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Index

$AWK
7. | 7.3 | 7.9 | 7.11 | 7.11 | 7.11 | 7.11 | 7.18
.gmt_io
4.17
-Jp -JP (Polar ($\theta , r$) projections)
to 5.2
-Jb -JB (Albers)
6.1.1
-Jb -JB (Albers)
to 6.1.1
-Jl -JL (Lambert conic)
6.1.2
-Jl -JL (Lambert conic)
to 6.1.2
-Jd -JD (Equidistant conic)
6.1.3
-Jd -JD (Equidistant conic)
to 6.1.3
-Ja -JA (Lambert azimuthal)
6.2.1
-Ja -JA (Lambert azimuthal)
to 6.2.1.2
-Js -JS (Stereographic)
6.2.2
-Js -JS (Stereographic)
to 6.2.2.3
-Jg -JG (Orthographic)
6.2.3
-Jg -JG (Orthographic)
to 6.2.3
-Je -JE (Azimuthal equidistant)
6.2.4
-Je -JE (Azimuthal equidistant)
to 6.2.4
-Jf -JF (Gnomonic)
6.2.5
-Jf -JF (Gnomonic)
to 6.2.5
-Jm -JM (Mercator)
6.3.1
-Jm -JM (Mercator)
to 6.3.1
-Jt -JT (Transverse Mercator)
6.3.2
-Jt -JT (Transverse Mercator)
to 6.3.2
-Ju -JU (UTM)
6.3.3
-Ju -JU (UTM)
to 6.3.3
-Jo -JO (Oblique Mercator)
6.3.4
-Jo -JO (Oblique Mercator)
to 6.3.4
-Jc -JC (Cassini)
6.3.5
-Jc -JC (Cassini)
to 6.3.5
-Jq -JQ (Cylindrical equidistant)
6.3.6
-Jq -JQ (Cylindrical equidistant)
to 6.3.6
-Jy -JY (General cylindrical)
6.3.7
-Jy -JY (General cylindrical)
to 6.3.7
-Jj -JJ (Miller)
6.3.8
-Jj -JJ (Miller)
to 6.3.8
-Jh -JH (Hammer)
6.4.1
-Jh -JH (Hammer)
to 6.4.1
-Jw -JW (Mollweide)
6.4.2
-Jw -JW (Mollweide)
to 6.4.2
-Jr -JR (Winkel Tripel)
6.4.3
-Jr -JR (Winkel Tripel)
to 6.4.3
-Jn -JN (Robinson)
6.4.4
-Jn -JN (Robinson)
to 6.4.4
-Jk -JK (Eckert IV and VI)
6.4.5
-Jk -JK (Eckert IV and VI)
to 6.4.5
-Ji -JI (Sinusoidal)
6.4.6
-Ji -JI (Sinusoidal)
to 6.4.6
-Jv -JV (Van der Grinten)
6.4.7
-Jv -JV (Van der Grinten)
to 6.4.7
-B (set annotations and ticks)
3.2
-H (header records)
3.2
-J (set map projection)
3.2
-Ja -JA (Lambert azimuthal)
3.2
-Jb -JB (Albers)
3.2
-Jc -JC (Cassini)
3.2
-Je -JE (Azimuthal equidistant)
3.2
-Jf -JF (Gnomonic)
3.2
-Jg -JG (Orthographic)
3.2
-Jh -JH (Hammer)
3.2
-Ji -JI (Sinusoidal)
3.2
-Jj -JJ (Miller)
3.2
-Jk -JK (Eckert IV and VI)
3.2
-Jl -JL (Lambert conic)
3.2
-Jm -JM (Mercator)
3.2
-Jn -JN (Robinson)
3.2
-Jo -JO (Oblique Mercator)
3.2
-Jp -JP (Polar ($\theta , r$) projections)
3.2
-Jq -JQ (Cylindrical equidistant)
3.2
-Jr -JR (Winkel Tripel)
3.2
-Js -JS (Stereographic)
3.2
-Jt -JT (Transverse Mercator)
3.2
-Ju -JU (UTM)
3.2
-Jv -JV (Van der Grinten)
3.2
-Jw -JW (Mollweide)
3.2
-Jx -JX (Non-map projections)
3.2
-Jy -JY (General cylindrical)
3.2
-K (continue plot)
3.2
-O (overlay plot)
3.2
-P (portrait orientation)
3.2
-R (set region)
3.2
-U (plot timestamp)
3.2
-V (verbose mode)
3.2
-X (shift plot in $x$)
3.2
-Y (shift plot in $y$)
3.2
-b (binary i/o)
3.2
-c (set # of copies)
3.2
-f (formatting of i/o)
3.2
-: (input and/or output is $y,x$, not $x,y$)
3.2
-B (set annotations and ticks)
to 3.2
-H (header records)
to 3.2
-J (set map projection)
to 3.2
-Ja -JA (Lambert azimuthal)
to 3.2
-Jb -JB (Albers)
to 3.2
-Jc -JC (Cassini)
to 3.2
-Je -JE (Azimuthal equidistant)
to 3.2
-Jf -JF (Gnomonic)
to 3.2
-Jg -JG (Orthographic)
to 3.2
-Jh -JH (Hammer)
to 3.2
-Ji -JI (Sinusoidal)
to 3.2
-Jj -JJ (Miller)
to 3.2
-Jk -JK (Eckert IV and VI)
to 3.2
-Jl -JL (Lambert conic)
to 3.2
-Jm -JM (Mercator)
to 3.2
-Jn -JN (Robinson)
to 3.2
-Jo -JO (Oblique Mercator)
to 3.2
-Jp -JP (Polar ($\theta , r$) projections)
to 3.2
-Jq -JQ (Cylindrical equidistant)
to 3.2
-Jr -JR (Winkel Tripel)
to 3.2
-Js -JS (Stereographic)
to 3.2
-Jt -JT (Transverse Mercator)
to 3.2
-Ju -JU (UTM)
to 3.2
-Jv -JV (Van der Grinten)
to 3.2
-Jw -JW (Mollweide)
to 3.2
-Jx -JX (Non-map projections)
to 3.2
-Jy -JY (General cylindrical)
to 3.2
-K (continue plot)
to 3.2
-O (overlay plot)
to 3.2
-P (portrait orientation)
to 3.2
-R (set region)
to 3.2
-U (plot timestamp)
to 3.2
-V (verbose mode)
to 3.2
-X (shift plot in $x$)
to 3.2
-Y (shift plot in $y$)
to 3.2
-b (binary i/o)
to 3.2
-c (set # of copies)
to 3.2
-f (formatting of i/o)
to 3.2
-: (input and/or output is $y,x$, not $x,y$)
to 3.2
-B (set annotations and ticks)
4.4
-H (header records)
4.4
-J (set map projection)
4.4
-K (continue plot)
4.4
-O (overlay plot)
4.4
-P (portrait orientation)
4.4
-R (set region)
4.4
-U (plot timestamp)
4.4
-V (verbose mode)
4.4
-X (shift plot in $x$)
4.4
-Y (shift plot in $y$)
4.4
-b (binary i/o)
4.4
-c (set # of copies)
4.4
-f (formatting of i/o)
4.4
-: (input and/or output is $y,x$, not $x,y$)
4.4
-R (set region)
4.4.1
-J (set map projection)
4.4.2
-B (set annotations and ticks)
4.4.3
GMT_DATADIR
4.7
GMT_GRIDDIR
4.7
GMT_IMGDIR
4.7
-H (header records)
4.4.4
-P (portrait orientation)
4.4.5
-K (continue plot)
4.4.6
-O (overlay plot)
4.4.6
-U (plot timestamp)
4.4.7
-V (verbose mode)
4.4.8
-X (shift plot in $x$)
4.4.9
-Y (shift plot in $y$)
4.4.9
-bi (select binary input)
4.4.10
-bo (select binary output)
4.4.10
-fi (set input format)
4.4.11
-fo (set output format)
4.4.11
-c (set # of copies)
4.4.12
-: (input and/or output is $y,x$, not $x,y$)
4.4.13
-H (header records)
4.7
-V (verbose mode)
4.8
-GP -Gp
4.14
-Jx -JX (Non-map projections)
5.1.1
-Jx -JX (Non-map projections)
to 5.1.3
-Jp -JP (Polar ($\theta , r$) projections)
5.2
GMT, using 3 and 4
P.
@, printing
4.16
Acknowledgments
Acknowledgments
Albers conic projection -Jb -JB
6.1.1
Albers conic projection -Jb -JB
to 6.1.1
Albers conic projection -Jb -JB
3.2
Albers conic projection -Jb -JB
to 3.2
Annotations
4.4.3
ANSI C
2.
ANSI C compliant
2.
Arguments, command line
4.3
Article
in EOS
A
in Geophysics
A
Artificial illumination
4.15 | I. to I.
Attributes
fill
color
4.14
pattern
4.14 | E.
pen
4.13
color
4.13
texture
4.13
width
4.13
awk
1.1 | 2. | 4.15 | 7. | I. | L.2 | O.4.3
Axes
direction
5.1.1.1
exponential
4.4.3.3
linear
4.4.3.2
log$_{10}$
4.4.3.3
Logarithmic
4.4.3.3
power
4.4.3.3
reverse
5.1.1.1
time
4.4.3.4
Azimuthal equidistant projection -Je -JE
6.2.4
Azimuthal equidistant projection -Je -JE
to 6.2.4
Azimuthal equidistant projection -Je -JE
3.2
Azimuthal equidistant projection -Je -JE
to 3.2
Azimuthal projections
6.2 to 6.2.5
backtracker
A.10
Basemap
4.4.3
bash
L.2 | L.4
Behrman projection
6.3.7
Binary tables
4.4.10
binlegs
A.7
blockmean
1.1 | 3.1 | 3.2 | 7.14 | 7.14 | 7.14
blockmedian
3.1 | 3.2 | 7.14
blockmode
3.1 | 3.2 | 7.14
bzip2
D. | D. | D.
Calendar Linear projection
5.1.1.3 to 5.1.1.3
Cartesian
linear projection
5.1.1 to 5.1.1.3
Cartesian linear projection
3.2 to 3.2
Cassini projection -Jc -JC
6.3.5
Cassini projection -Jc -JC
to 6.3.5
Cassini projection -Jc -JC
3.2
Cassini projection -Jc -JC
to 3.2
Characters
composite
4.16
escape sequences
4.16
composite character
4.16
European
4.16
octal character
4.16
small caps
4.16
subscript
4.16
superscript
4.16
switch fonts
4.16
European
4.16 | H.3
octal
4.16 | F.
CIA Data Bank
K.1
Coastlines
preprocessing
K. to K.3
resolution
crude
K.4.1 to K.4.1
full
K.4.5 to K.4.5
high
K.4.4 to K.4.4
intermediate
K.4.3 to K.4.3
low
K.4.2 to K.4.2
Color
I. to I.
CMYK system
4.13
fill
4.14
HSV system
4.13 | I. to I.
palette tables
4.15 to 4.15
pen
4.13
RGB system
4.13 | I. to I.
Command line
arguments
4.3
history
4.5
standardized options
4.4 to 4.4.13
Compliance
ANSI C
2.
POSIX
2.
Y2K
2.
Composite characters
4.16
configure
L.5
Conic projections
6.1 to 6.1.3
convert
4.14 | B.3
Copyright
Copyright
CorelDraw
4.12
cpt
built-in set
M.
file
4.15 to 4.15
csh
7. | 7. | L.3 | P.
curl
7.22
cut
1.1 | 2.
Cygwin
L.2 to L.2
Cylindrical projections
6.3 to 6.3.8
dat2gmt
A.7
Default settings
4.2.1 to 4.2.2
Dimensions
4.1 to 4.1
DJGPP
L.4 to L.4
do_examples
7.
Draw
C.
Eckert IV and VI projection -Jk -JK
6.4.5
Eckert IV and VI projection -Jk -JK
to 6.4.5
Eckert IV and VI projection -Jk -JK
3.2
Eckert IV and VI projection -Jk -JK
to 3.2
Embedded grdfile format
4.17
EOS article
A
EPS file
C.
epstool
C. | C.
Equidistant conic projection -Jd -JD
6.1.3
Equidistant conic projection -Jd -JD
to 6.1.3
Equidistant conic projection -Jd -JD
3.2
Equidistant conic projection -Jd -JD
to 3.2
Equidistant cylindrical projection -Jq -JQ
6.3.6
Equidistant cylindrical projection -Jq -JQ
to 6.3.6
Equidistant cylindrical projection -Jq -JQ
3.2
Equidistant cylindrical projection -Jq -JQ
to 3.2
Error messages
4.6
Escape sequences
characters
4.16
European characters
4.16 | 4.16
Example
3-D histogram
7.8 to 7.8
3-D illuminated surface
7.5 to 7.5
3-D mesh plot
7.4 to 7.4
3-D RGB color cube
7.11 to 7.11
bar graph
7.10 to 7.10
color patterns
7.19 to 7.19
contour maps
7.1 to 7.1
custom map symbols
to 7.20
custom plot symbols
7.20
distribution of antipodes
7.25 to 7.25
geospatial criteria
7.24 to 7.24
gridding
7.16 to 7.16
gridding and trend surfaces
7.14 to 7.14
gridding, contouring, and masking
7.15 to 7.15
histograms
7.6 to 7.6
image clipping
7.17 to 7.17
image presentations
7.2 to 7.2
location map
7.7 to 7.7
paths to Rome
7.23 to 7.23
RedHat stock price
7.21 to 7.21
spatial selections
7.18 to 7.18
spectral estimation
7.3 to 7.3
triangulation
7.12 to 7.12
vector fields
7.13 to 7.13
wiggles
7.9 to 7.9
world-wide seismicity
7.22 to 7.22
xy plots
7.3 to 7.3
Exponential axis
4.4.3.3
Fill
attributes
color
4.14
pattern
4.14 | E.
filter1d
1.1 | 3.1 | 3.2 | B.1 | J. | J.
fitcircle
3.1 | 3.2 | 7.3 | 7.3
Font
standard
G.
switching to a
4.16
symbol
4.16 | F.
Frame
4.4.3
FreedomOfPress
H.1 | H.1
Freehand
4.12 | C.
Gall projection
6.3.7
gcc
L.2
General cylindrical projection -Jy -JY
6.3.7
General cylindrical projection -Jy -JY
to 6.3.7
General cylindrical projection -Jy -JY
3.2
General cylindrical projection -Jy -JY
to 3.2
Geographic Linear projection
3.2 to 3.2 | 5.1.1.2 to 5.1.1.2
Geophysics article
A
getbox
K.4
getrect
K.4
ghostscript
2. | B.3 | C. | C.
ghostview
C. | H.1
GMT
binaries for Win32
D.
coastlines
K. to K.3
compile with Microsoft C/C++
L.1
defaults
4.2.1 to 4.2.2
home page
2.
Macs running MachTen
L.1
Macs running MkLinux
L.1
Mailinglists
2.
obtaining
2. | D.
on CD-ROM
2.
on non-UNIX platforms
L.1
overview
3. to 3.1
PCs running Interix
L.1
PCs running Linux
L.1
quick reference
to 3.2 | 3.2
supplemental packages
A.
under Cygwin
L.2 to L.2
under DJGPP
L.4 to L.4
under Mac OS
L.7
under O/S2
L.6
under SFU
L.3 to L.3
under Win32
L.5 to L.5
units
4.1 to 4.1
gmt2dat
A.7
gmt2rgb
1.1 | 3.1 | 3.2
gmtconvert
1.1 | 3.1 | 3.2 | 7.15
gmtdefaults
1.1 | 3.1 | 3.2 | 4.2.1 | 4.2.1 | 4.2.2 | 4.4.5 | 4.10 | 4.12 | 4.16 | 5. | C. | G.
gmtdigitize
A.8
gmtinfo
A.7
gmtlegs
A.7
gmtlist
A.7
gmtmath
1.1 | 3.1 | 3.2 | 4.18 | 5.1
gmtpath
A.7
gmtselect
1.1 | 3.1 | 3.2 | 7.18 | 7.18 | 7.24 | K.3
gmtset
3.1 | 3.2 | 4.2.2 | H.2 | H.4
gmtswitch
1.1 | P. | P. | P. | P. | P. | P. | P. | P. | P. | P.
gmttrack
A.7
Gnomonic projection -Jf -JF
6.2.5
Gnomonic projection -Jf -JF
to 6.2.5
Gnomonic projection -Jf -JF
3.2
Gnomonic projection -Jf -JF
to 3.2
grd2cpt
1.1 | 3.1 | 3.2 | 4.15 | 7.2 | H.4 | M.
grd2xyz
1.1 | 3.1 | 3.2
grdblend
1.1 | 3.1 | 3.2
grdclip
3.1 | 3.2
grdcontour
1.1 | 3.1 | 3.2 | 5.2 | 7.1 | 7.16 | 7.23 | O. | O.1 | O.2
grdcut
3.1 | 3.2 | 7.16
grdedit
1.1 | 3.1 | 3.2 | B.2.1
grdfft
3.1 | 3.2 | 7.16 | J.
grdfile
boundary conditions
B.2.3 to B.2.3
default
B.2.3
geographical
B.2.3
periodic
B.2.3
contents
B.2.1 to B.2.1
embedded format
4.17 to 4.17
formats
4.17
bits
4.17
custom format
4.17
floats
4.17
netCDF
4.17
rasterfile
4.17
shorts
4.17
unsigned char
4.17
registration
B.2.2 to B.2.2.2
grid line
B.2.2.1 to B.2.2.1
pixel
B.2.2.2 to B.2.2.2
suffix
4.17
grdfilter
1.1 | 3.1 | 3.2 | 7.16 | 7.16 | J. | J.
grdgradient
3.1 | 3.2 | 4.15 | 7.2 | 7.4 | 7.5 | 7.5 | B.2.3 | H.4
grdhisteq
3.1 | 3.2 | 4.15 | 7.5
grdimage
1.1 | 1.1 | 3.1 | 3.2 | 4.15 | 7.2 | 7.2 | 7.2 | 7.16 | 7.17 | 7.17 | 7.19 | B.2.2 | H. | I.
grdinfo
1.1 | 3.1 | 3.2 | 7.15 | A.5
grdlandmask
3.1 | 3.2 | 7.25 | K.3
grdmask
3.1 | 3.2
grdmath
1.1 | 3.1 | 3.2 | 4.18 | 5.2 | 7.5 | 7.5 | 7.13 | 7.19 | 7.23 | 7.25 | 7.25
grdpaste
3.1 | 3.2
grdproject
1.1 | 3.1 | 3.2 | B.2.2
grdraster
4.7 | 7.2 | 7.2 | 7.2 | 7.2 | 7.4 | A.1
grdread
A.5
grdreformat
1.1 | 3.1 | 3.2
grdsample
1.1 | 3.1 | 3.2 | B.2.2 | B.2.3 | H.4
grdtrack
1.1 | 3.1 | 3.2 | 7.14 | B.2.3
grdtrend
3.1 | 3.2 | 7.14
grdvector
3.1 | 3.2 | 7.13
grdview
1.1 | 1.1 | 3.1 | 3.2 | 4.15 | 4.15 | 7.4 | 7.5 | 7.5 | 7.16 | B.2.3
grdvolume
3.1 | 3.2 | 7.18 | 7.18
grdwrite
A.5
Great circle
6.3.1
grep
2. | L.2
Gridlines
4.4.3
gshhs
A.2 | K.3
gshhs_dp
A.2
gshhstograss
A.2
gzip
D. | D. | D.
Hammer projection -Jh -JH
6.4.1
Hammer projection -Jh -JH
to 6.4.1
Hammer projection -Jh -JH
3.2
Hammer projection -Jh -JH
to 3.2
Header records -H
4.4.4
Header records -H
4.7
Hemisphere map
6.2.1.2
History, command line
4.5
hotspotter
A.10
Illumination, artificial
4.15 | I. to I.
Illustrator
4.12 | C. | C. | C. | C.
img2grd
4.7
img2mercgrd
A.3
Input
binary -bi
4.4.10
format
4.10
format -fi
4.4.11
standard
4.7
install_gmt
L.2
IslandDraw
4.12
L-DEO
2.
Lambert azimuthal projection -Ja -JA
6.2.1
Lambert azimuthal projection -Ja -JA
to 6.2.1.2
Lambert azimuthal projection -Ja -JA
3.2
Lambert azimuthal projection -Ja -JA
to 3.2
Lambert conic projection -Jl -JL
6.1.2
Lambert conic projection -Jl -JL
to 6.1.2
Lambert conic projection -Jl -JL
3.2
Lambert conic projection -Jl -JL
to 3.2
Lambert cylindrical projection
6.3.7
Lamont-Doherty Earth Observatory
2.
Landscape orientation
4.4.5
lat/lon input
4.4.13
linear axes
4.4.3.2
Linear projection
3.2 to 3.2 | 5.1.1 to 5.1.1.3
log$_{10}$ axes
4.4.3.3
Logarithmic axes
4.4.3.3
Logarithmic projection
3.2 to 3.2 | 5.1.2 to 5.1.2
Loxodrome
6.3.1
Mac OS and GMT
L.7
Mailinglists
2.
makecpt
1.1 | 1.1 | 1.1 | 3.1 | 3.2 | 4.15 | 7.2 | 7.19 | H.4 | M.
makepattern
A.8
man
2.
Map projections
4.4.2
mapproject
1.1 | 3.1 | 3.2
Mercator projection -Jm -JM
6.3.1
Mercator projection -Jm -JM
to 6.3.1
Mercator projection -Jm -JM
3.2
Mercator projection -Jm -JM
to 3.2
Messages
error
4.6
syntax
4.6
usage
4.6
mgd77info
A.6
mgd77list
A.6
mgd77path
A.6
mgd77togmt
A.7
mgd77track
A.6
Miller cylindrical projection -Jj -JJ
6.3.8
Miller cylindrical projection -Jj -JJ
to 6.3.8
Miller cylindrical projection -Jj -JJ
3.2
Miller cylindrical projection -Jj -JJ
to 3.2
minmax
1.1 | 3.1 | 3.2 | 7.3
Miscellaneous projections
6.4 to 6.4.7
Mollweide projection -Jw -JW
6.4.2
Mollweide projection -Jw -JW
to 6.4.2
Mollweide projection -Jw -JW
3.2
Mollweide projection -Jw -JW
to 3.2
NaN
4.18
nawk
7.
nearneighbor
3.1 | 3.2 | 7.15 | B.2.3
netCDF
2.
netCDF, obtaining
D.
Not-a-Number
4.18
Number of copies
4.4.12
O/S2 and GMT
L.6
Oblique Mercator projection -Jo -JO
6.3.4
Oblique Mercator projection -Jo -JO
to 6.3.4
Oblique Mercator projection -Jo -JO
3.2
Oblique Mercator projection -Jo -JO
to 3.2
Octal characters
4.16 | F.
Offset, plot
4.4.9
openwin
H.1
Orientation
landscape
4.4.5
of plot
4.4.5
portrait -P
4.4.5
originator
A.10
Orthographic projection -Jg -JG
6.2.3
Orthographic projection -Jg -JG
to 6.2.3
Orthographic projection -Jg -JG
3.2
Orthographic projection -Jg -JG
to 3.2
Output
binary -bo
4.4.10
error
4.9
format
4.11
format -fo
4.4.11
standard
4.9
Overlay plot -O -K
4.4.6
pageview
C. | H.1 | H.1 | H.1 | H.1 | H.3 | H.3 | H.3 | H.3 | H.3 | H.3 | H.3 | H.3
paste
1.1 | 2.
Pattern
E.
color
4.14
fill
4.14
Pen
color
4.13
setting attributes
4.13
texture
4.13
width
4.13
perl
1.1 | 4.15
Peters projection
6.3.7
Plot
continue -O -K
4.4.6
offset
4.4.9
orientation
4.4.5
overlay -O -K
4.4.6
Polar ($\theta , r$) projection
to 5.2
Polar ($\theta , r$) projection
3.2
Polar ($\theta , r$) projection
to 3.2
Polar ($\theta , r$) projection
5.2
Portrait orientation -P
4.4.5
POSIX
2.
POSIX compliant
2.
PostScript
2.
GMT hints
H.4
CMYK and RGB
H.1 to H.1
driver bugs
H.1
encapsulated (EPS)
C.
features
4.12
HP Laserjet 4M bug
H.1
limitations
H.1 to H.1
resolution and dpi
H.2
Sun pageview
H.1
Sun SPARCprinter bug
H.1
Power (exponential) projection
3.2 to 3.2 | 5.1.3 to 5.1.3
project
3.1 | 3.2 | 7.3 | 7.3
Projection
azimuthal
6.2 to 6.2.5
equidistant
3.2 to 3.2 | 6.2.4 to 6.2.4
gnomonic
3.2 to 3.2 | 6.2.5 to 6.2.5
Lambert
3.2 to 3.2 | 6.2.1 to 6.2.1.2
orthographic
3.2 to 3.2 | 6.2.3 to 6.2.3
polar
6.2.2.1
stereographic
3.2 to 3.2 | 6.2.2 to 6.2.2.3
cartesian
5.1
linear
5.1.1 to 5.1.1.3
logarithmic
5.1.2 to 5.1.2
power (exponential)
5.1.3 to 5.1.3
conic
6.1 to 6.1.3
Albers -Jb -JB
6.1.1
Albers -Jb -JB
to 6.1.1
Albers -Jb -JB
3.2
Albers -Jb -JB
to 3.2
Equidistant -Jd -JD
6.1.3
Equidistant -Jd -JD
to 6.1.3
Equidistant -Jd -JD
3.2
Equidistant -Jd -JD
to 3.2
Lambert -Jl -JL
6.1.2
Lambert -Jl -JL
to 6.1.2
Lambert -Jl -JL
3.2
Lambert -Jl -JL
to 3.2
cylindrical
6.3 to 6.3.8
Cassini -Jc -JC
6.3.5
Cassini -Jc -JC
to 6.3.5
Cassini -Jc -JC
3.2
Cassini -Jc -JC
to 3.2
equidistant -Jq -JQ
6.3.6
equidistant -Jq -JQ
to 6.3.6
equidistant -Jq -JQ
3.2
equidistant -Jq -JQ
to 3.2
general -Jy -JY
6.3.7
general -Jy -JY
to 6.3.7
general -Jy -JY
3.2
general -Jy -JY
to 3.2
Mercator -Jm -JM
6.3.1
Mercator -Jm -JM
to 6.3.1
Mercator -Jm -JM
3.2
Mercator -Jm -JM
to 3.2
Miller -Jj -JJ
6.3.8
Miller -Jj -JJ
to 6.3.8
Miller -Jj -JJ
3.2
Miller -Jj -JJ
to 3.2
oblique Mercator -Jo -JO
6.3.4
oblique Mercator -Jo -JO
to 6.3.4
oblique Mercator -Jo -JO
3.2
oblique Mercator -Jo -JO
to 3.2
transverse Mercator -Jt -JT
6.3.2
transverse Mercator -Jt -JT
to 6.3.2
transverse Mercator -Jt -JT
3.2
transverse Mercator -Jt -JT
to 3.2
UTM -Ju -JU
6.3.3
UTM -Ju -JU
to 6.3.3
UTM -Ju -JU
3.2
UTM -Ju -JU
to 3.2
linear
3.2 to 3.2 | 5.1.1 to 5.1.1.3
calendar
5.1.1.3 to 5.1.1.3
Cartesian
3.2 to 3.2
geographic
3.2 to 3.2 | 5.1.1.2 to 5.1.1.2
logarithmic
3.2 to 3.2
miscellaneous
6.4 to 6.4.7
Eckert IV and VI (-Jk -JK)
6.4.5
Eckert IV and VI (-Jk -JK)
to 6.4.5
Eckert IV and VI (-Jk -JK)
3.2
Eckert IV and VI (-Jk -JK)
to 3.2
Hammer (-Jh -JH)
6.4.1
Hammer (-Jh -JH)
to 6.4.1
Hammer (-Jh -JH)
3.2
Hammer (-Jh -JH)
to 3.2
Mollweide (-Jw -JW)
6.4.2
Mollweide (-Jw -JW)
to 6.4.2
Mollweide (-Jw -JW)
3.2
Mollweide (-Jw -JW)
to 3.2
Robinson (-Jn -JN)
6.4.4
Robinson (-Jn -JN)
to 6.4.4
Robinson (-Jn -JN)
3.2
Robinson (-Jn -JN)
to 3.2
Sinusoidal (-Ji -JI)
6.4.6
Sinusoidal (-Ji -JI)
to 6.4.6
Sinusoidal (-Ji -JI)
3.2
Sinusoidal (-Ji -JI)
to 3.2
Van der Grinten (-Jv -JV)
6.4.7
Van der Grinten (-Jv -JV)
to 6.4.7
Van der Grinten (-Jv -JV)
3.2
Van der Grinten (-Jv -JV)
to 3.2
Winkel Tripel (-Jr -JR)
6.4.3
Winkel Tripel (-Jr -JR)
to 6.4.3
Winkel Tripel (-Jr -JR)
3.2
Winkel Tripel (-Jr -JR)
to 3.2
polar ($\theta , r$)
to 5.2
polar ($\theta , r$)
3.2
polar ($\theta , r$)
to 3.2
polar ($\theta , r$)
5.2
power (exponential)
3.2 to 3.2
stereographic
general
6.2.2.3
rectangular
6.2.2.2
ps2epsi
C. | C.
psbasemap
1.1 | 3.1 | 3.2 | 4.4.2 | 5. | 7.20 | H.4 | H.4
psclip
3.1 | 3.2
pscoast
1.1 | 3.1 | 3.2 | 6. | 6.2.3 | 6.2.4 | 6.2.5 | 6.4.6 | 7.1 | 7.15 | 7.17 | 7.17 | 7.17 | 7.19 | 7.19 | 7.24 | H.1 | H.1 | H.4 | K. | K.2 | K.2 | K.3
pscontour
1.1 | 3.1 | 3.2 | 7.12 | 7.16 | O.
pscoupe
A.4
pshistogram
3.1 | 3.2 | 7.6
psimage
1.1 | 3.1 | 3.2 | 4.14
pslegend
1.1 | 3.1 | 3.2 | 7.22
psmask
3.1 | 3.2 | 7.15 | 7.15
psmeca
A.4
psmegaplot
A.8
pspolar
A.4
psrose
3.1 | 3.2 | 7.6
psscale
1.1 | 3.1 | 3.2 | 4.15 | 4.15 | 4.15 | 7.2 | 7.2
pssegy
A.9
pssegyz
A.9
pstext
1.1 | 3.1 | 3.2 | 4.7 | 4.16 | 4.16 | 7.3 | 7.3 | 7.9 | 7.9 | 7.13 | G. | O.1 | O.2 | O.2
psvelo
A.4
pswiggle
3.1 | 3.2 | 7.9
psxy
1.1 | 3.1 | 3.2 | 4.5 | 4.7 | 4.13 | 4.15 | 4.15 | 5. | 7.3 | 7.3 | 7.14 | 7.15 | 7.20 | 7.20 | 7.20 | 7.20 | 7.20 | 7.24 | H.1 | H.1 | N. | O. | O.1 | O.4
psxyz
1.1 | 3.1 | 3.2 | 4.15 | 7.8 | 7.20 | 7.20 | N. | O. | O.1
Rasterfile
definitions
B.3
format
B.3
Record, header -H
4.7
Region
geographical
6.2.1.1
rectangular
6.2.1.1
Region, specifying
4.4.1
Relief, shaded
4.15
Reverse Polish Notation (RPN)
5.1
Robinson projection -Jn -JN
6.4.4
Robinson projection -Jn -JN
to 6.4.4
Robinson projection -Jn -JN
3.2
Robinson projection -Jn -JN
to 3.2
rotconverter
A.10
RPN (Reverse Polish Notation)
5.1
sample1d
3.1 | 3.2 | 7.3 | B.1
sed
2. | L.2
SFU (Windows Services for UNIX)
L.3 to L.3
sh
7.
Shaded relief
4.15
showrgb
4.13
Sinusoidal projection -Ji -JI
6.4.6
Sinusoidal projection -Ji -JI
to 6.4.6
Sinusoidal projection -Ji -JI
3.2
Sinusoidal projection -Ji -JI
to 3.2
Sinusoidal projection, interrupted
6.4.6
Small caps
4.16
spectrum1d
3.1 | 3.2 | 7.3
splitxyz
3.1 | 3.2
Standard input
4.7
Standardized command line options
3.2 to 3.2 | 4.4 | 4.4
Stereographic projection -Js -JS
6.2.2
Stereographic projection -Js -JS
to 6.2.2.3
Stereographic projection -Js -JS
3.2
Stereographic projection -Js -JS
to 3.2
Stereonet
Schmidt equal-area
6.2.1.2
Wulff equal-angle
6.2.1.2
Subscripts
4.16
Superscripts
4.16
surface
A | 2. | 3.1 | 3.2 | 4.9 | 7.14 | 7.14 | 7.15 | 7.16 | 7.16 | 7.16 | 7.16 | 7.16
Symbol font
4.16 | F.
symbols
custom
N.
Syntax messages
4.6
Table
binary
4.4.10
format
4.4.11 | B.1
ASCII
B.1.1
binary
B.1.2
multisegment
B.1.1
tac
1.1
tail
1.1
tcsh
L.2 | P.
Text
escape sequences
4.16
European
4.16 | H.3
subscript
4.16
superscript
4.16
Texture, pen
4.13
Tickmarks
4.4.3
Time axis
4.4.3.4
Timestamp
4.4.7
Transformation
cartesian
5.1
linear
5.1.1 to 5.1.1.3
logarithmic
5.1.2 to 5.1.2
power (exponential)
5.1.3 to 5.1.3
linear
calendar
5.1.1.3 to 5.1.1.3
geographic
5.1.1.2 to 5.1.1.2
Transverse Mercator projection -Jt -JT
6.3.2
Transverse Mercator projection -Jt -JT
to 6.3.2
Transverse Mercator projection -Jt -JT
3.2
Transverse Mercator projection -Jt -JT
to 3.2
trend1d
3.1 | 3.2
trend2d
3.1 | 3.2
triangulate
3.1 | 3.2 | 3.2 | 7.12 | 7.16 | 7.16
Trystan-Edwards projection
6.3.7
ttt
O.5
Typographic conventions
Typographic
Units
4.1 to 4.1
UNIX
timestamp
4.4.7
Usage messages
4.6
UTM projection -Ju -JU
6.3.3
UTM projection -Ju -JU
to 6.3.3
UTM projection -Ju -JU
3.2
UTM projection -Ju -JU
to 3.2
Van der Grinten projection -Jv -JV
6.4.7
Van der Grinten projection -Jv -JV
to 6.4.7
Van der Grinten projection -Jv -JV
3.2
Van der Grinten projection -Jv -JV
to 3.2
Verbose (-V)
4.4.8
Verbose (-V)
4.8
WDB
K.1
wget
7.22 | 7.22 | 7.22
Width, pen
4.13
Win32 and GMT
L.5
Win32 and GMT
to L.5
Winkel Tripel projection -Jr -JR
6.4.3
Winkel Tripel projection -Jr -JR
to 6.4.3
Winkel Tripel projection -Jr -JR
3.2
Winkel Tripel projection -Jr -JR
to 3.2
Word
The | C.
WordPerfect
C.
World Data Bank II
K.1
World Vector Shoreline
K.1
WVS
K.1
x2sys
A.12
x2sys_binlist
A.11
x2sys_cross
A.11
x2sys_datalist
A.11
x2sys_get
A.11
x2sys_put
A.11
x_edit
A.12
x_init
A.12
x_list
A.12
x_over
A.12
x_remove
A.12
x_report
A.12
x_setup
A.12
x_solve_dc_drift
A.12
x_update
A.12
XDR
2.
xgridedit
A.13
xv
B.3
xyz2grd
1.1 | 3.1 | 3.2 | 4.18
Y2K compliant
2.
Year 2000 compliant
2.


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Paul Wessel 2004-10-01