This reference manual details the use of modules distributed with
Geographic Resources Analysis Support System (GRASS), an open source (GNU
GPL'ed), image processing and geographic information system (GIS).
Go
| d.ask | Prompts the user to select a GRASS data base file from among files displayed in a menu on the graphics monitor. |
| d.barscale | Displays a barscale on the graphics monitor. |
| d.colorlist | Output a list of all available display colors with a configurable separator (default is comma). |
| d.colors | Allows the user to interactively change the color table of a raster map layer displayed on the graphics monitor. |
| d.colortable | Displays the color table associated with a raster map layer. |
| d.correlate | Prints a graph of the correlation between raster maps (in pairs). |
| d.erase | Erase the contents of the active display frame with user defined color |
| d.extend | Sets window region so that all currently displayed raster and vector maps can be shown in a monitor. |
| d.extract | Selects and extracts vectors with mouse into new vector map. |
| d.font | Selects the font in which text will be displayed on the user's graphics monitor. |
| d.frame | Manages display frames on the user's graphics monitor. |
| d.geodesic | Displays a geodesic line, tracing the shortest distance between two geographic points along a great circle, in a longitude/latitude data set. |
| d.graph | Program for generating and displaying simple graphics on the display monitor. |
| d.grid | Overlays a user-specified grid in the active display frame on the graphics monitor. |
| d.his | Displays the result obtained by combining hue, intensity, and saturation (his) values from user-specified input raster map layers. |
| d.histogram | Displays a histogram in the form of a pie or bar chart for a user-specified raster map. |
| d.info | Display information about the active display monitor |
| d.labels | Displays text labels (created with v.label) to the active frame on the graphics monitor. |
| d.legend | Displays a legend for a raster map in the active frame of the graphics monitor. |
| d.linegraph | Generates and displays simple line graphs in the active graphics monitor display frame. |
| d.mapgraph | Generates and displays simple graphics on map layers drawn in the active graphics monitor display frame. |
| d.measure | Measures the lengths and areas of features drawn by the user in the active display frame on the graphics monitor. |
| d.menu | Creates and displays a menu within the active frame on the graphics monitor. |
| d.m | Display manager for GRASS |
| d.mon | To establish and control use of a graphics display monitor. |
| d.monsize | Selects/starts specified monitor at specified size |
| d.mvmon | Moves displayed maps to another monitor |
| d.nviz | Creates fly-through script to run in NVIZ. |
| d.out.file | Saves the contents of the active display monitor to a graphics file. |
| d.out.gpsdrive | Export display monitor to a GpsDrive compatible backdrop image |
| d.out.png | Saves active display monitor to PNG file in home directory |
| d.path | Finds shortest path for selected starting and ending node. |
| d.polar | Draws polar diagram of angle map such as aspect or flow directions |
| d.profile | Interactive profile plotting utility with optional output. |
| d.rast.arrow | Draws arrows representing cell aspect direction for a raster map containing aspect data. |
| d.rast.edit | Interactively edit cell values in a raster map. |
| d.rast | Displays user-specified raster map in the active graphics frame. |
| d.rast.leg | Displays a raster map and its legend on a graphics window |
| d.rast.num | Overlays cell category values on a raster map layer displayed to the graphics monitor. |
| d.redraw | Redraws the current display frame in the GRASS monitor |
| d.resize | Resizes active display monitor |
| d.rgb | Displays three user-specified raster maps as red, green, and blue overlays in the active graphics frame. |
| d.rhumbline | Displays the rhumbline joining two user-specified points, in the active frame on the user's graphics monitor. |
| d.save | Creates a list of commands for recreating screen graphics. |
| d.shadedmap | Drapes a color raster over a shaded relief map using d.his. |
| d.slide.show | Slide show of GRASS raster/vector maps. |
| d.split.frame | Split the display into subframes. |
| d.split | Divides active display into two frames & displays maps/executes commands in each frame. |
| d.text | Draws text in the active display frame on the graphics monitor using the current font. |
| d.thematic.area | Displays a thematic vector area map in the active frame on the graphics monitor. |
| d.title | Create a TITLE for a raster map in a form suitable for display with d.text. |
| d.vect.chart | Displays charts of vector data in the active frame on the graphics monitor. |
| d.vect | Displays user-specified vector map in the active graphics frame. |
| d.vect.thematic | Displays thematic vector map |
| d.what.rast | Allows the user to interactively query the category contents of multiple raster map layers at user specified locations within the current geographic region. |
| d.what.vect | Allows the user to interactively query a vector map layer at user-selected locations within the current geographic region. |
| d.where | Identifies the geographic coordinates associated with point locations in the active frame on the graphics monitor. |
| d.zoom | Allows the user to change the current geographic region settings interactively, with a mouse. |
| i.atcorr | Performs atmospheric correction using the 6S algorithm.
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| i.cca | Canonical components analysis (cca) program for image processing. |
| i.class | Generates spectral signatures for an image by allowing the user to outline regions of interest.
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| i.cluster | Generates spectral signatures for land cover types in an image using a clustering algorithm.
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| i.fft | Fast Fourier Transform (FFT) for image processing. |
| i.fusion.brovey | Brovey transform to merge multispectral and high-res panchromatic channels |
| i.gensig | Generates statistics for i.maxlik from raster map. |
| i.gensigset | Generates statistics for i.smap from raster map. |
| i.group | Creates, edits, and lists groups and subgroups of imagery data. |
| i.his.rgb | Transforms raster maps from HIS (Hue-Intensity-Saturation) color space to RGB (Red-Green-Blue) color space. |
| i.ifft | Inverse Fast Fourier Transform (IFFT) for image processing. |
| i.image.mosaic | Mosaics up to 4 images and extends colormap; creates map *.mosaic |
| i.in.spotvgt | Import of SPOT VGT NDVI file into a raster map |
| i.landsat.acca | Performs Landsat TM/ETM+ Automatic Cloud Cover Assessment (ACCA). |
| i.landsat.rgb | Performs auto-balancing of colors for LANDSAT images. |
| i.landsat.toar | Calculates top-of-atmosphere radiance or reflectance and temperature for Landsat MSS/TM/ETM+/OLI |
| i.maxlik | Classifies the cell spectral reflectances in imagery data.
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| i.modis.qc | Extracts quality control parameters from Modis QC layers. |
| i.oif | Calculates Optimum-Index-Factor table for LANDSAT TM bands 1-5, & 7 |
| i.ortho.photo | Menu driver for the photo imagery programs. |
| i.pca | Principal components analysis (PCA) for image processing. |
| i.photo.2image | Interactively mark fiducial or reseau points on an image. |
| i.photo.2target | Creates control points on an image to be ortho-rectified. |
| i.photo.camera | Interactively select and modify the imagery group camera reference file. |
| i.photo.init | Interactively creates or modifies entries in a camera initial exposure station file for imagery group referenced by a sub-block. |
| i.photo.rectify | Orthorectifies an image by using the image to photo coordinate transformation matrix. |
| i.points | Mark ground control points on image to be rectified. |
| i.rectify | Rectifies an image by computing a coordinate transformation for each pixel in the image based on the control points. |
| i.rgb.his | Transforms raster maps from RGB (Red-Green-Blue) color space to HIS (Hue-Intensity-Saturation) color space. |
| i.smap | Performs contextual image classification using sequential maximum a posteriori (SMAP) estimation. |
| i.spectral | Displays spectral response at user specified locations in group or images. |
| i.target | Targets an imagery group to a GRASS location and mapset. |
| i.tasscap | Tasseled Cap (Kauth Thomas) transformation for LANDSAT-TM data |
| i.topo.corr | Computes topographic correction of reflectance. |
| i.vpoints | Set registration points for an imagery group from a vector map or keyboard entry. |
| i.zc | Zero-crossing "edge detection" raster function for image processing. |
| r.average | Finds the average of values in a cover map within areas assigned the same category value in a user-specified base map. |
| r.basins.fill | Generates watershed subbasins raster map. |
| r.bilinear | Bilinear interpolation utility for raster map layers. |
| r.bitpattern | Compares bit patterns with a raster map. |
| r.blend | Blends color components of two raster maps by a given ratio. |
| r.buffer | Creates a raster map layer showing buffer zones surrounding cells that contain non-NULL category values. |
| r.carve | Generates stream channels.
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| r.category | Manages category values and labels associated with user-specified raster map layers. |
| r.circle | Creates a raster map containing concentric rings around a given point. |
| r.clump | Recategorizes data in a raster map by grouping cells that form physically discrete areas into unique categories. |
| r.coin | Tabulates the mutual occurrence (coincidence) of categories for two raster map layers. |
| r.colors | Creates/modifies the color table associated with a raster map layer. |
| r.colors.out | Exports the color table associated with a raster map layer. |
| r.colors.stddev | Set color rules based on stddev from a map's mean value. |
| r.composite | Combines red, green and blue raster maps into a single composite raster map. |
| r.compress | Compresses and decompresses raster maps. |
| r.contour | Produces a vector map of specified contours from a raster map. |
| r.cost | Creates a raster map showing the cumulative cost of moving between different geographic locations on an input raster map whose cell category values represent cost. |
| r.covar | Outputs a covariance/correlation matrix for user-specified raster map layer(s). |
| r.cross | Creates a cross product of the category values from multiple raster map layers. |
| r.describe | Prints terse list of category values found in a raster map layer. |
| r.digit | Interactive tool used to draw and save vector features on a graphics monitor using a pointing device (mouse) and save to a raster map. |
| r.distance | Locates the closest points between objects in two raster maps. |
| r.drain | Traces a flow through an elevation model on a raster map. |
| r.external | Link GDAL supported raster file to a binary raster map layer. |
| r.fill.dir | Filters and generates a depressionless elevation map and a flow direction map from a given elevation raster map. |
| r.fillnulls | Fills no-data areas in raster maps using spline interpolation. |
| r.flow | Construction of slope curves (flowlines), flowpath lengths, and flowline densities (upslope areas) from a raster digital elevation model (DEM). |
| r.grow.distance | Generates a raster map containing distances to nearest raster features. |
| r.grow | Generates a raster map layer with contiguous areas grown by one cell. |
| r.gwflow | Numerical calculation program for transient, confined and unconfined groundwater flow in two dimensions. |
| r.his | Generates red, green and blue raster map layers combining hue, intensity and saturation (HIS) values from user-specified input raster map layers. |
| r.horizon | Horizon angle computation from a digital elevation model.
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| r.in.arc | Converts an ESRI ARC/INFO ascii raster file (GRID) into a (binary) raster map layer. |
| r.in.ascii | Converts ASCII raster file to binary raster map layer. |
| r.in.aster | Georeference, rectify and import Terra-ASTER imagery and relative DEM's using gdalwarp. |
| r.in.bin | Import a binary raster file into a GRASS raster map. |
| r.info | Output basic information about a raster map layer. |
| r.in.gdal | Import GDAL supported raster file into a binary raster map layer. |
| r.in.gridatb | Imports GRIDATB.FOR map file (TOPMODEL) into GRASS raster map |
| r.in.mat | Imports a binary MAT-File(v4) to a GRASS raster. |
| r.in.poly | Creates raster maps from ASCII polygon/line/point data files. |
| r.in.srtm | Import SRTM HGT files into GRASS |
| r.in.wms | Downloads and imports data from WMS servers. |
| r.in.xyz | Create a raster map from an assemblage of many coordinates using univariate statistics. |
| r.kappa | Calculate error matrix and kappa parameter for accuracy assessment of classification result. |
| r.lake | Fills lake at given point to given level. |
| r.le.patch | Calculates attribute, patch size, core (interior) size, shape, fractal dimension, and perimeter measures for sets of patches in a landscape. |
| r.le.pixel | Contains a set of measures for attributes, diversity, texture, juxtaposition, and edge. |
| r.le.setup | Interactive tool used to setup the sampling and analysis framework that will be used by the other r.le programs. |
| r.le.trace | Displays the boundary of each r.le patch and shows how the boundary is traced, displays the attribute, size, perimeter and shape indices for each patch and saves the data in an output file. |
| r.li.cwed | Calculates contrast weighted edge density index on a raster map |
| r.li.daemon | Support module for r.li landscape index calculations. |
| r.li.dominance | Calculates dominance's diversity index on a raster map |
| r.li.edgedensity | Calculates edge density index on a raster map, using a 4 neighbour algorithm |
| r.li | Landscape structure analysis package overview. |
| r.li.mpa | Calculates mean pixel attribute index on a raster map |
| r.li.mps | Calculates mean patch size index on a raster map, using a 4 neighbour algorithm |
| r.li.padcv | Calculates coefficient of variation of patch area on a raster map |
| r.li.padrange | Calculates range of patch area size on a raster map |
| r.li.padsd | Calculates standard deviation of patch area a raster map |
| r.li.patchdensity | Calculates patch density index on a raster map, using a 4 neighbour algorithm |
| r.li.patchnum | Calculates patch number index on a raster map, using a 4 neighbour algorithm. |
| r.li.pielou | Calculates Pielou's diversity index on a raster map |
| r.li.renyi | Calculates Renyi's diversity index on a raster map |
| r.li.richness | Calculates richness index on a raster map |
| r.li.setup | Configuration editor for r.li.'index' |
| r.li.shannon | Calculates Shannon's diversity index on a raster map |
| r.li.shape | Calculates shape index on a raster map |
| r.li.simpson | Calculates Simpson's diversity index on a raster map |
| r.los | Line-of-sight raster analysis program. |
| r.mapcalc | Raster map calculator. |
| r.mapcalculator | Calculate new raster map from a r.mapcalc expression. |
| r.mask | Creates a MASK for limiting raster operation. |
| r.median | Finds the median of values in a cover map within areas assigned the same category value in a user-specified base map. |
| r.mfilter.fp | Raster map matrix filter. |
| r.mfilter | Performs raster map matrix filter. |
| r.mode | Finds the mode of values in a cover map within areas assigned the same category value in a user-specified base map. |
| r.neighbors | Makes each cell category value a function of the category values assigned to the cells around it, and stores new cell values in an output raster map layer. |
| r.null | Manages NULL-values of given raster map. |
| r.out.arc | Converts a raster map layer into an ESRI ARCGRID file. |
| r.out.ascii | Converts a raster map layer into an ASCII text file. |
| r.out.bin | Exports a GRASS raster map to a binary array. |
| r.out.gdal | Exports GRASS raster maps into GDAL supported formats. |
| r.out.gdal.sh | Exports GRASS raster into GDAL supported formats. |
| r.out.gridatb | Exports GRASS raster map to GRIDATB.FOR map file (TOPMODEL) |
| r.out.mat | Exports a GRASS raster to a binary MAT-File. |
| r.out.mpeg | Raster File Series to MPEG Conversion. |
| r.out.png | Export GRASS raster as non-georeferenced PNG image. |
| r.out.pov | Converts a raster map layer into a height-field file for POVRAY. |
| r.out.ppm3 | Converts 3 GRASS raster layers (R,G,B) to a PPM image file at the pixel resolution of the CURRENTLY DEFINED REGION. |
| r.out.ppm | Converts a GRASS raster map to a PPM image file at the pixel resolution of the currently defined region. |
| r.out.tiff | Exports a GRASS raster map to a 8/24bit TIFF image file at the pixel resolution of the currently defined region. |
| r.out.vrml | Export a raster map to the Virtual Reality Modeling Language (VRML) |
| r.out.vtk | Converts raster maps into the VTK-Ascii format |
| r.out.xyz | Export a raster map to a text file as x,y,z values based on cell centers. |
| r.pack | Packs up a raster map and support files for copying. |
| r.param.scale | Extracts terrain parameters from a DEM.
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| r.patch | Creates a composite raster map layer by using known category values from one (or more) map layer(s) to fill in areas of "no data" in another map layer. |
| r.plane | Creates raster plane map given dip (inclination), aspect (azimuth) and one point. |
| r.profile | Outputs the raster map layer values lying on user-defined line(s). |
| r.proj | Re-projects a raster map from one location to the current location. |
| r.quant | Produces the quantization file for a floating-point map. |
| r.quantile | Compute quantiles using two passes. |
| r.random.cells | Generates random cell values with spatial dependence. |
| r.random | Creates a raster map layer and vector point map containing randomly located points. |
| r.random.surface | Generates random surface(s) with spatial dependence. |
| r.reclass.area | Reclasses a raster map greater or less than user specified area size (in hectares). |
| r.reclass | Reclassify raster map based on category values.
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| r.recode | Recodes categorical raster maps. |
| r.region | Sets the boundary definitions for a raster map. |
| r.regression.line | Calculates linear regression from two raster maps: y = a + b*x. |
| r.report | Reports statistics for raster map layers. |
| r.resamp.interp | Resamples raster map layers to a finer grid using interpolation. |
| r.resample | GRASS raster map layer data resampling capability. |
| r.resamp.rst | Reinterpolates and optionally computes topographic analysis from input raster map to a new raster map (possibly with different resolution) using regularized spline with tension and smoothing. |
| r.resamp.stats | Resamples raster map layers to a coarser grid using aggregation. |
| r.rescale.eq | Rescales histogram equalized the range of category values in a raster map layer. |
| r.rescale | Rescales the range of category values in a raster map layer. |
| r.ros | Generates three, or four raster map layers showing 1) the base (perpendicular) rate of spread (ROS), 2) the maximum (forward) ROS, 3) the direction of the maximum ROS, and optionally 4) the maximum potential spotting distance. |
| r.series | Makes each output cell value a function of the values assigned to the corresponding cells in the input raster map layers. |
| r.shaded.relief | Creates shaded relief map from an elevation map (DEM). |
| r.sim.sediment | Sediment transport and erosion/deposition simulation using path sampling method (SIMWE). |
| r.sim.water | Overland flow hydrologic simulation using path sampling method (SIMWE). |
| r.slope.aspect | Generates raster maps of slope, aspect, curvatures and partial derivatives from a elevation raster map.
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| r.spread | Simulates elliptically anisotropic spread on a graphics window and generates a raster map of the cumulative time of spread, given raster maps containing the rates of spread (ROS), the ROS directions and the spread origins.
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| r.spreadpath | Recursively traces the least cost path backwards to cells from which the cumulative cost was determined. |
| r.statistics | Calculates category or object oriented statistics. |
| r.stats | Generates area statistics for raster map layers. |
| r.sum | Sums up the raster cell values. |
| r.sun | Solar irradiance and irradiation model.
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| r.sunmask | Calculates cast shadow areas from sun position and elevation raster map.
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| r.support | Allows creation and/or modification of raster map layer support files. |
| r.support.stats | Update raster map statistics |
| r.surf.area | Surface area estimation for rasters. |
| r.surf.contour | Surface generation program from rasterized contours. |
| r.surf.fractal | Creates a fractal surface of a given fractal dimension. |
| r.surf.gauss | GRASS module to produce a raster map layer of gaussian deviates whose mean and standard deviation can be expressed by the user. It uses a gaussian random number generator. |
| r.surf.idw2 | Surface generation program. |
| r.surf.idw | Surface interpolation utility for raster map. |
| r.surf.random | Produces a raster map of uniform random deviates whose range can be expressed by the user. |
| r.terraflow | Flow computation for massive grids (float version). |
| r.texture | Generate images with textural features from a raster map. |
| r.thin | Thins non-zero cells that denote linear features in a raster map. |
| r.tileset | Produces tilings of the source projection for use in the destination region and projection. |
| r.timestamp | Modifies a timestamp for a raster map.
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| r.topidx | Creates topographic index map from elevation raster map. |
| r.topmodel | Simulates TOPMODEL which is a physically based hydrologic model. |
| r.to.rast3elev | Creates a 3D volume map based on 2D elevation and value raster maps. |
| r.to.rast3 | Converts 2D raster map slices to one 3D raster volume map. |
| r.to.vect | Converts a raster map into a vector map. |
| r.transect | Outputs raster map layer values lying along user defined transect line(s). |
| r.univar | Calculates univariate statistics from the non-null cells of a raster map. |
| r.univar.sh | calculates univariate statistics from a GRASS raster map |
| r.unpack | Unpacks a raster map packed with r.pack. |
| r.volume | Calculates the volume of data "clumps", and (optionally) produces a GRASS vector points map containing the calculated centroids of these clumps. |
| r.walk | Creates a raster map showing the anisotropic cumulative cost of moving between different geographic locations on an input raster map whose cell category values represent cost. |
| r.water.outlet | Watershed basin creation program. |
| r.watershed | Watershed basin analysis program. |
| r.what.color | Queries colors for a raster map layer. |
| r.what | Queries raster map layers on their category values and category labels. |
| v.buffer | Creates a buffer around vector features of given type. |
| v.build.all | Rebuilds topology on all vector maps in the current mapset. |
| v.build | Creates topology for GRASS vector map. |
| v.build.polylines | Builds polylines from lines or boundaries. |
| v.category | Attach, delete or report vector categories to map geometry. |
| v.centroids | Adds missing centroids to closed boundaries. |
| v.class | Classifies attribute data, e.g. for thematic mapping |
| v.clean | Toolset for cleaning topology of vector map. |
| v.colors | Set color rules for features in a vector using a numeric attribute column. |
| v.convert.all | Converts all older versions of GRASS vector maps in current mapset to current format. |
| v.convert | Imports older versions of GRASS vector maps. |
| v.db.addcol | Adds one or more columns to the attribute table connected to a given vector map. |
| v.db.addtable | Creates and connects a new attribute table to a given layer of an existing vector map. |
| v.db.connect | Prints/sets DB connection for a vector map to attribute table. |
| v.db.dropcol | Drops a column from the attribute table connected to a given vector map. |
| v.db.droptable | Removes existing attribute table of a vector map. |
| v.db.join | Joins a database table to a vector map table. |
| v.db.reconnect.all | Reconnects vectors to a new database. |
| v.db.renamecol | Renames a column in the attribute table connected to a given vector map. |
| v.db.select | Prints vector map attributes. |
| v.db.univar | Calculates univariate statistics on selected table column for a GRASS vector map. |
| v.db.update | Updates a column in the attribute table connected to a vector map. |
| v.delaunay | Creates a Delaunay triangulation from an input vector map containing points or centroids. |
| v.digit | Interactive editing and digitization of vector maps. |
| v.dissolve | Dissolves boundaries between adjacent areas sharing a common category number or attribute. |
| v.distance | Finds the nearest element in vector map 'to' for elements in vector map 'from'. |
| v.drape | Converts vector map to 3D by sampling of elevation raster map. |
| v.edit | Edits a vector map, allows adding, deleting and modifying selected vector features. |
| v.external | Creates a new vector as a read-only link to OGR layer. |
| v.extract | Selects vector objects from an existing vector map and creates a new map containing only the selected objects. |
| v.extrude | Extrudes flat vector object to 3D with defined height. |
| v.generalize | Vector based generalization. |
| v.hull | Produces a convex hull for a given vector map. |
| v.in.ascii | Creates a vector map from ASCII points file or ASCII vector file. |
| v.in.db | Creates new vector (points) map from database table containing coordinates. |
| v.in.dxf | Converts files in DXF format to GRASS vector map format. |
| v.in.e00 | Import E00 file into a vector map. |
| v.info | Outputs basic information about a user-specified vector map. |
| v.in.garmin | Download waypoints, routes, and tracks from a Garmin GPS receiver into a vector map. |
| v.in.geonames | Imports geonames.org country files into a GRASS vector points map. |
| v.in.gns | Imports US-NGA GEOnet Names Server (GNS) country files into a GRASS vector points map. |
| v.in.gpsbabel | Import waypoints, routes, and tracks from a GPS receiver or GPS download file into a vector map. |
| v.in.lines | Import ASCII x,y[,z] coordinates as a series of lines. |
| v.in.mapgen | Imports Mapgen or Matlab-ASCII vector maps into GRASS. |
| v.in.ogr | Convert OGR vector layers to GRASS vector map. |
| v.in.region | Creates a vector polygon from the current region extent. |
| v.in.sites.all | Converts all old GRASS < Ver5.7 sites maps in current mapset to vector maps. |
| v.in.sites | Converts a GRASS site_lists file into a vector map. |
| v.in.wfs | Import GetFeature from WFS |
| v.kcv | Randomly partition points into test/train sets. |
| v.kernel | Generates a raster density map from vector point data using a moving kernel or optionally generates a vector density map on a vector network. |
| v.label | Creates paint labels for a vector map from attached attributes. |
| v.label.sa | Create optimally placed labels for vector map(s) |
| v.lidar.correction | Correction of the v.lidar.growing output. It is the last of the three algorithms for LIDAR filtering. |
| v.lidar.edgedetection | Detects the object's edges from a LIDAR data set. |
| v.lidar.growing | Building contour determination and Region Growing algorithm for determining the building inside |
| v.lrs.create | Creates Linear Reference System |
| v.lrs.label | Creates stationing from input lines, and linear reference system |
| v.lrs.segment | Creates points/segments from input lines, linear reference system and positions read from stdin or a file. |
| v.lrs.where | Finds line id and real km+offset for given points in vector map using linear reference system. |
| v.mkgrid | Creates a GRASS vector map of a user-defined grid. |
| v.neighbors | Makes each cell value a function of the attribute values assigned to the vector points or centroids around it, and stores new cell values in an output raster map layer. |
| v.net.alloc | Allocate subnets for nearest centres (direction from centre).
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| v.net.allpairs | Computes the shortest path between all pairs of nodes in the network. |
| v.net.bridge | Computes bridges and articulation points in the network. |
| v.net.centrality | Computes degree, centrality, betweeness, closeness and eigenvector centrality measures in the network. |
| v.net.components | Computes strongly and weakly connected components in the network. |
| v.net.connectivity | Computes vertex connectivity between two sets of nodes in the network. |
| v.net.distance | Computes shortest distance via the network between the given sets of features.
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| v.net.flow | Computes the maximum flow between two sets of nodes in the network. |
| v.net | Performs network maintenance. |
| v.net.iso | Splits net by cost isolines.
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| v.net.path | Finds shortest path on vector network. |
| v.net.salesman | Creates a cycle connecting given nodes (Traveling salesman problem).
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| v.net.spanningtree | Computes minimum spanning tree for the network. |
| v.net.steiner | Create Steiner tree for the network and given terminals
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| v.net.timetable | Finds shortest path using timetables. |
| v.net.visibility | Visibility graph construction. |
| v.normal | Tests for normality for points. |
| v.out.ascii | Converts a GRASS binary vector map to a GRASS ASCII vector map. |
| v.out.dxf | Exports GRASS vector map layers to DXF file format. |
| v.out.gpsbabel | Exports a vector map to a GPS receiver or file format supported by GpsBabel. |
| v.outlier | Removes outliers from vector point data. |
| v.out.ogr | Converts GRASS vector map to one of the supported OGR vector formats. |
| v.out.pov | Converts to POV-Ray format, GRASS x,y,z -> POV-Ray x,z,y |
| v.out.svg | Exports a GRASS vector map to SVG. |
| v.out.vtk | Converts a GRASS binary vector map to VTK ASCII output. |
| v.overlay | Overlays two vector maps. |
| v.parallel | Creates parallel line to input vector lines. |
| v.patch | Create a new vector map layer by combining other vector map layers. |
| v.perturb | Random location perturbations of GRASS vector points |
| v.proj | Re-projects a vector map from one location to the current location. |
| v.qcount | Indices for quadrat counts of sites lists. |
| v.random | Randomly generate a 2D/3D vector points map. |
| v.rast.stats | Calculates univariate statistics from a raster map based on a vector map and uploads statistics to new attribute columns. |
| v.reclass | Changes vector category values for an existing vector map according to results of SQL queries or a value in attribute table column. |
| v.report | Reports geometry statistics for vectors. |
| v.sample | Samples a raster map at vector point locations. |
| v.segment | Creates points/segments from input vector lines and positions. |
| v.select | Selects features from vector map (A) by features from other vector map (B). |
| v.split | Split lines to shorter segments. |
| v.support | Updates vector map metadata. |
| v.surf.bspline | Bicubic or bilinear spline interpolation with Tykhonov regularization. |
| v.surf.idw | Surface interpolation from vector point data by Inverse Distance Squared Weighting. |
| v.surf.rst | Spatial approximation and topographic analysis from given point or isoline data in vector format to floating point raster format using regularized spline with tension. |
| v.to.3d | Performs transformation of 2D vector features to 3D. |
| v.to.db | Populates database values from vector features. |
| v.to.points | Create points along input lines in new vector with 2 layers. |
| v.to.rast3 | Converts a binary GRASS vector map (only points) layer into a 3D GRASS raster map layer. |
| v.to.rast | Converts (rasterize) a vector map into a raster map. |
| v.transform | Performs an affine transformation (shift, scale and rotate, or GPCs) on vector map. |
| v.type | Change the type of geometry elements. |
| v.univar | Calculates univariate statistics for attribute. Variance and standard deviation is calculated only for points if specified. |
| v.univar.sh | Calculates univariate statistics on selected table column for a GRASS vector map. |
| v.vect.stats | Count points in areas, calculate statistics. |
| v.vol.rst | Interpolates point data to a 3D raster map using regularized spline with tension (RST) algorithm. |
| v.voronoi | Creates a Voronoi diagram from an input vector map containing points or centroids. |
| v.what | Queries a vector map layer at given locations. |
| v.what.rast | Uploads raster values at positions of vector points to the table. |
| v.what.vect | Uploads vector values at positions of vector points to the table. |
