TinyX/miext/shadow/shrotate.c

/*
 *
 * Copyright © 2001 Keith Packard, member of The XFree86 Project, Inc.
 *
 * Permission to use, copy, modify, distribute, and sell this software and its
 * documentation for any purpose is hereby granted without fee, provided that
 * the above copyright notice appear in all copies and that both that
 * copyright notice and this permission notice appear in supporting
 * documentation, and that the name of Keith Packard not be used in
 * advertising or publicity pertaining to distribution of the software without
 * specific, written prior permission.  Keith Packard makes no
 * representations about the suitability of this software for any purpose.  It
 * is provided "as is" without express or implied warranty.
 *
 * KEITH PACKARD DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
 * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO
 * EVENT SHALL KEITH PACKARD 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
 * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
 * PERFORMANCE OF THIS SOFTWARE.
 */

#ifdef HAVE_DIX_CONFIG_H
#include <dix-config.h>
#endif

#include    <X11/X.h>
#include    "scrnintstr.h"
#include    "windowstr.h"
#include    <X11/fonts/font.h>
#include    "dixfontstr.h"
#include    <X11/fonts/fontstruct.h>
#include    "mi.h"
#include    "regionstr.h"
#include    "globals.h"
#include    "gcstruct.h"
#include    "shadow.h"
#include    "fb.h"

/*
 * These indicate which way the source (shadow) is scanned when
 * walking the screen in a particular direction
 */

#define LEFT_TO_RIGHT	1
#define RIGHT_TO_LEFT	-1
#define TOP_TO_BOTTOM	2
#define BOTTOM_TO_TOP	-2

void
shadowUpdateRotatePacked(ScreenPtr pScreen, shadowBufPtr pBuf)
{
    RegionPtr damage = shadowDamage(pBuf);

    PixmapPtr pShadow = pBuf->pPixmap;

    int nbox = REGION_NUM_RECTS(damage);

    BoxPtr pbox = REGION_RECTS(damage);

    FbBits *shaBits;

    FbStride shaStride;

    int shaBpp;

    int shaXoff _X_UNUSED, shaYoff _X_UNUSED;

    int box_x1, box_x2, box_y1, box_y2;

    int sha_x1 = 0, sha_y1 = 0;

    int scr_x1 = 0, scr_x2 = 0, scr_y1 = 0, scr_y2 = 0, scr_w, scr_h;

    int scr_x, scr_y;

    int w;

    int pixelsPerBits;

    int pixelsMask;

    FbStride shaStepOverY = 0, shaStepDownY = 0;

    FbStride shaStepOverX = 0, shaStepDownX = 0;

    FbBits *shaLine, *sha;

    int shaHeight = pShadow->drawable.height;

    int shaWidth = pShadow->drawable.width;

    FbBits shaMask;

    int shaFirstShift, shaShift;

    int o_x_dir;

    int o_y_dir;

    int x_dir;

    int y_dir;

    fbGetDrawable(&pShadow->drawable, shaBits, shaStride, shaBpp, shaXoff,
                  shaYoff);
    pixelsPerBits = (sizeof(FbBits) * 8) / shaBpp;
    pixelsMask = ~(pixelsPerBits - 1);
    shaMask = FbBitsMask(FB_UNIT - shaBpp, shaBpp);
    /*
     * Compute rotation related constants to walk the shadow
     */
    o_x_dir = LEFT_TO_RIGHT;
    o_y_dir = TOP_TO_BOTTOM;
    if (pBuf->randr & SHADOW_REFLECT_X)
        o_x_dir = -o_x_dir;
    if (pBuf->randr & SHADOW_REFLECT_Y)
        o_y_dir = -o_y_dir;
    switch (pBuf->randr & (SHADOW_ROTATE_ALL)) {
    case SHADOW_ROTATE_0:      /* upper left shadow -> upper left screen */
    default:
        x_dir = o_x_dir;
        y_dir = o_y_dir;
        break;
    case SHADOW_ROTATE_90:     /* upper right shadow -> upper left screen */
        x_dir = o_y_dir;
        y_dir = -o_x_dir;
        break;
    case SHADOW_ROTATE_180:    /* lower right shadow -> upper left screen */
        x_dir = -o_x_dir;
        y_dir = -o_y_dir;
        break;
    case SHADOW_ROTATE_270:    /* lower left shadow -> upper left screen */
        x_dir = -o_y_dir;
        y_dir = o_x_dir;
        break;
    }
    switch (x_dir) {
    case LEFT_TO_RIGHT:
        shaStepOverX = shaBpp;
        shaStepOverY = 0;
        break;
    case TOP_TO_BOTTOM:
        shaStepOverX = 0;
        shaStepOverY = shaStride;
        break;
    case RIGHT_TO_LEFT:
        shaStepOverX = -shaBpp;
        shaStepOverY = 0;
        break;
    case BOTTOM_TO_TOP:
        shaStepOverX = 0;
        shaStepOverY = -shaStride;
        break;
    }
    switch (y_dir) {
    case TOP_TO_BOTTOM:
        shaStepDownX = 0;
        shaStepDownY = shaStride;
        break;
    case RIGHT_TO_LEFT:
        shaStepDownX = -shaBpp;
        shaStepDownY = 0;
        break;
    case BOTTOM_TO_TOP:
        shaStepDownX = 0;
        shaStepDownY = -shaStride;
        break;
    case LEFT_TO_RIGHT:
        shaStepDownX = shaBpp;
        shaStepDownY = 0;
        break;
    }

    while (nbox--) {
        box_x1 = pbox->x1;
        box_y1 = pbox->y1;
        box_x2 = pbox->x2;
        box_y2 = pbox->y2;
        pbox++;

        /*
         * Compute screen and shadow locations for this box
         */
        switch (x_dir) {
        case LEFT_TO_RIGHT:
            scr_x1 = box_x1 & pixelsMask;
            scr_x2 = (box_x2 + pixelsPerBits - 1) & pixelsMask;

            sha_x1 = scr_x1;
            break;
        case TOP_TO_BOTTOM:
            scr_x1 = box_y1 & pixelsMask;
            scr_x2 = (box_y2 + pixelsPerBits - 1) & pixelsMask;

            sha_y1 = scr_x1;
            break;
        case RIGHT_TO_LEFT:
            scr_x1 = (shaWidth - box_x2) & pixelsMask;
            scr_x2 = (shaWidth - box_x1 + pixelsPerBits - 1) & pixelsMask;

            sha_x1 = (shaWidth - scr_x1 - 1);
            break;
        case BOTTOM_TO_TOP:
            scr_x1 = (shaHeight - box_y2) & pixelsMask;
            scr_x2 = (shaHeight - box_y1 + pixelsPerBits - 1) & pixelsMask;

            sha_y1 = (shaHeight - scr_x1 - 1);
            break;
        }
        switch (y_dir) {
        case TOP_TO_BOTTOM:
            scr_y1 = box_y1;
            scr_y2 = box_y2;

            sha_y1 = scr_y1;
            break;
        case RIGHT_TO_LEFT:
            scr_y1 = (shaWidth - box_x2);
            scr_y2 = (shaWidth - box_x1);

            sha_x1 = box_x2 - 1;
            break;
        case BOTTOM_TO_TOP:
            scr_y1 = shaHeight - box_y2;
            scr_y2 = shaHeight - box_y1;

            sha_y1 = box_y2 - 1;
            break;
        case LEFT_TO_RIGHT:
            scr_y1 = box_x1;
            scr_y2 = box_x2;

            sha_x1 = box_x1;
            break;
        }
        scr_w = ((scr_x2 - scr_x1) * shaBpp) >> FB_SHIFT;
        scr_h = scr_y2 - scr_y1;
        scr_y = scr_y1;

        /* shift amount for first pixel on screen */
        shaFirstShift = FB_UNIT - ((sha_x1 * shaBpp) & FB_MASK) - shaBpp;

        /* pointer to shadow data first placed on screen */
        shaLine = (shaBits +
                   sha_y1 * shaStride + ((sha_x1 * shaBpp) >> FB_SHIFT));

        /*
         * Copy the bits, always write across the physical frame buffer
         * to take advantage of write combining.
         */
        while (scr_h--) {
            int p;

            FbBits bits;

            FbBits *win;

            int i;

            CARD32 winSize;

            sha = shaLine;
            shaShift = shaFirstShift;
            w = scr_w;
            scr_x = scr_x1 * shaBpp >> FB_SHIFT;

            while (w) {
                /*
                 * Map some of this line
                 */
                win = (FbBits *) (*pBuf->window) (pScreen,
                                                  scr_y,
                                                  scr_x << 2,
                                                  SHADOW_WINDOW_WRITE,
                                                  &winSize, pBuf->closure);
                i = (winSize >> 2);
                if (i > w)
                    i = w;
                w -= i;
                scr_x += i;
                /*
                 * Copy the portion of the line mapped
                 */
                while (i--) {
                    bits = 0;
                    p = pixelsPerBits;
                    /*
                     * Build one word of output from multiple inputs
                     *
                     * Note that for 90/270 rotations, this will walk
                     * down the shadow hitting each scanline once.
                     * This is probably not very efficient.
                     */
                    while (p--) {
                        bits = FbScrLeft(bits, shaBpp);
                        bits |= FbScrRight(*sha, shaShift) & shaMask;

                        shaShift -= shaStepOverX;
                        if (shaShift >= FB_UNIT) {
                            shaShift -= FB_UNIT;
                            sha--;
                        }
                        else if (shaShift < 0) {
                            shaShift += FB_UNIT;
                            sha++;
                        }
                        sha += shaStepOverY;
                    }
                    *win++ = bits;
                }
            }
            scr_y++;
            shaFirstShift -= shaStepDownX;
            if (shaFirstShift >= FB_UNIT) {
                shaFirstShift -= FB_UNIT;
                shaLine--;
            }
            else if (shaFirstShift < 0) {
                shaFirstShift += FB_UNIT;
                shaLine++;
            }
            shaLine += shaStepDownY;
        }
    }
}

shadowUpdateProc
shadowUpdateRotatePackedWeak(void)
{
    return shadowUpdateRotatePacked;
}