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Functions861 in github.com/conservation-laws/ryujin

↓ 115 callersFunctionpow
DEAL_II_ALWAYS_INLINE inline
source/simd.template.h:199
↓ 99 callersFunctiontest
tests/euler_aeos/hyperbolic_system.cc:22
↓ 69 callersFunctionadd
source/convenience_macros.h:99
↓ 64 callersMethodreinit
source/sparse_matrix_simd.template.h:41
↓ 40 callersMethodrow_length
source/sparse_matrix_simd.h:338
↓ 38 callersMethodprepare_state_vector
source/time_integrator.template.h:233
↓ 33 callersFunctionpositive_part
source/simd.h:113
↓ 27 callersMethodfrom_initial_state
source/euler/hyperbolic_system.h:1252
↓ 26 callersFunctiontest
tests/euler/hyperbolic_system.cc:15
↓ 25 callersFunctionsafe_division
source/euler_aeos/hyperbolic_system.h:38
↓ 23 callersMethoddensity
source/euler/hyperbolic_system.h:740
↓ 21 callersMethodhave_discontinuous_ansatz
source/discretization.h:273
↓ 21 callersMethodinitialize
source/navier_stokes/parabolic_module_gmg_operators.h:561
↓ 21 callersMethodvalue
source/scalar_conservation/flux_kpp.h:31
↓ 20 callersMethodreinit
* Compute the inverse of a given density \f$ \rho_i \f$ and a given * lumped mass matrix \f$ m_i \f$, viz., \f$d_i=1/(\rho_i m_i)\f$. */
source/navier_stokes/parabolic_module_gmg_operators.h:67
↓ 18 callersMethodgamma
source/euler/hyperbolic_system.h:136
↓ 17 callersMethodcolumns
source/sparse_matrix_simd.h:324
↓ 17 callersMethodcompute
source/postprocessor.template.h:108
↓ 15 callersFunctionnegative_part
source/simd.h:125
↓ 14 callersMethoddensity
source/euler_aeos/hyperbolic_system.h:1006
↓ 13 callersMethodeos_interpolation_b
source/euler_aeos/hyperbolic_system.h:278
↓ 13 callersMethodwater_depth
source/shallow_water/hyperbolic_system.h:708
↓ 12 callersMethodmomentum
source/euler/hyperbolic_system.h:762
↓ 12 callersMethodstate
source/scalar_conservation/hyperbolic_system.h:646
↓ 12 callersMethodwrite_entry
source/sparse_matrix_simd.h:558
↓ 11 callersMethodeos_interpolation_pinfty
source/euler_aeos/hyperbolic_system.h:287
↓ 11 callersMethodmomentum
source/shallow_water/hyperbolic_system.h:775
↓ 11 callersFunctiontest
tests/euler_barotropic/hyperbolic_system.cc:22
↓ 10 callersFunctionassign
source/geometries/geometry_airfoil.h:26
↓ 10 callersMethoddensity
source/euler_barotropic/hyperbolic_system.h:756
↓ 10 callersMethodget_tensor
source/sparse_matrix_simd.h:387
↓ 10 callersMethodprepare
source/quantities.template.h:91
↓ 10 callersMethodread_in
source/sparse_matrix_simd.template.h:300
↓ 10 callersMethodreinit_state_vector
source/hyperbolic_module.template.h:108
↓ 9 callersMethodensure_initialized
source/lazy.h:121
↓ 9 callersMethodgravity
source/shallow_water/hyperbolic_system.h:133
↓ 9 callersMethodinternal_energy
source/euler/hyperbolic_system.h:781
↓ 9 callersMethodwrite_tensor
source/multicomponent_vector.h:331
↓ 8 callersMethodextract
source/selected_components_extractor.h:52
↓ 8 callersMethodlimit
source/euler/limiter.template.h:16
↓ 8 callersMethodn_rows
source/sparse_matrix_simd.h:353
↓ 8 callersMethodset_up_database
* Private methods and fields for initializing the eospac interface */ @{
source/euler_aeos/equation_of_state_sesame.h:443
↓ 8 callersFunctiontest
tests/euler_aeos/equation_of_state_library.cc:34
↓ 7 callersMethodeval
* Evaluate the cubic spline at a given point @p x. * * @pre The point @p x must lie within the interval described by the * largest and
source/cubic_spline.h:83
↓ 7 callersMethodget_entry
source/sparse_matrix_simd.h:372
↓ 7 callersFunctionsadd
source/time_integrator.template.h:15
↓ 7 callersMethodsurrogate_specific_entropy
source/euler_aeos/hyperbolic_system.h:1088
↓ 7 callersFunctionto_vcl
source/simd.template.h:102
↓ 7 callersMethodupdate_ghost_rows
source/sparse_matrix_simd.h:766
↓ 7 callersMethodvalue
source/convenience_macros.h:33
↓ 6 callersMethodget_tensor
source/solution_transfer.template.h:89
↓ 6 callersMethodpressure
source/euler/hyperbolic_system.h:822
↓ 6 callersMethodreset
source/lazy.h:112
↓ 6 callersMethodspecific_internal_energy
source/euler_aeos/equation_of_state_sesame.h:311
↓ 5 callersMethodextract_component
source/multicomponent_vector.h:210
↓ 5 callersMethodf
source/euler/hyperbolic_system.h:1171
↓ 5 callersMethodfilter_dry_water_depth
source/shallow_water/hyperbolic_system.h:759
↓ 5 callersMethodflux_contribution
source/euler/hyperbolic_system.h:1193
↓ 5 callersMethodget_transposed_entry
source/sparse_matrix_simd.h:452
↓ 5 callersMethodis_admissible
source/euler/hyperbolic_system.h:953
↓ 5 callersMethodn_nonzero_elements
source/sparse_matrix_simd.h:361
↓ 5 callersMethodprojection_bounds_from_state
source/euler/limiter.h:271
↓ 5 callersMethodspeed_of_sound
source/euler/hyperbolic_system.h:831
↓ 5 callersFunctiontransform_to_local_range
source/local_index_handling.h:29
↓ 4 callersMethodaccumulate
source/euler/limiter.h:348
↓ 4 callersMethodcombine_bounds
source/euler/limiter.h:285
↓ 4 callersMethodcompute_height
source/geotiff_reader.h:141
↓ 4 callersFunctioncompute_transfinite_interpolation
source/transfinite_interpolation.template.h:82
↓ 4 callersMethodconstruct_flux_tensor
source/scalar_conservation/hyperbolic_system.h:744
↓ 4 callersFunctiondebug_poison_invalid_values
source/state_vector.h:67
↓ 4 callersMethodel
source/navier_stokes/parabolic_module_gmg_operators.h:585
↓ 4 callersMethodf
source/shallow_water/hyperbolic_system.h:1010
↓ 4 callersFunctionfast_pow_impl
source/simd_fast_pow.template.h:25
↓ 4 callersMethodfilter_vacuum_density
source/euler_barotropic/hyperbolic_system.h:764
↓ 4 callersMethodfilter_vacuum_density
source/euler/hyperbolic_system.h:748
↓ 4 callersMethodfilter_vacuum_density
source/euler_aeos/hyperbolic_system.h:1014
↓ 4 callersMethodflux_function
source/scalar_conservation/hyperbolic_system.h:555
↓ 4 callersMethodgamma_inverse
source/euler/hyperbolic_system.h:168
↓ 4 callersMethodinternal_energy_derivative
source/euler/hyperbolic_system.h:795
↓ 4 callersMethodinterpolate_values
* Query the table with index @p index. The interpolation works on @p * n tuples in parallel. */
source/euler_aeos/equation_of_state_sesame.h:120
↓ 4 callersMethodinverse_water_depth_mollified
source/shallow_water/hyperbolic_system.h:716
↓ 4 callersMethodnodal_source
source/shallow_water/hyperbolic_system.h:1209
↓ 4 callersFunctionquadratic_newton_step
source/newton.h:38
↓ 4 callersMethodset_id_violation_strategy
source/hyperbolic_module.h:313
↓ 4 callersFunctionstep
source/geometries/geometry_step.h:25
↓ 4 callersMethodsurrogate_pressure
source/euler_aeos/hyperbolic_system.h:1210
↓ 4 callersMethodtemperature
source/euler_aeos/equation_of_state_sesame.h:386
↓ 4 callersFunctionwrite_entry
source/simd.h:357
↓ 3 callersMethodalpha
source/euler/indicator.h:243
↓ 3 callersMethodbuild
source/navier_stokes/parabolic_module_gmg_operators.h:771
↓ 3 callersMethodcrank_nicolson_step
source/navier_stokes/parabolic_module.template.h:268
↓ 3 callersFunctioncreate_vector_partitioner
source/multicomponent_vector.cc:12
↓ 3 callersMethodflux_gradient_function
source/scalar_conservation/hyperbolic_system.h:577
↓ 3 callersMethodfrom_initial_state
source/shallow_water/hyperbolic_system.h:1262
↓ 3 callersMethodget_new_point
source/transfinite_interpolation.template.h:891
↓ 3 callersMethodinitial_state
* Given a position @p point returns the corresponding (conserved) * initial state. The function is used to interpolate initial values * and
source/initial_values.h:98
↓ 3 callersMethodinternal_energy
source/euler_aeos/hyperbolic_system.h:1047
↓ 3 callersMethodinterpolate_hyperbolic_vector
source/initial_values.template.h:249
↓ 3 callersMethodkruzkov_entropy_derivative
source/scalar_conservation/hyperbolic_system.h:680
↓ 3 callersMethodmomentum
source/euler_barotropic/hyperbolic_system.h:778
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