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authorjmmv <jmmv@pkgsrc.org>2003-05-06 17:40:18 +0000
committerjmmv <jmmv@pkgsrc.org>2003-05-06 17:40:18 +0000
commitf1446ddf2bf8118f432b3ac74c88db3d832669a8 (patch)
tree37ae7d212f46ef8018a7bd8c13edba7da1a47ed9 /cad/gschem
parent37170ce899bdf394cca1d0769b2215d84b15a7ee (diff)
downloadpkgsrc-f1446ddf2bf8118f432b3ac74c88db3d832669a8.tar.gz
Drop trailing whitespace. Ok'ed by wiz.
Diffstat (limited to 'cad/gschem')
-rw-r--r--cad/gschem/DESCR10
1 files changed, 5 insertions, 5 deletions
diff --git a/cad/gschem/DESCR b/cad/gschem/DESCR
index f0b21868daa..159a252ee49 100644
--- a/cad/gschem/DESCR
+++ b/cad/gschem/DESCR
@@ -7,15 +7,15 @@ layout circuits using a computer. Standard symbols are used to
represent the various gates and components which are interconnected
by nets (wires). Most vector drawing programs can be used for
schematic capture but they usually lack one (or more) of the
-following characteristics:
+following characteristics:
* The awareness of the electrical properties of components, nets,
- and pins.
+ and pins.
* Hierarchical design (having components represent some abstracted
functionality). The ability to associate attributes with nets and
- components.
- * Generate netlists from the schematic.
+ components.
+ * Generate netlists from the schematic.
These are all critical features (among others which I cannot recall
right now) which are shared by all schematic capture programs. The
-schematic capture program which is part of gEDA is called "gschem".
+schematic capture program which is part of gEDA is called "gschem".