Read MI Table Links == <.mif/.mid_file> 50
Read Materials File == 51
Relative Resistance == [ {RELATIVE} | MATERIAL ] 51
S Channel Approach == [ PRE 2004-06-AA ] 51
Storage Above Structure Obvert == [ {CHANNEL WIDTH} | ] 51
Trim XZ Profiles == [ ON | {OFF} ] 52
XS Database == 52
[ BG | CS | NA | VG ].... ! Fixed Field Flags 60
BG Data == 60
CS Data == 60
NA Data == 61
VG Data == 61
Read MI IWL == <.mif/.mid_file> 69
Set IWL == 69
BC Database == <.csv_file> 77
BC Event Name == 77
BC Event Text == 78
EB Data == 78
Read MI BC == <.mif/.mid_file> 78
Cell Size == 9
Grid Size (N,M) == , 9
Grid Size (X,Y) == , 9
Orientation == , 9
Orientation Angle == 10
Origin == , 10
Read MI Location == <.mif/.mid_file> 10
Read TGA == <.tga_file> 18
Read TGF == <.tgf_file> 18
External Bndy == , , , 27
Read MI [ MAT | IWL | CnM | FRIC | WrF | FLC ] == 28
Read MI Code [ {} | BC ] == 28
Read MID [ CODE | MAT | IWL | CnM | FRIC | WrF | FLC ] == 28
Read MID Grid == 29
Set [ CODE | MAT | IWL | CnM | FRIC | WrF ] == 29
Write MI Domain == <.mif/.mid_file> 29
Write MI Grid == <.mif/.mid_file> 29
Allow Dangling Z Lines == [ ON | {OFF} ] 38
Default Land Z == 38
Interpolate ZC [ {} | ALL ] [ {} | LOWER ] 38
Interpolate [ ZHC | ZUVC ] [ {} | ALL ] [ {} | AFTER ] 39
Pause When Polyline Does Not Find Zpt == [ ON | {OFF} ] 39
Read MI Z Line [ {} | RIDGE or MAX | GULLY or MIN | HX ] [ {} | CC ] [ {} | THICK ] [ {} | ADD ] == 40
Read MI Zpts [ {} | ADD | MAX | MIN ] == 41
Read MID Zpts [ {} | ADD | MAX | MIN ] == 41
Set Zpt == 42
Write MI Zpts == 42
ZC == MIN(ZU,ZV) 42
Read File == 51
Stop 51
BC Database == <.csv_file> 9
BC Event Name == 9
BC Event Text == 10
Global Rainfall Area Factor == [ {1.0} | ] 10
Global Rainfall BC == 10
Global Rainfall Continuing Loss == [ {0} | ] 10
Global Rainfall Initial Loss == [ {0} | ] 10
Read MI BC == <.mif/.mid_file> 10
Read MI SA [ {} | Rainfall ] == <.mif/.mid_file> 11
Unused HX and SX Connections == [ {ERROR} | WARNING ] 11
[ BG | CS | NA | VG ].... ! Fixed Field Flags
(1D & 2D/1D. Optional)
Tables in ESTRY’s fixed field format (ie. BG, CS, NA and VG tables – see Appendix E) maybe specified at any point in the .ecf file or in another file and accessed using the commands below.
BG Data ==
(1D & 2D/1D. Optional)
Reads bridge structure properties tables in ESTRY’s fixed field format (ie. BG tables – see Section E.1). The bridge channel must exist in a 1d_nwk layer. The command can be used any number of times to access more than one file, and the file may contain other information besides BG tables.
CS Data ==
(1D & 2D/1D. Optional)
Reads channel cross-section properties tables in ESTRY’s fixed field format (ie. CS tables – see Section E.2). The channel must exist in a 1d_nwk layer, otherwise an error message occurs. The command can be used any number of times to access more than one file, and the file may contain other information besides CS tables. If channel cross-section properties have been previously specified for a channel (for example, from an external source or in a previous CS table), the last table read for that channel prevails.
NA Data ==
(1D & 2D/1D. Optional)
Reads node storage properties tables in ESTRY’s fixed field format (ie. NA tables – see Section E.4). The node must exist in a 1d_nwk layer, otherwise an error message occurs. The command can be used any number of times to access more than one file, and the file may contain other information besides NA tables. If node storage properties have been previously specified for a node (for example, using the Use_Chan_Storage_at_Node attribute or from a previous NA table), the last table read for that node prevails.
VG Data ==
(1D & 2D/1D. Optional)
Reads variable geometry channel properties tables in ESTRY’s fixed field format (ie. VG tables – see Section E.6). The variable geometry channel must exist in a 1d_nwk layer. The command can be used any number of times to access more than one file, and the file may contain other information besides VG tables.
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