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* src/print_graph.c, src/print_graph.h (graph): New.

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* src/vcg.h: New file.
* src/vcg.c: New file, VCG graph handling.
This commit is contained in:
Akim Demaille
2001-08-06 09:05:53 +00:00
parent 7333d40316
commit ce4d5ce009
6 changed files with 2310 additions and 0 deletions
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src/vcg.c Normal file
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/* VCG description handler for Bison.
Copyright 2001 Free Software Foundation, Inc.
This file is part of Bison, the GNU Compiler Compiler.
Bison is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2, or (at your option)
any later version.
Bison is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Bison; see the file COPYING. If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA. */
#include "system.h"
#include "vcg.h"
#include "vcg_defaults.h"
#include "xalloc.h"
/* Initialize a graph with the default values. */
void
new_graph (graph_t *g)
{
g->title = G_TITLE;
g->label = G_LABEL;
g->infos[0] = G_INFOS1;
g->infos[1] = G_INFOS2;
g->infos[2] = G_INFOS3;
g->color = G_COLOR;
g->textcolor = G_TEXTCOLOR;
g->bordercolor = G_BORDERCOLOR;
g->width = G_WIDTH;
g->height = G_HEIGHT;
g->borderwidth = G_BORDERWIDTH;
g->x = G_X;
g->y = G_Y;
g->folding = G_FOLDING;
g->shrink = G_SHRINK;
g->stretch = G_STRETCH;
g->textmode = G_TEXTMODE;
g->shape = G_SHAPE;
g->xmax = G_XMAX; /* Not output. */
g->ymax = G_YMAX; /* Not output. */
g->xbase = G_XBASE;
g->ybase = G_YBASE;
g->xspace = G_XSPACE;
g->yspace = G_YSPACE;
g->xlspace = G_XLSPACE; /* Not output. */
g->xraster = G_XRASTER;
g->yraster = G_YRASTER;
g->xlraster = G_XLRASTER;
g->hidden = G_HIDDEN; /* No default value. */
g->classname = G_CLASSNAME; /* No class name association. */
g->layoutalgorithm = G_LAYOUTALGORITHM;
g->layout_downfactor = G_LAYOUT_DOWNFACTOR;
g->layout_upfactor = G_LAYOUT_UPFACTOR;
g->layout_nearfactor = G_LAYOUT_NEARFACTOR;
g->layout_splinefactor = G_LAYOUT_SPLINEFACTOR;
g->late_edge_labels = G_LATE_EDGE_LABELS;
g->display_edge_labels = G_DISPLAY_EDGE_LABELS;
g->dirty_edge_labels = G_DIRTY_EDGE_LABELS;
g->finetuning = G_FINETUNING;
g->ignore_singles = G_IGNORE_SINGLES;
g->straight_phase = G_STRAIGHT_PHASE;
g->priority_phase = G_PRIORITY_PHASE;
g->manhattan_edges = G_MANHATTAN_EDGES;
g->smanhattan_edges = G_SMANHATTAN_EDGES;
g->near_edges = G_NEAR_EDGES;
g->orientation = G_ORIENTATION;
g->node_alignement = G_NODE_ALIGNEMENT;
g->port_sharing = G_PORT_SHARING;
g->arrow_mode = G_ARROW_MODE;
g->treefactor = G_TREEFACTOR;
g->spreadlevel = G_SPREADLEVEL;
g->crossing_weight = G_CROSSING_WEIGHT;
g->crossing_phase2 = G_CROSSING_PHASE2;
g->crossing_optimization = G_CROSSING_OPTIMIZATION;
g->view = G_VIEW;
g->edges = G_EDGES;
g->nodes = G_NODES;
g->splines = G_SPLINES;
g->bmax = G_BMAX;
g->cmin = G_CMIN;
g->cmax = G_CMAX;
g->pmin = G_PMIN;
g->pmax = G_PMAX;
g->rmin = G_RMIN;
g->rmax = G_RMAX;
g->smax = G_SMAX;
g->node_list = G_NODE_LIST;
g->edge_list = G_EDGE_LIST;
new_edge(&g->edge);
new_node(&g->node);
}
/* Initialize a node with the defalut values. */
void
new_node (node_t *node)
{
node->title = N_TITLE;
node->label = N_LABEL;
node->locx = N_LOCX; /* Default unspcified. */
node->locy = N_LOCY; /* Default unspcified. */
node->vertical_order = N_VERTICAL_ORDER; /* Default unspcified. */
node->horizontal_order = N_HORIZONTAL_ORDER; /* Default unspcified. */
node->width = N_WIDTH; /* We assume that we can't define it now. */
node->height = N_HEIGHT; /* Also. */
node->shrink = N_SHRINK;
node->stretch = N_STRETCH;
node->folding = N_FOLDING; /* No explicit default value. */
node->shape = N_SHAPE;
node->textmode = N_TEXTMODE;
node->borderwidth = N_BORDERWIDTH;
node->color = N_COLOR;
node->textcolor = N_TEXTCOLOR;
node->bordercolor = N_BORDERCOLOR;
node->infos[0] = N_INFOS1;
node->infos[1] = N_INFOS2;
node->infos[2] = N_INFOS3;
node->next = N_NEXT;
}
/* Initialize a edge with the defalut values. */
void
new_edge (edge_t *edge)
{
edge->type = E_EDGE_TYPE;
edge->sourcename = E_SOURCENAME;
edge->targetname = E_TARGETNAME;
edge->label = E_LABEL;
edge->linestyle = E_LINESTYLE;
edge->thickness = E_THICKNESS;
edge->class = E_CLASS;
edge->color = E_COLOR;
edge->textcolor = E_TEXTCOLOR;
edge->arrowcolor = E_ARROWCOLOR;
edge->backarrowcolor = E_BACKARROWCOLOR;
edge->arrowsize = E_ARROWSIZE;
edge->backarrowsize = E_BACKARROWSIZE;
edge->arrowstyle = E_ARROWSTYLE;
edge->backarrowstyle = E_BACKARROWSTYLE;
edge->priority = E_PRIORITY;
edge->anchor = E_ANCHOR;
edge->horizontal_order = E_HORIZONTAL_ORDER;
edge->next = E_NEXT;
}
/*----------------------------------------------.
| Get functions. |
| Return string corresponding to an enum value. |
`----------------------------------------------*/
static const char *
get_color_str (enum color_e c)
{
switch (c)
{
case white: return ("white");
case blue: return ("blue");
case red: return ("red");
case green: return ("green");
case yellow: return ("yellow");
case magenta: return ("magenta");
case cyan: return ("cyan");
case darkgrey: return ("darkgrey");
case darkblue: return ("darkblue");
case darkred: return ("darkred");
case darkgreen: return ("darkgreen");
case darkyellow: return ("darkyellow");
case darkmagenta: return ("darkmagenta");
case darkcyan: return ("darkcyan");
case gold: return ("gold");
case lightgrey: return ("lightgrey");
case lightblue: return ("lightblue");
case lightred: return ("lightred");
case lightgreen: return ("lightgreen");
case lightyellow: return ("lightyellow");
case lightmagenta: return ("lightmagenta");
case lightcyan: return ("lightcyan");
case lilac: return ("lilac");
case turquoise: return ("turquoise");
case aquamarine: return ("aquamarine");
case khaki: return ("khaki");
case purple: return ("purple");
case yellowgreen: return ("yellowgreen");
case pink: return ("pink");
case orange: return ("orange");
case orchid: return ("orchid");
case black: return ("black");
default:
complain (_("vcg graph: no such a color."));
return (get_color_str(G_COLOR));
}
return NULL;
}
static const char *
get_textmode_str (enum textmode_e t)
{
switch (t)
{
case centered: return ("center");
case left_justify: return ("left_justify");
case right_justify: return ("right_justify");
default:
complain (_("vcg graph: no such a text mode.."));
return (get_textmode_str(G_TEXTMODE));
}
return NULL;
}
static const char *
get_shape_str (enum shape_e s)
{
switch (s)
{
case box: return ("box");
case rhomb: return ("rhomb");
case ellipse: return ("ellipse");
case triangle: return ("triangle");
default:
complain (_("vcg graph: no such a shape.."));
return (get_shape_str(G_SHAPE));
}
return NULL;
}
static const char *
get_layoutalgorithm_str (enum layoutalgorithm_e l)
{
switch (l)
{
case normal: return ("normal");
case maxdepth: return ("maxdepth");
case mindepth: return ("mindepth");
case maxdepthslow: return ("maxdepthslow");
case mindepthslow: return ("mindepthslow");
case maxdegree: return ("maxdegree");
case mindegree: return ("mindegree");
case maxindegree: return ("maxindegree");
case minindegree: return ("minindegree");
case maxoutdegree: return ("maxoutdegree");
case minoutdegree: return ("minoutdegree");
case minbackward: return ("minbackward");
case dfs: return ("dfs");
case tree: return ("tree");
default:
return ("normal");
}
return NULL;
}
static const char *
get_decision_str (enum decision_e d, enum decision_e defaults)
{
switch (d)
{
case no: return ("no");
case yes: return ("yes");
default:
complain (_("vcg graph: no such a decision.."));
return (get_decision_str(defaults, 0));
}
return NULL;
}
static const char *
get_orientation_str (enum orientation_e o)
{
switch (o)
{
case top_to_bottom: return ("top_to_bottom");
case bottom_to_top: return ("bottom_to_top");
case left_to_right: return ("left_to_right");
case right_to_left: return ("right_to_left");
default:
complain (_("vcg graph: no such an orientation.."));
return (get_orientation_str(G_ORIENTATION));
}
return NULL;
}
static const char *
get_node_alignement_str (enum alignement_e a)
{
switch (a)
{
case center: return ("center");
case top: return ("top");
case bottom: return ("bottom");
default:
complain (_("vcg graph: no such an alignement.."));
return (get_node_alignement_str(G_NODE_ALIGNEMENT));
}
return NULL;
}
static const char *
get_arrow_mode_str (enum arrow_mode_e a)
{
switch (a)
{
case fixed: return ("fixed");
case free_a: return ("free");
default:
complain (_("vcg graph: no such an arrow mode.."));
return (get_arrow_mode_str(G_ARROW_MODE));
}
return NULL;
}
static const char *
get_crossing_type_str (enum crossing_type_e c)
{
switch (c)
{
case bary: return ("bary");
case median: return ("median");
case barymedian: return ("barymedian");
case medianbary: return ("medianbary");
default:
complain (_("vcg graph: no such a crossing_type.."));
return (get_crossing_type_str(G_CROSSING_WEIGHT));
}
return NULL;
}
static const char *
get_view_str (enum view_e v)
{
switch (v)
{
case normal_view: return ("normal_view");
case cfish: return ("cfish");
case pfish: return ("pfish");
case fcfish: return ("fcfish");
case fpfish: return ("fpfish");
default:
complain (_("vcg graph: no such a view.."));
return (get_view_str(G_VIEW));
}
return NULL;
}
static const char *
get_linestyle_str (enum linestyle_e l)
{
switch (l)
{
case continuous: return ("continuous");
case dashed: return ("dashed");
case dotted: return ("dotted");
case invisible: return ("invisible");
default:
complain (_("vcg graph: no such a linestyle.."));
return (get_linestyle_str(E_LINESTYLE));
}
return NULL;
}
static const char *
get_arrowstyle_str (enum arrowstyle_e a)
{
switch (a)
{
case solid: return ("solid");
case line: return ("line");
case none: return ("none");
default:
complain (_("vcg graph: no such an arrowstyle.."));
return (get_arrowstyle_str(E_ARROWSTYLE));
}
return NULL;
}
/*----------------------------.
| Add functions. |
| Edge and Nodes int a graph. |
`----------------------------*/
void
add_node (graph_t *graph, node_t *node)
{
node->next = graph->node_list;
graph->node_list = node;
}
void
add_edge (graph_t *graph, edge_t *edge)
{
edge->next = graph->edge_list;
graph->edge_list = edge;
}
/*-------------------------------------.
| Open and close functions (formatted) |
`-------------------------------------*/
void
open_edge(edge_t *edge, struct obstack *os)
{
switch (edge->type)
{
case normal_edge:
obstack_sgrow (os, "\tedge: {\n");
break;
case back_edge:
obstack_sgrow (os, "\tbackedge: {\n");
break;
case near_edge:
obstack_sgrow (os, "\tnearedge: {\n");
break;
case bent_near_edge:
obstack_sgrow (os, "\tbentnearedge: {\n");
break;
default:
obstack_sgrow (os, "\tedge: {\n");
}
}
void
close_edge(struct obstack *os)
{
obstack_sgrow (os, "\t}\n");
}
void
open_node(struct obstack *os)
{
obstack_sgrow (os, "\tnode: {\n");
}
void
close_node(struct obstack *os)
{
obstack_sgrow (os, "\t}\n");
}
void
open_graph(struct obstack *os)
{
obstack_sgrow (os, "graph: {\n");
}
void
close_graph(graph_t *graph, struct obstack *os)
{
obstack_1grow (os, '\n');
{
node_t *node;
for (node = graph->node_list; node; node = node->next)
{
open_node (os);
output_node (node, os);
close_node (os);
}
}
obstack_1grow (os, '\n');
{
edge_t *edge;
for (edge = graph->edge_list; edge; edge = edge->next)
{
open_edge (edge, os);
output_edge (edge, os);
close_edge (os);
}
}
obstack_sgrow (os, "}\n");
}
/*-------------------------------------------.
| Output functions (formatted) in obstack os |
`-------------------------------------------*/
void
output_node (node_t *node, struct obstack *os)
{
if (node->title != N_TITLE)
obstack_fgrow1 (os, "\t\ttitle:\t\"%s\"\n", node->title);
if (node->label != N_LABEL)
obstack_fgrow1 (os, "\t\tlabel:\t\"%s\"\n", node->label);
if ((node->locx != N_LOCX) && (node->locy != N_LOCY))
obstack_fgrow2 (os, "\t\tloc { x: %d y: %d }\t\n", node->locx, node->locy);
if (node->vertical_order != N_VERTICAL_ORDER)
obstack_fgrow1 (os, "\t\tvertical_order:\t%d\n", node->vertical_order);
if (node->horizontal_order != N_HORIZONTAL_ORDER)
obstack_fgrow1 (os, "\t\thorizontal_order:\t%d\n", node->horizontal_order);
if (node->width != N_WIDTH)
obstack_fgrow1 (os, "\t\twidth:\t%d\n", node->width);
if (node->height != N_HEIGHT)
obstack_fgrow1 (os, "\t\theight:\t%d\n", node->height);
if (node->shrink != N_SHRINK)
obstack_fgrow1 (os, "\t\tshrink:\t%d\n", node->shrink);
if (node->stretch != N_STRETCH)
obstack_fgrow1 (os, "\t\tshrink:\t%d\n", node->shrink);
if (node->folding != N_FOLDING)
obstack_fgrow1 (os, "\t\tfolding:\t%d\n", node->folding);
if (node->textmode != N_TEXTMODE)
obstack_fgrow1 (os, "\t\ttextmode:\t%s\n",
get_textmode_str (node->textmode));
if (node->shape != N_SHAPE)
obstack_fgrow1 (os, "\t\tshape:\t%s\n", get_shape_str (node->shape));
if (node->borderwidth != N_BORDERWIDTH)
obstack_fgrow1 (os, "\t\tborderwidth:\t%d\n", node->borderwidth);
if (node->color != N_COLOR)
obstack_fgrow1 (os, "\t\tcolor:\t%s\n", get_color_str (node->color));
if (node->textcolor != N_TEXTCOLOR)
obstack_fgrow1 (os, "\t\ttextcolor:\t%s\n",
get_color_str (node->textcolor));
if (node->bordercolor != N_BORDERCOLOR)
obstack_fgrow1 (os, "\t\tbordercolor:\t%s\n",
get_color_str (node->bordercolor));
if (node->infos[0])
obstack_fgrow1 (os, "\t\tinfo1:\t\"%s\"\n", node->infos[0]);
if (node->infos[1])
obstack_fgrow1 (os, "\t\tinfo2:\t\"%s\"\n", node->infos[1]);
if (node->infos[2])
obstack_fgrow1 (os, "\t\tinfo3:\t\"%s\"\n", node->infos[2]);
}
void
output_edge (edge_t *edge, struct obstack *os)
{
if (edge->sourcename != E_SOURCENAME)
obstack_fgrow1 (os, "\t\tsourcename:\t\"%s\"\n", edge->sourcename);
if (edge->targetname != E_TARGETNAME)
obstack_fgrow1 (os, "\t\ttargetname:\t\"%s\"\n", edge->targetname);
if (edge->label != E_LABEL)
obstack_fgrow1 (os, "\t\tlabel:\t\"%s\"\n", edge->label);
if (edge->linestyle != E_LINESTYLE)
obstack_fgrow1 (os, "\t\tlinestyle:\t\"%s\"\n",
get_linestyle_str(edge->linestyle));
if (edge->thickness != E_THICKNESS)
obstack_fgrow1 (os, "\t\tthickness:\t%d\n", edge->thickness);
if (edge->class != E_CLASS)
obstack_fgrow1 (os, "\t\tclass:\t%d\n", edge->class);
if (edge->color != E_COLOR)
obstack_fgrow1 (os, "\t\tcolor:\t%s\n", get_color_str (edge->color));
if (edge->color != E_TEXTCOLOR)
obstack_fgrow1 (os, "\t\ttextcolor:\t%s\n",
get_color_str (edge->textcolor));
if (edge->arrowcolor != E_ARROWCOLOR)
obstack_fgrow1 (os, "\t\tarrowcolor:\t%s\n",
get_color_str (edge->arrowcolor));
if (edge->backarrowcolor != E_BACKARROWCOLOR)
obstack_fgrow1 (os, "\t\tbackarrowcolor:\t%s\n",
get_color_str (edge->backarrowcolor));
if (edge->arrowsize != E_ARROWSIZE)
obstack_fgrow1 (os, "\t\tarrowsize:\t%d\n", edge->arrowsize);
if (edge->backarrowsize != E_BACKARROWSIZE)
obstack_fgrow1 (os, "\t\tbackarrowsize:\t%d\n", edge->backarrowsize);
if (edge->arrowstyle != E_ARROWSTYLE)
obstack_fgrow1 (os, "\t\tarrowstyle:\t%s\n",
get_arrowstyle_str(edge->arrowstyle));
if (edge->backarrowstyle != E_BACKARROWSTYLE)
obstack_fgrow1 (os, "\t\tbackarrowstyle:\t%s\n",
get_arrowstyle_str(edge->backarrowstyle));
if (edge->priority != E_PRIORITY)
obstack_fgrow1 (os, "\t\tpriority:\t%d\n", edge->priority);
if (edge->anchor != E_ANCHOR)
obstack_fgrow1 (os, "\t\tanchor:\t%d\n", edge->anchor);
if (edge->horizontal_order != E_HORIZONTAL_ORDER)
obstack_fgrow1 (os, "\t\thorizontal_order:\t%d\n", edge->horizontal_order);
}
void
output_graph (graph_t *graph, struct obstack *os)
{
if (graph->title)
obstack_fgrow1 (os, "\ttitle:\t\"%s\"\n", graph->title);
if (graph->label)
obstack_fgrow1 (os, "\tlabel:\t\"%s\"\n", graph->label);
if (graph->infos[0])
obstack_fgrow1 (os, "\tinfo1:\t\"%s\"\n", graph->infos[0]);
if (graph->infos[1])
obstack_fgrow1 (os, "\tinfo2:\t\"%s\"\n", graph->infos[1]);
if (graph->infos[2])
obstack_fgrow1 (os, "\tinfo3:\t\"%s\"\n", graph->infos[2]);
if (graph->color != G_COLOR)
obstack_fgrow1 (os, "\tcolor:\t%s\n", get_color_str (graph->color));
if (graph->textcolor != G_TEXTCOLOR)
obstack_fgrow1 (os, "\ttextcolor:\t%s\n", get_color_str (graph->textcolor));
if (graph->bordercolor != G_BORDERCOLOR)
obstack_fgrow1 (os, "\tbordercolor:\t%s\n",
get_color_str (graph->bordercolor));
if (graph->width != G_WIDTH)
obstack_fgrow1 (os, "\twidth:\t%d\n", graph->width);
if (graph->height != G_HEIGHT)
obstack_fgrow1 (os, "\theight:\t%d\n", graph->height);
if (graph->borderwidth != G_BORDERWIDTH)
obstack_fgrow1 (os, "\tborderwidth:\t%d\n", graph->borderwidth);
if (graph->x != G_X)
obstack_fgrow1 (os, "\tx:\t%d\n", graph->x);
if (graph->y != G_Y)
obstack_fgrow1 (os, "\ty:\t%d\n", graph->y);
if (graph->folding != G_FOLDING)
obstack_fgrow1 (os, "\tfolding:\t%d\n", graph->folding);
if (graph->shrink != G_SHRINK)
obstack_fgrow1 (os, "\tshrink:\t%d\n", graph->shrink);
if (graph->stretch != G_STRETCH)
obstack_fgrow1 (os, "\tstretch:\t%d\n", graph->stretch);
if (graph->textmode != G_TEXTMODE)
obstack_fgrow1 (os, "\ttextmode:\t%s\n",
get_textmode_str (graph->textmode));
if (graph->shape != G_SHAPE)
obstack_fgrow1 (os, "\tshape:\t%s\n", get_shape_str (graph->shape));
if (graph->xmax != G_XMAX)
obstack_fgrow1 (os, "\txmax:\t%d\n", graph->xmax);
if (graph->ymax != G_YMAX)
obstack_fgrow1 (os, "\tymax:\t%d\n", graph->ymax);
if (graph->xbase != G_XBASE)
obstack_fgrow1 (os, "\txbase:\t%d\n", graph->xbase);
if (graph->ybase != G_YBASE)
obstack_fgrow1 (os, "\tybase:\t%d\n", graph->ybase);
if (graph->xspace != G_XSPACE)
obstack_fgrow1 (os, "\txspace:\t%d\n", graph->xspace);
if (graph->yspace != G_YSPACE)
obstack_fgrow1 (os, "\tyspace:\t%d\n", graph->yspace);
if (graph->xlspace != G_XLSPACE)
obstack_fgrow1 (os, "\txlspace:\t%d\n", graph->xlspace);
if (graph->xraster != G_XRASTER)
obstack_fgrow1 (os, "\txraster:\t%d\n", graph->xraster);
if (graph->yraster != G_YRASTER)
obstack_fgrow1 (os, "\tyraster:\t%d\n", graph->yraster);
if (graph->xlraster != G_XLRASTER)
obstack_fgrow1 (os, "\txlraster:\t%d\n", graph->xlraster);
if (graph->hidden != G_HIDDEN)
obstack_fgrow1 (os, "\thidden:\t%d\n", graph->hidden);
if (graph->classname != G_CLASSNAME)
{
struct classname_s *ite;
for (ite = graph->classname; ite; ite = ite->next)
obstack_fgrow2 (os, "\tclassname %d :\t%s\n", ite->no, ite->name);
}
if (graph->layoutalgorithm != G_LAYOUTALGORITHM)
obstack_fgrow1 (os, "\tlayoutalgorithm:\t%s\n",
get_layoutalgorithm_str(graph->layoutalgorithm));
if (graph->layout_downfactor != G_LAYOUT_DOWNFACTOR)
obstack_fgrow1 (os, "\tlayout_downfactor:\t%d\n", graph->layout_downfactor);
if (graph->layout_upfactor != G_LAYOUT_UPFACTOR)
obstack_fgrow1 (os, "\tlayout_upfactor:\t%d\n", graph->layout_upfactor);
if (graph->layout_nearfactor != G_LAYOUT_NEARFACTOR)
obstack_fgrow1 (os, "\tlayout_nearfactor:\t%d\n", graph->layout_nearfactor);
if (graph->layout_splinefactor != G_LAYOUT_SPLINEFACTOR)
obstack_fgrow1 (os, "\tlayout_splinefactor:\t%d\n",
graph->layout_splinefactor);
if (graph->late_edge_labels != G_LATE_EDGE_LABELS)
obstack_fgrow1 (os, "\tlate_edge_labels:\t%s\n",
get_decision_str(graph->late_edge_labels,
G_LATE_EDGE_LABELS));
if (graph->display_edge_labels != G_DISPLAY_EDGE_LABELS)
obstack_fgrow1 (os, "\tdisplay_edge_labels:\t%s\n",
get_decision_str(graph->display_edge_labels,
G_DISPLAY_EDGE_LABELS));
if (graph->dirty_edge_labels != G_DIRTY_EDGE_LABELS)
obstack_fgrow1 (os, "\tdirty_edge_labels:\t%s\n",
get_decision_str(graph->dirty_edge_labels,
G_DIRTY_EDGE_LABELS));
if (graph->finetuning != G_FINETUNING)
obstack_fgrow1 (os, "\tfinetuning:\t%s\n",
get_decision_str(graph->finetuning, G_FINETUNING));
if (graph->ignore_singles != G_IGNORE_SINGLES)
obstack_fgrow1 (os, "\tignore_singles:\t%s\n",
get_decision_str(graph->ignore_singles, G_IGNORE_SINGLES));
if (graph->straight_phase != G_STRAIGHT_PHASE)
obstack_fgrow1 (os, "\tstraight_phase:\t%s\n",
get_decision_str(graph->straight_phase, G_STRAIGHT_PHASE));
if (graph->priority_phase != G_PRIORITY_PHASE)
obstack_fgrow1 (os, "\tpriority_phase:\t%s\n",
get_decision_str(graph->priority_phase, G_PRIORITY_PHASE));
if (graph->manhattan_edges != G_MANHATTAN_EDGES)
obstack_fgrow1 (os,
"\tmanhattan_edges:\t%s\n",
get_decision_str(graph->manhattan_edges,
G_MANHATTAN_EDGES));
if (graph->smanhattan_edges != G_SMANHATTAN_EDGES)
obstack_fgrow1 (os,
"\tsmanhattan_edges:\t%s\n",
get_decision_str(graph->smanhattan_edges,
G_SMANHATTAN_EDGES));
if (graph->near_edges != G_NEAR_EDGES)
obstack_fgrow1 (os, "\tnear_edges:\t%s\n",
get_decision_str(graph->near_edges, G_NEAR_EDGES));
if (graph->orientation != G_ORIENTATION)
obstack_fgrow1 (os, "\torientation:\t%s\n",
get_decision_str(graph->orientation, G_ORIENTATION));
if (graph->node_alignement != G_NODE_ALIGNEMENT)
obstack_fgrow1 (os, "\tnode_alignement:\t%s\n",
get_decision_str(graph->node_alignement,
G_NODE_ALIGNEMENT));
if (graph->port_sharing != G_PORT_SHARING)
obstack_fgrow1 (os, "\tport_sharing:\t%s\n",
get_decision_str(graph->port_sharing, G_PORT_SHARING));
if (graph->arrow_mode != G_ARROW_MODE)
obstack_fgrow1 (os, "\tarrow_mode:\t%s\n",
get_arrow_mode_str(graph->arrow_mode));
if (graph->treefactor != G_TREEFACTOR)
obstack_fgrow1 (os, "\ttreefactor:\t%f\n", graph->treefactor);
if (graph->spreadlevel != G_SPREADLEVEL)
obstack_fgrow1 (os, "\tspreadlevel:\t%d\n", graph->spreadlevel);
if (graph->crossing_weight != G_CROSSING_WEIGHT)
obstack_fgrow1 (os, "\tcrossing_weight:\t%s\n",
get_crossing_type_str(graph->crossing_weight));
if (graph->crossing_phase2 != G_CROSSING_PHASE2)
obstack_fgrow1 (os, "\tcrossing_phase2:\t%s\n",
get_decision_str(graph->crossing_phase2,
G_CROSSING_PHASE2));
if (graph->crossing_optimization != G_CROSSING_OPTIMIZATION)
obstack_fgrow1 (os, "\tcrossing_optimization:\t%s\n",
get_decision_str(graph->crossing_optimization,
G_CROSSING_OPTIMIZATION));
if (graph->view != G_VIEW)
obstack_fgrow1 (os, "\tview:\t%s\n", get_view_str(graph->view));
if (graph->edges != G_EDGES)
obstack_fgrow1 (os, "\tedges:\t%s\n", get_decision_str(graph->edges,
G_EDGES));
if (graph->nodes != G_NODES)
obstack_fgrow1 (os,"\tnodes:\t%s\n",
get_decision_str(graph->nodes, G_NODES));
if (graph->splines != G_SPLINES)
obstack_fgrow1 (os, "\tsplines:\t%s\n",
get_decision_str(graph->splines, G_SPLINES));
if (graph->bmax != G_BMAX)
obstack_fgrow1 (os, "\tbmax:\t%d\n", graph->bmax);
if (graph->cmin != G_CMIN)
obstack_fgrow1 (os, "\tcmin:\t%d\n", graph->cmin);
if (graph->cmax != G_CMAX)
obstack_fgrow1 (os, "\tcmax:\t%d\n", graph->cmax);
if (graph->pmin != G_PMIN)
obstack_fgrow1 (os, "\tpmin:\t%d\n", graph->pmin);
if (graph->pmax != G_PMAX)
obstack_fgrow1 (os, "\tpmax:\t%d\n", graph->pmax);
if (graph->rmin != G_RMIN)
obstack_fgrow1 (os, "\trmin:\t%d\n", graph->rmin);
if (graph->rmax != G_RMAX)
obstack_fgrow1 (os, "\trmax:\t%d\n", graph->rmax);
if (graph->smax != G_SMAX)
obstack_fgrow1 (os, "\tsmax:\t%d\n", graph->smax);
}
#ifdef NDEBUG
int main ()
{
graph_t graph;
node_t *node;
edge_t *edge;
struct obstack graph_obstack;
obstack_init (&graph_obstack);
new_graph(&graph);
graph.title = "graph_title";
graph.label = "graph_label";
graph.color = yellow;
graph.textcolor = green;
graph.width = 5;
graph.x = 12;
graph.y = 17;
graph.textmode = right_justify;
open_graph (&graph, stdout);
node = XMALLOC (node_t, 1);
new_node (node);
node->title = "A";
node->locx = 12;
node->locy = 71;
add_node (&graph, node);
node = XMALLOC (node_t, 1);
new_node (node);
node->title = "B";
add_node (&graph, node);
edge = XMALLOC (edge_t, 1);
new_edge (edge);
edge->sourcename = "B";
edge->targetname = "A";
add_edge (&graph, edge);
output_graph(&graph, stdout);
close_graph (&graph, stdout);
obstack_save (&graph_obstack, "essai.vcg");
return (0);
}
#endif /* not DEBUG */