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ibv_create_rwq_ind_table(3), ibv_destroy_rwq_ind_table (3)
create or destroy a Receive Work Queue Indirection Table (RWQ IND TBL)
pcap_setdirection(3)
set the direction for which packets will be captured
CURLINFO_REDIRECT_TIME(3)
get the time for all redirection steps
CURLINFO_REDIRECT_TIME_T(3)
get the time for all redirection steps
MPI_Cart_shift(3)
Returns the shifted source and destination ranks, given a shift direction and amount
PTblender(1)
Colour and brightness correction of panoramas
XFontsOfFontSet(3), XBaseFontNameListOfFontSet(3), XLocaleOfFontSet(3), XContextDependentDrawing(3), XContextualDrawing(3), XDirectionalDependentDrawing(3)
obtain fontset information
XmDirection(3)
Data type for the direction of widget components "XmDirection" "data types" "XmDirection"
XmDirectionMatch(3)
A function that checks for a specified direction component "XmDirectionMatch"
XmDirectionMatchPartial(3)
A function that checks for a specified direction component "XmDirectionMatchPartial"
XmDirectionToStringDirection(3)
A function that converts an XmDirection value to an XmStringDirection value "XmDirectionToStringDirection"
XmStringDirection(3)
Data type for the direction of display in a string "XmStringDirection" "data types" "XmStringDirection"
XmStringDirectionCreate(3)
A compound string function that creates a compound string "XmStringDirectionCreate" "compound string functions" "XmStringDirectionCreate"
XmStringDirectionToDirection(3)
A function that converts from XmStringDirection to XmDirection "XmStringDirectionToDirection"
XmTextGetCenterline(3)
Return the height (length) of a character string when the writing direction is vertical
anemotaxis(6)
directional search on a plane
bicon(1)
a bidirectional console
bicon.bin(1)
bidirectional console layer
defendguin(6)
A bidirectionally scrolling space game based on Defender
design_coupler(1)
for designing directional couplers (part of the atlc package)
dpipe(1)
bi-directional pipe command
exrnlm(1)
perform non-linear masking correction on an OpenEXR image
fribidi_get_par_direction(3)
get base paragraph direction
git-remote-hg(1)
bidirectional bridge between Git and Mercurial
git-svn(1)
Bidirectional operation between a Subversion repository and Git
gnutls_record_get_direction(3)
API function
guessextdir(3)
guess external connectors directions from internal connectors directions man1/alc_origin.1
libssh2_session_block_directions(3)
get directions to wait for
panda_textdirection(3)
specify the direction that the text flows within the document
pcap_setdirection(3)
set the direction for which packets will be captured
pfsgamma(1)
Apply gamma correction to color or gray-scale images
pipemeter(1)
measure speed of data going through a pipe/redirection
redirect(8)
simple redirection CGI program
restorealldir(3)
restore all instances' connectors directions man1/alc_origin.1
restoredirvbe(3)
restore connectors directions from behavioral view man1/alc_origin.1
rinetd(8)
internet redirection server
tracesplit_dir(1)
split traces into two directions
xgamma(1)
Alter a monitor's gamma correction through the X server
Array::Iterator::BiDirectional(3)
A subclass of Array::Iterator to allow forwards and backwards iteration
Dancer2::Plugin::Deferred(3)
Defer messages or data across redirections
Devel::AssertOS::OSFeatures::POSIXShellRedirection(3)
check whether the OS we're running on can be expected to support POSIX shell redirection
Event::tcpsession(3)
reliable bidirectional RPC session layer
IPC::Run3(3)
run a subprocess with input/ouput redirection
Layout::Manager::Flow(3)
Directional layout manager
MPI_Cart_shift(3), MPI_Cart_shift (3)
Returns the shifted source and destination ranks, given a shift direction and amount
Net::HTTP::Spore::Middleware::Redirection(3)
Middleware for redirections
Prima::Drawable::Glyphs(3)
helper routines for bi-directional text input and complex scripts output
bot_sync(nged)
Synchronizes the normals of all facets within a BOT primitive so they are all in the same direction
d.polar(1), d.polar (1)
Draws polar diagram of angle map such as aspect or flow directions
d.rast.arrow(1), d.rast.arrow (1)
Draws arrows representing cell aspect direction for a raster map containing aspect data
edgedir(nged)
Allows the user to set the direction of an edge by specifying a direction vector in the form of x, y, and z components or via rotation and fallback angles
g.gui.image2target(1), g.gui.image2target (1)
Georectifies a map and allows managing Ground Control Points for 3D correction
i.atcorr(1), i.atcorr (1)
Performs atmospheric correction using the 6S algorithm. 6S - Second Simulation of Satellite Signal in the Solar Spectrum
i.topo.corr(1), i.topo.corr (1)
Computes topographic correction of reflectance
lookat(nged)
Adjusts the current view in MGED such that the eye is looking in the direction of the given coordinates, but does not move the eye point nor change the view size
orientation(nged)
Sets the view direction for MGED from the quaternion specified on the command line
qvrot(nged)
Adjusts the current MGED viewing direction such that the eye is positioned along the direction vector (dx dy dz) from the view center and is looking towards the view center
r.fill.dir(1), r.fill.dir (1)
Filters and generates a depressionless elevation map and a flow direction map from a given elevation raster map
r.horizon(1), r.horizon (1)
Computes horizon angle height from a digital elevation model. The module has two different modes of operation: 1. Computes the entire horizon around a single point whose coordinates are given with the (cqcoord(cq option. The horizon height (in radians). 2. Computes one or more raster maps of the horizon height in a single direction. The input for this is the angle (in degrees), which is measured counterclockwise with east=0, north=90 etc. The output is the horizon height in radians
r.path(1), r.path (1)
Traces paths from starting points following input directions
r.ros(1), r.ros (1)
Generates rate of spread raster maps. Generates three, or four raster map layers showing the base (perpendicular) rate of spread (ROS), the maximum (forward) ROS, the direction of the maximum ROS, and optionally the maximum potential spotting distance for fire spread simulation
r.spread(1), r.spread (1)
Simulates elliptically anisotropic spread. 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. It optionally produces raster maps to contain backlink UTM coordinates for tracing spread paths. Usable for fire spread simulations
r.sunhours(1), r.sunhours (1)
Calculates solar elevation, solar azimuth, and sun hours. Solar elevation: the angle between the direction of the geometric center of the sun(cqs apparent disk and the (idealized) horizon. Solar azimuth: the angle from due north in clockwise direction
r.water.outlet(1), r.water.outlet (1)
Creates watershed basins from a drainage direction map
rotobj(nged)
Rotates the currently edited object by z angle degrees about the z direction, y angle degrees about the y direction, and x angle degrees about the x direction in that order
v.lidar.correction(1), v.lidar.correction (1)
Corrects the v.lidar.growing output. It is the last of the three algorithms for LIDAR filtering
v.net.iso(1), v.net.iso (1)
Splits subnets for nearest centers by cost isolines. Splits net to bands between cost isolines (direction from center). Center node must be opened (costs >= 0). Costs of center node are used in calculation
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