/* * tk3d.c -- * * This module provides procedures to draw borders in * the three-dimensional Motif style. * * Copyright (c) 1990-1994 The Regents of the University of California. * Copyright (c) 1994-1997 Sun Microsystems, Inc. * * See the file "license.terms" for information on usage and redistribution * of this file, and for a DISCLAIMER OF ALL WARRANTIES. * * RCS: @(#) $Id: tk3d.c,v 1.1.1.1 2007/07/10 15:05:17 duncan Exp $ */ #include "tk3d.h" /* * The following table defines the string values for reliefs, which are * used by Tk_GetReliefFromObj. */ static CONST char *reliefStrings[] = {"flat", "groove", "raised", "ridge", "solid", "sunken", (char *) NULL}; /* * Forward declarations for procedures defined in this file: */ static void BorderInit _ANSI_ARGS_((TkDisplay *dispPtr)); static void DupBorderObjProc _ANSI_ARGS_((Tcl_Obj *srcObjPtr, Tcl_Obj *dupObjPtr)); static void FreeBorderObjProc _ANSI_ARGS_((Tcl_Obj *objPtr)); static int Intersect _ANSI_ARGS_((XPoint *a1Ptr, XPoint *a2Ptr, XPoint *b1Ptr, XPoint *b2Ptr, XPoint *iPtr)); static void InitBorderObj _ANSI_ARGS_((Tcl_Obj *objPtr)); static void ShiftLine _ANSI_ARGS_((XPoint *p1Ptr, XPoint *p2Ptr, int distance, XPoint *p3Ptr)); /* * The following structure defines the implementation of the "border" Tcl * object, used for drawing. The border object remembers the hash table entry * associated with a border. The actual allocation and deallocation of the * border should be done by the configuration package when the border option * is set. */ Tcl_ObjType tkBorderObjType = { "border", /* name */ FreeBorderObjProc, /* freeIntRepProc */ DupBorderObjProc, /* dupIntRepProc */ NULL, /* updateStringProc */ NULL /* setFromAnyProc */ }; /* *---------------------------------------------------------------------- * * Tk_Alloc3DBorderFromObj -- * * Given a Tcl_Obj *, map the value to a corresponding * Tk_3DBorder structure based on the tkwin given. * * Results: * The return value is a token for a data structure describing a * 3-D border. This token may be passed to procedures such as * Tk_Draw3DRectangle and Tk_Free3DBorder. If an error prevented * the border from being created then NULL is returned and an error * message will be left in the interp's result. * * Side effects: * The border is added to an internal database with a reference * count. For each call to this procedure, there should eventually * be a call to FreeBorderObjProc so that the database is * cleaned up when borders aren't in use anymore. * *---------------------------------------------------------------------- */ Tk_3DBorder Tk_Alloc3DBorderFromObj(interp, tkwin, objPtr) Tcl_Interp *interp; /* Interp for error results. */ Tk_Window tkwin; /* Need the screen the border is used on.*/ Tcl_Obj *objPtr; /* Object giving name of color for window * background. */ { TkBorder *borderPtr; if (objPtr->typePtr != &tkBorderObjType) { InitBorderObj(objPtr); } borderPtr = (TkBorder *) objPtr->internalRep.twoPtrValue.ptr1; /* * If the object currently points to a TkBorder, see if it's the * one we want. If so, increment its reference count and return. */ if (borderPtr != NULL) { if (borderPtr->resourceRefCount == 0) { /* * This is a stale reference: it refers to a border that's * no longer in use. Clear the reference. */ FreeBorderObjProc(objPtr); borderPtr = NULL; } else if ((Tk_Screen(tkwin) == borderPtr->screen) && (Tk_Colormap(tkwin) == borderPtr->colormap)) { borderPtr->resourceRefCount++; return (Tk_3DBorder) borderPtr; } } /* * The object didn't point to the border that we wanted. Search * the list of borders with the same name to see if one of the * others is the right one. */ /* * If the cached value is NULL, either the object type was not a * color going in, or the object is a color type but had * previously been freed. * * If the value is not NULL, the internal rep is the value * of the color the last time this object was accessed. Check * the screen and colormap of the last access, and if they * match, we are done. */ if (borderPtr != NULL) { TkBorder *firstBorderPtr = (TkBorder *) Tcl_GetHashValue(borderPtr->hashPtr); FreeBorderObjProc(objPtr); for (borderPtr = firstBorderPtr ; borderPtr != NULL; borderPtr = borderPtr->nextPtr) { if ((Tk_Screen(tkwin) == borderPtr->screen) && (Tk_Colormap(tkwin) == borderPtr->colormap)) { borderPtr->resourceRefCount++; borderPtr->objRefCount++; objPtr->internalRep.twoPtrValue.ptr1 = (VOID *) borderPtr; return (Tk_3DBorder) borderPtr; } } } /* * Still no luck. Call Tk_Get3DBorder to allocate a new border. */ borderPtr = (TkBorder *) Tk_Get3DBorder(interp, tkwin, Tcl_GetString(objPtr)); objPtr->internalRep.twoPtrValue.ptr1 = (VOID *) borderPtr; if (borderPtr != NULL) { borderPtr->objRefCount++; } return (Tk_3DBorder) borderPtr; } /* *-------------------------------------------------------------- * * Tk_Get3DBorder -- * * Create a data structure for displaying a 3-D border. * * Results: * The return value is a token for a data structure describing a * 3-D border. This token may be passed to procedures such as * Tk_Draw3DRectangle and Tk_Free3DBorder. If an error prevented * the border from being created then NULL is returned and an error * message will be left in the interp's result. * * Side effects: * Data structures, graphics contexts, etc. are allocated. * It is the caller's responsibility to eventually call * Tk_Free3DBorder to release the resources. * *-------------------------------------------------------------- */ Tk_3DBorder Tk_Get3DBorder(interp, tkwin, colorName) Tcl_Interp *interp; /* Place to store an error message. */ Tk_Window tkwin; /* Token for window in which border will * be drawn. */ Tk_Uid colorName; /* String giving name of color * for window background. */ { Tcl_HashEntry *hashPtr; TkBorder *borderPtr, *existingBorderPtr; int new; XGCValues gcValues; XColor *bgColorPtr; TkDisplay *dispPtr; dispPtr = ((TkWindow *) tkwin)->dispPtr; if (!dispPtr->borderInit) { BorderInit(dispPtr); } hashPtr = Tcl_CreateHashEntry(&dispPtr->borderTable, colorName, &new); if (!new) { existingBorderPtr = (TkBorder *) Tcl_GetHashValue(hashPtr); for (borderPtr = existingBorderPtr; borderPtr != NULL; borderPtr = borderPtr->nextPtr) { if ((Tk_Screen(tkwin) == borderPtr->screen) && (Tk_Colormap(tkwin) == borderPtr->colormap)) { borderPtr->resourceRefCount++; return (Tk_3DBorder) borderPtr; } } } else { existingBorderPtr = NULL; } /* * No satisfactory border exists yet. Initialize a new one. */ bgColorPtr = Tk_GetColor(interp, tkwin, colorName); if (bgColorPtr == NULL) { if (new) { Tcl_DeleteHashEntry(hashPtr); } return NULL; } borderPtr = TkpGetBorder(); borderPtr->screen = Tk_Screen(tkwin); borderPtr->visual = Tk_Visual(tkwin); borderPtr->depth = Tk_Depth(tkwin); borderPtr->colormap = Tk_Colormap(tkwin); borderPtr->resourceRefCount = 1; borderPtr->objRefCount = 0; borderPtr->bgColorPtr = bgColorPtr; borderPtr->darkColorPtr = NULL; borderPtr->lightColorPtr = NULL; borderPtr->shadow = None; borderPtr->bgGC = None; borderPtr->darkGC = None; borderPtr->lightGC = None; borderPtr->hashPtr = hashPtr; borderPtr->nextPtr = existingBorderPtr; Tcl_SetHashValue(hashPtr, borderPtr); /* * Create the information for displaying the background color, * but delay the allocation of shadows until they are actually * needed for drawing. */ gcValues.foreground = borderPtr->bgColorPtr->pixel; borderPtr->bgGC = Tk_GetGC(tkwin, GCForeground, &gcValues); return (Tk_3DBorder) borderPtr; } /* *-------------------------------------------------------------- * * Tk_Draw3DRectangle -- * * Draw a 3-D border at a given place in a given window. * * Results: * None. * * Side effects: * A 3-D border will be drawn in the indicated drawable. * The outside edges of the border will be determined by x, * y, width, and height. The inside edges of the border * will be determined by the borderWidth argument. * *-------------------------------------------------------------- */ void Tk_Draw3DRectangle(tkwin, drawable, border, x, y, width, height, borderWidth, relief) Tk_Window tkwin; /* Window for which border was allocated. */ Drawable drawable; /* X window or pixmap in which to draw. */ Tk_3DBorder border; /* Token for border to draw. */ int x, y, width, height; /* Outside area of region in * which border will be drawn. */ int borderWidth; /* Desired width for border, in * pixels. */ int relief; /* Type of relief: TK_RELIEF_RAISED, * TK_RELIEF_SUNKEN, TK_RELIEF_GROOVE, etc. */ { if (width < 2*borderWidth) { borderWidth = width/2; } if (height < 2*borderWidth) { borderWidth = height/2; } Tk_3DVerticalBevel(tkwin, drawable, border, x, y, borderWidth, height, 1, relief); Tk_3DVerticalBevel(tkwin, drawable, border, x+width-borderWidth, y, borderWidth, height, 0, relief); Tk_3DHorizontalBevel(tkwin, drawable, border, x, y, width, borderWidth, 1, 1, 1, relief); Tk_3DHorizontalBevel(tkwin, drawable, border, x, y+height-borderWidth, width, borderWidth, 0, 0, 0, relief); } /* *-------------------------------------------------------------- * * Tk_NameOf3DBorder -- * * Given a border, return a textual string identifying the * border's color. * * Results: * The return value is the string that was used to create * the border. * * Side effects: * None. * *-------------------------------------------------------------- */ CONST char * Tk_NameOf3DBorder(border) Tk_3DBorder border; /* Token for border. */ { TkBorder *borderPtr = (TkBorder *) border; return borderPtr->hashPtr->key.string; } /* *-------------------------------------------------------------------- * * Tk_3DBorderColor -- * * Given a 3D border, return the X color used for the "flat" * surfaces. * * Results: * Returns the color used drawing flat surfaces with the border. * * Side effects: * None. * *-------------------------------------------------------------------- */ XColor * Tk_3DBorderColor(border) Tk_3DBorder border; /* Border whose color is wanted. */ { return(((TkBorder *) border)->bgColorPtr); } /* *-------------------------------------------------------------------- * * Tk_3DBorderGC -- * * Given a 3D border, returns one of the graphics contexts used to * draw the border. * * Results: * Returns the graphics context given by the "which" argument. * * Side effects: * None. * *-------------------------------------------------------------------- */ GC Tk_3DBorderGC(tkwin, border, which) Tk_Window tkwin; /* Window for which border was allocated. */ Tk_3DBorder border; /* Border whose GC is wanted. */ int which; /* Selects one of the border's 3 GC's: * TK_3D_FLAT_GC, TK_3D_LIGHT_GC, or * TK_3D_DARK_GC. */ { TkBorder * borderPtr = (TkBorder *) border; if ((borderPtr->lightGC == None) && (which != TK_3D_FLAT_GC)) { TkpGetShadows(borderPtr, tkwin); } if (which == TK_3D_FLAT_GC) { return borderPtr->bgGC; } else if (which == TK_3D_LIGHT_GC) { return borderPtr->lightGC; } else if (which == TK_3D_DARK_GC){ return borderPtr->darkGC; } panic("bogus \"which\" value in Tk_3DBorderGC"); /* * The code below will never be executed, but it's needed to * keep compilers happy. */ return (GC) None; } /* *-------------------------------------------------------------- * * Tk_Free3DBorder -- * * This procedure is called when a 3D border is no longer * needed. It frees the resources associated with the * border. After this call, the caller should never again * use the "border" token. * * Results: * None. * * Side effects: * Resources are freed. * *-------------------------------------------------------------- */ void Tk_Free3DBorder(border) Tk_3DBorder border; /* Token for border to be released. */ { TkBorder *borderPtr = (TkBorder *) border; Display *display = DisplayOfScreen(borderPtr->screen); TkBorder *prevPtr; borderPtr->resourceRefCount--; if (borderPtr->resourceRefCount > 0) { return; } prevPtr = (TkBorder *) Tcl_GetHashValue(borderPtr->hashPtr); TkpFreeBorder(borderPtr); if (borderPtr->bgColorPtr != NULL) { Tk_FreeColor(borderPtr->bgColorPtr); } if (borderPtr->darkColorPtr != NULL) { Tk_FreeColor(borderPtr->darkColorPtr); } if (borderPtr->lightColorPtr != NULL) { Tk_FreeColor(borderPtr->lightColorPtr); } if (borderPtr->shadow != None) { Tk_FreeBitmap(display, borderPtr->shadow); } if (borderPtr->bgGC != None) { Tk_FreeGC(display, borderPtr->bgGC); } if (borderPtr->darkGC != None) { Tk_FreeGC(display, borderPtr->darkGC); } if (borderPtr->lightGC != None) { Tk_FreeGC(display, borderPtr->lightGC); } if (prevPtr == borderPtr) { if (borderPtr->nextPtr == NULL) { Tcl_DeleteHashEntry(borderPtr->hashPtr); } else { Tcl_SetHashValue(borderPtr->hashPtr, borderPtr->nextPtr); } } else { while (prevPtr->nextPtr != borderPtr) { prevPtr = prevPtr->nextPtr; } prevPtr->nextPtr = borderPtr->nextPtr; } if (borderPtr->objRefCount == 0) { ckfree((char *) borderPtr); } } /* *---------------------------------------------------------------------- * * Tk_Free3DBorderFromObj -- * * This procedure is called to release a border allocated by * Tk_Alloc3DBorderFromObj. It does not throw away the Tcl_Obj *; * it only gets rid of the hash table entry for this border * and clears the cached value that is normally stored in the object. * * Results: * None. * * Side effects: * The reference count associated with the border represented by * objPtr is decremented, and the border's resources are released * to X if there are no remaining uses for it. * *---------------------------------------------------------------------- */ void Tk_Free3DBorderFromObj(tkwin, objPtr) Tk_Window tkwin; /* The window this border lives in. Needed * for the screen and colormap values. */ Tcl_Obj *objPtr; /* The Tcl_Obj * to be freed. */ { Tk_Free3DBorder(Tk_Get3DBorderFromObj(tkwin, objPtr)); FreeBorderObjProc(objPtr); } /* *--------------------------------------------------------------------------- * * FreeBorderObjProc -- * * This proc is called to release an object reference to a border. * Called when the object's internal rep is released or when * the cached borderPtr needs to be changed. * * Results: * None. * * Side effects: * The object reference count is decremented. When both it * and the hash ref count go to zero, the border's resources * are released. * *--------------------------------------------------------------------------- */ static void FreeBorderObjProc(objPtr) Tcl_Obj *objPtr; /* The object we are releasing. */ { TkBorder *borderPtr = (TkBorder *) objPtr->internalRep.twoPtrValue.ptr1; if (borderPtr != NULL) { borderPtr->objRefCount--; if ((borderPtr->objRefCount == 0) && (borderPtr->resourceRefCount == 0)) { ckfree((char *) borderPtr); } objPtr->internalRep.twoPtrValue.ptr1 = (VOID *) NULL; } } /* *--------------------------------------------------------------------------- * * DupBorderObjProc -- * * When a cached border object is duplicated, this is called to * update the internal reps. * * Results: * None. * * Side effects: * The border's objRefCount is incremented and the internal rep * of the copy is set to point to it. * *--------------------------------------------------------------------------- */ static void DupBorderObjProc(srcObjPtr, dupObjPtr) Tcl_Obj *srcObjPtr; /* The object we are copying from. */ Tcl_Obj *dupObjPtr; /* The object we are copying to. */ { TkBorder *borderPtr = (TkBorder *) srcObjPtr->internalRep.twoPtrValue.ptr1; dupObjPtr->typePtr = srcObjPtr->typePtr; dupObjPtr->internalRep.twoPtrValue.ptr1 = (VOID *) borderPtr; if (borderPtr != NULL) { borderPtr->objRefCount++; } } /* *---------------------------------------------------------------------- * * Tk_SetBackgroundFromBorder -- * * Change the background of a window to one appropriate for a given * 3-D border. * * Results: * None. * * Side effects: * Tkwin's background gets modified. * *---------------------------------------------------------------------- */ void Tk_SetBackgroundFromBorder(tkwin, border) Tk_Window tkwin; /* Window whose background is to be set. */ Tk_3DBorder border; /* Token for border. */ { register TkBorder *borderPtr = (TkBorder *) border; Tk_SetWindowBackground(tkwin, borderPtr->bgColorPtr->pixel); } /* *---------------------------------------------------------------------- * * Tk_GetReliefFromObj -- * * Return an integer value based on the value of the objPtr. * * Results: * The return value is a standard Tcl result. If an error occurs during * conversion, an error message is left in the interpreter's result * unless "interp" is NULL. * * Side effects: * The object gets converted by Tcl_GetIndexFromObj. * *---------------------------------------------------------------------- */ int Tk_GetReliefFromObj(interp, objPtr, resultPtr) Tcl_Interp *interp; /* Used for error reporting. */ Tcl_Obj *objPtr; /* The object we are trying to get the * value from. */ int *resultPtr; /* Where to place the answer. */ { return Tcl_GetIndexFromObj(interp, objPtr, reliefStrings, "relief", 0, resultPtr); } /* *---------------------------------------------------------------------- * * Tk_GetRelief -- * * Parse a relief description and return the corresponding * relief value, or an error. * * Results: * A standard Tcl return value. If all goes well then * *reliefPtr is filled in with one of the values * TK_RELIEF_RAISED, TK_RELIEF_FLAT, or TK_RELIEF_SUNKEN. * * Side effects: * None. * *---------------------------------------------------------------------- */ int Tk_GetRelief(interp, name, reliefPtr) Tcl_Interp *interp; /* For error messages. */ CONST char *name; /* Name of a relief type. */ int *reliefPtr; /* Where to store converted relief. */ { char c; size_t length; c = name[0]; length = strlen(name); if ((c == 'f') && (strncmp(name, "flat", length) == 0)) { *reliefPtr = TK_RELIEF_FLAT; } else if ((c == 'g') && (strncmp(name, "groove", length) == 0) && (length >= 2)) { *reliefPtr = TK_RELIEF_GROOVE; } else if ((c == 'r') && (strncmp(name, "raised", length) == 0) && (length >= 2)) { *reliefPtr = TK_RELIEF_RAISED; } else if ((c == 'r') && (strncmp(name, "ridge", length) == 0)) { *reliefPtr = TK_RELIEF_RIDGE; } else if ((c == 's') && (strncmp(name, "solid", length) == 0)) { *reliefPtr = TK_RELIEF_SOLID; } else if ((c == 's') && (strncmp(name, "sunken", length) == 0)) { *reliefPtr = TK_RELIEF_SUNKEN; } else { char buf[200]; sprintf(buf, "bad relief type \"%.50s\": must be %s", name, "flat, groove, raised, ridge, solid, or sunken"); Tcl_SetResult(interp, buf, TCL_VOLATILE); return TCL_ERROR; } return TCL_OK; } /* *-------------------------------------------------------------- * * Tk_NameOfRelief -- * * Given a relief value, produce a string describing that * relief value. * * Results: * The return value is a static string that is equivalent * to relief. * * Side effects: * None. * *-------------------------------------------------------------- */ CONST char * Tk_NameOfRelief(relief) int relief; /* One of TK_RELIEF_FLAT, TK_RELIEF_RAISED, * or TK_RELIEF_SUNKEN. */ { if (relief == TK_RELIEF_FLAT) { return "flat"; } else if (relief == TK_RELIEF_SUNKEN) { return "sunken"; } else if (relief == TK_RELIEF_RAISED) { return "raised"; } else if (relief == TK_RELIEF_GROOVE) { return "groove"; } else if (relief == TK_RELIEF_RIDGE) { return "ridge"; } else if (relief == TK_RELIEF_SOLID) { return "solid"; } else if (relief == TK_RELIEF_NULL) { return ""; } else { return "unknown relief"; } } /* *-------------------------------------------------------------- * * Tk_Draw3DPolygon -- * * Draw a border with 3-D appearance around the edge of a * given polygon. * * Results: * None. * * Side effects: * Information is drawn in "drawable" in the form of a * 3-D border borderWidth units width wide on the left * of the trajectory given by pointPtr and numPoints (or * -borderWidth units wide on the right side, if borderWidth * is negative). * *-------------------------------------------------------------- */ void Tk_Draw3DPolygon(tkwin, drawable, border, pointPtr, numPoints, borderWidth, leftRelief) Tk_Window tkwin; /* Window for which border was allocated. */ Drawable drawable; /* X window or pixmap in which to draw. */ Tk_3DBorder border; /* Token for border to draw. */ XPoint *pointPtr; /* Array of points describing * polygon. All points must be * absolute (CoordModeOrigin). */ int numPoints; /* Number of points at *pointPtr. */ int borderWidth; /* Width of border, measured in * pixels to the left of the polygon's * trajectory. May be negative. */ int leftRelief; /* TK_RELIEF_RAISED or * TK_RELIEF_SUNKEN: indicates how * stuff to left of trajectory looks * relative to stuff on right. */ { XPoint poly[4], b1, b2, newB1, newB2; XPoint perp, c, shift1, shift2; /* Used for handling parallel lines. */ register XPoint *p1Ptr, *p2Ptr; TkBorder *borderPtr = (TkBorder *) border; GC gc; int i, lightOnLeft, dx, dy, parallel, pointsSeen; Display *display = Tk_Display(tkwin); if (borderPtr->lightGC == None) { TkpGetShadows(borderPtr, tkwin); } /* * Handle grooves and ridges with recursive calls. */ if ((leftRelief == TK_RELIEF_GROOVE) || (leftRelief == TK_RELIEF_RIDGE)) { int halfWidth; halfWidth = borderWidth/2; Tk_Draw3DPolygon(tkwin, drawable, border, pointPtr, numPoints, halfWidth, (leftRelief == TK_RELIEF_GROOVE) ? TK_RELIEF_RAISED : TK_RELIEF_SUNKEN); Tk_Draw3DPolygon(tkwin, drawable, border, pointPtr, numPoints, -halfWidth, (leftRelief == TK_RELIEF_GROOVE) ? TK_RELIEF_SUNKEN : TK_RELIEF_RAISED); return; } /* * If the polygon is already closed, drop the last point from it * (we'll close it automatically). */ p1Ptr = &pointPtr[numPoints-1]; p2Ptr = &pointPtr[0]; if ((p1Ptr->x == p2Ptr->x) && (p1Ptr->y == p2Ptr->y)) { numPoints--; } /* * The loop below is executed once for each vertex in the polgon. * At the beginning of each iteration things look like this: * * poly[1] / * * / * | / * b1 * poly[0] (pointPtr[i-1]) * | | * | | * | | * | | * | | * | | *p1Ptr *p2Ptr * b2 *--------------------* * | * | * x------------------------- * * The job of this iteration is to do the following: * (a) Compute x (the border corner corresponding to * pointPtr[i]) and put it in poly[2]. As part of * this, compute a new b1 and b2 value for the next * side of the polygon. * (b) Put pointPtr[i] into poly[3]. * (c) Draw the polygon given by poly[0..3]. * (d) Advance poly[0], poly[1], b1, and b2 for the * next side of the polygon. */ /* * The above situation doesn't first come into existence until * two points have been processed; the first two points are * used to "prime the pump", so some parts of the processing * are ommitted for these points. The variable "pointsSeen" * keeps track of the priming process; it has to be separate * from i in order to be able to ignore duplicate points in the * polygon. */ pointsSeen = 0; for (i = -2, p1Ptr = &pointPtr[numPoints-2], p2Ptr = p1Ptr+1; i < numPoints; i++, p1Ptr = p2Ptr, p2Ptr++) { if ((i == -1) || (i == numPoints-1)) { p2Ptr = pointPtr; } if ((p2Ptr->x == p1Ptr->x) && (p2Ptr->y == p1Ptr->y)) { /* * Ignore duplicate points (they'd cause core dumps in * ShiftLine calls below). */ continue; } ShiftLine(p1Ptr, p2Ptr, borderWidth, &newB1); newB2.x = newB1.x + (p2Ptr->x - p1Ptr->x); newB2.y = newB1.y + (p2Ptr->y - p1Ptr->y); poly[3] = *p1Ptr; parallel = 0; if (pointsSeen >= 1) { parallel = Intersect(&newB1, &newB2, &b1, &b2, &poly[2]); /* * If two consecutive segments of the polygon are parallel, * then things get more complex. Consider the following * diagram: * * poly[1] * *----b1-----------b2------a * \ * \ * *---------*----------* b * poly[0] *p2Ptr *p1Ptr / * / * --*--------*----c * newB1 newB2 * * Instead of using x and *p1Ptr for poly[2] and poly[3], as * in the original diagram, use a and b as above. Then instead * of using x and *p1Ptr for the new poly[0] and poly[1], use * b and c as above. * * Do the computation in three stages: * 1. Compute a point "perp" such that the line p1Ptr-perp * is perpendicular to p1Ptr-p2Ptr. * 2. Compute the points a and c by intersecting the lines * b1-b2 and newB1-newB2 with p1Ptr-perp. * 3. Compute b by shifting p1Ptr-perp to the right and * intersecting it with p1Ptr-p2Ptr. */ if (parallel) { perp.x = p1Ptr->x + (p2Ptr->y - p1Ptr->y); perp.y = p1Ptr->y - (p2Ptr->x - p1Ptr->x); (void) Intersect(p1Ptr, &perp, &b1, &b2, &poly[2]); (void) Intersect(p1Ptr, &perp, &newB1, &newB2, &c); ShiftLine(p1Ptr, &perp, borderWidth, &shift1); shift2.x = shift1.x + (perp.x - p1Ptr->x); shift2.y = shift1.y + (perp.y - p1Ptr->y); (void) Intersect(p1Ptr, p2Ptr, &shift1, &shift2, &poly[3]); } } if (pointsSeen >= 2) { dx = poly[3].x - poly[0].x; dy = poly[3].y - poly[0].y; if (dx > 0) { lightOnLeft = (dy <= dx); } else { lightOnLeft = (dy < dx); } if (lightOnLeft ^ (leftRelief == TK_RELIEF_RAISED)) { gc = borderPtr->lightGC; } else { gc = borderPtr->darkGC; } XFillPolygon(display, drawable, gc, poly, 4, Convex, CoordModeOrigin); } b1.x = newB1.x; b1.y = newB1.y; b2.x = newB2.x; b2.y = newB2.y; poly[0].x = poly[3].x; poly[0].y = poly[3].y; if (parallel) { poly[1].x = c.x; poly[1].y = c.y; } else if (pointsSeen >= 1) { poly[1].x = poly[2].x; poly[1].y = poly[2].y; } pointsSeen++; } } /* *---------------------------------------------------------------------- * * Tk_Fill3DRectangle -- * * Fill a rectangular area, supplying a 3D border if desired. * * Results: * None. * * Side effects: * Information gets drawn on the screen. * *---------------------------------------------------------------------- */ void Tk_Fill3DRectangle(tkwin, drawable, border, x, y, width, height, borderWidth, relief) Tk_Window tkwin; /* Window for which border was allocated. */ Drawable drawable; /* X window or pixmap in which to draw. */ Tk_3DBorder border; /* Token for border to draw. */ int x, y, width, height; /* Outside area of rectangular region. */ int borderWidth; /* Desired width for border, in * pixels. Border will be *inside* region. */ int relief; /* Indicates 3D effect: TK_RELIEF_FLAT, * TK_RELIEF_RAISED, or TK_RELIEF_SUNKEN. */ { register TkBorder *borderPtr = (TkBorder *) border; int doubleBorder; /* * This code is slightly tricky because it only draws the background * in areas not covered by the 3D border. This avoids flashing * effects on the screen for the border region. */ if (relief == TK_RELIEF_FLAT) { borderWidth = 0; } else { /* * We need to make this extra check, otherwise we will leave * garbage in thin frames [Bug: 3596] */ if (width < 2*borderWidth) { borderWidth = width/2; } if (height < 2*borderWidth) { borderWidth = height/2; } } doubleBorder = 2*borderWidth; if ((width > doubleBorder) && (height > doubleBorder)) { XFillRectangle(Tk_Display(tkwin), drawable, borderPtr->bgGC, x + borderWidth, y + borderWidth, (unsigned int) (width - doubleBorder), (unsigned int) (height - doubleBorder)); } if (borderWidth) { Tk_Draw3DRectangle(tkwin, drawable, border, x, y, width, height, borderWidth, relief); } } /* *---------------------------------------------------------------------- * * Tk_Fill3DPolygon -- * * Fill a polygonal area, supplying a 3D border if desired. * * Results: * None. * * Side effects: * Information gets drawn on the screen. * *---------------------------------------------------------------------- */ void Tk_Fill3DPolygon(tkwin, drawable, border, pointPtr, numPoints, borderWidth, leftRelief) Tk_Window tkwin; /* Window for which border was allocated. */ Drawable drawable; /* X window or pixmap in which to draw. */ Tk_3DBorder border; /* Token for border to draw. */ XPoint *pointPtr; /* Array of points describing * polygon. All points must be * absolute (CoordModeOrigin). */ int numPoints; /* Number of points at *pointPtr. */ int borderWidth; /* Width of border, measured in * pixels to the left of the polygon's * trajectory. May be negative. */ int leftRelief; /* Indicates 3D effect of left side of * trajectory relative to right: * TK_RELIEF_FLAT, TK_RELIEF_RAISED, * or TK_RELIEF_SUNKEN. */ { register TkBorder *borderPtr = (TkBorder *) border; XFillPolygon(Tk_Display(tkwin), drawable, borderPtr->bgGC, pointPtr, numPoints, Complex, CoordModeOrigin); if (leftRelief != TK_RELIEF_FLAT) { Tk_Draw3DPolygon(tkwin, drawable, border, pointPtr, numPoints, borderWidth, leftRelief); } } /* *-------------------------------------------------------------- * * BorderInit -- * * Initialize the structures used for border management. * * Results: * None. * * Side effects: * Read the code. * *------------------------------------------------------------- */ static void BorderInit(dispPtr) TkDisplay * dispPtr; /* Used to access thread-specific data. */ { dispPtr->borderInit = 1; Tcl_InitHashTable(&dispPtr->borderTable, TCL_STRING_KEYS); } /* *-------------------------------------------------------------- * * ShiftLine -- * * Given two points on a line, compute a point on a * new line that is parallel to the given line and * a given distance away from it. * * Results: * None. * * Side effects: * None. * *-------------------------------------------------------------- */ static void ShiftLine(p1Ptr, p2Ptr, distance, p3Ptr) XPoint *p1Ptr; /* First point on line. */ XPoint *p2Ptr; /* Second point on line. */ int distance; /* New line is to be this many * units to the left of original * line, when looking from p1 to * p2. May be negative. */ XPoint *p3Ptr; /* Store coords of point on new * line here. */ { int dx, dy, dxNeg, dyNeg; /* * The table below is used for a quick approximation in * computing the new point. An index into the table * is 128 times the slope of the original line (the slope * must always be between 0 and 1). The value of the table * entry is 128 times the amount to displace the new line * in y for each unit of perpendicular distance. In other * words, the table maps from the tangent of an angle to * the inverse of its cosine. If the slope of the original * line is greater than 1, then the displacement is done in * x rather than in y. */ static int shiftTable[129]; /* * Initialize the table if this is the first time it is * used. */ if (shiftTable[0] == 0) { int i; double tangent, cosine; for (i = 0; i <= 128; i++) { tangent = i/128.0; cosine = 128/cos(atan(tangent)) + .5; shiftTable[i] = (int) cosine; } } *p3Ptr = *p1Ptr; dx = p2Ptr->x - p1Ptr->x; dy = p2Ptr->y - p1Ptr->y; if (dy < 0) { dyNeg = 1; dy = -dy; } else { dyNeg = 0; } if (dx < 0) { dxNeg = 1; dx = -dx; } else { dxNeg = 0; } if (dy <= dx) { dy = ((distance * shiftTable[(dy<<7)/dx]) + 64) >> 7; if (!dxNeg) { dy = -dy; } p3Ptr->y += dy; } else { dx = ((distance * shiftTable[(dx<<7)/dy]) + 64) >> 7; if (dyNeg) { dx = -dx; } p3Ptr->x += dx; } } /* *-------------------------------------------------------------- * * Intersect -- * * Find the intersection point between two lines. * * Results: * Under normal conditions 0 is returned and the point * at *iPtr is filled in with the intersection between * the two lines. If the two lines are parallel, then * -1 is returned and *iPtr isn't modified. * * Side effects: * None. * *-------------------------------------------------------------- */ static int Intersect(a1Ptr, a2Ptr, b1Ptr, b2Ptr, iPtr) XPoint *a1Ptr; /* First point of first line. */ XPoint *a2Ptr; /* Second point of first line. */ XPoint *b1Ptr; /* First point of second line. */ XPoint *b2Ptr; /* Second point of second line. */ XPoint *iPtr; /* Filled in with intersection point. */ { int dxadyb, dxbdya, dxadxb, dyadyb, p, q; /* * The code below is just a straightforward manipulation of two * equations of the form y = (x-x1)*(y2-y1)/(x2-x1) + y1 to solve * for the x-coordinate of intersection, then the y-coordinate. */ dxadyb = (a2Ptr->x - a1Ptr->x)*(b2Ptr->y - b1Ptr->y); dxbdya = (b2Ptr->x - b1Ptr->x)*(a2Ptr->y - a1Ptr->y); dxadxb = (a2Ptr->x - a1Ptr->x)*(b2Ptr->x - b1Ptr->x); dyadyb = (a2Ptr->y - a1Ptr->y)*(b2Ptr->y - b1Ptr->y); if (dxadyb == dxbdya) { return -1; } p = (a1Ptr->x*dxbdya - b1Ptr->x*dxadyb + (b1Ptr->y - a1Ptr->y)*dxadxb); q = dxbdya - dxadyb; if (q < 0) { p = -p; q = -q; } if (p < 0) { iPtr->x = - ((-p + q/2)/q); } else { iPtr->x = (p + q/2)/q; } p = (a1Ptr->y*dxadyb - b1Ptr->y*dxbdya + (b1Ptr->x - a1Ptr->x)*dyadyb); q = dxadyb - dxbdya; if (q < 0) { p = -p; q = -q; } if (p < 0) { iPtr->y = - ((-p + q/2)/q); } else { iPtr->y = (p + q/2)/q; } return 0; } /* *---------------------------------------------------------------------- * * Tk_Get3DBorderFromObj -- * * Returns the border referred to by a Tcl object. The border must * already have been allocated via a call to Tk_Alloc3DBorderFromObj * or Tk_Get3DBorder. * * Results: * Returns the Tk_3DBorder that matches the tkwin and the string rep * of the name of the border given in objPtr. * * Side effects: * If the object is not already a border, the conversion will free * any old internal representation. * *---------------------------------------------------------------------- */ Tk_3DBorder Tk_Get3DBorderFromObj(tkwin, objPtr) Tk_Window tkwin; Tcl_Obj *objPtr; /* The object whose string value selects * a border. */ { TkBorder *borderPtr = NULL; Tcl_HashEntry *hashPtr; TkDisplay *dispPtr = ((TkWindow *) tkwin)->dispPtr; if (objPtr->typePtr != &tkBorderObjType) { InitBorderObj(objPtr); } /* * If we are lucky (and the user doesn't use too many different * displays, screens, or colormaps...) then the TkBorder * structure we need will be cached in the internal * representation of the Tcl_Obj. Check it out... */ borderPtr = (TkBorder *) objPtr->internalRep.twoPtrValue.ptr1; if ((borderPtr != NULL) && (borderPtr->resourceRefCount > 0) && (Tk_Screen(tkwin) == borderPtr->screen) && (Tk_Colormap(tkwin) == borderPtr->colormap)) { /* * The object already points to the right border structure. * Just return it. */ return (Tk_3DBorder) borderPtr; } /* * If we make it here, it means we aren't so lucky. Either there * was no cached TkBorder in the Tcl_Obj, or the TkBorder that was * there is for the wrong screen/colormap. Either way, we have * to search for the right TkBorder. For each color name, there is * linked list of TkBorder structures, one structure for each * screen/colormap combination. The head of the linked list is * recorded in a hash table (where the key is the color name) * attached to the TkDisplay structure. Walk this list to find * the right TkBorder structure. */ hashPtr = Tcl_FindHashEntry(&dispPtr->borderTable, Tcl_GetString(objPtr)); if (hashPtr == NULL) { goto error; } for (borderPtr = (TkBorder *) Tcl_GetHashValue(hashPtr); (borderPtr != NULL); borderPtr = borderPtr->nextPtr) { if ((Tk_Screen(tkwin) == borderPtr->screen) && (Tk_Colormap(tkwin) == borderPtr->colormap)) { FreeBorderObjProc(objPtr); objPtr->internalRep.twoPtrValue.ptr1 = (VOID *) borderPtr; borderPtr->objRefCount++; return (Tk_3DBorder) borderPtr; } } error: panic("Tk_Get3DBorderFromObj called with non-existent border!"); /* * The following code isn't reached; it's just there to please compilers. */ return NULL; } /* *---------------------------------------------------------------------- * * InitBorderObj -- * * Attempt to generate a border internal form for the Tcl object * "objPtr". * * Results: * The return value is a standard Tcl result. If an error occurs during * conversion, an error message is left in the interpreter's result * unless "interp" is NULL. * * Side effects: * If no error occurs, a blank internal format for a border value * is intialized. The final form cannot be done without a Tk_Window. * *---------------------------------------------------------------------- */ static void InitBorderObj(objPtr) Tcl_Obj *objPtr; /* The object to convert. */ { Tcl_ObjType *typePtr; /* * Free the old internalRep before setting the new one. */ Tcl_GetString(objPtr); typePtr = objPtr->typePtr; if ((typePtr != NULL) && (typePtr->freeIntRepProc != NULL)) { (*typePtr->freeIntRepProc)(objPtr); } objPtr->typePtr = &tkBorderObjType; objPtr->internalRep.twoPtrValue.ptr1 = (VOID *) NULL; } /* *---------------------------------------------------------------------- * * TkDebugBorder -- * * This procedure returns debugging information about a border. * * Results: * The return value is a list with one sublist for each TkBorder * corresponding to "name". Each sublist has two elements that * contain the resourceRefCount and objRefCount fields from the * TkBorder structure. * * Side effects: * None. * *---------------------------------------------------------------------- */ Tcl_Obj * TkDebugBorder(tkwin, name) Tk_Window tkwin; /* The window in which the border will be * used (not currently used). */ char *name; /* Name of the desired color. */ { TkBorder *borderPtr; Tcl_HashEntry *hashPtr; Tcl_Obj *resultPtr, *objPtr; TkDisplay *dispPtr = ((TkWindow *) tkwin)->dispPtr; resultPtr = Tcl_NewObj(); hashPtr = Tcl_FindHashEntry(&dispPtr->borderTable, name); if (hashPtr != NULL) { borderPtr = (TkBorder *) Tcl_GetHashValue(hashPtr); if (borderPtr == NULL) { panic("TkDebugBorder found empty hash table entry"); } for ( ; (borderPtr != NULL); borderPtr = borderPtr->nextPtr) { objPtr = Tcl_NewObj(); Tcl_ListObjAppendElement(NULL, objPtr, Tcl_NewIntObj(borderPtr->resourceRefCount)); Tcl_ListObjAppendElement(NULL, objPtr, Tcl_NewIntObj(borderPtr->objRefCount)); Tcl_ListObjAppendElement(NULL, resultPtr, objPtr); } } return resultPtr; }