CWE-ou-minkata/Sources/Plasma/PubUtilLib/plSDL/plVarDescriptor.cpp

/*==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==*/
#include "hsStream.h"
#include "plSDL.h"
#include "hsStlUtils.h"

#include "pnKeyedObject/plUoid.h"
#include "pnNetCommon/plNetApp.h"
#include "pnMessage/plMessage.h"

#include "plUnifiedTime/plUnifiedTime.h"

const UInt8 plVarDescriptor::kVersion=3;        // for Read/Write format

/////////////////////////////////////////////////////////////////////////////////
// State Var
/////////////////////////////////////////////////////////////////////////////////

plVarDescriptor::plVarDescriptor() :
    fName(nil),
    fCount(1),
    fType(kNone),
    fTypeString(nil),
    fDefault(nil),
    fFlags(0)
{   

}

plVarDescriptor::~plVarDescriptor() 
{ 
    delete [] fName; 
    delete [] fDefault; 
    delete [] fTypeString; 
}

//
// Set type from a string.  Return false on err.
//
bool plVarDescriptor::SetType(const char* type)
{
    if (!type)
        return false;

    if (!stricmp(type, "vector3"))
        fType=kVector3;
    else
    if (!stricmp(type, "point3"))
        fType=kPoint3;
    else
    if (!stricmp(type, "rgb"))
        fType=kRGB;
    else
    if (!stricmp(type, "rgba"))
        fType=kRGBA;
    else
    if (!stricmp(type, "rgb8"))
        fType=kRGB8;
    else
    if (!stricmp(type, "rgba8"))
        fType=kRGBA8;
    else
    if (!strnicmp(type, "quat",4))
        fType=kQuaternion;
    else
    if (!stricmp(type, "rgba"))
        fType=kRGBA;
    else
    if (!stricmp(type, "int"))
        fType=kInt;
    else
    if (!stricmp(type, "byte"))
        fType=kByte;
    else
    if (!stricmp(type, "short"))
        fType=kShort;
    else
    if (!stricmp(type, "float"))
        fType=kFloat;
    else
    if (!stricmp(type, "double"))
        fType=kDouble;
    else
    if (!stricmp(type, "time"))
        fType=kTime;
    else
    if (!stricmp(type, "ageTimeOfDay"))
        fType=kAgeTimeOfDay;
    else
    if (!stricmp(type, "bool"))
        fType=kBool;
    else
    if (!stricmp(type, "string32"))
        fType=kString32;
    else
    if (!stricmp(type, "plKey"))
        fType=kKey;
    else
    if (!stricmp(type, "message") || !stricmp(type, "creatable") )
        fType=kCreatable;
    else
    if (*type=='$')
        fType=kStateDescriptor;
    else
        return false;   // err
    
    delete [] fTypeString;
    fTypeString = hsStrcpy(type);

    return true;    // ok
}

void plVarDescriptor::CopyFrom(const plVarDescriptor* other)
{
    SetName(other->GetName());
    SetDefault(other->GetDefault());
    SetCount(other->GetCount());
    SetDisplayOptions(other->GetDisplayOptions());

    delete [] fTypeString;
    fTypeString=hsStrcpy(other->GetTypeString());
    
    fType = other->GetType();
    fFlags = other->fFlags;
}

//
// Var descriptors are read and written by state descriptors
//
bool plVarDescriptor::Read(hsStream* s) 
{
    UInt8 version;
    s->ReadSwap(&version);
    if (version != kVersion)
    {
        if (plSDLMgr::GetInstance()->GetNetApp())
            plSDLMgr::GetInstance()->GetNetApp()->WarningMsg("SDL VarDescriptor version mismatch, read %d, should be %d - ignoring",
            version, kVersion);
        return false;
    }

    delete [] fName;
    fName=s->ReadSafeString();

    plMsgStdStringHelper::Peek(fDisplayOptions, s);

    fCount=s->ReadSwap32();

    fType=(Type)s->ReadByte();

    delete [] fDefault;
    fDefault = s->ReadSafeString();

    fFlags = s->ReadSwap32();
    return true;
}

//
// Var descriptors are read and written by state descriptors
//
void plVarDescriptor::Write(hsStream* s) const
{
    s->WriteSwap(kVersion);
    s->WriteSafeString(fName);
    plMsgStdStringHelper::Poke(fDisplayOptions, s);
    s->WriteSwap32(fCount);
    s->WriteByte((UInt8)fType);
    s->WriteSafeString(fDefault);
    s->WriteSwap32(fFlags);
}

/////////////////////////////////////////////////////////////////////////////////
// plSimpleVarDescriptor
/////////////////////////////////////////////////////////////////////////////////

plSimpleVarDescriptor::plSimpleVarDescriptor() :
    fAtomicType(kNone),
    fAtomicCount(1)
{   

}

// size in bytes
int plSimpleVarDescriptor::GetAtomicSize() const
{
    switch(fAtomicType)
    {
    case kInt:
        return sizeof(int)*GetAtomicCount();
    case kByte:
        return sizeof(byte)*GetAtomicCount();
    case kShort:
        return sizeof(short)*GetAtomicCount();
    case kAgeTimeOfDay:
    case kFloat:
        return sizeof(float)*GetAtomicCount();
    case kTime:
        return sizeof(plUnifiedTime)*GetAtomicCount();
    case kDouble:
        return sizeof(double)*GetAtomicCount();
    case kBool:
        return sizeof(bool)*GetAtomicCount();
    case kString32:
        return sizeof(String32)*GetAtomicCount();
    case kKey:
        return sizeof(plUoid)*GetAtomicCount();
    default:
        return -1;  // err
    }
}

// size of var in bytes
int plSimpleVarDescriptor::GetSize() const
{
    int size=GetAtomicSize();
    return size>=0 ? size*GetCount() : size;
}

//
// Set type from a string.  Return false on err.
// Sets atomicCount and atomicType
//
bool plSimpleVarDescriptor::SetType(const char* type)
{
    if (!type)
        return false;

    if (!plVarDescriptor::SetType(type))
        return false;

    if (!stricmp(type, "vector3"))
    {
        fAtomicCount = 3;
        fAtomicType=kFloat;
    }
    else
    if (!stricmp(type, "point3"))
    {
        fAtomicCount = 3;
        fAtomicType=kFloat;
    }
    else
    if (!stricmp(type, "rgb"))
    {
        fAtomicCount = 3;
        fAtomicType=kFloat;
    }
    else
    if (!stricmp(type, "rgba"))
    {
        fAtomicCount = 4;
        fAtomicType=kFloat;
    }
    else
    if (!stricmp(type, "rgb8"))
    {
        fAtomicCount = 3;
        fAtomicType=kByte;
    }
    else
    if (!stricmp(type, "rgba8"))
    {
        fAtomicCount = 4;
        fAtomicType=kByte;
    }
    else
    if (!strnicmp(type, "quat",4))
    {
        fAtomicCount = 4;
        fAtomicType=kFloat;
    }
    else
    if (!stricmp(type, "int"))
        fAtomicType=kInt;
    else
    if (!stricmp(type, "byte"))
        fAtomicType=kByte;
    else
    if (!stricmp(type, "short"))
        fAtomicType=kShort;
    else
    if (!stricmp(type, "float"))
        fAtomicType=kFloat;
    else
    if (!stricmp(type, "double"))
        fAtomicType=kDouble;
    else
    if (!stricmp(type, "time"))
        fAtomicType=kTime;
    else
    if (!stricmp(type, "ageTimeOfDay"))
        fAtomicType=kAgeTimeOfDay;
    else
    if (!stricmp(type, "bool"))
        fAtomicType=kBool;
    else
    if (!stricmp(type, "string32"))
        fAtomicType=kString32;
    else
    if (!stricmp(type, "plKey"))
        fAtomicType=kKey;
    else
    if (!stricmp(type, "message") || !stricmp(type, "creatable"))
        fAtomicType=kCreatable;
    else
        return false;   // err

    return true;    // ok
}

void plSimpleVarDescriptor::CopyFrom(const plSimpleVarDescriptor* other)
{
    plVarDescriptor::CopyFrom(other);

    fAtomicCount=other->GetAtomicCount();
    fAtomicType=other->GetAtomicType();
}

//
// Var descriptors are read and written by state descriptors
//
bool plSimpleVarDescriptor::Read(hsStream* s)   
{
    if (!plVarDescriptor::Read(s))
        return false;

    fAtomicCount=s->ReadSwap16();
    fAtomicType=(Type)s->ReadByte();
    return true;
}

//
// Var descriptors are read and written by state descriptors
//
void plSimpleVarDescriptor::Write(hsStream* s) const
{
    plVarDescriptor::Write(s);

    s->WriteSwap16((Int16)fAtomicCount);    
    s->WriteByte((UInt8)fAtomicType);
}

/////////////////////////////////////////////////////////////////////////////////
// plSDVarDescriptor
// A var which references another state descriptor
/////////////////////////////////////////////////////////////////////////////////
void plSDVarDescriptor::CopyFrom(const plSDVarDescriptor* other)
{
    plVarDescriptor::CopyFrom(other);

    SetStateDesc(other->GetStateDescriptor());
}

//
// Var descriptors are read and written by state descriptors
//
bool plSDVarDescriptor::Read(hsStream* s)   
{
    if (!plVarDescriptor::Read(s))
        return false;

    char* sdName=s->ReadSafeString();
    UInt16 version = s->ReadSwap16();
    plStateDescriptor* sd=plSDLMgr::GetInstance()->FindDescriptor(sdName, version);
    hsAssert( sd, xtl::format("Failed to find sdl descriptor: %s,%d. Missing legacy descriptor?", sdName, version ).c_str() );
    SetStateDesc(sd);
    delete [] sdName;
    return true;
}

//
// Var descriptors are read and written by state descriptors
//
void plSDVarDescriptor::Write(hsStream* s) const
{
    plVarDescriptor::Write(s);

    s->WriteSafeString(GetStateDescriptor()->GetName());
    UInt16 version=GetStateDescriptor()->GetVersion();
    s->WriteSwap(version);
}