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-rw-r--r--doc/fullswof-utils.texi66
1 files changed, 64 insertions, 2 deletions
diff --git a/doc/fullswof-utils.texi b/doc/fullswof-utils.texi
index d32d646..d2412c9 100644
--- a/doc/fullswof-utils.texi
+++ b/doc/fullswof-utils.texi
@@ -147,6 +147,7 @@ ln -s /path/to/installation/directory/python/makeBoundary
@menu
* Runtime Dependencies::
* Invoking makeBoundary::
+* Invoking slope.py::
@end menu
@@ -299,11 +300,71 @@ Manning's n coefficients (comma-separated list, ordered by panel index)
number of height intervals
@end table
-
-
Comment lines are allowed in the boundary definition file. Lines that
start with the @samp{#} character are treated as comments.
+@node Invoking slope.py, Demos, Boundary Definition File, Usage
+@comment node-name, next, previous, up
+@section Invoking slope.py
+
+@command{slope.py} is an interactive program that is able to derive
+local gradient information from elevation data and user input. To start
+the program the command is:
+
+@example
+./slope.py
+@end example
+
+The program responds with a request for user input:
+
+@example
+Locate markers (m), plot channel profile (p), save profile (s) or exit (q):
+@end example
+
+The derivation of the local gradient is a two-stage process. Firstly, a
+series of markers are placed on opposite sides of the feature of
+interest. For example, for a channel feature, markers are placed along
+the channel on either side. Secondly, a best-fit curve is fitted to the
+data. A plot is displayed and the gradient printed to standard output.
+Optionally, the one-dimensional elevation data may be saved to an output
+file.
+
+A detailed description of the options follows:
+
+@table @samp
+@item m
+Locate markers. @command{slope.py} opens a window that displays a
+contour plot of the elevation data on the left hand side and a contour
+plot of the derived slope on the right hand side. The axes are labeled
+by cell index number. A legend to the side of each plot shows the range
+of contour values.
+
+The user is required to identify marker locations by positioning the
+mouse pointer within the elevation plot and pressing the @key{SPACE}
+key. The markers are entered in pairs, one on either side of the
+feature of interest. To finish the sequence of marker pairs, the user
+is required to move the mouse pointer to a position outside the
+elevation plot and press the @kbd{q} key.
+
+@item p
+Plot channel profile. @command{slope.py} constructs a straight line
+between each pair of markers and calculates the location of the minimum
+elevation value along each line. These locations form a channel
+``centre-line''. @command{slope.py} then uses a best-fit procedure to
+plot a straight line through the centre-line elevation data. A new
+window opens to show the centre-line data and the best-fit line. The
+gradient and intercept of the best-fit line are printed to standard
+output.
+
+@item s
+Save profile. The channel centre-line data is written to the file
+@file{1D.txt}. The file is formatted in the @emph{FullSWOF} @emph{xyz}
+format.
+
+@item q
+Quit @command{slope.py}.
+@end table
+
@node Demos, GNU Free Documentation License, Boundary Definition File, Top
@comment node-name, next, previous, up
@chapter Demos
@@ -335,5 +396,6 @@ already exists.
Local Variables:
mode: texinfo
+eval: (outline-minor-mode)
TeX-master: t
End: