MODFLOW 6  version 6.7.0.dev0
USGS Modular Hydrologic Model
gwfnpfinputmodule Module Reference

Data Types

type  gwfnpfparamfoundtype
 

Variables

logical, public gwf_npf_multi_package = .false.
 
character(len=16), dimension(*), parameter, public gwf_npf_subpackages = [ ' ' ]
 
type(inputparamdefinitiontype), parameter gwfnpf_ipakcb = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'SAVE_FLOWS', 'IPAKCB', 'KEYWORD', '', 'keyword to save NPF flows', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_iprflow = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'PRINT_FLOWS', 'IPRFLOW', 'KEYWORD', '', 'keyword to print NPF flows to listing file', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_cellavg = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'ALTERNATIVE_CELL_AVERAGING', 'CELLAVG', 'STRING', '', 'conductance weighting option', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_ithickstrt = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'THICKSTRT', 'ITHICKSTRT', 'KEYWORD', '', 'keyword to activate THICKSTRT option', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_cvoptions = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'CVOPTIONS', 'CVOPTIONS', 'RECORD VARIABLECV DEWATERED', '', 'vertical conductance options', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_ivarcv = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'VARIABLECV', 'IVARCV', 'KEYWORD', '', 'keyword to activate VARIABLECV option', .true., .true., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_idewatcv = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'DEWATERED', 'IDEWATCV', 'KEYWORD', '', 'keyword to activate DEWATERED option', .false., .true., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_iperched = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'PERCHED', 'IPERCHED', 'KEYWORD', '', 'keyword to activate PERCHED option', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_rewet_record = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'REWET_RECORD', 'REWET_RECORD', 'RECORD REWET WETFCT IWETIT IHDWET', '', '', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_irewet = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'REWET', 'IREWET', 'KEYWORD', '', 'keyword to activate rewetting', .true., .true., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_wetfct = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'WETFCT', 'WETFCT', 'DOUBLE', '', 'wetting factor to use for rewetting', .true., .true., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_iwetit = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'IWETIT', 'IWETIT', 'INTEGER', '', 'interval to use for rewetting', .true., .true., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_ihdwet = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'IHDWET', 'IHDWET', 'INTEGER', '', 'flag to determine wetting equation', .true., .true., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_xt3doptions = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'XT3DOPTIONS', 'XT3DOPTIONS', 'RECORD XT3D RHS', '', 'keyword to activate XT3D', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_ixt3d = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'XT3D', 'IXT3D', 'KEYWORD', '', 'keyword to activate XT3D', .true., .true., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_ixt3drhs = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'RHS', 'IXT3DRHS', 'KEYWORD', '', 'keyword to XT3D on right hand side', .false., .true., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_isavspdis = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'SAVE_SPECIFIC_DISCHARGE', 'ISAVSPDIS', 'KEYWORD', '', 'keyword to save specific discharge', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_isavsat = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'SAVE_SATURATION', 'ISAVSAT', 'KEYWORD', '', 'keyword to save saturation', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_ik22overk = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'K22OVERK', 'IK22OVERK', 'KEYWORD', '', 'keyword to indicate that specified K22 is a ratio', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_ik33overk = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'K33OVERK', 'IK33OVERK', 'KEYWORD', '', 'keyword to indicate that specified K33 is a ratio', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_tvk_filerecord = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'TVK_FILERECORD', 'TVK_FILERECORD', 'RECORD TVK6 FILEIN TVK6_FILENAME', '', '', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_tvk6 = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'TVK6', 'TVK6', 'KEYWORD', '', 'tvk keyword', .true., .true., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_filein = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'FILEIN', 'FILEIN', 'KEYWORD', '', 'file keyword', .true., .true., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_tvk6_filename = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'TVK6_FILENAME', 'TVK6_FILENAME', 'STRING', '', 'file name of TVK information', .true., .true., .true., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_export_ascii = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'EXPORT_ARRAY_ASCII', 'EXPORT_ASCII', 'KEYWORD', '', 'export array variables to layered ascii files.', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_export_nc = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'EXPORT_ARRAY_NETCDF', 'EXPORT_NC', 'KEYWORD', '', 'export array variables to netcdf output files.', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_inewton = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'DEV_NO_NEWTON', 'INEWTON', 'KEYWORD', '', 'turn off Newton for unconfined cells', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_satomega = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'DEV_OMEGA', 'SATOMEGA', 'DOUBLE', '', 'set saturation omega value', .false., .false., .false., .false., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_icelltype = InputParamDefinitionType ( 'GWF', 'NPF', 'GRIDDATA', 'ICELLTYPE', 'ICELLTYPE', 'INTEGER1D', 'NODES', 'confined or convertible indicator', .true., .false., .false., .true., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_k = InputParamDefinitionType ( 'GWF', 'NPF', 'GRIDDATA', 'K', 'K', 'DOUBLE1D', 'NODES', 'hydraulic conductivity (L/T)', .true., .false., .false., .true., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_k22 = InputParamDefinitionType ( 'GWF', 'NPF', 'GRIDDATA', 'K22', 'K22', 'DOUBLE1D', 'NODES', 'hydraulic conductivity of second ellipsoid axis', .false., .false., .false., .true., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_k33 = InputParamDefinitionType ( 'GWF', 'NPF', 'GRIDDATA', 'K33', 'K33', 'DOUBLE1D', 'NODES', 'hydraulic conductivity of third ellipsoid axis (L/T)', .false., .false., .false., .true., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_angle1 = InputParamDefinitionType ( 'GWF', 'NPF', 'GRIDDATA', 'ANGLE1', 'ANGLE1', 'DOUBLE1D', 'NODES', 'first anisotropy rotation angle (degrees)', .false., .false., .false., .true., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_angle2 = InputParamDefinitionType ( 'GWF', 'NPF', 'GRIDDATA', 'ANGLE2', 'ANGLE2', 'DOUBLE1D', 'NODES', 'second anisotropy rotation angle (degrees)', .false., .false., .false., .true., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_angle3 = InputParamDefinitionType ( 'GWF', 'NPF', 'GRIDDATA', 'ANGLE3', 'ANGLE3', 'DOUBLE1D', 'NODES', 'third anisotropy rotation angle (degrees)', .false., .false., .false., .true., .false. )
 
type(inputparamdefinitiontype), parameter gwfnpf_wetdry = InputParamDefinitionType ( 'GWF', 'NPF', 'GRIDDATA', 'WETDRY', 'WETDRY', 'DOUBLE1D', 'NODES', 'wetdry threshold and factor', .false., .false., .false., .true., .false. )
 
type(inputparamdefinitiontype), dimension(*), parameter, public gwf_npf_param_definitions = [ gwfnpf_ipakcb, gwfnpf_iprflow, gwfnpf_cellavg, gwfnpf_ithickstrt, gwfnpf_cvoptions, gwfnpf_ivarcv, gwfnpf_idewatcv, gwfnpf_iperched, gwfnpf_rewet_record, gwfnpf_irewet, gwfnpf_wetfct, gwfnpf_iwetit, gwfnpf_ihdwet, gwfnpf_xt3doptions, gwfnpf_ixt3d, gwfnpf_ixt3drhs, gwfnpf_isavspdis, gwfnpf_isavsat, gwfnpf_ik22overk, gwfnpf_ik33overk, gwfnpf_tvk_filerecord, gwfnpf_tvk6, gwfnpf_filein, gwfnpf_tvk6_filename, gwfnpf_export_ascii, gwfnpf_export_nc, gwfnpf_inewton, gwfnpf_satomega, gwfnpf_icelltype, gwfnpf_k, gwfnpf_k22, gwfnpf_k33, gwfnpf_angle1, gwfnpf_angle2, gwfnpf_angle3, gwfnpf_wetdry ]
 
type(inputparamdefinitiontype), dimension(*), parameter, public gwf_npf_aggregate_definitions = [ InputParamDefinitionType ( '', '', '', '', '', '', '', '', .false., .false., .false., .false., .false. ) ]
 
type(inputblockdefinitiontype), dimension(*), parameter, public gwf_npf_block_definitions = [ InputBlockDefinitionType( 'OPTIONS', .false., .false., .false. ), InputBlockDefinitionType( 'GRIDDATA', .true., .false., .false. ) ]
 

Variable Documentation

◆ gwf_npf_aggregate_definitions

type(inputparamdefinitiontype), dimension(*), parameter, public gwfnpfinputmodule::gwf_npf_aggregate_definitions = [ InputParamDefinitionType ( '', '', '', '', '', '', '', '', .false., .false., .false., .false., .false. ) ]

Definition at line 750 of file gwf-npfidm.f90.

750  type(InputParamDefinitionType), parameter :: &
751  gwf_npf_aggregate_definitions(*) = &
752  [ &
753  inputparamdefinitiontype &
754  ( &
755  '', & ! component
756  '', & ! subcomponent
757  '', & ! block
758  '', & ! tag name
759  '', & ! fortran variable
760  '', & ! type
761  '', & ! shape
762  '', & ! longname
763  .false., & ! required
764  .false., & ! multi-record
765  .false., & ! preserve case
766  .false., & ! layered
767  .false. & ! timeseries
768  ) &
769  ]

◆ gwf_npf_block_definitions

type(inputblockdefinitiontype), dimension(*), parameter, public gwfnpfinputmodule::gwf_npf_block_definitions = [ InputBlockDefinitionType( 'OPTIONS', .false., .false., .false. ), InputBlockDefinitionType( 'GRIDDATA', .true., .false., .false. ) ]

Definition at line 771 of file gwf-npfidm.f90.

771  type(InputBlockDefinitionType), parameter :: &
772  gwf_npf_block_definitions(*) = &
773  [ &
774  inputblockdefinitiontype( &
775  'OPTIONS', & ! blockname
776  .false., & ! required
777  .false., & ! aggregate
778  .false. & ! block_variable
779  ), &
780  inputblockdefinitiontype( &
781  'GRIDDATA', & ! blockname
782  .true., & ! required
783  .false., & ! aggregate
784  .false. & ! block_variable
785  ) &
786  ]

◆ gwf_npf_multi_package

logical, public gwfnpfinputmodule::gwf_npf_multi_package = .false.

Definition at line 53 of file gwf-npfidm.f90.

53  logical :: gwf_npf_multi_package = .false.

◆ gwf_npf_param_definitions

Definition at line 709 of file gwf-npfidm.f90.

709  type(InputParamDefinitionType), parameter :: &
710  gwf_npf_param_definitions(*) = &
711  [ &
712  gwfnpf_ipakcb, &
713  gwfnpf_iprflow, &
714  gwfnpf_cellavg, &
715  gwfnpf_ithickstrt, &
716  gwfnpf_cvoptions, &
717  gwfnpf_ivarcv, &
718  gwfnpf_idewatcv, &
719  gwfnpf_iperched, &
720  gwfnpf_rewet_record, &
721  gwfnpf_irewet, &
722  gwfnpf_wetfct, &
723  gwfnpf_iwetit, &
724  gwfnpf_ihdwet, &
725  gwfnpf_xt3doptions, &
726  gwfnpf_ixt3d, &
727  gwfnpf_ixt3drhs, &
728  gwfnpf_isavspdis, &
729  gwfnpf_isavsat, &
730  gwfnpf_ik22overk, &
731  gwfnpf_ik33overk, &
732  gwfnpf_tvk_filerecord, &
733  gwfnpf_tvk6, &
734  gwfnpf_filein, &
735  gwfnpf_tvk6_filename, &
736  gwfnpf_export_ascii, &
737  gwfnpf_export_nc, &
738  gwfnpf_inewton, &
739  gwfnpf_satomega, &
740  gwfnpf_icelltype, &
741  gwfnpf_k, &
742  gwfnpf_k22, &
743  gwfnpf_k33, &
744  gwfnpf_angle1, &
745  gwfnpf_angle2, &
746  gwfnpf_angle3, &
747  gwfnpf_wetdry &
748  ]

◆ gwf_npf_subpackages

character(len=16), dimension(*), parameter, public gwfnpfinputmodule::gwf_npf_subpackages = [ ' ' ]

Definition at line 55 of file gwf-npfidm.f90.

55  character(len=16), parameter :: &
56  gwf_npf_subpackages(*) = &
57  [ &
58  ' ' &
59  ]

◆ gwfnpf_angle1

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_angle1 = InputParamDefinitionType ( 'GWF', 'NPF', 'GRIDDATA', 'ANGLE1', 'ANGLE1', 'DOUBLE1D', 'NODES', 'first anisotropy rotation angle (degrees)', .false., .false., .false., .true., .false. )
private

Definition at line 637 of file gwf-npfidm.f90.

637  type(InputParamDefinitionType), parameter :: &
638  gwfnpf_angle1 = inputparamdefinitiontype &
639  ( &
640  'GWF', & ! component
641  'NPF', & ! subcomponent
642  'GRIDDATA', & ! block
643  'ANGLE1', & ! tag name
644  'ANGLE1', & ! fortran variable
645  'DOUBLE1D', & ! type
646  'NODES', & ! shape
647  'first anisotropy rotation angle (degrees)', & ! longname
648  .false., & ! required
649  .false., & ! multi-record
650  .false., & ! preserve case
651  .true., & ! layered
652  .false. & ! timeseries
653  )

◆ gwfnpf_angle2

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_angle2 = InputParamDefinitionType ( 'GWF', 'NPF', 'GRIDDATA', 'ANGLE2', 'ANGLE2', 'DOUBLE1D', 'NODES', 'second anisotropy rotation angle (degrees)', .false., .false., .false., .true., .false. )
private

Definition at line 655 of file gwf-npfidm.f90.

655  type(InputParamDefinitionType), parameter :: &
656  gwfnpf_angle2 = inputparamdefinitiontype &
657  ( &
658  'GWF', & ! component
659  'NPF', & ! subcomponent
660  'GRIDDATA', & ! block
661  'ANGLE2', & ! tag name
662  'ANGLE2', & ! fortran variable
663  'DOUBLE1D', & ! type
664  'NODES', & ! shape
665  'second anisotropy rotation angle (degrees)', & ! longname
666  .false., & ! required
667  .false., & ! multi-record
668  .false., & ! preserve case
669  .true., & ! layered
670  .false. & ! timeseries
671  )

◆ gwfnpf_angle3

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_angle3 = InputParamDefinitionType ( 'GWF', 'NPF', 'GRIDDATA', 'ANGLE3', 'ANGLE3', 'DOUBLE1D', 'NODES', 'third anisotropy rotation angle (degrees)', .false., .false., .false., .true., .false. )
private

Definition at line 673 of file gwf-npfidm.f90.

673  type(InputParamDefinitionType), parameter :: &
674  gwfnpf_angle3 = inputparamdefinitiontype &
675  ( &
676  'GWF', & ! component
677  'NPF', & ! subcomponent
678  'GRIDDATA', & ! block
679  'ANGLE3', & ! tag name
680  'ANGLE3', & ! fortran variable
681  'DOUBLE1D', & ! type
682  'NODES', & ! shape
683  'third anisotropy rotation angle (degrees)', & ! longname
684  .false., & ! required
685  .false., & ! multi-record
686  .false., & ! preserve case
687  .true., & ! layered
688  .false. & ! timeseries
689  )

◆ gwfnpf_cellavg

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_cellavg = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'ALTERNATIVE_CELL_AVERAGING', 'CELLAVG', 'STRING', '', 'conductance weighting option', .false., .false., .false., .false., .false. )
private

Definition at line 97 of file gwf-npfidm.f90.

97  type(InputParamDefinitionType), parameter :: &
98  gwfnpf_cellavg = inputparamdefinitiontype &
99  ( &
100  'GWF', & ! component
101  'NPF', & ! subcomponent
102  'OPTIONS', & ! block
103  'ALTERNATIVE_CELL_AVERAGING', & ! tag name
104  'CELLAVG', & ! fortran variable
105  'STRING', & ! type
106  '', & ! shape
107  'conductance weighting option', & ! longname
108  .false., & ! required
109  .false., & ! multi-record
110  .false., & ! preserve case
111  .false., & ! layered
112  .false. & ! timeseries
113  )

◆ gwfnpf_cvoptions

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_cvoptions = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'CVOPTIONS', 'CVOPTIONS', 'RECORD VARIABLECV DEWATERED', '', 'vertical conductance options', .false., .false., .false., .false., .false. )
private

Definition at line 133 of file gwf-npfidm.f90.

133  type(InputParamDefinitionType), parameter :: &
134  gwfnpf_cvoptions = inputparamdefinitiontype &
135  ( &
136  'GWF', & ! component
137  'NPF', & ! subcomponent
138  'OPTIONS', & ! block
139  'CVOPTIONS', & ! tag name
140  'CVOPTIONS', & ! fortran variable
141  'RECORD VARIABLECV DEWATERED', & ! type
142  '', & ! shape
143  'vertical conductance options', & ! longname
144  .false., & ! required
145  .false., & ! multi-record
146  .false., & ! preserve case
147  .false., & ! layered
148  .false. & ! timeseries
149  )

◆ gwfnpf_export_ascii

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_export_ascii = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'EXPORT_ARRAY_ASCII', 'EXPORT_ASCII', 'KEYWORD', '', 'export array variables to layered ascii files.', .false., .false., .false., .false., .false. )
private

Definition at line 493 of file gwf-npfidm.f90.

493  type(InputParamDefinitionType), parameter :: &
494  gwfnpf_export_ascii = inputparamdefinitiontype &
495  ( &
496  'GWF', & ! component
497  'NPF', & ! subcomponent
498  'OPTIONS', & ! block
499  'EXPORT_ARRAY_ASCII', & ! tag name
500  'EXPORT_ASCII', & ! fortran variable
501  'KEYWORD', & ! type
502  '', & ! shape
503  'export array variables to layered ascii files.', & ! longname
504  .false., & ! required
505  .false., & ! multi-record
506  .false., & ! preserve case
507  .false., & ! layered
508  .false. & ! timeseries
509  )

◆ gwfnpf_export_nc

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_export_nc = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'EXPORT_ARRAY_NETCDF', 'EXPORT_NC', 'KEYWORD', '', 'export array variables to netcdf output files.', .false., .false., .false., .false., .false. )
private

Definition at line 511 of file gwf-npfidm.f90.

511  type(InputParamDefinitionType), parameter :: &
512  gwfnpf_export_nc = inputparamdefinitiontype &
513  ( &
514  'GWF', & ! component
515  'NPF', & ! subcomponent
516  'OPTIONS', & ! block
517  'EXPORT_ARRAY_NETCDF', & ! tag name
518  'EXPORT_NC', & ! fortran variable
519  'KEYWORD', & ! type
520  '', & ! shape
521  'export array variables to netcdf output files.', & ! longname
522  .false., & ! required
523  .false., & ! multi-record
524  .false., & ! preserve case
525  .false., & ! layered
526  .false. & ! timeseries
527  )

◆ gwfnpf_filein

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_filein = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'FILEIN', 'FILEIN', 'KEYWORD', '', 'file keyword', .true., .true., .false., .false., .false. )
private

Definition at line 457 of file gwf-npfidm.f90.

457  type(InputParamDefinitionType), parameter :: &
458  gwfnpf_filein = inputparamdefinitiontype &
459  ( &
460  'GWF', & ! component
461  'NPF', & ! subcomponent
462  'OPTIONS', & ! block
463  'FILEIN', & ! tag name
464  'FILEIN', & ! fortran variable
465  'KEYWORD', & ! type
466  '', & ! shape
467  'file keyword', & ! longname
468  .true., & ! required
469  .true., & ! multi-record
470  .false., & ! preserve case
471  .false., & ! layered
472  .false. & ! timeseries
473  )

◆ gwfnpf_icelltype

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_icelltype = InputParamDefinitionType ( 'GWF', 'NPF', 'GRIDDATA', 'ICELLTYPE', 'ICELLTYPE', 'INTEGER1D', 'NODES', 'confined or convertible indicator', .true., .false., .false., .true., .false. )
private

Definition at line 565 of file gwf-npfidm.f90.

565  type(InputParamDefinitionType), parameter :: &
566  gwfnpf_icelltype = inputparamdefinitiontype &
567  ( &
568  'GWF', & ! component
569  'NPF', & ! subcomponent
570  'GRIDDATA', & ! block
571  'ICELLTYPE', & ! tag name
572  'ICELLTYPE', & ! fortran variable
573  'INTEGER1D', & ! type
574  'NODES', & ! shape
575  'confined or convertible indicator', & ! longname
576  .true., & ! required
577  .false., & ! multi-record
578  .false., & ! preserve case
579  .true., & ! layered
580  .false. & ! timeseries
581  )

◆ gwfnpf_idewatcv

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_idewatcv = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'DEWATERED', 'IDEWATCV', 'KEYWORD', '', 'keyword to activate DEWATERED option', .false., .true., .false., .false., .false. )
private

Definition at line 169 of file gwf-npfidm.f90.

169  type(InputParamDefinitionType), parameter :: &
170  gwfnpf_idewatcv = inputparamdefinitiontype &
171  ( &
172  'GWF', & ! component
173  'NPF', & ! subcomponent
174  'OPTIONS', & ! block
175  'DEWATERED', & ! tag name
176  'IDEWATCV', & ! fortran variable
177  'KEYWORD', & ! type
178  '', & ! shape
179  'keyword to activate DEWATERED option', & ! longname
180  .false., & ! required
181  .true., & ! multi-record
182  .false., & ! preserve case
183  .false., & ! layered
184  .false. & ! timeseries
185  )

◆ gwfnpf_ihdwet

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_ihdwet = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'IHDWET', 'IHDWET', 'INTEGER', '', 'flag to determine wetting equation', .true., .true., .false., .false., .false. )
private

Definition at line 277 of file gwf-npfidm.f90.

277  type(InputParamDefinitionType), parameter :: &
278  gwfnpf_ihdwet = inputparamdefinitiontype &
279  ( &
280  'GWF', & ! component
281  'NPF', & ! subcomponent
282  'OPTIONS', & ! block
283  'IHDWET', & ! tag name
284  'IHDWET', & ! fortran variable
285  'INTEGER', & ! type
286  '', & ! shape
287  'flag to determine wetting equation', & ! longname
288  .true., & ! required
289  .true., & ! multi-record
290  .false., & ! preserve case
291  .false., & ! layered
292  .false. & ! timeseries
293  )

◆ gwfnpf_ik22overk

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_ik22overk = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'K22OVERK', 'IK22OVERK', 'KEYWORD', '', 'keyword to indicate that specified K22 is a ratio', .false., .false., .false., .false., .false. )
private

Definition at line 385 of file gwf-npfidm.f90.

385  type(InputParamDefinitionType), parameter :: &
386  gwfnpf_ik22overk = inputparamdefinitiontype &
387  ( &
388  'GWF', & ! component
389  'NPF', & ! subcomponent
390  'OPTIONS', & ! block
391  'K22OVERK', & ! tag name
392  'IK22OVERK', & ! fortran variable
393  'KEYWORD', & ! type
394  '', & ! shape
395  'keyword to indicate that specified K22 is a ratio', & ! longname
396  .false., & ! required
397  .false., & ! multi-record
398  .false., & ! preserve case
399  .false., & ! layered
400  .false. & ! timeseries
401  )

◆ gwfnpf_ik33overk

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_ik33overk = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'K33OVERK', 'IK33OVERK', 'KEYWORD', '', 'keyword to indicate that specified K33 is a ratio', .false., .false., .false., .false., .false. )
private

Definition at line 403 of file gwf-npfidm.f90.

403  type(InputParamDefinitionType), parameter :: &
404  gwfnpf_ik33overk = inputparamdefinitiontype &
405  ( &
406  'GWF', & ! component
407  'NPF', & ! subcomponent
408  'OPTIONS', & ! block
409  'K33OVERK', & ! tag name
410  'IK33OVERK', & ! fortran variable
411  'KEYWORD', & ! type
412  '', & ! shape
413  'keyword to indicate that specified K33 is a ratio', & ! longname
414  .false., & ! required
415  .false., & ! multi-record
416  .false., & ! preserve case
417  .false., & ! layered
418  .false. & ! timeseries
419  )

◆ gwfnpf_inewton

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_inewton = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'DEV_NO_NEWTON', 'INEWTON', 'KEYWORD', '', 'turn off Newton for unconfined cells', .false., .false., .false., .false., .false. )
private

Definition at line 529 of file gwf-npfidm.f90.

529  type(InputParamDefinitionType), parameter :: &
530  gwfnpf_inewton = inputparamdefinitiontype &
531  ( &
532  'GWF', & ! component
533  'NPF', & ! subcomponent
534  'OPTIONS', & ! block
535  'DEV_NO_NEWTON', & ! tag name
536  'INEWTON', & ! fortran variable
537  'KEYWORD', & ! type
538  '', & ! shape
539  'turn off Newton for unconfined cells', & ! longname
540  .false., & ! required
541  .false., & ! multi-record
542  .false., & ! preserve case
543  .false., & ! layered
544  .false. & ! timeseries
545  )

◆ gwfnpf_ipakcb

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_ipakcb = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'SAVE_FLOWS', 'IPAKCB', 'KEYWORD', '', 'keyword to save NPF flows', .false., .false., .false., .false., .false. )
private

Definition at line 61 of file gwf-npfidm.f90.

61  type(InputParamDefinitionType), parameter :: &
62  gwfnpf_ipakcb = inputparamdefinitiontype &
63  ( &
64  'GWF', & ! component
65  'NPF', & ! subcomponent
66  'OPTIONS', & ! block
67  'SAVE_FLOWS', & ! tag name
68  'IPAKCB', & ! fortran variable
69  'KEYWORD', & ! type
70  '', & ! shape
71  'keyword to save NPF flows', & ! longname
72  .false., & ! required
73  .false., & ! multi-record
74  .false., & ! preserve case
75  .false., & ! layered
76  .false. & ! timeseries
77  )

◆ gwfnpf_iperched

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_iperched = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'PERCHED', 'IPERCHED', 'KEYWORD', '', 'keyword to activate PERCHED option', .false., .false., .false., .false., .false. )
private

Definition at line 187 of file gwf-npfidm.f90.

187  type(InputParamDefinitionType), parameter :: &
188  gwfnpf_iperched = inputparamdefinitiontype &
189  ( &
190  'GWF', & ! component
191  'NPF', & ! subcomponent
192  'OPTIONS', & ! block
193  'PERCHED', & ! tag name
194  'IPERCHED', & ! fortran variable
195  'KEYWORD', & ! type
196  '', & ! shape
197  'keyword to activate PERCHED option', & ! longname
198  .false., & ! required
199  .false., & ! multi-record
200  .false., & ! preserve case
201  .false., & ! layered
202  .false. & ! timeseries
203  )

◆ gwfnpf_iprflow

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_iprflow = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'PRINT_FLOWS', 'IPRFLOW', 'KEYWORD', '', 'keyword to print NPF flows to listing file', .false., .false., .false., .false., .false. )
private

Definition at line 79 of file gwf-npfidm.f90.

79  type(InputParamDefinitionType), parameter :: &
80  gwfnpf_iprflow = inputparamdefinitiontype &
81  ( &
82  'GWF', & ! component
83  'NPF', & ! subcomponent
84  'OPTIONS', & ! block
85  'PRINT_FLOWS', & ! tag name
86  'IPRFLOW', & ! fortran variable
87  'KEYWORD', & ! type
88  '', & ! shape
89  'keyword to print NPF flows to listing file', & ! longname
90  .false., & ! required
91  .false., & ! multi-record
92  .false., & ! preserve case
93  .false., & ! layered
94  .false. & ! timeseries
95  )

◆ gwfnpf_irewet

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_irewet = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'REWET', 'IREWET', 'KEYWORD', '', 'keyword to activate rewetting', .true., .true., .false., .false., .false. )
private

Definition at line 223 of file gwf-npfidm.f90.

223  type(InputParamDefinitionType), parameter :: &
224  gwfnpf_irewet = inputparamdefinitiontype &
225  ( &
226  'GWF', & ! component
227  'NPF', & ! subcomponent
228  'OPTIONS', & ! block
229  'REWET', & ! tag name
230  'IREWET', & ! fortran variable
231  'KEYWORD', & ! type
232  '', & ! shape
233  'keyword to activate rewetting', & ! longname
234  .true., & ! required
235  .true., & ! multi-record
236  .false., & ! preserve case
237  .false., & ! layered
238  .false. & ! timeseries
239  )

◆ gwfnpf_isavsat

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_isavsat = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'SAVE_SATURATION', 'ISAVSAT', 'KEYWORD', '', 'keyword to save saturation', .false., .false., .false., .false., .false. )
private

Definition at line 367 of file gwf-npfidm.f90.

367  type(InputParamDefinitionType), parameter :: &
368  gwfnpf_isavsat = inputparamdefinitiontype &
369  ( &
370  'GWF', & ! component
371  'NPF', & ! subcomponent
372  'OPTIONS', & ! block
373  'SAVE_SATURATION', & ! tag name
374  'ISAVSAT', & ! fortran variable
375  'KEYWORD', & ! type
376  '', & ! shape
377  'keyword to save saturation', & ! longname
378  .false., & ! required
379  .false., & ! multi-record
380  .false., & ! preserve case
381  .false., & ! layered
382  .false. & ! timeseries
383  )

◆ gwfnpf_isavspdis

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_isavspdis = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'SAVE_SPECIFIC_DISCHARGE', 'ISAVSPDIS', 'KEYWORD', '', 'keyword to save specific discharge', .false., .false., .false., .false., .false. )
private

Definition at line 349 of file gwf-npfidm.f90.

349  type(InputParamDefinitionType), parameter :: &
350  gwfnpf_isavspdis = inputparamdefinitiontype &
351  ( &
352  'GWF', & ! component
353  'NPF', & ! subcomponent
354  'OPTIONS', & ! block
355  'SAVE_SPECIFIC_DISCHARGE', & ! tag name
356  'ISAVSPDIS', & ! fortran variable
357  'KEYWORD', & ! type
358  '', & ! shape
359  'keyword to save specific discharge', & ! longname
360  .false., & ! required
361  .false., & ! multi-record
362  .false., & ! preserve case
363  .false., & ! layered
364  .false. & ! timeseries
365  )

◆ gwfnpf_ithickstrt

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_ithickstrt = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'THICKSTRT', 'ITHICKSTRT', 'KEYWORD', '', 'keyword to activate THICKSTRT option', .false., .false., .false., .false., .false. )
private

Definition at line 115 of file gwf-npfidm.f90.

115  type(InputParamDefinitionType), parameter :: &
116  gwfnpf_ithickstrt = inputparamdefinitiontype &
117  ( &
118  'GWF', & ! component
119  'NPF', & ! subcomponent
120  'OPTIONS', & ! block
121  'THICKSTRT', & ! tag name
122  'ITHICKSTRT', & ! fortran variable
123  'KEYWORD', & ! type
124  '', & ! shape
125  'keyword to activate THICKSTRT option', & ! longname
126  .false., & ! required
127  .false., & ! multi-record
128  .false., & ! preserve case
129  .false., & ! layered
130  .false. & ! timeseries
131  )

◆ gwfnpf_ivarcv

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_ivarcv = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'VARIABLECV', 'IVARCV', 'KEYWORD', '', 'keyword to activate VARIABLECV option', .true., .true., .false., .false., .false. )
private

Definition at line 151 of file gwf-npfidm.f90.

151  type(InputParamDefinitionType), parameter :: &
152  gwfnpf_ivarcv = inputparamdefinitiontype &
153  ( &
154  'GWF', & ! component
155  'NPF', & ! subcomponent
156  'OPTIONS', & ! block
157  'VARIABLECV', & ! tag name
158  'IVARCV', & ! fortran variable
159  'KEYWORD', & ! type
160  '', & ! shape
161  'keyword to activate VARIABLECV option', & ! longname
162  .true., & ! required
163  .true., & ! multi-record
164  .false., & ! preserve case
165  .false., & ! layered
166  .false. & ! timeseries
167  )

◆ gwfnpf_iwetit

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_iwetit = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'IWETIT', 'IWETIT', 'INTEGER', '', 'interval to use for rewetting', .true., .true., .false., .false., .false. )
private

Definition at line 259 of file gwf-npfidm.f90.

259  type(InputParamDefinitionType), parameter :: &
260  gwfnpf_iwetit = inputparamdefinitiontype &
261  ( &
262  'GWF', & ! component
263  'NPF', & ! subcomponent
264  'OPTIONS', & ! block
265  'IWETIT', & ! tag name
266  'IWETIT', & ! fortran variable
267  'INTEGER', & ! type
268  '', & ! shape
269  'interval to use for rewetting', & ! longname
270  .true., & ! required
271  .true., & ! multi-record
272  .false., & ! preserve case
273  .false., & ! layered
274  .false. & ! timeseries
275  )

◆ gwfnpf_ixt3d

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_ixt3d = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'XT3D', 'IXT3D', 'KEYWORD', '', 'keyword to activate XT3D', .true., .true., .false., .false., .false. )
private

Definition at line 313 of file gwf-npfidm.f90.

313  type(InputParamDefinitionType), parameter :: &
314  gwfnpf_ixt3d = inputparamdefinitiontype &
315  ( &
316  'GWF', & ! component
317  'NPF', & ! subcomponent
318  'OPTIONS', & ! block
319  'XT3D', & ! tag name
320  'IXT3D', & ! fortran variable
321  'KEYWORD', & ! type
322  '', & ! shape
323  'keyword to activate XT3D', & ! longname
324  .true., & ! required
325  .true., & ! multi-record
326  .false., & ! preserve case
327  .false., & ! layered
328  .false. & ! timeseries
329  )

◆ gwfnpf_ixt3drhs

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_ixt3drhs = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'RHS', 'IXT3DRHS', 'KEYWORD', '', 'keyword to XT3D on right hand side', .false., .true., .false., .false., .false. )
private

Definition at line 331 of file gwf-npfidm.f90.

331  type(InputParamDefinitionType), parameter :: &
332  gwfnpf_ixt3drhs = inputparamdefinitiontype &
333  ( &
334  'GWF', & ! component
335  'NPF', & ! subcomponent
336  'OPTIONS', & ! block
337  'RHS', & ! tag name
338  'IXT3DRHS', & ! fortran variable
339  'KEYWORD', & ! type
340  '', & ! shape
341  'keyword to XT3D on right hand side', & ! longname
342  .false., & ! required
343  .true., & ! multi-record
344  .false., & ! preserve case
345  .false., & ! layered
346  .false. & ! timeseries
347  )

◆ gwfnpf_k

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_k = InputParamDefinitionType ( 'GWF', 'NPF', 'GRIDDATA', 'K', 'K', 'DOUBLE1D', 'NODES', 'hydraulic conductivity (L/T)', .true., .false., .false., .true., .false. )
private

Definition at line 583 of file gwf-npfidm.f90.

583  type(InputParamDefinitionType), parameter :: &
584  gwfnpf_k = inputparamdefinitiontype &
585  ( &
586  'GWF', & ! component
587  'NPF', & ! subcomponent
588  'GRIDDATA', & ! block
589  'K', & ! tag name
590  'K', & ! fortran variable
591  'DOUBLE1D', & ! type
592  'NODES', & ! shape
593  'hydraulic conductivity (L/T)', & ! longname
594  .true., & ! required
595  .false., & ! multi-record
596  .false., & ! preserve case
597  .true., & ! layered
598  .false. & ! timeseries
599  )

◆ gwfnpf_k22

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_k22 = InputParamDefinitionType ( 'GWF', 'NPF', 'GRIDDATA', 'K22', 'K22', 'DOUBLE1D', 'NODES', 'hydraulic conductivity of second ellipsoid axis', .false., .false., .false., .true., .false. )
private

Definition at line 601 of file gwf-npfidm.f90.

601  type(InputParamDefinitionType), parameter :: &
602  gwfnpf_k22 = inputparamdefinitiontype &
603  ( &
604  'GWF', & ! component
605  'NPF', & ! subcomponent
606  'GRIDDATA', & ! block
607  'K22', & ! tag name
608  'K22', & ! fortran variable
609  'DOUBLE1D', & ! type
610  'NODES', & ! shape
611  'hydraulic conductivity of second ellipsoid axis', & ! longname
612  .false., & ! required
613  .false., & ! multi-record
614  .false., & ! preserve case
615  .true., & ! layered
616  .false. & ! timeseries
617  )

◆ gwfnpf_k33

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_k33 = InputParamDefinitionType ( 'GWF', 'NPF', 'GRIDDATA', 'K33', 'K33', 'DOUBLE1D', 'NODES', 'hydraulic conductivity of third ellipsoid axis (L/T)', .false., .false., .false., .true., .false. )
private

Definition at line 619 of file gwf-npfidm.f90.

619  type(InputParamDefinitionType), parameter :: &
620  gwfnpf_k33 = inputparamdefinitiontype &
621  ( &
622  'GWF', & ! component
623  'NPF', & ! subcomponent
624  'GRIDDATA', & ! block
625  'K33', & ! tag name
626  'K33', & ! fortran variable
627  'DOUBLE1D', & ! type
628  'NODES', & ! shape
629  'hydraulic conductivity of third ellipsoid axis (L/T)', & ! longname
630  .false., & ! required
631  .false., & ! multi-record
632  .false., & ! preserve case
633  .true., & ! layered
634  .false. & ! timeseries
635  )

◆ gwfnpf_rewet_record

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_rewet_record = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'REWET_RECORD', 'REWET_RECORD', 'RECORD REWET WETFCT IWETIT IHDWET', '', '', .false., .false., .false., .false., .false. )
private

Definition at line 205 of file gwf-npfidm.f90.

205  type(InputParamDefinitionType), parameter :: &
206  gwfnpf_rewet_record = inputparamdefinitiontype &
207  ( &
208  'GWF', & ! component
209  'NPF', & ! subcomponent
210  'OPTIONS', & ! block
211  'REWET_RECORD', & ! tag name
212  'REWET_RECORD', & ! fortran variable
213  'RECORD REWET WETFCT IWETIT IHDWET', & ! type
214  '', & ! shape
215  '', & ! longname
216  .false., & ! required
217  .false., & ! multi-record
218  .false., & ! preserve case
219  .false., & ! layered
220  .false. & ! timeseries
221  )

◆ gwfnpf_satomega

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_satomega = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'DEV_OMEGA', 'SATOMEGA', 'DOUBLE', '', 'set saturation omega value', .false., .false., .false., .false., .false. )
private

Definition at line 547 of file gwf-npfidm.f90.

547  type(InputParamDefinitionType), parameter :: &
548  gwfnpf_satomega = inputparamdefinitiontype &
549  ( &
550  'GWF', & ! component
551  'NPF', & ! subcomponent
552  'OPTIONS', & ! block
553  'DEV_OMEGA', & ! tag name
554  'SATOMEGA', & ! fortran variable
555  'DOUBLE', & ! type
556  '', & ! shape
557  'set saturation omega value', & ! longname
558  .false., & ! required
559  .false., & ! multi-record
560  .false., & ! preserve case
561  .false., & ! layered
562  .false. & ! timeseries
563  )

◆ gwfnpf_tvk6

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_tvk6 = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'TVK6', 'TVK6', 'KEYWORD', '', 'tvk keyword', .true., .true., .false., .false., .false. )
private

Definition at line 439 of file gwf-npfidm.f90.

439  type(InputParamDefinitionType), parameter :: &
440  gwfnpf_tvk6 = inputparamdefinitiontype &
441  ( &
442  'GWF', & ! component
443  'NPF', & ! subcomponent
444  'OPTIONS', & ! block
445  'TVK6', & ! tag name
446  'TVK6', & ! fortran variable
447  'KEYWORD', & ! type
448  '', & ! shape
449  'tvk keyword', & ! longname
450  .true., & ! required
451  .true., & ! multi-record
452  .false., & ! preserve case
453  .false., & ! layered
454  .false. & ! timeseries
455  )

◆ gwfnpf_tvk6_filename

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_tvk6_filename = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'TVK6_FILENAME', 'TVK6_FILENAME', 'STRING', '', 'file name of TVK information', .true., .true., .true., .false., .false. )
private

Definition at line 475 of file gwf-npfidm.f90.

475  type(InputParamDefinitionType), parameter :: &
476  gwfnpf_tvk6_filename = inputparamdefinitiontype &
477  ( &
478  'GWF', & ! component
479  'NPF', & ! subcomponent
480  'OPTIONS', & ! block
481  'TVK6_FILENAME', & ! tag name
482  'TVK6_FILENAME', & ! fortran variable
483  'STRING', & ! type
484  '', & ! shape
485  'file name of TVK information', & ! longname
486  .true., & ! required
487  .true., & ! multi-record
488  .true., & ! preserve case
489  .false., & ! layered
490  .false. & ! timeseries
491  )

◆ gwfnpf_tvk_filerecord

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_tvk_filerecord = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'TVK_FILERECORD', 'TVK_FILERECORD', 'RECORD TVK6 FILEIN TVK6_FILENAME', '', '', .false., .false., .false., .false., .false. )
private

Definition at line 421 of file gwf-npfidm.f90.

421  type(InputParamDefinitionType), parameter :: &
422  gwfnpf_tvk_filerecord = inputparamdefinitiontype &
423  ( &
424  'GWF', & ! component
425  'NPF', & ! subcomponent
426  'OPTIONS', & ! block
427  'TVK_FILERECORD', & ! tag name
428  'TVK_FILERECORD', & ! fortran variable
429  'RECORD TVK6 FILEIN TVK6_FILENAME', & ! type
430  '', & ! shape
431  '', & ! longname
432  .false., & ! required
433  .false., & ! multi-record
434  .false., & ! preserve case
435  .false., & ! layered
436  .false. & ! timeseries
437  )

◆ gwfnpf_wetdry

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_wetdry = InputParamDefinitionType ( 'GWF', 'NPF', 'GRIDDATA', 'WETDRY', 'WETDRY', 'DOUBLE1D', 'NODES', 'wetdry threshold and factor', .false., .false., .false., .true., .false. )
private

Definition at line 691 of file gwf-npfidm.f90.

691  type(InputParamDefinitionType), parameter :: &
692  gwfnpf_wetdry = inputparamdefinitiontype &
693  ( &
694  'GWF', & ! component
695  'NPF', & ! subcomponent
696  'GRIDDATA', & ! block
697  'WETDRY', & ! tag name
698  'WETDRY', & ! fortran variable
699  'DOUBLE1D', & ! type
700  'NODES', & ! shape
701  'wetdry threshold and factor', & ! longname
702  .false., & ! required
703  .false., & ! multi-record
704  .false., & ! preserve case
705  .true., & ! layered
706  .false. & ! timeseries
707  )

◆ gwfnpf_wetfct

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_wetfct = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'WETFCT', 'WETFCT', 'DOUBLE', '', 'wetting factor to use for rewetting', .true., .true., .false., .false., .false. )
private

Definition at line 241 of file gwf-npfidm.f90.

241  type(InputParamDefinitionType), parameter :: &
242  gwfnpf_wetfct = inputparamdefinitiontype &
243  ( &
244  'GWF', & ! component
245  'NPF', & ! subcomponent
246  'OPTIONS', & ! block
247  'WETFCT', & ! tag name
248  'WETFCT', & ! fortran variable
249  'DOUBLE', & ! type
250  '', & ! shape
251  'wetting factor to use for rewetting', & ! longname
252  .true., & ! required
253  .true., & ! multi-record
254  .false., & ! preserve case
255  .false., & ! layered
256  .false. & ! timeseries
257  )

◆ gwfnpf_xt3doptions

type(inputparamdefinitiontype), parameter gwfnpfinputmodule::gwfnpf_xt3doptions = InputParamDefinitionType ( 'GWF', 'NPF', 'OPTIONS', 'XT3DOPTIONS', 'XT3DOPTIONS', 'RECORD XT3D RHS', '', 'keyword to activate XT3D', .false., .false., .false., .false., .false. )
private

Definition at line 295 of file gwf-npfidm.f90.

295  type(InputParamDefinitionType), parameter :: &
296  gwfnpf_xt3doptions = inputparamdefinitiontype &
297  ( &
298  'GWF', & ! component
299  'NPF', & ! subcomponent
300  'OPTIONS', & ! block
301  'XT3DOPTIONS', & ! tag name
302  'XT3DOPTIONS', & ! fortran variable
303  'RECORD XT3D RHS', & ! type
304  '', & ! shape
305  'keyword to activate XT3D', & ! longname
306  .false., & ! required
307  .false., & ! multi-record
308  .false., & ! preserve case
309  .false., & ! layered
310  .false. & ! timeseries
311  )