/* * tkRectOval.c -- * * This file implements rectangle and oval items for canvas widgets. * * Copyright © 1991-1994 The Regents of the University of California. * Copyright © 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. */ #include "tkInt.h" #include "tkCanvas.h" #include "default.h" /* * The structure below defines the record for each rectangle/oval item. */ typedef struct RectOvalItem { Tk_Item header; /* Generic stuff that's the same for all * types. MUST BE FIRST IN STRUCTURE. */ Tk_Outline outline; /* Outline structure */ double bbox[4]; /* Coordinates of bounding box for rectangle * or oval (x1, y1, x2, y2). Item includes x1 * and x2 but not y1 and y2. */ Tk_TSOffset tsoffset; XColor *fillColor; /* Color for filling rectangle/oval. */ XColor *activeFillColor; /* Color for filling rectangle/oval if state * is active. */ XColor *disabledFillColor; /* Color for filling rectangle/oval if state * is disabled. */ Pixmap fillStipple; /* Stipple bitmap for filling item. */ Pixmap activeFillStipple; /* Stipple bitmap for filling item if state is * active. */ Pixmap disabledFillStipple; /* Stipple bitmap for filling item if state is * disabled. */ GC fillGC; /* Graphics context for filling item. */ } RectOvalItem; /* * Information used for parsing configuration specs: */ static const Tk_CustomOption stateOption = { TkStateParseProc, TkStatePrintProc, INT2PTR(2) }; static const Tk_CustomOption tagsOption = { TkCanvasTagsParseProc, TkCanvasTagsPrintProc, NULL }; static const Tk_CustomOption dashOption = { TkCanvasDashParseProc, TkCanvasDashPrintProc, NULL }; static const Tk_CustomOption offsetOption = { TkOffsetParseProc, TkOffsetPrintProc, INT2PTR(TK_OFFSET_RELATIVE) }; static const Tk_CustomOption pixelOption = { TkPixelParseProc, TkPixelPrintProc, NULL }; static const Tk_ConfigSpec configSpecs[] = { {TK_CONFIG_CUSTOM, "-activedash", NULL, NULL, NULL, offsetof(RectOvalItem, outline.activeDash), TK_CONFIG_NULL_OK, &dashOption}, {TK_CONFIG_COLOR, "-activefill", NULL, NULL, NULL, offsetof(RectOvalItem, activeFillColor), TK_CONFIG_NULL_OK, NULL}, {TK_CONFIG_COLOR, "-activeoutline", NULL, NULL, NULL, offsetof(RectOvalItem, outline.activeColor), TK_CONFIG_NULL_OK, NULL}, {TK_CONFIG_BITMAP, "-activeoutlinestipple", NULL, NULL, NULL, offsetof(RectOvalItem, outline.activeStipple), TK_CONFIG_NULL_OK, NULL}, {TK_CONFIG_BITMAP, "-activestipple", NULL, NULL, NULL, offsetof(RectOvalItem, activeFillStipple), TK_CONFIG_NULL_OK, NULL}, {TK_CONFIG_CUSTOM, "-activewidth", NULL, NULL, "0.0", offsetof(RectOvalItem, outline.activeWidth), TK_CONFIG_DONT_SET_DEFAULT, &pixelOption}, {TK_CONFIG_CUSTOM, "-dash", NULL, NULL, NULL, offsetof(RectOvalItem, outline.dash), TK_CONFIG_NULL_OK, &dashOption}, {TK_CONFIG_PIXELS, "-dashoffset", NULL, NULL, "0", offsetof(RectOvalItem, outline.offset), TK_CONFIG_DONT_SET_DEFAULT, NULL}, {TK_CONFIG_CUSTOM, "-disableddash", NULL, NULL, NULL, offsetof(RectOvalItem, outline.disabledDash), TK_CONFIG_NULL_OK, &dashOption}, {TK_CONFIG_COLOR, "-disabledfill", NULL, NULL, NULL, offsetof(RectOvalItem, disabledFillColor), TK_CONFIG_NULL_OK, NULL}, {TK_CONFIG_COLOR, "-disabledoutline", NULL, NULL, NULL, offsetof(RectOvalItem, outline.disabledColor), TK_CONFIG_NULL_OK, NULL}, {TK_CONFIG_BITMAP, "-disabledoutlinestipple", NULL, NULL, NULL, offsetof(RectOvalItem, outline.disabledStipple), TK_CONFIG_NULL_OK, NULL}, {TK_CONFIG_BITMAP, "-disabledstipple", NULL, NULL, NULL, offsetof(RectOvalItem, disabledFillStipple), TK_CONFIG_NULL_OK, NULL}, {TK_CONFIG_PIXELS, "-disabledwidth", NULL, NULL, "0.0", offsetof(RectOvalItem, outline.disabledWidth), TK_CONFIG_DONT_SET_DEFAULT, &pixelOption}, {TK_CONFIG_COLOR, "-fill", NULL, NULL, NULL, offsetof(RectOvalItem, fillColor), TK_CONFIG_NULL_OK, NULL}, {TK_CONFIG_CUSTOM, "-offset", NULL, NULL, "0,0", offsetof(RectOvalItem, tsoffset), TK_CONFIG_DONT_SET_DEFAULT, &offsetOption}, {TK_CONFIG_COLOR, "-outline", NULL, NULL, DEF_CANVITEM_OUTLINE, offsetof(RectOvalItem, outline.color), TK_CONFIG_NULL_OK, NULL}, {TK_CONFIG_CUSTOM, "-outlineoffset", NULL, NULL, "0,0", offsetof(RectOvalItem, outline.tsoffset), TK_CONFIG_DONT_SET_DEFAULT, &offsetOption}, {TK_CONFIG_BITMAP, "-outlinestipple", NULL, NULL, NULL, offsetof(RectOvalItem, outline.stipple), TK_CONFIG_NULL_OK, NULL}, {TK_CONFIG_CUSTOM, "-state", NULL, NULL, NULL, offsetof(Tk_Item, state),TK_CONFIG_NULL_OK, &stateOption}, {TK_CONFIG_BITMAP, "-stipple", NULL, NULL, NULL, offsetof(RectOvalItem, fillStipple),TK_CONFIG_NULL_OK, NULL}, {TK_CONFIG_CUSTOM, "-tags", NULL, NULL, NULL, 0, TK_CONFIG_NULL_OK, &tagsOption}, {TK_CONFIG_CUSTOM, "-width", NULL, NULL, "1.0", offsetof(RectOvalItem, outline.width), TK_CONFIG_DONT_SET_DEFAULT, &pixelOption}, {TK_CONFIG_END, NULL, NULL, NULL, NULL, 0, 0, NULL} }; /* * Prototypes for functions defined in this file: */ static void ComputeRectOvalBbox(Tk_Canvas canvas, RectOvalItem *rectOvalPtr); static int ConfigureRectOval(Tcl_Interp *interp, Tk_Canvas canvas, Tk_Item *itemPtr, int objc, Tcl_Obj *const objv[], int flags); static int CreateRectOval(Tcl_Interp *interp, Tk_Canvas canvas, Tk_Item *itemPtr, int objc, Tcl_Obj *const objv[]); static void DeleteRectOval(Tk_Canvas canvas, Tk_Item *itemPtr, Display *display); static void DisplayRectOval(Tk_Canvas canvas, Tk_Item *itemPtr, Display *display, Drawable dst, int x, int y, int width, int height); static int OvalToArea(Tk_Canvas canvas, Tk_Item *itemPtr, double *areaPtr); static double OvalToPoint(Tk_Canvas canvas, Tk_Item *itemPtr, double *pointPtr); static int RectOvalCoords(Tcl_Interp *interp, Tk_Canvas canvas, Tk_Item *itemPtr, int objc, Tcl_Obj *const objv[]); static int RectOvalToPostscript(Tcl_Interp *interp, Tk_Canvas canvas, Tk_Item *itemPtr, int prepass); static int RectToArea(Tk_Canvas canvas, Tk_Item *itemPtr, double *areaPtr); static double RectToPoint(Tk_Canvas canvas, Tk_Item *itemPtr, double *pointPtr); static void RotateRectOval(Tk_Canvas canvas, Tk_Item *itemPtr, double originX, double originY, double angleRad); static void ScaleRectOval(Tk_Canvas canvas, Tk_Item *itemPtr, double originX, double originY, double scaleX, double scaleY); static void TranslateRectOval(Tk_Canvas canvas, Tk_Item *itemPtr, double deltaX, double deltaY); /* * The structures below defines the rectangle and oval item types by means of * functions that can be invoked by generic item code. */ Tk_ItemType tkRectangleType = { "rectangle", /* name */ sizeof(RectOvalItem), /* itemSize */ CreateRectOval, /* createProc */ configSpecs, /* configSpecs */ ConfigureRectOval, /* configureProc */ RectOvalCoords, /* coordProc */ DeleteRectOval, /* deleteProc */ DisplayRectOval, /* displayProc */ TK_CONFIG_OBJS, /* flags */ RectToPoint, /* pointProc */ RectToArea, /* areaProc */ RectOvalToPostscript, /* postscriptProc */ ScaleRectOval, /* scaleProc */ TranslateRectOval, /* translateProc */ NULL, /* indexProc */ NULL, /* icursorProc */ NULL, /* selectionProc */ NULL, /* insertProc */ NULL, /* dTextProc */ NULL, /* nextPtr */ RotateRectOval, /* rotateProc */ 0, NULL, NULL }; Tk_ItemType tkOvalType = { "oval", /* name */ sizeof(RectOvalItem), /* itemSize */ CreateRectOval, /* createProc */ configSpecs, /* configSpecs */ ConfigureRectOval, /* configureProc */ RectOvalCoords, /* coordProc */ DeleteRectOval, /* deleteProc */ DisplayRectOval, /* displayProc */ TK_CONFIG_OBJS, /* flags */ OvalToPoint, /* pointProc */ OvalToArea, /* areaProc */ RectOvalToPostscript, /* postscriptProc */ ScaleRectOval, /* scaleProc */ TranslateRectOval, /* translateProc */ NULL, /* indexProc */ NULL, /* cursorProc */ NULL, /* selectionProc */ NULL, /* insertProc */ NULL, /* dTextProc */ NULL, /* nextPtr */ RotateRectOval, /* rotateProc */ 0, NULL, NULL }; /* *-------------------------------------------------------------- * * CreateRectOval -- * * This function is invoked to create a new rectangle or oval item in a * canvas. * * Results: * A standard Tcl return value. If an error occurred in creating the * item, then an error message is left in the interp's result; in this * case itemPtr is left uninitialized, so it can be safely freed by the * caller. * * Side effects: * A new rectangle or oval item is created. * *-------------------------------------------------------------- */ static int CreateRectOval( Tcl_Interp *interp, /* For error reporting. */ Tk_Canvas canvas, /* Canvas to hold new item. */ Tk_Item *itemPtr, /* Record to hold new item; header has been * initialized by caller. */ int objc, /* Number of arguments in objv. */ Tcl_Obj *const objv[]) /* Arguments describing rectangle. */ { RectOvalItem *rectOvalPtr = (RectOvalItem *) itemPtr; int i; if (objc == 0) { Tcl_Panic("canvas did not pass any coords"); } /* * Carry out initialization that is needed in order to clean up after * errors during the the remainder of this function. */ Tk_CreateOutline(&(rectOvalPtr->outline)); rectOvalPtr->tsoffset.flags = 0; rectOvalPtr->tsoffset.xoffset = 0; rectOvalPtr->tsoffset.yoffset = 0; rectOvalPtr->fillColor = NULL; rectOvalPtr->activeFillColor = NULL; rectOvalPtr->disabledFillColor = NULL; rectOvalPtr->fillStipple = None; rectOvalPtr->activeFillStipple = None; rectOvalPtr->disabledFillStipple = None; rectOvalPtr->fillGC = NULL; /* * Process the arguments to fill in the item record. */ for (i = 1; i < objc; i++) { const char *arg = Tcl_GetString(objv[i]); if ((arg[0] == '-') && (arg[1] >= 'a') && (arg[1] <= 'z')) { break; } } if ((RectOvalCoords(interp, canvas, itemPtr, i, objv) != TCL_OK)) { goto error; } if (ConfigureRectOval(interp, canvas, itemPtr, objc-i, objv+i, 0) == TCL_OK) { return TCL_OK; } error: DeleteRectOval(canvas, itemPtr, Tk_Display(Tk_CanvasTkwin(canvas))); return TCL_ERROR; } /* *-------------------------------------------------------------- * * RectOvalCoords -- * * This function is invoked to process the "coords" widget command on * rectangles and ovals. See the user documentation for details on what * it does. * * Results: * Returns TCL_OK or TCL_ERROR, and sets the interp's result. * * Side effects: * The coordinates for the given item may be changed. * *-------------------------------------------------------------- */ static int RectOvalCoords( Tcl_Interp *interp, /* Used for error reporting. */ Tk_Canvas canvas, /* Canvas containing item. */ Tk_Item *itemPtr, /* Item whose coordinates are to be read or * modified. */ int objc, /* Number of coordinates supplied in objv. */ Tcl_Obj *const objv[]) /* Array of coordinates: x1,y1,x2,y2,... */ { RectOvalItem *rectOvalPtr = (RectOvalItem *) itemPtr; /* * If no coordinates, return the current coordinates (i.e. bounding box). */ if (objc == 0) { Tcl_Obj *bbox[4]; bbox[0] = Tcl_NewDoubleObj(rectOvalPtr->bbox[0]); bbox[1] = Tcl_NewDoubleObj(rectOvalPtr->bbox[1]); bbox[2] = Tcl_NewDoubleObj(rectOvalPtr->bbox[2]); bbox[3] = Tcl_NewDoubleObj(rectOvalPtr->bbox[3]); Tcl_SetObjResult(interp, Tcl_NewListObj(4, bbox)); return TCL_OK; } /* * If one "coordinate", treat as list of coordinates. */ if (objc == 1) { if (Tcl_ListObjGetElements(interp, objv[0], &objc, (Tcl_Obj ***) &objv) != TCL_OK) { return TCL_ERROR; } } /* * Better have four coordinates now. Spit out an error message otherwise. */ if (objc != 4) { Tcl_SetObjResult(interp, Tcl_ObjPrintf( "wrong # coordinates: expected 0 or 4, got %d", objc)); Tcl_SetErrorCode(interp, "TK", "CANVAS", "COORDS", (rectOvalPtr->header.typePtr == &tkRectangleType ? "RECTANGLE" : "OVAL"), NULL); return TCL_ERROR; } /* * Parse the coordinates and update our bounding box. */ if ((Tk_CanvasGetCoordFromObj(interp, canvas, objv[0], &rectOvalPtr->bbox[0]) != TCL_OK) || (Tk_CanvasGetCoordFromObj(interp, canvas, objv[1], &rectOvalPtr->bbox[1]) != TCL_OK) || (Tk_CanvasGetCoordFromObj(interp, canvas, objv[2], &rectOvalPtr->bbox[2]) != TCL_OK) || (Tk_CanvasGetCoordFromObj(interp, canvas, objv[3], &rectOvalPtr->bbox[3]) != TCL_OK)) { return TCL_ERROR; } ComputeRectOvalBbox(canvas, rectOvalPtr); return TCL_OK; } /* *-------------------------------------------------------------- * * ConfigureRectOval -- * * This function is invoked to configure various aspects of a rectangle * or oval item, such as its border and background colors. * * Results: * A standard Tcl result code. If an error occurs, then an error message * is left in the interp's result. * * Side effects: * Configuration information, such as colors and stipple patterns, may be * set for itemPtr. * *-------------------------------------------------------------- */ static int ConfigureRectOval( Tcl_Interp *interp, /* Used for error reporting. */ Tk_Canvas canvas, /* Canvas containing itemPtr. */ Tk_Item *itemPtr, /* Rectangle item to reconfigure. */ int objc, /* Number of elements in objv. */ Tcl_Obj *const objv[], /* Arguments describing things to configure. */ int flags) /* Flags to pass to Tk_ConfigureWidget. */ { RectOvalItem *rectOvalPtr = (RectOvalItem *) itemPtr; XGCValues gcValues; GC newGC; unsigned long mask; Tk_Window tkwin; Tk_TSOffset *tsoffset; XColor *color; Pixmap stipple; Tk_State state; tkwin = Tk_CanvasTkwin(canvas); if (TCL_OK != Tk_ConfigureWidget(interp, tkwin, configSpecs, objc, (const char **)objv, (char *) rectOvalPtr, flags|TK_CONFIG_OBJS)) { return TCL_ERROR; } state = itemPtr->state; /* * A few of the options require additional processing, such as graphics * contexts. */ if (rectOvalPtr->outline.activeWidth > rectOvalPtr->outline.width || rectOvalPtr->outline.activeDash.number != 0 || rectOvalPtr->outline.activeColor != NULL || rectOvalPtr->outline.activeStipple != None || rectOvalPtr->activeFillColor != NULL || rectOvalPtr->activeFillStipple != None) { itemPtr->redraw_flags |= TK_ITEM_STATE_DEPENDANT; } else { itemPtr->redraw_flags &= ~TK_ITEM_STATE_DEPENDANT; } tsoffset = &rectOvalPtr->outline.tsoffset; flags = tsoffset->flags; if (flags & TK_OFFSET_LEFT) { tsoffset->xoffset = (int) (rectOvalPtr->bbox[0] + 0.5); } else if (flags & TK_OFFSET_CENTER) { tsoffset->xoffset = (int) ((rectOvalPtr->bbox[0]+rectOvalPtr->bbox[2]+1)/2); } else if (flags & TK_OFFSET_RIGHT) { tsoffset->xoffset = (int) (rectOvalPtr->bbox[2] + 0.5); } if (flags & TK_OFFSET_TOP) { tsoffset->yoffset = (int) (rectOvalPtr->bbox[1] + 0.5); } else if (flags & TK_OFFSET_MIDDLE) { tsoffset->yoffset = (int) ((rectOvalPtr->bbox[1]+rectOvalPtr->bbox[3]+1)/2); } else if (flags & TK_OFFSET_BOTTOM) { tsoffset->yoffset = (int) (rectOvalPtr->bbox[2] + 0.5); } /* * Configure the outline graphics context. If mask is non-zero, the gc has * changed and must be reallocated, provided that the new settings specify * a valid outline (non-zero width and non-NULL color) */ mask = Tk_ConfigOutlineGC(&gcValues, canvas, itemPtr, &(rectOvalPtr->outline)); if (mask && \ rectOvalPtr->outline.width != 0 && \ rectOvalPtr->outline.color != NULL) { gcValues.cap_style = CapProjecting; mask |= GCCapStyle; newGC = Tk_GetGC(tkwin, mask, &gcValues); } else { newGC = NULL; } if (rectOvalPtr->outline.gc != NULL) { Tk_FreeGC(Tk_Display(tkwin), rectOvalPtr->outline.gc); } rectOvalPtr->outline.gc = newGC; if (state == TK_STATE_NULL) { state = Canvas(canvas)->canvas_state; } if (state == TK_STATE_HIDDEN) { ComputeRectOvalBbox(canvas, rectOvalPtr); return TCL_OK; } color = rectOvalPtr->fillColor; stipple = rectOvalPtr->fillStipple; if (Canvas(canvas)->currentItemPtr == itemPtr) { if (rectOvalPtr->activeFillColor!=NULL) { color = rectOvalPtr->activeFillColor; } if (rectOvalPtr->activeFillStipple!=None) { stipple = rectOvalPtr->activeFillStipple; } } else if (state == TK_STATE_DISABLED) { if (rectOvalPtr->disabledFillColor!=NULL) { color = rectOvalPtr->disabledFillColor; } if (rectOvalPtr->disabledFillStipple!=None) { stipple = rectOvalPtr->disabledFillStipple; } } if (color == NULL) { newGC = NULL; } else { gcValues.foreground = color->pixel; if (stipple != None) { gcValues.stipple = stipple; gcValues.fill_style = FillStippled; mask = GCForeground|GCStipple|GCFillStyle; } else { mask = GCForeground; } #ifdef MAC_OSX_TK /* * Mac OS X CG drawing needs access to the outline linewidth even for * fills (as linewidth controls antialiasing). */ gcValues.line_width = rectOvalPtr->outline.gc != NULL ? rectOvalPtr->outline.gc->line_width : 0; mask |= GCLineWidth; #endif newGC = Tk_GetGC(tkwin, mask, &gcValues); } if (rectOvalPtr->fillGC != NULL) { Tk_FreeGC(Tk_Display(tkwin), rectOvalPtr->fillGC); } rectOvalPtr->fillGC = newGC; tsoffset = &rectOvalPtr->tsoffset; flags = tsoffset->flags; if (flags & TK_OFFSET_LEFT) { tsoffset->xoffset = (int) (rectOvalPtr->bbox[0] + 0.5); } else if (flags & TK_OFFSET_CENTER) { tsoffset->xoffset = (int) ((rectOvalPtr->bbox[0]+rectOvalPtr->bbox[2]+1)/2); } else if (flags & TK_OFFSET_RIGHT) { tsoffset->xoffset = (int) (rectOvalPtr->bbox[2] + 0.5); } if (flags & TK_OFFSET_TOP) { tsoffset->yoffset = (int) (rectOvalPtr->bbox[1] + 0.5); } else if (flags & TK_OFFSET_MIDDLE) { tsoffset->yoffset = (int) ((rectOvalPtr->bbox[1]+rectOvalPtr->bbox[3]+1)/2); } else if (flags & TK_OFFSET_BOTTOM) { tsoffset->yoffset = (int) (rectOvalPtr->bbox[3] + 0.5); } ComputeRectOvalBbox(canvas, rectOvalPtr); return TCL_OK; } /* *-------------------------------------------------------------- * * DeleteRectOval -- * * This function is called to clean up the data structure associated with * a rectangle or oval item. * * Results: * None. * * Side effects: * Resources associated with itemPtr are released. * *-------------------------------------------------------------- */ static void DeleteRectOval( Tk_Canvas canvas, /* Info about overall widget. */ Tk_Item *itemPtr, /* Item that is being deleted. */ Display *display) /* Display containing window for canvas. */ { RectOvalItem *rectOvalPtr = (RectOvalItem *) itemPtr; (void)canvas; Tk_DeleteOutline(display, &(rectOvalPtr->outline)); if (rectOvalPtr->fillColor != NULL) { Tk_FreeColor(rectOvalPtr->fillColor); } if (rectOvalPtr->activeFillColor != NULL) { Tk_FreeColor(rectOvalPtr->activeFillColor); } if (rectOvalPtr->disabledFillColor != NULL) { Tk_FreeColor(rectOvalPtr->disabledFillColor); } if (rectOvalPtr->fillStipple != None) { Tk_FreeBitmap(display, rectOvalPtr->fillStipple); } if (rectOvalPtr->activeFillStipple != None) { Tk_FreeBitmap(display, rectOvalPtr->activeFillStipple); } if (rectOvalPtr->disabledFillStipple != None) { Tk_FreeBitmap(display, rectOvalPtr->disabledFillStipple); } if (rectOvalPtr->fillGC != NULL) { Tk_FreeGC(display, rectOvalPtr->fillGC); } } /* *-------------------------------------------------------------- * * ComputeRectOvalBbox -- * * This function is invoked to compute the bounding box of all the pixels * that may be drawn as part of a rectangle or oval. * * Results: * None. * * Side effects: * The fields x1, y1, x2, and y2 are updated in the header for itemPtr. * *-------------------------------------------------------------- */ static void ComputeRectOvalBbox( Tk_Canvas canvas, /* Canvas that contains item. */ RectOvalItem *rectOvalPtr) /* Item whose bbox is to be recomputed. */ { int bloat, tmp; double dtmp, width; Tk_State state = rectOvalPtr->header.state; if (state == TK_STATE_NULL) { state = Canvas(canvas)->canvas_state; } width = rectOvalPtr->outline.width; if (state == TK_STATE_HIDDEN) { rectOvalPtr->header.x1 = rectOvalPtr->header.y1 = rectOvalPtr->header.x2 = rectOvalPtr->header.y2 = -1; return; } if (Canvas(canvas)->currentItemPtr == (Tk_Item *) rectOvalPtr) { if (rectOvalPtr->outline.activeWidth>width) { width = rectOvalPtr->outline.activeWidth; } } else if (state == TK_STATE_DISABLED) { if (rectOvalPtr->outline.disabledWidth>0) { width = rectOvalPtr->outline.disabledWidth; } } /* * Make sure that the first coordinates are the lowest ones. */ if (rectOvalPtr->bbox[1] > rectOvalPtr->bbox[3]) { double tmpY = rectOvalPtr->bbox[3]; rectOvalPtr->bbox[3] = rectOvalPtr->bbox[1]; rectOvalPtr->bbox[1] = tmpY; } if (rectOvalPtr->bbox[0] > rectOvalPtr->bbox[2]) { double tmpX = rectOvalPtr->bbox[2]; rectOvalPtr->bbox[2] = rectOvalPtr->bbox[0]; rectOvalPtr->bbox[0] = tmpX; } if (rectOvalPtr->outline.gc == NULL) { /* * The Win32 switch was added for 8.3 to solve a problem with ovals * leaving traces on bottom and right of 1 pixel. This may not be the * correct place to solve it, but it works. */ #ifdef _WIN32 bloat = 1; #else bloat = 0; #endif /* _WIN32 */ } else { #ifdef MAC_OSX_TK /* * Mac OS X CoreGraphics needs correct rounding here otherwise it will * draw outside the bounding box. Probably correct on other platforms * as well? */ bloat = (int) (width+1.5)/2; #else bloat = (int) (width+1)/2; #endif /* MAC_OSX_TK */ } /* * Special note: the rectangle is always drawn at least 1x1 in size, so * round up the upper coordinates to be at least 1 unit greater than the * lower ones. */ tmp = (int) ((rectOvalPtr->bbox[0] >= 0) ? rectOvalPtr->bbox[0] + .5 : rectOvalPtr->bbox[0] - .5); rectOvalPtr->header.x1 = tmp - bloat; tmp = (int) ((rectOvalPtr->bbox[1] >= 0) ? rectOvalPtr->bbox[1] + .5 : rectOvalPtr->bbox[1] - .5); rectOvalPtr->header.y1 = tmp - bloat; dtmp = rectOvalPtr->bbox[2]; if (dtmp < (rectOvalPtr->bbox[0] + 1)) { dtmp = rectOvalPtr->bbox[0] + 1; } tmp = (int) ((dtmp >= 0) ? dtmp + .5 : dtmp - .5); rectOvalPtr->header.x2 = tmp + bloat; dtmp = rectOvalPtr->bbox[3]; if (dtmp < (rectOvalPtr->bbox[1] + 1)) { dtmp = rectOvalPtr->bbox[1] + 1; } tmp = (int) ((dtmp >= 0) ? dtmp + .5 : dtmp - .5); rectOvalPtr->header.y2 = tmp + bloat; } /* *-------------------------------------------------------------- * * DisplayRectOval -- * * This function is invoked to draw a rectangle or oval item in a given * drawable. * * Results: * None. * * Side effects: * ItemPtr is drawn in drawable using the transformation information in * canvas. * *-------------------------------------------------------------- */ static void DisplayRectOval( Tk_Canvas canvas, /* Canvas that contains item. */ Tk_Item *itemPtr, /* Item to be displayed. */ Display *display, /* Display on which to draw item. */ Drawable drawable, /* Pixmap or window in which to draw item. */ int x, int y, int width, int height) /* Describes region of canvas that must be * redisplayed (not used). */ { RectOvalItem *rectOvalPtr = (RectOvalItem *) itemPtr; short x1, y1, x2, y2; Pixmap fillStipple; Tk_State state = itemPtr->state; (void)x; (void)y; (void)width; (void)height; /* * Compute the screen coordinates of the bounding box for the item. Make * sure that the bbox is at least one pixel large, since some X servers * will die if it isn't. */ Tk_CanvasDrawableCoords(canvas, rectOvalPtr->bbox[0],rectOvalPtr->bbox[1], &x1, &y1); Tk_CanvasDrawableCoords(canvas, rectOvalPtr->bbox[2],rectOvalPtr->bbox[3], &x2, &y2); if (x2 == x1) { /* * The width of the bounding box corresponds to less than one pixel * on screen. Adjustment is needed to avoid drawing attempts with zero * width items (which would draw nothing). The bounding box spans * either 1 or 2 pixels. Select which pixel will be drawn. */ short ix1 = (short) (rectOvalPtr->bbox[0]); short ix2 = (short) (rectOvalPtr->bbox[2]); if (ix1 == ix2) { /* * x1 and x2 are "within the same pixel". Use this pixel. * Note: the degenerated case (bbox[0]==bbox[2]) of a completely * flat box results in arbitrary selection of the pixel at the * right (with positive coordinate) or left (with negative * coordinate) of the box. There is no "best choice" here. */ if (ix1 > 0) { x2 += 1; } else { x1 -= 1; } } else { /* * (x1,x2) span two pixels. Select the one with the larger * covered "area". */ if (ix1 > 0) { if ((rectOvalPtr->bbox[2] - ix2) > (ix2 - rectOvalPtr->bbox[0])) { x2 += 1; } else { x1 -= 1; } } else { if ((rectOvalPtr->bbox[2] - ix1) > (ix1 - rectOvalPtr->bbox[0])) { x2 += 1; } else { x1 -= 1; } } } } if (y2 == y1) { /* * The height of the bounding box corresponds to less than one pixel * on screen. Adjustment is needed to avoid drawing attempts with zero * height items (which would draw nothing). The bounding box spans * either 1 or 2 pixels. Select which pixel will be drawn. */ short iy1 = (short) (rectOvalPtr->bbox[1]); short iy2 = (short) (rectOvalPtr->bbox[3]); if (iy1 == iy2) { /* * y1 and y2 are "within the same pixel". Use this pixel. * Note: the degenerated case (bbox[1]==bbox[3]) of a completely * flat box results in arbitrary selection of the pixel below * (with positive coordinate) or above (with negative coordinate) * the box. There is no "best choice" here. */ if (iy1 > 0) { y2 += 1; } else { y1 -= 1; } } else { /* * (y1,y2) span two pixels. Select the one with the larger * covered "area". */ if (iy1 > 0) { if ((rectOvalPtr->bbox[3] - iy2) > (iy2 - rectOvalPtr->bbox[1])) { y2 += 1; } else { y1 -= 1; } } else { if ((rectOvalPtr->bbox[3] - iy1) > (iy1 - rectOvalPtr->bbox[1])) { y2 += 1; } else { y1 -= 1; } } } } /* * Display filled part first (if wanted), then outline. If we're * stippling, then modify the stipple offset in the GC. Be sure to reset * the offset when done, since the GC is supposed to be read-only. */ if (state == TK_STATE_NULL) { state = Canvas(canvas)->canvas_state; } fillStipple = rectOvalPtr->fillStipple; if (Canvas(canvas)->currentItemPtr == (Tk_Item *) rectOvalPtr) { if (rectOvalPtr->activeFillStipple != None) { fillStipple = rectOvalPtr->activeFillStipple; } } else if (state == TK_STATE_DISABLED) { if (rectOvalPtr->disabledFillStipple != None) { fillStipple = rectOvalPtr->disabledFillStipple; } } if (rectOvalPtr->fillGC != NULL) { if (fillStipple != None) { Tk_TSOffset *tsoffset; int w = 0, h = 0; tsoffset = &rectOvalPtr->tsoffset; if (tsoffset) { int flags = tsoffset->flags; if (flags & (TK_OFFSET_CENTER|TK_OFFSET_MIDDLE)) { Tk_SizeOfBitmap(display, fillStipple, &w, &h); if (flags & TK_OFFSET_CENTER) { w /= 2; } else { w = 0; } if (flags & TK_OFFSET_MIDDLE) { h /= 2; } else { h = 0; } } tsoffset->xoffset -= w; tsoffset->yoffset -= h; } Tk_CanvasSetOffset(canvas, rectOvalPtr->fillGC, tsoffset); if (tsoffset) { tsoffset->xoffset += w; tsoffset->yoffset += h; } } if (rectOvalPtr->header.typePtr == &tkRectangleType) { XFillRectangle(display, drawable, rectOvalPtr->fillGC, x1, y1, (unsigned int) (x2-x1), (unsigned int) (y2-y1)); } else { XFillArc(display, drawable, rectOvalPtr->fillGC, x1, y1, (unsigned) (x2-x1), (unsigned) (y2-y1), 0, 360*64); } if (fillStipple != None) { XSetTSOrigin(display, rectOvalPtr->fillGC, 0, 0); } } if (rectOvalPtr->outline.gc != NULL) { Tk_ChangeOutlineGC(canvas, itemPtr, &(rectOvalPtr->outline)); if (rectOvalPtr->header.typePtr == &tkRectangleType) { XDrawRectangle(display, drawable, rectOvalPtr->outline.gc, x1, y1, (unsigned) (x2-x1), (unsigned) (y2-y1)); } else { XDrawArc(display, drawable, rectOvalPtr->outline.gc, x1, y1, (unsigned) (x2-x1), (unsigned) (y2-y1), 0, 360*64); } Tk_ResetOutlineGC(canvas, itemPtr, &(rectOvalPtr->outline)); } } /* *-------------------------------------------------------------- * * RectToPoint -- * * Computes the distance from a given point to a given rectangle, in * canvas units. * * Results: * The return value is 0 if the point whose x and y coordinates are * coordPtr[0] and coordPtr[1] is inside the rectangle. If the point * isn't inside the rectangle then the return value is the distance from * the point to the rectangle. If itemPtr is filled, then anywhere in the * interior is considered "inside"; if itemPtr isn't filled, then * "inside" means only the area occupied by the outline. * * Side effects: * None. * *-------------------------------------------------------------- */ static double RectToPoint( Tk_Canvas canvas, /* Canvas containing item. */ Tk_Item *itemPtr, /* Item to check against point. */ double *pointPtr) /* Pointer to x and y coordinates. */ { RectOvalItem *rectPtr = (RectOvalItem *) itemPtr; double xDiff, yDiff, x1, y1, x2, y2, inc, tmp; double width; Tk_State state = itemPtr->state; if (state == TK_STATE_NULL) { state = Canvas(canvas)->canvas_state; } width = rectPtr->outline.width; if (Canvas(canvas)->currentItemPtr == itemPtr) { if (rectPtr->outline.activeWidth>width) { width = rectPtr->outline.activeWidth; } } else if (state == TK_STATE_DISABLED) { if (rectPtr->outline.disabledWidth>0) { width = rectPtr->outline.disabledWidth; } } /* * Generate a new larger rectangle that includes the border width, if * there is one. */ x1 = rectPtr->bbox[0]; y1 = rectPtr->bbox[1]; x2 = rectPtr->bbox[2]; y2 = rectPtr->bbox[3]; if (rectPtr->outline.gc != NULL) { inc = width/2.0; x1 -= inc; y1 -= inc; x2 += inc; y2 += inc; } /* * If the point is inside the rectangle, handle specially: distance is 0 * if rectangle is filled, otherwise compute distance to nearest edge of * rectangle and subtract width of edge. */ if ((pointPtr[0] >= x1) && (pointPtr[0] < x2) && (pointPtr[1] >= y1) && (pointPtr[1] < y2)) { if ((rectPtr->fillGC != NULL) || (rectPtr->outline.gc == NULL)) { return 0.0; } xDiff = pointPtr[0] - x1; tmp = x2 - pointPtr[0]; if (tmp < xDiff) { xDiff = tmp; } yDiff = pointPtr[1] - y1; tmp = y2 - pointPtr[1]; if (tmp < yDiff) { yDiff = tmp; } if (yDiff < xDiff) { xDiff = yDiff; } xDiff -= width; if (xDiff < 0.0) { return 0.0; } return xDiff; } /* * Point is outside rectangle. */ if (pointPtr[0] < x1) { xDiff = x1 - pointPtr[0]; } else if (pointPtr[0] > x2) { xDiff = pointPtr[0] - x2; } else { xDiff = 0; } if (pointPtr[1] < y1) { yDiff = y1 - pointPtr[1]; } else if (pointPtr[1] > y2) { yDiff = pointPtr[1] - y2; } else { yDiff = 0; } return hypot(xDiff, yDiff); } /* *-------------------------------------------------------------- * * OvalToPoint -- * * Computes the distance from a given point to a given oval, in canvas * units. * * Results: * The return value is 0 if the point whose x and y coordinates are * coordPtr[0] and coordPtr[1] is inside the oval. If the point isn't * inside the oval then the return value is the distance from the point * to the oval. If itemPtr is filled, then anywhere in the interior is * considered "inside"; if itemPtr isn't filled, then "inside" means only * the area occupied by the outline. * * Side effects: * None. * *-------------------------------------------------------------- */ static double OvalToPoint( Tk_Canvas canvas, /* Canvas containing item. */ Tk_Item *itemPtr, /* Item to check against point. */ double *pointPtr) /* Pointer to x and y coordinates. */ { RectOvalItem *ovalPtr = (RectOvalItem *) itemPtr; double width; int filled; Tk_State state = itemPtr->state; if (state == TK_STATE_NULL) { state = Canvas(canvas)->canvas_state; } width = (double) ovalPtr->outline.width; if (Canvas(canvas)->currentItemPtr == itemPtr) { if (ovalPtr->outline.activeWidth>width) { width = (double) ovalPtr->outline.activeWidth; } } else if (state == TK_STATE_DISABLED) { if (ovalPtr->outline.disabledWidth>0) { width = (double) ovalPtr->outline.disabledWidth; } } filled = ovalPtr->fillGC != NULL; if (ovalPtr->outline.gc == NULL) { width = 0.0; filled = 1; } return TkOvalToPoint(ovalPtr->bbox, width, filled, pointPtr); } /* *-------------------------------------------------------------- * * RectToArea -- * * This function is called to determine whether an item lies entirely * inside, entirely outside, or overlapping a given rectangle. * * Results: * -1 is returned if the item is entirely outside the area given by * rectPtr, 0 if it overlaps, and 1 if it is entirely inside the given * area. * * Side effects: * None. * *-------------------------------------------------------------- */ static int RectToArea( Tk_Canvas canvas, /* Canvas containing item. */ Tk_Item *itemPtr, /* Item to check against rectangle. */ double *areaPtr) /* Pointer to array of four coordinates (x1, * y1, x2, y2) describing rectangular area. */ { RectOvalItem *rectPtr = (RectOvalItem *) itemPtr; double halfWidth; double width; Tk_State state = itemPtr->state; if (state == TK_STATE_NULL) { state = Canvas(canvas)->canvas_state; } width = rectPtr->outline.width; if (Canvas(canvas)->currentItemPtr == itemPtr) { if (rectPtr->outline.activeWidth > width) { width = rectPtr->outline.activeWidth; } } else if (state == TK_STATE_DISABLED) { if (rectPtr->outline.disabledWidth > 0) { width = rectPtr->outline.disabledWidth; } } halfWidth = width/2.0; if (rectPtr->outline.gc == NULL) { halfWidth = 0.0; } if ((areaPtr[2] <= (rectPtr->bbox[0] - halfWidth)) || (areaPtr[0] >= (rectPtr->bbox[2] + halfWidth)) || (areaPtr[3] <= (rectPtr->bbox[1] - halfWidth)) || (areaPtr[1] >= (rectPtr->bbox[3] + halfWidth))) { return -1; } if ((rectPtr->fillGC == NULL) && (rectPtr->outline.gc != NULL) && (areaPtr[0] >= (rectPtr->bbox[0] + halfWidth)) && (areaPtr[1] >= (rectPtr->bbox[1] + halfWidth)) && (areaPtr[2] <= (rectPtr->bbox[2] - halfWidth)) && (areaPtr[3] <= (rectPtr->bbox[3] - halfWidth))) { return -1; } if ((areaPtr[0] <= (rectPtr->bbox[0] - halfWidth)) && (areaPtr[1] <= (rectPtr->bbox[1] - halfWidth)) && (areaPtr[2] >= (rectPtr->bbox[2] + halfWidth)) && (areaPtr[3] >= (rectPtr->bbox[3] + halfWidth))) { return 1; } return 0; } /* *-------------------------------------------------------------- * * OvalToArea -- * * This function is called to determine whether an item lies entirely * inside, entirely outside, or overlapping a given rectangular area. * * Results: * -1 is returned if the item is entirely outside the area given by * rectPtr, 0 if it overlaps, and 1 if it is entirely inside the given * area. * * Side effects: * None. * *-------------------------------------------------------------- */ static int OvalToArea( Tk_Canvas canvas, /* Canvas containing item. */ Tk_Item *itemPtr, /* Item to check against oval. */ double *areaPtr) /* Pointer to array of four coordinates (x1, * y1, x2, y2) describing rectangular area. */ { RectOvalItem *ovalPtr = (RectOvalItem *) itemPtr; double oval[4], halfWidth, width; int result; Tk_State state = itemPtr->state; if (state == TK_STATE_NULL) { state = Canvas(canvas)->canvas_state; } width = ovalPtr->outline.width; if (Canvas(canvas)->currentItemPtr == itemPtr) { if (ovalPtr->outline.activeWidth > width) { width = ovalPtr->outline.activeWidth; } } else if (state == TK_STATE_DISABLED) { if (ovalPtr->outline.disabledWidth > 0) { width = ovalPtr->outline.disabledWidth; } } /* * Expand the oval to include the width of the outline, if any. */ halfWidth = width/2.0; if (ovalPtr->outline.gc == NULL) { halfWidth = 0.0; } oval[0] = ovalPtr->bbox[0] - halfWidth; oval[1] = ovalPtr->bbox[1] - halfWidth; oval[2] = ovalPtr->bbox[2] + halfWidth; oval[3] = ovalPtr->bbox[3] + halfWidth; result = TkOvalToArea(oval, areaPtr); /* * If the rectangle appears to overlap the oval and the oval isn't filled, * do one more check to see if perhaps all four of the rectangle's corners * are totally inside the oval's unfilled center, in which case we should * return "outside". */ if ((result == 0) && (ovalPtr->outline.gc != NULL) && (ovalPtr->fillGC == NULL)) { double centerX, centerY, height; double xDelta1, yDelta1, xDelta2, yDelta2; centerX = (ovalPtr->bbox[0] + ovalPtr->bbox[2])/2.0; centerY = (ovalPtr->bbox[1] + ovalPtr->bbox[3])/2.0; width = (ovalPtr->bbox[2] - ovalPtr->bbox[0])/2.0 - halfWidth; height = (ovalPtr->bbox[3] - ovalPtr->bbox[1])/2.0 - halfWidth; xDelta1 = (areaPtr[0] - centerX)/width; xDelta1 *= xDelta1; yDelta1 = (areaPtr[1] - centerY)/height; yDelta1 *= yDelta1; xDelta2 = (areaPtr[2] - centerX)/width; xDelta2 *= xDelta2; yDelta2 = (areaPtr[3] - centerY)/height; yDelta2 *= yDelta2; if (((xDelta1 + yDelta1) < 1.0) && ((xDelta1 + yDelta2) < 1.0) && ((xDelta2 + yDelta1) < 1.0) && ((xDelta2 + yDelta2) < 1.0)) { return -1; } } return result; } /* *-------------------------------------------------------------- * * RotateRectOval -- * * This function is invoked to rotate a rectangle or oval item's * coordinates. It works by rotating a computed point in the centre of * the bounding box, NOT by rotating the corners of the bounding box. * * Results: * None. * * Side effects: * The position of the rectangle or oval is rotated by angleRad about * (originX, originY), and the bounding box is updated in the generic * part of the item structure. * *-------------------------------------------------------------- */ static void RotateRectOval( Tk_Canvas canvas, /* Canvas containing rectangle. */ Tk_Item *itemPtr, /* Rectangle to be scaled. */ double originX, double originY, /* Origin about which to rotate rect. */ double angleRad) /* Amount to scale in X direction. */ { RectOvalItem *rectOvalPtr = (RectOvalItem *) itemPtr; double newX, newY, oldX, oldY; /* * Compute the centre of the box, then rotate that about the origin. */ newX = oldX = (rectOvalPtr->bbox[0] + rectOvalPtr->bbox[2]) / 2.0; newY = oldY = (rectOvalPtr->bbox[1] + rectOvalPtr->bbox[3]) / 2.0; TkRotatePoint(originX, originY, sin(angleRad), cos(angleRad), &newX, &newY); /* * Apply the translation to the box. */ rectOvalPtr->bbox[0] += newX - oldX; rectOvalPtr->bbox[1] += newY - oldY; rectOvalPtr->bbox[2] += newX - oldX; rectOvalPtr->bbox[3] += newY - oldY; ComputeRectOvalBbox(canvas, rectOvalPtr); } /* *-------------------------------------------------------------- * * ScaleRectOval -- * * This function is invoked to rescale a rectangle or oval item. * * Results: * None. * * Side effects: * The rectangle or oval referred to by itemPtr is rescaled so that the * following transformation is applied to all point coordinates: * x' = originX + scaleX*(x-originX) * y' = originY + scaleY*(y-originY) * *-------------------------------------------------------------- */ static void ScaleRectOval( Tk_Canvas canvas, /* Canvas containing rectangle. */ Tk_Item *itemPtr, /* Rectangle to be scaled. */ double originX, double originY, /* Origin about which to scale rect. */ double scaleX, /* Amount to scale in X direction. */ double scaleY) /* Amount to scale in Y direction. */ { RectOvalItem *rectOvalPtr = (RectOvalItem *) itemPtr; rectOvalPtr->bbox[0] = originX + scaleX*(rectOvalPtr->bbox[0] - originX); rectOvalPtr->bbox[1] = originY + scaleY*(rectOvalPtr->bbox[1] - originY); rectOvalPtr->bbox[2] = originX + scaleX*(rectOvalPtr->bbox[2] - originX); rectOvalPtr->bbox[3] = originY + scaleY*(rectOvalPtr->bbox[3] - originY); ComputeRectOvalBbox(canvas, rectOvalPtr); } /* *-------------------------------------------------------------- * * TranslateRectOval -- * * This function is called to move a rectangle or oval by a given amount. * * Results: * None. * * Side effects: * The position of the rectangle or oval is offset by (xDelta, yDelta), * and the bounding box is updated in the generic part of the item * structure. * *-------------------------------------------------------------- */ static void TranslateRectOval( Tk_Canvas canvas, /* Canvas containing item. */ Tk_Item *itemPtr, /* Item that is being moved. */ double deltaX, double deltaY) /* Amount by which item is to be moved. */ { RectOvalItem *rectOvalPtr = (RectOvalItem *) itemPtr; rectOvalPtr->bbox[0] += deltaX; rectOvalPtr->bbox[1] += deltaY; rectOvalPtr->bbox[2] += deltaX; rectOvalPtr->bbox[3] += deltaY; ComputeRectOvalBbox(canvas, rectOvalPtr); } /* *-------------------------------------------------------------- * * RectOvalToPostscript -- * * This function is called to generate Postscript for rectangle and oval * items. * * Results: * The return value is a standard Tcl result. If an error occurs in * generating Postscript then an error message is left in the interp's * result, replacing whatever used to be there. If no error occurs, then * Postscript for the rectangle is appended to the result. * * Side effects: * None. * *-------------------------------------------------------------- */ static int RectOvalToPostscript( Tcl_Interp *interp, /* Interpreter for error reporting. */ Tk_Canvas canvas, /* Information about overall canvas. */ Tk_Item *itemPtr, /* Item for which Postscript is wanted. */ int prepass) /* 1 means this is a prepass to collect font * information; 0 means final Postscript is * being created. */ { Tcl_Obj *pathObj, *psObj; RectOvalItem *rectOvalPtr = (RectOvalItem *) itemPtr; double y1, y2; XColor *color; XColor *fillColor; Pixmap fillStipple; Tk_State state = itemPtr->state; Tcl_InterpState interpState; (void)prepass; y1 = Tk_CanvasPsY(canvas, rectOvalPtr->bbox[1]); y2 = Tk_CanvasPsY(canvas, rectOvalPtr->bbox[3]); /* * Generate a string that creates a path for the rectangle or oval. This * is the only part of the function's code that is type-specific. */ if (rectOvalPtr->header.typePtr == &tkRectangleType) { pathObj = Tcl_ObjPrintf( "%.15g %.15g moveto " "%.15g 0 rlineto " "0 %.15g rlineto " "%.15g 0 rlineto " "closepath\n", rectOvalPtr->bbox[0], y1, rectOvalPtr->bbox[2]-rectOvalPtr->bbox[0], y2-y1, rectOvalPtr->bbox[0]-rectOvalPtr->bbox[2]); } else { pathObj = Tcl_ObjPrintf( "matrix currentmatrix\n" "%.15g %.15g translate " "%.15g %.15g scale " "1 0 moveto 0 0 1 0 360 arc\n" "setmatrix\n", (rectOvalPtr->bbox[0] + rectOvalPtr->bbox[2])/2, (y1 + y2)/2, (rectOvalPtr->bbox[2] - rectOvalPtr->bbox[0])/2, (y1 - y2)/2); } if (state == TK_STATE_NULL) { state = Canvas(canvas)->canvas_state; } color = rectOvalPtr->outline.color; fillColor = rectOvalPtr->fillColor; fillStipple = rectOvalPtr->fillStipple; if (Canvas(canvas)->currentItemPtr == itemPtr) { if (rectOvalPtr->outline.activeColor!=NULL) { color = rectOvalPtr->outline.activeColor; } if (rectOvalPtr->activeFillColor!=NULL) { fillColor = rectOvalPtr->activeFillColor; } if (rectOvalPtr->activeFillStipple!=None) { fillStipple = rectOvalPtr->activeFillStipple; } } else if (state == TK_STATE_DISABLED) { if (rectOvalPtr->outline.disabledColor!=NULL) { color = rectOvalPtr->outline.disabledColor; } if (rectOvalPtr->disabledFillColor!=NULL) { fillColor = rectOvalPtr->disabledFillColor; } if (rectOvalPtr->disabledFillStipple!=None) { fillStipple = rectOvalPtr->disabledFillStipple; } } /* * Make our working space. */ psObj = Tcl_NewObj(); interpState = Tcl_SaveInterpState(interp, TCL_OK); /* * First draw the filled area of the rectangle. */ if (fillColor != NULL) { Tcl_AppendObjToObj(psObj, pathObj); Tcl_ResetResult(interp); Tk_CanvasPsColor(interp, canvas, fillColor); Tcl_AppendObjToObj(psObj, Tcl_GetObjResult(interp)); if (fillStipple != None) { Tcl_AppendToObj(psObj, "clip ", -1); Tcl_ResetResult(interp); Tk_CanvasPsStipple(interp, canvas, fillStipple); Tcl_AppendObjToObj(psObj, Tcl_GetObjResult(interp)); if (color != NULL) { Tcl_AppendToObj(psObj, "grestore gsave\n", -1); } } else { Tcl_AppendToObj(psObj, "fill\n", -1); } } /* * Now draw the outline, if there is one. */ if (color != NULL) { Tcl_AppendObjToObj(psObj, pathObj); Tcl_AppendToObj(psObj, "0 setlinejoin 2 setlinecap\n", -1); Tcl_ResetResult(interp); Tk_CanvasPsOutline(canvas, itemPtr, &rectOvalPtr->outline); Tcl_AppendObjToObj(psObj, Tcl_GetObjResult(interp)); } /* * Plug the accumulated postscript back into the result. */ (void) Tcl_RestoreInterpState(interp, interpState); Tcl_AppendObjToObj(Tcl_GetObjResult(interp), psObj); Tcl_DecrRefCount(psObj); Tcl_DecrRefCount(pathObj); return TCL_OK; } /* * Local Variables: * mode: c * c-basic-offset: 4 * fill-column: 78 * End: */