head	1.3;
access;
symbols
	RELEASE_8_3_0:1.3
	RELEASE_9_0_0:1.3
	RELEASE_7_4_0:1.2
	RELEASE_8_2_0:1.2
	RELEASE_6_EOL:1.2
	RELEASE_8_1_0:1.2
	RELEASE_7_3_0:1.2
	RELEASE_8_0_0:1.2
	RELEASE_7_2_0:1.2
	RELEASE_7_1_0:1.2
	RELEASE_6_4_0:1.2
	RELEASE_5_EOL:1.2
	RELEASE_7_0_0:1.2
	RELEASE_6_3_0:1.2
	PRE_XORG_7:1.1
	RELEASE_4_EOL:1.1;
locks; strict;
comment	@# @;


1.3
date	2011.04.07.18.25.56;	author dinoex;	state Exp;
branches;
next	1.2;

1.2
date	2007.08.08.15.52.47;	author dinoex;	state Exp;
branches;
next	1.1;

1.1
date	2006.11.18.09.55.59;	author dinoex;	state Exp;
branches;
next	;


desc
@@


1.3
log
@- drop MD5
@
text
@SHA256 (repacked/GScheme.tgz) = f444486bc3653251be93bead37d72654193394e646ff6ee0f6fa1d17c46b1021
SIZE (repacked/GScheme.tgz) = 92492
@


1.2
log
@- update to 0.6
@
text
@a0 1
MD5 (repacked/GScheme.tgz) = 685ce5e1f21cb6a6c287ddb9160a9adf
@


1.1
log
@A GNUstep-aware scheme interpreter. You need libflex installed on your system.
Includes many examples, e.g. the sieve of Erathostenes to compute primes,
a Koch curve plotter, mandelbrot set, graphs of various functions etc.
GScheme is fully tail recursive. The garbage collector bypasses GNUstep's
retain/release mechanism in order to deal with circular data structures.
GScheme is document-based and you can edit more than one file at the same time.

WWW: http://www.gnustep.it/marko/GScheme/index.html
@
text
@d1 3
a3 3
MD5 (GScheme.tgz) = efaa0875365127174ad6c6d1a3471388
SHA256 (GScheme.tgz) = f9bcff716eb4569c19f03958ce9cb6434f314959ee4a2f9f0abd0d54df04c1ea
SIZE (GScheme.tgz) = 92641
@

