GMS:Borehole Commands: Difference between revisions

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{| class="wikitable"
{{Infobox GMS Commands}}
! Menu Command !! Description
When the Borehole module is active the ''Borehole'' menu become active. The menu has the following commands:
|-
 
| [[GMS:Creating_and_Editing_Boreholes|New Borehole]] || Creates a new Borehole.
; [[GMS:Creating_and_Editing_Boreholes|New Borehole]] : Creates a new Borehole.  
|-
; [[GMS:Creating_and_Editing_Boreholes|Borehole Editor...]] : Opens the ''Borehole Editor''.  
| Borehole Editor... || Since it is possible to accidentally drag points, vertices can be "locked" to prevent them from being dragged or edited by toggling on this command.
; [[GMS:Borehole_Cross_Sections|Cross Section Editor...]] : Brings up the ''Cross Section Editor'' dialog where one or multiple 2D cross sections between boreholes are filled.  
|-
; Lock All Boreholes : Turns off the ability to change the position (drag) of created boreholes.  
| [[GMS:Preferences#TINs|TIN Settings...]] || Opens the ''Preferences'' dialog to the settings affecting TINs.
; [[GMS:Creating_and_Editing_Boreholes#Auto_Select|Auto Select Contacts/Segments...]] : When one contact or segment is selected, automatically selects matching contacts or segments on other boreholes.  
|-
; [[GMS:Borehole_Cross_Sections#Automatic_creation|Auto-Create Blank Cross Sections...]] : Automatically connects boreholes with blank borehole cross sections.  
| colspan="2" |
; [[GMS:Horizons#Automatic_Assignment|Auto-Assign Horizons...]] : Automatically assigns horizon IDs to borehole contacts based on material ordering and adjacent boreholes.  
|-
; [[GMS:Borehole_Cross_Sections#Automatic_editing|Auto-Fill Blank Cross Sections...]] : Automatically fills all blank cross sections by connecting the contacts on one borehole to those on the other.  
| [[GMS:Triangulation|Triangulate]] || Creates triangles from existing vertices on the active TIN using the [[GMS:Triangulation|Delauney]] criteria. If triangles already exist, they will be deleted.
; [[GMS:Horizons_to_Solids|Horizons → Solids...]] : Opens the [[GMS:Horizons Wizard|''Horizons to Solids'']] wizard which can be used to create [[GMS:Solid_Module|solids]] from a combination of boreholes, TINs and conceptual models.  
|-
; [[GMS:Horizons_to_3D_Mesh|Horizons → 3D Mesh...]] : Opens the [[GMS:Horizons Wizard|''Horizons to Mesh'']] wizard which can be used to create a [[GMS: 3D_Mesh_Module |3D mesh]] from a combination of boreholes, TINs and conceptual models.  
| [[GMS:Editing_a_TIN#Subdivide_TIN|Subdivide TIN...]] || Opens the ''Subdivision Factor'' dialog letting the user enter a factor by which existing triangles will be split into smaller triangles.
; Horizons → UGrid : Opens the [[GMS:Horizons Wizard|''Horizons to UGrid'']] wizard which can be used to create a [[GMS:UGrid Module |UGrid]] from a combination of boreholes, TINs and conceptual models.
|-
<!--; Zoom To Extents : Frames the Graphics Window around the selected objects.-->
| colspan="2" |
; ''Advanced >'' :
|-
<blockquote style="margin-top:0px; margin-bottom:0px;">
| [[GMS:Converting_TINS_to_Other_Data_Types#TIN_-.3E_2D_Scatter_Points|TIN -> 2D Scatter Points]] || Creates a new [[GMS:2D_Scatter_Point_Module|2D Scatter Point set]] from the vertices of the active TIN. The scatter points could then be used for interpolation.
; [[GMS:Borehole_Hydrogeologic_Units#Soils_->_HGUs, HGUs_->_Soils|HGUs &rarr; Soils]] : Copies the [[GMS:Borehole_Hydrogeologic_Units|HGU]] material IDs to the soil IDs, overwriting the existing soil IDs.  
|-
; [[GMS:Borehole_Hydrogeologic_Units#Soils_->_HGUs, HGUs_->_Soils|Soils &rarr; HGUs]] : Copies the soil material IDs to the [[GMS:Borehole_Hydrogeologic_Units|HGU]] IDs, overwriting the existing HGU IDs.
| [[GMS:Converting_TINS_to_Other_Data_Types#TIN_-.3E_2D_Mesh|TIN -> 2D Mesh]] || Creates a new [[GMS:2D_Mesh_Module|2D mesh]] from the active TIN, preserving the triangles.
; [[GMS:Borehole_Cross_Sections#Automatic_creation|Snap Cross Sections to TIN...]] : Opens a dialog that allows snapping the top and/or bottom arcs of the cross sections to TINs.  
|-
; Snap Boreholes to TIN... : Opens a dialog that allows selecting a TIN. The selected boreholes (or all, if none are selected) are moved up or down in the Z direction such that their tops just touch the TIN surface. Multiple TINs can be selected. If a borehole can be snapped to more than one TIN, it will be snapped to whichever TIN is last.  
| [[GMS:Creating_a_3D_Mesh#Fill_Between_TINs_-.3E_3D_Mesh|Fill Between TINs -> 3D Mesh]] || Creates a [[GMS:3D_Mesh_Module|3D mesh]], or adds onto an existing 3D mesh, by filling in the space between two TINs. A 2D mesh must exist and is used as a projection mesh for the 3D elements. Two TINs must be selected.
; [[GMS:Converting_Borehole_Data|Add Contacts to TIN]] : Inserts a new vertex into the active TIN at the location of every selected borehole contact.  
|-
; Bounding 3D Grid... : Opens the [[GMS:Creating and Editing 3D Grids|''Create Finite Difference Grid'']] dialog with dimensions defaulted such that the new grid will surround all existing boreholes.  
| colspan="2" |
; [[GMS:Converting_Borehole_Data|Contacts &rarr; TIN]] : Creates a new TIN with vertices at the locations of the selected contacts.
|-
; [[GMS:Converting_Borehole_Data|Contacts &rarr; 2D Scatter Points...]] : Creates a new 2D scatter point set with vertices at the locations of the selected contacts.  
| [[GMS:Horizons_to_Solids|Horizons -> Solids...]] || Opens the Horizons to Solids wizard which can be used to create [[GMS:Solid_Module|solids]] from a combination of boreholes, TINs and conceptual models.
; [[GMS:Converting_Borehole_Data|Watertable &rarr; 2D Scatter Points...]] : Creates a new 2D scatter point set with vertices at the locations of the water table specified on each borehole.
|-
; [[GMS:Converting_Borehole_Data|Sample Data &rarr; 3D Scatter Points...]] : Brings up the ''Sample Data &rarr; Scatter Points'' dialog that is used to create a 3D scatter point set from sample data.  
| [[GMS:Horizons_to_3D_Mesh|Horizons -> 3D Mesh...]] || Opens the Horizons to Mesh wizard which can be used to create a [[GMS: 3D_Mesh_Module |3D mesh]] from a combination of boreholes, TINs and conceptual models.
; Sample Data &rarr; Stratigraphy : Opens the ''Sample Data &rarr; Stratigraphy'' dialog that allows defining stratigraphy (borehole contacts) based on the sample data.  
|-
; [[GMS:Horizons_to_HUF|Horizons &rarr; HUF]] : Opens the ''Horizons &rarr; HUF'' wizard to create [[GMS:HUF_Package|MODFLOW HUF]] data from TINs and boreholes. TINs or boreholes with horizon data defined are required, along with a MODFLOW simulation which uses the HUF package.
| '''Advanced >''' ||
</blockquote>
|-
 
| TIN Boundary -> Polygon || Creates a new coverage containing a polygon derived from the outer boundary of the TIN.
==Related Topics==
|-
* [[GMS:Boreholes|Boreholes]]
| TIN Thiessen -> Polygons || Creates a new coverage containing polygons derived from the [[GMS:TIN_Display_Options#thiessen polygons|thiessen polygons]] of the TIN.
|-
| TIN Contours -> Arcs || Creates a new coverage containing feature arcs derived from the linear contours displayed on the TIN.
|-
| Vertex Strings -> Arcs || Creates a new coverage containing a feature arc derived from the vertex string on the TIN (if one exists).
|-
| TIN -> Extruded Solid || Opens the ''Extrude/Offset Tin -> Solid'' dialog which is used to extrude the TIN vertically up or down to form a solid.
|-
| [[GMS:Building_Solids_and_3D_Meshes_with_TINs|Fill Between TINs -> Solid]] || Creates a [[GMS:Solid_Module|solid]] by extruding one or more TINs to a base elevation and then performing a [[GMS:Set_Operations|set operation]] to remove the solid portions outside the TINs.
|-
| colspan="2" |
|-
| [[GMS:Editing_a_TIN#Adding_Breaklines|Add Breakline(s)]] || Inserts edges into the TIN from a defined breakline, splitting or swapping triangles as necessary.
|-
| Select Boundary Triangles || Selects triangles on the outer boundary which meet the "long and thin" criteria specified in [[GMS:Preferences#TINs|TIN settings]].
|-
| Snap Vertices to TIN || Given some selected vertices, moves them so that they are on the surface of a TIN selected from a dialog.
|-
| colspan="2" |
|-
| Intersect TINS || Displays the intersection line between two selected TIN surfaces (if they intersect).
|-
| [[GMS:Horizons_to_HUF|Horizons -> HUF]] || Opens the Horizons -> HUF wizard to create [[GMS:HUF_Package|MODFLOW HUF]] data from TINs and boreholes. TINs or boreholes with horizon data defined are required, along with a MODFLOW simulation which uses the HUF package.
|}




{{Navbox GMS}}
{{Navbox GMS}}
[[Category:TINs]]
[[Category:Boreholes|Com]]
[[Category:Menus]]
[[Category:GMS Menus]]

Latest revision as of 18:52, 29 March 2022

GMS Commands
Common
File
Edit
Display
Modules
TINs
Boreholes
Solids
Mesh (2D)
Grid (2D)
Scatter Points (2D)
Interpolation (2D and 3D)
Mesh (3D)
Grid (3D)
Scatter Points (3D)
Feature Objects
GIS
UGrid
Models
FEMWATER
MODAEM
MODFLOW
mod-PATH3DU
MODPATH
MT3DMS
SEAWAT
SEEP2D
T-PROGS
UTEXAS

When the Borehole module is active the Borehole menu become active. The menu has the following commands:

New Borehole
Creates a new Borehole.
Borehole Editor...
Opens the Borehole Editor.
Cross Section Editor...
Brings up the Cross Section Editor dialog where one or multiple 2D cross sections between boreholes are filled.
Lock All Boreholes
Turns off the ability to change the position (drag) of created boreholes.
Auto Select Contacts/Segments...
When one contact or segment is selected, automatically selects matching contacts or segments on other boreholes.
Auto-Create Blank Cross Sections...
Automatically connects boreholes with blank borehole cross sections.
Auto-Assign Horizons...
Automatically assigns horizon IDs to borehole contacts based on material ordering and adjacent boreholes.
Auto-Fill Blank Cross Sections...
Automatically fills all blank cross sections by connecting the contacts on one borehole to those on the other.
Horizons → Solids...
Opens the Horizons to Solids wizard which can be used to create solids from a combination of boreholes, TINs and conceptual models.
Horizons → 3D Mesh...
Opens the Horizons to Mesh wizard which can be used to create a 3D mesh from a combination of boreholes, TINs and conceptual models.
Horizons → UGrid
Opens the Horizons to UGrid wizard which can be used to create a UGrid from a combination of boreholes, TINs and conceptual models.
Advanced >
HGUs → Soils
Copies the HGU material IDs to the soil IDs, overwriting the existing soil IDs.
Soils → HGUs
Copies the soil material IDs to the HGU IDs, overwriting the existing HGU IDs.
Snap Cross Sections to TIN...
Opens a dialog that allows snapping the top and/or bottom arcs of the cross sections to TINs.
Snap Boreholes to TIN...
Opens a dialog that allows selecting a TIN. The selected boreholes (or all, if none are selected) are moved up or down in the Z direction such that their tops just touch the TIN surface. Multiple TINs can be selected. If a borehole can be snapped to more than one TIN, it will be snapped to whichever TIN is last.
Add Contacts to TIN
Inserts a new vertex into the active TIN at the location of every selected borehole contact.
Bounding 3D Grid...
Opens the Create Finite Difference Grid dialog with dimensions defaulted such that the new grid will surround all existing boreholes.
Contacts → TIN
Creates a new TIN with vertices at the locations of the selected contacts.
Contacts → 2D Scatter Points...
Creates a new 2D scatter point set with vertices at the locations of the selected contacts.
Watertable → 2D Scatter Points...
Creates a new 2D scatter point set with vertices at the locations of the water table specified on each borehole.
Sample Data → 3D Scatter Points...
Brings up the Sample Data → Scatter Points dialog that is used to create a 3D scatter point set from sample data.
Sample Data → Stratigraphy
Opens the Sample Data → Stratigraphy dialog that allows defining stratigraphy (borehole contacts) based on the sample data.
Horizons → HUF
Opens the Horizons → HUF wizard to create MODFLOW HUF data from TINs and boreholes. TINs or boreholes with horizon data defined are required, along with a MODFLOW simulation which uses the HUF package.

Related Topics