xref: /dports/math/grace/grace-5.1.25/Xbae/Xbae/Utils.c

/*
 * Copyright(c) 1992 Bell Communications Research, Inc. (Bellcore)
 * Copyright(c) 1995-99 Andrew Lister
 *                        All rights reserved
 * Permission to use, copy, modify and distribute this material for
 * any purpose and without fee is hereby granted, provided that the
 * above copyright notice and this permission notice appear in all
 * copies, and that the name of Bellcore not be used in advertising
 * or publicity pertaining to this material without the specific,
 * prior written permission of an authorized representative of
 * Bellcore.
 *
 * BELLCORE MAKES NO REPRESENTATIONS AND EXTENDS NO WARRANTIES, EX-
 * PRESS OR IMPLIED, WITH RESPECT TO THE SOFTWARE, INCLUDING, BUT
 * NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
 * FITNESS FOR ANY PARTICULAR PURPOSE, AND THE WARRANTY AGAINST IN-
 * FRINGEMENT OF PATENTS OR OTHER INTELLECTUAL PROPERTY RIGHTS.  THE
 * SOFTWARE IS PROVIDED "AS IS", AND IN NO EVENT SHALL BELLCORE OR
 * ANY OF ITS AFFILIATES BE LIABLE FOR ANY DAMAGES, INCLUDING ANY
 * LOST PROFITS OR OTHER INCIDENTAL OR CONSEQUENTIAL DAMAGES RELAT-
 * ING TO THE SOFTWARE.
 *
 * MatrixWidget Author: Andrew Wason, Bellcore, aw@bae.bellcore.com
 *
 * $Id: Utils.c,v 1.1 1999/09/11 01:25:38 fnevgeny Exp $
 */

/*
 * Utils.c created by Andrew Lister (7 August, 1995)
 */

#ifdef HAVE_CONFIG_H
#include <config.h>
#endif

#include <Xm/Xm.h>
#include <Xbae/MatrixP.h>
#include <Xbae/Macros.h>
#include <Xbae/Utils.h>
#include <Xbae/Actions.h>
#include <Xm/ScrollBar.h>
/*
 * Return the top and bottom-most visible non-fixed row
 */
void
xbaeGetVisibleRows(mw, top_row, bottom_row)
XbaeMatrixWidget mw;
int *top_row, *bottom_row;
{
    *top_row = VERT_ORIGIN(mw) + mw->matrix.fixed_rows;
    *bottom_row = *top_row + (VISIBLE_HEIGHT(mw) - 1) / ROW_HEIGHT(mw);
    SANITY_CHECK_ROW(mw, *bottom_row);
}

/*
 * Return the left and right-most visible non-fixed column
 */
void
xbaeGetVisibleColumns(mw, left_column, right_column)
XbaeMatrixWidget mw;
int *left_column, *right_column;
{
    *left_column = xbaeXtoCol(mw, FIXED_COLUMN_WIDTH(mw) + HORIZ_ORIGIN(mw));
    *right_column = xbaeXtoCol(mw, FIXED_COLUMN_WIDTH(mw) + HORIZ_ORIGIN(mw) +
			       VISIBLE_WIDTH(mw) - 1);
}

/*
 * Return the top and bottom row and left and right column of
 * the visible non-fixed cells
 */
void
xbaeGetVisibleCells(mw, top_row, bottom_row, left_column, right_column)
XbaeMatrixWidget mw;
int *top_row, *bottom_row, *left_column, *right_column;
{
    xbaeGetVisibleRows(mw, top_row, bottom_row);
    xbaeGetVisibleColumns(mw, left_column, right_column);
}

/*
 * Try to make the column specified by the leftColumn resource
 * be the left column. The column is relative to fixed_columns - so 0 would
 * be the first non-fixed column.
 * If we can't make leftColumn the left column, make it as close as possible.
 */
void
xbaeAdjustLeftColumn(mw)
XbaeMatrixWidget mw;
{
    int y;
    int i;
    int required_width;
    int visible_width = VISIBLE_WIDTH(mw);
    int dynamic_columns;

    if (visible_width < 0)	/* will happen on initialisation */
	return;

    /* Adjust the column if it is out of bounds */

    dynamic_columns =  mw->matrix.columns - mw->matrix.fixed_columns -
	mw->matrix.trailing_fixed_columns;

    if (mw->matrix.left_column < 0)
	mw->matrix.left_column = 0;
    else if (mw->matrix.left_column > dynamic_columns-1)
	mw->matrix.left_column =  dynamic_columns-1;

    /* Find out where the horiz_origin will be if we tried setting the
       given left column and adjust till it all fits */
    do
    {
	required_width = 0;
	HORIZ_ORIGIN(mw) = 0;
	xbaeRowColToXY(mw, mw->matrix.fixed_rows,
		       mw->matrix.left_column + mw->matrix.fixed_columns,
		       &mw->matrix.horiz_origin, &y);
	/* Check how much space is remaining */
	for (i = mw->matrix.left_column + mw->matrix.fixed_columns;
	     i < mw->matrix.columns -
		 (int)mw->matrix.trailing_fixed_columns; i++)
	{
	    required_width += COLUMN_WIDTH(mw, i);
 	    if (required_width >= visible_width)
		break;
	}
	if (required_width < visible_width)
	    mw->matrix.left_column--;
    }
    while (required_width < visible_width);
}

/*
 * Try to make the row specified by the topRow resource (VERT_ORIGIN)
 * be the top row. The row is relative to fixed_rows - so 0 would
 * be the first non-fixed row.
 * If we can't make topRow the top row, make it as close as possible.
 */
void
xbaeAdjustTopRow(mw)
XbaeMatrixWidget mw;
{
    int rows_visible = VISIBLE_HEIGHT(mw) / ROW_HEIGHT(mw);

    /*
     * If we have less than one full row visible, then count it as a full row
     */
    if (rows_visible <= 0)
	rows_visible = 1;
    /*
     * rows_visible might be inaccurate since Clip may not have been resized
     */
    else if (rows_visible > mw->matrix.rows)
	rows_visible = mw->matrix.rows;

    if (VERT_ORIGIN(mw) > (int)(mw->matrix.rows - rows_visible -
				mw->matrix.fixed_rows -
				mw->matrix.trailing_fixed_rows))
	mw->matrix.top_row = mw->matrix.rows - rows_visible -
	    mw->matrix.fixed_rows - mw->matrix.trailing_fixed_rows;
    else if (VERT_ORIGIN(mw) < 0)
	mw->matrix.top_row = 0;
}

/*
 * Utility function to clear a cell so we can draw something new in it.
 * Does not generate expose events on the cell.
 * Does not check if the cell is actually visible before clearing it.
 */
void
xbaeClearCell(mw, row, column)
XbaeMatrixWidget mw;
int row, column;
{
    int x, y;
    Boolean fixed = IS_FIXED(mw, row, column);
    Window win = fixed ? XtWindow(mw) : XtWindow(ClipChild(mw));

    if (!win || mw->matrix.disable_redisplay)
	return;

    xbaeRowColToXY(mw, row, column, &x, &y);

    /*
     * Make sure y coord is valid
     */
#if 0
    if ((win == XtWindow(mw)) &&
	((y > (int)(CLIP_VERT_VISIBLE_SPACE(mw) +
		    ROW_LABEL_OFFSET(mw) - 1)) ||
	 (y < (int)ROW_LABEL_OFFSET(mw))))
	return;
#endif
    XClearArea(XtDisplay(mw), win, x, y, COLUMN_WIDTH(mw, column),
	       ROW_HEIGHT(mw), fixed);
}

/*
 * Return True if a row is visible on the screen (not scrolled totally off)
 */
Boolean
xbaeIsRowVisible(mw, row)
XbaeMatrixWidget mw;
int row;
{
    /*
     * If we are not in a fixed row or trailing fixed row,
     * see if we are on the screen vertically
     * (fixed rows are always on the screen)
     */
    if (! IS_FIXED_ROW(mw, row))
    {
	row -= mw->matrix.fixed_rows;

	if (row >= VERT_ORIGIN(mw))
	{
	    double height = ((double)ClipChild(mw)->core.height /
			     ROW_HEIGHT(mw)) + VERT_ORIGIN(mw);
	    if (row < height)
		return True;

	    if ((int)ClipChild(mw)->core.height >
		(int)TEXT_HEIGHT_OFFSET(mw) &&
		(int)ClipChild(mw)->core.height < ROW_HEIGHT(mw) &&
		row == VERT_ORIGIN(mw))

		return True;
	}
    }
    else
	return True;

    return False;
}

/*
 * Return True if a column is visible on the screen (not scrolled totally off)
 */
Boolean
xbaeIsColumnVisible(mw, column)
XbaeMatrixWidget mw;
int column;
{
    /*
     * If we are not in a fixed column, see if we are on the screen
     * horizontally (fixed columns are always on the screen)
     */
    if (! IS_FIXED_COLUMN(mw, column))
    {
	int x;

	/*
	 * Calculate the x endpoints of this column
	 */
	x = COLUMN_POSITION(mw, column) -
	    COLUMN_POSITION(mw, mw->matrix.fixed_columns);

	/*
	 * Check if we are visible horizontally
	 */
	if (x + COLUMN_WIDTH(mw, column) > HORIZ_ORIGIN(mw) &&
	    x < (int)(ClipChild(mw)->core.width) + HORIZ_ORIGIN(mw))
	    return True;
    }
    else
	return True;

    return False;
}

/*
 * Return True if a cell is visible on the screen (not scrolled totally off)
 */
Boolean
xbaeIsCellVisible(mw, row, column)
XbaeMatrixWidget mw;
int row, column;
{
    return xbaeIsRowVisible(mw, row) && xbaeIsColumnVisible(mw, column);
}

/*
 * Scroll a row so it is visible on the screen.
 */
void
xbaeMakeRowVisible(mw, row)
XbaeMatrixWidget mw;
int row;
{
    int rows_visible;
    int value, slider_size, increment, page_increment, vert_value;

    /*
     * If we are in a fixed row, we are already visible.
     */
    if (IS_FIXED_ROW(mw, row))
	return;

    /*
     * Take into account fixed_rows.
     * Calculate the number of rows visible. If less than one full
     * row is visible, use one full row.
     */
    row -= mw->matrix.fixed_rows;
    rows_visible = VISIBLE_HEIGHT(mw) / ROW_HEIGHT(mw);
    if (rows_visible == 0)
	rows_visible = 1;

    /*
     * Figure out the new value of the VSB to scroll this cell
     * onto the screen (the VSB uses row coordinates instead of pixels)
     */
    if (row < VERT_ORIGIN(mw))
	vert_value = row;
    else if (row >= rows_visible + VERT_ORIGIN(mw))
	vert_value = row - rows_visible + 1;
    else
	vert_value = VERT_ORIGIN(mw);

    /*
     * Give the VSB the new value and pass a flag to make it call
     * our scroll callbacks
     */
    if (vert_value != VERT_ORIGIN(mw))
    {
	XmScrollBarGetValues(VertScrollChild(mw), &value,
			     &slider_size, &increment, &page_increment);
	XmScrollBarSetValues(VertScrollChild(mw), vert_value,
			     slider_size, increment, page_increment, True);
    }
}

/*
 * Scroll a column so it is visible on the screen.
 */
void
xbaeMakeColumnVisible(mw, column)
XbaeMatrixWidget mw;
int column;
{
    int value, slider_size, increment, page_increment, x, horiz_value;

    /*
     * If we are in a fixed column, we are already visible.
     */
    if (IS_FIXED_COLUMN(mw, column))
	return;

    /*
     * Calculate the x position of this column
     */
    x = COLUMN_POSITION(mw, column) -
	COLUMN_POSITION(mw, mw->matrix.fixed_columns);

    /*
     * Figure out the new value of the HSB to scroll this cell
     * onto the screen. If the whole cell won't fit, scroll so its
     * left edge is visible.
     */
    if (x < HORIZ_ORIGIN(mw))
	horiz_value = x;
    else if (x + COLUMN_WIDTH(mw, column) >
	     VISIBLE_WIDTH(mw) + HORIZ_ORIGIN(mw))
    {
	int off = (x + COLUMN_WIDTH(mw, column)) - (VISIBLE_WIDTH(mw) +
						    HORIZ_ORIGIN(mw));

	if (x - off < HORIZ_ORIGIN(mw))
	    horiz_value = x;
	else
	    horiz_value = HORIZ_ORIGIN(mw) + off;
    }
    else
	horiz_value = HORIZ_ORIGIN(mw);

    /*
     * Give the HSB the new value and pass a flag to make it
     * call our scroll callbacks
     */
    if (horiz_value != HORIZ_ORIGIN(mw))
    {
	XmScrollBarGetValues(HorizScrollChild(mw), &value,
			     &slider_size, &increment, &page_increment);
	XmScrollBarSetValues(HorizScrollChild(mw), horiz_value,
			     slider_size, increment, page_increment, True);
    }
}

/*
 * Scrolls a fixed or non-fixed cell so it is visible on the screen.
 */
void
xbaeMakeCellVisible(mw, row, column)
XbaeMatrixWidget mw;
int row, column;
{
    if (!xbaeIsRowVisible(mw, row))
	xbaeMakeRowVisible(mw, row);
    if (!xbaeIsColumnVisible(mw, column))
	xbaeMakeColumnVisible(mw, column);
}

/*
 * Set the clip_mask in our draw and shadow GCs.  This is necessary for
 * drawing non-fixed column labels and fixed rows.
 */
void
xbaeSetClipMask(mw, clip_reason)
XbaeMatrixWidget mw;
unsigned int clip_reason;
{
    XRectangle r[2];
    int n = 1;
    /*
     * Set new clip reason
     */
    mw->matrix.current_clip = clip_reason;

    /*
     * XRectangle enclosing column labels and fixed rows
     */
    if ((CLIP_FIXED_COLUMNS & clip_reason) && mw->matrix.fixed_columns)
    {
	r[0].x = COLUMN_LABEL_OFFSET(mw);
	r[0].width = FIXED_COLUMN_WIDTH(mw);
    }
    else if ((CLIP_TRAILING_FIXED_COLUMNS & clip_reason) &&
	     (mw->matrix.trailing_fixed_columns || mw->matrix.fill))
    {
	r[0].x = TRAILING_FIXED_COLUMN_LABEL_OFFSET(mw);
	r[0].width = TRAILING_FIXED_COLUMN_WIDTH(mw);
	if (NEED_HORIZ_FILL(mw))
	    r[0].width += FILL_HORIZ_WIDTH(mw);
    }
    else
    {
	r[0].x = FIXED_COLUMN_LABEL_OFFSET(mw);
	r[0].width = ClipChild(mw)->core.width;
	if (NEED_HORIZ_FILL(mw))
	    r[0].width += FILL_HORIZ_WIDTH(mw);
    }

    if (CLIP_VISIBLE_HEIGHT & clip_reason)
    {
	r[0].y = ROW_LABEL_OFFSET(mw);
	r[0].height = ClipChild(mw)->core.height +
	    FIXED_ROW_HEIGHT(mw) + TRAILING_FIXED_ROW_HEIGHT(mw);
	if (NEED_VERT_FILL(mw))
  	    r[0].height += FILL_VERT_HEIGHT(mw);
    }
    else if ((CLIP_TRAILING_FIXED_ROWS & clip_reason) &&
	     (mw->matrix.trailing_fixed_rows || mw->matrix.fill))
    {
 	r[0].y = TRAILING_FIXED_ROW_LABEL_OFFSET(mw);
 	r[0].height = TRAILING_FIXED_ROW_HEIGHT(mw);
  	if (NEED_VERT_FILL(mw))
  	    r[0].height += FILL_VERT_HEIGHT(mw);
    }
    else if (CLIP_BETWEEN_FIXED_ROWS & clip_reason)
    {
	r[0].y = FIXED_ROW_LABEL_OFFSET(mw);
	r[0].height = ClipChild(mw)->core.height;
    }
    else    /* clip fixed rows & clip_reason */
    {
	r[0].y = HORIZ_SB_OFFSET(mw);
	r[0].height = FIXED_ROW_LABEL_OFFSET(mw);
    }
    if (mw->matrix.row_labels)
    {
	r[1].x = VERT_SB_OFFSET(mw);
	r[1].y = FIXED_ROW_LABEL_OFFSET(mw);
	r[1].width = ROW_LABEL_WIDTH(mw);
	r[1].height = ClipChild(mw)->core.height;
	n = 2;
    }
    /*
     * Reset the clip_mask in our clipping GCs
     */
    XSetClipRectangles(XtDisplay(mw), mw->matrix.cell_grid_line_gc,
		       0, 0, r, n, Unsorted);
    XSetClipRectangles(XtDisplay(mw), mw->matrix.cell_top_shadow_clip_gc,
		       0, 0, r, n, Unsorted);
    XSetClipRectangles(XtDisplay(mw), mw->matrix.cell_bottom_shadow_clip_gc,
		       0, 0, r, n, Unsorted);
    XSetClipRectangles(XtDisplay(mw), mw->matrix.label_clip_gc,
		       0, 0, r, n, Unsorted);
}


/*
 * Get the total pixel width of the non-fixed cell area
 */
void
xbaeGetCellTotalWidth(mw)
XbaeMatrixWidget mw;
{
    int i, columns;

    /*
     * Calculate width of non-fixed cell area.
     */
    columns = TRAILING_HORIZ_ORIGIN(mw);
    for (i = mw->matrix.fixed_columns, mw->matrix.non_fixed_total_width = 0;
	 i < columns;
	 i++)
	mw->matrix.non_fixed_total_width += COLUMN_WIDTH(mw, i);
}

/*
 * Cache the pixel position of each column
 */
void
xbaeGetColumnPositions(mw)
XbaeMatrixWidget mw;
{
    int i, x;

    for (i = 0, x = 0;
	 i < mw->matrix.columns;
	 x += COLUMN_WIDTH(mw, i), i++)
	COLUMN_POSITION(mw, i) = x;
}

void
#if NeedFunctionPrototypes
xbaeComputeSize(XbaeMatrixWidget mw, Boolean compute_width,
		Boolean compute_height)
#else
xbaeComputeSize(mw, compute_width, compute_height)
XbaeMatrixWidget mw;
Boolean compute_width;
Boolean compute_height;
#endif
{
    unsigned long full_width = NON_FIXED_TOTAL_WIDTH(mw) +
	FIXED_COLUMN_WIDTH(mw) + TRAILING_FIXED_COLUMN_WIDTH(mw) +
	ROW_LABEL_WIDTH(mw) + 2 * mw->manager.shadow_thickness;
    unsigned long full_height = CELL_TOTAL_HEIGHT(mw) +
	FIXED_ROW_HEIGHT(mw) + TRAILING_FIXED_ROW_HEIGHT(mw) +
	COLUMN_LABEL_HEIGHT(mw) + 2 * mw->manager.shadow_thickness;
    unsigned long width, height;

    /*
     * Calculate our width.
     * If visible_columns is set, then base it on that.
     * Otherwise, if the compute_width flag is set, then we are full width.
     * Otherwise we keep whatever width we are.
     */
    if (mw->matrix.visible_columns)
	width = ROW_LABEL_WIDTH(mw) + 2 * mw->manager.shadow_thickness +
	    COLUMN_WIDTH(mw, (mw->matrix.visible_columns +
			      mw->matrix.fixed_columns) - 1) +
	    COLUMN_POSITION(mw, mw->matrix.fixed_columns +
			    mw->matrix.visible_columns - 1) +
	    TRAILING_FIXED_COLUMN_WIDTH(mw);
    else if (compute_width)
	width = full_width;
    else
	width = mw->core.width;

    /*
     * Calculate our height.
     * If visible_rows is set, then base it on that.
     * Otherwise, if the compute_height flag is set, then we are full height.
     * Otherwise we keep whatever height we are.
     */
    if (mw->matrix.visible_rows)
	height = mw->matrix.visible_rows * ROW_HEIGHT(mw) +
	    TRAILING_FIXED_ROW_HEIGHT(mw) + FIXED_ROW_HEIGHT(mw) +
	    COLUMN_LABEL_HEIGHT(mw) + 2 * mw->manager.shadow_thickness;
    else if (compute_height)
	height = full_height;
    else
	height = mw->core.height;

    /*
     * Store our calculated size.
     */
    mw->core.width = width;
    mw->core.height = height;

    /*
     * If we are less than full width or our horizontal display policy is
     * constant, then we need an HSB, so increment our height by the size
     * of the HSB (if we are allowed to modify our height and we are allowed
     * to have an HSB).
     */
    if (((width < full_width) ||
	 (XmDISPLAY_STATIC == mw->matrix.hsb_display_policy)) &&
	(compute_height || mw->matrix.visible_rows) &&
	(XmDISPLAY_NONE != mw->matrix.hsb_display_policy))
	mw->core.height += HORIZ_SB_HEIGHT(mw);

    /*
     * If we are less than full height or our vertical display policy is
     * constant, then we need a VSB, so increment our width by the size
     * of the VSB (if we are allowed to modify our width and we are allowed
     * to have a VSB).
     */
    if (((height < full_height) ||
	 (XmDISPLAY_STATIC == mw->matrix.vsb_display_policy)) &&
	(compute_width || mw->matrix.visible_columns) &&
	(XmDISPLAY_NONE != mw->matrix.vsb_display_policy))
	mw->core.width += VERT_SB_WIDTH(mw);

    /*
     * Save our calculated size for use in our query_geometry method.
     * This is the size we really want to be (not necessarily the size
     * we will end up being).
     */
    mw->matrix.desired_width = mw->core.width;
    mw->matrix.desired_height = mw->core.height;
}

/*
 * Return the length of the longest row label
 */
short
xbaeMaxRowLabel(mw)
XbaeMatrixWidget mw;
{
    int i;
    short max = 0, len;

    /*
     * Determine the length of the longest row label
     */
    for (i = 0; i < mw->matrix.rows; i++)
    {
	len = strlen(mw->matrix.row_labels[i]);
	if (len > max)
	    max = len;
    }
    return max;
}

void
xbaeParseColumnLabel(label, lines)
String label;
ColumnLabelLines lines;
{
    char *nl;

    /*
     * First count the number of lines in the label
     */
    lines->lines = 1;
    nl = label;
    while ((nl = strchr(nl, '\n')) != NULL)
    {
	nl++;
	lines->lines++;
    }

    /*
     * Now malloc a lengths array of the correct size.
     */
    lines->lengths = (int *) XtMalloc(lines->lines * sizeof(int));

    /*
     * An entry in the lengths array is the length of that line (substring).
     */

    /*
     * Handle the case of one line (no strchr() needed)
     */
    if (lines->lines == 1)
	lines->lengths[0] = strlen(label);
    else
    {
	int i;

	nl = label;
	i = 0;
	while ((nl = strchr(nl, '\n')) != NULL)
	{
	    lines->lengths[i] = nl - label;
	    nl++;
	    label = nl;
	    i++;
	}
	lines->lengths[i] = strlen(label);
    }
}

/*
 * Convert an x/y pixel position to the row/column cell position it picks.
 * 'cell' specifies whether the x/y coord is relative to the fixed cells
 * window or the non-fixed cells window.
 * The coords x,y are adjusted so they are relative to the origin of the
 * picked cell.
 * If we are "out of bounds" on the ``low'' side, go ahead and return False
 * to show an error, but also set the row/column to -1 to indicate this could
 * be a row/column header.  This is currently undocumented behaviour, but
 * may be useful nevertheless.
 */
Boolean
xbaeXYToRowCol(mw, x, y, row, column, cell)
XbaeMatrixWidget mw;
int *x, *y;
int *row, *column;
CellType cell;
{
    Rectangle rect;
    unsigned int inBox = CLIP_NONE;
    Boolean need_vert_dead_space_fill = NEED_VERT_DEAD_SPACE_FILL(mw);
    int horiz_sb_offset = HORIZ_SB_OFFSET(mw);
    int vert_sb_offset = VERT_SB_OFFSET(mw);
    int column_label_height = COLUMN_LABEL_HEIGHT(mw);
    int row_label_offset = ROW_LABEL_OFFSET(mw);
    int row_label_width = ROW_LABEL_WIDTH(mw);
    int fixed_row_label_offset = FIXED_ROW_LABEL_OFFSET(mw);
    int trailing_fixed_row_label_offset = TRAILING_FIXED_ROW_LABEL_OFFSET(mw);
    int trailing_fixed_row_height = TRAILING_FIXED_ROW_HEIGHT(mw);
    int fixed_column_label_offset = FIXED_COLUMN_LABEL_OFFSET(mw);
    int trailing_fixed_column_label_offset =
	TRAILING_FIXED_COLUMN_LABEL_OFFSET(mw);
    int trailing_fixed_column_width = TRAILING_FIXED_COLUMN_WIDTH(mw);
    int column_label_offset = COLUMN_LABEL_OFFSET(mw);
    int row_height = ROW_HEIGHT(mw);
    int unattached_trailing_rows_offset = UNATTACHED_TRAILING_ROWS_OFFSET(mw);

    *row = -1;
    *column = -1;

    switch (cell)
    {
    case FixedCell:
	/*
	 * Check the various rectangles enclosing the cells in fixed rows
	 * or columns.
	 *
	 * If we don't have fixed rows or columns, then we didn't hit a cell.
	 */

	/*
	 * Upper left
	 */
	if (!inBox && mw->matrix.fixed_columns && mw->matrix.fixed_rows)
	{
	    SETRECT(rect,
		    column_label_offset, row_label_offset,
		    fixed_column_label_offset - 1,
		    fixed_row_label_offset - 1);

	    if (INBOX(rect, *x, *y)) inBox = CLIP_FIXED_COLUMNS |
					 CLIP_FIXED_ROWS;
	}

	/*
	 * Lower left
	 */
	if (!inBox && mw->matrix.fixed_columns &&
	    mw->matrix.trailing_fixed_rows)
	{
	    SETRECT(rect,
		    column_label_offset,
		    trailing_fixed_row_label_offset,
		    fixed_column_label_offset - 1,
		    trailing_fixed_row_label_offset +
		    trailing_fixed_row_height - 1);

	    if (INBOX(rect, *x, *y)) inBox = CLIP_FIXED_COLUMNS |
					 CLIP_TRAILING_FIXED_ROWS;
	}

	/*
	 * Upper right
	 */
	if (!inBox && mw->matrix.trailing_fixed_columns &&
	    mw->matrix.fixed_rows)
	{
	    SETRECT(rect,
		    trailing_fixed_column_label_offset,
		    row_label_offset,
		    trailing_fixed_column_label_offset +
		    trailing_fixed_column_width - 1,
		    fixed_row_label_offset - 1);

	    if (INBOX(rect, *x, *y)) inBox = CLIP_TRAILING_FIXED_COLUMNS |
					 CLIP_FIXED_ROWS;
	}

	/*
	 * Lower right
	 */
	if (!inBox && mw->matrix.trailing_fixed_columns &&
	    mw->matrix.trailing_fixed_rows)
	{
	    SETRECT(rect,
		    trailing_fixed_column_label_offset,
		    trailing_fixed_row_label_offset,
		    trailing_fixed_column_label_offset +
		    trailing_fixed_column_width - 1,
		    trailing_fixed_row_label_offset +
		    trailing_fixed_row_height - 1);

	    if (INBOX(rect, *x, *y)) inBox = CLIP_TRAILING_FIXED_COLUMNS |
					 CLIP_TRAILING_FIXED_ROWS;
	}

	/*
	 * Right (mid)
	 */
	if (!inBox && mw->matrix.fixed_columns)
	{
	    SETRECT(rect,
		    column_label_offset, fixed_row_label_offset,
		    fixed_column_label_offset - 1,
		    need_vert_dead_space_fill ?
		    unattached_trailing_rows_offset :
		    trailing_fixed_row_label_offset - 1);

	    if (INBOX(rect, *x, *y)) inBox = CLIP_FIXED_COLUMNS;
	}

	/*
	 * Upper (mid)
	 */
	if (!inBox && mw->matrix.fixed_rows)
	{
	    SETRECT(rect,
		    fixed_column_label_offset, row_label_offset,
		    trailing_fixed_column_label_offset - 1,
		    fixed_row_label_offset - 1);

	    if (INBOX(rect, *x, *y)) inBox = CLIP_FIXED_ROWS;
	}

	/*
	 * Left (mid)
	 */
	if (!inBox && mw->matrix.trailing_fixed_columns)
	{
	    SETRECT(rect,
		    trailing_fixed_column_label_offset,
		    fixed_row_label_offset,
		    trailing_fixed_column_label_offset +
		    trailing_fixed_column_width - 1,
		    need_vert_dead_space_fill ?
		    unattached_trailing_rows_offset :
		    trailing_fixed_row_label_offset - 1);

	    if (INBOX(rect, *x, *y)) inBox = CLIP_TRAILING_FIXED_COLUMNS;
	}

	/*
	 * Lower (mid)
	 */
	if (!inBox && mw->matrix.trailing_fixed_rows)
	{
	    SETRECT(rect,
		    fixed_column_label_offset,
		    trailing_fixed_row_label_offset,
		    trailing_fixed_column_label_offset - 1,
		    trailing_fixed_row_label_offset +
		    trailing_fixed_row_height - 1);

	    if (INBOX(rect, *x, *y)) inBox = CLIP_TRAILING_FIXED_ROWS;
	}

	/*
	 * Trailing horizontal fill. This is trickier because
	 * even though we're in the fixed cell section, this really
	 * might not be a fixed cell.
	 */
	if (!inBox && IN_GRID_ROW_MODE(mw) && NEED_HORIZ_FILL(mw))
	{
	    int rx = trailing_fixed_column_label_offset +
		trailing_fixed_column_width;

	    /*
	     * Upper fill
	     */
	    if (!inBox && mw->matrix.fixed_rows)
	    {
		SETRECT(rect,
			rx, row_label_offset,
			rx + FILL_HORIZ_WIDTH(mw) - 1,
			fixed_row_label_offset - 1);

		if (INBOX(rect, *x, *y)) inBox = CLIP_TRAILING_HORIZ_FILL |
					     CLIP_FIXED_ROWS;
	    }

	    /*
	     * Lower fill
	     */
	    if (!inBox && mw->matrix.trailing_fixed_rows)
	    {
		SETRECT(rect,
			rx, trailing_fixed_row_label_offset,
			rx + FILL_HORIZ_WIDTH(mw) - 1,
			trailing_fixed_row_label_offset +
			trailing_fixed_row_height - 1);

		if (INBOX(rect, *x, *y)) inBox = CLIP_TRAILING_HORIZ_FILL |
					     CLIP_TRAILING_FIXED_ROWS;
	    }

	    /*
	     * Mid fill
	     */
	    if (!inBox)
	    {
		SETRECT(rect,
			rx, row_label_offset,
			rx + FILL_HORIZ_WIDTH(mw) - 1,
			trailing_fixed_row_label_offset +
			trailing_fixed_row_height - 1);

		if (INBOX(rect, *x, *y)) inBox = CLIP_TRAILING_HORIZ_FILL;
	    }
	}

	/*
	 * Trailing vertical fill
	 */
	if (!inBox && IN_GRID_COLUMN_MODE(mw) && NEED_VERT_FILL(mw))
	{
	    int ry = trailing_fixed_row_label_offset +
		trailing_fixed_row_height;

	    /*
	     * Left fill
	     */
	    if (mw->matrix.fixed_columns)
	    {
		SETRECT(rect,
			column_label_offset, ry,
			fixed_column_label_offset - 1,
			ry + FILL_VERT_HEIGHT(mw) - 1);

		if (INBOX(rect, *x, *y)) inBox = CLIP_TRAILING_VERT_FILL |
					     CLIP_FIXED_COLUMNS;
	    }

	    /*
	     * Right fill
	     */
	    if (!inBox && mw->matrix.trailing_fixed_columns)
	    {
		SETRECT(rect,
			trailing_fixed_column_label_offset, ry,
			trailing_fixed_column_label_offset +
			trailing_fixed_column_width - 1,
			ry + FILL_VERT_HEIGHT(mw) - 1);

		if (INBOX(rect, *x, *y)) inBox = CLIP_TRAILING_VERT_FILL |
					     CLIP_TRAILING_FIXED_COLUMNS;
	    }

	    /*
	     * Mid fill
	     */
	    if (!inBox)
	    {
		SETRECT(rect,
			column_label_offset, ry,
			trailing_fixed_column_label_offset +
			trailing_fixed_column_width - 1,
			ry + FILL_VERT_HEIGHT(mw) - 1);

		if (INBOX(rect, *x, *y)) inBox = CLIP_TRAILING_VERT_FILL;
	    }
	}

	/*
	 * If the point is in this rectangle, calculate the row/column
	 * it hits. Otherwise we didn't hit a cell.
	 */
	if (inBox)
	{
	    /*
	     * Translate the point to rect's coord system
	     */
	    if (mw->matrix.fixed_columns &&
		(CLIP_TRAILING_FIXED_ROWS == inBox ||
		 CLIP_FIXED_ROWS == inBox))
		*x -= column_label_offset;
	    else
		*x -= rect.x1;
	    *y -= rect.y1;

	    /*
	     * Convert this point to a row/column.  We need to take into
	     * account the scrolling origins depending on which fixed
	     * areas the point is located in.
	     */
	    if (CLIP_TRAILING_VERT_FILL & inBox)
	    {
		*row = mw->matrix.rows - 1;
		*y += row_height;
	    }
	    else
		*row = YtoRow(mw, *y) +
		    ((((CLIP_FIXED_COLUMNS & inBox) ||
		       (CLIP_TRAILING_FIXED_COLUMNS & inBox))) &&
		     !((CLIP_FIXED_ROWS & inBox) ||
		       (CLIP_TRAILING_FIXED_ROWS & inBox))
		     ? mw->matrix.fixed_rows : 0) +
		    ((CLIP_FIXED_ROWS & inBox) ? 0 : VERT_ORIGIN(mw)) +
		    ((CLIP_TRAILING_FIXED_ROWS & inBox) ?
		     TRAILING_VERT_ORIGIN(mw) - VERT_ORIGIN(mw) : 0);

	    if ((CLIP_TRAILING_FIXED_COLUMNS & inBox) ||
		(CLIP_TRAILING_HORIZ_FILL & inBox))
		*column = xbaeXtoTrailingCol(mw, *x);
	    else
		*column = xbaeXtoCol(
		    mw, *x + ((CLIP_FIXED_COLUMNS & inBox) ? 0 :
			      HORIZ_ORIGIN(mw)));

	    /*
	     * Sanity check the result, making sure it is in fixed location
	     */
	    if (((*row < 0) || (*column < 0)) ||
		(((mw->matrix.fixed_rows &&
		   (*row >= (int)mw->matrix.fixed_rows) &&
		   (!mw->matrix.trailing_fixed_rows ||
		    (mw->matrix.trailing_fixed_rows &&
		     (*row < TRAILING_VERT_ORIGIN(mw))))) ||
		  (!mw->matrix.fixed_rows &&
		   mw->matrix.trailing_fixed_rows &&
		   (*row < TRAILING_VERT_ORIGIN(mw)))) &&
		 ((mw->matrix.fixed_columns &&
		   (*column >= (int)mw->matrix.fixed_columns) &&
		   (!mw->matrix.trailing_fixed_columns ||
		    (mw->matrix.trailing_fixed_columns &&
		     (*column < TRAILING_HORIZ_ORIGIN(mw))))) ||
		  (!mw->matrix.fixed_columns &&
		   mw->matrix.trailing_fixed_columns &&
		   (*column < TRAILING_HORIZ_ORIGIN(mw))))))
		return False;

	    /*
	     * Adjust x,y so they are relative to this cells origin.
	     */
	    if (CLIP_TRAILING_HORIZ_FILL & inBox)
		*x += COLUMN_WIDTH(mw, *column);
	    else
		*x -= COLUMN_POSITION(mw, *column) -
		    (mw->matrix.fixed_columns ||
		     (CLIP_TRAILING_FIXED_COLUMNS & inBox) ?
		     0 : HORIZ_ORIGIN(mw)) -
		    ((CLIP_TRAILING_FIXED_COLUMNS & inBox) ?
		     COLUMN_POSITION(mw, TRAILING_HORIZ_ORIGIN(mw)) : 0);
	    if (!(CLIP_TRAILING_VERT_FILL & inBox))
		*y %= row_height;

	    return True;
	}
	else
	    return False;

	/* NOTREACHED */
	break;

    case RowLabelCell:
	if (!inBox && mw->matrix.row_labels)
	{
	    /* Check the various regions of the matrix to make sure we
	       get the correct row label */
	    if (mw->matrix.fixed_rows)
	    {
		SETRECT(rect,
			vert_sb_offset, row_label_offset,
			row_label_width + vert_sb_offset,
			fixed_row_label_offset - 1);
		if (INBOX(rect, *x, *y)) inBox = CLIP_ROW_LABELS |
					     CLIP_FIXED_ROWS;
	    }

	    if (!inBox && mw->matrix.trailing_fixed_rows)
	    {
		SETRECT(rect,
			vert_sb_offset,
			trailing_fixed_row_label_offset,
			row_label_width + vert_sb_offset,
			trailing_fixed_row_label_offset +
			trailing_fixed_row_height - 1);

		if (INBOX(rect, *x, *y)) inBox = CLIP_ROW_LABELS |
					     CLIP_TRAILING_FIXED_ROWS;
	    }

	    /* check the rows in the non fixed regions */
	    if (!inBox)
	    {
		SETRECT(rect,
			vert_sb_offset,
			fixed_row_label_offset,
			row_label_width + vert_sb_offset,
			trailing_fixed_row_label_offset - 1);

		if (INBOX(rect, *x, *y)) inBox = CLIP_ROW_LABELS;
	    }
	}

	if (CLIP_ROW_LABELS & inBox)
	{
	    *y -= row_label_offset;
	    *row = YtoRow(mw, *y);
	    *row += (CLIP_FIXED_ROWS & inBox ? 0 : mw->matrix.top_row);
	    *row += ((CLIP_TRAILING_FIXED_ROWS & inBox) ?
		     (CELL_TOTAL_HEIGHT(mw) - VISIBLE_HEIGHT(mw)) /
		     row_height - mw->matrix.top_row: 0);

	    *column = -1;
	}
	else
	{
	    *row = -1;
	    *column = -1;
	}

	/* Sanity check - make sure we don't over step the mark */
	if (*row >= mw->matrix.rows || *column >= mw->matrix.columns)
	{
	    *row = -1;
	    *column = -1;
	}

	return False;

	/*NOTREACHED*/
	break;

    case ColumnLabelCell:
	if (!inBox && mw->matrix.column_labels)
	{
	    if (mw->matrix.fixed_columns)
	    {
		SETRECT(rect,
			column_label_offset, horiz_sb_offset,
			fixed_column_label_offset - 1,
			column_label_height + horiz_sb_offset);

		if (INBOX(rect, *x, *y)) inBox = CLIP_FIXED_COLUMNS |
					     CLIP_COLUMN_LABELS;
	    }
	    if (!inBox && mw->matrix.trailing_fixed_columns)
	    {
		SETRECT(rect,
			trailing_fixed_column_label_offset,
			horiz_sb_offset,
			trailing_fixed_column_label_offset +
			trailing_fixed_column_width - 1,
			column_label_height + horiz_sb_offset);

		if (INBOX(rect, *x, *y)) inBox = CLIP_COLUMN_LABELS |
					     CLIP_TRAILING_FIXED_COLUMNS;
	    }
	    /* check the columns in the non fixed regions */
	    if (!inBox)
	    {
		SETRECT(rect,
			fixed_column_label_offset, horiz_sb_offset,
			trailing_fixed_column_label_offset,
			column_label_height + horiz_sb_offset);

		if (INBOX(rect, *x, *y)) inBox = CLIP_COLUMN_LABELS;
	    }
	}

	if (CLIP_COLUMN_LABELS & inBox)
	{
	    *x -= column_label_offset;

	    if (CLIP_TRAILING_FIXED_COLUMNS & inBox)
		*column = xbaeXtoTrailingCol(mw, *x);
	    else
		*column = xbaeXtoCol(mw, *x +
				     ((CLIP_FIXED_COLUMNS & inBox) ? 0 :
				      HORIZ_ORIGIN(mw)));
	    *row = -1;
	}
	else
	{
	    *row = -1;
	    *column = -1;
	}
	/* Sanity check - make sure we don't overstep the mark */
	if (*row >= mw->matrix.rows || *column >= mw->matrix.columns)
	{
	    *row = -1;
	    *column = -1;
	}

	return False;

	/* NOTREACHED */
	break;

    case NonFixedCell:

	/*
	 * Translate the point to take into account fixed rows or columns.
	 */
	*x += FIXED_COLUMN_WIDTH(mw);
	*y += FIXED_ROW_HEIGHT(mw);

	/*
	 * Convert the new point to a row/column position
	 */
	*row = YtoRow(mw, *y + mw->matrix.first_row_offset) + VERT_ORIGIN(mw);
	*column = xbaeXtoCol(mw, *x + HORIZ_ORIGIN(mw));

	/*
	 * Sanity check the result
	 */
	if (*row >= TRAILING_VERT_ORIGIN(mw) ||
	    *column >= TRAILING_HORIZ_ORIGIN(mw) ||
	    *row < 0 || *column < 0)
	    return False;

	/*
	 * Adjust x,y so they are relative to this cell's origin.
	 */
	*x -= COLUMN_POSITION(mw, *column) - HORIZ_ORIGIN(mw);
	*y %= row_height;

	return True;

	/* NOTREACHED */
	break;

    default:
	*row = -1;
	*column = -1;
	return False;
    }
}

/*
 * Convert the coordinates in an event to be relative to the Clip
 * window or the Matrix window.  Set the cell to indicate which one.
 * Used by some actions.
 */
/* ARGSUSED */
Boolean
xbaeEventToXY(mw, event, x, y, cell)
XbaeMatrixWidget mw;
XEvent *event;
int *x, *y;
CellType *cell;
{
    switch (event->type)
    {
    case ButtonPress:
    case ButtonRelease:
	*x = event->xbutton.x;
	*y = event->xbutton.y;
	break;
    case KeyPress:
    case KeyRelease:
	*x = event->xkey.x;
	*y = event->xkey.y;
	break;
    case MotionNotify:
	*x = event->xmotion.x;
	*y = event->xmotion.y;
	break;
    default:
	return False;
    }

    if (event->xbutton.subwindow == XtWindow(ClipChild(mw)))
    {
	*cell = NonFixedCell;
	*x -= FIXED_COLUMN_LABEL_OFFSET(mw);
	*y -= FIXED_ROW_LABEL_OFFSET(mw);
    }
    else if (event->xbutton.window == XtWindow(mw))
	if (*x < (int)COLUMN_LABEL_OFFSET(mw) &&
	    *x > (int)VERT_SB_OFFSET(mw))
	    *cell = RowLabelCell;
	else if (*y < (int)ROW_LABEL_OFFSET(mw) &&
		 *y > (int)HORIZ_SB_OFFSET(mw))
	    *cell = ColumnLabelCell;
	else
	    *cell = FixedCell;
    else if (event->xbutton.window == XtWindow(ClipChild(mw)))
	*cell = NonFixedCell;
    else if (event->xbutton.window == XtWindow(TextChild(mw)))
    {
	Position tx, ty;

	if (mw->matrix.current_parent == ClipChild(mw))
	    *cell = NonFixedCell;
	else if (mw->matrix.current_parent == (Widget)mw)
	    *cell = FixedCell;
	else			/* We're on one of the extra clips */
	{
	    *cell = FixedCell;
	    *x += mw->matrix.current_parent->core.x;
	    *y += mw->matrix.current_parent->core.y;
	}

	XtVaGetValues(TextChild(mw),
		      XmNx, &tx,
		      XmNy, &ty,
		      NULL);
	*x += tx;
	*y += ty;
    }
    else
	return False;

    return True;
}

/*
 * Convert a pixel position to the column it is contained in.
 */
int
xbaeXtoCol(mw, x)
XbaeMatrixWidget mw;
int x;
{
    int i;

    for (i = 0; i < mw->matrix.columns; i++)
	if (COLUMN_POSITION(mw, i) > x)
	    return i - 1;
    /*
     * I have seen cases where this function returned mw->matrix.columns
     * causing a crash as array bounds are read - AL
     */
    if (i > mw->matrix.columns)
	return mw->matrix.columns - 1;

    return i - 1;
}

/*
 * Convert a pixel position to the trailing
 * fixed column it is contained in
 */
int
xbaeXtoTrailingCol(mw, x)
XbaeMatrixWidget mw;
int x;
{
    int i;

    x += COLUMN_POSITION(mw, TRAILING_HORIZ_ORIGIN(mw));
    for (i = TRAILING_HORIZ_ORIGIN(mw); i < mw->matrix.columns; i++)
    {
	if (COLUMN_POSITION(mw, i) > x)
	    return i - 1;
    }

    return i - 1;
}

/*
 * Convert a row/column cell position to the x/y of its upper left corner
 * wrt the window it will be drawn in (either the matrix window for
 * fixed cells, or the clip window for non-fixed).
 */
void
xbaeRowColToXY(mw, row, column, x, y)
XbaeMatrixWidget mw;
int row;
int column;
int *x;
int *y;
{
    /*
     * If we are in a fixed cell, calculate x/y relative to Matrixs
     * window (take into account labels etc)
     */
    if (IS_FIXED(mw, row, column))
    {
	/*
	 * Ignore horiz_origin if we are in a fixed column
	 */
	if (IS_LEADING_FIXED_COLUMN(mw, column))
	{
	    if (IS_FIXED_ROW(mw, row))
		*x = COLUMN_LABEL_OFFSET(mw) + COLUMN_POSITION(mw, column);
	    else
		*x = COLUMN_POSITION(mw, column);	/* LeftClip */
	}
	else if (IS_TRAILING_FIXED_COLUMN(mw, column))
	{
	    int m;
	    if (IS_FIXED_ROW(mw, row))
		*x = TRAILING_FIXED_COLUMN_LABEL_OFFSET(mw);
	    else
		*x = 0;					/* RightClip */
	    for (m = TRAILING_HORIZ_ORIGIN(mw); m < column; m++)
		*x += COLUMN_WIDTH(mw, m);
	}
	else if (IS_FIXED_ROW(mw, row))
	    *x = (COLUMN_POSITION(mw, column) -
		  COLUMN_POSITION(mw, mw->matrix.fixed_columns)) -
		HORIZ_ORIGIN(mw);
	else
	    *x = COLUMN_LABEL_OFFSET(mw) +
		COLUMN_POSITION(mw, column) - HORIZ_ORIGIN(mw);

	/*
	 * Ignore vert_origin if we are in a fixed row
	 */
	if (IS_LEADING_FIXED_ROW(mw, row))
	{
	    if (IS_FIXED_COLUMN(mw, column))
		*y = ROW_LABEL_OFFSET(mw) + ROW_HEIGHT(mw) * row;
	    else
		*y = ROW_HEIGHT(mw) * row;	/* TopClip */
	}
	else if (IS_TRAILING_FIXED_ROW(mw, row))
	{
	    int m;
	    if (IS_FIXED_COLUMN(mw, column))
		*y = TRAILING_FIXED_ROW_LABEL_OFFSET(mw);
	    else
		*y = 0;				/* BottomClip */
	    for (m = TRAILING_VERT_ORIGIN(mw); m < row; m++)
		*y += ROW_HEIGHT(mw);
	}
	else if (IS_FIXED_COLUMN(mw, column))

	    *y = ROW_HEIGHT(mw) * ((row - (int)mw->matrix.fixed_rows) -
				   VERT_ORIGIN(mw));
	else
	    *y = ROW_LABEL_OFFSET(mw) + ROW_HEIGHT(mw) *
		(row - VERT_ORIGIN(mw));
    }

    /*
     * If we are not fixed we must account for fixed rows/columns
     * and scrolling origins.
     */
    else
    {
	*x = (COLUMN_POSITION(mw, column) -
	      COLUMN_POSITION(mw, mw->matrix.fixed_columns)) -
	    HORIZ_ORIGIN(mw);
	*y = ROW_HEIGHT(mw) * ((row - (int) mw->matrix.fixed_rows) -
			       VERT_ORIGIN(mw));
	*y -= mw->matrix.first_row_offset;
    }
}

#define FIXED_NONE	0
#define FIXED_LEFT	1
#define FIXED_RIGHT	2
#define FIXED_TOP	4
#define FIXED_BOTTOM	8
#define FIXED_TOPLEFT	5
#define FIXED_TOPRIGHT	6
#define FIXED_BOTLEFT	9
#define FIXED_BOTRIGHT	10
/* Gotta love that numbering scheme! - AL */


/*
 * Returns the window on which a cell is displayed, i.e. the matrix, the clip,
 * or one of the extra clips which handle the fixed row/col cells.
 */
Window
xbaeGetCellWindow(mw, w, row, column)
XbaeMatrixWidget mw;
Widget *w;
int row, column;
{
    int posn;
    Window win;

    if (IS_LEADING_FIXED_ROW(mw, row))
	posn = FIXED_TOP;
    else if (IS_TRAILING_FIXED_ROW(mw, row))
	posn = FIXED_BOTTOM;
    else
	posn = FIXED_NONE;
    if (IS_LEADING_FIXED_COLUMN(mw, column))
	posn += FIXED_LEFT;
    else if (IS_TRAILING_FIXED_COLUMN(mw, column))
	posn += FIXED_RIGHT;
    else
	posn += FIXED_NONE;	/* add zero!? */

    switch(posn)
    {
    case FIXED_TOPLEFT:
    case FIXED_TOPRIGHT:
    case FIXED_BOTLEFT:
    case FIXED_BOTRIGHT:
	/* total fixed cell - on parent matrix window */
	*w = (Widget)mw;
	win = XtWindow(mw);
	break;

    case FIXED_NONE:
	/* not fixed at all - on clip child */
	*w = ClipChild(mw);
	win = XtWindow(ClipChild(mw));
	break;

    case FIXED_LEFT:
	/* fixed col only - on left clip */
	*w = LeftClip(mw);
	win = XtWindow(LeftClip(mw));
	break;

    case FIXED_RIGHT:
	/* fixed trailing col only - on right clip */
	win = XtWindow(RightClip(mw));
	*w = RightClip(mw);
	break;

    case FIXED_TOP:
	/* fixed row only - on top clip */
	win = XtWindow(TopClip(mw));
	*w = TopClip(mw);
	break;

    case FIXED_BOTTOM:
	/* fixed trailing row only - on bottom clip */
	win = XtWindow(BottomClip(mw));
	*w = BottomClip(mw);
	break;
    default:	/* bogus */
	win = (Window)NULL;
	*w = (Widget)NULL;
    }
    return win;
}

void
xbaeCalcVertFill(mw, win, x, y, row, column, ax, ay, width, height)
XbaeMatrixWidget mw;
Window win;
int x;
int y;
int row;
int column;
int *ax;
int *ay;
int *width;
int *height;
{
    *ax = x;
    *width = COLUMN_WIDTH(mw, column);

    if (win == XtWindow(LeftClip(mw)))
    {
	*ax += COLUMN_LABEL_OFFSET(mw);
	*ay = LeftClip(mw)->core.y + LeftClip(mw)->core.height;
    }
    else if (win == XtWindow(RightClip(mw)))
    {
	*ax += TRAILING_FIXED_COLUMN_LABEL_OFFSET(mw);
	*ay = RightClip(mw)->core.y + RightClip(mw)->core.height;
    }
    else if (win == XtWindow(BottomClip(mw)))
    {
	*ax += BottomClip(mw)->core.x;
	*ay = BottomClip(mw)->core.y + BottomClip(mw)->core.height;
    }
    else if (win == XtWindow(ClipChild(mw)))
    {
	if (XtIsManaged(LeftClip(mw)))
	    *ax += FIXED_COLUMN_LABEL_OFFSET(mw);
	else
	    *ax += COLUMN_LABEL_OFFSET(mw);
	*ay = ClipChild(mw)->core.y + ClipChild(mw)->core.height;
	if (*ax < (int)COLUMN_LABEL_OFFSET(mw))
	{
	    *width += *ax - COLUMN_LABEL_OFFSET(mw);
	    *ax = COLUMN_LABEL_OFFSET(mw);
	}
    }
    else			/* must be in a corner */
	*ay = y;

    *height = MATRIX_VERT_VISIBLE_SPACE(mw) + ROW_LABEL_OFFSET(mw) +
	HORIZ_SB_OFFSET(mw) - *ay;
    /*
     * Unfortunately, on the filled area, we don't have the luxury
     * of the clip widgets to help us out with the edges of the area.
     * Check our width isn't going to draw outside the left or right clip
     */

    if (! IS_FIXED_COLUMN(mw, column))
    {
	if (XtIsManaged(LeftClip(mw)) &&
	    *ax < (int)FIXED_COLUMN_LABEL_OFFSET(mw))
	{
	    *width -= (FIXED_COLUMN_LABEL_OFFSET(mw) - *ax);
	    *ax = FIXED_COLUMN_LABEL_OFFSET(mw);
	}

	if (XtIsManaged(RightClip(mw)) &&
	    ((*ax + *width) > (int)RightClip(mw)->core.x))
	    *width = RightClip(mw)->core.x - *ax;

	if (win == XtWindow(BottomClip(mw)))
	{
	    if ((*ax + *width) >
		 (int)(BottomClip(mw)->core.x + BottomClip(mw)->core.width))
		*width = BottomClip(mw)->core.width +
		    BottomClip(mw)->core.x - *ax;

	    if (*ax < (int)COLUMN_LABEL_OFFSET(mw))
	    {
		*width += *ax - COLUMN_LABEL_OFFSET(mw);
		*ax = COLUMN_LABEL_OFFSET(mw);
	    }
	}

	if ((win == XtWindow(ClipChild(mw))) &&
	    ((*ax + *width) >
	      (int)(ClipChild(mw)->core.x + ClipChild(mw)->core.width)))
	    *width = ClipChild(mw)->core.width +
		ClipChild(mw)->core.x - *ax;
    }
}

void
xbaeCalcHorizFill(mw, win, x, y, row, column, ax, ay, width, height)
XbaeMatrixWidget mw;
Window win;
int x;
int y;
int row;
int column;
int *ax;
int *ay;
int *width;
int *height;
{
    *ay = y;
    *height = ROW_HEIGHT(mw);

    if (win == XtWindow(TopClip(mw)))
    {
	*ax = TopClip(mw)->core.x + TopClip(mw)->core.width;
	*ay += ROW_LABEL_OFFSET(mw);
    }
    else if (win == XtWindow(BottomClip(mw)))
    {
	*ax = BottomClip(mw)->core.x + BottomClip(mw)->core.width;
	*ay += TRAILING_FIXED_ROW_LABEL_OFFSET(mw);
    }
    else if (win == XtWindow(RightClip(mw)))
    {
	*ax = RightClip(mw)->core.x + RightClip(mw)->core.width;
	*ay += RightClip(mw)->core.y;
    }
    else if (win == XtWindow(ClipChild(mw)))
    {
	if (XtIsManaged(TopClip(mw)))
	    *ay += FIXED_ROW_LABEL_OFFSET(mw);
	else
	    *ay += ROW_LABEL_OFFSET(mw);
	*ax = ClipChild(mw)->core.x + ClipChild(mw)->core.width;
	if (*ay < (int)ROW_LABEL_OFFSET(mw))
	    *ay = ROW_LABEL_OFFSET(mw);
    }
    else			/* must be in a corner */
	*ax = x;

    *width = MATRIX_HORIZ_VISIBLE_SPACE(mw) + COLUMN_LABEL_OFFSET(mw) +
	VERT_SB_OFFSET(mw) - *ax;

    /*
     * Unfortunately, on the filled area, we don't have the luxury
     * of the clip widgets to help us out with the edges of the area.
     * Check our width isn't going to draw outside the left or right clip,
     * or out past our matrix region.
     */

    if (! IS_FIXED_ROW(mw, row))
    {
	if (XtIsManaged(LeftClip(mw)) &&
	    (*ay < (int)FIXED_ROW_LABEL_OFFSET(mw)))
	{
	    *height -= (FIXED_ROW_LABEL_OFFSET(mw) - *ay);
	    *ay = FIXED_ROW_LABEL_OFFSET(mw);
	}

	if (XtIsManaged(RightClip(mw)) &&
	    ((*ay + *height) >
	      (int)(RightClip(mw)->core.y + RightClip(mw)->core.height)))
	    *height = RightClip(mw)->core.height +
		RightClip(mw)->core.y - *ay;

	if ((win == XtWindow(ClipChild(mw))) &&
	    ((*ay + *height) >
	      (int)(ClipChild(mw)->core.y + ClipChild(mw)->core.height)))
	    *height = ClipChild(mw)->core.height +
		ClipChild(mw)->core.y - *ay;
    }
}