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!--------------------------------------------------------------------------------------------------
!> @author Franz Roters, Max-Planck-Institut für Eisenforschung GmbH
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!> @author Philip Eisenlohr, Max-Planck-Institut für Eisenforschung GmbH
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!> @brief Parses material config file, either solverJobName.materialConfig or material.config
!> @details reads the material configuration file, where solverJobName.materialConfig takes
!! precedence over material.config and parses the sections 'homogenization', 'crystallite',
!! 'phase', 'texture', and 'microstucture'
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!--------------------------------------------------------------------------------------------------
module material
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use prec , only : &
pReal , &
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pInt , &
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tState , &
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tPlasticState , &
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tSourceState , &
tHomogMapping , &
tPhaseMapping , &
p_vec , &
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p_intvec
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implicit none
private
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character ( len = * ) , parameter , public :: &
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ELASTICITY_hooke_label = 'hooke' , &
PLASTICITY_none_label = 'none' , &
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PLASTICITY_isotropic_label = 'isotropic' , &
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PLASTICITY_phenopowerlaw_label = 'phenopowerlaw' , &
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PLASTICITY_phenoplus_label = 'phenoplus' , &
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PLASTICITY_dislotwin_label = 'dislotwin' , &
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PLASTICITY_disloucla_label = 'disloucla' , &
PLASTICITY_titanmod_label = 'titanmod' , &
PLASTICITY_nonlocal_label = 'nonlocal' , &
SOURCE_thermal_dissipation_label = 'thermal_dissipation' , &
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SOURCE_thermal_externalheat_label = 'thermal_externalheat' , &
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SOURCE_damage_isoBrittle_label = 'damage_isobrittle' , &
SOURCE_damage_isoDuctile_label = 'damage_isoductile' , &
SOURCE_damage_anisoBrittle_label = 'damage_anisobrittle' , &
SOURCE_damage_anisoDuctile_label = 'damage_anisoductile' , &
SOURCE_vacancy_phenoplasticity_label = 'vacancy_phenoplasticity' , &
SOURCE_vacancy_irradiation_label = 'vacancy_irradiation' , &
SOURCE_vacancy_thermalfluc_label = 'vacancy_thermalfluctuation' , &
KINEMATICS_thermal_expansion_label = 'thermal_expansion' , &
KINEMATICS_cleavage_opening_label = 'cleavage_opening' , &
KINEMATICS_slipplane_opening_label = 'slipplane_opening' , &
KINEMATICS_vacancy_strain_label = 'vacancy_strain' , &
KINEMATICS_hydrogen_strain_label = 'hydrogen_strain' , &
STIFFNESS_DEGRADATION_damage_label = 'damage' , &
STIFFNESS_DEGRADATION_porosity_label = 'porosity' , &
THERMAL_isothermal_label = 'isothermal' , &
THERMAL_adiabatic_label = 'adiabatic' , &
THERMAL_conduction_label = 'conduction' , &
DAMAGE_none_label = 'none' , &
DAMAGE_local_label = 'local' , &
DAMAGE_nonlocal_label = 'nonlocal' , &
VACANCYFLUX_isoconc_label = 'isoconcentration' , &
VACANCYFLUX_isochempot_label = 'isochemicalpotential' , &
VACANCYFLUX_cahnhilliard_label = 'cahnhilliard' , &
POROSITY_none_label = 'none' , &
POROSITY_phasefield_label = 'phasefield' , &
HYDROGENFLUX_isoconc_label = 'isoconcentration' , &
HYDROGENFLUX_cahnhilliard_label = 'cahnhilliard' , &
HOMOGENIZATION_none_label = 'none' , &
HOMOGENIZATION_isostrain_label = 'isostrain' , &
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HOMOGENIZATION_rgc_label = 'rgc'
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enum , bind ( c )
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enumerator :: ELASTICITY_undefined_ID , &
ELASTICITY_hooke_ID
end enum
enum , bind ( c )
enumerator :: PLASTICITY_undefined_ID , &
PLASTICITY_none_ID , &
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PLASTICITY_isotropic_ID , &
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PLASTICITY_phenopowerlaw_ID , &
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PLASTICITY_phenoplus_ID , &
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PLASTICITY_dislotwin_ID , &
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PLASTICITY_disloucla_ID , &
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PLASTICITY_titanmod_ID , &
PLASTICITY_nonlocal_ID
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end enum
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enum , bind ( c )
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enumerator :: SOURCE_undefined_ID , &
SOURCE_thermal_dissipation_ID , &
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SOURCE_thermal_externalheat_ID , &
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SOURCE_damage_isoBrittle_ID , &
SOURCE_damage_isoDuctile_ID , &
SOURCE_damage_anisoBrittle_ID , &
SOURCE_damage_anisoDuctile_ID , &
SOURCE_vacancy_phenoplasticity_ID , &
SOURCE_vacancy_irradiation_ID , &
SOURCE_vacancy_thermalfluc_ID
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end enum
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enum , bind ( c )
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enumerator :: KINEMATICS_undefined_ID , &
KINEMATICS_cleavage_opening_ID , &
KINEMATICS_slipplane_opening_ID , &
KINEMATICS_thermal_expansion_ID , &
KINEMATICS_vacancy_strain_ID , &
KINEMATICS_hydrogen_strain_ID
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end enum
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enum , bind ( c )
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enumerator :: STIFFNESS_DEGRADATION_undefined_ID , &
STIFFNESS_DEGRADATION_damage_ID , &
STIFFNESS_DEGRADATION_porosity_ID
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end enum
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enum , bind ( c )
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enumerator :: THERMAL_isothermal_ID , &
THERMAL_adiabatic_ID , &
THERMAL_conduction_ID
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end enum
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enum , bind ( c )
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enumerator :: DAMAGE_none_ID , &
DAMAGE_local_ID , &
DAMAGE_nonlocal_ID
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end enum
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enum , bind ( c )
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enumerator :: VACANCYFLUX_isoconc_ID , &
VACANCYFLUX_isochempot_ID , &
VACANCYFLUX_cahnhilliard_ID
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end enum
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enum , bind ( c )
enumerator :: POROSITY_none_ID , &
POROSITY_phasefield_ID
end enum
enum , bind ( c )
enumerator :: HYDROGENFLUX_isoconc_ID , &
HYDROGENFLUX_cahnhilliard_ID
end enum
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enum , bind ( c )
enumerator :: HOMOGENIZATION_undefined_ID , &
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HOMOGENIZATION_none_ID , &
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HOMOGENIZATION_isostrain_ID , &
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HOMOGENIZATION_rgc_ID
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end enum
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character ( len = * ) , parameter , public :: &
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MATERIAL_configFile = 'material.config' , & !< generic name for material configuration file
MATERIAL_localFileExt = 'materialConfig' !< extension of solver job name depending material configuration file
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character ( len = * ) , parameter , public :: &
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MATERIAL_partHomogenization = 'homogenization' , & !< keyword for homogenization part
MATERIAL_partCrystallite = 'crystallite' , & !< keyword for crystallite part
MATERIAL_partPhase = 'phase' !< keyword for phase part
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integer ( kind ( ELASTICITY_undefined_ID ) ) , dimension ( : ) , allocatable , public , protected :: &
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phase_elasticity !< elasticity of each phase
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integer ( kind ( PLASTICITY_undefined_ID ) ) , dimension ( : ) , allocatable , public , protected :: &
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phase_plasticity !< plasticity of each phase
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integer ( kind ( THERMAL_isothermal_ID ) ) , dimension ( : ) , allocatable , public , protected :: &
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thermal_type !< thermal transport model
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integer ( kind ( DAMAGE_none_ID ) ) , dimension ( : ) , allocatable , public , protected :: &
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damage_type !< nonlocal damage model
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integer ( kind ( VACANCYFLUX_isoconc_ID ) ) , dimension ( : ) , allocatable , public , protected :: &
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vacancyflux_type !< vacancy transport model
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integer ( kind ( POROSITY_none_ID ) ) , dimension ( : ) , allocatable , public , protected :: &
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porosity_type !< porosity evolution model
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integer ( kind ( HYDROGENFLUX_isoconc_ID ) ) , dimension ( : ) , allocatable , public , protected :: &
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hydrogenflux_type !< hydrogen transport model
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integer ( kind ( SOURCE_undefined_ID ) ) , dimension ( : , : ) , allocatable , public , protected :: &
phase_source , & !< active sources mechanisms of each phase
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phase_kinematics , & !< active kinematic mechanisms of each phase
phase_stiffnessDegradation !< active stiffness degradation mechanisms of each phase
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integer ( kind ( HOMOGENIZATION_undefined_ID ) ) , dimension ( : ) , allocatable , public , protected :: &
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homogenization_type !< type of each homogenization
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character ( len = 64 ) , dimension ( : ) , allocatable , public , protected :: &
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phase_name , & !< name of each phase
homogenization_name , & !< name of each homogenization
crystallite_name !< name of each crystallite setting
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integer ( pInt ) , public , protected :: &
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homogenization_maxNgrains , & !< max number of grains in any USED homogenization
material_Nphase , & !< number of phases
material_Nhomogenization , & !< number of homogenizations
material_Nmicrostructure , & !< number of microstructures
material_Ncrystallite !< number of crystallite settings
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integer ( pInt ) , dimension ( : ) , allocatable , public , protected :: &
phase_Nsources , & !< number of source mechanisms active in each phase
phase_Nkinematics , & !< number of kinematic mechanisms active in each phase
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phase_NstiffnessDegradations , & !< number of stiffness degradation mechanisms active in each phase
phase_Noutput , & !< number of '(output)' items per phase
phase_elasticityInstance , & !< instance of particular elasticity of each phase
phase_plasticityInstance !< instance of particular plasticity of each phase
integer ( pInt ) , dimension ( : ) , allocatable , public , protected :: &
crystallite_Noutput !< number of '(output)' items per crystallite setting
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integer ( pInt ) , dimension ( : ) , allocatable , public , protected :: &
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homogenization_Ngrains , & !< number of grains in each homogenization
homogenization_Noutput , & !< number of '(output)' items per homogenization
homogenization_typeInstance , & !< instance of particular type of each homogenization
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thermal_typeInstance , & !< instance of particular type of each thermal transport
damage_typeInstance , & !< instance of particular type of each nonlocal damage
vacancyflux_typeInstance , & !< instance of particular type of each vacancy flux
porosity_typeInstance , & !< instance of particular type of each porosity model
hydrogenflux_typeInstance , & !< instance of particular type of each hydrogen flux
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microstructure_crystallite !< crystallite setting ID of each microstructure
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real ( pReal ) , dimension ( : ) , allocatable , public , protected :: &
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thermal_initialT , & !< initial temperature per each homogenization
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damage_initialPhi , & !< initial damage per each homogenization
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vacancyflux_initialCv , & !< initial vacancy concentration per each homogenization
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porosity_initialPhi , & !< initial posority per each homogenization
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hydrogenflux_initialCh !< initial hydrogen concentration per each homogenization
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integer ( pInt ) , dimension ( : , : , : ) , allocatable , public :: &
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material_phase !< phase (index) of each grain,IP,element
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integer ( pInt ) , dimension ( : , : ) , allocatable , public :: &
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material_homog !< homogenization (index) of each IP,element
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type ( tPlasticState ) , allocatable , dimension ( : ) , public :: &
plasticState
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type ( tSourceState ) , allocatable , dimension ( : ) , public :: &
sourceState
type ( tState ) , allocatable , dimension ( : ) , public :: &
homogState , &
thermalState , &
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damageState , &
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vacancyfluxState , &
porosityState , &
hydrogenfluxState
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integer ( pInt ) , dimension ( : , : , : ) , allocatable , public , protected :: &
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material_texture !< texture (index) of each grain,IP,element
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real ( pReal ) , dimension ( : , : , : , : ) , allocatable , public , protected :: &
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material_EulerAngles !< initial orientation of each grain,IP,element
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logical , dimension ( : ) , allocatable , public , protected :: &
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microstructure_active , &
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microstructure_elemhomo , & !< flag to indicate homogeneous microstructure distribution over element's IPs
phase_localPlasticity !< flags phases with local constitutive law
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character ( len = * ) , parameter , private :: &
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MATERIAL_partMicrostructure = 'microstructure' , & !< keyword for microstructure part
MATERIAL_partTexture = 'texture' !< keyword for texture part
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character ( len = 64 ) , dimension ( : ) , allocatable , private :: &
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microstructure_name , & !< name of each microstructure
texture_name !< name of each texture
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character ( len = 256 ) , dimension ( : ) , allocatable , private :: &
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texture_ODFfile !< name of each ODF file
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integer ( pInt ) , private :: &
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material_Ntexture , & !< number of textures
microstructure_maxNconstituents , & !< max number of constituents in any phase
texture_maxNgauss , & !< max number of Gauss components in any texture
texture_maxNfiber !< max number of Fiber components in any texture
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integer ( pInt ) , dimension ( : ) , allocatable , private :: &
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microstructure_Nconstituents , & !< number of constituents in each microstructure
texture_symmetry , & !< number of symmetric orientations per texture
texture_Ngauss , & !< number of Gauss components per texture
texture_Nfiber !< number of Fiber components per texture
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integer ( pInt ) , dimension ( : , : ) , allocatable , private :: &
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microstructure_phase , & !< phase IDs of each microstructure
microstructure_texture !< texture IDs of each microstructure
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real ( pReal ) , dimension ( : , : ) , allocatable , private :: &
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microstructure_fraction !< vol fraction of each constituent in microstructure
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real ( pReal ) , dimension ( : , : , : ) , allocatable , private :: &
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material_volume , & !< volume of each grain,IP,element
texture_Gauss , & !< data of each Gauss component
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texture_Fiber , & !< data of each Fiber component
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texture_transformation !< transformation for each texture
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logical , dimension ( : ) , allocatable , private :: &
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homogenization_active
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integer ( pInt ) , dimension ( : , : , : ) , allocatable , public :: phaseAt !< phase ID of every material point (ipc,ip,el)
integer ( pInt ) , dimension ( : , : , : ) , allocatable , public :: phasememberAt !< memberID of given phase at every material point (ipc,ip,el)
integer ( pInt ) , dimension ( : , : , : ) , allocatable , public , target :: mappingCrystallite
integer ( pInt ) , dimension ( : , : , : ) , allocatable , public , target :: mappingHomogenization !< mapping from material points to offset in heterogenous state/field
integer ( pInt ) , dimension ( : , : ) , allocatable , public , target :: mappingHomogenizationConst !< mapping from material points to offset in constant state/field
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type ( tHomogMapping ) , allocatable , dimension ( : ) , public :: &
thermalMapping , & !< mapping for thermal state/fields
damageMapping , & !< mapping for damage state/fields
vacancyfluxMapping , & !< mapping for vacancy conc state/fields
porosityMapping , & !< mapping for porosity state/fields
hydrogenfluxMapping !< mapping for hydrogen conc state/fields
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type ( p_vec ) , allocatable , dimension ( : ) , public :: &
temperature , & !< temperature field
damage , & !< damage field
vacancyConc , & !< vacancy conc field
porosity , & !< porosity field
hydrogenConc , & !< hydrogen conc field
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temperatureRate , & !< temperature change rate field
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vacancyConcRate , & !< vacancy conc change field
hydrogenConcRate !< hydrogen conc change field
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public :: &
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material_init , &
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ELASTICITY_hooke_ID , &
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PLASTICITY_none_ID , &
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PLASTICITY_isotropic_ID , &
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PLASTICITY_phenopowerlaw_ID , &
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PLASTICITY_phenoplus_ID , &
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PLASTICITY_dislotwin_ID , &
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PLASTICITY_disloucla_ID , &
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PLASTICITY_titanmod_ID , &
PLASTICITY_nonlocal_ID , &
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SOURCE_thermal_dissipation_ID , &
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SOURCE_thermal_externalheat_ID , &
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SOURCE_damage_isoBrittle_ID , &
SOURCE_damage_isoDuctile_ID , &
SOURCE_damage_anisoBrittle_ID , &
SOURCE_damage_anisoDuctile_ID , &
SOURCE_vacancy_phenoplasticity_ID , &
SOURCE_vacancy_irradiation_ID , &
SOURCE_vacancy_thermalfluc_ID , &
KINEMATICS_cleavage_opening_ID , &
KINEMATICS_slipplane_opening_ID , &
KINEMATICS_thermal_expansion_ID , &
KINEMATICS_vacancy_strain_ID , &
KINEMATICS_hydrogen_strain_ID , &
STIFFNESS_DEGRADATION_damage_ID , &
STIFFNESS_DEGRADATION_porosity_ID , &
THERMAL_isothermal_ID , &
THERMAL_adiabatic_ID , &
THERMAL_conduction_ID , &
DAMAGE_none_ID , &
DAMAGE_local_ID , &
DAMAGE_nonlocal_ID , &
VACANCYFLUX_isoconc_ID , &
VACANCYFLUX_isochempot_ID , &
VACANCYFLUX_cahnhilliard_ID , &
POROSITY_none_ID , &
POROSITY_phasefield_ID , &
HYDROGENFLUX_isoconc_ID , &
HYDROGENFLUX_cahnhilliard_ID , &
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HOMOGENIZATION_none_ID , &
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HOMOGENIZATION_isostrain_ID , &
HOMOGENIZATION_RGC_ID
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private :: &
material_parseHomogenization , &
material_parseMicrostructure , &
material_parseCrystallite , &
material_parsePhase , &
material_parseTexture , &
material_populateGrains
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contains
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!--------------------------------------------------------------------------------------------------
!> @brief parses material configuration file
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!> @details figures out if solverJobName.materialConfig is present, if not looks for
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!> material.config
!--------------------------------------------------------------------------------------------------
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subroutine material_init ( )
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use , intrinsic :: iso_fortran_env ! to get compiler_version and compiler_options (at least for gfortran 4.6 at the moment)
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use IO , only : &
IO_error , &
IO_open_file , &
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IO_open_jobFile_stat , &
IO_timeStamp
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use debug , only : &
debug_level , &
debug_material , &
debug_levelBasic , &
debug_levelExtensive
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use mesh , only : &
mesh_maxNips , &
mesh_NcpElems , &
mesh_element , &
FE_Nips , &
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FE_geomtype
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use numerics , only : &
worldrank
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implicit none
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integer ( pInt ) , parameter :: FILEUNIT = 200_pInt
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integer ( pInt ) :: m , c , h , myDebug , myPhase , myHomog
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integer ( pInt ) :: &
g , & !< grain number
i , & !< integration point number
e , & !< element number
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phase
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integer ( pInt ) , dimension ( : ) , allocatable :: ConstitutivePosition
integer ( pInt ) , dimension ( : ) , allocatable :: CrystallitePosition
integer ( pInt ) , dimension ( : ) , allocatable :: HomogenizationPosition
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myDebug = debug_level ( debug_material )
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mainProcess : if ( worldrank == 0 ) then
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write ( 6 , '(/,a)' ) ' <<<+- material init -+>>>'
write ( 6 , '(a15,a)' ) ' Current time: ' , IO_timeStamp ( )
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#include "compilation_info.f90"
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endif mainProcess
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if ( . not . IO_open_jobFile_stat ( FILEUNIT , material_localFileExt ) ) & ! no local material configuration present...
call IO_open_file ( FILEUNIT , material_configFile ) ! ...open material.config file
call material_parseHomogenization ( FILEUNIT , material_partHomogenization )
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if ( iand ( myDebug , debug_levelBasic ) / = 0_pInt ) write ( 6 , '(a)' ) ' Homogenization parsed' ; flush ( 6 )
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call material_parseMicrostructure ( FILEUNIT , material_partMicrostructure )
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if ( iand ( myDebug , debug_levelBasic ) / = 0_pInt ) write ( 6 , '(a)' ) ' Microstructure parsed' ; flush ( 6 )
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call material_parseCrystallite ( FILEUNIT , material_partCrystallite )
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if ( iand ( myDebug , debug_levelBasic ) / = 0_pInt ) write ( 6 , '(a)' ) ' Crystallite parsed' ; flush ( 6 )
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call material_parseTexture ( FILEUNIT , material_partTexture )
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if ( iand ( myDebug , debug_levelBasic ) / = 0_pInt ) write ( 6 , '(a)' ) ' Texture parsed' ; flush ( 6 )
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call material_parsePhase ( FILEUNIT , material_partPhase )
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if ( iand ( myDebug , debug_levelBasic ) / = 0_pInt ) write ( 6 , '(a)' ) ' Phase parsed' ; flush ( 6 )
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close ( FILEUNIT )
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allocate ( plasticState ( material_Nphase ) )
allocate ( sourceState ( material_Nphase ) )
do myPhase = 1 , material_Nphase
allocate ( sourceState ( myPhase ) % p ( phase_Nsources ( myPhase ) ) )
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enddo
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allocate ( homogState ( material_Nhomogenization ) )
allocate ( thermalState ( material_Nhomogenization ) )
allocate ( damageState ( material_Nhomogenization ) )
allocate ( vacancyfluxState ( material_Nhomogenization ) )
allocate ( porosityState ( material_Nhomogenization ) )
allocate ( hydrogenfluxState ( material_Nhomogenization ) )
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allocate ( thermalMapping ( material_Nhomogenization ) )
allocate ( damageMapping ( material_Nhomogenization ) )
allocate ( vacancyfluxMapping ( material_Nhomogenization ) )
allocate ( porosityMapping ( material_Nhomogenization ) )
allocate ( hydrogenfluxMapping ( material_Nhomogenization ) )
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allocate ( temperature ( material_Nhomogenization ) )
allocate ( damage ( material_Nhomogenization ) )
allocate ( vacancyConc ( material_Nhomogenization ) )
allocate ( porosity ( material_Nhomogenization ) )
allocate ( hydrogenConc ( material_Nhomogenization ) )
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allocate ( temperatureRate ( material_Nhomogenization ) )
allocate ( vacancyConcRate ( material_Nhomogenization ) )
allocate ( hydrogenConcRate ( material_Nhomogenization ) )
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do m = 1_pInt , material_Nmicrostructure
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if ( microstructure_crystallite ( m ) < 1_pInt . or . &
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microstructure_crystallite ( m ) > material_Ncrystallite ) &
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call IO_error ( 150_pInt , m , ext_msg = 'crystallite' )
if ( minval ( microstructure_phase ( 1 : microstructure_Nconstituents ( m ) , m ) ) < 1_pInt . or . &
maxval ( microstructure_phase ( 1 : microstructure_Nconstituents ( m ) , m ) ) > material_Nphase ) &
call IO_error ( 150_pInt , m , ext_msg = 'phase' )
if ( minval ( microstructure_texture ( 1 : microstructure_Nconstituents ( m ) , m ) ) < 1_pInt . or . &
maxval ( microstructure_texture ( 1 : microstructure_Nconstituents ( m ) , m ) ) > material_Ntexture ) &
call IO_error ( 150_pInt , m , ext_msg = 'texture' )
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if ( microstructure_Nconstituents ( m ) < 1_pInt ) &
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call IO_error ( 151_pInt , m )
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enddo
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debugOut : if ( iand ( myDebug , debug_levelExtensive ) / = 0_pInt ) then
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write ( 6 , '(/,a,/)' ) ' MATERIAL configuration'
write ( 6 , '(a32,1x,a16,1x,a6)' ) 'homogenization ' , 'type ' , 'grains'
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do h = 1_pInt , material_Nhomogenization
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write ( 6 , '(1x,a32,1x,a16,1x,i6)' ) homogenization_name ( h ) , homogenization_type ( h ) , homogenization_Ngrains ( h )
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enddo
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write ( 6 , '(/,a14,18x,1x,a11,1x,a12,1x,a13)' ) 'microstructure' , 'crystallite' , 'constituents' , 'homogeneous'
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do m = 1_pInt , material_Nmicrostructure
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write ( 6 , '(1x,a32,1x,i11,1x,i12,1x,l13)' ) microstructure_name ( m ) , &
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microstructure_crystallite ( m ) , &
microstructure_Nconstituents ( m ) , &
microstructure_elemhomo ( m )
if ( microstructure_Nconstituents ( m ) > 0_pInt ) then
do c = 1_pInt , microstructure_Nconstituents ( m )
write ( 6 , '(a1,1x,a32,1x,a32,1x,f7.4)' ) '>' , phase_name ( microstructure_phase ( c , m ) ) , &
texture_name ( microstructure_texture ( c , m ) ) , &
microstructure_fraction ( c , m )
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enddo
write ( 6 , * )
endif
enddo
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endif debugOut
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call material_populateGrains
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allocate ( phaseAt ( homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) , source = 0_pInt )
allocate ( phasememberAt ( homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) , source = 0_pInt )
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allocate ( mappingHomogenization ( 2 , mesh_maxNips , mesh_NcpElems ) , source = 0_pInt )
allocate ( mappingCrystallite ( 2 , homogenization_maxNgrains , mesh_NcpElems ) , source = 0_pInt )
allocate ( mappingHomogenizationConst ( mesh_maxNips , mesh_NcpElems ) , source = 1_pInt )
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allocate ( ConstitutivePosition ( material_Nphase ) , source = 0_pInt )
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allocate ( HomogenizationPosition ( material_Nhomogenization ) , source = 0_pInt )
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allocate ( CrystallitePosition ( material_Nphase ) , source = 0_pInt )
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ElemLoop : do e = 1_pInt , mesh_NcpElems ! loop over elements
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myHomog = mesh_element ( 3 , e )
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IPloop : do i = 1_pInt , FE_Nips ( FE_geomtype ( mesh_element ( 2 , e ) ) ) ! loop over IPs
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HomogenizationPosition ( myHomog ) = HomogenizationPosition ( myHomog ) + 1_pInt
mappingHomogenization ( 1 : 2 , i , e ) = [ HomogenizationPosition ( myHomog ) , myHomog ]
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GrainLoop : do g = 1_pInt , homogenization_Ngrains ( mesh_element ( 3 , e ) ) ! loop over grains
phase = material_phase ( g , i , e )
ConstitutivePosition ( phase ) = ConstitutivePosition ( phase ) + 1_pInt ! not distinguishing between instances of same phase
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phaseAt ( g , i , e ) = phase
phasememberAt ( g , i , e ) = ConstitutivePosition ( phase )
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enddo GrainLoop
enddo IPloop
enddo ElemLoop
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! hack needed to initialize field values used during constitutive and crystallite initializations
do myHomog = 1 , material_Nhomogenization
thermalMapping ( myHomog ) % p = > mappingHomogenizationConst
damageMapping ( myHomog ) % p = > mappingHomogenizationConst
vacancyfluxMapping ( myHomog ) % p = > mappingHomogenizationConst
porosityMapping ( myHomog ) % p = > mappingHomogenizationConst
hydrogenfluxMapping ( myHomog ) % p = > mappingHomogenizationConst
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allocate ( temperature ( myHomog ) % p ( 1 ) , source = thermal_initialT ( myHomog ) )
allocate ( damage ( myHomog ) % p ( 1 ) , source = damage_initialPhi ( myHomog ) )
allocate ( vacancyConc ( myHomog ) % p ( 1 ) , source = vacancyflux_initialCv ( myHomog ) )
allocate ( porosity ( myHomog ) % p ( 1 ) , source = porosity_initialPhi ( myHomog ) )
allocate ( hydrogenConc ( myHomog ) % p ( 1 ) , source = hydrogenflux_initialCh ( myHomog ) )
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allocate ( temperatureRate ( myHomog ) % p ( 1 ) , source = 0.0_pReal )
allocate ( vacancyConcRate ( myHomog ) % p ( 1 ) , source = 0.0_pReal )
allocate ( hydrogenConcRate ( myHomog ) % p ( 1 ) , source = 0.0_pReal )
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enddo
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end subroutine material_init
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!--------------------------------------------------------------------------------------------------
!> @brief parses the homogenization part in the material configuration file
!--------------------------------------------------------------------------------------------------
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subroutine material_parseHomogenization ( fileUnit , myPart )
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use IO , only : &
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IO_read , &
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IO_globalTagInPart , &
IO_countSections , &
IO_error , &
IO_countTagInPart , &
IO_lc , &
IO_getTag , &
IO_isBlank , &
IO_stringValue , &
IO_intValue , &
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IO_floatValue , &
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IO_stringPos , &
IO_EOF
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use mesh , only : &
mesh_element
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implicit none
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character ( len = * ) , intent ( in ) :: myPart
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integer ( pInt ) , intent ( in ) :: fileUnit
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integer ( pInt ) , allocatable , dimension ( : ) :: chunkPos
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integer ( pInt ) :: Nsections , section , s , p
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character ( len = 65536 ) :: &
tag , line
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logical :: echo
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echo = IO_globalTagInPart ( fileUnit , myPart , '/echo/' )
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Nsections = IO_countSections ( fileUnit , myPart )
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material_Nhomogenization = Nsections
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if ( Nsections < 1_pInt ) call IO_error ( 160_pInt , ext_msg = myPart )
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allocate ( homogenization_name ( Nsections ) ) ; homogenization_name = ''
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allocate ( homogenization_type ( Nsections ) , source = HOMOGENIZATION_undefined_ID )
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allocate ( thermal_type ( Nsections ) , source = THERMAL_isothermal_ID )
allocate ( damage_type ( Nsections ) , source = DAMAGE_none_ID )
allocate ( vacancyflux_type ( Nsections ) , source = VACANCYFLUX_isoconc_ID )
allocate ( porosity_type ( Nsections ) , source = POROSITY_none_ID )
allocate ( hydrogenflux_type ( Nsections ) , source = HYDROGENFLUX_isoconc_ID )
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allocate ( homogenization_typeInstance ( Nsections ) , source = 0_pInt )
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allocate ( thermal_typeInstance ( Nsections ) , source = 0_pInt )
allocate ( damage_typeInstance ( Nsections ) , source = 0_pInt )
allocate ( vacancyflux_typeInstance ( Nsections ) , source = 0_pInt )
allocate ( porosity_typeInstance ( Nsections ) , source = 0_pInt )
allocate ( hydrogenflux_typeInstance ( Nsections ) , source = 0_pInt )
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allocate ( homogenization_Ngrains ( Nsections ) , source = 0_pInt )
allocate ( homogenization_Noutput ( Nsections ) , source = 0_pInt )
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allocate ( homogenization_active ( Nsections ) , source = . false . ) !!!!!!!!!!!!!!!
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allocate ( thermal_initialT ( Nsections ) , source = 30 0.0_pReal )
allocate ( damage_initialPhi ( Nsections ) , source = 1.0_pReal )
allocate ( vacancyflux_initialCv ( Nsections ) , source = 0.0_pReal )
allocate ( porosity_initialPhi ( Nsections ) , source = 1.0_pReal )
allocate ( hydrogenflux_initialCh ( Nsections ) , source = 0.0_pReal )
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forall ( s = 1_pInt : Nsections ) homogenization_active ( s ) = any ( mesh_element ( 3 , : ) == s ) ! current homogenization used in model? Homogenization view, maximum operations depend on maximum number of homog schemes
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homogenization_Noutput = IO_countTagInPart ( fileUnit , myPart , '(output)' , Nsections )
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rewind ( fileUnit )
line = '' ! to have it initialized
section = 0_pInt ! - " -
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do while ( trim ( line ) / = IO_EOF . and . IO_lc ( IO_getTag ( line , '<' , '>' ) ) / = myPart ) ! wind forward to <homogenization>
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line = IO_read ( fileUnit )
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enddo
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if ( echo ) write ( 6 , '(/,1x,a)' ) trim ( line ) ! echo part header
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do while ( trim ( line ) / = IO_EOF ) ! read through sections of material part
line = IO_read ( fileUnit )
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if ( IO_isBlank ( line ) ) cycle ! skip empty lines
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if ( IO_getTag ( line , '<' , '>' ) / = '' ) then ! stop at next part
line = IO_read ( fileUnit , . true . ) ! reset IO_read
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exit
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endif
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if ( echo ) write ( 6 , '(2x,a)' ) trim ( line ) ! echo back read lines
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if ( IO_getTag ( line , '[' , ']' ) / = '' ) then ! next section
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section = section + 1_pInt
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homogenization_name ( section ) = IO_getTag ( line , '[' , ']' )
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endif
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if ( section > 0_pInt ) then
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chunkPos = IO_stringPos ( line )
tag = IO_lc ( IO_stringValue ( line , chunkPos , 1_pInt ) ) ! extract key
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select case ( tag )
case ( 'type' )
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select case ( IO_lc ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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case ( HOMOGENIZATION_NONE_label )
homogenization_type ( section ) = HOMOGENIZATION_NONE_ID
homogenization_Ngrains ( section ) = 1_pInt
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case ( HOMOGENIZATION_ISOSTRAIN_label )
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homogenization_type ( section ) = HOMOGENIZATION_ISOSTRAIN_ID
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case ( HOMOGENIZATION_RGC_label )
homogenization_type ( section ) = HOMOGENIZATION_RGC_ID
case default
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call IO_error ( 500_pInt , ext_msg = trim ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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end select
homogenization_typeInstance ( section ) = &
count ( homogenization_type == homogenization_type ( section ) ) ! count instances
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case ( 'thermal' )
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select case ( IO_lc ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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case ( THERMAL_isothermal_label )
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thermal_type ( section ) = THERMAL_isothermal_ID
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case ( THERMAL_adiabatic_label )
thermal_type ( section ) = THERMAL_adiabatic_ID
case ( THERMAL_conduction_label )
thermal_type ( section ) = THERMAL_conduction_ID
case default
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call IO_error ( 500_pInt , ext_msg = trim ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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end select
case ( 'damage' )
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select case ( IO_lc ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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case ( DAMAGE_NONE_label )
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damage_type ( section ) = DAMAGE_none_ID
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case ( DAMAGE_LOCAL_label )
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damage_type ( section ) = DAMAGE_local_ID
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case ( DAMAGE_NONLOCAL_label )
damage_type ( section ) = DAMAGE_nonlocal_ID
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case default
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call IO_error ( 500_pInt , ext_msg = trim ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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end select
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case ( 'vacancyflux' )
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select case ( IO_lc ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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case ( VACANCYFLUX_isoconc_label )
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vacancyflux_type ( section ) = VACANCYFLUX_isoconc_ID
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case ( VACANCYFLUX_isochempot_label )
vacancyflux_type ( section ) = VACANCYFLUX_isochempot_ID
case ( VACANCYFLUX_cahnhilliard_label )
vacancyflux_type ( section ) = VACANCYFLUX_cahnhilliard_ID
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case default
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call IO_error ( 500_pInt , ext_msg = trim ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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end select
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case ( 'porosity' )
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select case ( IO_lc ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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case ( POROSITY_NONE_label )
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porosity_type ( section ) = POROSITY_none_ID
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case ( POROSITY_phasefield_label )
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porosity_type ( section ) = POROSITY_phasefield_ID
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case default
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call IO_error ( 500_pInt , ext_msg = trim ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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end select
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case ( 'hydrogenflux' )
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select case ( IO_lc ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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case ( HYDROGENFLUX_isoconc_label )
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hydrogenflux_type ( section ) = HYDROGENFLUX_isoconc_ID
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case ( HYDROGENFLUX_cahnhilliard_label )
hydrogenflux_type ( section ) = HYDROGENFLUX_cahnhilliard_ID
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case default
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call IO_error ( 500_pInt , ext_msg = trim ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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end select
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case ( 'nconstituents' , 'ngrains' )
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homogenization_Ngrains ( section ) = IO_intValue ( line , chunkPos , 2_pInt )
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case ( 'initialtemperature' , 'initialt' )
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thermal_initialT ( section ) = IO_floatValue ( line , chunkPos , 2_pInt )
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case ( 'initialdamage' )
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damage_initialPhi ( section ) = IO_floatValue ( line , chunkPos , 2_pInt )
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case ( 'initialvacancyconc' , 'initialcv' )
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vacancyflux_initialCv ( section ) = IO_floatValue ( line , chunkPos , 2_pInt )
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case ( 'initialporosity' )
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porosity_initialPhi ( section ) = IO_floatValue ( line , chunkPos , 2_pInt )
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case ( 'initialhydrogenconc' , 'initialch' )
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hydrogenflux_initialCh ( section ) = IO_floatValue ( line , chunkPos , 2_pInt )
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end select
endif
enddo
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do p = 1_pInt , Nsections
homogenization_typeInstance ( p ) = count ( homogenization_type ( 1 : p ) == homogenization_type ( p ) )
thermal_typeInstance ( p ) = count ( thermal_type ( 1 : p ) == thermal_type ( p ) )
damage_typeInstance ( p ) = count ( damage_type ( 1 : p ) == damage_type ( p ) )
vacancyflux_typeInstance ( p ) = count ( vacancyflux_type ( 1 : p ) == vacancyflux_type ( p ) )
porosity_typeInstance ( p ) = count ( porosity_type ( 1 : p ) == porosity_type ( p ) )
hydrogenflux_typeInstance ( p ) = count ( hydrogenflux_type ( 1 : p ) == hydrogenflux_type ( p ) )
enddo
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homogenization_maxNgrains = maxval ( homogenization_Ngrains , homogenization_active )
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end subroutine material_parseHomogenization
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!--------------------------------------------------------------------------------------------------
!> @brief parses the microstructure part in the material configuration file
!--------------------------------------------------------------------------------------------------
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subroutine material_parseMicrostructure ( fileUnit , myPart )
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use IO
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use mesh , only : &
mesh_element , &
mesh_NcpElems
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implicit none
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character ( len = * ) , intent ( in ) :: myPart
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integer ( pInt ) , intent ( in ) :: fileUnit
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integer ( pInt ) , allocatable , dimension ( : ) :: chunkPos
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integer ( pInt ) :: Nsections , section , constituent , e , i
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character ( len = 65536 ) :: &
tag , line
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logical :: echo
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echo = IO_globalTagInPart ( fileUnit , myPart , '/echo/' )
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Nsections = IO_countSections ( fileUnit , myPart )
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material_Nmicrostructure = Nsections
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if ( Nsections < 1_pInt ) call IO_error ( 160_pInt , ext_msg = myPart )
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allocate ( microstructure_name ( Nsections ) ) ; microstructure_name = ''
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allocate ( microstructure_crystallite ( Nsections ) , source = 0_pInt )
allocate ( microstructure_Nconstituents ( Nsections ) , source = 0_pInt )
allocate ( microstructure_active ( Nsections ) , source = . false . )
allocate ( microstructure_elemhomo ( Nsections ) , source = . false . )
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if ( any ( mesh_element ( 4 , 1 : mesh_NcpElems ) > Nsections ) ) &
call IO_error ( 155_pInt , ext_msg = 'Microstructure in geometry > Sections in material.config' )
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forall ( e = 1_pInt : mesh_NcpElems ) microstructure_active ( mesh_element ( 4 , e ) ) = . true . ! current microstructure used in model? Elementwise view, maximum N operations for N elements
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microstructure_Nconstituents = IO_countTagInPart ( fileUnit , myPart , '(constituent)' , Nsections )
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microstructure_maxNconstituents = maxval ( microstructure_Nconstituents )
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microstructure_elemhomo = IO_spotTagInPart ( fileUnit , myPart , '/elementhomogeneous/' , Nsections )
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allocate ( microstructure_phase ( microstructure_maxNconstituents , Nsections ) , source = 0_pInt )
allocate ( microstructure_texture ( microstructure_maxNconstituents , Nsections ) , source = 0_pInt )
allocate ( microstructure_fraction ( microstructure_maxNconstituents , Nsections ) , source = 0.0_pReal )
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rewind ( fileUnit )
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line = '' ! to have it initialized
section = 0_pInt ! - " -
constituent = 0_pInt ! - " -
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do while ( trim ( line ) / = IO_EOF . and . IO_lc ( IO_getTag ( line , '<' , '>' ) ) / = myPart ) ! wind forward to <microstructure>
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line = IO_read ( fileUnit )
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enddo
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if ( echo ) write ( 6 , '(/,1x,a)' ) trim ( line ) ! echo part header
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do while ( trim ( line ) / = IO_EOF ) ! read through sections of material part
line = IO_read ( fileUnit )
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if ( IO_isBlank ( line ) ) cycle ! skip empty lines
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if ( IO_getTag ( line , '<' , '>' ) / = '' ) then ! stop at next part
line = IO_read ( fileUnit , . true . ) ! reset IO_read
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exit
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endif
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if ( echo ) write ( 6 , '(2x,a)' ) trim ( line ) ! echo back read lines
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if ( IO_getTag ( line , '[' , ']' ) / = '' ) then ! next section
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section = section + 1_pInt
constituent = 0_pInt
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microstructure_name ( section ) = IO_getTag ( line , '[' , ']' )
endif
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if ( section > 0_pInt ) then
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chunkPos = IO_stringPos ( line )
tag = IO_lc ( IO_stringValue ( line , chunkPos , 1_pInt ) ) ! extract key
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select case ( tag )
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case ( 'crystallite' )
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microstructure_crystallite ( section ) = IO_intValue ( line , chunkPos , 2_pInt )
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case ( '(constituent)' )
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constituent = constituent + 1_pInt
do i = 2_pInt , 6_pInt , 2_pInt
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tag = IO_lc ( IO_stringValue ( line , chunkPos , i ) )
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select case ( tag )
case ( 'phase' )
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microstructure_phase ( constituent , section ) = IO_intValue ( line , chunkPos , i + 1_pInt )
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case ( 'texture' )
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microstructure_texture ( constituent , section ) = IO_intValue ( line , chunkPos , i + 1_pInt )
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case ( 'fraction' )
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microstructure_fraction ( constituent , section ) = IO_floatValue ( line , chunkPos , i + 1_pInt )
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end select
enddo
end select
endif
enddo
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end subroutine material_parseMicrostructure
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!--------------------------------------------------------------------------------------------------
!> @brief parses the crystallite part in the material configuration file
!--------------------------------------------------------------------------------------------------
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subroutine material_parseCrystallite ( fileUnit , myPart )
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use IO , only : &
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IO_read , &
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IO_countSections , &
IO_error , &
IO_countTagInPart , &
IO_globalTagInPart , &
IO_getTag , &
IO_lc , &
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IO_isBlank , &
IO_EOF
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implicit none
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character ( len = * ) , intent ( in ) :: myPart
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integer ( pInt ) , intent ( in ) :: fileUnit
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integer ( pInt ) :: Nsections , &
section
character ( len = 65536 ) :: line
logical :: echo
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echo = IO_globalTagInPart ( fileUnit , myPart , '/echo/' )
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Nsections = IO_countSections ( fileUnit , myPart )
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material_Ncrystallite = Nsections
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if ( Nsections < 1_pInt ) call IO_error ( 160_pInt , ext_msg = myPart )
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allocate ( crystallite_name ( Nsections ) ) ; crystallite_name = ''
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allocate ( crystallite_Noutput ( Nsections ) , source = 0_pInt )
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crystallite_Noutput = IO_countTagInPart ( fileUnit , myPart , '(output)' , Nsections )
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rewind ( fileUnit )
line = '' ! to have it initialized
section = 0_pInt ! - " -
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do while ( trim ( line ) / = IO_EOF . and . IO_lc ( IO_getTag ( line , '<' , '>' ) ) / = myPart ) ! wind forward to <Crystallite>
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line = IO_read ( fileUnit )
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enddo
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if ( echo ) write ( 6 , '(/,1x,a)' ) trim ( line ) ! echo part header
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do while ( trim ( line ) / = IO_EOF ) ! read through sections of material part
line = IO_read ( fileUnit )
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if ( IO_isBlank ( line ) ) cycle ! skip empty lines
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if ( IO_getTag ( line , '<' , '>' ) / = '' ) then ! stop at next part
line = IO_read ( fileUnit , . true . ) ! reset IO_read
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exit
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endif
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if ( echo ) write ( 6 , '(2x,a)' ) trim ( line ) ! echo back read lines
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if ( IO_getTag ( line , '[' , ']' ) / = '' ) then ! next section
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section = section + 1_pInt
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crystallite_name ( section ) = IO_getTag ( line , '[' , ']' )
endif
enddo
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end subroutine material_parseCrystallite
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!--------------------------------------------------------------------------------------------------
!> @brief parses the phase part in the material configuration file
!--------------------------------------------------------------------------------------------------
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subroutine material_parsePhase ( fileUnit , myPart )
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use IO , only : &
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IO_read , &
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IO_globalTagInPart , &
IO_countSections , &
IO_error , &
IO_countTagInPart , &
IO_getTag , &
IO_spotTagInPart , &
IO_lc , &
IO_isBlank , &
IO_stringValue , &
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IO_stringPos , &
IO_EOF
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implicit none
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character ( len = * ) , intent ( in ) :: myPart
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integer ( pInt ) , intent ( in ) :: fileUnit
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integer ( pInt ) , allocatable , dimension ( : ) :: chunkPos
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integer ( pInt ) :: Nsections , section , sourceCtr , kinematicsCtr , stiffDegradationCtr , p
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character ( len = 65536 ) :: &
tag , line
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logical :: echo
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echo = IO_globalTagInPart ( fileUnit , myPart , '/echo/' )
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Nsections = IO_countSections ( fileUnit , myPart )
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material_Nphase = Nsections
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if ( Nsections < 1_pInt ) call IO_error ( 160_pInt , ext_msg = myPart )
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allocate ( phase_name ( Nsections ) ) ; phase_name = ''
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allocate ( phase_elasticity ( Nsections ) , source = ELASTICITY_undefined_ID )
allocate ( phase_elasticityInstance ( Nsections ) , source = 0_pInt )
allocate ( phase_plasticity ( Nsections ) , source = PLASTICITY_undefined_ID )
allocate ( phase_plasticityInstance ( Nsections ) , source = 0_pInt )
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allocate ( phase_Nsources ( Nsections ) , source = 0_pInt )
allocate ( phase_Nkinematics ( Nsections ) , source = 0_pInt )
allocate ( phase_NstiffnessDegradations ( Nsections ) , source = 0_pInt )
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allocate ( phase_Noutput ( Nsections ) , source = 0_pInt )
allocate ( phase_localPlasticity ( Nsections ) , source = . false . )
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phase_Noutput = IO_countTagInPart ( fileUnit , myPart , '(output)' , Nsections )
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phase_Nsources = IO_countTagInPart ( fileUnit , myPart , '(source)' , Nsections )
phase_Nkinematics = IO_countTagInPart ( fileUnit , myPart , '(kinematics)' , Nsections )
phase_NstiffnessDegradations = IO_countTagInPart ( fileUnit , myPart , '(stiffness_degradation)' , Nsections )
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phase_localPlasticity = . not . IO_spotTagInPart ( fileUnit , myPart , '/nonlocal/' , Nsections )
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allocate ( phase_source ( maxval ( phase_Nsources ) , Nsections ) , source = SOURCE_undefined_ID )
allocate ( phase_kinematics ( maxval ( phase_Nkinematics ) , Nsections ) , source = KINEMATICS_undefined_ID )
allocate ( phase_stiffnessDegradation ( maxval ( phase_NstiffnessDegradations ) , Nsections ) , &
source = STIFFNESS_DEGRADATION_undefined_ID )
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rewind ( fileUnit )
line = '' ! to have it initialized
section = 0_pInt ! - " -
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do while ( trim ( line ) / = IO_EOF . and . IO_lc ( IO_getTag ( line , '<' , '>' ) ) / = myPart ) ! wind forward to <Phase>
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line = IO_read ( fileUnit )
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enddo
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if ( echo ) write ( 6 , '(/,1x,a)' ) trim ( line ) ! echo part header
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do while ( trim ( line ) / = IO_EOF ) ! read through sections of material part
line = IO_read ( fileUnit )
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if ( IO_isBlank ( line ) ) cycle ! skip empty lines
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if ( IO_getTag ( line , '<' , '>' ) / = '' ) then ! stop at next part
line = IO_read ( fileUnit , . true . ) ! reset IO_read
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exit
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endif
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if ( echo ) write ( 6 , '(2x,a)' ) trim ( line ) ! echo back read lines
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if ( IO_getTag ( line , '[' , ']' ) / = '' ) then ! next section
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section = section + 1_pInt
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sourceCtr = 0_pInt
kinematicsCtr = 0_pInt
stiffDegradationCtr = 0_pInt
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phase_name ( section ) = IO_getTag ( line , '[' , ']' )
endif
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if ( section > 0_pInt ) then
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chunkPos = IO_stringPos ( line )
tag = IO_lc ( IO_stringValue ( line , chunkPos , 1_pInt ) ) ! extract key
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select case ( tag )
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case ( 'elasticity' )
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select case ( IO_lc ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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case ( ELASTICITY_HOOKE_label )
phase_elasticity ( section ) = ELASTICITY_HOOKE_ID
case default
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call IO_error ( 200_pInt , ext_msg = trim ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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end select
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case ( 'plasticity' )
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select case ( IO_lc ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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case ( PLASTICITY_NONE_label )
phase_plasticity ( section ) = PLASTICITY_NONE_ID
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case ( PLASTICITY_ISOTROPIC_label )
phase_plasticity ( section ) = PLASTICITY_ISOTROPIC_ID
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case ( PLASTICITY_PHENOPOWERLAW_label )
phase_plasticity ( section ) = PLASTICITY_PHENOPOWERLAW_ID
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case ( PLASTICITY_PHENOPLUS_label )
phase_plasticity ( section ) = PLASTICITY_PHENOPLUS_ID
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case ( PLASTICITY_DISLOTWIN_label )
phase_plasticity ( section ) = PLASTICITY_DISLOTWIN_ID
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case ( PLASTICITY_DISLOUCLA_label )
phase_plasticity ( section ) = PLASTICITY_DISLOUCLA_ID
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case ( PLASTICITY_TITANMOD_label )
phase_plasticity ( section ) = PLASTICITY_TITANMOD_ID
case ( PLASTICITY_NONLOCAL_label )
phase_plasticity ( section ) = PLASTICITY_NONLOCAL_ID
case default
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call IO_error ( 201_pInt , ext_msg = trim ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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end select
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case ( '(source)' )
sourceCtr = sourceCtr + 1_pInt
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select case ( IO_lc ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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case ( SOURCE_thermal_dissipation_label )
phase_source ( sourceCtr , section ) = SOURCE_thermal_dissipation_ID
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case ( SOURCE_thermal_externalheat_label )
phase_source ( sourceCtr , section ) = SOURCE_thermal_externalheat_ID
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case ( SOURCE_damage_isoBrittle_label )
phase_source ( sourceCtr , section ) = SOURCE_damage_isoBrittle_ID
case ( SOURCE_damage_isoDuctile_label )
phase_source ( sourceCtr , section ) = SOURCE_damage_isoDuctile_ID
case ( SOURCE_damage_anisoBrittle_label )
phase_source ( sourceCtr , section ) = SOURCE_damage_anisoBrittle_ID
case ( SOURCE_damage_anisoDuctile_label )
phase_source ( sourceCtr , section ) = SOURCE_damage_anisoDuctile_ID
case ( SOURCE_vacancy_phenoplasticity_label )
phase_source ( sourceCtr , section ) = SOURCE_vacancy_phenoplasticity_ID
case ( SOURCE_vacancy_irradiation_label )
phase_source ( sourceCtr , section ) = SOURCE_vacancy_irradiation_ID
case ( SOURCE_vacancy_thermalfluc_label )
phase_source ( sourceCtr , section ) = SOURCE_vacancy_thermalfluc_ID
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end select
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case ( '(kinematics)' )
kinematicsCtr = kinematicsCtr + 1_pInt
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select case ( IO_lc ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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case ( KINEMATICS_cleavage_opening_label )
phase_kinematics ( kinematicsCtr , section ) = KINEMATICS_cleavage_opening_ID
case ( KINEMATICS_slipplane_opening_label )
phase_kinematics ( kinematicsCtr , section ) = KINEMATICS_slipplane_opening_ID
case ( KINEMATICS_thermal_expansion_label )
phase_kinematics ( kinematicsCtr , section ) = KINEMATICS_thermal_expansion_ID
case ( KINEMATICS_vacancy_strain_label )
phase_kinematics ( kinematicsCtr , section ) = KINEMATICS_vacancy_strain_ID
case ( KINEMATICS_hydrogen_strain_label )
phase_kinematics ( kinematicsCtr , section ) = KINEMATICS_hydrogen_strain_ID
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end select
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case ( '(stiffness_degradation)' )
stiffDegradationCtr = stiffDegradationCtr + 1_pInt
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select case ( IO_lc ( IO_stringValue ( line , chunkPos , 2_pInt ) ) )
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case ( STIFFNESS_DEGRADATION_damage_label )
phase_stiffnessDegradation ( stiffDegradationCtr , section ) = STIFFNESS_DEGRADATION_damage_ID
case ( STIFFNESS_DEGRADATION_porosity_label )
phase_stiffnessDegradation ( stiffDegradationCtr , section ) = STIFFNESS_DEGRADATION_porosity_ID
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end select
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end select
endif
enddo
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do p = 1_pInt , Nsections
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phase_elasticityInstance ( p ) = count ( phase_elasticity ( 1 : p ) == phase_elasticity ( p ) )
phase_plasticityInstance ( p ) = count ( phase_plasticity ( 1 : p ) == phase_plasticity ( p ) )
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enddo
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end subroutine material_parsePhase
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!--------------------------------------------------------------------------------------------------
!> @brief parses the texture part in the material configuration file
!--------------------------------------------------------------------------------------------------
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subroutine material_parseTexture ( fileUnit , myPart )
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use IO , only : &
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IO_read , &
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IO_globalTagInPart , &
IO_countSections , &
IO_error , &
IO_countTagInPart , &
IO_getTag , &
IO_spotTagInPart , &
IO_lc , &
IO_isBlank , &
IO_floatValue , &
IO_stringValue , &
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IO_stringPos , &
IO_EOF
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use math , only : &
inRad , &
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math_sampleRandomOri , &
math_I3 , &
math_inv33
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implicit none
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character ( len = * ) , intent ( in ) :: myPart
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integer ( pInt ) , intent ( in ) :: fileUnit
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integer ( pInt ) , allocatable , dimension ( : ) :: chunkPos
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integer ( pInt ) :: Nsections , section , gauss , fiber , j
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character ( len = 65536 ) :: tag
character ( len = 65536 ) :: line
logical :: echo
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echo = IO_globalTagInPart ( fileUnit , myPart , '/echo/' )
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Nsections = IO_countSections ( fileUnit , myPart )
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material_Ntexture = Nsections
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if ( Nsections < 1_pInt ) call IO_error ( 160_pInt , ext_msg = myPart )
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allocate ( texture_name ( Nsections ) ) ; texture_name = ''
allocate ( texture_ODFfile ( Nsections ) ) ; texture_ODFfile = ''
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allocate ( texture_symmetry ( Nsections ) , source = 1_pInt )
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allocate ( texture_Ngauss ( Nsections ) , source = 0_pInt )
allocate ( texture_Nfiber ( Nsections ) , source = 0_pInt )
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texture_Ngauss = IO_countTagInPart ( fileUnit , myPart , '(gauss)' , Nsections ) + &
IO_countTagInPart ( fileUnit , myPart , '(random)' , Nsections )
texture_Nfiber = IO_countTagInPart ( fileUnit , myPart , '(fiber)' , Nsections )
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texture_maxNgauss = maxval ( texture_Ngauss )
texture_maxNfiber = maxval ( texture_Nfiber )
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allocate ( texture_Gauss ( 5 , texture_maxNgauss , Nsections ) , source = 0.0_pReal )
allocate ( texture_Fiber ( 6 , texture_maxNfiber , Nsections ) , source = 0.0_pReal )
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allocate ( texture_transformation ( 3 , 3 , Nsections ) , source = 0.0_pReal )
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texture_transformation = spread ( math_I3 , 3 , Nsections )
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rewind ( fileUnit )
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line = '' ! to have in initialized
section = 0_pInt ! - " -
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gauss = 0_pInt ! - " -
fiber = 0_pInt ! - " -
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do while ( trim ( line ) / = IO_EOF . and . IO_lc ( IO_getTag ( line , '<' , '>' ) ) / = myPart ) ! wind forward to <texture>
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line = IO_read ( fileUnit )
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enddo
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if ( echo ) write ( 6 , '(/,1x,a)' ) trim ( line ) ! echo part header
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do while ( trim ( line ) / = IO_EOF )
line = IO_read ( fileUnit )
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if ( IO_isBlank ( line ) ) cycle ! skip empty lines
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if ( IO_getTag ( line , '<' , '>' ) / = '' ) then ! stop at next part
line = IO_read ( fileUnit , . true . ) ! reset IO_read
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exit
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endif
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if ( echo ) write ( 6 , '(2x,a)' ) trim ( line ) ! echo back read lines
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if ( IO_getTag ( line , '[' , ']' ) / = '' ) then ! next section
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section = section + 1_pInt
gauss = 0_pInt
fiber = 0_pInt
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texture_name ( section ) = IO_getTag ( line , '[' , ']' )
endif
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if ( section > 0_pInt ) then
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chunkPos = IO_stringPos ( line )
tag = IO_lc ( IO_stringValue ( line , chunkPos , 1_pInt ) ) ! extract key
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textureType : select case ( tag )
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case ( 'axes' , 'rotation' ) textureType
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do j = 1_pInt , 3_pInt ! look for "x", "y", and "z" entries
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tag = IO_lc ( IO_stringValue ( line , chunkPos , j + 1_pInt ) )
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select case ( tag )
case ( 'x' , '+x' )
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texture_transformation ( j , 1 : 3 , section ) = [ 1.0_pReal , 0.0_pReal , 0.0_pReal ] ! original axis is now +x-axis
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case ( '-x' )
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texture_transformation ( j , 1 : 3 , section ) = [ - 1.0_pReal , 0.0_pReal , 0.0_pReal ] ! original axis is now -x-axis
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case ( 'y' , '+y' )
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texture_transformation ( j , 1 : 3 , section ) = [ 0.0_pReal , 1.0_pReal , 0.0_pReal ] ! original axis is now +y-axis
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case ( '-y' )
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texture_transformation ( j , 1 : 3 , section ) = [ 0.0_pReal , - 1.0_pReal , 0.0_pReal ] ! original axis is now -y-axis
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case ( 'z' , '+z' )
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texture_transformation ( j , 1 : 3 , section ) = [ 0.0_pReal , 0.0_pReal , 1.0_pReal ] ! original axis is now +z-axis
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case ( '-z' )
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texture_transformation ( j , 1 : 3 , section ) = [ 0.0_pReal , 0.0_pReal , - 1.0_pReal ] ! original axis is now -z-axis
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case default
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call IO_error ( 157_pInt , section )
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end select
enddo
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case ( 'hybridia' ) textureType
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texture_ODFfile ( section ) = IO_stringValue ( line , chunkPos , 2_pInt )
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case ( 'symmetry' ) textureType
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tag = IO_lc ( IO_stringValue ( line , chunkPos , 2_pInt ) )
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select case ( tag )
case ( 'orthotropic' )
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texture_symmetry ( section ) = 4_pInt
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case ( 'monoclinic' )
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texture_symmetry ( section ) = 2_pInt
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case default
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texture_symmetry ( section ) = 1_pInt
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end select
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case ( '(random)' ) textureType
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gauss = gauss + 1_pInt
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texture_Gauss ( 1 : 3 , gauss , section ) = math_sampleRandomOri ( )
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do j = 2_pInt , 4_pInt , 2_pInt
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tag = IO_lc ( IO_stringValue ( line , chunkPos , j ) )
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select case ( tag )
case ( 'scatter' )
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texture_Gauss ( 4 , gauss , section ) = IO_floatValue ( line , chunkPos , j + 1_pInt ) * inRad
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case ( 'fraction' )
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texture_Gauss ( 5 , gauss , section ) = IO_floatValue ( line , chunkPos , j + 1_pInt )
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end select
enddo
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case ( '(gauss)' ) textureType
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gauss = gauss + 1_pInt
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do j = 2_pInt , 10_pInt , 2_pInt
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tag = IO_lc ( IO_stringValue ( line , chunkPos , j ) )
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select case ( tag )
case ( 'phi1' )
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texture_Gauss ( 1 , gauss , section ) = IO_floatValue ( line , chunkPos , j + 1_pInt ) * inRad
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case ( 'phi' )
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texture_Gauss ( 2 , gauss , section ) = IO_floatValue ( line , chunkPos , j + 1_pInt ) * inRad
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case ( 'phi2' )
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texture_Gauss ( 3 , gauss , section ) = IO_floatValue ( line , chunkPos , j + 1_pInt ) * inRad
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case ( 'scatter' )
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texture_Gauss ( 4 , gauss , section ) = IO_floatValue ( line , chunkPos , j + 1_pInt ) * inRad
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case ( 'fraction' )
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texture_Gauss ( 5 , gauss , section ) = IO_floatValue ( line , chunkPos , j + 1_pInt )
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end select
enddo
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case ( '(fiber)' ) textureType
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fiber = fiber + 1_pInt
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do j = 2_pInt , 12_pInt , 2_pInt
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tag = IO_lc ( IO_stringValue ( line , chunkPos , j ) )
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select case ( tag )
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case ( 'alpha1' )
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texture_Fiber ( 1 , fiber , section ) = IO_floatValue ( line , chunkPos , j + 1_pInt ) * inRad
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case ( 'alpha2' )
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texture_Fiber ( 2 , fiber , section ) = IO_floatValue ( line , chunkPos , j + 1_pInt ) * inRad
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case ( 'beta1' )
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texture_Fiber ( 3 , fiber , section ) = IO_floatValue ( line , chunkPos , j + 1_pInt ) * inRad
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case ( 'beta2' )
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texture_Fiber ( 4 , fiber , section ) = IO_floatValue ( line , chunkPos , j + 1_pInt ) * inRad
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case ( 'scatter' )
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texture_Fiber ( 5 , fiber , section ) = IO_floatValue ( line , chunkPos , j + 1_pInt ) * inRad
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case ( 'fraction' )
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texture_Fiber ( 6 , fiber , section ) = IO_floatValue ( line , chunkPos , j + 1_pInt )
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end select
enddo
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end select textureType
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endif
enddo
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end subroutine material_parseTexture
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!--------------------------------------------------------------------------------------------------
!> @brief populates the grains
!> @details populates the grains by identifying active microstructure/homogenization pairs,
!! calculates the volume of the grains and deals with texture components and hybridIA
!--------------------------------------------------------------------------------------------------
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subroutine material_populateGrains
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use prec , only : &
dEq
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use math , only : &
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math_RtoEuler , &
math_EulerToR , &
math_mul33x33 , &
math_range , &
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math_sampleRandomOri , &
math_sampleGaussOri , &
math_sampleFiberOri , &
math_symmetricEulers
use mesh , only : &
mesh_element , &
mesh_maxNips , &
mesh_NcpElems , &
mesh_ipVolume , &
FE_Nips , &
FE_geomtype
use IO , only : &
IO_error , &
IO_hybridIA
use debug , only : &
debug_level , &
debug_material , &
debug_levelBasic
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implicit none
integer ( pInt ) , dimension ( : , : ) , allocatable :: Ngrains
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integer ( pInt ) , dimension ( microstructure_maxNconstituents ) :: &
NgrainsOfConstituent , &
currentGrainOfConstituent , &
randomOrder
real ( pReal ) , dimension ( microstructure_maxNconstituents ) :: &
rndArray
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real ( pReal ) , dimension ( : ) , allocatable :: volumeOfGrain
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real ( pReal ) , dimension ( : , : ) , allocatable :: orientationOfGrain
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real ( pReal ) , dimension ( 3 ) :: orientation
real ( pReal ) , dimension ( 3 , 3 ) :: symOrientation
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integer ( pInt ) , dimension ( : ) , allocatable :: phaseOfGrain , textureOfGrain
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integer ( pInt ) :: t , e , i , g , j , m , c , r , homog , micro , sgn , hme , myDebug , &
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phaseID , textureID , dGrains , myNgrains , myNorientations , myNconstituents , &
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grain , constituentGrain , ipGrain , symExtension , ip
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real ( pReal ) :: deviation , extreme , rnd
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integer ( pInt ) , dimension ( : , : ) , allocatable :: Nelems ! counts number of elements in homog, micro array
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type ( p_intvec ) , dimension ( : , : ) , allocatable :: elemsOfHomogMicro ! lists element number in homog, micro array
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myDebug = debug_level ( debug_material )
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allocate ( material_volume ( homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) , source = 0.0_pReal )
allocate ( material_phase ( homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) , source = 0_pInt )
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allocate ( material_homog ( mesh_maxNips , mesh_NcpElems ) , source = 0_pInt )
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allocate ( material_texture ( homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) , source = 0_pInt )
allocate ( material_EulerAngles ( 3 , homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) , source = 0.0_pReal )
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allocate ( Ngrains ( material_Nhomogenization , material_Nmicrostructure ) , source = 0_pInt )
allocate ( Nelems ( material_Nhomogenization , material_Nmicrostructure ) , source = 0_pInt )
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! populating homogenization schemes in each
!--------------------------------------------------------------------------------------------------
do e = 1_pInt , mesh_NcpElems
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material_homog ( 1_pInt : FE_Nips ( FE_geomtype ( mesh_element ( 2 , e ) ) ) , e ) = mesh_element ( 3 , e )
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enddo
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!--------------------------------------------------------------------------------------------------
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! precounting of elements for each homog/micro pair
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do e = 1_pInt , mesh_NcpElems
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homog = mesh_element ( 3 , e )
micro = mesh_element ( 4 , e )
Nelems ( homog , micro ) = Nelems ( homog , micro ) + 1_pInt
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enddo
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allocate ( elemsOfHomogMicro ( material_Nhomogenization , material_Nmicrostructure ) )
do homog = 1 , material_Nhomogenization
do micro = 1 , material_Nmicrostructure
if ( Nelems ( homog , micro ) > 0_pInt ) then
allocate ( elemsOfHomogMicro ( homog , micro ) % p ( Nelems ( homog , micro ) ) )
elemsOfHomogMicro ( homog , micro ) % p = 0_pInt
endif
enddo
enddo
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!--------------------------------------------------------------------------------------------------
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! identify maximum grain count per IP (from element) and find grains per homog/micro pair
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Nelems = 0_pInt ! reuse as counter
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elementLooping : do e = 1_pInt , mesh_NcpElems
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t = FE_geomtype ( mesh_element ( 2 , e ) )
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homog = mesh_element ( 3 , e )
micro = mesh_element ( 4 , e )
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if ( homog < 1_pInt . or . homog > material_Nhomogenization ) & ! out of bounds
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call IO_error ( 154_pInt , e , 0_pInt , 0_pInt )
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if ( micro < 1_pInt . or . micro > material_Nmicrostructure ) & ! out of bounds
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call IO_error ( 155_pInt , e , 0_pInt , 0_pInt )
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if ( microstructure_elemhomo ( micro ) ) then ! how many grains are needed at this element?
dGrains = homogenization_Ngrains ( homog ) ! only one set of Ngrains (other IPs are plain copies)
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else
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dGrains = homogenization_Ngrains ( homog ) * FE_Nips ( t ) ! each IP has Ngrains
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endif
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Ngrains ( homog , micro ) = Ngrains ( homog , micro ) + dGrains ! total grain count
Nelems ( homog , micro ) = Nelems ( homog , micro ) + 1_pInt ! total element count
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elemsOfHomogMicro ( homog , micro ) % p ( Nelems ( homog , micro ) ) = e ! remember elements active in this homog/micro pair
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enddo elementLooping
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allocate ( volumeOfGrain ( maxval ( Ngrains ) ) , source = 0.0_pReal ) ! reserve memory for maximum case
allocate ( phaseOfGrain ( maxval ( Ngrains ) ) , source = 0_pInt ) ! reserve memory for maximum case
allocate ( textureOfGrain ( maxval ( Ngrains ) ) , source = 0_pInt ) ! reserve memory for maximum case
allocate ( orientationOfGrain ( 3 , maxval ( Ngrains ) ) , source = 0.0_pReal ) ! reserve memory for maximum case
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if ( iand ( myDebug , debug_levelBasic ) / = 0_pInt ) then
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!$OMP CRITICAL (write2out)
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write ( 6 , '(/,a/)' ) ' MATERIAL grain population'
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write ( 6 , '(a32,1x,a32,1x,a6)' ) 'homogenization_name' , 'microstructure_name' , 'grain#'
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!$OMP END CRITICAL (write2out)
endif
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do homog = 1_pInt , material_Nhomogenization ! loop over homogenizations
dGrains = homogenization_Ngrains ( homog ) ! grain number per material point
do micro = 1_pInt , material_Nmicrostructure ! all pairs of homog and micro
if ( Ngrains ( homog , micro ) > 0_pInt ) then ! an active pair of homog and micro
myNgrains = Ngrains ( homog , micro ) ! assign short name for total number of grains to populate
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myNconstituents = microstructure_Nconstituents ( micro ) ! assign short name for number of constituents
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if ( iand ( myDebug , debug_levelBasic ) / = 0_pInt ) then
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!$OMP CRITICAL (write2out)
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write ( 6 , '(/,a32,1x,a32,1x,i6)' ) homogenization_name ( homog ) , microstructure_name ( micro ) , myNgrains
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!$OMP END CRITICAL (write2out)
endif
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!--------------------------------------------------------------------------------------------------
! calculate volume of each grain
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volumeOfGrain = 0.0_pReal
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grain = 0_pInt
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do hme = 1_pInt , Nelems ( homog , micro )
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e = elemsOfHomogMicro ( homog , micro ) % p ( hme ) ! my combination of homog and micro, only perform calculations for elements with homog, micro combinations which is indexed in cpElemsindex
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t = FE_geomtype ( mesh_element ( 2 , e ) )
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if ( microstructure_elemhomo ( micro ) ) then ! homogeneous distribution of grains over each element's IPs
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volumeOfGrain ( grain + 1_pInt : grain + dGrains ) = sum ( mesh_ipVolume ( 1 : FE_Nips ( t ) , e ) ) / &
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real ( dGrains , pReal ) ! each grain combines size of all IPs in that element
grain = grain + dGrains ! wind forward by Ngrains@IP
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else
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forall ( i = 1_pInt : FE_Nips ( t ) ) & ! loop over IPs
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volumeOfGrain ( grain + ( i - 1 ) * dGrains + 1_pInt : grain + i * dGrains ) = &
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mesh_ipVolume ( i , e ) / real ( dGrains , pReal ) ! assign IPvolume/Ngrains@IP to all grains of IP
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grain = grain + FE_Nips ( t ) * dGrains ! wind forward by Nips*Ngrains@IP
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endif
enddo
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if ( grain / = myNgrains ) &
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call IO_error ( 0 , el = homog , ip = micro , ext_msg = 'inconsistent grain count after volume calc' )
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!--------------------------------------------------------------------------------------------------
! divide myNgrains as best over constituents
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!
! example: three constituents with fractions of 0.25, 0.25, and 0.5 distributed over 20 (microstructure) grains
!
! ***** ***** **********
! NgrainsOfConstituent: 5, 5, 10
! counters:
! |-----> grain (if constituent == 2)
! |--> constituentGrain (of constituent 2)
!
NgrainsOfConstituent = 0_pInt ! reset counter of grains per constituent
forall ( i = 1_pInt : myNconstituents ) &
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NgrainsOfConstituent ( i ) = nint ( microstructure_fraction ( i , micro ) * real ( myNgrains , pReal ) , pInt ) ! do rounding integer conversion
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do while ( sum ( NgrainsOfConstituent ) / = myNgrains ) ! total grain count over constituents wrong?
sgn = sign ( 1_pInt , myNgrains - sum ( NgrainsOfConstituent ) ) ! direction of required change
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extreme = 0.0_pReal
t = 0_pInt
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do i = 1_pInt , myNconstituents ! find largest deviator
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deviation = real ( sgn , pReal ) * log ( microstructure_fraction ( i , micro ) / &
!-------------------------------- &
( real ( NgrainsOfConstituent ( i ) , pReal ) / real ( myNgrains , pReal ) ) )
if ( deviation > extreme ) then
extreme = deviation
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t = i
endif
enddo
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NgrainsOfConstituent ( t ) = NgrainsOfConstituent ( t ) + sgn ! change that by one
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enddo
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!--------------------------------------------------------------------------------------------------
! assign phase and texture info
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phaseOfGrain = 0_pInt
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textureOfGrain = 0_pInt
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orientationOfGrain = 0.0_pReal
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texture : do i = 1_pInt , myNconstituents ! loop over constituents
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grain = sum ( NgrainsOfConstituent ( 1_pInt : i - 1_pInt ) ) ! set microstructure grain index of current constituent
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! "grain" points to start of this constituent's grain population
constituentGrain = 0_pInt ! constituent grain index
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phaseID = microstructure_phase ( i , micro )
textureID = microstructure_texture ( i , micro )
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phaseOfGrain ( grain + 1_pInt : grain + NgrainsOfConstituent ( i ) ) = phaseID ! assign resp. phase
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textureOfGrain ( grain + 1_pInt : grain + NgrainsOfConstituent ( i ) ) = textureID ! assign resp. texture
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myNorientations = ceiling ( real ( NgrainsOfConstituent ( i ) , pReal ) / &
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real ( texture_symmetry ( textureID ) , pReal ) , pInt ) ! max number of unique orientations (excl. symmetry)
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!--------------------------------------------------------------------------------------------------
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! ...has texture components
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if ( texture_ODFfile ( textureID ) == '' ) then
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gauss : do t = 1_pInt , texture_Ngauss ( textureID ) ! loop over Gauss components
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do g = 1_pInt , int ( real ( myNorientations , pReal ) * texture_Gauss ( 5 , t , textureID ) , pInt ) ! loop over required grain count
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orientationOfGrain ( : , grain + constituentGrain + g ) = &
math_sampleGaussOri ( texture_Gauss ( 1 : 3 , t , textureID ) , &
texture_Gauss ( 4 , t , textureID ) )
enddo
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constituentGrain = &
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constituentGrain + int ( real ( myNorientations , pReal ) * texture_Gauss ( 5 , t , textureID ) ) ! advance counter for grains of current constituent
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enddo gauss
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fiber : do t = 1_pInt , texture_Nfiber ( textureID ) ! loop over fiber components
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do g = 1_pInt , int ( real ( myNorientations , pReal ) * texture_Fiber ( 6 , t , textureID ) , pInt ) ! loop over required grain count
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orientationOfGrain ( : , grain + constituentGrain + g ) = &
math_sampleFiberOri ( texture_Fiber ( 1 : 2 , t , textureID ) , &
texture_Fiber ( 3 : 4 , t , textureID ) , &
texture_Fiber ( 5 , t , textureID ) )
enddo
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constituentGrain = &
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constituentGrain + int ( real ( myNorientations , pReal ) * texture_fiber ( 6 , t , textureID ) , pInt ) ! advance counter for grains of current constituent
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enddo fiber
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random : do constituentGrain = constituentGrain + 1_pInt , myNorientations ! fill remainder with random
orientationOfGrain ( : , grain + constituentGrain ) = math_sampleRandomOri ( )
enddo random
!--------------------------------------------------------------------------------------------------
! ...has hybrid IA
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else
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orientationOfGrain ( 1 : 3 , grain + 1_pInt : grain + myNorientations ) = &
IO_hybridIA ( myNorientations , texture_ODFfile ( textureID ) )
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if ( all ( dEq ( orientationOfGrain ( 1 : 3 , grain + 1_pInt ) , - 1.0_pReal ) ) ) call IO_error ( 156_pInt )
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endif
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!--------------------------------------------------------------------------------------------------
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! ...texture transformation
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do j = 1_pInt , myNorientations ! loop over each "real" orientation
orientationOfGrain ( 1 : 3 , grain + j ) = math_RtoEuler ( & ! translate back to Euler angles
math_mul33x33 ( & ! pre-multiply
math_EulertoR ( orientationOfGrain ( 1 : 3 , grain + j ) ) , & ! face-value orientation
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texture_transformation ( 1 : 3 , 1 : 3 , textureID ) & ! and transformation matrix
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) &
)
enddo
!--------------------------------------------------------------------------------------------------
! ...sample symmetry
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symExtension = texture_symmetry ( textureID ) - 1_pInt
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if ( symExtension > 0_pInt ) then ! sample symmetry (number of additional equivalent orientations)
constituentGrain = myNorientations ! start right after "real" orientations
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do j = 1_pInt , myNorientations ! loop over each "real" orientation
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symOrientation = math_symmetricEulers ( texture_symmetry ( textureID ) , &
orientationOfGrain ( 1 : 3 , grain + j ) ) ! get symmetric equivalents
e = min ( symExtension , NgrainsOfConstituent ( i ) - constituentGrain ) ! do not overshoot end of constituent grain array
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if ( e > 0_pInt ) then
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orientationOfGrain ( 1 : 3 , grain + constituentGrain + 1 : &
grain + constituentGrain + e ) = &
symOrientation ( 1 : 3 , 1 : e )
constituentGrain = constituentGrain + e ! remainder shrinks by e
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endif
enddo
endif
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!--------------------------------------------------------------------------------------------------
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! shuffle grains within current constituent
do j = 1_pInt , NgrainsOfConstituent ( i ) - 1_pInt ! walk thru grains of current constituent
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call random_number ( rnd )
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t = nint ( rnd * real ( NgrainsOfConstituent ( i ) - j , pReal ) + real ( j , pReal ) + 0.5_pReal , pInt ) ! select a grain in remaining list
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m = phaseOfGrain ( grain + t ) ! exchange current with random
phaseOfGrain ( grain + t ) = phaseOfGrain ( grain + j )
phaseOfGrain ( grain + j ) = m
m = textureOfGrain ( grain + t ) ! exchange current with random
textureOfGrain ( grain + t ) = textureOfGrain ( grain + j )
textureOfGrain ( grain + j ) = m
orientation = orientationOfGrain ( 1 : 3 , grain + t ) ! exchange current with random
orientationOfGrain ( 1 : 3 , grain + t ) = orientationOfGrain ( 1 : 3 , grain + j )
orientationOfGrain ( 1 : 3 , grain + j ) = orientation
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enddo
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enddo texture
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!< @todo calc fraction after weighing with volumePerGrain, exchange in MC steps to improve result (humbug at the moment)
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!--------------------------------------------------------------------------------------------------
! distribute grains of all constituents as accurately as possible to given constituent fractions
ip = 0_pInt
currentGrainOfConstituent = 0_pInt
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do hme = 1_pInt , Nelems ( homog , micro )
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e = elemsOfHomogMicro ( homog , micro ) % p ( hme ) ! only perform calculations for elements with homog, micro combinations which is indexed in cpElemsindex
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t = FE_geomtype ( mesh_element ( 2 , e ) )
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if ( microstructure_elemhomo ( micro ) ) then ! homogeneous distribution of grains over each element's IPs
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m = 1_pInt ! process only first IP
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else
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m = FE_Nips ( t ) ! process all IPs
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endif
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do i = 1_pInt , m ! loop over necessary IPs
ip = ip + 1_pInt ! keep track of total ip count
ipGrain = 0_pInt ! count number of grains assigned at this IP
randomOrder = math_range ( microstructure_maxNconstituents ) ! start out with ordered sequence of constituents
call random_number ( rndArray ) ! as many rnd numbers as (max) constituents
do j = 1_pInt , myNconstituents - 1_pInt ! loop over constituents ...
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r = nint ( rndArray ( j ) * real ( myNconstituents - j , pReal ) + real ( j , pReal ) + 0.5_pReal , pInt ) ! ... select one in remaining list
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c = randomOrder ( r ) ! ... call it "c"
randomOrder ( r ) = randomOrder ( j ) ! ... and exchange with present position in constituent list
grain = sum ( NgrainsOfConstituent ( 1 : c - 1_pInt ) ) ! figure out actual starting index in overall/consecutive grain population
do g = 1_pInt , min ( dGrains - ipGrain , & ! leftover number of grains at this IP
max ( 0_pInt , & ! no negative values
nint ( real ( ip * dGrains * NgrainsOfConstituent ( c ) ) / & ! fraction of grains scaled to this constituent...
real ( myNgrains ) , pInt ) - & ! ...minus those already distributed
currentGrainOfConstituent ( c ) ) )
ipGrain = ipGrain + 1_pInt ! advance IP grain counter
currentGrainOfConstituent ( c ) = currentGrainOfConstituent ( c ) + 1_pInt ! advance index of grain population for constituent c
material_volume ( ipGrain , i , e ) = volumeOfGrain ( grain + currentGrainOfConstituent ( c ) ) ! assign properties
material_phase ( ipGrain , i , e ) = phaseOfGrain ( grain + currentGrainOfConstituent ( c ) )
material_texture ( ipGrain , i , e ) = textureOfGrain ( grain + currentGrainOfConstituent ( c ) )
material_EulerAngles ( 1 : 3 , ipGrain , i , e ) = orientationOfGrain ( 1 : 3 , grain + currentGrainOfConstituent ( c ) )
enddo ; enddo
c = randomOrder ( microstructure_Nconstituents ( micro ) ) ! look up constituent remaining after random shuffling
grain = sum ( NgrainsOfConstituent ( 1 : c - 1_pInt ) ) ! figure out actual starting index in overall/consecutive grain population
do ipGrain = ipGrain + 1_pInt , dGrains ! ensure last constituent fills up to dGrains
currentGrainOfConstituent ( c ) = currentGrainOfConstituent ( c ) + 1_pInt
material_volume ( ipGrain , i , e ) = volumeOfGrain ( grain + currentGrainOfConstituent ( c ) )
material_phase ( ipGrain , i , e ) = phaseOfGrain ( grain + currentGrainOfConstituent ( c ) )
material_texture ( ipGrain , i , e ) = textureOfGrain ( grain + currentGrainOfConstituent ( c ) )
material_EulerAngles ( 1 : 3 , ipGrain , i , e ) = orientationOfGrain ( 1 : 3 , grain + currentGrainOfConstituent ( c ) )
enddo
enddo
do i = i , FE_Nips ( t ) ! loop over IPs to (possibly) distribute copies from first IP
material_volume ( 1_pInt : dGrains , i , e ) = material_volume ( 1_pInt : dGrains , 1 , e )
material_phase ( 1_pInt : dGrains , i , e ) = material_phase ( 1_pInt : dGrains , 1 , e )
material_texture ( 1_pInt : dGrains , i , e ) = material_texture ( 1_pInt : dGrains , 1 , e )
material_EulerAngles ( 1 : 3 , 1_pInt : dGrains , i , e ) = material_EulerAngles ( 1 : 3 , 1_pInt : dGrains , 1 , e )
enddo
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enddo
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endif ! active homog,micro pair
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enddo
enddo
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deallocate ( volumeOfGrain )
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deallocate ( phaseOfGrain )
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deallocate ( textureOfGrain )
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deallocate ( orientationOfGrain )
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deallocate ( Nelems )
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!> @todo - causing segmentation fault: needs looking into
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!do homog = 1,material_Nhomogenization
! do micro = 1,material_Nmicrostructure
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! if (Nelems(homog,micro) > 0_pInt) deallocate(elemsOfHomogMicro(homog,micro)%p)
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! enddo
!enddo
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deallocate ( elemsOfHomogMicro )
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end subroutine material_populateGrains
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end module material