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/*

 * tkGC.c --

 *

 *      This file maintains a database of read-only graphics contexts

 *      for the Tk toolkit, in order to allow GC's to be shared.

 *

 * Copyright (c) 1990-1994 The Regents of the University of California.

 * Copyright (c) 1994 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: tkGC.c,v 1.1.1.1 2002-01-16 10:25:51 markom Exp $

 */

#include "tkPort.h"

#include "tk.h"

/* CYGNUS LOCAL, for TkRegisterColorGC.  */

#include "tkInt.h"

/*

 * One of the following data structures exists for each GC that is

 * currently active.  The structure is indexed with two hash tables,

 * one based on the values in the graphics context and the other

 * based on the display and GC identifier.

 */

typedef struct {

    GC gc;                      /* Graphics context. */

    Display *display;           /* Display to which gc belongs. */

    int refCount;               /* Number of active uses of gc. */

    Tcl_HashEntry *valueHashPtr;/* Entry in valueTable (needed when deleting

                                 * this structure). */

    /* CYGNUS LOCAL.  */

    XColor *foreground;         /* Foreground color.  */

    XColor *background;         /* Background color.  */

} TkGC;

/*

 * Hash table to map from a GC's values to a TkGC structure describing

 * a GC with those values (used by Tk_GetGC).

 */

static Tcl_HashTable valueTable;

typedef struct {

    XGCValues values;           /* Desired values for GC. */

    Display *display;           /* Display for which GC is valid. */

    int screenNum;              /* screen number of display */

    int depth;                  /* and depth for which GC is valid. */

    /* CYGNUS LOCAL.  */

    XColor *foreground;         /* Foreground color.  */

    XColor *background;         /* Background color.  */

} ValueKey;

/*

 * Hash table for <display + GC> -> TkGC mapping. This table is used by

 * Tk_FreeGC.

 */

static Tcl_HashTable idTable;

typedef struct {

    Display *display;           /* Display for which GC was allocated. */

    GC gc;                      /* X's identifier for GC. */

} IdKey;

static int initialized = 0;      /* 0 means static structures haven't been

                                 * initialized yet. */

/*

 * Forward declarations for procedures defined in this file:

 */

static void             GCInit _ANSI_ARGS_((void));

/*

 *----------------------------------------------------------------------

 *

 * Tk_GetGC --

 *

 *      Given a desired set of values for a graphics context, find

 *      a read-only graphics context with the desired values.

 *

 * Results:

 *      The return value is the X identifer for the desired graphics

 *      context.  The caller should never modify this GC, and should

 *      call Tk_FreeGC when the GC is no longer needed.

 *

 * Side effects:

 *      The GC is added to an internal database with a reference count.

 *      For each call to this procedure, there should eventually be a call

 *      to Tk_FreeGC, so that the database can be cleaned up when GC's

 *      aren't needed anymore.

 *

 *----------------------------------------------------------------------

 */

/* CYGNUS LOCAL: Rename this to Tk_GetGCColor.  The new Tk_GetGC is

   below.  */

GC

Tk_GetGCColor(tkwin, valueMask, valuePtr, foreground, background)

    Tk_Window tkwin;            /* Window in which GC will be used. */

    register unsigned long valueMask;

                                /* 1 bits correspond to values specified

                                 * in *valuesPtr;  other values are set

                                 * from defaults. */

    register XGCValues *valuePtr;

                                /* Values are specified here for bits set

                                 * in valueMask. */

    /* CYGNUS LOCAL.  */

    XColor *foreground;         /* Foreground color. */

    XColor *background;         /* Background color. */

{

    ValueKey valueKey;

    IdKey idKey;

    Tcl_HashEntry *valueHashPtr, *idHashPtr;

    register TkGC *gcPtr;

    int new;

    Drawable d, freeDrawable;

    if (!initialized) {

        GCInit();

    }

#if !defined(__WIN32__) && !defined(_WIN32)

    /* CYGNUS LOCAL.  We only care about special foreground and

       background colors on Windows.  If we are on some other

       platform, just ignore them.  If we don't do this, we may

       allocate an unnecessary GC if we have two colors with different

       names but the same pixel value.  */

    foreground = NULL;

    background = NULL;

#endif

    /*

     * Must zero valueKey at start to clear out pad bytes that may be

     * part of structure on some systems.

     */

    memset((VOID *) &valueKey, 0, sizeof(valueKey));

    /*

     * First, check to see if there's already a GC that will work

     * for this request (exact matches only, sorry).

     */

    if (valueMask & GCFunction) {

        valueKey.values.function = valuePtr->function;

    } else {

        valueKey.values.function = GXcopy;

    }

    if (valueMask & GCPlaneMask) {

        valueKey.values.plane_mask = valuePtr->plane_mask;

    } else {

        valueKey.values.plane_mask = (unsigned) ~0;

    }

    if (valueMask & GCForeground) {

        valueKey.values.foreground = valuePtr->foreground;

    } else {

        valueKey.values.foreground = 0;

    }

    if (valueMask & GCBackground) {

        valueKey.values.background = valuePtr->background;

    } else {

        valueKey.values.background = 1;

    }

    if (valueMask & GCLineWidth) {

        valueKey.values.line_width = valuePtr->line_width;

    } else {

        valueKey.values.line_width = 0;

    }

    if (valueMask & GCLineStyle) {

        valueKey.values.line_style = valuePtr->line_style;

    } else {

        valueKey.values.line_style = LineSolid;

    }

    if (valueMask & GCCapStyle) {

        valueKey.values.cap_style = valuePtr->cap_style;

    } else {

        valueKey.values.cap_style = CapButt;

    }

    if (valueMask & GCJoinStyle) {

        valueKey.values.join_style = valuePtr->join_style;

    } else {

        valueKey.values.join_style = JoinMiter;

    }

    if (valueMask & GCFillStyle) {

        valueKey.values.fill_style = valuePtr->fill_style;

    } else {

        valueKey.values.fill_style = FillSolid;

    }

    if (valueMask & GCFillRule) {

        valueKey.values.fill_rule = valuePtr->fill_rule;

    } else {

        valueKey.values.fill_rule = EvenOddRule;

    }

    if (valueMask & GCArcMode) {

        valueKey.values.arc_mode = valuePtr->arc_mode;

    } else {

        valueKey.values.arc_mode = ArcPieSlice;

    }

    if (valueMask & GCTile) {

        valueKey.values.tile = valuePtr->tile;

    } else {

        valueKey.values.tile = None;

    }

    if (valueMask & GCStipple) {

        valueKey.values.stipple = valuePtr->stipple;

    } else {

        valueKey.values.stipple = None;

    }

    if (valueMask & GCTileStipXOrigin) {

        valueKey.values.ts_x_origin = valuePtr->ts_x_origin;

    } else {

        valueKey.values.ts_x_origin = 0;

    }

    if (valueMask & GCTileStipYOrigin) {

        valueKey.values.ts_y_origin = valuePtr->ts_y_origin;

    } else {

        valueKey.values.ts_y_origin = 0;

    }

    if (valueMask & GCFont) {

        valueKey.values.font = valuePtr->font;

    } else {

        valueKey.values.font = None;

    }

    if (valueMask & GCSubwindowMode) {

        valueKey.values.subwindow_mode = valuePtr->subwindow_mode;

    } else {

        valueKey.values.subwindow_mode = ClipByChildren;

    }

    if (valueMask & GCGraphicsExposures) {

        valueKey.values.graphics_exposures = valuePtr->graphics_exposures;

    } else {

        valueKey.values.graphics_exposures = True;

    }

    if (valueMask & GCClipXOrigin) {

        valueKey.values.clip_x_origin = valuePtr->clip_x_origin;

    } else {

        valueKey.values.clip_x_origin = 0;

    }

    if (valueMask & GCClipYOrigin) {

        valueKey.values.clip_y_origin = valuePtr->clip_y_origin;

    } else {

        valueKey.values.clip_y_origin = 0;

    }

    if (valueMask & GCClipMask) {

        valueKey.values.clip_mask = valuePtr->clip_mask;

    } else {

        valueKey.values.clip_mask = None;

    }

    if (valueMask & GCDashOffset) {

        valueKey.values.dash_offset = valuePtr->dash_offset;

    } else {

        valueKey.values.dash_offset = 0;

    }

    if (valueMask & GCDashList) {

        valueKey.values.dashes = valuePtr->dashes;

    } else {

        valueKey.values.dashes = 4;

    }

    valueKey.display = Tk_Display(tkwin);

    valueKey.screenNum = Tk_ScreenNumber(tkwin);

    valueKey.depth = Tk_Depth(tkwin);

    /* CYGNUS LOCAL.  Set colors.  */

    valueKey.foreground = foreground;

    valueKey.background = background;

    valueHashPtr = Tcl_CreateHashEntry(&valueTable, (char *) &valueKey, &new);

    if (!new) {

        gcPtr = (TkGC *) Tcl_GetHashValue(valueHashPtr);

        gcPtr->refCount++;

        return gcPtr->gc;

    }

    /*

     * No GC is currently available for this set of values.  Allocate a

     * new GC and add a new structure to the database.

     */

    gcPtr = (TkGC *) ckalloc(sizeof(TkGC));

    /*

     * Find or make a drawable to use to specify the screen and depth

     * of the GC.  We may have to make a small pixmap, to avoid doing

     * Tk_MakeWindowExist on the window.

     */

    freeDrawable = None;

    if (Tk_WindowId(tkwin) != None) {

        d = Tk_WindowId(tkwin);

    } else if (valueKey.depth ==

            DefaultDepth(valueKey.display, valueKey.screenNum)) {

        d = RootWindow(valueKey.display, valueKey.screenNum);

    } else {

        d = Tk_GetPixmap(valueKey.display,

                RootWindow(valueKey.display, valueKey.screenNum),

                1, 1, valueKey.depth);

        freeDrawable = d;

    }

    gcPtr->gc = XCreateGC(valueKey.display, d, valueMask, &valueKey.values);

    gcPtr->display = valueKey.display;

    gcPtr->refCount = 1;

    gcPtr->valueHashPtr = valueHashPtr;

    idKey.display = valueKey.display;

    idKey.gc = gcPtr->gc;

    idHashPtr = Tcl_CreateHashEntry(&idTable, (char *) &idKey, &new);

    if (!new) {

        panic("GC already registered in Tk_GetGC");

    }

    Tcl_SetHashValue(valueHashPtr, gcPtr);

    Tcl_SetHashValue(idHashPtr, gcPtr);

    if (freeDrawable != None) {

        Tk_FreePixmap(valueKey.display, freeDrawable);

    }

    /* CYGNUS LOCAL.  Record and register the colors.  */

    gcPtr->foreground = foreground;

    gcPtr->background = background;

    if (foreground != NULL) {

        TkRegisterColorGC(foreground, valueKey.display, gcPtr->gc,

                          GCForeground);

    }

    if (background != NULL) {

        TkRegisterColorGC(background, valueKey.display, gcPtr->gc,

                          GCBackground);

    }

    return gcPtr->gc;

}

/* CYGNUS LOCAL.  Tk_GetGC now just calls Tk_GetGCColor.  */

GC

Tk_GetGC(tkwin, valueMask, valuePtr)

    Tk_Window tkwin;            /* Window in which GC will be used. */

    register unsigned long valueMask;

                                /* 1 bits correspond to values specified

                                 * in *valuesPtr;  other values are set

                                 * from defaults. */

    register XGCValues *valuePtr;

                                /* Values are specified here for bits set

                                 * in valueMask. */

{

    return Tk_GetGCColor(tkwin, valueMask, valuePtr, NULL, NULL);

}

/*

 *----------------------------------------------------------------------

 *

 * Tk_FreeGC --

 *

 *      This procedure is called to release a graphics context allocated by

 *      Tk_GetGC.

 *

 * Results:

 *      None.

 *

 * Side effects:

 *      The reference count associated with gc is decremented, and

 *      gc is officially deallocated if no-one is using it anymore.

 *

 *----------------------------------------------------------------------

 */

void

Tk_FreeGC(display, gc)

    Display *display;           /* Display for which gc was allocated. */

    GC gc;                      /* Graphics context to be released. */

{

    IdKey idKey;

    Tcl_HashEntry *idHashPtr;

    register TkGC *gcPtr;

    if (!initialized) {

        panic("Tk_FreeGC called before Tk_GetGC");

    }

    idKey.display = display;

    idKey.gc = gc;

    idHashPtr = Tcl_FindHashEntry(&idTable, (char *) &idKey);

    if (idHashPtr == NULL) {

        panic("Tk_FreeGC received unknown gc argument");

    }

    gcPtr = (TkGC *) Tcl_GetHashValue(idHashPtr);

    gcPtr->refCount--;

    if (gcPtr->refCount == 0) {

        /* CYGNUS LOCAL: Deregister the colors.  */

        if (gcPtr->foreground != NULL) {

            TkDeregisterColorGC(gcPtr->foreground, gcPtr->gc,

                                GCForeground);

        }

        if (gcPtr->background != NULL) {

            TkDeregisterColorGC(gcPtr->background, gcPtr->gc,

                                GCBackground);

        }

        Tk_FreeXId(gcPtr->display, (XID) XGContextFromGC(gcPtr->gc));

        XFreeGC(gcPtr->display, gcPtr->gc);

        Tcl_DeleteHashEntry(gcPtr->valueHashPtr);

        Tcl_DeleteHashEntry(idHashPtr);

        ckfree((char *) gcPtr);

    }

}

/*

 *----------------------------------------------------------------------

 *

 * GCInit --

 *

 *      Initialize the structures used for GC management.

 *

 * Results:

 *      None.

 *

 * Side effects:

 *      Read the code.

 *

 *----------------------------------------------------------------------

 */

static void

GCInit()

{

    initialized = 1;

    Tcl_InitHashTable(&valueTable, sizeof(ValueKey)/sizeof(int));

    Tcl_InitHashTable(&idTable, sizeof(IdKey)/sizeof(int));

}