source: trunk/kitgen/8.x/blt/generic/bltText.c@ 194

/*
 * bltText.c --
 *
 *      This module implements multi-line, rotate-able text for the BLT toolkit.
 *
 * Copyright 1993-1998 Lucent Technologies, Inc.
 *
 * Permission to use, copy, modify, and distribute this software and
 * its documentation for any purpose and without fee is hereby
 * granted, provided that the above copyright notice appear in all
 * copies and that both that the copyright notice and warranty
 * disclaimer appear in supporting documentation, and that the names
 * of Lucent Technologies any of their entities not be used in
 * advertising or publicity pertaining to distribution of the software
 * without specific, written prior permission.
 *
 * Lucent Technologies disclaims all warranties with regard to this
 * software, including all implied warranties of merchantability and
 * fitness.  In no event shall Lucent Technologies be liable for any
 * special, indirect or consequential damages or any damages
 * whatsoever resulting from loss of use, data or profits, whether in
 * an action of contract, negligence or other tortuous action, arising
 * out of or in connection with the use or performance of this
 * software.
 */

#include "bltInt.h"
#include <X11/Xutil.h>
#include "bltImage.h"

#define WINDEBUG        0

static Blt_HashTable bitmapGCTable;
static int initialized;

static void
DrawTextLayout(display, drawable, gc, font, x, y, textPtr)
    Display *display;
    Drawable drawable;
    GC gc;
    Tk_Font font;
    register int x, y;          /* Origin of text */
    TextLayout *textPtr;
{
    register TextFragment *fragPtr;
    register int i;

    fragPtr = textPtr->fragArr;
    for (i = 0; i < textPtr->nFrags; i++, fragPtr++) {
#if HAVE_UTF
        Tk_DrawChars(display, drawable, gc, font, fragPtr->text,
            fragPtr->count, x + fragPtr->x, y + fragPtr->y);
#else
        XDrawString(display, drawable, gc, x + fragPtr->x, y + fragPtr->y,
            fragPtr->text, fragPtr->count);
#endif /*HAVE_UTF*/
    }
}

/*
 * -----------------------------------------------------------------
 *
 * Blt_GetTextLayout --
 *
 *      Get the extents of a possibly multiple-lined text string.
 *
 * Results:
 *      Returns via *widthPtr* and *heightPtr* the dimensions of
 *      the text string.
 *
 * -----------------------------------------------------------------
 */
TextLayout *
Blt_GetTextLayout(string, tsPtr)
    char string[];
    TextStyle *tsPtr;
{
    int maxHeight, maxWidth;
    int count;                  /* Count # of characters on each line */
    int nFrags;
    int width;                  /* Running dimensions of the text */
    TextFragment *fragPtr;
    TextLayout *textPtr;
    int lineHeight;
    int size;
    register char *p;
    register int i;
    Tk_FontMetrics fontMetrics;

    Tk_GetFontMetrics(tsPtr->font, &fontMetrics);
    lineHeight = fontMetrics.linespace + 
        tsPtr->leader + tsPtr->shadow.offset;
    nFrags = 0;
    for (p = string; *p != '\0'; p++) {
        if (*p == '\n') {
            nFrags++;
        }
    }
    if ((p != string) && (*(p - 1) != '\n')) {
        nFrags++;
    }
    size = sizeof(TextLayout) + (sizeof(TextFragment) * (nFrags - 1));
    textPtr = Blt_Calloc(1, size);
    textPtr->nFrags = nFrags;
    nFrags = count = 0;
    width = maxWidth = 0;
    maxHeight = tsPtr->padTop;
    fragPtr = textPtr->fragArr;
    for (p = string; *p != '\0'; p++) {
        if (*p == '\n') {
            if (count > 0) {
                width = Tk_TextWidth(tsPtr->font, string, count) +
                    tsPtr->shadow.offset;
                if (width > maxWidth) {
                    maxWidth = width;
                }
            }
            fragPtr->width = width;
            fragPtr->count = count;
            fragPtr->y = maxHeight + fontMetrics.ascent;
            fragPtr->text = string;
            fragPtr++;
            nFrags++;
            maxHeight += lineHeight;
            string = p + 1;     /* Start the string on the next line */
            count = 0;          /* Reset to indicate the start of a new line */
            continue;
        }
        count++;
    }
    if (nFrags < textPtr->nFrags) {
        width = Tk_TextWidth(tsPtr->font, string, count) + tsPtr->shadow.offset;
        if (width > maxWidth) {
            maxWidth = width;
        }
        fragPtr->width = width;
        fragPtr->count = count;
        fragPtr->y = maxHeight + fontMetrics.ascent;
        fragPtr->text = string;
        maxHeight += lineHeight;
        nFrags++;
    }
    maxHeight += tsPtr->padBottom;
    maxWidth += PADDING(tsPtr->padX);
    fragPtr = textPtr->fragArr;
    for (i = 0; i < nFrags; i++, fragPtr++) {
        switch (tsPtr->justify) {
        default:
        case TK_JUSTIFY_LEFT:
            /* No offset for left justified text strings */
            fragPtr->x = tsPtr->padLeft;
            break;
        case TK_JUSTIFY_RIGHT:
            fragPtr->x = (maxWidth - fragPtr->width) - tsPtr->padRight;
            break;
        case TK_JUSTIFY_CENTER:
            fragPtr->x = (maxWidth - fragPtr->width) / 2;
            break;
        }
    }
    textPtr->width = maxWidth;
    textPtr->height = maxHeight - tsPtr->leader;
    return textPtr;
}

/*
 * -----------------------------------------------------------------
 *
 * Blt_GetTextExtents --
 *
 *      Get the extents of a possibly multiple-lined text string.
 *
 * Results:
 *      Returns via *widthPtr* and *heightPtr* the dimensions of
 *      the text string.
 *
 * -----------------------------------------------------------------
 */
void
Blt_GetTextExtents(tsPtr, string, widthPtr, heightPtr)
    TextStyle *tsPtr;
    char *string;
    int *widthPtr, *heightPtr;
{
    int count;                  /* Count # of characters on each line */
    int width, height;
    int w, lineHeight;
    register char *p;
    Tk_FontMetrics fontMetrics;

    if (string == NULL) {
        return;                 /* NULL string? */
    }
    Tk_GetFontMetrics(tsPtr->font, &fontMetrics);
    lineHeight = fontMetrics.linespace + tsPtr->leader + tsPtr->shadow.offset;
    count = 0;
    width = height = 0;
    for (p = string; *p != '\0'; p++) {
        if (*p == '\n') {
            if (count > 0) {
                w = Tk_TextWidth(tsPtr->font, string, count) +
                    tsPtr->shadow.offset;
                if (w > width) {
                    width = w;
                }
            }
            height += lineHeight;
            string = p + 1;     /* Start the string on the next line */
            count = 0;          /* Reset to indicate the start of a new line */
            continue;
        }
        count++;
    }
    if ((count > 0) && (*(p - 1) != '\n')) {
        height += lineHeight;
        w = Tk_TextWidth(tsPtr->font, string, count) + tsPtr->shadow.offset;
        if (w > width) {
            width = w;
        }
    }
    *widthPtr = width + PADDING(tsPtr->padX);
    *heightPtr = height + PADDING(tsPtr->padY);
}

/*
 * -----------------------------------------------------------------
 *
 * Blt_GetBoundingBox
 *
 *      Computes the dimensions of the bounding box surrounding a
 *      rectangle rotated about its center.  If pointArr isn't NULL,
 *      the coordinates of the rotated rectangle are also returned.
 *
 *      The dimensions are determined by rotating the rectangle, and
 *      doubling the maximum x-coordinate and y-coordinate.
 *
 *              w = 2 * maxX,  h = 2 * maxY
 *
 *      Since the rectangle is centered at 0,0, the coordinates of
 *      the bounding box are (-w/2,-h/2 w/2,-h/2, w/2,h/2 -w/2,h/2).
 *
 *              0 ------- 1
 *              |         |
 *              |    x    |
 *              |         |
 *              3 ------- 2
 *
 * Results:
 *      The width and height of the bounding box containing the
 *      rotated rectangle are returned.
 *
 * -----------------------------------------------------------------
 */
void
Blt_GetBoundingBox(width, height, theta, rotWidthPtr, rotHeightPtr, bbox)
    int width, height;          /* Unrotated region */
    double theta;               /* Rotation of box */
    double *rotWidthPtr, *rotHeightPtr; /* (out) Bounding box region */
    Point2D *bbox;              /* (out) Points of the rotated box */
{
    register int i;
    double sinTheta, cosTheta;
    double xMax, yMax;
    register double x, y;
    Point2D corner[4];

    theta = FMOD(theta, 360.0);
    if (FMOD(theta, (double)90.0) == 0.0) {
        int ll, ur, ul, lr;
        double rotWidth, rotHeight;
        int quadrant;

        /* Handle right-angle rotations specifically */

        quadrant = (int)(theta / 90.0);
        switch (quadrant) {
        case ROTATE_270:        /* 270 degrees */
            ul = 3, ur = 0, lr = 1, ll = 2;
            rotWidth = (double)height;
            rotHeight = (double)width;
            break;
        case ROTATE_90:         /* 90 degrees */
            ul = 1, ur = 2, lr = 3, ll = 0;
            rotWidth = (double)height;
            rotHeight = (double)width;
            break;
        case ROTATE_180:        /* 180 degrees */
            ul = 2, ur = 3, lr = 0, ll = 1;
            rotWidth = (double)width;
            rotHeight = (double)height;
            break;
        default:
        case ROTATE_0:          /* 0 degrees */
            ul = 0, ur = 1, lr = 2, ll = 3;
            rotWidth = (double)width;
            rotHeight = (double)height;
            break;
        }
        if (bbox != NULL) {
            x = rotWidth * 0.5;
            y = rotHeight * 0.5;
            bbox[ll].x = bbox[ul].x = -x;
            bbox[ur].y = bbox[ul].y = -y;
            bbox[lr].x = bbox[ur].x = x;
            bbox[ll].y = bbox[lr].y = y;
        }
        *rotWidthPtr = rotWidth;
        *rotHeightPtr = rotHeight;
        return;
    }
    /* Set the four corners of the rectangle whose center is the origin */

    corner[1].x = corner[2].x = (double)width *0.5;
    corner[0].x = corner[3].x = -corner[1].x;
    corner[2].y = corner[3].y = (double)height *0.5;
    corner[0].y = corner[1].y = -corner[2].y;

    theta = (-theta / 180.0) * M_PI;
    sinTheta = sin(theta), cosTheta = cos(theta);
    xMax = yMax = 0.0;

    /* Rotate the four corners and find the maximum X and Y coordinates */

    for (i = 0; i < 4; i++) {
        x = (corner[i].x * cosTheta) - (corner[i].y * sinTheta);
        y = (corner[i].x * sinTheta) + (corner[i].y * cosTheta);
        if (x > xMax) {
            xMax = x;
        }
        if (y > yMax) {
            yMax = y;
        }
        if (bbox != NULL) {
            bbox[i].x = x;
            bbox[i].y = y;
        }
    }

    /*
     * By symmetry, the width and height of the bounding box are
     * twice the maximum x and y coordinates.
     */
    *rotWidthPtr = xMax + xMax;
    *rotHeightPtr = yMax + yMax;
}

/*
 * -----------------------------------------------------------------
 *
 * Blt_TranslateAnchor --
 *
 *      Translate the coordinates of a given bounding box based
 *      upon the anchor specified.  The anchor indicates where
 *      the given xy position is in relation to the bounding box.
 *
 *              nw --- n --- ne
 *              |            |
 *              w   center   e
 *              |            |
 *              sw --- s --- se
 *
 *      The coordinates returned are translated to the origin of the
 *      bounding box (suitable for giving to XCopyArea, XCopyPlane, etc.)
 *
 * Results:
 *      The translated coordinates of the bounding box are returned.
 *
 * -----------------------------------------------------------------
 */
void
Blt_TranslateAnchor(x, y, width, height, anchor, transXPtr, transYPtr)
    int x, y;                   /* Window coordinates of anchor */
    int width, height;          /* Extents of the bounding box */
    Tk_Anchor anchor;           /* Direction of the anchor */
    int *transXPtr, *transYPtr;
{
    switch (anchor) {
    case TK_ANCHOR_NW:          /* Upper left corner */
        break;
    case TK_ANCHOR_W:           /* Left center */
        y -= (height / 2);
        break;
    case TK_ANCHOR_SW:          /* Lower left corner */
        y -= height;
        break;
    case TK_ANCHOR_N:           /* Top center */
        x -= (width / 2);
        break;
    case TK_ANCHOR_CENTER:      /* Center */
        x -= (width / 2);
        y -= (height / 2);
        break;
    case TK_ANCHOR_S:           /* Bottom center */
        x -= (width / 2);
        y -= height;
        break;
    case TK_ANCHOR_NE:          /* Upper right corner */
        x -= width;
        break;
    case TK_ANCHOR_E:           /* Right center */
        x -= width;
        y -= (height / 2);
        break;
    case TK_ANCHOR_SE:          /* Lower right corner */
        x -= width;
        y -= height;
        break;
    }
    *transXPtr = x;
    *transYPtr = y;
}

/*
 * -----------------------------------------------------------------
 *
 * Blt_TranslatePoint --
 *
 *      Translate the coordinates of a given bounding box based
 *      upon the anchor specified.  The anchor indicates where
 *      the given xy position is in relation to the bounding box.
 *
 *              nw --- n --- ne
 *              |            |
 *              w   center   e
 *              |            |
 *              sw --- s --- se
 *
 *      The coordinates returned are translated to the origin of the
 *      bounding box (suitable for giving to XCopyArea, XCopyPlane, etc.)
 *
 * Results:
 *      The translated coordinates of the bounding box are returned.
 *
 * -----------------------------------------------------------------
 */
Point2D
Blt_TranslatePoint(pointPtr, width, height, anchor)
    Point2D *pointPtr;          /* Window coordinates of anchor */
    int width, height;          /* Extents of the bounding box */
    Tk_Anchor anchor;           /* Direction of the anchor */
{
    Point2D trans;

    trans = *pointPtr;
    switch (anchor) {
    case TK_ANCHOR_NW:          /* Upper left corner */
        break;
    case TK_ANCHOR_W:           /* Left center */
        trans.y -= (height * 0.5);
        break;
    case TK_ANCHOR_SW:          /* Lower left corner */
        trans.y -= height;
        break;
    case TK_ANCHOR_N:           /* Top center */
        trans.x -= (width * 0.5);
        break;
    case TK_ANCHOR_CENTER:      /* Center */
        trans.x -= (width * 0.5);
        trans.y -= (height * 0.5);
        break;
    case TK_ANCHOR_S:           /* Bottom center */
        trans.x -= (width * 0.5);
        trans.y -= height;
        break;
    case TK_ANCHOR_NE:          /* Upper right corner */
        trans.x -= width;
        break;
    case TK_ANCHOR_E:           /* Right center */
        trans.x -= width;
        trans.y -= (height * 0.5);
        break;
    case TK_ANCHOR_SE:          /* Lower right corner */
        trans.x -= width;
        trans.y -= height;
        break;
    }
    return trans;
}

/*
 * -----------------------------------------------------------------
 *
 * Blt_CreateTextBitmap --
 *
 *      Draw a bitmap, using the the given window coordinates
 *      as an anchor for the text bounding box.
 *
 * Results:
 *      Returns the bitmap representing the text string.
 *
 * Side Effects:
 *      Bitmap is drawn using the given font and GC in the
 *      drawable at the given coordinates, anchor, and rotation.
 *
 * -----------------------------------------------------------------
 */
Pixmap
Blt_CreateTextBitmap(tkwin, textPtr, tsPtr, bmWidthPtr, bmHeightPtr)
    Tk_Window tkwin;
    TextLayout *textPtr;        /* Text string to draw */
    TextStyle *tsPtr;           /* Text attributes: rotation, color, font,
                                 * linespacing, justification, etc. */
    int *bmWidthPtr;
    int *bmHeightPtr;           /* Extents of rotated text string */
{
    int width, height;
    Pixmap bitmap;
    Display *display;
    Window root;
    GC gc;
#ifdef WIN32
    HDC hDC;
    TkWinDCState state;
#endif
    display = Tk_Display(tkwin);

    width = textPtr->width;
    height = textPtr->height;

    /* Create a temporary bitmap to contain the text string */
    root = RootWindow(display, Tk_ScreenNumber(tkwin));
    bitmap = Tk_GetPixmap(display, root, width, height, 1);
    assert(bitmap != None);
    if (bitmap == None) {
        return None;            /* Can't allocate pixmap. */
    }
    /* Clear the pixmap and draw the text string into it */
    gc = Blt_GetBitmapGC(tkwin);
#ifdef WIN32
    hDC = TkWinGetDrawableDC(display, bitmap, &state);
    PatBlt(hDC, 0, 0, width, height, WHITENESS);
    TkWinReleaseDrawableDC(bitmap, hDC, &state);
#else
    XSetForeground(display, gc, 0);
    XFillRectangle(display, bitmap, gc, 0, 0, width, height);
#endif /* WIN32 */

    XSetFont(display, gc, Tk_FontId(tsPtr->font));
    XSetForeground(display, gc, 1);
    DrawTextLayout(display, bitmap, gc, tsPtr->font, 0, 0, textPtr);

#ifdef WIN32
    /*
     * Under Win32 when drawing into a bitmap, the bits are
     * reversed. Which is why we are inverting the bitmap here.
     */
    hDC = TkWinGetDrawableDC(display, bitmap, &state);
    PatBlt(hDC, 0, 0, width, height, DSTINVERT);
    TkWinReleaseDrawableDC(bitmap, hDC, &state);
#endif
    if (tsPtr->theta != 0.0) {
        Pixmap rotBitmap;

        /* Replace the text pixmap with a rotated one */

        rotBitmap = Blt_RotateBitmap(tkwin, bitmap, width, height, 
                tsPtr->theta, bmWidthPtr, bmHeightPtr);
        assert(rotBitmap);
        if (rotBitmap != None) {
            Tk_FreePixmap(display, bitmap);
            return rotBitmap;
        }
    }
    *bmWidthPtr = textPtr->width, *bmHeightPtr = textPtr->height;
    return bitmap;
}

/*LINTLIBRARY*/
void
Blt_InitTextStyle(tsPtr)
    TextStyle *tsPtr;
{
    /* Initialize these attributes to zero */
    tsPtr->activeColor = (XColor *)NULL;
    tsPtr->anchor = TK_ANCHOR_CENTER;
    tsPtr->color = (XColor *)NULL;
    tsPtr->font = NULL;
    tsPtr->justify = TK_JUSTIFY_CENTER;
    tsPtr->leader = 0;
    tsPtr->padLeft = tsPtr->padRight = 0;
    tsPtr->padTop = tsPtr->padBottom = 0;
    tsPtr->shadow.color = (XColor *)NULL;
    tsPtr->shadow.offset = 0;
    tsPtr->state = 0;
    tsPtr->theta = 0.0;
}

void
Blt_SetDrawTextStyle(tsPtr, font, gc, normalColor, activeColor, shadowColor, 
        theta, anchor, justify, leader, shadowOffset)
    TextStyle *tsPtr;
    Tk_Font font;
    GC gc;
    XColor *normalColor, *activeColor, *shadowColor;
    double theta;
    Tk_Anchor anchor;
    Tk_Justify justify;
    int leader, shadowOffset;
{
    Blt_InitTextStyle(tsPtr);
    tsPtr->activeColor = activeColor;
    tsPtr->anchor = anchor;
    tsPtr->color = normalColor;
    tsPtr->font = font;
    tsPtr->gc = gc;
    tsPtr->justify = justify;
    tsPtr->leader = leader;
    tsPtr->shadow.color = shadowColor;
    tsPtr->shadow.offset = shadowOffset;
    tsPtr->theta = theta;
}

void
Blt_SetPrintTextStyle(tsPtr, font, fgColor, activeColor, shadowColor, theta, 
        anchor, justify, leader, shadowOffset)
    TextStyle *tsPtr;
    Tk_Font font;
    XColor *fgColor, *activeColor, *shadowColor;
    double theta;
    Tk_Anchor anchor;
    Tk_Justify justify;
    int leader, shadowOffset;
{
    Blt_InitTextStyle(tsPtr);
    tsPtr->color = fgColor;
    tsPtr->activeColor = activeColor;
    tsPtr->shadow.color = shadowColor;
    tsPtr->font = font;
    tsPtr->theta = theta;
    tsPtr->anchor = anchor;
    tsPtr->justify = justify;
    tsPtr->leader = leader;
    tsPtr->shadow.offset = shadowOffset;
}

/*
 * -----------------------------------------------------------------
 *
 * Blt_DrawTextLayout --
 *
 *      Draw a text string, possibly rotated, using the the given
 *      window coordinates as an anchor for the text bounding box.
 *      If the text is not rotated, simply use the X text drawing
 *      routines. Otherwise, generate a bitmap of the rotated text.
 *
 * Results:
 *      Returns the x-coordinate to the right of the text.
 *
 * Side Effects:
 *      Text string is drawn using the given font and GC at the
 *      the given window coordinates.
 *
 *      The Stipple, FillStyle, and TSOrigin fields of the GC are
 *      modified for rotated text.  This assumes the GC is private,
 *      *not* shared (via Tk_GetGC)
 *
 * -----------------------------------------------------------------
 */
void
Blt_DrawTextLayout(tkwin, drawable, textPtr, tsPtr, x, y)
    Tk_Window tkwin;
    Drawable drawable;
    TextLayout *textPtr;
    TextStyle *tsPtr;           /* Text attribute information */
    int x, y;                   /* Window coordinates to draw text */
{
    int width, height;
    double theta;
    Display *display;
    Pixmap bitmap;
    int active;

    if (!textPtr)
        return;
    
    display = Tk_Display(tkwin);
    theta = FMOD(tsPtr->theta, (double)360.0);
    if (theta < 0.0) {
        theta += 360.0;
    }
    active = tsPtr->state & STATE_ACTIVE;
    if (theta == 0.0) {

        /*
         * This is the easy case of no rotation. Simply draw the text
         * using the standard drawing routines.  Handle offset printing
         * for engraved (disabled) and shadowed text.
         */
        width = textPtr->width, height = textPtr->height;
        Blt_TranslateAnchor(x, y, width, height, tsPtr->anchor, &x, &y);
        if (tsPtr->state & (STATE_DISABLED | STATE_EMPHASIS)) {
            TkBorder *borderPtr = (TkBorder *) tsPtr->border;
            XColor *color1, *color2;

            color1 = borderPtr->lightColor, color2 = borderPtr->darkColor;
            if (tsPtr->state & STATE_EMPHASIS) {
                XColor *hold;

                hold = color1, color1 = color2, color2 = hold;
            }
            if (color1 != NULL) {
                XSetForeground(display, tsPtr->gc, color1->pixel);
            }
            DrawTextLayout(display, drawable, tsPtr->gc, tsPtr->font, x + 1, 
                y + 1, textPtr);
            if (color2 != NULL) {
                XSetForeground(display, tsPtr->gc, color2->pixel);
            }
            DrawTextLayout(display, drawable, tsPtr->gc, tsPtr->font, x, y, 
                textPtr);

            /* Reset the foreground color back to its original setting,
             * so not to invalidate the GC cache. */
            XSetForeground(display, tsPtr->gc, tsPtr->color->pixel);

            return;             /* Done */
        }
        if ((tsPtr->shadow.offset > 0) && (tsPtr->shadow.color != NULL)) {
            XSetForeground(display, tsPtr->gc, tsPtr->shadow.color->pixel);
            DrawTextLayout(display, drawable, tsPtr->gc, tsPtr->font, 
                   x + tsPtr->shadow.offset, y + tsPtr->shadow.offset, textPtr);
            XSetForeground(display, tsPtr->gc, tsPtr->color->pixel);
        }
        if (active) {
            XSetForeground(display, tsPtr->gc, tsPtr->activeColor->pixel);
        }
        DrawTextLayout(display, drawable, tsPtr->gc, tsPtr->font, x, y, 
                textPtr);
        if (active) {
            XSetForeground(display, tsPtr->gc, tsPtr->color->pixel);
        }
        return;                 /* Done */
    }
#ifdef WIN32
    if (Blt_DrawRotatedText(display, drawable, x, y, theta, tsPtr, textPtr)) {
        return;
    }
#endif
    /*
     * Rotate the text by writing the text into a bitmap and rotating
     * the bitmap.  Set the clip mask and origin in the GC first.  And
     * make sure we restore the GC because it may be shared.
     */
    tsPtr->theta = theta;
    bitmap = Blt_CreateTextBitmap(tkwin, textPtr, tsPtr, &width, &height);
    if (bitmap == None) {
        return;
    }
    Blt_TranslateAnchor(x, y, width, height, tsPtr->anchor, &x, &y);
#ifdef notdef
    theta = FMOD(theta, (double)90.0);
#endif
    XSetClipMask(display, tsPtr->gc, bitmap);

    if (tsPtr->state & (STATE_DISABLED | STATE_EMPHASIS)) {
        TkBorder *borderPtr = (TkBorder *) tsPtr->border;
        XColor *color1, *color2;

        color1 = borderPtr->lightColor, color2 = borderPtr->darkColor;
        if (tsPtr->state & STATE_EMPHASIS) {
            XColor *hold;

            hold = color1, color1 = color2, color2 = hold;
        }
        if (color1 != NULL) {
            XSetForeground(display, tsPtr->gc, color1->pixel);
        }
        XSetClipOrigin(display, tsPtr->gc, x + 1, y + 1);
        XCopyPlane(display, bitmap, drawable, tsPtr->gc, 0, 0, width, 
                height, x + 1, y + 1, 1);
        if (color2 != NULL) {
            XSetForeground(display, tsPtr->gc, color2->pixel);
        }
        XSetClipOrigin(display, tsPtr->gc, x, y);
        XCopyPlane(display, bitmap, drawable, tsPtr->gc, 0, 0, width, 
                height, x, y, 1);
        XSetForeground(display, tsPtr->gc, tsPtr->color->pixel);
    } else {
        if ((tsPtr->shadow.offset > 0) && (tsPtr->shadow.color != NULL)) {
            XSetClipOrigin(display, tsPtr->gc, x + tsPtr->shadow.offset,
                           y + tsPtr->shadow.offset);
            XSetForeground(display, tsPtr->gc, tsPtr->shadow.color->pixel);
            XCopyPlane(display, bitmap, drawable, tsPtr->gc, 0, 0, width, 
                height, x + tsPtr->shadow.offset, y + tsPtr->shadow.offset, 1);
            XSetForeground(display, tsPtr->gc, tsPtr->color->pixel);
        }
        if (active) {
            XSetForeground(display, tsPtr->gc, tsPtr->activeColor->pixel);
        }
        XSetClipOrigin(display, tsPtr->gc, x, y);
        XCopyPlane(display, bitmap, drawable, tsPtr->gc, 0, 0, width, height, 
                x, y, 1);
        if (active) {
            XSetForeground(display, tsPtr->gc, tsPtr->color->pixel);
        }
    }
    XSetClipMask(display, tsPtr->gc, None);
    Tk_FreePixmap(display, bitmap);
}

void
Blt_DrawText2(tkwin, drawable, string, tsPtr, x, y, areaPtr)
    Tk_Window tkwin;
    Drawable drawable;
    char string[];
    TextStyle *tsPtr;           /* Text attribute information */
    int x, y;                   /* Window coordinates to draw text */
    Dim2D *areaPtr;
{
    TextLayout *textPtr;
    int width, height;
    double theta;

    if ((string == NULL) || (*string == '\0')) {
        return;                 /* Empty string, do nothing */
    }
    textPtr = Blt_GetTextLayout(string, tsPtr);
    Blt_DrawTextLayout(tkwin, drawable, textPtr, tsPtr, x, y);
    theta = FMOD(tsPtr->theta, (double)360.0);
    if (theta < 0.0) {
        theta += 360.0;
    }
    width = textPtr->width;
    height = textPtr->height;
    if (theta != 0.0) {
        double rotWidth, rotHeight;

        Blt_GetBoundingBox(width, height, theta, &rotWidth, &rotHeight, 
           (Point2D *)NULL);
        width = ROUND(rotWidth);
        height = ROUND(rotHeight);
    }
    areaPtr->width = width;
    areaPtr->height = height;
    Blt_Free(textPtr);
}

void
Blt_DrawText(tkwin, drawable, string, tsPtr, x, y)
    Tk_Window tkwin;
    Drawable drawable;
    char string[];
    TextStyle *tsPtr;           /* Text attribute information */
    int x, y;                   /* Window coordinates to draw text */
{
    TextLayout *textPtr;

    if ((string == NULL) || (*string == '\0')) {
        return;                 /* Empty string, do nothing */
    }
    textPtr = Blt_GetTextLayout(string, tsPtr);
    Blt_DrawTextLayout(tkwin, drawable, textPtr, tsPtr, x, y);
    Blt_Free(textPtr);
}

GC
Blt_GetBitmapGC(tkwin)
    Tk_Window tkwin;
{
    int isNew;
    GC gc;
    Display *display;
    Blt_HashEntry *hPtr;

    if (!initialized) {
        Blt_InitHashTable(&bitmapGCTable, BLT_ONE_WORD_KEYS);
        initialized = TRUE;
    }
    display = Tk_Display(tkwin);
    hPtr = Blt_CreateHashEntry(&bitmapGCTable, (char *)display, &isNew);
    if (isNew) {
        Pixmap bitmap;
        XGCValues gcValues;
        unsigned long gcMask;
        Window root;

        root = RootWindow(display, Tk_ScreenNumber(tkwin));
        bitmap = Tk_GetPixmap(display, root, 1, 1, 1);
        gcValues.foreground = gcValues.background = 0;
        gcMask = (GCForeground | GCBackground);
        gc = Blt_GetPrivateGCFromDrawable(display, bitmap, gcMask, &gcValues);
        Tk_FreePixmap(display, bitmap);
        Blt_SetHashValue(hPtr, gc);
    } else {
        gc = (GC)Blt_GetHashValue(hPtr);
    }
    return gc;
}

void
Blt_ResetTextStyle(tkwin, tsPtr)
    Tk_Window tkwin;
    TextStyle *tsPtr;
{
    GC newGC;
    XGCValues gcValues;
    unsigned long gcMask;

    gcMask = GCFont;
    gcValues.font = Tk_FontId(tsPtr->font);
    if (tsPtr->color != NULL) {
        gcMask |= GCForeground;
        gcValues.foreground = tsPtr->color->pixel;
    }
    newGC = Tk_GetGC(tkwin, gcMask, &gcValues);
    if (tsPtr->gc != NULL) {
        Tk_FreeGC(Tk_Display(tkwin), tsPtr->gc);
    }
    tsPtr->gc = newGC;
}

void
Blt_FreeTextStyle(display, tsPtr)
    Display *display;
    TextStyle *tsPtr;
{
    if (tsPtr->gc != NULL) {
        Tk_FreeGC(display, tsPtr->gc);
    }
}