.FortranFile method)

X

x_from_y() (in module cfpylib.gasdyn.billig)
xaxis() (e3_render.SketchEnvironment method)

Y

y_from_x() (in module cfpylib.gasdyn.billig)
yaxis() (e3_render.SketchEnvironment method)