File _service:obs_scm:nauty-help2man.patch of Package nauty

Description: format usages and helps
 Attempt to format usages and helps of the invited
 programs wrt to the original gtools.
Origin: debian
Author: Jerome Benoit <calculus@rezozer.net>
Last-Update: 2016-03-19

--- a/watercluster2.c
+++ b/watercluster2.c
@@ -1,54 +1,58 @@
 // cc -O4 -o water2 -DWORDSIZE=32 -DMAXN=WORDSIZE nauty.c naugraph.c nautil.c gtools.c schreier.c naurng.c watercluster2.c
 
-/*
-Reads graphs in g6 code or multicode (optional) from stdin and directs them 
-
-options: 
-
-ix  means: the indegree of every vertex may be at most x.
-
-oy  means: the outdegree of every vertex may be at most y.
-
-  S  means: allow that for every pair of vertices x,y at most one of the edges x-->y 
-     and y-->x may be present. By default both of them may be present in the same graph.
-
-
-  T  means: Output directed graphs in T-code. This is a simple ASCII output format. Every line
-     contains one graph. First the number of vertices, then the number of 
-     directed edges and then the list of directed edges with the start first 
-     and the end then. E.g.: 3 2 0 1 2 1 means 3 vertices, 2 directed edges:
-     0-->1 and 2-->1
-
-  B  means: Output the directed graphs in a binary code. Every item of the code is an unsigned
-     char. The first unsigned char is the number nv of vertices. The vertices are numbered 1..nv
-     Then the list of vertices x for which there is a directed edge 1->x follow. This list is
-     ended by a 0. Then the list of outgoing neighbours of 2 follows -- again ended with a 0, etc.
-     The code is complete with the 0 ending the list of outgoing neighbours of nv.
-
-  C  means: Do really construct all the directed graphs in memory, but don't output them. This is not
-     a big difference in case of restricted in- and outdegrees, because all that is done extra is that 
-     edges are directed instead of just keeping track of in- and out-degrees. This option is intended only
-     for testing purposes to test also routines that are normally not used when counting. Things that would 
-     speed up the counting also in some cases of restricted in- and out-degrees -- like multiplying the 
-     possibilities of assigning directions to edges that can be assigned directions independent 
-     of each other (depending on the degrees of the endvertices and overlaps) -- are not included. 
-     In case of not restrictive bounds on the in- and out-degree it not really constructing the graphs
-     can be considerably faster. In cases of restricted in- and out-degrees the only difference is that
-     the graph isn't modified...
-     The fact that in case of no output the graph is not modified is mainly to save time for the one 
-     case of waterclusters, where large numbers were determined. If large numbers (without output)
-     for other cases shall be determined, one should think about adding the multiplication routines.
-
-   m read multicode
-
-This program uses different labelling routines -- all based on the ideas of 
-
-G. Brinkmann, Generating water clusters and other directed graphs,
-Journal of Mathematical Chemistry 46, 1112--1121 (2009)
+#define GTOOL_USAGEHELP_COMPATIBILITY
 
-October 10, 2011: corrected error caused by overflow of 32bit int used as hashvalue.
+#define USAGE "watercluster2 [ix] [oy] [S] [T] [B] [C] [m]"
 
-Sep, 2012: PROCESS feature added by BDM.
+#define HELPTEXT \
+" Reads graphs in g6 code or multicode (optional) from stdin and directs them\n\
+\n\
+  ix : the indegree of every vertex may be at most x.\n\
+	     The default maximum indegree is unlimited.\n\
+\n\
+  oy : the outdegree of every vertex may be at most y.\n\
+	     The default maximum outdegree is unlimited.\n\
+\n\
+   S : allow that for every pair of vertices x,y at most one of the edges x-->y\n\
+       and y-->x may be present. By default both of them may be present in the same graph.\n\
+\n\
+\n\
+   T : Output directed graphs in T-code. This is a simple ASCII output format. Every line\n\
+       contains one graph. First the number of vertices, then the number of\n\
+       directed edges and then the list of directed edges with the start first\n\
+       and the end then. E.g.: 3 2 0 1 2 1 means 3 vertices, 2 directed edges:\n\
+       0-->1 and 2-->1\n\
+\n\
+   B : Output the directed graphs in a binary code. Every item of the code is an unsigned\n\
+       char. The first unsigned char is the number nv of vertices. The vertices are numbered 1..nv\n\
+       Then the list of vertices x for which there is a directed edge 1->x follow. This list is\n\
+       ended by a 0. Then the list of outgoing neighbours of 2 follows -- again ended with a 0, etc.\n\
+       The code is complete with the 0 ending the list of outgoing neighbours of nv.\n\
+\n\
+   C : Do really construct all the directed graphs in memory, but don't output them. This is not\n\
+       a big difference in case of restricted in- and outdegrees, because all that is done extra is that\n\
+       edges are directed instead of just keeping track of in- and out-degrees. This option is intended only\n\
+       for testing purposes to test also routines that are normally not used when counting. Things that would\n\
+       speed up the counting also in some cases of restricted in- and out-degrees -- like multiplying the\n\
+       possibilities of assigning directions to edges that can be assigned directions independent\n\
+       of each other (depending on the degrees of the endvertices and overlaps) -- are not included.\n\
+       In case of not restrictive bounds on the in- and out-degree it not really constructing the graphs\n\
+       can be considerably faster. In cases of restricted in- and out-degrees the only difference is that\n\
+       the graph isn't modified...\n\
+       The fact that in case of no output the graph is not modified is mainly to save time for the one\n\
+       case of waterclusters, where large numbers were determined. If large numbers (without output)\n\
+       for other cases shall be determined, one should think about adding the multiplication routines.\n\
+\n\
+   m : read multicode instead of g6 code\n\
+\n\
+This program uses different labelling routines -- all based on the ideas of\n\
+\n\
+G. Brinkmann, Generating water clusters and other directed graphs,\n\
+Journal of Mathematical Chemistry 46, 1112--1121 (2009)\n"
+/*
+ * October 10, 2011: corrected error caused by overflow of 32bit int used as hashvalue.
+ *
+ * Sep, 2012: PROCESS feature added by BDM.
 */
 
 /* PROCESS feature
@@ -67,7 +71,7 @@
  *
  * If SUMMARY is defined, it must expand as the name of a procedure
  * with prototype  void SUMMARY(void).  It is called at the end after
- * the normal summary. 
+ * the normal summary.
  */
 
 //#include<stdio.h>
@@ -500,7 +504,7 @@
 return 1;
 }
 
-
+#ifndef GTOOL_USAGEHELP_COMPATIBILITY
 void usage(char name[])
 {
 
@@ -518,6 +522,7 @@
   exit(1);
 
 }
+#endif
 
 /**********DECODE_TO_NAUTY****************************************************/
 
@@ -4013,6 +4018,15 @@
   int multicode=0, g6code=1;
   long long int last=0LL;
 
+#ifdef GTOOL_USAGEHELP_COMPATIBILITY
+	if (argc > 1 && (strcmp(argv[1],"-help") == 0
+                       || (strcmp(argv[1],"--help") == 0)))
+	{
+	    printf("Usage: %s\n\n%s",USAGE,HELPTEXT);
+	    exit(0);
+	}
+#endif
+
   if (sizeof(long long int)<8) 
     { 
       fprintf(stderr,"This may cause problems with the hashing function for large degree -- exit().\n");
@@ -4028,7 +4042,15 @@
 	  else  if (argv[i][0]=='B') direct_output=3;
 	    else  if (argv[i][0]=='S') double_allowed=0;
 	      else  if (argv[i][0]=='m') { g6code=0; multicode=1; }
-      else usage(argv[0]);
+      else {
+#ifdef GTOOL_USAGEHELP_COMPATIBILITY
+        fprintf(stderr,">E Usage: %s\n",USAGE);
+        fprintf(stderr,"Use watercluster2 -help to see a list of the options.\n");
+        exit(1);
+#else
+        usage(argv[0]);
+#endif
+				}
     }
 
 #ifdef PROCESS
--- a/genbg.c
+++ b/genbg.c
@@ -3,8 +3,7 @@
 /* TODO: consider colour swaps */
 
 #define USAGE \
-"genbg [-c -ugs -vq -lzF] [-Z#] [-D#] [-A] [-d#|-d#:#] [-D#|-D#:#] n1 n2 \n\
-                [mine[:maxe]] [res/mod] [file]"
+"genbg [-c -ugs -vq -lzF] [-Z#] [-D#] [-A] [-d#|-d#:#] [-D#|-D#:#] n1 n2 [mine[:maxe]] [res/mod] [file]"
 
 #define HELPTEXT \
 " Find all bicoloured graphs of a specified class.\n\
--- a/geng.c
+++ b/geng.c
@@ -6,8 +6,7 @@
 /* geng.c  version 2.9; B D McKay, Jan 2016. */
 
 #define USAGE \
-"geng [-cCmtfbd#D#] [-uygsnh] [-lvq] \n\
-              [-x#X#] n [mine[:maxe]] [res/mod] [file]"
+"geng [-cCmtfbd#D#] [-uygsnh] [-lvq] [-x#X#] n [mine[:maxe]] [res/mod] [file]"
 
 #define HELPTEXT \
 " Generate all graphs of a specified class.\n\
--- a/genrang.c
+++ b/genrang.c
@@ -2,8 +2,7 @@
 /* TODO:  Check allocs for no edges */
 
 #define USAGE \
-"genrang [-P#|-P#/#|-e#|-r#|-R#|-d#] [-l#] [-m#] [-t] [-T] [-a] \n" \
-"         [-s|-g|-z] [-S#] [-q] n|n1,n2 num [outfile]"
+"genrang [-P#|-P#/#|-e#|-r#|-R#|-d#] [-l#] [-m#] [-t] [-T] [-a] [-s|-g|-z] [-S#] [-q] n|n1,n2 num [outfile]"
 
 #define HELPTEXT \
 " Generate random graphs.\n\
--- a/vcolg.c
+++ b/vcolg.c
@@ -1,8 +1,7 @@
 /* vcolg.c version 1.0; B D McKay, Aug 31, 2013 */
 
 #define USAGE \
-"vcolg [-q] [-u|-T|-G|-A|-B] [-e#|-e#:#] \n" \
-"       [-m#] [-f#] [-D#|-r#|-l#] [infile [outfile]]"
+"vcolg [-q] [-u|-T|-G|-A|-B] [-e#|-e#:#] [-m#] [-f#] [-D#|-r#|-l#] [infile [outfile]]"
 
 #define HELPTEXT \
 " Read undirected loop-free graphs and colour their vertices in\n\
--- a/genspecialg.c
+++ b/genspecialg.c
@@ -1,20 +1,22 @@
 /* genspecialg.c  version 1.1; B D McKay, Feb 12, 2016 */
 
-#define USAGE "genspecialg \n\
-[-s|-g|-z|-d] [-q] \
-[-p#|-c#|-e#|-k#|-b#,#|-Q#|-f#|-J#,#|-P#,#|C#,#...|G#,#...|T#,#...] [outfile]"
+#define USAGE "genspecialg [-s|-g|-z|-d] [-q] [-p#|-c#|-e#|-k#|-b#,#|-Q#|-f#|-J#,#|-P#,#|C#[,#]|G#[,#]|T#[,#]] [outfile]"
 
 #define HELPTEXT \
 " Generate one particular graph.\n\
-     #  : size parameter called n in the descriptions\n\
 \n\
+Options:\n\
+General Options:\n\
     -s : Write in sparse6 format (default)\n\
     -g : Write in graph6 format\n\
     -z : Make digraph versions and write in digraph6 format\n\
     -d : Write in dreadnaut format (can be used with -z)\n\
     -q : Suppress summary\n\
 \n\
-    If defined, the digraph version is shown in parentheses:\n\
+Special Options:\n\
+ If defined, the digraph version is shown in parentheses;\n\
+ # size parameter called n in the descriptions.\n\
+\n\
     -p#   : path (directed path) on n vertices.\n\
     -c#   : cycle (directed cycle) on n vertices.\n\
     -e#   : empty graph (digraph with loops only) on n vertices.\n\
@@ -24,9 +26,9 @@
     -P#,# : generalized Petersen graph; usual one is -P5,2\n\
     -Q#   : hypercube on 2^n vertices and degree n.\n\
     -J#,# : Johnson graph J(n,k), args are n and k.\n\
-    -C#,#... : circulant (di)graph.\n\
-    -T#,#... : theta (di)graph Theta(#,#,...), give path lengths.\n\
-    -G#,#... : (directed) grid, use negative values for open directions\n"
+    -C#[,#] : circulant (di)graph.\n\
+    -T#[,#] : theta (di)graph Theta(#[,#]), give path lengths.\n\
+    -G#[,#] : (directed) grid, use negative values for open directions\n"
 
 /* Ideas: multipartite, knesser, full trees */
 
--- a/cubhamg.c
+++ b/cubhamg.c
@@ -1,54 +1,53 @@
-/* cubhamg.c : pick those inputs that are nonhamiltonian and
-                have max degree <= 3.
+/* cubhamg.c : pick those inputs that are nonhamiltonian and have max degree <= 3. */
 
- Usage:
-cubhamg [-#] [-v|-V] [-n#-#|-y#-#|-i|-I|-o|-x|-e|-E] [-b|-t] [infile [outfile]]
+#define USAGE "cubhamg [-#] [-v|-V] [-n#-#|-y#-#|-i|-I|-o|-x|-e|-E] [-b|-t] [infile [outfile]]"
 
-        infile is the name of the input file in graph6/sparse6 format
-        outfile is the name of the output file in the same format
+#define HELPTEXT \
+" Pick those inputs that are nonhamiltonian and have max degree <= 3.\n\
+\n\
+ infile is the name of the input file in graph6/sparse6 format (default: stdin)\n\
+\n\
+ outfile is the name of the output file in the same format (default: stdout)\n\
+\n\
+ The output file will have a header >>graph6<< or >>sparse6<< if the input file does.\n\
+\n\
+Options:\n\
+	-#  A parameter useful for tuning (default 100)\n\
+	-v  Report nonhamiltonian graphs and noncubic graphs\n\
+	-V  .. in addition give a cycle for the hamiltonian ones\n\
+	-n#-#  If the two numbers are v and i, then the i-th edge\n\
+	       out of vertex v is required to be not in the cycle.\n\
+	       It must be that i=1..3 and v=0..n-1.\n\
+	-y#-#  If the two numbers are v and i, then the i-th edge\n\
+	       out of vertex v is required to be in the cycle.\n\
+	       It must be that i=1..3 and v=0..n-1.\n\
+	       You can use any number of -n/-y switches to force\n\
+	       edges.  Out of range first arguments are ignored.\n\
+	       If -y and -n give same edge, -y wins.\n\
+	-i  Test + property: for each edge e, there is a hamiltonian cycle using e.\n\
+	-I  Test ++ property: for each pair of edges e,e', there is\n\
+	    a hamiltonian cycle which uses both e and e'.\n\
+	-o  Test - property: for each edge e, there is a hamiltonian cycle avoiding e.\n\
+	-x  Test +- property: for each pair of edges e,e', there is\n\
+	    a hamiltonian cycle which uses e but avoids e'.\n\
+	-e  Test 3/4 property: for each edge e, at least 3 of the 4\n\
+	    paths of length 3 passing through e lie on hamiltonian cycles.\n\
+	-E  Test 3/4+ property: for each edge e failing the 3/4 property,\n\
+	    all three ways of joining e to the rest of the graph are\n\
+	    hamiltonian avoiding e.\n\
+	-T#  Specify a timeout, being a limit on how many search tree\n\
+	     nodes are made.  If the timeout occurs, the graph is\n\
+	     written to the output as if it is nonhamiltonian.\n\
+	-R#  Specify the number of repeat attempts for each stage.\n\
+	-F  Analyze covering paths from 2 or 4 vertices of degree 2.\n\
+\n\
+	-b  Require biconnectivity\n\
+	-t  Require triconnectivity  (note: quadratic algorithm)\n\
+\n\
+Comments:\n\
+	-y, -n, -#, -R and -T are ignored for -i, -I, -x, -o, -e, -E, -F\n"
 
-	stdin and stdout are the defaults for infile and outfile
-
-	The output file will have a header >>graph6<< or >>sparse6<<
-        if and only if the input file does.
-
-        Optional switches:
-
-        -#  A parameter useful for tuning (default 100)
-	-v  Report nonhamiltonian graphs and noncubic graphs
-	-V  .. in addition give a cycle for the hamiltonian ones
-	-n#-#  If the two numbers are v and i, then the i-th edge
-	    out of vertex v is required to be not in the cycle.
-	    It must be that i=1..3 and v=0..n-1.
-	-y#-#  If the two numbers are v and i, then the i-th edge
-	    out of vertex v is required to be in the cycle.
-	    It must be that i=1..3 and v=0..n-1.
-            You can use any number of -n/-y switches to force
-            edges.  Out of range first arguments are ignored.
-            If -y and -n give same edge, -y wins.
-        -i  Test + property: for each edge e, there is a hamiltonian
-            cycle using e.
-	-I  Test ++ property: for each pair of edges e,e', there is
-            a hamiltonian cycle which uses both e and e'.
-        -o  Test - property: for each edge e, there is a hamiltonian 
-            cycle avoiding e.
-        -x  Test +- property: for each pair of edges e,e', there is
-            a hamiltonian cycle which uses e but avoids e'.
-        -e  Test 3/4 property: for each edge e, at least 3 of the 4
-            paths of length 3 passing through e lie on hamiltonian cycles.
-        -E  Test 3/4+ property: for each edge e failing the 3/4 property,
-            all three ways of joining e to the rest of the graph are
-            hamiltonian avoiding e.
-        -T# Specify a timeout, being a limit on how many search tree
-            nodes are made.  If the timeout occurs, the graph is 
-            written to the output as if it is nonhamiltonian.
-        -R# Specify the number of repeat attempts for each stage.
-        -F  Analyze covering paths from 2 or 4 vertices of degree 2.
-
-	-b  Require biconnectivity
-        -t  Require triconnectivity  (note: quadratic algorithm)
-
-        -y, -n, -#, -R and -T are ignored for -i, -I, -x, -o, -e, -E, -F
+/**************************************************************************
 
 	B. D. McKay, Nov 1995 + Aug 1996 + Feb 2002 + Jul 2008 + Nov 2015
 
@@ -1611,6 +1610,8 @@
         char *arg;
 	int codetype;
 
+	HELP;
+
         infilename = outfilename = NULL;
         badargs = FALSE;
 	e34plus = e34 = in = out = inin = inout = FALSE;
@@ -1729,8 +1730,8 @@
 
 	if (badargs)
 	{
-	    fprintf(stderr,
-         ">E Usage: cubhamg [-#] [-v | -V] [-n#-#] [-y#-#] [infile [outfile]]\n");
+	    fprintf(stderr, ">E Usage: " USAGE "\n" );
+			GETHELP;
 	    exit(1);
 	}