SBSPSS/Utils/Libs/TexGrab/tpage.cpp

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2000-12-02 19:55:49 +01:00
/*=========================================================================
FILENAME.CPP
Author: Gary Liddon @
Created:
Project:
Purpose:
Copyright (c) 1997 Climax Development Ltd
===========================================================================*/
/*----------------------------------------------------------------------
Includes
-------- */
/* Std Lib
------- */
#include <algorithm>
#include "conio.h"
/* Glib
---- */
#include "gutils.h"
/* Local
----- */
#include "tpage.h"
#include "grect.h"
/* Graphics
-------- */
/*----------------------------------------------------------------------
Tyepdefs && Defines
------------------- */
using namespace std;
/*----------------------------------------------------------------------
Structure defintions
-------------------- */
struct TPInfo
{
int XAlign;
int TpWidth;
int BorderX;
int BorderY;
};
/* Information about where I can place this frame in the Tpage
----------------------------------------------------------- */
/*----------------------------------------------------------------------
Vars
---- */
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// changed by dave to get the pixel border back
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static TPInfo const InfStruct[TP_NUM_OF_TP_TYPES]=
{
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{1,256,0,0}, // TP_4
{2,512,0,0}, // TP_8
{4,256,0,0}, // TP_16
{0,0,0,0}, // TP_SCREEN
{16*4,1024*4,0,0}, // TP_PAL
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};
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/*
static TPInfo const InfStruct[TP_NUM_OF_TP_TYPES]=
{
{1,256,1,1}, // TP_4
{2,512,2,1}, // TP_8
{4,256,4,1}, // TP_16
{0,0,0,0}, // TP_SCREEN
{16*4,1024*4,0,0}, // TP_PAL
};
*/
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/*----------------------------------------------------------------------
Function Prototypes
------------------- */
/*----------------------------------------------------------------------
Vars
---- */
int TPRect::W2Alloc=1;
int TPRect::H2Alloc=1;
/*----------------------------------------------------------------------
Data
---- */
/*----------------------------------------------------------------------
Function:
Purpose:
Params:
Returns:
---------------------------------------------------------------------- */
VRAM::VRAM(int nTpWidth,int nTpHeightInPixels)
{
Big2Little=false;
RotateEveryEmpty=false;
TpWidth=-1;
TpHeightInPixels=-1;
Clear(nTpWidth,nTpHeightInPixels);
}
void VRAM::Clear(int nTpWidth,int nTpHeightInPixels)
{
if (nTpWidth >= 0 )
TpWidth=nTpWidth;
if (nTpHeightInPixels >= 0)
TpHeightInPixels=nTpHeightInPixels;
InitEmpty(0,0,TpWidth*256,TpHeightInPixels);
}
/*----------------------------------------------------------------------
Function: void VRAM::InitEmpty(void)
Purpose: Initialise the VRAM as empty
Params:
Returns:
---------------------------------------------------------------------- */
void VRAM::InitEmpty(int vX,int vY,int nW,int nH)
{
const int Width16=256;
const int Height16=256;
W=nW;
H=nH;
X=vX;
Y=vY;
VRAMWidthPages=W/Width16;
VRAMHeightPages=H/Height16;
if (!VRAMHeightPages)
{
VRAMHeightPages = 1;
}
NumOfTPages=VRAMWidthPages*VRAMHeightPages;
VecOfPages.resize(NumOfTPages,TPRectList());
Unused.reserve(4000);
Used.reserve(2000);
Unused.resize(0);
Used.resize(0);
for (int f=0;f<NumOfTPages;f++)
VecOfPages[f].resize(0);
for (int y=0;y<VRAMHeightPages;y++)
for (int x=0;x<VRAMWidthPages;x++)
AddEmpty((x*Width16)+vX,(y*Height16)+vY,Width16,Height16);
}
/*----------------------------------------------------------------------
Function: bool TryNFit(TPRectList & TpList)
Purpose:
Params:
Returns:
---------------------------------------------------------------------- */
bool VRAM::TryNFit(TPRectList & TpList,TPRect & ThisRect)
{
bool Done=false;
TPRectList::iterator f;
for (f=TpList.begin();f!=TpList.end();f++)
{
TPRect & BlankRect = *f;
if (TryRect(BlankRect,ThisRect))
return(true);
else
{
if (RotateEveryEmpty && CanRotate(ThisRect))
{
ThisRect.SetRotate(!ThisRect.GetRotate());
if (TryRect(BlankRect,ThisRect))
return(true);
else
ThisRect.SetRotate(!ThisRect.GetRotate());
}
}
}
return(false);
}
void VRAM::PosFromTPrect(TPRect & ThisRect,POS_INFO & Pi)
{
TPInfo const * Tpi;
int WorkingWidth;
Tpi=&InfStruct[ThisRect.TypeOfPage];
Pi.XAlign=Tpi->XAlign;
WorkingWidth=GU_AlignVal(ThisRect.W,Pi.XAlign);
Pi.MinX=Tpi->BorderX;
Pi.MinY=Tpi->BorderY;
Pi.MaxX=W-Tpi->BorderX-WorkingWidth;
Pi.MaxY=H-Tpi->BorderY-ThisRect.H;
Pi.TpWidthPix=Tpi->TpWidth;
Pi.MinXTp=Tpi->BorderX;
Pi.MaxXTp=Tpi->TpWidth-Tpi->BorderX-WorkingWidth;
Pi.MinYTp=Tpi->BorderY;
Pi.MaxYTp=(256-Tpi->BorderY)-ThisRect.H;
}
bool VRAM::TryRect(TPRect & BlankRect,TPRect & ThisRect)
{
POS_INFO Pi;
PosFromTPrect(ThisRect,Pi);
int MinTpX=Pi.MinXTp+(BlankRect.X/Pi.TpWidthPix)*Pi.TpWidthPix;
int MaxTpX=Pi.MaxXTp+(BlankRect.X/Pi.TpWidthPix)*Pi.TpWidthPix;
int MinTpY=Pi.MinYTp+(BlankRect.Y/256)*256;
int MaxTpY=Pi.MaxYTp+(BlankRect.Y/256)*256;
/* Move to avoid edges of the map */
int MinX = MinTpX > Pi.MinX ? MinTpX : Pi.MinX;
int MaxX = MaxTpX < Pi.MaxX ? MaxTpX : Pi.MaxX;
int MinY = MinTpY > Pi.MinY ? MinTpY : Pi.MinY;
int MaxY = MaxTpY < Pi.MaxY ? MaxTpY : Pi.MaxY;
int ThisX=GU_AlignVal(BlankRect.X,Pi.XAlign);
int ThisY=BlankRect.Y;
if (ThisX<MinX)
ThisX=MinX;
if (ThisX>MaxX)
return(false);
if (ThisY<MinY)
ThisY=MinY;
if (ThisY>MaxY)
return(false);
ThisRect.SetXY(ThisX,ThisY);
if (!InColisionWithUsed(ThisRect))
{
RemovedFromUnused(ThisRect);
AddToUsed(ThisRect);
return(true);
}
return(false);
}
/*----------------------------------------------------------------------
Function: TPRect VRAM::AllocVRAM(TPageType nType,int nW,int nH,bool Rotated)
Purpose:
Params:
Returns:
---------------------------------------------------------------------- */
class Predicate
{
public:
bool operator()(TPRect const & R1,TPRect const & R2) const
{
u32 R1Val=(R1.H<<16)|(R1.W);
u32 R2Val=(R2.H<<16)|(R2.W);
return (R1Val<R2Val);
}
};
class Predicate2
{
public:
bool operator()(TPRect const & R1,TPRect const & R2) const
{
u32 R1Val=(R1.H<<16)|(R1.W);
u32 R2Val=(R2.H<<16)|(R2.W);
return (R1Val>R2Val);
}
};
/*----------------------------------------------------------------------
Function: TPRect VRAM::AllocVRAM(TpRectVec & RectVec)
Purpose:
Params:
Returns:
---------------------------------------------------------------------- */
bool VRAM::AllocVRAM(TPRectVec & RectVec,bool nRotateEveryEmpty,bool nBig2Little,bool nWiderThanHigher)
{
int f;
RotateEveryEmpty=nRotateEveryEmpty;
Big2Little=nBig2Little;
WiderThanHigher=nWiderThanHigher;
if (WiderThanHigher)
{
for (f=0;f<RectVec.size();f++)
{
if ((RectVec[f].H > RectVec[f].W) && CanRotate(RectVec[f]))
RectVec[f].SetRotate(!RectVec[f].GetRotate());
}
}
if (!Big2Little)
std::sort(RectVec.begin(),RectVec.end(),Predicate());
else
std::sort(RectVec.begin(),RectVec.end(),Predicate2());
bool AllocedEverything=true;
for (f=0;f<RectVec.size();f++)
{
if (!AllocVRAM(RectVec[f]))
{
AllocedEverything=false;
cout<<"Couldn't alloc "<<RectVec[f].W<<","<<RectVec[f].H<<endl;
}
}
return(AllocedEverything);
}
/*----------------------------------------------------------------------
Function: void VRAM::AllocVRAM(TPageType nType,int nW,int nH)
Purpose:
Params:
Returns:
---------------------------------------------------------------------- */
bool VRAM::AllocVRAM(TPRect & OriginalRect)
{
bool Done;
TPRect ThisRect;
ThisRect=OriginalRect;
Done=false;
for (int Page=0;Page<NumOfTPages && !Done;Page++)
{
VecOfPages[Page].sort();
TPRect::SetAllocWH(ThisRect.W,ThisRect.H);
if (!TryNFit(VecOfPages[Page],ThisRect))
{
if (CanRotate(ThisRect))
{
ThisRect.SetRotate(!ThisRect.GetRotate());
VecOfPages[Page].sort();
TPRect::SetAllocWH(ThisRect.W,ThisRect.H);
if (!TryNFit(VecOfPages[Page],ThisRect))
ThisRect.SetRotate(!ThisRect.GetRotate());
else
Done=true;
}
}
else
Done=true;
}
if (Done)
{
OriginalRect=ThisRect;
OriginalRect.SetAlloced(true);
return(true);
}
else
{
OriginalRect.SetAlloced(false);
return(false);
}
}
/*----------------------------------------------------------------------
Function:
Purpose:
Params:
Returns:
---------------------------------------------------------------------- */
bool VRAM::CanRotate(TPRect & ThisRect)
{
if (ThisRect.GetDontRotate())
return(false);
switch (ThisRect.TypeOfPage)
{
case TP_PAL:
return(false);
case TP_4:
case TP_8:
case TP_16:
return(true);
case TP_SCREEN:
case TP_NUM_OF_TP_TYPES:
default:
Error(ERR_FATAL,"Not catered for");
return(false);
}
}
/*----------------------------------------------------------------------
Function: void VRAM::AllocVRAM(TPageType nType,int nW,int nH)
Purpose:
Params:
Returns:
---------------------------------------------------------------------- */
void VRAM::RectFromTpRect(Rect & R,TPRect const & ThisRect)
{
R.W=ThisRect.W;
R.H=ThisRect.H;
R.X=ThisRect.X;
R.Y=ThisRect.Y;
}
void VRAM::RemovedFromUnused(TPRect const & ThisRect)
{
RectVec Result;
Rect NewRect;
int f;
RectFromTpRect(NewRect,ThisRect);
int ColidedWith=0;
for ( f=0;f<Unused.size();f++)
{
Rect UnusedRect;
RectFromTpRect(UnusedRect,Unused[f]);
if (UnusedRect.IsColiding(ThisRect) )
{
CutRect(UnusedRect,ThisRect,Result);
ColidedWith++;
}
else
Result.push_back(UnusedRect);
}
Unused.resize(0);
for (f=0;f<NumOfTPages;f++)
VecOfPages[f].resize(0);
for (f=0;f<Result.size();f++)
AddEmpty(Result[f].X,Result[f].Y,Result[f].W,Result[f].H);
}
void VRAM::AddEmpty(int x,int y,int w,int h)
{
Unused.resize(Unused.size()+1);
TPRect & ThisRect=(Unused[Unused.size()-1]);
ThisRect.TypeOfPage=TP_4;
ThisRect.W=w;
ThisRect.H=h;
ThisRect.X=x;
ThisRect.Y=y;
int TpNum=(x/256)+((y/256)*VRAMWidthPages);
VecOfPages[TpNum].insert(VecOfPages[TpNum].end(),ThisRect);
}
void VRAM::AddToUsed(TPRect const & ThisRect)
{
Used.push_back(ThisRect);
}
bool VRAM::InColisionWithUsed(TPRect const & R)
{
for (int f=0;f<Used.size();f++)
{
if (R.IsColiding(Used[f]))
return(true);
}
return(false);
}
/*----------------------------------------------------------------------
Function: bool VRAM::CheckValidAlloc(TPageType nType,int nW,int nH)
Purpose:
Params:
Returns:
---------------------------------------------------------------------- */
bool VRAM::CheckValidAlloc(TPageType nType,int nW,int nH)
{
return(true);
}
/*----------------------------------------------------------------------
Function: int VRAM::GetMaxWidthTp(TPageType nType)
Purpose:
Params:
Returns:
---------------------------------------------------------------------- */
int VRAM::GetMaxWidthTp(TPageType nType)
{
int RetVal;
switch (nType)
{
case TP_4:
RetVal=1;
break;
case TP_8:
RetVal=2;
break;
case TP_16:
RetVal=4;
break;
case TP_SCREEN:
RetVal=256;
break;
default:
RetVal=-1;
Error(ERR_FATAL,"Illegal tpage type");
break;
}
return(RetVal);
}
/*----------------------------------------------------------------------
Function: int VRAM::GetXAlign(TPageType nType)
Purpose:
Params:
Returns:
---------------------------------------------------------------------- */
int VRAM::GetXAlign(TPageType nType)
{
int RetVal;
switch (nType)
{
case TP_4:
RetVal=1;
break;
case TP_8:
RetVal=2;
break;
case TP_16:
RetVal=4;
break;
case TP_PAL:
RetVal=16*4;
break;
case TP_SCREEN:
RetVal=4;
break;
default:
RetVal=-1;
Error(ERR_FATAL,"Illegal tpage type");
break;
}
return(RetVal);
}
/*----------------------------------------------------------------------
Function:
Purpose:
Params:
Returns:
---------------------------------------------------------------------- */
/*----------------------------------------------------------------------
Function:
Purpose:
Params:
Returns:
---------------------------------------------------------------------- */
TPRect & VRAM::NewItem(TPRectVec & TPRects)
{
TPRects.resize(TPRects.size()+1);
return(TPRects[TPRects.size()-1]);
}
/*----------------------------------------------------------------------
Function:
Purpose:
Params:
Returns:
---------------------------------------------------------------------- */
TPRect::TPRect(void)
{
InitRect();
}
void TPRect::InitRect(void)
{
X=0;
Y=0;
W=0;
H=0;
TypeOfPage=TP_4;
Rotated=false;
Alloced=false;
DontRotate=false;
}
TPRect::TPRect(TPageType nType,int nW,int nH)
{
int WidthMul;
InitRect();
WidthMul=GetWidthMul(nType);
W=nW*WidthMul;
H=nH;
TypeOfPage=nType;
}
int TPRect::GetWidthMul(TPageType nType)
{
int WidthMul;
switch (nType)
{
case TP_4:
WidthMul=1;
break;
case TP_8:
WidthMul=2;
break;
case TP_16:
case TP_SCREEN:
case TP_PAL:
WidthMul=4;
break;
case TP_NUM_OF_TP_TYPES:
default:
Error(ERR_FATAL,"Can't alloc type TP_NUM_OF_TP_TYPES");
break;
}
return (WidthMul);
}
void TPRect::Set(TPageType nType,int nX,int nY,int nW,int nH)
{
TypeOfPage=nType;
X=nX;
Y=nY;
W=nW*GetWidthMul(nType);
H=nH;
}
void TPRect::SetXY(int nX,int nY)
{
X=nX;
Y=nY;
}
u32 TPRect::GetId(void) const
{
int Colis=0;
int PageNum=(X/256)+((Y/256)*16);
if ((X/256) != ((X+W2Alloc-1)/256))
Colis|=1;
if ((Y/256) != ((Y+H2Alloc-1)/256))
Colis|=2;
return ((Colis<<24)|(PageNum<<16)|((Y&0xff)<<8)|(X&0xff));
}
bool TPRect::SetRotate(bool Rot)
{
bool RetBool=Rotated;
if (Rot != RetBool)
{
W/=GetWidthMul(TypeOfPage);
int Temp=W;
W=H;
H=Temp;
W*=GetWidthMul(TypeOfPage);
}
Rotated=Rot;
return(RetBool);
}
void VRAM::getUnusedSpace(TPRectVec & unusedBoxes)
{
int vX=X;
int vY=Y;
const int Width16=256;
const int Height16=256;
for (int y=0;y<VRAMHeightPages;y++)
for (int x=0;x<VRAMWidthPages;x++)
{
TPRect thisRect;
bool foundRect;
foundRect=false;
for (int f=1;f<255 && !foundRect;f++)
{
int boxBaseY;
int boxHeight;
boxBaseY=f;
boxHeight=255-f;
thisRect.X=(x*Width16)+vX;
thisRect.Y=(y*Height16)+vY+boxBaseY;
thisRect.W=Width16;
thisRect.H=boxHeight;
if (!InColisionWithUsed(thisRect))
foundRect=true;
}
if (foundRect)
unusedBoxes.push_back(thisRect);
}
}
int VRAM::GetNumOfUsedPages()
{
int Used=0;
int vX=X;
int vY=Y;
const int Width16=256;
const int Height16=256;
for (int y=0;y<VRAMHeightPages;y++)
for (int x=0;x<VRAMWidthPages;x++)
{
TPRect ThisRect;
ThisRect.X=(x*Width16)+vX;
ThisRect.Y=(y*Height16)+vY;
ThisRect.W=Width16;
ThisRect.H=Height16;
if (InColisionWithUsed(ThisRect))
Used++;
}
return(Used);
}
bool TPRect::IsAlloced(void) const
{
return(Alloced);
}
void TPRect::SetAlloced(bool nAlloced)
{
Alloced=nAlloced;
}
int VRAM::GetNumOfItems()
{
return(Used.size());
}
void TPRect::InitFromFrame(Frame const & Fr)
{
/* !!!!! Make this support other bit widths */
W=Fr.GetWidth();
H=Fr.GetHeight();
if (Fr.GetNumOfCols() <= 16)
TypeOfPage=TP_4;
else if (Fr.GetNumOfCols() <= 256)
TypeOfPage=TP_8;
else
Error(ERR_FATAL,"Only 4 & 8 bit supported right now");
W*=GetWidthMul(TypeOfPage);
}
TPageType TPRect::convertTo16Bit(void)
{
TPageType oldType;
switch (TypeOfPage)
{
case TP_4:
// W=GU_AlignVal(W,4)/4;
break;
case TP_8:
// W=GU_AlignVal(W,2)/2;
break;
default:
Error(ERR_FATAL,"Only 4 & 8 bit supported right now");
break;
}
oldType=TypeOfPage;
TypeOfPage=TP_16;
return(oldType);
}
void TPRect::convertFrom16Bit(TPageType newType)
{
switch (newType)
{
case TP_4:
// W=W*4;
break;
case TP_8:
// W=W*2;
break;
default:
Error(ERR_FATAL,"Only 4 & 8 bit supported right now");
break;
}
TypeOfPage=newType;
}
/*===========================================================================
end */