Modules (Classic Mode)¶
Note
Looking for the modern mode modules like begin
and figure
? See the
equivalent page for modern mode.
This is a list of all GMT “classic mode” core and supplemental modules and their uses, as well as some utility scripts. These modules are fully compatible with GMT 4 and 5. All modules are requested via a call to the gmt program.
Core Modules¶
Supplemental Modules¶
Utility Scripts¶
Plotting¶
Plot the GMT logo |
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Make contour map using a grid |
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Project and plot grids or images |
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Plot vector field from two component grids |
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Create 3-D perspective image or surface mesh from a grid |
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Plot base maps and frames |
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Initialize or terminate polygonal clip paths |
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Plot continents, countries, shorelines, rivers, and borders |
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Contour table data by direct triangulation |
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Plot event symbols, lines, polygons and labels for a moment in time |
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Calculate and plot histograms |
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Plot raster or EPS images |
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Plot a legend |
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Clip or mask map areas with no data table coverage |
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Plot a polar histogram (rose, sector, windrose diagrams) |
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Plot gray scale or color scale bar |
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Plot day-light terminators and other sunlight parameters |
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Plot data on ternary diagrams |
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Plot or typeset text |
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Plot z = f(x,y) anomalies along tracks |
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Plot lines, polygons, and symbols in 2-D |
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Plot lines, polygons, and symbols in 3-D |
Filtering¶
Block average (x,y,z) data tables by mean estimation |
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Block average (x,y,z) data tables by median estimation |
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Block average (x,y,z) data tables by mode estimation |
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Directional filtering of grids in the space domain |
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Time domain filtering of 1-D data tables |
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Filter a grid in the space (or time) domain |
Gridding¶
Interpolate using Green’s functions for splines in 1-3 dimensions |
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Grid table data using a "Nearest neighbor" algorithm |
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Spherical gridding in tension of data on a sphere |
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Grid table data using adjustable tension continuous curvature splines |
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Delaunay triangulation or Voronoi partitioning and gridding of Cartesian data |
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Interpolate a 3-D cube, 2-D grids or 1-D series from a 3-D data cube or stack of 2-D grids |
Sampling of 1-D and 2-D data¶
Line reduction using the Douglas-Peucker algorithm |
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Resample a grid onto a new lattice |
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Sample grids at specified (x,y) locations |
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Resample 1-D table data using splines |
Projection and map-transformation¶
Forward and inverse map transformation of grids |
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Forward and inverse map transformations, datum conversions and geodesy |
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Project data onto lines or great circles, or generate tracks |
Information retrieval¶
List current GMT default settings |
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Get individual GMT default settings or download data sets |
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Get information about data tables |
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Change individual GMT default settings |
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Extract information from 2-D grids or 3-D cubes |
Mathematical operations on tables or grids¶
Reverse Polish Notation (RPN) calculator for data tables |
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Make GMT color palette tables |
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Compute auto- [and cross-] spectra from one [or two] time series |
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Compute grid from spherical harmonic coefficients |
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Create Voronoi distance, node, or natural nearest-neighbor grid on a sphere |
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Delaunay or Voronoi construction of spherical data |
Convert or extract subsets of data¶
Bin spatial data and determine statistics per bin |
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Connect individual lines whose end points match within tolerance |
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Convert, paste, or extract columns from data tables |
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Select data table subsets based on multiple spatial criteria |
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Geospatial operations on points, lines and polygons |
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Split xyz[dh] data tables into individual segments |
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Operations on Cartesian vectors in 2-D and 3-D |
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Create KML image quadtree from single grid |
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Convert grid to data table |
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Blend several partially overlapping grids into one larger grid |
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Convert between different grid formats |
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Extract subregion from a grid |
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Join two grids along their common edge |
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Convert data table to a grid |
Trends in 1-D and 2-D data¶
Find mean position and great [or small] circle fit to points on sphere |
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Linear regression of 1-D data sets |
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Fit trend surface to grids and compute residuals |
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Fit [weighted] [robust] polynomial/Fourier model for y = f(x) to xy[w] data |
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Fit [weighted] [robust] polynomial for z = f(x,y) to xyz[w] data |
Grid operations¶
Make linear or histogram-equalized color palette table from grid |
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Clip the range of grid values |
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Modify header or content of a grid |
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Mathematical operations on grids in the spectral domain |
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Interpolate across holes in a grid |
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Compute directional gradients from a grid |
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Perform histogram equalization for a grid |
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Create a "wet-dry" mask grid from shoreline data base |
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Create mask grid from polygons or point coverage |
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Reverse Polish Notation (RPN) calculator for grids (element by element) |
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Blending and transforming grids and images |
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Calculate grid volume and area constrained by a contour |
Miscellaneous¶
Automate batch job processing |
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Show HTML documentation of specified module |
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Convert GMT data table to Google Earth KML file |
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Execute GDAL raster programs from GMT |
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Find full path to specified files |
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Find full path to specified files |
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Extract GMT table data from Google Earth KML files |
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Convert [E]PS file(s) to other formats using Ghostscript |
geodesy¶
Compute grids or time-series of solid Earth tides |
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Interpolate GPS strains using Green’s functions for elastic deformation |
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Plot velocity vectors, crosses, anisotropy bars and wedges |
MGD77¶
Convert MGD77 data to other formats |
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Create MGD77 headers from A77 files |
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Extract information about MGD77 files |
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Extract data from MGD77 files |
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Evaluate the IGRF or CM4 magnetic field models |
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Manage the content of MGD77+ files |
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Return paths to MGD77 cruises and directories |
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Along-track quality control of MGD77 cruises |
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Plot track-lines of MGD77 cruises |
potential¶
Compute flexural deformation of 2-D loads, forces, and bending moments |
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Compute the gravity/magnetic anomaly of a 3-D body by the method of Okabe |
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Spectral calculations of gravity, isostasy, admittance, and coherence for grids |
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Compute flexural deformation of 3-D surfaces for various rheologies |
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Computes the gravity effect of one (or two) grids by the method of Okabe |
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Compute the Continuous Reduction To the Pole, AKA differential RTP |
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Create synthetic seamounts (Gaussian, parabolic, polynomial, cone or disc; circular or elliptical) |
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Compute geopotential anomalies over 2-D bodies by the method of Talwani |
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Compute geopotential anomalies over 3-D bodies by the method of Talwani |
SEGY¶
Plot a SEGY file in 3-D |
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Plot a SEGY file in 2-D |
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Converting SEGY data to a grid |
seis¶
Plot cross-sections of focal mechanisms |
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Plot focal mechanisms |
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Plot polarities on the lower hemisphere of the focal sphere |
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Plot seismograms in SAC format |
spotter¶
Generate forward and backward flowlines and hotspot tracks |
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Evaluate a plate motion model at given locations |
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Evaluate a plate motion model on a geographic grid |
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Finite rotation reconstruction of geographic grid |
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Create CVA grid from a gravity or topography grid |
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Create CVA grid from seamount locations |
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Associate seamounts with nearest hotspot point sources |
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Find stage poles given fracture zones and abyssal hills |
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Manipulate total reconstruction and stage rotations |
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Get mean rotations and covariance matrices from set of finite rotations |
x2sys¶
Create bin index listing from track data files |
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Calculate crossovers between track data files |
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Extract content of track data files |
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Get track listing from track index database |
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Initialize a new x2sys track database |
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Extract subset from crossover data base |
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Merge an updated COEs table (smaller) into the main table (bigger) |
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Update track index database from track bin file |
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Report statistics from crossover data base |
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Determine least-squares systematic correction from crossovers |