// Ryzom - MMORPG Framework
// Copyright (C) 2010 Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero 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 Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see .
#include "stdafx.h"
#include "resource.h"
#include "View.h"
#include "SelectionTerritoire.h"
#include "select_rotation.h"
#include "Browse.h"
#include "popup.h"
#include
//#include "ListGroup.h"
//#include "ViewPopup.h"
//#include "pic/readpic.h"
using namespace std;
using namespace NL3D;
extern CTileBank tileBank2;
BEGIN_MESSAGE_MAP(CTView, CStatic)
//{{AFX_MSG_MAP(CTView)
ON_WM_DROPFILES()
ON_WM_PAINT()
ON_WM_LBUTTONDBLCLK()
ON_WM_LBUTTONDOWN()
ON_WM_RBUTTONDOWN()
//}}AFX_MSG_MAP
END_MESSAGE_MAP()
CFont *normal_font = NULL;
//int SortTile = 0; int sortMode = 1; //or, and
__int64 flagGroupSort = 0; int showNULL = 0;
//ViewPopup *theViewPopup = 0;
bool zouille ()
{
return (GetAsyncKeyState(VK_F2)&(1<<15)) != 0;
};
// Rotate a buffer
void rotateBuffer (uint &Width, uint &Height, std::vector& Tampon)
{
// Make a copy
std::vector copy=Tampon;
// Rotate
for (uint y=0; y &tampon, uint &width, uint &height)
{
try
{
NLMISC::CIFile file;
if (file.open(path.c_str()))
{
NLMISC::CBitmap bitmap;
bitmap.load(file);
width = bitmap.getWidth();
height = bitmap.getHeight();
tampon.resize(width * height);
bitmap.convertToType(NLMISC::CBitmap::RGBA);
for (uint y = 0; y < height; ++y)
{
for (uint x = 0; x < width; ++x)
{
NLMISC::CRGBA c = bitmap.getPixelColor(x, y, 0);
c.R = (c.R * c.A) / 255;
c.G = (c.G * c.A) / 255;
c.B = (c.B * c.A) / 255;
tampon[(y * width) + x] = c;
}
}
return true;
}
}
catch (NLMISC::Exception& ) { }
return false;
}
/////////////////////////////////////////////////////////////////////////////
// CTView
//Attention : windows veut que le buffer image commence du bas vers le haut
int _LoadBitmap(const std::string& path,LPBITMAPINFO BitmapInfo, std::vector&Tampon, std::vector* Alpha, int rot)
{
//vector Tampon;
uint Width;
uint Height;
if (loadPic(path, Tampon, Width, Height))
{
BitmapInfo->bmiHeader.biSize=sizeof(BITMAPINFOHEADER);
BitmapInfo->bmiHeader.biWidth=Width;
BitmapInfo->bmiHeader.biHeight=-(int)Height;
BitmapInfo->bmiHeader.biPlanes=1;
BitmapInfo->bmiHeader.biBitCount=32;
BitmapInfo->bmiHeader.biCompression=BI_RGB;
BitmapInfo->bmiHeader.biSizeImage=0;
BitmapInfo->bmiHeader.biXPelsPerMeter=1;
BitmapInfo->bmiHeader.biYPelsPerMeter=1;
BitmapInfo->bmiHeader.biClrUsed=0;
BitmapInfo->bmiHeader.biClrImportant=0;
BitmapInfo->bmiColors->rgbBlue=0;
BitmapInfo->bmiColors->rgbRed=0;
BitmapInfo->bmiColors->rgbGreen=0;
while (rot)
{
// Rotate the buffer
rotateBuffer (Width, Height, Tampon);
rot--;
}
if ((Alpha)&&(Alpha->size()==Tampon.size()))
{
// Pre mul RGB componates by Alpha one
int nPixelCount=(int)(Width*Height);
for (int p=0; p>8);
Tampon[p].G=(uint8)(((int)Tampon[p].G*alpha)>>8);
Tampon[p].B=(uint8)(((int)Tampon[p].B*alpha)>>8);
}
}
return 1;
}
else
return 0;
}
//TileInfo
TileInfo::TileInfo()
{
nightLoaded = 0;
alphaLoaded = 0;
loaded = 0;
Selected = 0;
}
//TileList
TileList::TileList()
{
last_id = 0;
_tileSet = -1;
// Add 48 transitions
int i;
for (i=0; iaddTile128 (index, tileBank2);
nlassert (index==(sint)theList128.size());
TileInfo info;
info.id = index;
theList128.push_back (info);
return index;
}
int TileList::addTile256 ()
{
int index;
tileBank2.getTileSet (_tileSet)->addTile256 (index, tileBank2);
nlassert (index==(sint)theList256.size());
TileInfo info;
info.id = index;
theList256.push_back (info);
return index;
}
bool RemovePath (std::string& path, const char* absolutePathToRemplace);
int TileList::setTile128 (int tile, const std::string& name, NL3D::CTile::TBitmap type)
{
// Remove the absolute path from the path name
std::string troncated=name;
if (RemovePath (troncated, tileBank2.getAbsPath ().c_str()))
{
vector tampon;
uint Width;
uint Height;
if (!loadPic(tileBank2.getAbsPath ()+troncated, tampon, Width, Height))
{
return (int)(MessageBox (NULL, ((tileBank2.getAbsPath ()+troncated)+"\nContinue ?").c_str(), "Can't load bitmap.", MB_YESNO|MB_ICONEXCLAMATION)==IDYES);
}
else
{
CTileBorder border;
border.set (Width, Height, tampon);
CTileSet::TError error;
int pixel=-1;
int composante=4;
if (type == CTile::additive)
error=CTileSet::ok;
else
error=tileBank2.getTileSet(_tileSet)->checkTile128 (type, border, pixel, composante);
if ((error!=CTileSet::ok)&&(error!=CTileSet::addFirstA128128)&&!zouille ())
{
char sTmp[512];
static const char* comp[]={"Red", "Green", "Blue", "Alpha", ""};
sprintf (sTmp, "%s\nPixel: %d (%s)", CTileSet::getErrorMessage (error), pixel, comp[composante]);
return (int)(MessageBox (NULL, (std::string(sTmp)+"\nContinue ?").c_str(), "Can't add tile", MB_YESNO|MB_ICONEXCLAMATION)==IDYES);
}
else
{
if (error==CTileSet::addFirstA128128)
tileBank2.getTileSet(_tileSet)->setBorder (type, border);
tileBank2.getTileSet(_tileSet)->setTile128 (tile, troncated, type, tileBank2);
switch (type)
{
case CTile::diffuse:
theList128[tile].loaded=0;
break;
case CTile::additive:
theList128[tile].nightLoaded=0;
break;
case CTile::alpha:
theList128[tile].alphaLoaded=0;
break;
}
theList128[tile].Load (tileBank2.getTileSet(_tileSet)->getTile128(tile), NULL);
}
}
}
else
{
// Error: bitmap not in the absolute path..
char msg[512];
sprintf (msg, "The bitmap %s is not in the absolute path %s.", name.c_str(), tileBank2.getAbsPath ().c_str());
return (int)(MessageBox (NULL, (std::string (msg)+"\nContinue ?").c_str(), "Load error", MB_YESNO|MB_ICONEXCLAMATION)==IDYES);
}
return 1;
}
int TileList::setTile256 (int tile, const std::string& name, NL3D::CTile::TBitmap type)
{
// Remove the absolute path from the path name
std::string troncated=name;
if (RemovePath (troncated, tileBank2.getAbsPath ().c_str()))
{
vector tampon;
uint Width;
uint Height;
if (!loadPic(tileBank2.getAbsPath ()+troncated, tampon, Width, Height))
{
return (int)(MessageBox (NULL, ((tileBank2.getAbsPath ()+troncated)+"\nContinue ?").c_str(), "Can't load bitmap.", MB_YESNO|MB_ICONEXCLAMATION)==IDYES);
}
else
{
CTileBorder border;
border.set (Width, Height, tampon);
CTileSet::TError error;
int pixel=-1;
int composante=4;
if (type == CTile::additive)
error=CTileSet::ok;
else
error=tileBank2.getTileSet(_tileSet)->checkTile256 (type, border, pixel, composante);
if ((error!=CTileSet::ok)&&!zouille())
{
char sTmp[512];
static const char* comp[]={"Red", "Green", "Blue", "Alpha", ""};
sprintf (sTmp, "%s\nPixel: %d (%s)", CTileSet::getErrorMessage (error), pixel, comp[composante]);
return (int)(MessageBox (NULL, (std::string(sTmp)+"\nContinue ?").c_str(), "Can't add tile", MB_YESNO|MB_ICONEXCLAMATION)==IDYES);
}
else
{
tileBank2.getTileSet(_tileSet)->setTile256 (tile, troncated, type, tileBank2);
switch (type)
{
case CTile::diffuse:
theList256[tile].loaded=0;
break;
case CTile::additive:
theList256[tile].nightLoaded=0;
break;
case CTile::alpha:
theList256[tile].alphaLoaded=0;
break;
}
theList256[tile].Load (tileBank2.getTileSet(_tileSet)->getTile256(tile), NULL);
}
}
}
else
{
// Error: bitmap not in the absolute path..
char msg[512];
sprintf (msg, "The bitmap %s is not in the absolute path %s.", name.c_str(), tileBank2.getAbsPath ().c_str());
return (int)(MessageBox (NULL, (std::string (msg)+"\nContinue ?").c_str(), "Load error", MB_YESNO|MB_ICONEXCLAMATION)==IDYES);
}
return 1;
}
int TileList::setTileTransition (int tile, const std::string& name, NL3D::CTile::TBitmap type)
{
// Remove the absolute path from the path name
std::string troncated=name;
if (RemovePath (troncated, tileBank2.getAbsPath ().c_str()))
{
// No alpha, use setTileTransitionAlpha
nlassert (CTile::alpha!=type);
vector tampon;
uint Width;
uint Height;
if (!loadPic(tileBank2.getAbsPath ()+troncated, tampon, Width, Height))
{
return (int)(MessageBox (NULL, ((tileBank2.getAbsPath ()+troncated)+"\nContinue ?").c_str(), "Can't load bitmap.", MB_YESNO|MB_ICONEXCLAMATION)==IDYES);
}
else
{
CTileBorder border;
border.set (Width, Height, tampon);
CTileSet::TError error;
int pixel=-1;
int composante=4;
if (type == CTile::additive)
error=CTileSet::ok;
else
error=tileBank2.getTileSet(_tileSet)->checkTile128 (type, border, pixel, composante);
if ((error!=CTileSet::ok)&&(error!=CTileSet::addFirstA128128)&&!zouille ())
{
char sTmp[512];
static const char* comp[]={"Red", "Green", "Blue", "Alpha", ""};
sprintf (sTmp, "%s\nPixel: %d (%s)", CTileSet::getErrorMessage (error), pixel, comp[composante]);
return MessageBox (NULL, (std::string(sTmp)+"\nContinue ?").c_str(), "Can't add tile", MB_YESNO|MB_ICONEXCLAMATION)==IDYES;
}
else
{
if (error==CTileSet::addFirstA128128)
tileBank2.getTileSet(_tileSet)->setBorder (type, border);
tileBank2.getTileSet(_tileSet)->setTileTransition ((CTileSet::TTransition)tile, troncated, type, tileBank2, border);
switch (type)
{
case CTile::diffuse:
theListTransition[tile].loaded=0;
break;
case CTile::additive:
theListTransition[tile].nightLoaded=0;
break;
case CTile::alpha:
theListTransition[tile].alphaLoaded=0;
break;
}
theListTransition[tile].Load (tileBank2.getTileSet(_tileSet)->getTransition(tile)->getTile(),
&theListTransition[tile].alphaBits);
}
}
}
else
{
// Error: bitmap not in the absolute path..
char msg[512];
sprintf (msg, "The bitmap %s is not in the absolute path %s.", name.c_str(), tileBank2.getAbsPath ().c_str());
MessageBox (NULL, msg, "Load error", MB_OK|MB_ICONEXCLAMATION);
}
return 1;
}
int TileList::setDisplacement (int tile, const std::string& name)
{
// Remove the absolute path from the path name
std::string troncated=name;
if (RemovePath (troncated, tileBank2.getAbsPath ().c_str()))
{
// load it
if (troncated!="")
{
// not loaded
theListDisplacement[tile].loaded=0;
if (!_LoadBitmap(tileBank2.getAbsPath() + troncated, &theListDisplacement[tile].BmpInfo, theListDisplacement[tile].Bits, NULL, 0))
MessageBox (NULL, (tileBank2.getAbsPath() + troncated).c_str(), "Can't load file", MB_OK|MB_ICONEXCLAMATION);
else
{
// Check the size
if ((theListDisplacement[tile].BmpInfo.bmiHeader.biWidth!=32)||(-theListDisplacement[tile].BmpInfo.bmiHeader.biHeight!=32))
{
// Error message
MessageBox (NULL, "Invalid size: displacement map must be 32x32 8 bits.", troncated.c_str(),
MB_OK|MB_ICONEXCLAMATION);
// Free the bitmap
theListDisplacement[tile].Bits.resize (0);
}
else
{
// Loaded
theListDisplacement[tile].loaded=1;
// change the file name of the displacement map
tileBank2.getTileSet(_tileSet)->setDisplacement ((CTileSet::TDisplacement)tile, troncated, tileBank2);
}
}
}
}
else
{
// Error: bitmap not in the absolute path..
char msg[512];
sprintf (msg, "The bitmap %s is not in the absolute path %s.", name.c_str(), tileBank2.getAbsPath ().c_str());
MessageBox (NULL, msg, "Load error", MB_OK|MB_ICONEXCLAMATION);
}
return 1;
}
int TileList::setTileTransitionAlpha (int tile, const std::string& name, int rot)
{
// Remove the absolute path from the path name
std::string troncated=name;
if (RemovePath (troncated, tileBank2.getAbsPath ().c_str()))
{
vector tampon;
uint Width;
uint Height;
if (!loadPic(tileBank2.getAbsPath ()+troncated, tampon, Width, Height))
{
return MessageBox (NULL, ((tileBank2.getAbsPath ()+troncated)+"\nContinue ?").c_str(), "Can't load bitmap.", MB_YESNO|MB_ICONEXCLAMATION)==IDYES;
}
else
{
CTileBorder border;
border.set (Width, Height, tampon);
// rotate the border
int rotBis=rot;
while (rotBis)
{
border.rotate ();
rotBis--;
}
CTileSet::TError error;
int indexError;
int pixel=-1;
int composante=4;
if (((error=tileBank2.getTileSet(_tileSet)->checkTileTransition ((CTileSet::TTransition)tile, CTile::alpha, border, indexError,
pixel, composante))!=CTileSet::ok)&&!zouille ())
{
char sMsg[512];
if ((error==CTileSet::topInterfaceProblem)||(error==CTileSet::bottomInterfaceProblem)||(error==CTileSet::leftInterfaceProblem)
||(error==CTileSet::rightInterfaceProblem)||(error==CTileSet::topBottomNotTheSame)||(error==CTileSet::rightLeftNotTheSame)
||(error==CTileSet::topInterfaceProblem))
{
static const char* comp[]={"Red", "Green", "Blue", "Alpha", ""};
if (indexError!=-1)
sprintf (sMsg, "%s\nIncompatible with tile nb %d\nPixel: %d (%s)", CTileSet::getErrorMessage (error), indexError,
pixel, comp[composante]);
else
sprintf (sMsg, "%s\nIncompatible with the 128x128 tile\nPixel: %d (%s)", CTileSet::getErrorMessage (error),
pixel, comp[composante]);
}
else
sprintf (sMsg, "%s\nIncompatible filled tile", CTileSet::getErrorMessage (error));
return MessageBox (NULL, (std::string(sMsg)+"\nContinue ?").c_str(), "Can't add tile", MB_YESNO|MB_ICONEXCLAMATION)==IDYES;
}
else
{
tileBank2.getTileSet(_tileSet)->setTileTransitionAlpha ((CTileSet::TTransition)tile, troncated, tileBank2, border, rot);
theListTransition[tile].alphaLoaded=0;
theListTransition[tile].Load (tileBank2.getTileSet(_tileSet)->getTransition(tile)->getTile(), NULL);
}
}
}
else
{
// Error: bitmap not in the absolute path..
char msg[512];
sprintf (msg, "The bitmap %s is not in the absolute path %s.", name.c_str(), tileBank2.getAbsPath ().c_str());
MessageBox (NULL, msg, "Load error", MB_OK|MB_ICONEXCLAMATION);
}
return 1;
}
void TileList::removeTile128 (int index)
{
tileBank2.getTileSet (_tileSet)->removeTile128 (index, tileBank2);
theList[0].erase (theList[0].begin()+index);
for (int i=0; i<(sint)theList[0].size(); i++)
{
theList[0][i].id=i;
}
}
void TileList::removeTile256 (int index)
{
tileBank2.getTileSet (_tileSet)->removeTile256 (index, tileBank2);
theList[1].erase (theList[1].begin()+index);
for (int i=0; i<(sint)theList[1].size(); i++)
{
theList[1][i].id=i;
}
}
void TileList::clearTile128 (int index, CTile::TBitmap bitmap)
{
switch (bitmap)
{
case CTile::diffuse:
theList128[index].loaded=0;
theList128[index].Bits.resize(0);
break;
case CTile::additive:
theList128[index].nightLoaded=0;
theList128[index].nightBits.resize(0);
break;
case CTile::alpha:
theList128[index].alphaLoaded=0;
theList128[index].alphaBits.resize(0);
break;
}
tileBank2.getTileSet (_tileSet)->clearTile128 (index, bitmap, tileBank2);
}
void TileList::clearTile256 (int index, CTile::TBitmap bitmap)
{
switch (bitmap)
{
case CTile::diffuse:
theList256[index].loaded=0;
theList256[index].Bits.resize(0);
break;
case CTile::additive:
theList256[index].nightLoaded=0;
theList256[index].nightBits.resize(0);
break;
case CTile::alpha:
theList256[index].alphaLoaded=0;
theList256[index].alphaBits.resize(0);
break;
}
tileBank2.getTileSet (_tileSet)->clearTile256 (index, bitmap, tileBank2);
}
void TileList::clearTransition (int index, CTile::TBitmap bitmap)
{
switch (bitmap)
{
case CTile::diffuse:
theListTransition[index].loaded=0;
theListTransition[index].Bits.resize(0);
break;
case CTile::additive:
theListTransition[index].nightLoaded=0;
theListTransition[index].nightBits.resize(0);
break;
case CTile::alpha:
theListTransition[index].alphaLoaded=0;
theListTransition[index].alphaBits.resize(0);
break;
}
tileBank2.getTileSet (_tileSet)->clearTransition ((CTileSet::TTransition)index, bitmap, tileBank2);
}
void TileList::clearDisplacement (int index)
{
// Clear the displacement map filename
tileBank2.getTileSet (_tileSet)->clearDisplacement ((CTileSet::TDisplacement)index, tileBank2);
theListDisplacement[index].loaded=0;
theListDisplacement[index].Bits.resize(0);
}
tilelist::iterator TileList::GetFirst(int n)
{
//UpdateLF();
return theList[n].begin();
}
tilelist::iterator TileList::GetLast(int n)
{
//UpdateLF();
return theList[n].end();
}
int TileList::GetSize(int n)
{
//UpdateLF();
return (int)theList[n].size();
}
void TileInfo::Delete ()
{
loaded=0;
nightLoaded=0;
alphaLoaded=0;
}
tilelist::iterator TileList::Get(int i, int n)
{
return theList[n].begin()+i;
}
const std::string& TileInfo::getRelativeFileName (CTile::TBitmap type, int index)
{
return tileBank2.getTile (index)->getRelativeFileName (type);
}
bool TileInfo::Load (int index, std::vector* Alpha)
{
bool bRes=true;
if (!loaded && getRelativeFileName (CTile::diffuse, index)!="")
{
if (!_LoadBitmap(tileBank2.getAbsPath() + getRelativeFileName (CTile::diffuse, index), &BmpInfo, Bits, Alpha, 0))
{
bRes=false;
MessageBox (NULL, (tileBank2.getAbsPath() + getRelativeFileName (CTile::diffuse, index)).c_str(), "Can't load file", MB_OK|MB_ICONEXCLAMATION);
}
else
loaded=1;
}
if (!nightLoaded && getRelativeFileName (CTile::additive, index)!="")
{
if (!_LoadBitmap(tileBank2.getAbsPath() + getRelativeFileName (CTile::additive, index), &nightBmpInfo, nightBits, Alpha, 0))
{
bRes=false;
MessageBox (NULL, (tileBank2.getAbsPath() + getRelativeFileName (CTile::additive, index)).c_str(), "Can't load file", MB_OK|MB_ICONEXCLAMATION);
}
else
nightLoaded=1;
}
if (!alphaLoaded && getRelativeFileName (CTile::alpha, index)!="")
{
if (!_LoadBitmap(tileBank2.getAbsPath() + getRelativeFileName (CTile::alpha, index), &alphaBmpInfo, alphaBits, NULL,
tileBank2.getTile (index)->getRotAlpha ()))
{
bRes=false;
MessageBox (NULL, (tileBank2.getAbsPath() + getRelativeFileName (CTile::alpha, index)).c_str(), "Can't load file", MB_OK|MB_ICONEXCLAMATION);
}
else
alphaLoaded=1;
}
return bRes;
}
void TileList::Reload(int first, int count, int n) //recharge en memoire une tranche de tiles
{
for (int i=first; igetTile128 (i), NULL);
break;
case 1:
theList[n][i].Load (tileBank2.getTileSet(_tileSet)->getTile256 (i), NULL);
break;
case 2:
{
int index=tileBank2.getTileSet(_tileSet)->getTransition (i)->getTile();
if (index!=-1)
theList[n][i].Load (index, &theListTransition[i].alphaBits);
}
break;
}
}
}
//CTView
CTView::CTView()
{
sizetile_x = SIZE_SMALL; sizetile_y = SIZE_SMALL;
sizetext_y = 14;
spacing_x = SPACING_SMALL_X; spacing_y = SPACING_SMALL_Y;
Zoom=3; Texture = 1; Sort = 1; InfoTexte = 1;
count_ = 0; ViewTileMode = 0;
scrollpos = 0; lastVBarPos = 0;
smEdgeList = 0; bPopup = 0;
//theViewPopup = 0;
}
CTView::~CTView()
{
}
void CTView::Init(int _land, int n)
{
InfoList._tileSet=_land;
UpdateSize(n);
pipo_buffer = (void *)new char[sizetile_x * sizetile_y * 3];
bmp = new CBitmap;
bmp->CreateBitmap(sizetile_x,sizetile_y,1,24,pipo_buffer);
pImList = new CImageList;
pImList->Create(sizetile_x,sizetile_y,ILC_COLOR24,0,1);
pImList->Add(bmp,(CBitmap*)NULL);
char *defautpath = ((SelectionTerritoire*)GetParent()->GetParent())->DefautPath.GetBuffer(256);
count_=1;
}
void CTView::Delete()
{
count_=0; pImList = 0;
}
int CTView::GetNbTileLine(void)
{
RECT rect; GetClientRect(&rect);
return ( max ( 1, int( rect.right - rect.left - spacing_x ) / ( sizeicon_x + spacing_x ) ) );
}
int CTView::GetNbTileColumn(void)
{
RECT rect; GetClientRect(&rect);
int deb;
if (scrollpossizeicon_y) deb -=sizeicon_y + spacing_y;
int ret= ((rect.bottom - rect.top /*- spacing_y*/ + deb)/(sizeicon_y + spacing_y)) +1 ;
return max (1, ret);
}
void CTView::GetVisibility(int &First,int &Last, int n) //retourne l'indice du premier et du dernier item visible dans la fenetre
{
int y;
int i = GetNbTileLine(); int j = GetNbTileColumn();
if (scrollpossizeicon_y) First++;
First *= i;
Last = First + i*j -1;
if (InfoList.GetSize(n)>0 && Last>=InfoList.GetSize(n)) Last = InfoList.GetSize(n)-1;
if (First>Last) First = Last;
}
int CTView::GetIndex(LPPOINT pt, int n) //retourne l'index d'un incone a partir de sa position dans le fenetre
//si le curseur n'est pas sur un icon, retourne -1
{
POINT pts = *pt;
pts.y += scrollpos;
RECT rect; GetClientRect(&rect);
int i = GetNbTileLine();
int lf = (rect.right - rect.left) - (GetNbTileLine()*(spacing_x+sizeicon_x) + spacing_x);
if (pts.x > (rect.right - rect.left - lf)) return -1;
if (pts.x<0) return -1;
if (pts.ysizeicon_y) return -1;
int il = (pts.y - spacing_y)/(spacing_y + sizeicon_y);
int x = (pts.x - spacing_x)%(spacing_x + sizeicon_x);
if (x>sizeicon_x) return -1;
int ic = (pts.x - spacing_x)/(spacing_x + sizeicon_x);
int ret = ic + il*i;
if (ret=0) return ret;
else return -1;
}
POINT CTView::GetPos(int i) //fonction inverse de GetIndex
{
POINT ret;
int nl = max (1, GetNbTileLine());
ret.x = (i%nl)*(spacing_x + sizeicon_x) + spacing_x;
ret.y = (i/nl)*(spacing_y + sizeicon_y) + spacing_y - scrollpos;
return ret;
}
void CTView::UpdateSelection(LPRECT rect_,int mode, int n) //rect : coordonnees du rectangle de selection dans la fenetre parent
{
RECT client,*rect; GetWindowRect(&client);
rect = new RECT; memcpy(rect,rect_,sizeof(RECT));
//on se met dans le repere de CTView
POINT pt; pt.x = rect->left; pt.y = rect->top;
GetParent()->ClientToScreen(&pt);
ScreenToClient(&pt);
rect->left = pt.x;
rect->top = pt.y;
pt.x = rect->right; pt.y = rect->bottom;
GetParent()->ClientToScreen(&pt);
ScreenToClient(&pt);
rect->right = pt.x;
rect->bottom = pt.y;
rect->top += scrollpos; rect->bottom += scrollpos;
if (rect->left<300)
{
int toto = 0;
}
//on clip
if (rect->left<0) rect->left = 0;
if (rect->toptop = scrollpos;
int lf = (client.right - client.left) - (GetNbTileLine()*(spacing_x+sizeicon_x) + spacing_x);
if (rect->right>(client.right-client.left-spacing_x-lf))
{
rect->right = client.right - client.left - spacing_x - lf;
}
if ((rect->bottom-scrollpos)>(client.bottom-client.top)) rect->bottom=client.bottom-client.top+scrollpos;
if (rect->leftleft = spacing_x;
if ((rect->top-scrollpos)top = spacing_y + scrollpos;
int rx = (rect->left - spacing_x)%(spacing_x + sizeicon_x);
rect->left -= rx;
if (rx>=sizeicon_x)
{
rect->left += sizeicon_x + spacing_x;
if (rect->left>=(client.right - client.left)) rect->left = (client.right - client.left) - spacing_x;
}
int ry = (rect->top - spacing_y)%(spacing_y + sizeicon_y);
rect->top -= ry;
if (ry>=sizeicon_y)
{
rect->top += sizeicon_y + spacing_y;
if ((rect->top-scrollpos)>=(client.bottom - client.top)) rect->top = (client.bottom - client.top) - spacing_y + scrollpos;
}
if (rect->rightbottom-scrollpos)right - spacing_x)%(spacing_x + sizeicon_x);
rect->right += (sizeicon_x - rx -1 );
ry = (rect->bottom - spacing_y)%(spacing_y + sizeicon_y);
rect->bottom += (sizeicon_y - ry -1 );
if (rect->bottomtop || rect->left>rect->right) return;
pt; pt.x = rect->left; pt.y = rect->top; pt.y -=scrollpos;
int index = GetIndex(&pt, n);
tilelist::iterator p = InfoList.GetFirst(n);
CDC *pDC = GetDC();
if (index==-1 && !(mode&MK_SHIFT))
{
for (int i = 0;iSelected==1)
{
p->Selected = 0;
DrawTile(p,pDC,0,n);
}
p++;
}
if (pDC)
::ReleaseDC(*this,*pDC);
return;
}
for (int i = 0;iSelected==1)
{
p->Selected = 0;
DrawTile(p,pDC,0,n);
}
else if (p->Selected&4)
{
if (p->Selected) p->Selected=2;
else p->Selected = 3;
DrawTile(p,pDC,0,n);
}
p++;
}
int nbline = GetNbTileLine();
int incd = index%nbline;
for (int j = rect->top;j<=rect->bottom;j+=sizeicon_y + spacing_y)
{
int k = 0;
if (j!=rect->top)
{
for (;kSelected==1)
{
p->Selected = 0;
DrawTile(p,pDC,0,n);
}
else if (p->Selected&4)
{
if (p->Selected&3) p->Selected=2;
else p->Selected = 3;
int k = !(p->Selected&1);
DrawTile(p,pDC,0,n);
}
p++;
}
}
else k = incd;
for (int i = rect->left;i<=rect->right;i+=sizeicon_x + spacing_x)
{
if (p==InfoList.GetLast(n))
{
if (pDC!=NULL)
::ReleaseDC(*this,*pDC);
return;
}
if (!(mode&MK_CONTROL))
{
if (p->Selected!=1)
{
p->Selected = 1;
DrawTile(p,pDC,0,n);
}
}
else
{
if ((p->Selected&4)==0)
{
int k = p->Selected;
p->Selected = (p->Selected&3)?4:5;
k = p->Selected;
DrawTile(p,pDC,0,n);
}
}
p++;
k++;
}
for (;kSelected==1)
{
p->Selected = 0;
DrawTile(p,pDC,0,n);
}
else if (p->Selected&4)
{
if (p->Selected&3) p->Selected=2;
else p->Selected = 3;
DrawTile(p,pDC,0,n);
}
p++;
}
}
for (;p!=InfoList.GetLast(n);p++)
{
if (p->Selected==1)
{
p->Selected = 0;
DrawTile(p,pDC,0,n);
}
else if (p->Selected&4)
{
if (p->Selected&3) p->Selected=2;
else p->Selected = 3;
DrawTile(p,pDC,0,n);
}
}
if (pDC!=NULL)
::ReleaseDC(*this,*pDC);
}
void CTView::DeleteTile(tilelist::iterator p)
{
p->loaded = 0;
p->nightLoaded = 0;
p->alphaLoaded = 0;
}
void CTView::UpdateBar(int iFirst,int iLast, int n)
{
int i = GetNbTileColumn();
int j = max (1, GetNbTileLine());
int nbline = InfoList.GetSize(n)/j+1;
int posline = iFirst/j;
SCROLLINFO scr;
scr.fMask = SIF_ALL ^ SIF_POS;
scr.nMin = 0; scr.nMax = SCROLL_MAX;
if (nbline==0) {scr.nPage = SCROLL_MAX; scr.nPos = 0;}
else
{
scr.nPage = (SCROLL_MAX*i)/nbline;
}
GetParent()->SetScrollInfo(SB_VERT,&scr);
}
int CTView::IsSelected(int i)
{
return 0;
}
void CTView::UpdateSize(int n)
{
spacing_tile_text = 3;
if (Zoom==1) {sizetile_x = sizetile_y = SIZE_SMALL; spacing_x = SPACING_SMALL_X; spacing_y = SPACING_SMALL_Y;}
if (Zoom==2) {sizetile_x = sizetile_y = SIZE_NORMAL; spacing_x = SPACING_NORMAL_X; spacing_y = SPACING_NORMAL_Y;}
if (Zoom==3) {sizetile_x = sizetile_y = SIZE_BIG; spacing_x = SPACING_BIG_X; spacing_y = SPACING_BIG_Y;}
if (n==1)
{
sizetile_x *= 2;
sizetile_y *= 2;
}
sizeicon_x = sizetile_x; sizeicon_y = sizetile_y + sizetext_y + spacing_tile_text;
}
int debug = 0;
void CTView::OnPaint()
{
Browse *parent = (Browse*)this->GetParent();
CPaintDC dc(this); // device context for painting
// TODO: Add your message handler code here
RECT rect; GetClientRect(&rect);
CBrush brush (GetSysColor(COLOR_3DFACE));
dc.FillRect(&rect,&brush);
if (InfoList.GetSize(parent->m_128x128)==0) return;
debug=(debug+1)&1;
if (debug==1)
{
debug = 1;
}
CRgn clip;
clip.CreateRectRgn(rect.left,rect.top,rect.right,rect.bottom);
dc.SelectClipRgn(&clip);
CRgn update;
if (GetUpdateRgn(&update)==NULLREGION)
{
::ReleaseDC(*this,dc);
return;
}
GetVisibility(iFV, iLV, parent->m_128x128);
UpdateBar(iFV, iLV, parent->m_128x128);
if (!normal_font)
{
normal_font = new CFont;
normal_font->CreateFont(-10,0,0,0,FW_THIN,false,false,false,DEFAULT_CHARSET,OUT_DEFAULT_PRECIS,CLIP_DEFAULT_PRECIS,DEFAULT_QUALITY,FIXED_PITCH,NULL);
}
tilelist::iterator p = InfoList.GetFirst(parent->m_128x128);
int i;
for (i=0;im_128x128);
::ReleaseDC (*this, dc);
}
void CTView::OnDropFiles(HDROP hDropInfo)
{
// TODO: Add your message handler code here and/or call default
//first : on verifie s'il les tiles doivent etre inseres
if (!lockInsertion)
{
Browse *parent = (Browse*)this->GetParent();
char FileName[256];
int count=DragQueryFile(hDropInfo,0xffffffff,FileName,256); //count = files number in drop queue
POINT pos;
DragQueryPoint(hDropInfo,&pos); //retrieve cursor position
CDC *pDC = GetDC();
for (int i=0;im_128x128)
{
case 0:
{
int index=InfoList.addTile128 ();
if (InfoList.setTile128 (index, FileName, Texture==1?CTile::diffuse:(Texture==2?CTile::additive:CTile::alpha)))
{
tilelist::iterator it = InfoList.GetLast(parent->m_128x128);
it--;
}
else
{
InfoList.removeTile128 (index);
}
}
break;
case 1:
{
int index=InfoList.addTile256 ();
if (InfoList.setTile256 (index, FileName, Texture==1?CTile::diffuse:(Texture==2?CTile::additive:CTile::alpha)))
{
tilelist::iterator it = InfoList.GetLast(parent->m_128x128);
it--;
}
else
InfoList.removeTile256 (index);
}
break;
case 2:
{
}
break;
}
}
int iFV,iLV;
GetVisibility(iFV, iLV, parent->m_128x128);
UpdateBar(iFV, iLV, parent->m_128x128);
Invalidate ();
}
CStatic::OnDropFiles(hDropInfo);
}
void CTView::DrawTile(tilelist::iterator i,CDC *pDC,int clear, int n)
{
RECT rect; GetClientRect(&rect);
CBrush brush (GetSysColor(COLOR_3DFACE));
if (InfoList.GetSize(n)==0)
{
return;
}
LPBITMAPINFO bmpinf;
std::string pth;
std::vector *bits;
int loaded;
switch (n)
{
case 0:
pth = i->getRelativeFileName ((CTile::TBitmap)(Texture-1), tileBank2.getTileSet (InfoList._tileSet)->getTile128 (i->id));
break;
case 1:
pth = i->getRelativeFileName ((CTile::TBitmap)(Texture-1), tileBank2.getTileSet (InfoList._tileSet)->getTile256 (i->id));
break;
case 2:
{
int index=tileBank2.getTileSet (InfoList._tileSet)->getTransition (i->id)->getTile();
if (index!=-1)
pth = i->getRelativeFileName ((CTile::TBitmap)(Texture-1), index);
else
pth = "";
}
break;
case 3:
pth = tileBank2.getDisplacementMap (tileBank2.getTileSet (InfoList._tileSet)->getDisplacementTile ((CTileSet::TDisplacement)i->id));
break;
}
switch(Texture)
{
case 1:
bmpinf = &(i->BmpInfo);
bits = &i->Bits;
loaded = i->loaded;
break;
case 2:
bmpinf = &(i->nightBmpInfo);
bits = &i->nightBits;
loaded = i->nightLoaded;
break;
case 3:
bmpinf = &(i->alphaBmpInfo);
bits = &i->alphaBits;
loaded = i->alphaLoaded;
break;
}
CRgn clip;
clip.CreateRectRgn(rect.left,rect.top,rect.right,rect.bottom);
pDC->SelectClipRgn(&clip);
// Select a font
CFont *pOldFont=pDC->SelectObject(normal_font);
POINT pt;
pt = GetPos(i->id);
RECT rect_txt;
rect_txt.top = pt.y;
rect_txt.bottom = pt.y + sizeicon_y + spacing_y;
rect_txt.left = pt.x; rect_txt.right = pt.x + sizeicon_x + spacing_x;
// Turn every other pixel to black
COLORREF clrBk = pDC->SetBkColor( GetSysColor(COLOR_3DFACE) );
COLORREF clrText = pDC->SetTextColor( RGB(0,0,0) );
if (clear) pDC->FillRect(&rect_txt,&brush);
if (!loaded)
{
pDC->FillSolidRect( pt.x, pt.y, sizetile_x, sizetile_y, GetSysColor(COLOR_3DFACE) );
pDC->MoveTo (pt.x,pt.y);
pDC->LineTo (pt.x+sizetile_x,pt.y+sizetile_y);
pDC->MoveTo (pt.x+sizetile_x,pt.y);
pDC->LineTo (pt.x,pt.y+sizetile_y);
pDC->MoveTo (pt.x,pt.y);
pDC->LineTo (pt.x+sizetile_x,pt.y);
pDC->LineTo (pt.x+sizetile_x,pt.y+sizetile_y);
pDC->LineTo (pt.x,pt.y+sizetile_y);
pDC->LineTo (pt.x,pt.y);
pDC->MoveTo (pt.x+1,pt.y);
pDC->LineTo (pt.x+sizetile_x,pt.y+sizetile_y-1);
pDC->MoveTo (pt.x,pt.y+1);
pDC->LineTo (pt.x+sizetile_x-1,pt.y+sizetile_y);
pDC->MoveTo (pt.x+sizetile_x-1,pt.y);
pDC->LineTo (pt.x,pt.y+sizetile_y-1);
pDC->MoveTo (pt.x+sizetile_x,pt.y+1);
pDC->LineTo (pt.x+1,pt.y+sizetile_y);
}
else
{
StretchDIBits(pDC->m_hDC,pt.x,pt.y,
sizetile_x,sizetile_y,0,0,
bmpinf->bmiHeader.biWidth,
-bmpinf->bmiHeader.biHeight,
&*bits->begin(),bmpinf,DIB_RGB_COLORS,SRCCOPY);
}
char temp[100];
char Name[256]; Name[0] = 0;
if (InfoTexte==2)
{
_splitpath(pth.c_str(),temp,temp,Name,temp);
}
else if (InfoTexte==3)
{
__int64 mask = 1;
}
else if (InfoTexte==1)
{
sprintf(Name,"%d",i->id);
}
rect_txt.top = pt.y + sizetile_y + spacing_tile_text;
rect_txt.bottom += rect_txt.top + sizetext_y;
rect_txt.left -= spacing_x;
pDC->DrawText(Name,(int)strlen(Name),&rect_txt,DT_CENTER | DT_SINGLELINE);
// Restore the device context
pDC->SetBkColor( clrBk );
pDC->SetTextColor( clrText );
if (i->Selected&3)
{
CRect rc;
rc.left = pt.x; rc.top = pt.y; rc.right = rc.left + sizetile_x; rc.bottom = rc.top + sizetile_y;
ShadeRect(pDC,rc);
}
// Invalidate flag button
Browse *parent = (Browse*)this->GetParent();
parent->UpdateFlags ();
// Release the font
pDC->SelectObject(pOldFont);
}
void CTView::ShadeRect( CDC *pDC, CRect& rect )
{
// Bit pattern for a monochrome brush with every
// other pixel turned off
WORD Bits[8] = { 0x0055, 0x00aa, 0x0055, 0x00aa,
0x0055, 0x00aa, 0x0055, 0x00aa };
CBitmap bmBrush;
CBrush brush; // (GetSysColor(COLOR_3DFACE));
// Need a monochrome pattern bitmap
bmBrush.CreateBitmap( 8, 8, 1, 1, &Bits );
// Create the pattern brush
brush.CreatePatternBrush( &bmBrush );
CBrush *pOldBrush = pDC->SelectObject( &brush );
// Turn every other pixel to black
COLORREF clrBk = pDC->SetBkColor( GetSysColor(COLOR_3DFACE) );
COLORREF clrText = pDC->SetTextColor( RGB(0,0,0) );
// 0x00A000C9 is the ROP code to AND the brush with the destination
pDC->PatBlt(rect.left, rect.top, rect.Width(), rect.Height(),
(DWORD)0x00A000C9); //DPa - raster code
pDC->SetBkColor( clrBk );
pDC->SetTextColor( clrText );
clrBk = pDC->SetBkColor( RGB(0,0,0) );
clrText = pDC->SetTextColor( GetSysColor(COLOR_HIGHLIGHT) );
// 0x00FA0089 is the ROP code to OR the brush with the destination
pDC->PatBlt(rect.left, rect.top, rect.Width(), rect.Height(),
(DWORD)0x00FA0089); //DPo - raster code
// Restore the device context
pDC->SelectObject( pOldBrush );
pDC->SetBkColor( clrBk );
pDC->SetTextColor( clrText );
}
//code modifie des sources des MFC =)))
void CTView::DrawDragRect(CDC *pDC,LPCRECT lpRect, SIZE size,
LPCRECT lpRectLast, SIZE sizeLast, CBrush* pBrush, CBrush* pBrushLast)
{
// first, determine the update region and select it
CRgn rgnNew;
CRgn rgnOutside, rgnInside;
CRect rect;
if (lpRect)
{
rgnOutside.CreateRectRgnIndirect(lpRect);
rect = *lpRect;
rect.InflateRect(-size.cx, -size.cy);
rect.IntersectRect(rect, lpRect);
rgnInside.CreateRectRgnIndirect(rect);
rgnNew.CreateRectRgn(0, 0, 0, 0);
rgnNew.CombineRgn(&rgnOutside, &rgnInside, RGN_XOR);
}
CBrush* pBrushOld = NULL;
if (pBrush == NULL)
pBrush = CDC::GetHalftoneBrush();
if (pBrushLast == NULL)
pBrushLast = pBrush;
CRgn rgnLast, rgnUpdate;
if (lpRectLast != NULL/* && lpRect!=NULL*/)
{
// find difference between new region and old region
rgnLast.CreateRectRgn(0, 0, 0, 0);
if (lpRect==NULL) rgnOutside.CreateRectRgnIndirect(lpRectLast);
else rgnOutside.SetRectRgn(lpRectLast);
rect = *lpRectLast;
rect.InflateRect(-sizeLast.cx, -sizeLast.cy);
rect.IntersectRect(rect, lpRectLast);
if (lpRect==NULL) rgnInside.CreateRectRgnIndirect(rect);
else rgnInside.SetRectRgn(rect);
rgnLast.CombineRgn(&rgnOutside, &rgnInside, RGN_XOR);
// only diff them if brushes are the same
if (pBrush->m_hObject == pBrushLast->m_hObject)
{
rgnUpdate.CreateRectRgn(0, 0, 0, 0);
rgnUpdate.CombineRgn(&rgnLast, &rgnNew, RGN_XOR);
}
}
if (!lpRect || (pBrush->m_hObject != pBrushLast->m_hObject && lpRectLast != NULL))
{
// brushes are different -- erase old region first
pDC->SelectClipRgn(&rgnLast);
pDC->GetClipBox(&rect);
pBrushOld = pDC->SelectObject(pBrushLast);
pDC->PatBlt(rect.left, rect.top, rect.Width(), rect.Height(), PATINVERT);
pDC->SelectObject(pBrushOld);
}
// draw into the update/new region
if (lpRect)
{
pDC->SelectClipRgn(rgnUpdate.m_hObject != NULL ? &rgnUpdate : &rgnNew);
pDC->GetClipBox(&rect);
pBrushOld = pDC->SelectObject(pBrush);
pDC->PatBlt(rect.left, rect.top, rect.Width(), rect.Height(), PATINVERT);
pDC->SelectObject(pBrushOld);
}
pDC->SelectClipRgn(NULL);
}
void CTView::RemoveSelection(int n)
{
for (tilelist::iterator p = InfoList.theList[n].begin();p!=InfoList.theList[n].end();++p)
{
p->Selected = 0;
}
}
void CTView::InsertItemInCtrlList(tilelist::iterator iFirst,tilelist::iterator iLast)
{
/* int iItem = InfoList.GetSize();
for (tilelist::iterator i=iFirst;i!=iLast;++i)
{
char num[10];
sprintf(num,"%d",iItem);
InsertItem(iItem,num,0);
SetItemData(iItem++,(DWORD)(*i));
}*/
}
LRESULT CTView::WindowProc(UINT message, WPARAM wParam, LPARAM lParam)
{
// TODO: Add your specialized code here and/or call the base class
if (message==WM_MOUSEMOVE)
{
MousePos.x = LOWORD(lParam);
MousePos.y = HIWORD(lParam);
}
if (message==WM_DRAWITEM)
{
int toto=0;
}
if (message==WM_CLOSE) Delete();
if (message==WM_COMMAND) //The user had selected an item on popup menu
{
Browse *parent = (Browse*)this->GetParent();
int id=LOWORD(wParam);
if (id==ID_MENU_SUPR_TILE)
{
for (int i=0; im_128x128); i++)
{
if (InfoList.Get(i, parent->m_128x128)->Selected)
{
switch (parent->m_128x128)
{
case 0:
InfoList.removeTile128 (i);
break;
case 1:
InfoList.removeTile256 (i);
break;
default:
nlassert (0); // no!
}
}
}
bPopup = 0;
}
else if (id==ID_MENU_SUPR_BITMAP)
{
for (int i=0; im_128x128); i++)
{
if (InfoList.Get(i, parent->m_128x128)->Selected)
{
switch (parent->m_128x128)
{
case 0:
InfoList.clearTile128 (i, (CTile::TBitmap)(Texture-1));
break;
case 1:
InfoList.clearTile256 (i, (CTile::TBitmap)(Texture-1));
break;
case 2:
InfoList.clearTransition (i, (CTile::TBitmap)(Texture-1));
break;
case 3:
InfoList.clearDisplacement (i);
break;
default:
nlassert (0); // no!
}
}
}
bPopup = 0;
}
else if ((id==ID_MENU_ADD)||(id==ID_MENU_REPLACE))
{
_chdir (LastPath.c_str());
CFileDialog load(true, NULL, LastPath.c_str(), OFN_ENABLESIZING | OFN_ALLOWMULTISELECT,
"PNG Bitmap (*.png)|*.png|Targa bitmap (*.tga)|*.tga|All files (*.*)|*.*||",NULL);
load.m_ofn.lpstrFile = new char[10000]; // buffer contains filenames list
load.m_ofn.lpstrFile[0] = 0;
// with 10 KB we should be large enough...
// if all files are exceeding 10000 characters, insert would be skipped
load.m_ofn.nMaxFile = 10000-1;
if (load.DoModal()==IDOK)
{
// Ok ?
int ok=1;
//AfxMessageBox ("toto");
POSITION p = load.GetStartPosition(); //la doc dit que p=NULL quand il n'y a pas de selection : c'est faux, genial les MFC
while (p)
{
CString str = load.GetNextPathName(p);
char sDrive[256];
char sPath[256];
_splitpath (str, sDrive, sPath, NULL, NULL);
LastPath=string (sDrive)+string (sPath);
if (str!=CString(""))
{
int index=0;
const char *pathname = (LPCTSTR)str;
// Add mode, to the end of the list
if (id==ID_MENU_ADD)
{
// Index of the new tile
int index;
// Index in the list
switch (parent->m_128x128)
{
case 0:
// Add a 128 tile
index=InfoList.addTile128 ();
// Set the tile
if ((ok=InfoList.setTile128 (index, pathname, Texture==1?CTile::diffuse:(Texture==2?CTile::additive:CTile::alpha)))==0)
// If prb, remove it
InfoList.removeTile128 (index);
break;
case 1:
// Add a 128 tile
index=InfoList.addTile256 ();
// Set the tile
if ((ok=InfoList.setTile256 (index, pathname, Texture==1?CTile::diffuse:(Texture==2?CTile::additive:CTile::alpha)))==0)
// If prb, remove it
InfoList.removeTile256 (index);
break;
case 2:
nlassert (0); // no, can't add transition
break;
}
}
else
{
// Must be a replace mode.
nlassert (id==ID_MENU_REPLACE);
// For each tile
for (int index=0; indexm_128x128); index++)
{
// If selected
if (InfoList.Get(index, parent->m_128x128)->Selected)
{
switch (parent->m_128x128)
{
case 0:
// Set the 128 tile
ok=InfoList.setTile128 (index, pathname, Texture==1?CTile::diffuse:(Texture==2?CTile::additive:CTile::alpha));
break;
case 1:
// Set the 256 tile
ok=InfoList.setTile256 (index, pathname, Texture==1?CTile::diffuse:(Texture==2?CTile::additive:CTile::alpha));
break;
case 2:
// Alpha texture ?
if (Texture!=3)
{
ok=InfoList.setTileTransition (index, pathname, Texture==1?CTile::diffuse:(Texture==2?CTile::additive:CTile::alpha));
}
// Alpha!
else
{
// Select rotation
SelectRotation selectRotation;
if (selectRotation.DoModal()==IDOK)
{
// Set the alpha tile with the good rotation
ok=InfoList.setTileTransitionAlpha (index, pathname, selectRotation.RotSelected);
}
}
break;
case 3:
// Displacement
ok=InfoList.setDisplacement (index, pathname);
break;
default:
nlassert (0); // no!
}
}
// Reload last inserted tile
InfoList.Reload(index, 1, parent->m_128x128);
InfoList.Get(index, parent->m_128x128)->Selected = 0;
// Stop ?
if (!ok)
break;
}
}
}
// Stop ?
if (!ok)
break;
}
}
delete load.m_ofn.lpstrFile;
//InfoList.Sort();
bPopup = 0;
}
else if (id==12)
{
ViewTileMode = 1;
Browse *parent = (Browse*) this->GetParent();
parent->SendMessage(WM_PAINT,0,0);
bPopup = 0;
}
this->RedrawWindow();
}
return CStatic::WindowProc(message, wParam, lParam);
}
void CTView::OnRButtonDown(UINT nFlags, CPoint point)
{
// TODO: Add your message handler code here and/or call default
if (!lockInsertion)
{
Browse *parent = (Browse*)this->GetParent();
RECT wndpos; CMenu popup;
GetParent()->GetWindowRect(&wndpos);
popup.CreatePopupMenu();
int c = 0;
for (tilelist::iterator p = InfoList.GetFirst(parent->m_128x128);p!=InfoList.GetLast(parent->m_128x128);++p)
{
if (p->Selected) c++;
}
if (!ViewTileMode)
{
popup.AppendMenu(parent->m_128x128<2 ? MF_STRING : MF_STRING | MF_GRAYED, ID_MENU_ADD,"Add...");
popup.AppendMenu(c>0 ? MF_STRING : MF_STRING | MF_GRAYED, ID_MENU_REPLACE, "Replace...");
popup.AppendMenu(c>0 ? MF_STRING : MF_STRING | MF_GRAYED, ID_MENU_SUPR_BITMAP, "Del bitmap");
popup.AppendMenu((c>0 && parent->m_128x128<2) ? MF_STRING : MF_STRING | MF_GRAYED, ID_MENU_SUPR_TILE, "Del tile");
}
else
{
}
bPopup = 1;
popup.TrackPopupMenu(TPM_LEFTALIGN,MousePos.x+wndpos.left,MousePos.y+wndpos.top,GetParent(),NULL);
}
CStatic::OnRButtonDown(nFlags, point);
}
void CTView::OnLButtonDown(UINT nFlags, CPoint point)
{
// TODO: Add your message handler code here and/or call default
SendMessage(WM_PAINT,0,0);
CStatic::OnLButtonDown(nFlags, point);
}
void CTView::OnLButtonDblClk(UINT nFlags, CPoint point)
{
// TODO: Add your message handler code here and/or call default
}