OpenCores
URL https://opencores.org/ocsvn/or1k_old/or1k_old/trunk

Subversion Repositories or1k_old

[/] [or1k_old/] [trunk/] [insight/] [libgui/] [src/] [tkCanvEdge.c] - Blame information for rev 1782

Details | Compare with Previous | View Log

Line No. Rev Author Line
1 578 markom
/*
2
 * tkCanvEdge.c --
3
 *
4
 *      This file implements edge items for canvas widgets.
5
 *
6
 * Copyright (c) 1993 by Sven Delmas
7
 * All rights reserved.
8
 * See the file COPYRIGHT for the copyright notes.
9
 *
10
 *
11
 * This source is based upon the file tkCanvLine.c from:
12
 *
13
 * John Ousterhout
14
 *
15
 * Copyright (c) 1992-1993 The Regents of the University of California.
16
 * All rights reserved.
17
 *
18
 * Permission is hereby granted, without written agreement and without
19
 * license or royalty fees, to use, copy, modify, and distribute this
20
 * software and its documentation for any purpose, provided that the
21
 * above copyright notice and the following two paragraphs appear in
22
 * all copies of this software.
23
 *
24
 * IN NO EVENT SHALL THE UNIVERSITY OF CALIFORNIA BE LIABLE TO ANY PARTY FOR
25
 * DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING OUT
26
 * OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN IF THE UNIVERSITY OF
27
 * CALIFORNIA HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
28
 *
29
 * THE UNIVERSITY OF CALIFORNIA SPECIFICALLY DISCLAIMS ANY WARRANTIES,
30
 * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY
31
 * AND FITNESS FOR A PARTICULAR PURPOSE.  THE SOFTWARE PROVIDED HEREUNDER IS
32
 * ON AN "AS IS" BASIS, AND THE UNIVERSITY OF CALIFORNIA HAS NO OBLIGATION TO
33
 * PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.
34
 */
35
 
36
/* 05may96 wmt: converted to tk4.1 */
37
 
38
#ifdef HAVE_CONFIG_H
39
#include <config.h>
40
#endif
41
#ifdef HAVE_UNISTD_H
42
#include <unistd.h>
43
#endif
44
#include <stdio.h>
45
#include <math.h>
46
#include "tkInt.h"
47
#include "tkCanvas.h"
48
/* #include "tkConfig.h" 05nov95 wmt */
49
#include "tkPort.h"
50
 
51
#ifdef _MSC_VER
52
#define F_OK 0
53
#endif
54
 
55
/*
56
 * The structure below defines the record for each edge item.
57
 */
58
typedef struct EdgeItem  {
59
  Tk_Item header;               /* Generic stuff that's the same for all
60
                                 * types.  MUST BE FIRST IN STRUCTURE. */
61
  Tk_Canvas canvas;             /* Canvas containing item.  Needed for
62
                                 * parsing arrow shapes. a register variable */
63
  int numPoints;                /* Number of points in edge (always >= 2). */
64
  double *coordPtr;             /* Pointer to malloc-ed array containing
65
                                 * x- and y-coords of all points in edge.
66
                                 * X-coords are even-valued indices, y-coords
67
                                 * are corresponding odd-valued indices. If
68
                                 * the edge has arrowheads then the first
69
                                 * and last points have been adjusted to refer
70
                                 * to the necks of the arrowheads rather than
71
                                 * their tips.  The actual endpoints are
72
                                 * stored in the *firstArrowPtr and
73
                                 * *lastArrowPtr, if they exist. */
74
 
75
  char *label;                  /* Label to display. */
76
  char *menu1;                  /* Standard menu for item, usually
77
                                 * activated with button-3. */
78
  char *menu2;                  /* Alternative menu for item, usually
79
                                 * activated with meta-button-3. */
80
  char *menu3;                  /* Alternative menu for item, usually
81
                                 * activated with control-button-3. */
82
  char *name;                   /* Name for item. */
83
  char *state;                  /* State of item, this value is used
84
                                 * to represent the selection status
85
                                 * (normal, selected). */
86
  char *graphName;              /* Name of the Graph. */
87
  char *from;                   /* From icon id. */
88
  char *to;                     /* To icon id. */
89
  Tk_Font tkfont;               /* Font for drawing text. */
90
  Tk_TextLayout textLayout;     /* Cached text layout information. */
91
  Tk_Justify justify;           /* Justification to use for text within
92
                                 * window. */
93
 
94
  int width;                    /* Width of edge. */
95
  int textHeight;               /* Height of text label in points. */
96
  int textWidth;                /* Width of text label in points. */
97
  XColor *fgColor;              /* Foreground color for edge. */
98
  XColor *bgColor;              /* Background color to use for icon. */
99
  Pixmap fillStipple;           /* Stipple bitmap for filling edge. */
100
  int capStyle;                 /* Cap style for edge. */
101
  int joinStyle;                /* Join style for edge. */
102
 
103
  GC invertedGc;                /* Graphics context to use for drawing
104
                                 * the edge label on screen. */
105
  GC gc;                        /* Graphics context for filling edge. */
106
  Tk_Uid arrow;                 /* Indicates whether or not to draw arrowheads:
107
                                 * "none", "first", "last", or "both". */
108
  float arrowShapeA;            /* Distance from tip of arrowhead to center. */
109
  float arrowShapeB;            /* Distance from tip of arrowhead to trailing
110
                                 * point, measured along shaft. */
111
  float arrowShapeC;            /* Distance of trailing points from outside
112
                                 * edge of shaft. */
113
  double *firstArrowPtr;        /* Points to array of PTS_IN_ARROW points
114
                                 * describing polygon for arrowhead at first
115
                                 * point in edge.  First point of arrowhead
116
                                 * is tip.  Malloc'ed.  NULL means no arrowhead
117
                                 * at first point. */
118
  double *lastArrowPtr;         /* Points to polygon for arrowhead at last
119
                                 * point in edge (PTS_IN_ARROW points, first
120
                                 * of which is tip).  Malloc'ed.  NULL means
121
                                 * no arrowhead at last point. */
122
  int smooth;                   /* Non-zero means draw edge smoothed (i.e.
123
                                 * with Bezier splines). */
124
  int splineSteps;              /* Number of steps in each spline segment. */
125
} EdgeItem;
126
 
127
/*
128
 * Number of points in an arrowHead:
129
 */
130
#define PTS_IN_ARROW 6
131
 
132
/*
133
 * Prototypes for procedures defined in this file:
134
 */
135
static int              ArrowheadPostscript _ANSI_ARGS_((Tcl_Interp *interp,
136
                            Tk_Canvas canvas, EdgeItem *edgePtr,
137
                            double *arrowPtr));
138
static void             ComputeEdgeBbox _ANSI_ARGS_((Tk_Canvas canvas,
139
                            EdgeItem *edgePtr));
140
static int              ConfigureEdge _ANSI_ARGS_((Tcl_Interp *interp,
141
                            Tk_Canvas canvas, Tk_Item *itemPtr, int argc,
142
                            char **argv, int flags));
143
static int              ConfigureArrows _ANSI_ARGS_((Tk_Canvas canvas,
144
                            EdgeItem *edgePtr));
145
static int              CreateEdge _ANSI_ARGS_((Tcl_Interp *interp,
146
                            Tk_Canvas canvas, struct Tk_Item *itemPtr,
147
                            int argc, char **argv));
148
static void             DeleteEdge _ANSI_ARGS_((Tk_Canvas canvas,
149
                            Tk_Item *itemPtr, Display *display));
150
static void             DisplayEdge _ANSI_ARGS_((Tk_Canvas canvas,
151
                            Tk_Item *itemPtr, Display *display, Drawable dst,
152
                             int x, int y, int width, int height));
153
static int              EdgeCoords _ANSI_ARGS_((Tcl_Interp *interp,
154
                            Tk_Canvas canvas, Tk_Item *itemPtr,
155
                            int argc, char **argv));
156
static int              EdgeToArea _ANSI_ARGS_((Tk_Canvas canvas,
157
                            Tk_Item *itemPtr, double *rectPtr));
158
static double           EdgeToPoint _ANSI_ARGS_((Tk_Canvas canvas,
159
                            Tk_Item *itemPtr, double *coordPtr));
160
static int              EdgeToPostscript _ANSI_ARGS_((Tcl_Interp *interp,
161
                            Tk_Canvas canvas, Tk_Item *itemPtr, int prepass));
162
static int              ParseArrowShape _ANSI_ARGS_((ClientData clientData,
163
                            Tcl_Interp *interp, Tk_Window tkwin, char *value,
164
                            char *recordPtr, int offset));
165
static char *           PrintArrowShape _ANSI_ARGS_((ClientData clientData,
166
                            Tk_Window tkwin, char *recordPtr, int offset,
167
                            Tcl_FreeProc **freeProcPtr));
168
static void             ScaleEdge _ANSI_ARGS_((Tk_Canvas canvas,
169
                            Tk_Item *itemPtr, double originX, double originY,
170
                            double scaleX, double scaleY));
171
static void             TranslateEdge _ANSI_ARGS_((Tk_Canvas canvas,
172
                            Tk_Item *itemPtr, double deltaX, double deltaY));
173
 
174
/*
175
 * Information used for parsing configuration specs.  If you change any
176
 * of the default strings, be sure to change the corresponding default
177
 * values in CreateEdge.
178
 */
179
static Tk_CustomOption arrowShapeOption =
180
{ ParseArrowShape, PrintArrowShape, (ClientData) NULL};
181
 
182
static Tk_CustomOption tagsOption = {Tk_CanvasTagsParseProc,
183
    Tk_CanvasTagsPrintProc, (ClientData) NULL};
184
 
185
static Tk_ConfigSpec configSpecs[] = {
186
  {TK_CONFIG_UID, "-arrow", (char *) NULL, (char *) NULL,
187
     "none", Tk_Offset(EdgeItem, arrow), TK_CONFIG_DONT_SET_DEFAULT},
188
  {TK_CONFIG_CUSTOM, "-arrowshape", (char *) NULL, (char *) NULL,
189
     "8 10 3", Tk_Offset(EdgeItem, arrowShapeA),
190
     TK_CONFIG_DONT_SET_DEFAULT, &arrowShapeOption},
191
  {TK_CONFIG_COLOR, "-background", (char *) NULL, (char *) NULL,
192
     (char *) NULL, Tk_Offset(EdgeItem, bgColor), TK_CONFIG_NULL_OK},
193
  {TK_CONFIG_CAP_STYLE, "-capstyle", (char *) NULL, (char *) NULL,
194
     "butt", Tk_Offset(EdgeItem, capStyle), TK_CONFIG_DONT_SET_DEFAULT},
195
  {TK_CONFIG_COLOR, "-fill", (char *) NULL, (char *) NULL,
196
     "black", Tk_Offset(EdgeItem, fgColor), TK_CONFIG_NULL_OK},
197
  {TK_CONFIG_FONT, "-font", (char *) NULL, (char *) NULL,
198
     "Helvetica 12 bold", Tk_Offset(EdgeItem, tkfont), 0},
199
  {TK_CONFIG_STRING, "-from", (char *) NULL, (char *) NULL,
200
     "", Tk_Offset(EdgeItem, from), 0},
201
  {TK_CONFIG_STRING, "-graphname", (char *) NULL, (char *) NULL,
202
     "", Tk_Offset(EdgeItem, graphName), 0},
203
  {TK_CONFIG_JOIN_STYLE, "-joinstyle", (char *) NULL, (char *) NULL,
204
     "round", Tk_Offset(EdgeItem, joinStyle), TK_CONFIG_DONT_SET_DEFAULT},
205
  {TK_CONFIG_STRING, "-label", (char *) NULL, (char *) NULL,
206
     "", Tk_Offset(EdgeItem, label), 0},
207
  {TK_CONFIG_STRING, "-menu1", (char *) NULL, (char *) NULL,
208
     "", Tk_Offset(EdgeItem, menu1), 0},
209
  {TK_CONFIG_STRING, "-menu2", (char *) NULL, (char *) NULL,
210
     "", Tk_Offset(EdgeItem, menu2), 0},
211
  {TK_CONFIG_STRING, "-menu3", (char *) NULL, (char *) NULL,
212
     "", Tk_Offset(EdgeItem, menu3), 0},
213
  {TK_CONFIG_STRING, "-name", (char *) NULL, (char *) NULL,
214
     "", Tk_Offset(EdgeItem, name), 0},
215
  {TK_CONFIG_BOOLEAN, "-smooth", (char *) NULL, (char *) NULL,
216
     "0", Tk_Offset(EdgeItem, smooth), TK_CONFIG_DONT_SET_DEFAULT},
217
  {TK_CONFIG_INT, "-splinesteps", (char *) NULL, (char *) NULL,
218
     "12", Tk_Offset(EdgeItem, splineSteps), TK_CONFIG_DONT_SET_DEFAULT},
219
  {TK_CONFIG_STRING, "-state", (char *) NULL, (char *) NULL,
220
     "", Tk_Offset(EdgeItem, state), 0},
221
  {TK_CONFIG_BITMAP, "-stipple", (char *) NULL, (char *) NULL,
222
     (char *) NULL, Tk_Offset(EdgeItem, fillStipple), TK_CONFIG_NULL_OK},
223
  {TK_CONFIG_CUSTOM, "-tags", (char *) NULL, (char *) NULL,
224
     (char *) NULL, 0, TK_CONFIG_NULL_OK, &tagsOption},
225
  {TK_CONFIG_PIXELS, "-textheight", (char *) NULL, (char *) NULL,
226
     "0", Tk_Offset(EdgeItem, textHeight), TK_CONFIG_DONT_SET_DEFAULT},
227
  {TK_CONFIG_PIXELS, "-textwidth", (char *) NULL, (char *) NULL,
228
     "0", Tk_Offset(EdgeItem, textWidth), TK_CONFIG_DONT_SET_DEFAULT},
229
  {TK_CONFIG_STRING, "-to", (char *) NULL, (char *) NULL,
230
     "", Tk_Offset(EdgeItem, to), 0},
231
  {TK_CONFIG_PIXELS, "-width", (char *) NULL, (char *) NULL,
232
     "1", Tk_Offset(EdgeItem, width), TK_CONFIG_DONT_SET_DEFAULT},
233
  {TK_CONFIG_JUSTIFY, "-justify", "justify", "Justify",
234
        "left", Tk_Offset(EdgeItem, justify), 0},
235
  {TK_CONFIG_END, (char *) NULL, (char *) NULL, (char *) NULL,
236
     (char *) NULL, 0, 0}
237
};
238
 
239
/*
240
 * The structures below defines the edge item type by means
241
 * of procedures that can be invoked by generic item code.
242
 */
243
Tk_ItemType tkEdgeType = {
244
    "edge",                             /* name */
245
    sizeof(EdgeItem),                   /* itemSize */
246
    CreateEdge,                         /* createProc */
247
    configSpecs,                        /* configSpecs */
248
    ConfigureEdge,                      /* configureProc */
249
    EdgeCoords,                         /* coordProc */
250
    DeleteEdge,                         /* deleteProc */
251
    DisplayEdge,                        /* displayProc */
252
    0,                                   /* alwaysRedraw */
253
    EdgeToPoint,                        /* pointProc */
254
    EdgeToArea,                         /* areaProc */
255
    EdgeToPostscript,                   /* postscriptProc */
256
    ScaleEdge,                          /* scaleProc */
257
    TranslateEdge,                      /* translateProc */
258
    (Tk_ItemIndexProc *) NULL,          /* indexProc */
259
    (Tk_ItemCursorProc *) NULL,         /* icursorProc */
260
    (Tk_ItemSelectionProc *) NULL,      /* selectionProc */
261
    (Tk_ItemInsertProc *) NULL,         /* insertProc */
262
    (Tk_ItemDCharsProc *) NULL,         /* dTextProc */
263
    (Tk_ItemType *) NULL                /* nextPtr */
264
};
265
 
266
/*
267
 * The Tk_Uid's below refer to uids for the various arrow types:
268
 */
269
static Tk_Uid noneUid = NULL;
270
static Tk_Uid firstUid = NULL;
271
static Tk_Uid lastUid = NULL;
272
static Tk_Uid bothUid = NULL;
273
 
274
/*
275
 * The definition below determines how large are static arrays
276
 * used to hold spline points (splines larger than this have to
277
 * have their arrays malloc-ed).
278
 */
279
#define MAX_STATIC_POINTS 200
280
 
281
/*
282
 *--------------------------------------------------------------
283
 *
284
 * CreateEdge --
285
 *
286
 *      This procedure is invoked to create a new edge item in
287
 *      a canvas.
288
 *
289
 * Results:
290
 *      A standard Tcl return value.  If an error occurred in
291
 *      creating the item, then an error message is left in
292
 *      interp->result;  in this case itemPtr is
293
 *      left uninitialized, so it can be safely freed by the
294
 *      caller.
295
 *
296
 * Side effects:
297
 *      A new edge item is created.
298
 *
299
 *--------------------------------------------------------------
300
 */
301
 
302
static int
303
CreateEdge(interp, canvas, itemPtr, argc, argv)
304
     Tcl_Interp *interp;                /* Interpreter for error reporting. */
305
     Tk_Canvas canvas;                  /* Canvas to hold new item. */
306
     Tk_Item *itemPtr;                  /* Record to hold new item;  header
307
                                         * has been initialized by caller. */
308
     int argc;                          /* Number of arguments in argv. */
309
     char **argv;                       /* Arguments describing edge. */
310
{
311
  EdgeItem *edgePtr = (EdgeItem *) itemPtr;
312
  int i;
313
 
314
  if (argc < 4) {
315
    Tcl_AppendResult(interp, "wrong # args:  should be \"",
316
                     Tk_PathName(Tk_CanvasTkwin(canvas)), "\" create ",
317
                     itemPtr->typePtr->name,
318
                     " x1 y1 x2 y2 ?x3 y3 ...? ?options?",
319
                     (char *) NULL);
320
    return TCL_ERROR;
321
  }
322
 
323
  /*
324
   * Carry out initialization that is needed to set defaults and to
325
   * allow proper cleanup after errors during the the remainder of
326
   * this procedure.
327
   */
328
  edgePtr->bgColor = None;
329
  edgePtr->canvas = canvas;
330
  edgePtr->capStyle = CapButt;
331
  edgePtr->coordPtr = NULL;
332
  edgePtr->fgColor = None;
333
  edgePtr->fillStipple = None;
334
  edgePtr->tkfont = NULL;
335
  edgePtr->from = NULL;
336
  edgePtr->graphName = NULL;
337
  edgePtr->joinStyle = JoinRound;
338
  edgePtr->label = NULL;
339
  edgePtr->menu1 = NULL;
340
  edgePtr->menu2 = NULL;
341
  edgePtr->menu3 = NULL;
342
  edgePtr->name = NULL;
343
  edgePtr->numPoints = 0;
344
  edgePtr->smooth = 0;
345
  edgePtr->splineSteps = 12;
346
  edgePtr->state = NULL;
347
  edgePtr->textWidth = 0;
348
  edgePtr->to = NULL;
349
  edgePtr->width = 1;
350
  edgePtr->textLayout = NULL;
351
  edgePtr->justify = TK_JUSTIFY_LEFT;
352
 
353
  edgePtr->invertedGc = None;
354
  edgePtr->gc = None;
355
  if (noneUid == NULL) {
356
    noneUid = Tk_GetUid("none");
357
    firstUid = Tk_GetUid("first");
358
    lastUid = Tk_GetUid("last");
359
    bothUid = Tk_GetUid("both");
360
  }
361
  edgePtr->arrow = noneUid;
362
  edgePtr->arrowShapeA = 8.0;
363
  edgePtr->arrowShapeB = 10.0;
364
  edgePtr->arrowShapeC = 3.0;
365
  edgePtr->firstArrowPtr = NULL;
366
  edgePtr->lastArrowPtr = NULL;
367
 
368
  /*
369
   * Count the number of points and then parse them into a point
370
   * array.  Leading arguments are assumed to be points if they
371
   * start with a digit or a minus sign followed by a digit.
372
   */
373
 
374
  for (i = 4; i < (argc-1); i+=2) {
375
    if ((!isdigit(UCHAR(argv[i][0]))) &&
376
        ((argv[i][0] != '-') || (!isdigit(UCHAR(argv[i][1]))))) {
377
      break;
378
    }
379
  }
380
  if (EdgeCoords(interp, canvas, itemPtr, i, argv) != TCL_OK) {
381
    goto error;
382
  }
383
  if (ConfigureEdge(interp, canvas, itemPtr, argc-i, argv+i, 0) == TCL_OK) {
384
    return TCL_OK;
385
  }
386
 
387
 error:
388
  DeleteEdge(canvas, itemPtr, Tk_Display(Tk_CanvasTkwin(canvas)));
389
  return TCL_ERROR;
390
}
391
 
392
/*
393
 *--------------------------------------------------------------
394
 *
395
 * EdgeCoords --
396
 *
397
 *      This procedure is invoked to process the "coords" widget
398
 *      command on edges.  See the user documentation for details
399
 *      on what it does.
400
 *
401
 * Results:
402
 *      Returns TCL_OK or TCL_ERROR, and sets interp->result.
403
 *
404
 * Side effects:
405
 *      The coordinates for the given item may be changed.
406
 *
407
 *--------------------------------------------------------------
408
 */
409
 
410
static int
411
EdgeCoords(interp, canvas, itemPtr, argc, argv)
412
     Tcl_Interp *interp;                /* Used for error reporting. */
413
     Tk_Canvas canvas;                  /* Canvas containing item. */
414
     Tk_Item *itemPtr;                  /* Item whose coordinates are to be
415
                                         * read or modified. */
416
     int argc;                          /* Number of coordinates supplied in
417
                                         * argv. */
418
     char **argv;                       /* Array of coordinates: x1, y1,
419
                                         * x2, y2, ... */
420
{
421
  EdgeItem *edgePtr = (EdgeItem *) itemPtr;
422
  char buffer[TCL_DOUBLE_SPACE];
423
  int i, numPoints;
424
 
425
  if (argc == 0) {
426
    double *coordPtr;
427
    int numCoords;
428
 
429
    numCoords = 2*edgePtr->numPoints;
430
    if (edgePtr->firstArrowPtr != NULL) {
431
      coordPtr = edgePtr->firstArrowPtr;
432
    } else {
433
      coordPtr = edgePtr->coordPtr;
434
    }
435
    for (i = 0; i < numCoords; i++, coordPtr++) {
436
      if (i == 2) {
437
        coordPtr = edgePtr->coordPtr+2;
438
      }
439
      if ((edgePtr->lastArrowPtr != NULL) && (i == (numCoords-2))) {
440
        coordPtr = edgePtr->lastArrowPtr;
441
      }
442
      Tcl_PrintDouble(interp, *coordPtr, buffer);
443
      Tcl_AppendElement(interp, buffer);
444
    }
445
  } else if (argc < 4) {
446
    Tcl_AppendResult(interp,
447
                     "too few coordinates for edge:  must have at least 4",
448
                     (char *) NULL);
449
    return TCL_ERROR;
450
  } else if (argc & 1) {
451
    Tcl_AppendResult(interp,
452
                     "odd number of coordinates specified for edge",
453
                     (char *) NULL);
454
    return TCL_ERROR;
455
  } else {
456
    numPoints = argc/2;
457
    if (edgePtr->numPoints != numPoints) {
458
      if (edgePtr->coordPtr != NULL) {
459
        ckfree((char *) edgePtr->coordPtr);
460
      }
461
      edgePtr->coordPtr = (double *) ckalloc((unsigned)
462
                                             (sizeof(double) * argc));
463
      edgePtr->numPoints = numPoints;
464
    }
465
    for (i = argc-1; i >= 0; i--) {
466
      if (Tk_CanvasGetCoord(interp, canvas, argv[i], &edgePtr->coordPtr[i])
467
          != TCL_OK) {
468
        return TCL_ERROR;
469
      }
470
    }
471
 
472
    /*
473
     * Update arrowheads by throwing away any existing arrow-head
474
     * information and calling ConfigureArrows to recompute it.
475
     */
476
 
477
    if (edgePtr->firstArrowPtr != NULL) {
478
      ckfree((char *) edgePtr->firstArrowPtr);
479
      edgePtr->firstArrowPtr = NULL;
480
    }
481
    if (edgePtr->lastArrowPtr != NULL) {
482
      ckfree((char *) edgePtr->lastArrowPtr);
483
      edgePtr->lastArrowPtr = NULL;
484
    }
485
    if (edgePtr->arrow != noneUid) {
486
      ConfigureArrows(canvas, edgePtr);
487
    }
488
    ComputeEdgeBbox(canvas, edgePtr);
489
  }
490
  return TCL_OK;
491
}
492
 
493
/*
494
 *--------------------------------------------------------------
495
 *
496
 * ConfigureEdge --
497
 *
498
 *      This procedure is invoked to configure various aspects
499
 *      of a edge item such as its background color.
500
 *
501
 * Results:
502
 *      A standard Tcl result code.  If an error occurs, then
503
 *      an error message is left in interp->result.
504
 *
505
 * Side effects:
506
 *      Configuration information, such as colors and stipple
507
 *      patterns, may be set for itemPtr.
508
 *
509
 *--------------------------------------------------------------
510
 */
511
 
512
static int
513
ConfigureEdge(interp, canvas, itemPtr, argc, argv, flags)
514
     Tcl_Interp *interp;        /* Used for error reporting. */
515
     Tk_Canvas canvas;          /* Canvas containing itemPtr. */
516
     Tk_Item *itemPtr;          /* Edge item to reconfigure. */
517
     int argc;                  /* Number of elements in argv.  */
518
     char **argv;               /* Arguments describing things to configure. */
519
     int flags;                 /* Flags to pass to Tk_ConfigureWidget. */
520
{
521
  EdgeItem *edgePtr = (EdgeItem *) itemPtr;
522
  XGCValues gcValues;
523
  GC newGC;
524
  unsigned long mask;
525
  char *value, *fullName, **list;
526
  int counter, listCounter = 0;
527
  Tcl_DString varName, fileName, buffer;
528
  Tk_Window tkwin;
529
  Tk_3DBorder bgBorder;
530
 
531
  tkwin = Tk_CanvasTkwin(canvas);
532
  bgBorder = ((TkCanvas *) canvas)->bgBorder;
533
 
534
  if (Tk_ConfigureWidget(interp, tkwin,
535
                         configSpecs, argc, argv,
536
                         (char *) edgePtr, flags) != TCL_OK) {
537
    return TCL_ERROR;
538
  }
539
 
540
  /*
541
   * A few of the options require additional processing, such as
542
   * graphics contexts.
543
   */
544
 
545
  /* the normal gc */
546
  if (edgePtr->fgColor == NULL) {
547
    newGC = None;
548
  } else {
549
    mask = GCBackground|GCForeground|GCJoinStyle|GCLineWidth;
550
    if (edgePtr->bgColor != NULL) {
551
      gcValues.background = edgePtr->bgColor->pixel;
552
    } else {
553
      gcValues.background = Tk_3DBorderColor(bgBorder)->pixel;
554
    }
555
    gcValues.foreground = edgePtr->fgColor->pixel;
556
    gcValues.join_style = edgePtr->joinStyle;
557
    if (edgePtr->width < 0) {
558
      edgePtr->width = 1;
559
    }
560
    gcValues.line_width = edgePtr->width;
561
    if (edgePtr->fillStipple != None) {
562
      gcValues.stipple = edgePtr->fillStipple;
563
      gcValues.fill_style = FillStippled;
564
      mask |= GCStipple|GCFillStyle;
565
    }
566
    if (edgePtr->arrow == noneUid) {
567
      gcValues.cap_style = edgePtr->capStyle;
568
      mask |= GCCapStyle;
569
    }
570
    if (edgePtr->tkfont != NULL) {
571
      gcValues.font = Tk_FontId(edgePtr->tkfont);
572
      mask |= GCFont;
573
    }
574
    newGC = Tk_GetGC(tkwin, mask, &gcValues);
575
  }
576
  if (edgePtr->gc != None) {
577
    Tk_FreeGC(((TkCanvas *) canvas)->display, edgePtr->gc);
578
  }
579
  edgePtr->gc = newGC;
580
 
581
  /* the inverted gc */
582
  if (edgePtr->fgColor == NULL) {
583
    newGC = None;
584
  } else {
585
    mask = GCForeground | GCBackground;
586
    gcValues.background = edgePtr->fgColor->pixel;
587
    if (edgePtr->bgColor != NULL) {
588
      gcValues.foreground = edgePtr->bgColor->pixel;
589
    } else {
590
      gcValues.foreground = Tk_3DBorderColor(bgBorder)->pixel;
591
    }
592
    if (edgePtr->tkfont != NULL) {
593
      gcValues.font = Tk_FontId(edgePtr->tkfont);
594
      mask |= GCFont;
595
    }
596
    newGC = Tk_GetGC(tkwin, mask, &gcValues);
597
  }
598
  if (edgePtr->invertedGc != None) {
599
    Tk_FreeGC(((TkCanvas *) canvas)->display, edgePtr->invertedGc);
600
  }
601
  edgePtr->invertedGc = newGC;
602
 
603
  /*
604
   * Keep spline parameters within reasonable limits.
605
   */
606
  if (edgePtr->splineSteps < 1) {
607
    edgePtr->splineSteps = 1;
608
  } else if (edgePtr->splineSteps > 100) {
609
    edgePtr->splineSteps = 100;
610
  }
611
 
612
  /*
613
   * Setup arrowheads, if needed.  If arrowheads are turned off,
614
   * restore the edge's endpoints (they were shortened when the
615
   * arrowheads were added).
616
   */
617
  if ((edgePtr->firstArrowPtr != NULL) && (edgePtr->arrow != firstUid)
618
      && (edgePtr->arrow != bothUid)) {
619
    edgePtr->coordPtr[0] = edgePtr->firstArrowPtr[0];
620
    edgePtr->coordPtr[1] = edgePtr->firstArrowPtr[1];
621
    ckfree((char *) edgePtr->firstArrowPtr);
622
    edgePtr->firstArrowPtr = NULL;
623
  }
624
  if ((edgePtr->lastArrowPtr != NULL) && (edgePtr->arrow != lastUid)
625
      && (edgePtr->arrow != bothUid)) {
626
    int index;
627
 
628
    index = 2*(edgePtr->numPoints-1);
629
    edgePtr->coordPtr[index] = edgePtr->lastArrowPtr[0];
630
    edgePtr->coordPtr[index+1] = edgePtr->lastArrowPtr[1];
631
    ckfree((char *) edgePtr->lastArrowPtr);
632
    edgePtr->lastArrowPtr = NULL;
633
  }
634
  if (edgePtr->arrow != noneUid) {
635
    if ((edgePtr->arrow != firstUid) && (edgePtr->arrow != lastUid)
636
        && (edgePtr->arrow != bothUid)) {
637
      Tcl_AppendResult(interp, "bad arrow spec \"",
638
                       edgePtr->arrow,
639
                       "\": must be none, first, last, or both",
640
                       (char *) NULL);
641
      edgePtr->arrow = noneUid;
642
      return TCL_ERROR;
643
    }
644
    ConfigureArrows(canvas, edgePtr);
645
  }
646
 
647
  /* Calculate the text width & height in points. */
648
  Tk_FreeTextLayout(edgePtr->textLayout);
649
  edgePtr->textLayout = Tk_ComputeTextLayout(edgePtr->tkfont,
650
            edgePtr->label,
651
            strlen (edgePtr->label),
652
            edgePtr->width,
653
            edgePtr->justify,
654
            0, &edgePtr->textWidth, &edgePtr->textHeight);
655
 
656
  /* do we have a menu ? */
657
  if (edgePtr->menu1 != NULL && strlen(edgePtr->menu1) > (size_t) 0 &&
658
      edgePtr->menu1[0] != '.') {
659
    /* do we have to load the new menu definition ? */
660
    (void) Tcl_VarEval(interp, "info commands .emenu-",
661
                       edgePtr->menu1, (char *) NULL);
662
    if (strlen(interp->result) == 0) {
663
      /* the following code retrieves the path list for the menus. This */
664
      /* is done because I don't want to attatch the pathname list to */
665
      /* each icon. */
666
      Tcl_DStringInit(&varName);
667
      Tcl_DStringAppend(&varName, "ip_priv(", -1);
668
      Tcl_DStringAppend(&varName, Tk_PathName(tkwin), -1);
669
      Tcl_DStringAppend(&varName, ",edgemenupath)", -1);
670
      if ((value = Tcl_GetVar(interp, varName.string,
671
                              TCL_GLOBAL_ONLY)) != NULL) {
672
        if (Tcl_SplitList(interp, value, &listCounter,
673
                          &list) == TCL_OK) {
674
          /* walk through list of pathnames. */
675
          for (counter = 0; counter < listCounter; counter++) {
676
            /* create the filename to load. */
677
            Tcl_DStringInit(&fileName);
678
            Tcl_DStringAppend(&fileName, list[counter], -1);
679
            Tcl_DStringAppend(&fileName, "/", -1);
680
            Tcl_DStringAppend(&fileName, edgePtr->menu1, -1);
681
            Tcl_DStringAppend(&fileName, ".emenu", -1);
682
            Tcl_DStringInit(&buffer);
683
            fullName = Tcl_TildeSubst(interp,
684
                                      fileName.string, &buffer);
685
            if (access(fullName, F_OK) != -1) {
686
              /* load new menu. */
687
              Tcl_VarEval(interp, "source ", fullName,
688
                          (char *) NULL);
689
            }
690
            Tcl_DStringFree(&fileName);
691
            Tcl_DStringFree(&buffer);
692
          }
693
          ckfree((char *) list);
694
        }
695
      }
696
      Tcl_DStringFree(&varName);
697
    }
698
  }
699
 
700
  /* do we have a menu ? */
701
  if (edgePtr->menu2 != NULL && strlen(edgePtr->menu2) > (size_t) 0 &&
702
      edgePtr->menu2[0] != '.') {
703
    /* do we have to load the new menu definition ? */
704
    (void) Tcl_VarEval(interp, "info commands .emenu-",
705
                       edgePtr->menu2, (char *) NULL);
706
    if (strlen(interp->result) == 0) {
707
      /* the following code retrieves the path list for the menus. This */
708
      /* is done because I don't want to attatch the pathname list to */
709
      /* each icon. */
710
      Tcl_DStringInit(&varName);
711
      Tcl_DStringAppend(&varName, "ip_priv(", -1);
712
      Tcl_DStringAppend(&varName, Tk_PathName(tkwin), -1);
713
      Tcl_DStringAppend(&varName, ",edgemenupath)", -1);
714
      if ((value = Tcl_GetVar(interp, varName.string,
715
                              TCL_GLOBAL_ONLY)) != NULL) {
716
        if (Tcl_SplitList(interp, value, &listCounter,
717
                          &list) == TCL_OK) {
718
          /* walk through list of pathnames. */
719
          for (counter = 0; counter < listCounter; counter++) {
720
            /* create the filename to load. */
721
            Tcl_DStringInit(&fileName);
722
            Tcl_DStringAppend(&fileName, list[counter], -1);
723
            Tcl_DStringAppend(&fileName, "/", -1);
724
            Tcl_DStringAppend(&fileName, edgePtr->menu2, -1);
725
            Tcl_DStringAppend(&fileName, ".emenu", -1);
726
            Tcl_DStringInit(&buffer);
727
            fullName = Tcl_TildeSubst(interp,
728
                                      fileName.string, &buffer);
729
            if (access(fullName, F_OK) != -1) {
730
              /* load new menu. */
731
              Tcl_VarEval(interp, "source ", fullName,
732
                          (char *) NULL);
733
            }
734
            Tcl_DStringFree(&fileName);
735
            Tcl_DStringFree(&buffer);
736
          }
737
          ckfree((char *) list);
738
        }
739
      }
740
      Tcl_DStringFree(&varName);
741
    }
742
  }
743
 
744
  /* do we have a menu ? */
745
  if (edgePtr->menu3 != NULL && strlen(edgePtr->menu3) > (size_t) 0 &&
746
      edgePtr->menu3[0] != '.') {
747
    /* do we have to load the new menu definition ? */
748
    (void) Tcl_VarEval(interp, "info commands .emenu-",
749
                       edgePtr->menu3, (char *) NULL);
750
    if (strlen(interp->result) == 0) {
751
      /* the following code retrieves the path list for the menus. This */
752
      /* is done because I don't want to attatch the pathname list to */
753
      /* each icon. */
754
      Tcl_DStringInit(&varName);
755
      Tcl_DStringAppend(&varName, "ip_priv(", -1);
756
      Tcl_DStringAppend(&varName, Tk_PathName(tkwin), -1);
757
      Tcl_DStringAppend(&varName, ",edgemenupath)", -1);
758
      if ((value = Tcl_GetVar(interp, varName.string,
759
                              TCL_GLOBAL_ONLY)) != NULL) {
760
        if (Tcl_SplitList(interp, value, &listCounter,
761
                          &list) == TCL_OK) {
762
          /* walk through list of pathnames. */
763
          for (counter = 0; counter < listCounter; counter++) {
764
            /* create the filename to load. */
765
            Tcl_DStringInit(&fileName);
766
            Tcl_DStringAppend(&fileName, list[counter], -1);
767
            Tcl_DStringAppend(&fileName, "/", -1);
768
            Tcl_DStringAppend(&fileName, edgePtr->menu3, -1);
769
            Tcl_DStringAppend(&fileName, ".emenu", -1);
770
            Tcl_DStringInit(&buffer);
771
            fullName = Tcl_TildeSubst(interp,
772
                                      fileName.string, &buffer);
773
            if (access(fullName, F_OK) != -1) {
774
              /* load new menu. */
775
              Tcl_VarEval(interp, "source ", fullName,
776
                          (char *) NULL);
777
            }
778
            Tcl_DStringFree(&fileName);
779
            Tcl_DStringFree(&buffer);
780
          }
781
          ckfree((char *) list);
782
        }
783
      }
784
      Tcl_DStringFree(&varName);
785
    }
786
  }
787
 
788
  /*
789
   * Recompute bounding box for edge.
790
   */
791
 
792
  ComputeEdgeBbox(canvas, edgePtr);
793
 
794
  return TCL_OK;
795
}
796
 
797
/*
798
 *--------------------------------------------------------------
799
 *
800
 * DeleteEdge --
801
 *
802
 *      This procedure is called to clean up the data structure
803
 *      associated with a edge item.
804
 *
805
 * Results:
806
 *      None.
807
 *
808
 * Side effects:
809
 *      Resources associated with itemPtr are released.
810
 *
811
 *--------------------------------------------------------------
812
 */
813
 
814
static void
815
DeleteEdge(canvas, itemPtr, display)
816
     Tk_Canvas canvas;                  /* Info about overall canvas widget. */
817
     Tk_Item *itemPtr;                  /* Item that is being deleted. */
818
     Display *display;                  /* Display containing window for
819
                                         * canvas. */
820
{
821
  EdgeItem *edgePtr = (EdgeItem *) itemPtr;
822
 
823
  if (edgePtr->bgColor != NULL) {
824
    Tk_FreeColor(edgePtr->bgColor);
825
  }
826
  if (edgePtr->coordPtr != NULL) {
827
    ckfree((char *) edgePtr->coordPtr);
828
  }
829
  if (edgePtr->fgColor != NULL) {
830
    Tk_FreeColor(edgePtr->fgColor);
831
  }
832
  if (edgePtr->fillStipple != None) {
833
    Tk_FreeBitmap(display, edgePtr->fillStipple);
834
  }
835
  if (edgePtr->tkfont != NULL) {
836
    Tk_FreeFont(edgePtr->tkfont);
837
  }
838
  if (edgePtr->from != NULL) {
839
    ckfree(edgePtr->from);
840
  }
841
  if (edgePtr->graphName != NULL) {
842
    ckfree(edgePtr->graphName);
843
  }
844
  if (edgePtr->label != NULL) {
845
    ckfree(edgePtr->label);
846
  }
847
  if (edgePtr->menu1 != NULL) {
848
    ckfree(edgePtr->menu1);
849
  }
850
  if (edgePtr->menu2 != NULL) {
851
    ckfree(edgePtr->menu2);
852
  }
853
  if (edgePtr->menu3 != NULL) {
854
    ckfree(edgePtr->menu3);
855
  }
856
  if (edgePtr->name != NULL) {
857
    ckfree(edgePtr->name);
858
  }
859
  if (edgePtr->state != NULL) {
860
    ckfree(edgePtr->state);
861
  }
862
  if (edgePtr->to != NULL) {
863
    ckfree(edgePtr->to);
864
  }
865
 
866
  if (edgePtr->invertedGc != None) {
867
    Tk_FreeGC(display, edgePtr->invertedGc);
868
  }
869
  if (edgePtr->gc != None) {
870
    Tk_FreeGC(display, edgePtr->gc);
871
  }
872
  if (edgePtr->firstArrowPtr != NULL) {
873
    ckfree((char *) edgePtr->firstArrowPtr);
874
  }
875
  if (edgePtr->lastArrowPtr != NULL) {
876
    ckfree((char *) edgePtr->lastArrowPtr);
877
  }
878
  if (edgePtr->textLayout != NULL) {
879
    ckfree((char *) edgePtr->textLayout);
880
  }
881
}
882
 
883
/*
884
 *--------------------------------------------------------------
885
 *
886
 * ComputeEdgeBbox --
887
 *
888
 *      This procedure is invoked to compute the bounding box of
889
 *      all the pixels that may be drawn as part of a edge.
890
 *
891
 * Results:
892
 *      None.
893
 *
894
 * Side effects:
895
 *      The fields x1, y1, x2, and y2 are updated in the header
896
 *      for itemPtr.
897
 *
898
 *--------------------------------------------------------------
899
 */
900
 
901
static void
902
ComputeEdgeBbox(canvas, edgePtr)
903
     Tk_Canvas canvas;                  /* Canvas that contains item. */
904
     EdgeItem *edgePtr;                 /* Item whose bbos is to be
905
                                         * recomputed. */
906
{
907
  double *coordPtr;
908
  int i, lineWidth, lineHeight;
909
 
910
  coordPtr = edgePtr->coordPtr;
911
  edgePtr->header.x1 = edgePtr->header.x2 = *coordPtr;
912
  edgePtr->header.y1 = edgePtr->header.y2 = coordPtr[1];
913
 
914
  /*
915
   * Compute the bounding box of all the points in the edge,
916
   * then expand in all directions by the edge's width to take
917
   * care of butting or rounded corners and projecting or
918
   * rounded caps.  This expansion is an overestimate (worst-case
919
   * is square root of two over two) but it's simple.  Don't do
920
   * anything special for curves.  This causes an additional
921
   * overestimate in the bounding box, but is faster.
922
   */
923
 
924
  for (i = 1, coordPtr = edgePtr->coordPtr+2; i < edgePtr->numPoints;
925
       i++, coordPtr += 2) {
926
    TkIncludePoint((Tk_Item *) edgePtr, coordPtr);
927
  }
928
  edgePtr->header.x1 -= edgePtr->width;
929
  edgePtr->header.x2 += edgePtr->width;
930
  edgePtr->header.y1 -= edgePtr->width;
931
  edgePtr->header.y2 += edgePtr->width;
932
 
933
  /*
934
   * For mitered edges, make a second pass through all the points.
935
   * Compute the locations of the two miter vertex points and add
936
   * those into the bounding box.
937
   */
938
 
939
  if (edgePtr->joinStyle == JoinMiter) {
940
    for (i = edgePtr->numPoints, coordPtr = edgePtr->coordPtr; i >= 3;
941
         i--, coordPtr += 2) {
942
      double miter[4];
943
      int j;
944
 
945
      if (TkGetMiterPoints(coordPtr, coordPtr+2, coordPtr+4,
946
                           (double) edgePtr->width, miter, miter+2)) {
947
        for (j = 0; j < 4; j += 2) {
948
          TkIncludePoint((Tk_Item *) edgePtr, miter+j);
949
        }
950
      }
951
    }
952
  }
953
 
954
  /*
955
   * Add in the sizes of arrowheads, if any.
956
   */
957
 
958
  if (edgePtr->arrow != noneUid) {
959
    if (edgePtr->arrow != lastUid) {
960
      for (i = 0, coordPtr = edgePtr->firstArrowPtr; i < PTS_IN_ARROW;
961
           i++, coordPtr += 2) {
962
        TkIncludePoint((Tk_Item *) edgePtr, coordPtr);
963
      }
964
    }
965
    if (edgePtr->arrow != firstUid) {
966
      for (i = 0, coordPtr = edgePtr->lastArrowPtr; i < PTS_IN_ARROW;
967
           i++, coordPtr += 2) {
968
        TkIncludePoint((Tk_Item *) edgePtr, coordPtr);
969
      }
970
    }
971
  }
972
 
973
  /*
974
   * Add one more pixel of fudge factor just to be safe (e.g.
975
   * X may round differently than we do).
976
   */
977
 
978
  edgePtr->header.x1 -= 1;
979
  edgePtr->header.x2 += 1;
980
  edgePtr->header.y1 -= 1;
981
  edgePtr->header.y2 += 1;
982
 
983
  /* maybe we have a label that is wider than the line */
984
  if (edgePtr->tkfont != NULL && edgePtr->label != NULL) {
985
  Tk_FreeTextLayout(edgePtr->textLayout);
986
  edgePtr->textLayout = Tk_ComputeTextLayout(edgePtr->tkfont,
987
            edgePtr->label,
988
            strlen (edgePtr->label),
989
            edgePtr->width,
990
            edgePtr->justify,
991
            0, &lineWidth, &lineHeight);
992
   lineWidth = strlen(edgePtr->label);
993
    if (lineWidth > (edgePtr->header.x2 - edgePtr->header.x2)) {
994
      edgePtr->header.x1 -=
995
        (lineWidth - (edgePtr->header.x2 - edgePtr->header.x2)) / 2;
996
      edgePtr->header.x2 +=
997
        (lineWidth - (edgePtr->header.x2 - edgePtr->header.x2)) / 2;
998
    }
999
    if (lineHeight >
1000
        (edgePtr->header.y2 - edgePtr->header.y2)) {
1001
      edgePtr->header.y1 -=
1002
        (lineHeight - (edgePtr->header.y2 - edgePtr->header.y2))
1003
        / 2;
1004
      edgePtr->header.y2 +=
1005
        (lineHeight - (edgePtr->header.y2 - edgePtr->header.y2)) / 2;
1006
    }
1007
  }
1008
}
1009
 
1010
/*
1011
 *--------------------------------------------------------------
1012
 *
1013
 * DisplayEdge --
1014
 *
1015
 *      This procedure is invoked to draw a edge item in a given
1016
 *      drawable.
1017
 *
1018
 * Results:
1019
 *      None.
1020
 *
1021
 * Side effects:
1022
 *      ItemPtr is drawn in drawable using the transformation
1023
 *      information in canvas.
1024
 *
1025
 *--------------------------------------------------------------
1026
 */
1027
 
1028
static void
1029
DisplayEdge(canvas, itemPtr, display, drawable, x, y, width, height)
1030
     Tk_Canvas canvas;                  /* Canvas that contains item. */
1031
     Tk_Item *itemPtr;                  /* Item to be displayed. */
1032
     Display *display;                  /* Display on which to draw item. */
1033
     Drawable drawable;                 /* Pixmap or window in which to draw
1034
                                         * item. */
1035
    int x, y, width, height;            /* Describes region of canvas that
1036
                                         * must be redisplayed (not used). */
1037
{
1038
  EdgeItem *edgePtr = (EdgeItem *) itemPtr;
1039
  XPoint staticPoints[MAX_STATIC_POINTS];
1040
  XPoint *pointPtr;
1041
  XPoint *pPtr;
1042
  register double *coordPtr;
1043
  int i, numPoints, lineHeight;
1044
  int centerX, centerY, lineWidth;
1045
  short drawableX, drawableY;
1046
 
1047
  if (edgePtr->gc == None) {
1048
    return;
1049
  }
1050
 
1051
  /*
1052
   * Build up an array of points in screen coordinates.  Use a
1053
   * static array unless the edge has an enormous number of points;
1054
   * in this case, dynamically allocate an array.  For smoothed edges,
1055
   * generate the curve points on each redisplay.
1056
   */
1057
 
1058
  if ((edgePtr->smooth) && (edgePtr->numPoints > 2)) {
1059
    numPoints = 1 + edgePtr->numPoints*edgePtr->splineSteps;
1060
  } else {
1061
    numPoints = edgePtr->numPoints;
1062
  }
1063
 
1064
  if (numPoints <= MAX_STATIC_POINTS) {
1065
    pointPtr = staticPoints;
1066
  } else {
1067
    pointPtr = (XPoint *) ckalloc((unsigned) (numPoints * sizeof(XPoint)));
1068
  }
1069
 
1070
  if (edgePtr->smooth) {
1071
    numPoints = TkMakeBezierCurve(canvas, edgePtr->coordPtr,
1072
                                  edgePtr->numPoints,
1073
                                  edgePtr->splineSteps, pointPtr,
1074
                                  (double *) NULL);
1075
  } else {
1076
    for (i = 0, coordPtr = edgePtr->coordPtr, pPtr = pointPtr;
1077
         i < edgePtr->numPoints;  i += 1, coordPtr += 2, pPtr++) {
1078
      Tk_CanvasDrawableCoords(canvas, coordPtr[0], coordPtr[1],
1079
                              &pPtr->x, &pPtr->y);
1080
    }
1081
  }
1082
 
1083
  /*
1084
   * Display edge, the free up edge storage if it was dynamically
1085
   * allocated.  If we're stippling, then modify the stipple offset
1086
   * in the GC.  Be sure to reset the offset when done, since the
1087
   * GC is supposed to be read-only.
1088
   */
1089
 
1090
  if (edgePtr->fillStipple != None) {
1091
    XSetTSOrigin(display, edgePtr->gc,
1092
                 -((TkCanvas *) canvas)->drawableXOrigin,
1093
                 -((TkCanvas *) canvas)->drawableYOrigin);
1094
  }
1095
  XDrawLines(display, drawable, edgePtr->gc,
1096
             pointPtr, numPoints, CoordModeOrigin);
1097
  if (pointPtr[numPoints-1].x > pointPtr[numPoints-2].x) {
1098
    centerX = ((pointPtr[numPoints-1].x - pointPtr[numPoints-2].x) / 2) +
1099
      pointPtr[numPoints-2].x;
1100
  } else {
1101
    centerX = ((pointPtr[numPoints-2].x - pointPtr[numPoints-1].x) / 2) +
1102
      pointPtr[numPoints-1].x;
1103
  }
1104
  if (pointPtr[numPoints-1].y > pointPtr[numPoints-2].y) {
1105
    centerY = ((pointPtr[numPoints-1].y - pointPtr[numPoints-2].y) / 2) +
1106
      pointPtr[numPoints-2].y;
1107
  } else {
1108
    centerY = ((pointPtr[numPoints-2].y - pointPtr[numPoints-1].y) / 2) +
1109
      pointPtr[numPoints-1].y;
1110
  }
1111
  if (pointPtr != staticPoints) {
1112
    ckfree((char *) pointPtr);
1113
  }
1114
 
1115
  /*
1116
   * Display arrowheads, if they are wanted.
1117
   */
1118
 
1119
  if (edgePtr->arrow != noneUid) {
1120
    if (edgePtr->arrow != lastUid) {
1121
      TkFillPolygon(canvas, edgePtr->firstArrowPtr, PTS_IN_ARROW,
1122
                    display, drawable, edgePtr->gc, NULL);
1123
    }
1124
    if (edgePtr->arrow != firstUid) {
1125
      TkFillPolygon(canvas, edgePtr->lastArrowPtr, PTS_IN_ARROW,
1126
                    display, drawable, edgePtr->gc, NULL);
1127
    }
1128
  }
1129
  if (edgePtr->fillStipple != None) {
1130
    XSetTSOrigin(display, edgePtr->gc, 0, 0);
1131
  }
1132
 
1133
  /* display the label */
1134
  if (edgePtr->label != NULL && (size_t) strlen(edgePtr->label) > 0) {
1135
    Tk_FreeTextLayout(edgePtr->textLayout);
1136
    edgePtr->textLayout = Tk_ComputeTextLayout(edgePtr->tkfont,
1137
            edgePtr->label,
1138
            strlen (edgePtr->label),
1139
            edgePtr->width,
1140
            edgePtr->justify,
1141
            0, &lineWidth, &lineHeight);
1142
    lineWidth = strlen(edgePtr->label);
1143
    if (strcmp(edgePtr->state, "selected") == 0) {
1144
      XFillRectangle(display, drawable,
1145
                     edgePtr->gc,
1146
                     centerX - (lineWidth / 2) - 1,
1147
                     centerY - (lineHeight / 2) - 1,
1148
                     lineWidth + 2, lineHeight + 2);
1149
      Tk_CanvasDrawableCoords(canvas,
1150
                        (double) (edgePtr->header.x1 + x),
1151
                        (double) (edgePtr->header.y1 + y),
1152
                        &drawableX, &drawableY);
1153
      Tk_DrawTextLayout(display, drawable,  edgePtr->gc,
1154
            edgePtr->textLayout,
1155
            drawableX, drawableY,
1156
            0, -1);
1157
    } else {
1158
      XFillRectangle(display, drawable,
1159
                     edgePtr->invertedGc,
1160
                     centerX - (lineWidth / 2) - 1,
1161
                     centerY - (lineHeight / 2) - 1,
1162
                     lineWidth + 2, lineHeight + 2);
1163
      Tk_CanvasDrawableCoords(canvas,
1164
                        (double) (edgePtr->header.x1 + x),
1165
                        (double) (edgePtr->header.y1 + y),
1166
                        &drawableX, &drawableY);
1167
      Tk_DrawTextLayout(display, drawable,  edgePtr->gc,
1168
            edgePtr->textLayout,
1169
            drawableX, drawableY,
1170
            0, -1);
1171
    }
1172
  }
1173
}
1174
 
1175
/*
1176
 *--------------------------------------------------------------
1177
 *
1178
 * EdgeToPoint --
1179
 *
1180
 *      Computes the distance from a given point to a given
1181
 *      edge, in canvas units.
1182
 *
1183
 * Results:
1184
 *      The return value is 0 if the point whose x and y coordinates
1185
 *      are pointPtr[0] and pointPtr[1] is inside the edge.  If the
1186
 *      point isn't inside the edge then the return value is the
1187
 *      distance from the point to the edge.
1188
 *
1189
 * Side effects:
1190
 *      None.
1191
 *
1192
 *--------------------------------------------------------------
1193
 */
1194
 
1195
        /* ARGSUSED */
1196
static double
1197
EdgeToPoint(canvas, itemPtr, pointPtr)
1198
     Tk_Canvas canvas;          /* Canvas containing item. */
1199
     Tk_Item *itemPtr;          /* Item to check against point. */
1200
     double *pointPtr;          /* Pointer to x and y coordinates. */
1201
{
1202
  EdgeItem *edgePtr = (EdgeItem *) itemPtr;
1203
  register double *coordPtr, *edgePoints;
1204
  double staticSpace[2*MAX_STATIC_POINTS];
1205
  double poly[10];
1206
  double bestDist, dist;
1207
  int numPoints, count;
1208
  int changedMiterToBevel;      /* Non-zero means that a mitered corner
1209
                                 * had to be treated as beveled after all
1210
                                 * because the angle was < 11 degrees. */
1211
 
1212
  bestDist = 1.0e40;
1213
 
1214
  /*
1215
   * Handle smoothed edges by generating an expanded set of points
1216
   * against which to do the check.
1217
   */
1218
 
1219
  if ((edgePtr->smooth) && (edgePtr->numPoints > 2)) {
1220
    numPoints = 1 + edgePtr->numPoints*edgePtr->splineSteps;
1221
    if (numPoints <= MAX_STATIC_POINTS) {
1222
      edgePoints = staticSpace;
1223
    } else {
1224
      edgePoints = (double *) ckalloc((unsigned)
1225
                                      (2*numPoints*sizeof(double)));
1226
    }
1227
    numPoints = TkMakeBezierCurve(canvas, edgePtr->coordPtr,
1228
                                  edgePtr->numPoints,
1229
                                  edgePtr->splineSteps, (XPoint *) NULL,
1230
                                  edgePoints);
1231
  } else {
1232
    numPoints = edgePtr->numPoints;
1233
    edgePoints = edgePtr->coordPtr;
1234
  }
1235
 
1236
  /*
1237
   * The overall idea is to iterate through all of the edges of
1238
   * the edge, computing a polygon for each edge and testing the
1239
   * point against that polygon.  In addition, there are additional
1240
   * tests to deal with rounded joints and caps.
1241
   */
1242
 
1243
  changedMiterToBevel = 0;
1244
  for (count = numPoints, coordPtr = edgePoints; count >= 2;
1245
       count--, coordPtr += 2) {
1246
 
1247
    /*
1248
     * If rounding is done around the first point then compute
1249
     * the distance between the point and the point.
1250
     */
1251
 
1252
    if (((edgePtr->capStyle == CapRound) && (count == numPoints))
1253
        || ((edgePtr->joinStyle == JoinRound)
1254
            && (count != numPoints))) {
1255
      dist = hypot(coordPtr[0] - pointPtr[0], coordPtr[1] - pointPtr[1])
1256
        - edgePtr->width/2.0;
1257
      if (dist <= 0.0) {
1258
        bestDist = 0.0;
1259
        goto done;
1260
      } else if (dist < bestDist) {
1261
        bestDist = dist;
1262
      }
1263
    }
1264
 
1265
    /*
1266
     * Compute the polygonal shape corresponding to this edge,
1267
     * consisting of two points for the first point of the edge
1268
     * and two points for the last point of the edge.
1269
     */
1270
 
1271
    if (count == numPoints) {
1272
      TkGetButtPoints(coordPtr+2, coordPtr, (double) edgePtr->width,
1273
                      edgePtr->capStyle == CapProjecting, poly, poly+2);
1274
    } else if ((edgePtr->joinStyle == JoinMiter) && !changedMiterToBevel) {
1275
      poly[0] = poly[6];
1276
      poly[1] = poly[7];
1277
      poly[2] = poly[4];
1278
      poly[3] = poly[5];
1279
    } else {
1280
      TkGetButtPoints(coordPtr+2, coordPtr, (double) edgePtr->width, 0,
1281
                      poly, poly+2);
1282
 
1283
      /*
1284
       * If this edge uses beveled joints, then check the distance
1285
       * to a polygon comprising the last two points of the previous
1286
       * polygon and the first two from this polygon;  this checks
1287
       * the wedges that fill the mitered joint.
1288
       */
1289
 
1290
      if ((edgePtr->joinStyle == JoinBevel) || changedMiterToBevel) {
1291
        poly[8] = poly[0];
1292
        poly[9] = poly[1];
1293
        dist = TkPolygonToPoint(poly, 5, pointPtr);
1294
        if (dist <= 0.0) {
1295
          bestDist = 0.0;
1296
          goto done;
1297
        } else if (dist < bestDist) {
1298
          bestDist = dist;
1299
        }
1300
        changedMiterToBevel = 0;
1301
      }
1302
    }
1303
    if (count == 2) {
1304
      TkGetButtPoints(coordPtr, coordPtr+2, (double) edgePtr->width,
1305
                      edgePtr->capStyle == CapProjecting, poly+4, poly+6);
1306
    } else if (edgePtr->joinStyle == JoinMiter) {
1307
      if (TkGetMiterPoints(coordPtr, coordPtr+2, coordPtr+4,
1308
                           (double) edgePtr->width, poly+4, poly+6) == 0) {
1309
        changedMiterToBevel = 1;
1310
        TkGetButtPoints(coordPtr, coordPtr+2, (double) edgePtr->width,
1311
                        0, poly+4, poly+6);
1312
      }
1313
    } else {
1314
      TkGetButtPoints(coordPtr, coordPtr+2, (double) edgePtr->width, 0,
1315
                      poly+4, poly+6);
1316
    }
1317
    poly[8] = poly[0];
1318
    poly[9] = poly[1];
1319
    dist = TkPolygonToPoint(poly, 5, pointPtr);
1320
    if (dist <= 0.0) {
1321
      bestDist = 0.0;
1322
      goto done;
1323
    } else if (dist < bestDist) {
1324
      bestDist = dist;
1325
    }
1326
  }
1327
 
1328
  /*
1329
   * If caps are rounded, check the distance to the cap around the
1330
   * final end point of the edge.
1331
   */
1332
 
1333
  if (edgePtr->capStyle == CapRound) {
1334
    dist = hypot(coordPtr[0] - pointPtr[0], coordPtr[1] - pointPtr[1])
1335
      - edgePtr->width/2.0;
1336
    if (dist <= 0.0) {
1337
      bestDist = 0.0;
1338
      goto done;
1339
    } else if (dist < bestDist) {
1340
      bestDist = dist;
1341
    }
1342
  }
1343
 
1344
  /*
1345
   * If there are arrowheads, check the distance to the arrowheads.
1346
   */
1347
 
1348
  if (edgePtr->arrow != noneUid) {
1349
    if (edgePtr->arrow != lastUid) {
1350
      dist = TkPolygonToPoint(edgePtr->firstArrowPtr, PTS_IN_ARROW,
1351
                              pointPtr);
1352
      if (dist <= 0.0) {
1353
        bestDist = 0.0;
1354
        goto done;
1355
      } else if (dist < bestDist) {
1356
        bestDist = dist;
1357
      }
1358
    }
1359
    if (edgePtr->arrow != firstUid) {
1360
      dist = TkPolygonToPoint(edgePtr->lastArrowPtr, PTS_IN_ARROW,
1361
                              pointPtr);
1362
      if (dist <= 0.0) {
1363
        bestDist = 0.0;
1364
        goto done;
1365
      } else if (dist < bestDist) {
1366
        bestDist = dist;
1367
      }
1368
    }
1369
  }
1370
 
1371
 done:
1372
  if ((edgePoints != staticSpace) && (edgePoints != edgePtr->coordPtr)) {
1373
    ckfree((char *) edgePoints);
1374
  }
1375
  return bestDist;
1376
}
1377
 
1378
/*
1379
 *--------------------------------------------------------------
1380
 *
1381
 * EdgeToArea --
1382
 *
1383
 *      This procedure is called to determine whether an item
1384
 *      lies entirely inside, entirely outside, or overlapping
1385
 *      a given rectangular area.
1386
 *
1387
 * Results:
1388
 *      -1 is returned if the item is entirely outside the
1389
 *      area, 0 if it overlaps, and 1 if it is entirely
1390
 *      inside the given area.
1391
 *
1392
 * Side effects:
1393
 *      None.
1394
 *
1395
 *--------------------------------------------------------------
1396
 */
1397
 
1398
        /* ARGSUSED */
1399
static int
1400
EdgeToArea(canvas, itemPtr, rectPtr)
1401
     Tk_Canvas canvas;          /* Canvas containing item. */
1402
     Tk_Item *itemPtr;          /* Item to check against edge. */
1403
     double *rectPtr;
1404
{
1405
  EdgeItem *edgePtr = (EdgeItem *) itemPtr;
1406
  register double *coordPtr;
1407
  double staticSpace[2*MAX_STATIC_POINTS];
1408
  double *edgePoints, poly[10];
1409
  double radius;
1410
  int numPoints, count;
1411
  int changedMiterToBevel;      /* Non-zero means that a mitered corner
1412
                                 * had to be treated as beveled after all
1413
                                 * because the angle was < 11 degrees. */
1414
  int inside;                   /* Tentative guess about what to return,
1415
                                 * based on all points seen so far:  one
1416
                                 * means everything seen so far was
1417
                                 * inside the area;  -1 means everything
1418
                                 * was outside the area.  0 means overlap
1419
                                 * has been found. */
1420
 
1421
  radius = edgePtr->width/2.0;
1422
  inside = -1;
1423
 
1424
  /*
1425
   * Handle smoothed edges by generating an expanded set of points
1426
   * against which to do the check.
1427
   */
1428
 
1429
  if ((edgePtr->smooth) && (edgePtr->numPoints > 2)) {
1430
    numPoints = 1 + edgePtr->numPoints*edgePtr->splineSteps;
1431
    if (numPoints <= MAX_STATIC_POINTS) {
1432
      edgePoints = staticSpace;
1433
    } else {
1434
      edgePoints = (double *) ckalloc((unsigned)
1435
                                      (2*numPoints*sizeof(double)));
1436
    }
1437
    numPoints = TkMakeBezierCurve(canvas, edgePtr->coordPtr,
1438
                                  edgePtr->numPoints,
1439
                                  edgePtr->splineSteps, (XPoint *) NULL,
1440
                                  edgePoints);
1441
  } else {
1442
    numPoints = edgePtr->numPoints;
1443
    edgePoints = edgePtr->coordPtr;
1444
  }
1445
 
1446
  coordPtr = edgePoints;
1447
  if ((coordPtr[0] >= rectPtr[0]) && (coordPtr[0] <= rectPtr[2])
1448
      && (coordPtr[1] >= rectPtr[1]) && (coordPtr[1] <= rectPtr[3])) {
1449
    inside = 1;
1450
  }
1451
 
1452
  /*
1453
   * Iterate through all of the edges of the edge, computing a polygon
1454
   * for each edge and testing the area against that polygon.  In
1455
   * addition, there are additional tests to deal with rounded joints
1456
   * and caps.
1457
   */
1458
 
1459
  changedMiterToBevel = 0;
1460
  for (count = numPoints; count >= 2; count--, coordPtr += 2) {
1461
 
1462
    /*
1463
     * If rounding is done around the first point of the edge
1464
     * then test a circular region around the point with the
1465
     * area.
1466
     */
1467
 
1468
    if (((edgePtr->capStyle == CapRound) && (count == numPoints))
1469
        || ((edgePtr->joinStyle == JoinRound)
1470
            && (count != numPoints))) {
1471
      poly[0] = coordPtr[0] - radius;
1472
      poly[1] = coordPtr[1] - radius;
1473
      poly[2] = coordPtr[0] + radius;
1474
      poly[3] = coordPtr[1] + radius;
1475
      if (TkOvalToArea(poly, rectPtr) != inside) {
1476
        inside = 0;
1477
        goto done;
1478
      }
1479
    }
1480
 
1481
    /*
1482
     * Compute the polygonal shape corresponding to this edge,
1483
     * consisting of two points for the first point of the edge
1484
     * and two points for the last point of the edge.
1485
     */
1486
 
1487
    if (count == numPoints) {
1488
      TkGetButtPoints(coordPtr+2, coordPtr, (double) edgePtr->width,
1489
                      edgePtr->capStyle == CapProjecting, poly, poly+2);
1490
    } else if ((edgePtr->joinStyle == JoinMiter) && !changedMiterToBevel) {
1491
      poly[0] = poly[6];
1492
      poly[1] = poly[7];
1493
      poly[2] = poly[4];
1494
      poly[3] = poly[5];
1495
    } else {
1496
      TkGetButtPoints(coordPtr+2, coordPtr, (double) edgePtr->width, 0,
1497
                      poly, poly+2);
1498
 
1499
      /*
1500
       * If the last joint was beveled, then also check a
1501
       * polygon comprising the last two points of the previous
1502
       * polygon and the first two from this polygon;  this checks
1503
       * the wedges that fill the beveled joint.
1504
       */
1505
 
1506
      if ((edgePtr->joinStyle == JoinBevel) || changedMiterToBevel) {
1507
        poly[8] = poly[0];
1508
        poly[9] = poly[1];
1509
        if (TkPolygonToArea(poly, 5, rectPtr) != inside) {
1510
          inside = 0;
1511
          goto done;
1512
        }
1513
        changedMiterToBevel = 0;
1514
      }
1515
    }
1516
    if (count == 2) {
1517
      TkGetButtPoints(coordPtr, coordPtr+2, (double) edgePtr->width,
1518
                      edgePtr->capStyle == CapProjecting, poly+4, poly+6);
1519
    } else if (edgePtr->joinStyle == JoinMiter) {
1520
      if (TkGetMiterPoints(coordPtr, coordPtr+2, coordPtr+4,
1521
                           (double) edgePtr->width, poly+4, poly+6) == 0) {
1522
        changedMiterToBevel = 1;
1523
        TkGetButtPoints(coordPtr, coordPtr+2, (double) edgePtr->width,
1524
                        0, poly+4, poly+6);
1525
      }
1526
    } else {
1527
      TkGetButtPoints(coordPtr, coordPtr+2, (double) edgePtr->width, 0,
1528
                      poly+4, poly+6);
1529
    }
1530
    poly[8] = poly[0];
1531
    poly[9] = poly[1];
1532
    if (TkPolygonToArea(poly, 5, rectPtr) != inside) {
1533
      inside = 0;
1534
      goto done;
1535
    }
1536
  }
1537
 
1538
  /*
1539
   * If caps are rounded, check the cap around the final point
1540
   * of the edge.
1541
   */
1542
 
1543
  if (edgePtr->capStyle == CapRound) {
1544
    poly[0] = coordPtr[0] - radius;
1545
    poly[1] = coordPtr[1] - radius;
1546
    poly[2] = coordPtr[0] + radius;
1547
    poly[3] = coordPtr[1] + radius;
1548
    if (TkOvalToArea(poly, rectPtr) != inside) {
1549
      inside = 0;
1550
      goto done;
1551
    }
1552
  }
1553
 
1554
  /*
1555
   * Check arrowheads, if any.
1556
   */
1557
 
1558
  if (edgePtr->arrow != noneUid) {
1559
    if (edgePtr->arrow != lastUid) {
1560
      if (TkPolygonToArea(edgePtr->firstArrowPtr, PTS_IN_ARROW,
1561
                          rectPtr) != inside) {
1562
        inside = 0;
1563
        goto done;
1564
      }
1565
    }
1566
    if (edgePtr->arrow != firstUid) {
1567
      if (TkPolygonToArea(edgePtr->lastArrowPtr, PTS_IN_ARROW,
1568
                          rectPtr) != inside) {
1569
        inside = 0;
1570
        goto done;
1571
      }
1572
    }
1573
  }
1574
 
1575
 done:
1576
  if ((edgePoints != staticSpace) && (edgePoints != edgePtr->coordPtr)) {
1577
    ckfree((char *) edgePoints);
1578
  }
1579
  return inside;
1580
}
1581
 
1582
/*
1583
 *--------------------------------------------------------------
1584
 *
1585
 * ScaleEdge --
1586
 *
1587
 *      This procedure is invoked to rescale a edge item.
1588
 *
1589
 * Results:
1590
 *      None.
1591
 *
1592
 * Side effects:
1593
 *      The edge referred to by itemPtr is rescaled so that the
1594
 *      following transformation is applied to all point
1595
 *      coordinates:
1596
 *              x' = originX + scaleX*(x-originX)
1597
 *              y' = originY + scaleY*(y-originY)
1598
 *
1599
 *--------------------------------------------------------------
1600
 */
1601
 
1602
static void
1603
ScaleEdge(canvas, itemPtr, originX, originY, scaleX, scaleY)
1604
     Tk_Canvas canvas;                  /* Canvas containing edge. */
1605
     Tk_Item *itemPtr;                  /* Edge to be scaled. */
1606
     double originX, originY;           /* Origin about which to scale rect. */
1607
     double scaleX;                     /* Amount to scale in X direction. */
1608
     double scaleY;                     /* Amount to scale in Y direction. */
1609
{
1610
  EdgeItem *edgePtr = (EdgeItem *) itemPtr;
1611
  double *coordPtr;
1612
  int i;
1613
 
1614
  for (i = 0, coordPtr = edgePtr->coordPtr; i < edgePtr->numPoints;
1615
       i++, coordPtr += 2) {
1616
    coordPtr[0] = originX + scaleX*(*coordPtr - originX);
1617
    coordPtr[1] = originY + scaleY*(coordPtr[1] - originY);
1618
  }
1619
  if (edgePtr->firstArrowPtr != NULL) {
1620
    for (i = 0, coordPtr = edgePtr->firstArrowPtr; i < PTS_IN_ARROW;
1621
         i++, coordPtr += 2) {
1622
      coordPtr[0] = originX + scaleX*(coordPtr[0] - originX);
1623
      coordPtr[1] = originY + scaleY*(coordPtr[1] - originY);
1624
    }
1625
  }
1626
  if (edgePtr->lastArrowPtr != NULL) {
1627
    for (i = 0, coordPtr = edgePtr->lastArrowPtr; i < PTS_IN_ARROW;
1628
         i++, coordPtr += 2) {
1629
      coordPtr[0] = originX + scaleX*(coordPtr[0] - originX);
1630
      coordPtr[1] = originY + scaleY*(coordPtr[1] - originY);
1631
    }
1632
  }
1633
  ComputeEdgeBbox(canvas, edgePtr);
1634
}
1635
 
1636
/*
1637
 *--------------------------------------------------------------
1638
 *
1639
 * TranslateEdge --
1640
 *
1641
 *      This procedure is called to move a edge by a given amount.
1642
 *
1643
 * Results:
1644
 *      None.
1645
 *
1646
 * Side effects:
1647
 *      The position of the edge is offset by (xDelta, yDelta), and
1648
 *      the bounding box is updated in the generic part of the item
1649
 *      structure.
1650
 *
1651
 *--------------------------------------------------------------
1652
 */
1653
 
1654
static void
1655
TranslateEdge(canvas, itemPtr, deltaX, deltaY)
1656
     Tk_Canvas canvas;                  /* Canvas containing item. */
1657
     Tk_Item *itemPtr;                  /* Item that is being moved. */
1658
     double deltaX, deltaY;             /* Amount by which item is to be
1659
                                         * moved. */
1660
{
1661
  EdgeItem *edgePtr = (EdgeItem *) itemPtr;
1662
  double *coordPtr;
1663
  int i;
1664
 
1665
  for (i = 0, coordPtr = edgePtr->coordPtr; i < edgePtr->numPoints;
1666
       i++, coordPtr += 2) {
1667
    coordPtr[0] += deltaX;
1668
    coordPtr[1] += deltaY;
1669
  }
1670
  if (edgePtr->firstArrowPtr != NULL) {
1671
    for (i = 0, coordPtr = edgePtr->firstArrowPtr; i < PTS_IN_ARROW;
1672
         i++, coordPtr += 2) {
1673
      coordPtr[0] += deltaX;
1674
      coordPtr[1] += deltaY;
1675
    }
1676
  }
1677
  if (edgePtr->lastArrowPtr != NULL) {
1678
    for (i = 0, coordPtr = edgePtr->lastArrowPtr; i < PTS_IN_ARROW;
1679
         i++, coordPtr += 2) {
1680
      coordPtr[0] += deltaX;
1681
      coordPtr[1] += deltaY;
1682
    }
1683
  }
1684
  ComputeEdgeBbox(canvas, edgePtr);
1685
}
1686
 
1687
/*
1688
 *--------------------------------------------------------------
1689
 *
1690
 * ParseArrowShape --
1691
 *
1692
 *      This procedure is called back during option parsing to
1693
 *      parse arrow shape information.
1694
 *
1695
 * Results:
1696
 *      The return value is a standard Tcl result:  TCL_OK means
1697
 *      that the arrow shape information was parsed ok, and
1698
 *      TCL_ERROR means it couldn't be parsed.
1699
 *
1700
 * Side effects:
1701
 *      Arrow information in recordPtr is updated.
1702
 *
1703
 *--------------------------------------------------------------
1704
 */
1705
 
1706
        /* ARGSUSED */
1707
static int
1708
ParseArrowShape(clientData, interp, tkwin, value, recordPtr, offset)
1709
     ClientData clientData;     /* Not used. */
1710
     Tcl_Interp *interp;        /* Used for error reporting. */
1711
     Tk_Window tkwin;           /* Not used. */
1712
     char *value;               /* Textual specification of arrow shape. */
1713
     char *recordPtr;           /* Pointer to item record in which to
1714
                                 * store arrow information. */
1715
     int offset;                /* Offset of shape information in widget
1716
                                 * record. */
1717
{
1718
  EdgeItem *edgePtr = (EdgeItem *) recordPtr;
1719
  double a, b, c;
1720
  int argc;
1721
  char **argv = NULL;
1722
 
1723
  if (offset != Tk_Offset(EdgeItem, arrowShapeA)) {
1724
    panic("ParseArrowShape received bogus offset");
1725
  }
1726
 
1727
  if (Tcl_SplitList(interp, value, &argc, &argv) != TCL_OK) {
1728
  syntaxError:
1729
    Tcl_ResetResult(interp);
1730
    Tcl_AppendResult(interp, "bad arrow shape \"", value,
1731
                     "\": must be list with three numbers", (char *) NULL);
1732
    if (argv != NULL) {
1733
      ckfree((char *) argv);
1734
    }
1735
    return TCL_ERROR;
1736
  }
1737
  if (argc != 3) {
1738
    goto syntaxError;
1739
  }
1740
  if ((Tk_CanvasGetCoord(interp, edgePtr->canvas, argv[0], &a) != TCL_OK)
1741
      || (Tk_CanvasGetCoord(interp, edgePtr->canvas, argv[1], &b) != TCL_OK)
1742
      || (Tk_CanvasGetCoord(interp, edgePtr->canvas, argv[2], &c) != TCL_OK)) {
1743
    goto syntaxError;
1744
  }
1745
  edgePtr->arrowShapeA = a;
1746
  edgePtr->arrowShapeB = b;
1747
  edgePtr->arrowShapeC = c;
1748
  ckfree((char *) argv);
1749
  return TCL_OK;
1750
}
1751
 
1752
/*
1753
 *--------------------------------------------------------------
1754
 *
1755
 * PrintArrowShape --
1756
 *
1757
 *      This procedure is a callback invoked by the configuration
1758
 *      code to return a printable value describing an arrow shape.
1759
 *
1760
 * Results:
1761
 *      None.
1762
 *
1763
 * Side effects:
1764
 *      None.
1765
 *
1766
 *--------------------------------------------------------------
1767
 */
1768
 
1769
    /* ARGSUSED */
1770
static char *
1771
PrintArrowShape(clientData, tkwin, recordPtr, offset, freeProcPtr)
1772
     ClientData clientData;     /* Not used. */
1773
     Tk_Window tkwin;           /* Window associated with edgePtr's widget. */
1774
     char *recordPtr;           /* Pointer to item record containing current
1775
                                 * shape information. */
1776
     int offset;                /* Offset of arrow information in record. */
1777
     Tcl_FreeProc **freeProcPtr;/* Store address of procedure to call to
1778
                                 * free string here. */
1779
{
1780
  EdgeItem *edgePtr = (EdgeItem *) recordPtr;
1781
  char *buffer;
1782
 
1783
  buffer = ckalloc(120);
1784
  sprintf(buffer, "%.5g %.5g %.5g", edgePtr->arrowShapeA,
1785
          edgePtr->arrowShapeB, edgePtr->arrowShapeC);
1786
  *freeProcPtr = (Tcl_FreeProc *) free;
1787
  return buffer;
1788
}
1789
 
1790
/*
1791
 *--------------------------------------------------------------
1792
 *
1793
 * ConfigureArrows --
1794
 *
1795
 *      If arrowheads have been requested for a edge, this
1796
 *      procedure makes arrangements for the arrowheads.
1797
 *
1798
 * Results:
1799
 *      A standard Tcl return value.  If an error occurs, then
1800
 *      an error message is left in interp->result.
1801
 *
1802
 * Side effects:
1803
 *      Information in edgePtr is set up for one or two arrowheads.
1804
 *      the firstArrowPtr and lastArrowPtr polygons are allocated
1805
 *      and initialized, if need be, and the end points of the edge
1806
 *      are adjusted so that a thick edge doesn't stick out past
1807
 *      the arrowheads.
1808
 *
1809
 *--------------------------------------------------------------
1810
 */
1811
 
1812
        /* ARGSUSED */
1813
static int
1814
ConfigureArrows(canvas, edgePtr)
1815
     Tk_Canvas canvas;                  /* Canvas in which arrows will be
1816
                                         * displayed (interp and tkwin
1817
                                         * fields are needed). */
1818
     EdgeItem *edgePtr;                 /* Item to configure for arrows. */
1819
{
1820
  double *poly, *coordPtr;
1821
  double dx, dy, length, sinTheta, cosTheta, temp, shapeC;
1822
  double fracHeight;                    /* Edge width as fraction of
1823
                                         * arrowhead width. */
1824
  double backup;                        /* Distance to backup end points
1825
                                         * so the edge ends in the middle
1826
                                         * of the arrowhead. */
1827
  double vertX, vertY;          /* Position of arrowhead vertex. */
1828
 
1829
  /*
1830
   * If there's an arrowhead on the first point of the edge, compute
1831
   * its polygon and adjust the first point of the edge so that the
1832
   * edge doesn't stick out past the leading edge of the arrowhead.
1833
   */
1834
 
1835
  shapeC = edgePtr->arrowShapeC + edgePtr->width/2.0;
1836
  fracHeight = (edgePtr->width/2.0)/shapeC;
1837
  backup = fracHeight*edgePtr->arrowShapeB
1838
    + edgePtr->arrowShapeA*(1.0 - fracHeight)/2.0;
1839
  if (edgePtr->arrow != lastUid) {
1840
    poly = edgePtr->firstArrowPtr;
1841
    if (poly == NULL) {
1842
      poly = (double *) ckalloc((unsigned)
1843
                                (2*PTS_IN_ARROW*sizeof(double)));
1844
      poly[0] = poly[10] = edgePtr->coordPtr[0];
1845
      poly[1] = poly[11] = edgePtr->coordPtr[1];
1846
      edgePtr->firstArrowPtr = poly;
1847
    }
1848
    dx = poly[0] - edgePtr->coordPtr[2];
1849
    dy = poly[1] - edgePtr->coordPtr[3];
1850
    length = hypot(dx, dy);
1851
    if (length == 0) {
1852
      sinTheta = cosTheta = 0.0;
1853
    } else {
1854
      sinTheta = dy/length;
1855
      cosTheta = dx/length;
1856
    }
1857
    vertX = poly[0] - edgePtr->arrowShapeA*cosTheta;
1858
    vertY = poly[1] - edgePtr->arrowShapeA*sinTheta;
1859
    temp = shapeC*sinTheta;
1860
    poly[2] = poly[0] - edgePtr->arrowShapeB*cosTheta + temp;
1861
    poly[8] = poly[2] - 2*temp;
1862
    temp = shapeC*cosTheta;
1863
    poly[3] = poly[1] - edgePtr->arrowShapeB*sinTheta - temp;
1864
    poly[9] = poly[3] + 2*temp;
1865
    poly[4] = poly[2]*fracHeight + vertX*(1.0-fracHeight);
1866
    poly[5] = poly[3]*fracHeight + vertY*(1.0-fracHeight);
1867
    poly[6] = poly[8]*fracHeight + vertX*(1.0-fracHeight);
1868
    poly[7] = poly[9]*fracHeight + vertY*(1.0-fracHeight);
1869
 
1870
    /*
1871
     * Polygon done.  Now move the first point towards the second so
1872
     * that the corners at the end of the edge are inside the
1873
     * arrowhead.
1874
     */
1875
 
1876
    edgePtr->coordPtr[0] = poly[0] - backup*cosTheta;
1877
    edgePtr->coordPtr[1] = poly[1] - backup*sinTheta;
1878
  }
1879
 
1880
  /*
1881
   * Similar arrowhead calculation for the last point of the edge.
1882
   */
1883
 
1884
  if (edgePtr->arrow != firstUid) {
1885
    coordPtr = edgePtr->coordPtr + 2*(edgePtr->numPoints-2);
1886
    poly = edgePtr->lastArrowPtr;
1887
    if (poly == NULL) {
1888
      poly = (double *) ckalloc((unsigned)
1889
                                (2*PTS_IN_ARROW*sizeof(double)));
1890
      poly[0] = poly[10] = coordPtr[2];
1891
      poly[1] = poly[11] = coordPtr[3];
1892
      edgePtr->lastArrowPtr = poly;
1893
    }
1894
    dx = poly[0] - coordPtr[0];
1895
    dy = poly[1] - coordPtr[1];
1896
    length = hypot(dx, dy);
1897
    if (length == 0) {
1898
      sinTheta = cosTheta = 0.0;
1899
    } else {
1900
      sinTheta = dy/length;
1901
      cosTheta = dx/length;
1902
    }
1903
    vertX = poly[0] - edgePtr->arrowShapeA*cosTheta;
1904
    vertY = poly[1] - edgePtr->arrowShapeA*sinTheta;
1905
    temp = shapeC*sinTheta;
1906
    poly[2] = poly[0] - edgePtr->arrowShapeB*cosTheta + temp;
1907
    poly[8] = poly[2] - 2*temp;
1908
    temp = shapeC*cosTheta;
1909
    poly[3] = poly[1] - edgePtr->arrowShapeB*sinTheta - temp;
1910
    poly[9] = poly[3] + 2*temp;
1911
    poly[4] = poly[2]*fracHeight + vertX*(1.0-fracHeight);
1912
    poly[5] = poly[3]*fracHeight + vertY*(1.0-fracHeight);
1913
    poly[6] = poly[8]*fracHeight + vertX*(1.0-fracHeight);
1914
    poly[7] = poly[9]*fracHeight + vertY*(1.0-fracHeight);
1915
    coordPtr[2] = poly[0] - backup*cosTheta;
1916
    coordPtr[3] = poly[1] - backup*sinTheta;
1917
  }
1918
 
1919
  return TCL_OK;
1920
}
1921
 
1922
/*
1923
 *--------------------------------------------------------------
1924
 *
1925
 * EdgeToPostscript --
1926
 *
1927
 *      This procedure is called to generate Postscript for
1928
 *      edge items.
1929
 *
1930
 * Results:
1931
 *      The return value is a standard Tcl result.  If an error
1932
 *      occurs in generating Postscript then an error message is
1933
 *      left in interp->result, replacing whatever used
1934
 *      to be there.  If no error occurs, then Postscript for the
1935
 *      item is appended to the result.
1936
 *
1937
 * Side effects:
1938
 *      None.
1939
 *
1940
 *--------------------------------------------------------------
1941
 */
1942
 
1943
static int
1944
EdgeToPostscript(interp, canvas, itemPtr, prepass)
1945
     Tcl_Interp *interp;                /* Leave Postscript or error message
1946
                                         * here. */
1947
     Tk_Canvas canvas;                  /* Information about overall canvas. */
1948
     Tk_Item *itemPtr;                  /* Item for which Postscript is
1949
                                         * wanted. */
1950
    int prepass;                        /* 1 means this is a prepass to
1951
                                         * collect font information;  0 means
1952
                                         * final Postscript is being created. */
1953
{
1954
  register EdgeItem *edgePtr = (EdgeItem *) itemPtr;
1955
  char buffer[200];
1956
  char *style;
1957
 
1958
  if (edgePtr->fgColor == NULL) {
1959
    return TCL_OK;
1960
  }
1961
 
1962
  /*
1963
   * Generate a path for the edge's center-edge (do this differently
1964
   * for straight edges and smoothed edges).
1965
   */
1966
 
1967
  if (!edgePtr->smooth) {
1968
    Tk_CanvasPsPath(interp, canvas, edgePtr->coordPtr, edgePtr->numPoints);
1969
  } else {
1970
    if (edgePtr->fillStipple == None) {
1971
      TkMakeBezierPostscript(interp, canvas, edgePtr->coordPtr, edgePtr->numPoints);
1972
    } else {
1973
      /*
1974
       * Special hack: Postscript printers don't appear to be able
1975
       * to turn a path drawn with "curveto"s into a clipping path
1976
       * without exceeding resource limits, so TkMakeBezierPostscript
1977
       * won't work for stippled curves.  Instead, generate all of
1978
       * the intermediate points here and output them into the
1979
       * Postscript file with "edgeto"s instead.
1980
       */
1981
 
1982
      double staticPoints[2*MAX_STATIC_POINTS];
1983
      double *pointPtr;
1984
      int numPoints;
1985
 
1986
      numPoints = 1 + edgePtr->numPoints*edgePtr->splineSteps;
1987
      pointPtr = staticPoints;
1988
      if (numPoints > MAX_STATIC_POINTS) {
1989
        pointPtr = (double *) ckalloc((unsigned)
1990
                                      (numPoints * 2 * sizeof(double)));
1991
      }
1992
      numPoints = TkMakeBezierCurve(canvas, edgePtr->coordPtr,
1993
                                    edgePtr->numPoints,
1994
                                    edgePtr->splineSteps, (XPoint *) NULL,
1995
                                    pointPtr);
1996
      Tk_CanvasPsPath(interp, canvas, pointPtr, numPoints);
1997
      if (pointPtr != staticPoints) {
1998
        ckfree((char *) pointPtr);
1999
      }
2000
    }
2001
  }
2002
 
2003
  /*
2004
   * Set other edge-drawing parameters and stroke out the edge.
2005
   */
2006
 
2007
  sprintf(buffer, "%d setlinewidth\n", edgePtr->width);
2008
  Tcl_AppendResult(interp, buffer, (char *) NULL);
2009
  style = "0 setlinecap\n";
2010
  if (edgePtr->capStyle == CapRound) {
2011
    style = "1 setlinecap\n";
2012
  } else if (edgePtr->capStyle == CapProjecting) {
2013
    style = "2 setlinecap\n";
2014
  }
2015
  Tcl_AppendResult(interp, style, (char *) NULL);
2016
  style = "0 setlinejoin\n";
2017
  if (edgePtr->joinStyle == JoinRound) {
2018
    style = "1 setlinejoin\n";
2019
  } else if (edgePtr->joinStyle == JoinBevel) {
2020
    style = "2 setlinejoin\n";
2021
  }
2022
  Tcl_AppendResult(interp, style, (char *) NULL);
2023
  if (Tk_CanvasPsColor(interp, canvas, edgePtr->fgColor) != TCL_OK) {
2024
    return TCL_ERROR;
2025
  };
2026
  if (edgePtr->fillStipple != None) {
2027
    if (Tk_CanvasPsStipple(interp, canvas, edgePtr->fillStipple)
2028
        != TCL_OK) {
2029
      return TCL_ERROR;
2030
    }
2031
  } else {
2032
    Tcl_AppendResult(interp, "stroke\n", (char *) NULL);
2033
  }
2034
 
2035
  /*
2036
   * Output polygons for the arrowheads, if there are any.
2037
   */
2038
 
2039
  if (edgePtr->firstArrowPtr != NULL) {
2040
    if (ArrowheadPostscript(interp, canvas, edgePtr, edgePtr->firstArrowPtr) !=
2041
        TCL_OK) {
2042
      return TCL_ERROR;
2043
    }
2044
  }
2045
  if (edgePtr->lastArrowPtr != NULL) {
2046
    if (ArrowheadPostscript(interp, canvas, edgePtr, edgePtr->lastArrowPtr) !=
2047
        TCL_OK) {
2048
      return TCL_ERROR;
2049
    }
2050
  }
2051
  return TCL_OK;
2052
}
2053
 
2054
/*
2055
 *--------------------------------------------------------------
2056
 *
2057
 * ArrowheadPostscript --
2058
 *
2059
 *      This procedure is called to generate Postscript for
2060
 *      an arrowhead for a edge item.
2061
 *
2062
 * Results:
2063
 *      The return value is a standard Tcl result.  If an error
2064
 *      occurs in generating Postscript then an error message is
2065
 *      left in interp->result, replacing whatever used
2066
 *      to be there.  If no error occurs, then Postscript for the
2067
 *      arrowhead is appended to the result.
2068
 *
2069
 * Side effects:
2070
 *      None.
2071
 *
2072
 *--------------------------------------------------------------
2073
 */
2074
 
2075
static int
2076
ArrowheadPostscript(interp, canvas, edgePtr, arrowPtr)
2077
     Tcl_Interp *interp;                /* Leave Postscript or error message
2078
                                         * here. */
2079
     Tk_Canvas canvas;                  /* Information about overall canvas. */
2080
     EdgeItem *edgePtr;                 /* Edge item for which Postscript is
2081
                                         * being generated. */
2082
     double *arrowPtr;                  /* Pointer to first of five points
2083
                                         * describing arrowhead polygon. */
2084
{
2085
  Tk_CanvasPsPath(interp, canvas, arrowPtr, PTS_IN_ARROW);
2086
  if (edgePtr->fillStipple != None) {
2087
    if (Tk_CanvasPsStipple(interp, canvas, edgePtr->fillStipple)
2088
        != TCL_OK) {
2089
      return TCL_ERROR;
2090
    }
2091
  } else {
2092
    Tcl_AppendResult(interp, "fill\n", (char *) NULL);
2093
  }
2094
  return TCL_OK;
2095
}

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.