/* -*- mode: C++; tab-width: 4; c-basic-offset: 4; -*- */
/* AbiWord
* Copyright (C) 1998-2000 AbiSource, Inc.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
* 02111-1307, USA.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <gtk/gtk.h>
#include "ap_Features.h"
#include "ut_types.h"
#include "ut_debugmsg.h"
#include "ut_assert.h"
#include "xap_ViewListener.h"
#include "ap_FrameData.h"
#include "ap_Frame.h"
#include "ev_UnixToolbar.h"
#include "xav_View.h"
#include "xad_Document.h"
#include "fv_View.h"
#include "fl_DocLayout.h"
#include "pd_Document.h"
#include "gr_UnixCairoGraphics.h"
#include "xap_Scrollbar_ViewListener.h"
#include "ap_UnixFrame.h"
#include "ap_UnixFrameImpl.h"
#include "xap_UnixApp.h"
#include "ap_UnixTopRuler.h"
#include "ap_UnixLeftRuler.h"
#include "ap_UnixStatusBar.h"
#include "ap_UnixViewListener.h"
#include "xap_UnixDialogHelper.h"
#if 1
#include "ev_UnixMenuBar.h"
#include "ev_Menu_Layouts.h"
#include "ev_Menu_Labels.h"
#include "ev_Menu_Actions.h"
#endif
#if defined(EMBEDDED_TARGET) && EMBEDDED_TARGET == EMBEDDED_TARGET_HILDON
#include "hildon/ap_UnixHildonFrameImpl.h"
#endif
/*****************************************************************/
#define ENSUREP_RF(p) do { UT_ASSERT(p); if (!p) return false; } while (0)
#define ENSUREP_C(p) do { UT_ASSERT(p); if (!p) goto Cleanup; } while (0)
/*****************************************************************/
#include "ap_UnixApp.h"
void AP_UnixFrame::setXScrollRange(void)
{
AP_UnixFrameImpl * pFrameImpl = static_cast<AP_UnixFrameImpl *>(getFrameImpl());
UT_return_if_fail(pFrameImpl);
GR_Graphics * pGr = pFrameImpl->getFrame ()->getCurrentView ()->getGraphics ();
int width = 0;
if(m_pData) //this isn't guaranteed in AbiCommand
width = static_cast<AP_FrameData*>(m_pData)->m_pDocLayout->getWidth();
int windowWidth = 0;
if(pFrameImpl->m_dArea) //this isn't guaranteed in AbiCommand
windowWidth = static_cast<int>(pGr->tluD (GTK_WIDGET(pFrameImpl->m_dArea)->allocation.width));
int newvalue = ((m_pView) ? m_pView->getXScrollOffset() : 0);
int newmax = width - windowWidth; /* upper - page_size */
if (newmax <= 0)
newvalue = 0;
else if (newvalue > newmax)
newvalue = newmax;
bool bDifferentPosition = false;
bool bDifferentLimits = false;
if(pFrameImpl->m_pHadj) //this isn't guaranteed in AbiCommand
{
bDifferentPosition = (newvalue != pFrameImpl->m_pHadj->value);
bDifferentLimits = ((width-windowWidth) != pFrameImpl->m_pHadj->upper-
pFrameImpl->m_pHadj->page_size);
}
pFrameImpl->_setScrollRange(apufi_scrollX, newvalue, static_cast<gfloat>(width), static_cast<gfloat>(windowWidth));
if (m_pView && (bDifferentPosition || bDifferentLimits))
m_pView->sendHorizontalScrollEvent(newvalue,
static_cast<UT_sint32>
(pFrameImpl->m_pHadj->upper-
pFrameImpl->m_pHadj->page_size));
}
void AP_UnixFrame::setYScrollRange(void)
{
AP_UnixFrameImpl * pFrameImpl = static_cast<AP_UnixFrameImpl *>(getFrameImpl());
UT_return_if_fail(pFrameImpl);
GR_Graphics * pGr = pFrameImpl->getFrame ()->getCurrentView ()->getGraphics ();
int height = 0;
if(m_pData) //this isn't guaranteed in AbiCommand
height = static_cast<AP_FrameData*>(m_pData)->m_pDocLayout->getHeight();
int windowHeight = 0;
if(pFrameImpl->m_dArea) //this isn't guaranteed in AbiCommand
windowHeight = static_cast<int>(pGr->tluD (GTK_WIDGET(pFrameImpl->m_dArea)->allocation.height));
int newvalue = ((m_pView) ? m_pView->getYScrollOffset() : 0);
int newmax = height - windowHeight; /* upper - page_size */
if (newmax <= 0)
newvalue = 0;
else if (newvalue > newmax)
newvalue = newmax;
bool bDifferentPosition = false;
UT_sint32 diff = 0;
if(pFrameImpl->m_pVadj) //this isn't guaranteed in AbiCommand
{
bDifferentPosition = (newvalue != static_cast<UT_sint32>(pFrameImpl->m_pVadj->value +0.5));
diff = static_cast<UT_sint32>(pFrameImpl->m_pVadj->upper-
pFrameImpl->m_pVadj->page_size +0.5);
}
if(bDifferentPosition)
{
UT_sint32 iDU = pGr->tdu( static_cast<UT_sint32>(pFrameImpl->m_pVadj->value +0.5) - newvalue);
if(iDU == 0)
{
bDifferentPosition = false;
pFrameImpl->m_pVadj->value = static_cast<gdouble>(newvalue);
}
}
bool bDifferentLimits = ((height-windowHeight) != diff);
if (m_pView && (bDifferentPosition || bDifferentLimits))
{
pFrameImpl->_setScrollRange(apufi_scrollY, newvalue, static_cast<gfloat>(height), static_cast<gfloat>(windowHeight));
m_pView->sendVerticalScrollEvent(newvalue,
static_cast<UT_sint32>
(pFrameImpl->m_pVadj->upper -
pFrameImpl->m_pVadj->page_size));
}
}
AP_UnixFrame::AP_UnixFrame()
#if defined(EMBEDDED_TARGET) && EMBEDDED_TARGET == EMBEDDED_TARGET_HILDON
: AP_Frame(new AP_UnixHildonFrameImpl(this))
#else
: AP_Frame(new AP_UnixFrameImpl(this))
#endif
{
m_pData = NULL;
setFrameLocked(false);
#ifdef LOGFILE
fprintf(getlogfile(),"New unix frame with app \n");
fprintf(getlogfile(),"Number of frames in app %d \n",pApp->getFrameCount());
#endif
}
AP_UnixFrame::AP_UnixFrame(AP_UnixFrame * f)
: AP_Frame(static_cast<AP_Frame *>(f))
{
m_pData = NULL;
#ifdef LOGFILE
fprintf(getlogfile(),"New unix frame with frame \n");
#endif
}
AP_UnixFrame::~AP_UnixFrame()
{
killFrameData();
}
XAP_Frame * AP_UnixFrame::cloneFrame()
{
AP_Frame * pClone = new AP_UnixFrame(this);
ENSUREP_C(pClone);
return static_cast<XAP_Frame *>(pClone);
Cleanup:
// clean up anything we created here
if (pClone)
{
XAP_App::getApp()->forgetFrame(pClone);
delete pClone;
}
return NULL;
}
bool AP_UnixFrame::initialize(XAP_FrameMode frameMode)
{
AP_UnixFrameImpl * pFrameImpl = static_cast<AP_UnixFrameImpl *>(getFrameImpl());
#if DEBUG
if(frameMode == XAP_NormalFrame)
{
UT_DEBUGMSG(("AP_UnixFrame::initialize!!!! NormalFrame this %p \n",this));
}
else if(frameMode == XAP_NoMenusWindowLess)
{
UT_DEBUGMSG(("AP_UnixFrame::initialize!!!! NoMenus No Window \n"));
}
else if(frameMode == XAP_WindowLess)
{
UT_DEBUGMSG(("AP_UnixFrame::initialize!!!! No Window with menus \n"));
}
#endif
setFrameMode(frameMode);
setFrameLocked(false);
if (!initFrameData())
{
UT_ASSERT(UT_SHOULD_NOT_HAPPEN);
return false;
}
UT_DEBUGMSG(("AP_UnixFrame:: Initializing base classes!!!! \n"));
if (!XAP_Frame::initialize(AP_PREF_KEY_KeyBindings,AP_PREF_DEFAULT_KeyBindings,
AP_PREF_KEY_MenuLayout, AP_PREF_DEFAULT_MenuLayout,
AP_PREF_KEY_StringSet, AP_PREF_KEY_StringSet,
AP_PREF_KEY_ToolbarLayouts, AP_PREF_DEFAULT_ToolbarLayouts,
AP_PREF_KEY_StringSet, AP_PREF_DEFAULT_StringSet))
{
UT_ASSERT(UT_SHOULD_NOT_HAPPEN);
return false;
}
UT_DEBUGMSG(("AP_UnixFrame:: Creating Toplevel Window!!!! \n"));
pFrameImpl->_createWindow();
return true;
}
/*****************************************************************/
// WL_REFACTOR: Put this in the helper
void AP_UnixFrame::_scrollFuncY(void * pData, UT_sint32 yoff, UT_sint32 /*yrange*/)
{
// this is a static callback function and doesn't have a 'this' pointer.
AP_UnixFrame * pUnixFrame = static_cast<AP_UnixFrame *>(pData);
AV_View * pView = pUnixFrame->getCurrentView();
AP_UnixFrameImpl * pFrameImpl = static_cast<AP_UnixFrameImpl *>(pUnixFrame->getFrameImpl());
// we've been notified (via sendVerticalScrollEvent()) of a scroll (probably
// a keyboard motion). push the new values into the scrollbar widgets
// (with clamping). then cause the view to scroll.
gfloat yoffNew = yoff;
gfloat yoffMax = pFrameImpl->m_pVadj->upper -
pFrameImpl->m_pVadj->page_size;
if (yoffMax <= 0)
yoffNew = 0;
else if (yoffNew > yoffMax)
yoffNew = yoffMax;
// we want to twiddle xoffNew such that actual scroll = anticipated scroll.
// actual scroll is given by the formula xoffNew-pView->getXScrollOffset()
// this is exactly the same computation that we do in the scrolling code.
// I don't think we need as much precision anymore, now that we have
// precise rounding, but it can't really be a bad thing.
GR_Graphics * pG = static_cast<FV_View*>(pView)->getGraphics();
UT_sint32 dy = static_cast<UT_sint32>
(pG->tluD(static_cast<UT_sint32>(pG->tduD
(static_cast<UT_sint32>(pView->getYScrollOffset()-yoffNew)))));
gfloat yoffDisc = static_cast<UT_sint32>(pView->getYScrollOffset()) - dy;
// We need to block the signal this will send. The setYScrollOffset method
// will do the scroll for us. Otherwise we'll scroll back here later!!
g_signal_handler_block((gpointer)pFrameImpl->m_pVadj, pFrameImpl->m_iVScrollSignal);
gtk_adjustment_set_value(GTK_ADJUSTMENT(pFrameImpl->m_pVadj),yoffNew);
g_signal_handler_unblock((gpointer)pFrameImpl->m_pVadj, pFrameImpl->m_iVScrollSignal);
if (pG->tdu(static_cast<UT_sint32>(yoffDisc) -
pView->getYScrollOffset()) != 0)
pView->setYScrollOffset(static_cast<UT_sint32>(yoffDisc));
}
// WL_REFACTOR: Put this in the helper
void AP_UnixFrame::_scrollFuncX(void * pData, UT_sint32 xoff, UT_sint32 /*xrange*/)
{
// this is a static callback function and doesn't have a 'this' pointer.
AP_UnixFrame * pUnixFrame = static_cast<AP_UnixFrame *>(pData);
AV_View * pView = pUnixFrame->getCurrentView();
AP_UnixFrameImpl * pFrameImpl = static_cast<AP_UnixFrameImpl *>(pUnixFrame->getFrameImpl());
// we've been notified (via sendScrollEvent()) of a scroll (probably
// a keyboard motion). push the new values into the scrollbar widgets
// (with clamping). then cause the view to scroll.
gfloat xoffNew = xoff;
gfloat xoffMax = pFrameImpl->m_pHadj->upper -
pFrameImpl->m_pHadj->page_size;
if (xoffMax <= 0)
xoffNew = 0;
else if (xoffNew > xoffMax)
xoffNew = xoffMax;
// we want to twiddle xoffNew such that actual scroll = anticipated scroll.
// actual scroll is given by the formula xoffNew-pView->getXScrollOffset()
// this is exactly the same computation that we do in the scrolling code.
// I don't think we need as much precision anymore, now that we have
// precise rounding, but it can't really be a bad thing.
GR_Graphics * pG = static_cast<FV_View*>(pView)->getGraphics();
UT_sint32 dx = static_cast<UT_sint32>
(pG->tluD(static_cast<UT_sint32>(pG->tduD
(static_cast<UT_sint32>(pView->getXScrollOffset()-xoffNew)))));
gfloat xoffDisc = static_cast<UT_sint32>(pView->getXScrollOffset()) - dx;
// We need to block the signal this will send. The setHScrollOffset method
// will do the scroll for us. Otherwise we'll scroll back here later!!
g_signal_handler_block((gpointer)pFrameImpl->m_pHadj, pFrameImpl->m_iHScrollSignal);
gtk_adjustment_set_value(GTK_ADJUSTMENT(pFrameImpl->m_pHadj),xoffDisc);
g_signal_handler_unblock((gpointer)pFrameImpl->m_pHadj, pFrameImpl->m_iHScrollSignal);
// (this is the calculation for dx again, post rounding)
// This may not actually be helpful, because we could still lose if the
// second round of rounding gives us the wrong number. Leave it for now.
if (pG->tdu(static_cast<UT_sint32>(xoffDisc) -
pView->getXScrollOffset()) != 0)
pView->setXScrollOffset(static_cast<UT_sint32>(xoffDisc));
}
void AP_UnixFrame::translateDocumentToScreen(UT_sint32 & /*x*/, UT_sint32 & /*y*/)
{
UT_ASSERT_NOT_REACHED();
}
void AP_UnixFrame::setStatusMessage(const char * szMsg)
{
#ifdef ENABLE_STATUSBAR
if((getFrameMode() == XAP_NormalFrame) && (m_pData))
{
static_cast<AP_FrameData *>(m_pData)->m_pStatusBar->setStatusMessage(szMsg);
}
#endif
}
void AP_UnixFrame::toggleTopRuler(bool bRulerOn)
{
AP_FrameData *pFrameData = static_cast<AP_FrameData *>(getFrameData());
UT_ASSERT(pFrameData);
AP_UnixFrameImpl * pFrameImpl = static_cast<AP_UnixFrameImpl *>(getFrameImpl());
AP_UnixTopRuler * pUnixTopRuler = NULL;
UT_DEBUGMSG(("AP_UnixFrame::toggleTopRuler %d, %p\n",
bRulerOn, pFrameData->m_pTopRuler));
if ( bRulerOn )
{
if(pFrameData->m_pTopRuler)
{
if(pFrameImpl->m_topRuler && GTK_IS_OBJECT(pFrameImpl->m_topRuler))
{
gtk_object_destroy( GTK_OBJECT(pFrameImpl->m_topRuler) );
}
DELETEP(pFrameData->m_pTopRuler);
}
FV_View * pView = static_cast<FV_View *>(m_pView);
UT_uint32 iZoom = pView->getGraphics()->getZoomPercentage();
pUnixTopRuler = new AP_UnixTopRuler(this);
UT_ASSERT(pUnixTopRuler);
pFrameData->m_pTopRuler = pUnixTopRuler;
pFrameImpl->m_topRuler = pUnixTopRuler->createWidget();
// attach everything
gtk_table_attach(GTK_TABLE(pFrameImpl->m_innertable),
pFrameImpl->m_topRuler, 0, 2, 0, 1,
(GtkAttachOptions)(GTK_EXPAND | GTK_FILL),
(GtkAttachOptions)(GTK_FILL),
0, 0);
static_cast<AP_TopRuler *>(pUnixTopRuler)->setView(m_pView,iZoom);
// get the width from the left ruler and stuff it into the
// top ruler.
if (static_cast<AP_FrameData*>(m_pData)->m_pLeftRuler)
pUnixTopRuler->setOffsetLeftRuler(static_cast<AP_FrameData*>(m_pData)->m_pLeftRuler->getWidth());
else
pUnixTopRuler->setOffsetLeftRuler(0);
}
else
{
// delete the actual widgets
if(pFrameImpl->m_topRuler && GTK_IS_OBJECT(pFrameImpl->m_topRuler))
{
gtk_object_destroy( GTK_OBJECT(pFrameImpl->m_topRuler) );
}
DELETEP(pFrameData->m_pTopRuler);
pFrameImpl->m_topRuler = NULL;
static_cast<FV_View *>(m_pView)->setTopRuler(NULL);
}
}
void AP_UnixFrame::toggleLeftRuler(bool bRulerOn)
{
AP_FrameData *pFrameData = static_cast<AP_FrameData *>(getFrameData());
UT_ASSERT(pFrameData);
AP_UnixFrameImpl * pFrameImpl = static_cast<AP_UnixFrameImpl *>(getFrameImpl());
UT_DEBUGMSG(("AP_UnixFrame::toggleLeftRuler %d, %p\n",
bRulerOn, pFrameData->m_pLeftRuler));
if (bRulerOn)
{
//
// if there is an old ruler then delete that first.
//
if(pFrameData->m_pLeftRuler)
{
if (pFrameImpl->m_leftRuler && GTK_IS_OBJECT(pFrameImpl->m_leftRuler))
{
gtk_object_destroy(GTK_OBJECT(pFrameImpl->m_leftRuler) );
}
DELETEP(pFrameData->m_pLeftRuler);
}
FV_View * pView = static_cast<FV_View *>(m_pView);
UT_uint32 iZoom = pView->getGraphics()->getZoomPercentage();
AP_UnixLeftRuler * pUnixLeftRuler = new AP_UnixLeftRuler(this);
UT_ASSERT(pUnixLeftRuler);
pFrameData->m_pLeftRuler = pUnixLeftRuler;
pFrameImpl->m_leftRuler = pUnixLeftRuler->createWidget();
gtk_table_attach(GTK_TABLE(pFrameImpl->m_innertable),
pFrameImpl->m_leftRuler, 0, 1, 1, 2,
(GtkAttachOptions)(GTK_FILL),
(GtkAttachOptions)(GTK_EXPAND | GTK_FILL),
0,0);
static_cast<AP_LeftRuler *>(pUnixLeftRuler)->setView(m_pView,iZoom);
setYScrollRange();
}
else
{
if (pFrameImpl->m_leftRuler && GTK_IS_OBJECT(pFrameImpl->m_leftRuler))
{
gtk_object_destroy(GTK_OBJECT(pFrameImpl->m_leftRuler) );
}
DELETEP(pFrameData->m_pLeftRuler);
pFrameImpl->m_leftRuler = NULL;
static_cast<FV_View *>(m_pView)->setLeftRuler(NULL);
}
}
void AP_UnixFrame::toggleRuler(bool bRulerOn)
{
AP_FrameData *pFrameData = static_cast<AP_FrameData *>(getFrameData());
UT_ASSERT(pFrameData);
toggleTopRuler(bRulerOn);
toggleLeftRuler(bRulerOn && (pFrameData->m_pViewMode == VIEW_PRINT));
}
void AP_UnixFrame::toggleBar(UT_uint32 iBarNb, bool bBarOn)
{
UT_DEBUGMSG(("AP_UnixFrame::toggleBar %d, %d\n", iBarNb, bBarOn));
AP_FrameData *pFrameData = static_cast<AP_FrameData *> (getFrameData());
UT_ASSERT(pFrameData);
if (bBarOn)
pFrameData->m_pToolbar[iBarNb]->show();
else // turning toolbar off
pFrameData->m_pToolbar[iBarNb]->hide();
}
void AP_UnixFrame::toggleStatusBar(bool bStatusBarOn)
{
UT_DEBUGMSG(("AP_UnixFrame::toggleStatusBar %d\n", bStatusBarOn));
AP_FrameData *pFrameData = static_cast<AP_FrameData *> (getFrameData());
UT_return_if_fail(pFrameData && pFrameData->m_pStatusBar);
if (bStatusBarOn)
pFrameData->m_pStatusBar->show();
else // turning status bar off
pFrameData->m_pStatusBar->hide();
}
bool AP_UnixFrame::_createViewGraphics(GR_Graphics *& pG, UT_uint32 iZoom)
{
//WL: experimentally hiding this
//gtk_widget_show(static_cast<AP_UnixFrameImpl *>(m_pFrameImpl)->m_dArea);
AP_UnixFrameImpl * pImpl = static_cast<AP_UnixFrameImpl *>(getFrameImpl());
UT_ASSERT(pImpl);
UT_DEBUGMSG(("Got FrameImpl %p area %p \n",pImpl,pImpl->m_dArea));
GR_UnixCairoAllocInfo ai(pImpl->m_dArea);
pG = (GR_CairoGraphics*) XAP_App::getApp()->newGraphics(ai);
GtkWidget *widget = GTK_WIDGET(static_cast<AP_UnixFrameImpl *>(getFrameImpl())->m_dArea);
GR_UnixCairoGraphics *pUnixGraphics = static_cast<GR_UnixCairoGraphics *>(pG);
pUnixGraphics->init3dColors(widget->style);
pUnixGraphics->initWidget(widget);
ENSUREP_RF(pG);
pG->setZoomPercentage(iZoom);
return true;
}
void AP_UnixFrame::_setViewFocus(AV_View *pView)
{
AP_UnixFrameImpl * pFrameImpl = static_cast<AP_UnixFrameImpl *>(getFrameImpl());
bool bFocus=GPOINTER_TO_INT(g_object_get_data(G_OBJECT(pFrameImpl->getTopLevelWindow()),
"toplevelWindowFocus"));
pView->setFocus(bFocus && (gtk_grab_get_current()==NULL || gtk_grab_get_current()==pFrameImpl->getTopLevelWindow()) ? AV_FOCUS_HERE : !bFocus && gtk_grab_get_current()!=NULL && isTransientWindow(GTK_WINDOW(gtk_grab_get_current()),GTK_WINDOW(pFrameImpl->getTopLevelWindow())) ? AV_FOCUS_NEARBY : AV_FOCUS_NONE);
}
void AP_UnixFrame::_bindToolbars(AV_View *pView)
{
static_cast<AP_UnixFrameImpl *>(getFrameImpl())->_bindToolbars(pView);
}
bool AP_UnixFrame::_createScrollBarListeners(AV_View * pView, AV_ScrollObj *& pScrollObj,
ap_ViewListener *& pViewListener, ap_Scrollbar_ViewListener *& pScrollbarViewListener,
AV_ListenerId &lid, AV_ListenerId &lidScrollbarViewListener)
{
// The "AV_ScrollObj pScrollObj" receives
// send{Vertical,Horizontal}ScrollEvents
// from both the scroll-related edit methods
// and from the UI callbacks.
//
// The "ap_ViewListener pViewListener" receives
// change notifications as the document changes.
// This ViewListener is responsible for keeping
// the title-bar up to date (primarily title
// changes, dirty indicator, and window number).
// ON UNIX ONLY: we subclass this with ap_UnixViewListener
// ON UNIX ONLY: so that we can deal with X-Selections.
//
// The "ap_Scrollbar_ViewListener pScrollbarViewListener"
// receives change notifications as the doucment changes.
// This ViewListener is responsible for recalibrating the
// scrollbars as pages are added/removed from the document.
//
// Each Toolbar will also get a ViewListener so that
// it can update toggle buttons, and other state-indicating
// controls on it.
//
// TODO we ***really*** need to re-do the whole scrollbar thing.
// TODO we have an addScrollListener() using an m_pScrollObj
// TODO and a View-Listener, and a bunch of other widget stuff.
// TODO and its very confusing.
pScrollObj = new AV_ScrollObj(this,_scrollFuncX,_scrollFuncY);
ENSUREP_RF(pScrollObj);
pViewListener = new ap_UnixViewListener(this);
ENSUREP_RF(pViewListener);
pScrollbarViewListener = new ap_Scrollbar_ViewListener(this,pView);
ENSUREP_RF(pScrollbarViewListener);
if (!pView->addListener(static_cast<AV_Listener *>(pViewListener),&lid))
return false;
if (!pView->addListener(static_cast<AV_Listener *>(pScrollbarViewListener),
&lidScrollbarViewListener))
return false;
return true;
}
UT_sint32 AP_UnixFrame::_getDocumentAreaWidth()
{
return static_cast<UT_sint32>(GTK_WIDGET(static_cast<AP_UnixFrameImpl *>(getFrameImpl())->m_dArea)->allocation.width);
}
UT_sint32 AP_UnixFrame::_getDocumentAreaHeight()
{
return static_cast<UT_sint32>(GTK_WIDGET(static_cast<AP_UnixFrameImpl *>(getFrameImpl())->m_dArea)->allocation.height);
}
UT_sint32 AP_UnixFrame::getDocumentAreaXoff()
{
return static_cast<UT_sint32>(GTK_WIDGET(static_cast<AP_UnixFrameImpl *>(getFrameImpl())->m_dArea)->allocation.x);
}
UT_sint32 AP_UnixFrame::getDocumentAreaYoff()
{
return static_cast<UT_sint32>(GTK_WIDGET(static_cast<AP_UnixFrameImpl *>(getFrameImpl())->m_dArea)->allocation.y);
}