Java Code Examples for sun.java2d.windows.GDIWindowSurfaceData#getPeer()

/**
 * If the destination surface's peer can potentially handle accelerated
 * on-screen rendering then it is likely that the condition which resulted
 * in VI to Screen operation is temporary, so this method sets the
 * restore countdown in hope that the on-screen accelerated rendering will
 * resume. In the meantime the backup surface of the VISM will be used.
 *
 * The countdown is needed because otherwise we may never break out
 * of "do { vi.validate()..} while(vi.lost)" loop since validate() could
 * restore the source surface every time and it will get lost again on the
 * next copy attempt, and we would never get a chance to use the backup
 * surface. By using the countdown we allow the backup surface to be used
 * while the screen surface gets sorted out, or if it for some reason can
 * never be restored.
 *
 * If the destination surface's peer could never do accelerated onscreen
 * rendering then the acceleration for the SurfaceManager associated with
 * the source surface is disabled forever.
 */
static void handleVItoScreenOp(SurfaceData src, SurfaceData dst) {
    if (src instanceof D3DSurfaceData &&
        dst instanceof GDIWindowSurfaceData)
    {
        D3DSurfaceData d3dsd = (D3DSurfaceData)src;
        SurfaceManager mgr =
            SurfaceManager.getManager((Image)d3dsd.getDestination());
        if (mgr instanceof D3DVolatileSurfaceManager) {
            D3DVolatileSurfaceManager vsm = (D3DVolatileSurfaceManager)mgr;
            if (vsm != null) {
                d3dsd.setSurfaceLost(true);

                GDIWindowSurfaceData wsd = (GDIWindowSurfaceData)dst;
                WComponentPeer p = wsd.getPeer();
                if (D3DScreenUpdateManager.canUseD3DOnScreen(p,
                        (Win32GraphicsConfig)p.getGraphicsConfiguration(),
                        p.getBackBuffersNum()))
                {
                    // 10 is only chosen to be greater than the number of
                    // times a sane person would call validate() inside
                    // a validation loop, and to reduce thrashing between
                    // accelerated and backup surfaces
                    vsm.setRestoreCountdown(10);
                } else {
                    vsm.setAccelerationEnabled(false);
                }
            }
        }
    }
}
 

/**
 * If the destination surface's peer can potentially handle accelerated
 * on-screen rendering then it is likely that the condition which resulted
 * in VI to Screen operation is temporary, so this method sets the
 * restore countdown in hope that the on-screen accelerated rendering will
 * resume. In the meantime the backup surface of the VISM will be used.
 *
 * The countdown is needed because otherwise we may never break out
 * of "do { vi.validate()..} while(vi.lost)" loop since validate() could
 * restore the source surface every time and it will get lost again on the
 * next copy attempt, and we would never get a chance to use the backup
 * surface. By using the countdown we allow the backup surface to be used
 * while the screen surface gets sorted out, or if it for some reason can
 * never be restored.
 *
 * If the destination surface's peer could never do accelerated onscreen
 * rendering then the acceleration for the SurfaceManager associated with
 * the source surface is disabled forever.
 */
static void handleVItoScreenOp(SurfaceData src, SurfaceData dst) {
    if (src instanceof D3DSurfaceData &&
        dst instanceof GDIWindowSurfaceData)
    {
        D3DSurfaceData d3dsd = (D3DSurfaceData)src;
        SurfaceManager mgr =
            SurfaceManager.getManager((Image)d3dsd.getDestination());
        if (mgr instanceof D3DVolatileSurfaceManager) {
            D3DVolatileSurfaceManager vsm = (D3DVolatileSurfaceManager)mgr;
            if (vsm != null) {
                d3dsd.setSurfaceLost(true);

                GDIWindowSurfaceData wsd = (GDIWindowSurfaceData)dst;
                WComponentPeer p = wsd.getPeer();
                if (D3DScreenUpdateManager.canUseD3DOnScreen(p,
                        (Win32GraphicsConfig)p.getGraphicsConfiguration(),
                        p.getBackBuffersNum()))
                {
                    // 10 is only chosen to be greater than the number of
                    // times a sane person would call validate() inside
                    // a validation loop, and to reduce thrashing between
                    // accelerated and backup surfaces
                    vsm.setRestoreCountdown(10);
                } else {
                    vsm.setAccelerationEnabled(false);
                }
            }
        }
    }
}
 

/**
 * If the destination surface's peer can potentially handle accelerated
 * on-screen rendering then it is likely that the condition which resulted
 * in VI to Screen operation is temporary, so this method sets the
 * restore countdown in hope that the on-screen accelerated rendering will
 * resume. In the meantime the backup surface of the VISM will be used.
 *
 * The countdown is needed because otherwise we may never break out
 * of "do { vi.validate()..} while(vi.lost)" loop since validate() could
 * restore the source surface every time and it will get lost again on the
 * next copy attempt, and we would never get a chance to use the backup
 * surface. By using the countdown we allow the backup surface to be used
 * while the screen surface gets sorted out, or if it for some reason can
 * never be restored.
 *
 * If the destination surface's peer could never do accelerated onscreen
 * rendering then the acceleration for the SurfaceManager associated with
 * the source surface is disabled forever.
 */
static void handleVItoScreenOp(SurfaceData src, SurfaceData dst) {
    if (src instanceof D3DSurfaceData &&
        dst instanceof GDIWindowSurfaceData)
    {
        D3DSurfaceData d3dsd = (D3DSurfaceData)src;
        SurfaceManager mgr =
            SurfaceManager.getManager((Image)d3dsd.getDestination());
        if (mgr instanceof D3DVolatileSurfaceManager) {
            D3DVolatileSurfaceManager vsm = (D3DVolatileSurfaceManager)mgr;
            if (vsm != null) {
                d3dsd.setSurfaceLost(true);

                GDIWindowSurfaceData wsd = (GDIWindowSurfaceData)dst;
                WComponentPeer p = wsd.getPeer();
                if (D3DScreenUpdateManager.canUseD3DOnScreen(p,
                        (Win32GraphicsConfig)p.getGraphicsConfiguration(),
                        p.getBackBuffersNum()))
                {
                    // 10 is only chosen to be greater than the number of
                    // times a sane person would call validate() inside
                    // a validation loop, and to reduce thrashing between
                    // accelerated and backup surfaces
                    vsm.setRestoreCountdown(10);
                } else {
                    vsm.setAccelerationEnabled(false);
                }
            }
        }
    }
}
 

/**
 * If the destination surface's peer can potentially handle accelerated
 * on-screen rendering then it is likely that the condition which resulted
 * in VI to Screen operation is temporary, so this method sets the
 * restore countdown in hope that the on-screen accelerated rendering will
 * resume. In the meantime the backup surface of the VISM will be used.
 *
 * The countdown is needed because otherwise we may never break out
 * of "do { vi.validate()..} while(vi.lost)" loop since validate() could
 * restore the source surface every time and it will get lost again on the
 * next copy attempt, and we would never get a chance to use the backup
 * surface. By using the countdown we allow the backup surface to be used
 * while the screen surface gets sorted out, or if it for some reason can
 * never be restored.
 *
 * If the destination surface's peer could never do accelerated onscreen
 * rendering then the acceleration for the SurfaceManager associated with
 * the source surface is disabled forever.
 */
static void handleVItoScreenOp(SurfaceData src, SurfaceData dst) {
    if (src instanceof D3DSurfaceData &&
        dst instanceof GDIWindowSurfaceData)
    {
        D3DSurfaceData d3dsd = (D3DSurfaceData)src;
        SurfaceManager mgr =
            SurfaceManager.getManager((Image)d3dsd.getDestination());
        if (mgr instanceof D3DVolatileSurfaceManager) {
            D3DVolatileSurfaceManager vsm = (D3DVolatileSurfaceManager)mgr;
            if (vsm != null) {
                d3dsd.setSurfaceLost(true);

                GDIWindowSurfaceData wsd = (GDIWindowSurfaceData)dst;
                WComponentPeer p = wsd.getPeer();
                if (D3DScreenUpdateManager.canUseD3DOnScreen(p,
                        (Win32GraphicsConfig)p.getGraphicsConfiguration(),
                        p.getBackBuffersNum()))
                {
                    // 10 is only chosen to be greater than the number of
                    // times a sane person would call validate() inside
                    // a validation loop, and to reduce thrashing between
                    // accelerated and backup surfaces
                    vsm.setRestoreCountdown(10);
                } else {
                    vsm.setAccelerationEnabled(false);
                }
            }
        }
    }
}
 

/**
 * If the destination surface's peer can potentially handle accelerated
 * on-screen rendering then it is likely that the condition which resulted
 * in VI to Screen operation is temporary, so this method sets the
 * restore countdown in hope that the on-screen accelerated rendering will
 * resume. In the meantime the backup surface of the VISM will be used.
 *
 * The countdown is needed because otherwise we may never break out
 * of "do { vi.validate()..} while(vi.lost)" loop since validate() could
 * restore the source surface every time and it will get lost again on the
 * next copy attempt, and we would never get a chance to use the backup
 * surface. By using the countdown we allow the backup surface to be used
 * while the screen surface gets sorted out, or if it for some reason can
 * never be restored.
 *
 * If the destination surface's peer could never do accelerated onscreen
 * rendering then the acceleration for the SurfaceManager associated with
 * the source surface is disabled forever.
 */
static void handleVItoScreenOp(SurfaceData src, SurfaceData dst) {
    if (src instanceof D3DSurfaceData &&
        dst instanceof GDIWindowSurfaceData)
    {
        D3DSurfaceData d3dsd = (D3DSurfaceData)src;
        SurfaceManager mgr =
            SurfaceManager.getManager((Image)d3dsd.getDestination());
        if (mgr instanceof D3DVolatileSurfaceManager) {
            D3DVolatileSurfaceManager vsm = (D3DVolatileSurfaceManager)mgr;
            if (vsm != null) {
                d3dsd.setSurfaceLost(true);

                GDIWindowSurfaceData wsd = (GDIWindowSurfaceData)dst;
                WComponentPeer p = wsd.getPeer();
                if (D3DScreenUpdateManager.canUseD3DOnScreen(p,
                        (Win32GraphicsConfig)p.getGraphicsConfiguration(),
                        p.getBackBuffersNum()))
                {
                    // 10 is only chosen to be greater than the number of
                    // times a sane person would call validate() inside
                    // a validation loop, and to reduce thrashing between
                    // accelerated and backup surfaces
                    vsm.setRestoreCountdown(10);
                } else {
                    vsm.setAccelerationEnabled(false);
                }
            }
        }
    }
}
 

/**
 * If the destination surface's peer can potentially handle accelerated
 * on-screen rendering then it is likely that the condition which resulted
 * in VI to Screen operation is temporary, so this method sets the
 * restore countdown in hope that the on-screen accelerated rendering will
 * resume. In the meantime the backup surface of the VISM will be used.
 *
 * The countdown is needed because otherwise we may never break out
 * of "do { vi.validate()..} while(vi.lost)" loop since validate() could
 * restore the source surface every time and it will get lost again on the
 * next copy attempt, and we would never get a chance to use the backup
 * surface. By using the countdown we allow the backup surface to be used
 * while the screen surface gets sorted out, or if it for some reason can
 * never be restored.
 *
 * If the destination surface's peer could never do accelerated onscreen
 * rendering then the acceleration for the SurfaceManager associated with
 * the source surface is disabled forever.
 */
static void handleVItoScreenOp(SurfaceData src, SurfaceData dst) {
    if (src instanceof D3DSurfaceData &&
        dst instanceof GDIWindowSurfaceData)
    {
        D3DSurfaceData d3dsd = (D3DSurfaceData)src;
        SurfaceManager mgr =
            SurfaceManager.getManager((Image)d3dsd.getDestination());
        if (mgr instanceof D3DVolatileSurfaceManager) {
            D3DVolatileSurfaceManager vsm = (D3DVolatileSurfaceManager)mgr;
            if (vsm != null) {
                d3dsd.setSurfaceLost(true);

                GDIWindowSurfaceData wsd = (GDIWindowSurfaceData)dst;
                WComponentPeer p = wsd.getPeer();
                if (D3DScreenUpdateManager.canUseD3DOnScreen(p,
                        (Win32GraphicsConfig)p.getGraphicsConfiguration(),
                        p.getBackBuffersNum()))
                {
                    // 10 is only chosen to be greater than the number of
                    // times a sane person would call validate() inside
                    // a validation loop, and to reduce thrashing between
                    // accelerated and backup surfaces
                    vsm.setRestoreCountdown(10);
                } else {
                    vsm.setAccelerationEnabled(false);
                }
            }
        }
    }
}
 

/**
 * If the destination surface's peer can potentially handle accelerated
 * on-screen rendering then it is likely that the condition which resulted
 * in VI to Screen operation is temporary, so this method sets the
 * restore countdown in hope that the on-screen accelerated rendering will
 * resume. In the meantime the backup surface of the VISM will be used.
 *
 * The countdown is needed because otherwise we may never break out
 * of "do { vi.validate()..} while(vi.lost)" loop since validate() could
 * restore the source surface every time and it will get lost again on the
 * next copy attempt, and we would never get a chance to use the backup
 * surface. By using the countdown we allow the backup surface to be used
 * while the screen surface gets sorted out, or if it for some reason can
 * never be restored.
 *
 * If the destination surface's peer could never do accelerated onscreen
 * rendering then the acceleration for the SurfaceManager associated with
 * the source surface is disabled forever.
 */
static void handleVItoScreenOp(SurfaceData src, SurfaceData dst) {
    if (src instanceof D3DSurfaceData &&
        dst instanceof GDIWindowSurfaceData)
    {
        D3DSurfaceData d3dsd = (D3DSurfaceData)src;
        SurfaceManager mgr =
            SurfaceManager.getManager((Image)d3dsd.getDestination());
        if (mgr instanceof D3DVolatileSurfaceManager) {
            D3DVolatileSurfaceManager vsm = (D3DVolatileSurfaceManager)mgr;
            if (vsm != null) {
                d3dsd.setSurfaceLost(true);

                GDIWindowSurfaceData wsd = (GDIWindowSurfaceData)dst;
                WComponentPeer p = wsd.getPeer();
                if (D3DScreenUpdateManager.canUseD3DOnScreen(p,
                        (Win32GraphicsConfig)p.getGraphicsConfiguration(),
                        p.getBackBuffersNum()))
                {
                    // 10 is only chosen to be greater than the number of
                    // times a sane person would call validate() inside
                    // a validation loop, and to reduce thrashing between
                    // accelerated and backup surfaces
                    vsm.setRestoreCountdown(10);
                } else {
                    vsm.setAccelerationEnabled(false);
                }
            }
        }
    }
}
 

/**
 * If the destination surface's peer can potentially handle accelerated
 * on-screen rendering then it is likely that the condition which resulted
 * in VI to Screen operation is temporary, so this method sets the
 * restore countdown in hope that the on-screen accelerated rendering will
 * resume. In the meantime the backup surface of the VISM will be used.
 *
 * The countdown is needed because otherwise we may never break out
 * of "do { vi.validate()..} while(vi.lost)" loop since validate() could
 * restore the source surface every time and it will get lost again on the
 * next copy attempt, and we would never get a chance to use the backup
 * surface. By using the countdown we allow the backup surface to be used
 * while the screen surface gets sorted out, or if it for some reason can
 * never be restored.
 *
 * If the destination surface's peer could never do accelerated onscreen
 * rendering then the acceleration for the SurfaceManager associated with
 * the source surface is disabled forever.
 */
static void handleVItoScreenOp(SurfaceData src, SurfaceData dst) {
    if (src instanceof D3DSurfaceData &&
        dst instanceof GDIWindowSurfaceData)
    {
        D3DSurfaceData d3dsd = (D3DSurfaceData)src;
        SurfaceManager mgr =
            SurfaceManager.getManager((Image)d3dsd.getDestination());
        if (mgr instanceof D3DVolatileSurfaceManager) {
            D3DVolatileSurfaceManager vsm = (D3DVolatileSurfaceManager)mgr;
            if (vsm != null) {
                d3dsd.setSurfaceLost(true);

                GDIWindowSurfaceData wsd = (GDIWindowSurfaceData)dst;
                WComponentPeer p = wsd.getPeer();
                if (D3DScreenUpdateManager.canUseD3DOnScreen(p,
                        (Win32GraphicsConfig)p.getGraphicsConfiguration(),
                        p.getBackBuffersNum()))
                {
                    // 10 is only chosen to be greater than the number of
                    // times a sane person would call validate() inside
                    // a validation loop, and to reduce thrashing between
                    // accelerated and backup surfaces
                    vsm.setRestoreCountdown(10);
                } else {
                    vsm.setAccelerationEnabled(false);
                }
            }
        }
    }
}
 

/**
 * If the destination surface's peer can potentially handle accelerated
 * on-screen rendering then it is likely that the condition which resulted
 * in VI to Screen operation is temporary, so this method sets the
 * restore countdown in hope that the on-screen accelerated rendering will
 * resume. In the meantime the backup surface of the VISM will be used.
 *
 * The countdown is needed because otherwise we may never break out
 * of "do { vi.validate()..} while(vi.lost)" loop since validate() could
 * restore the source surface every time and it will get lost again on the
 * next copy attempt, and we would never get a chance to use the backup
 * surface. By using the countdown we allow the backup surface to be used
 * while the screen surface gets sorted out, or if it for some reason can
 * never be restored.
 *
 * If the destination surface's peer could never do accelerated onscreen
 * rendering then the acceleration for the SurfaceManager associated with
 * the source surface is disabled forever.
 */
static void handleVItoScreenOp(SurfaceData src, SurfaceData dst) {
    if (src instanceof D3DSurfaceData &&
        dst instanceof GDIWindowSurfaceData)
    {
        D3DSurfaceData d3dsd = (D3DSurfaceData)src;
        SurfaceManager mgr =
            SurfaceManager.getManager((Image)d3dsd.getDestination());
        if (mgr instanceof D3DVolatileSurfaceManager) {
            D3DVolatileSurfaceManager vsm = (D3DVolatileSurfaceManager)mgr;
            if (vsm != null) {
                d3dsd.setSurfaceLost(true);

                GDIWindowSurfaceData wsd = (GDIWindowSurfaceData)dst;
                WComponentPeer p = wsd.getPeer();
                if (D3DScreenUpdateManager.canUseD3DOnScreen(p,
                        (Win32GraphicsConfig)p.getGraphicsConfiguration(),
                        p.getBackBuffersNum()))
                {
                    // 10 is only chosen to be greater than the number of
                    // times a sane person would call validate() inside
                    // a validation loop, and to reduce thrashing between
                    // accelerated and backup surfaces
                    vsm.setRestoreCountdown(10);
                } else {
                    vsm.setAccelerationEnabled(false);
                }
            }
        }
    }
}
 

/**
 * If the destination surface's peer can potentially handle accelerated
 * on-screen rendering then it is likely that the condition which resulted
 * in VI to Screen operation is temporary, so this method sets the
 * restore countdown in hope that the on-screen accelerated rendering will
 * resume. In the meantime the backup surface of the VISM will be used.
 *
 * The countdown is needed because otherwise we may never break out
 * of "do { vi.validate()..} while(vi.lost)" loop since validate() could
 * restore the source surface every time and it will get lost again on the
 * next copy attempt, and we would never get a chance to use the backup
 * surface. By using the countdown we allow the backup surface to be used
 * while the screen surface gets sorted out, or if it for some reason can
 * never be restored.
 *
 * If the destination surface's peer could never do accelerated onscreen
 * rendering then the acceleration for the SurfaceManager associated with
 * the source surface is disabled forever.
 */
static void handleVItoScreenOp(SurfaceData src, SurfaceData dst) {
    if (src instanceof D3DSurfaceData &&
        dst instanceof GDIWindowSurfaceData)
    {
        D3DSurfaceData d3dsd = (D3DSurfaceData)src;
        SurfaceManager mgr =
            SurfaceManager.getManager((Image)d3dsd.getDestination());
        if (mgr instanceof D3DVolatileSurfaceManager) {
            D3DVolatileSurfaceManager vsm = (D3DVolatileSurfaceManager)mgr;
            if (vsm != null) {
                d3dsd.setSurfaceLost(true);

                GDIWindowSurfaceData wsd = (GDIWindowSurfaceData)dst;
                WComponentPeer p = wsd.getPeer();
                if (D3DScreenUpdateManager.canUseD3DOnScreen(p,
                        (Win32GraphicsConfig)p.getGraphicsConfiguration(),
                        p.getBackBuffersNum()))
                {
                    // 10 is only chosen to be greater than the number of
                    // times a sane person would call validate() inside
                    // a validation loop, and to reduce thrashing between
                    // accelerated and backup surfaces
                    vsm.setRestoreCountdown(10);
                } else {
                    vsm.setAccelerationEnabled(false);
                }
            }
        }
    }
}
 

/**
 * If the destination surface's peer can potentially handle accelerated
 * on-screen rendering then it is likely that the condition which resulted
 * in VI to Screen operation is temporary, so this method sets the
 * restore countdown in hope that the on-screen accelerated rendering will
 * resume. In the meantime the backup surface of the VISM will be used.
 *
 * The countdown is needed because otherwise we may never break out
 * of "do { vi.validate()..} while(vi.lost)" loop since validate() could
 * restore the source surface every time and it will get lost again on the
 * next copy attempt, and we would never get a chance to use the backup
 * surface. By using the countdown we allow the backup surface to be used
 * while the screen surface gets sorted out, or if it for some reason can
 * never be restored.
 *
 * If the destination surface's peer could never do accelerated onscreen
 * rendering then the acceleration for the SurfaceManager associated with
 * the source surface is disabled forever.
 */
static void handleVItoScreenOp(SurfaceData src, SurfaceData dst) {
    if (src instanceof D3DSurfaceData &&
        dst instanceof GDIWindowSurfaceData)
    {
        D3DSurfaceData d3dsd = (D3DSurfaceData)src;
        SurfaceManager mgr =
            SurfaceManager.getManager((Image)d3dsd.getDestination());
        if (mgr instanceof D3DVolatileSurfaceManager) {
            D3DVolatileSurfaceManager vsm = (D3DVolatileSurfaceManager)mgr;
            if (vsm != null) {
                d3dsd.setSurfaceLost(true);

                GDIWindowSurfaceData wsd = (GDIWindowSurfaceData)dst;
                WComponentPeer p = wsd.getPeer();
                if (D3DScreenUpdateManager.canUseD3DOnScreen(p,
                        (Win32GraphicsConfig)p.getGraphicsConfiguration(),
                        p.getBackBuffersNum()))
                {
                    // 10 is only chosen to be greater than the number of
                    // times a sane person would call validate() inside
                    // a validation loop, and to reduce thrashing between
                    // accelerated and backup surfaces
                    vsm.setRestoreCountdown(10);
                } else {
                    vsm.setAccelerationEnabled(false);
                }
            }
        }
    }
}
 

/**
 * If the destination surface's peer can potentially handle accelerated
 * on-screen rendering then it is likely that the condition which resulted
 * in VI to Screen operation is temporary, so this method sets the
 * restore countdown in hope that the on-screen accelerated rendering will
 * resume. In the meantime the backup surface of the VISM will be used.
 *
 * The countdown is needed because otherwise we may never break out
 * of "do { vi.validate()..} while(vi.lost)" loop since validate() could
 * restore the source surface every time and it will get lost again on the
 * next copy attempt, and we would never get a chance to use the backup
 * surface. By using the countdown we allow the backup surface to be used
 * while the screen surface gets sorted out, or if it for some reason can
 * never be restored.
 *
 * If the destination surface's peer could never do accelerated onscreen
 * rendering then the acceleration for the SurfaceManager associated with
 * the source surface is disabled forever.
 */
static void handleVItoScreenOp(SurfaceData src, SurfaceData dst) {
    if (src instanceof D3DSurfaceData &&
        dst instanceof GDIWindowSurfaceData)
    {
        D3DSurfaceData d3dsd = (D3DSurfaceData)src;
        SurfaceManager mgr =
            SurfaceManager.getManager((Image)d3dsd.getDestination());
        if (mgr instanceof D3DVolatileSurfaceManager) {
            D3DVolatileSurfaceManager vsm = (D3DVolatileSurfaceManager)mgr;
            if (vsm != null) {
                d3dsd.setSurfaceLost(true);

                GDIWindowSurfaceData wsd = (GDIWindowSurfaceData)dst;
                WComponentPeer p = wsd.getPeer();
                if (D3DScreenUpdateManager.canUseD3DOnScreen(p,
                        (Win32GraphicsConfig)p.getGraphicsConfiguration(),
                        p.getBackBuffersNum()))
                {
                    // 10 is only chosen to be greater than the number of
                    // times a sane person would call validate() inside
                    // a validation loop, and to reduce thrashing between
                    // accelerated and backup surfaces
                    vsm.setRestoreCountdown(10);
                } else {
                    vsm.setAccelerationEnabled(false);
                }
            }
        }
    }
}
 

/**
 * If the destination surface's peer can potentially handle accelerated
 * on-screen rendering then it is likely that the condition which resulted
 * in VI to Screen operation is temporary, so this method sets the
 * restore countdown in hope that the on-screen accelerated rendering will
 * resume. In the meantime the backup surface of the VISM will be used.
 *
 * The countdown is needed because otherwise we may never break out
 * of "do { vi.validate()..} while(vi.lost)" loop since validate() could
 * restore the source surface every time and it will get lost again on the
 * next copy attempt, and we would never get a chance to use the backup
 * surface. By using the countdown we allow the backup surface to be used
 * while the screen surface gets sorted out, or if it for some reason can
 * never be restored.
 *
 * If the destination surface's peer could never do accelerated onscreen
 * rendering then the acceleration for the SurfaceManager associated with
 * the source surface is disabled forever.
 */
static void handleVItoScreenOp(SurfaceData src, SurfaceData dst) {
    if (src instanceof D3DSurfaceData &&
        dst instanceof GDIWindowSurfaceData)
    {
        D3DSurfaceData d3dsd = (D3DSurfaceData)src;
        SurfaceManager mgr =
            SurfaceManager.getManager((Image)d3dsd.getDestination());
        if (mgr instanceof D3DVolatileSurfaceManager) {
            D3DVolatileSurfaceManager vsm = (D3DVolatileSurfaceManager)mgr;
            if (vsm != null) {
                d3dsd.setSurfaceLost(true);

                GDIWindowSurfaceData wsd = (GDIWindowSurfaceData)dst;
                WComponentPeer p = wsd.getPeer();
                if (D3DScreenUpdateManager.canUseD3DOnScreen(p,
                        (Win32GraphicsConfig)p.getGraphicsConfiguration(),
                        p.getBackBuffersNum()))
                {
                    // 10 is only chosen to be greater than the number of
                    // times a sane person would call validate() inside
                    // a validation loop, and to reduce thrashing between
                    // accelerated and backup surfaces
                    vsm.setRestoreCountdown(10);
                } else {
                    vsm.setAccelerationEnabled(false);
                }
            }
        }
    }
}