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CWE-ou-minkata/Sources/Plasma/FeatureLib/pfPython/pyDynamicText.cpp

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/*==LICENSE==*
CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011 Cyan Worlds, 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 3 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, see <http://www.gnu.org/licenses/>.
You can contact Cyan Worlds, Inc. by email legal@cyan.com
or by snail mail at:
Cyan Worlds, Inc.
14617 N Newport Hwy
Mead, WA 99021
*==LICENSE==*/
//////////////////////////////////////////////////////////////////////////////
// //
// plDynamicTextMsg Header //
// Message wrapper for commands to plDynamicTextMap. //
// //
//////////////////////////////////////////////////////////////////////////////
#include "plgDispatch.h"
#include "plMessage/plDynamicTextMsg.h"
#include "pyKey.h"
#include "plPythonFileMod.h"
#include "pyColor.h"
#include "pyImage.h"
#include "plGImage/plDynamicTextMap.h"
#include "pyDynamicText.h"
pyDynamicText::pyDynamicText()
{
IInit();
}
pyDynamicText::pyDynamicText(pyKey& key)
{
IInit();
fReceivers.Append(key.getKey());
}
pyDynamicText::pyDynamicText(plKey key)
{
IInit();
fReceivers.Append(key);
}
void pyDynamicText::IInit()
{
fSenderKey = nil;
fNetPropagate = false;
fNetForce = false;
fWrap = false;
fClip = false;
}
// methods that will be exposed to Python
void pyDynamicText::SetSender(pyKey& selfKey)
{
fSenderKey = selfKey.getKey();
}
void pyDynamicText::ClearReceivers()
{
fReceivers.Reset();
}
void pyDynamicText::AddReceiver(pyKey& key)
{
fReceivers.Append(key.getKey());
}
void pyDynamicText::SetNetPropagate(hsBool propagate)
{
fNetPropagate = propagate;
}
void pyDynamicText::SetNetForce(hsBool force)
{
fNetForce = force;
}
//////////////////////////////////////////////
// internal methods
//////////////////////////////////////////////
plDynamicTextMsg* pyDynamicText::ICreateDTMsg()
{
// must have a receiver!
if ( fReceivers.Count() > 0 )
{
plDynamicTextMsg* pMsg = TRACKED_NEW plDynamicTextMsg;
if ( fSenderKey )
pMsg->SetSender(fSenderKey);
if ( fNetPropagate )
pMsg->SetBCastFlag(plMessage::kNetPropagate);
if ( fNetForce )
pMsg->SetBCastFlag(plMessage::kNetForce);
// add all our receivers to the message receiver list
int i;
for ( i=0; i<fReceivers.Count(); i++ )
{
pMsg->AddReceiver(fReceivers[i]);
}
return pMsg;
}
else
return nil;
}
//////////////////////////////////////////////
// dynamicText commands
//////////////////////////////////////////////
//
// Need to determine whether to send over the network (netpropagate) or not
//
void pyDynamicText::ClearToColor( pyColor& color )
{
// create message
plDynamicTextMsg* pMsg = ICreateDTMsg();
if ( pMsg )
{
pMsg->ClearToColor(color.getColor());
plgDispatch::MsgSend( pMsg ); // whoosh... off it goes
}
}
void pyDynamicText::Flush( void )
{
// create message
plDynamicTextMsg* pMsg = ICreateDTMsg();
if ( pMsg )
{
pMsg->Flush();
plgDispatch::MsgSend( pMsg ); // whoosh... off it goes
}
}
void pyDynamicText::PurgeImage( void )
{
// create message
plDynamicTextMsg* pMsg = ICreateDTMsg();
if ( pMsg )
{
pMsg->PurgeImage();
plgDispatch::MsgSend( pMsg ); // whoosh... off it goes
}
}
void pyDynamicText::SetTextColor( pyColor& color )
{
SetTextColor2(color,false);
}
void pyDynamicText::SetTextColor2( pyColor& color, bool blockRGB )
{
// create message
plDynamicTextMsg* pMsg = ICreateDTMsg();
if ( pMsg )
{
pMsg->SetTextColor(color.getColor(),blockRGB);
plgDispatch::MsgSend( pMsg ); // whoosh... off it goes
}
}
void pyDynamicText::SetFont( const char *facename, Int16 size )
{
// create message
plDynamicTextMsg* pMsg = ICreateDTMsg();
if ( pMsg )
{
pMsg->SetFont(facename,size);
plgDispatch::MsgSend( pMsg ); // whoosh... off it goes
}
}
void pyDynamicText::FillRect( UInt16 left, UInt16 top, UInt16 right, UInt16 bottom, pyColor& color )
{
// create message
plDynamicTextMsg* pMsg = ICreateDTMsg();
if ( pMsg )
{
pMsg->FillRect(left,top,right,bottom,color.getColor());
plgDispatch::MsgSend( pMsg ); // whoosh... off it goes
}
}
void pyDynamicText::FrameRect( UInt16 left, UInt16 top, UInt16 right, UInt16 bottom, pyColor& color )
{
// create message
plDynamicTextMsg* pMsg = ICreateDTMsg();
if ( pMsg )
{
pMsg->FrameRect(left,top,right,bottom,color.getColor());
plgDispatch::MsgSend( pMsg ); // whoosh... off it goes
}
}
void pyDynamicText::SetClipping( UInt16 clipLeft, UInt16 clipTop, UInt16 clipRight, UInt16 clipBottom)
{
fClip = true;
fClipLeft = clipLeft;
fClipTop = clipTop;
fClipRight = clipRight;
fClipBottom = clipBottom;
}
void pyDynamicText::UnsetClipping()
{
fClip = false;
}
void pyDynamicText::SetWrapping( UInt16 wrapWidth, UInt16 wrapHeight )
{
fWrap = true;
fWrapWidth = wrapWidth;
fWrapHeight = wrapHeight;
}
void pyDynamicText::UnsetWrapping()
{
fWrap = false;
}
//
// Draw text paying attention to Clipping and Wrapping if user wanted it
//
void pyDynamicText::DrawText( Int16 x, Int16 y, const char *text )
{
// create message
plDynamicTextMsg* pMsg = ICreateDTMsg();
if ( pMsg )
{
// The priority is:
// 1) wrap (if you wrap you probably don't need to clip)
// 2) clip
// 3) just draw
if ( fWrap )
pMsg->DrawWrappedString(x,y,fWrapWidth,fWrapHeight,text);
else if ( fClip )
pMsg->DrawClippedString(x,y,fClipLeft,fClipTop,fClipRight,fClipBottom,text);
else
pMsg->DrawString(x,y,text);
plgDispatch::MsgSend( pMsg ); // whoosh... off it goes
}
}
void pyDynamicText::DrawTextW( Int16 x, Int16 y, std::wstring text )
{
// create message
plDynamicTextMsg* pMsg = ICreateDTMsg();
if ( pMsg )
{
// The priority is:
// 1) wrap (if you wrap you probably don't need to clip)
// 2) clip
// 3) just draw
if ( fWrap )
pMsg->DrawWrappedString(x,y,fWrapWidth,fWrapHeight,text.c_str());
else if ( fClip )
pMsg->DrawClippedString(x,y,fClipLeft,fClipTop,fClipRight,fClipBottom,text.c_str());
else
pMsg->DrawString(x,y,text.c_str());
plgDispatch::MsgSend( pMsg ); // whoosh... off it goes
}
}
//
// Draw an image on the DynamicMap
//
void pyDynamicText::DrawImage( UInt16 x, UInt16 y, pyImage& image, hsBool respectAlpha )
{
// create message
plDynamicTextMsg* pMsg = ICreateDTMsg();
if ( pMsg )
{
pMsg->DrawImage( x, y, image.GetKey(), respectAlpha);
plgDispatch::MsgSend( pMsg ); // whoosh... off it goes
}
}
//
// Draw an image on the DynamicMap
//
void pyDynamicText::DrawImageClipped( UInt16 x, UInt16 y, pyImage& image, UInt16 cx, UInt16 cy, UInt16 cw, UInt16 ch,
hsBool respectAlpha )
{
// create message
plDynamicTextMsg* pMsg = ICreateDTMsg();
if ( pMsg )
{
pMsg->DrawClippedImage( x, y, image.GetKey(), cx, cy, cw, ch, respectAlpha);
plgDispatch::MsgSend( pMsg ); // whoosh... off it goes
}
}
UInt16 pyDynamicText::GetWidth( void )
{
// We better just pick our first key. Note that the ONLY time we should be getting multiple receivers
// is if the export process ends up creating multiple copies of the material. Now, WHY you'd be wanting
// to draw all of them is a question for wiser men, but they should all be the same size regardless
if( fReceivers.GetCount() == 0 )
return 0;
plDynamicTextMap *dtMap = plDynamicTextMap::ConvertNoRef( fReceivers[ 0 ]->ObjectIsLoaded() );
if( dtMap == nil )
return 0;
return (UInt16)dtMap->GetWidth();
}
UInt16 pyDynamicText::GetHeight( void )
{
// We better just pick our first key. Note that the ONLY time we should be getting multiple receivers
// is if the export process ends up creating multiple copies of the material. Now, WHY you'd be wanting
// to draw all of them is a question for wiser men, but they should all be the same size regardless
if( fReceivers.GetCount() == 0 )
return 0;
plDynamicTextMap *dtMap = plDynamicTextMap::ConvertNoRef( fReceivers[ 0 ]->ObjectIsLoaded() );
if( dtMap == nil )
return 0;
return (UInt16)dtMap->GetHeight();
}
void pyDynamicText::CalcTextExtents( std::wstring text, unsigned &width, unsigned &height )
{
width = 0;
height = 0;
if (fReceivers.GetCount() == 0)
return;
plDynamicTextMap* dtMap = plDynamicTextMap::ConvertNoRef(fReceivers[0]->ObjectIsLoaded());
if (!dtMap)
return;
width = dtMap->CalcStringWidth(text.c_str(), (UInt16*)&height);
}
void pyDynamicText::SetJustify(UInt8 justify)
{
plDynamicTextMsg* pMsg = ICreateDTMsg();
if (pMsg)
{
pMsg->SetJustify(justify);
plgDispatch::MsgSend(pMsg);
}
}
void pyDynamicText::SetLineSpacing(Int16 spacing)
{
plDynamicTextMsg* pMsg = ICreateDTMsg();
if (pMsg)
{
pMsg->SetLineSpacing(spacing);
plgDispatch::MsgSend(pMsg);
}
}
plKey pyDynamicText::GetImage()
{
if (fReceivers.GetCount() > 0)
return fReceivers[0];
else
return nil;
}