/**
* @file llpathfindinglinkset.cpp
* @brief Definition of a pathfinding linkset that contains various properties required for havok pathfinding.
* @author Stinson@lindenlab.com
*
* $LicenseInfo:firstyear=2012&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2012, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
* $/LicenseInfo$
*/


#include "llviewerprecompiledheaders.h"

#include "llpathfindinglinkset.h"

#include <string>

#include "llpathfindingobject.h"
#include "llsd.h"

#define LINKSET_LAND_IMPACT_FIELD   "landimpact"
#define LINKSET_MODIFIABLE_FIELD    "modifiable"
#define LINKSET_CATEGORY_FIELD      "navmesh_category"
#define LINKSET_CAN_BE_VOLUME       "can_be_volume"
#define LINKSET_IS_SCRIPTED_FIELD   "is_scripted"
#define LINKSET_PHANTOM_FIELD       "phantom"
#define LINKSET_WALKABILITY_A_FIELD "A"
#define LINKSET_WALKABILITY_B_FIELD "B"
#define LINKSET_WALKABILITY_C_FIELD "C"
#define LINKSET_WALKABILITY_D_FIELD "D"

#define LINKSET_CATEGORY_VALUE_INCLUDE 0
#define LINKSET_CATEGORY_VALUE_EXCLUDE 1
#define LINKSET_CATEGORY_VALUE_IGNORE  2

//---------------------------------------------------------------------------
// LLPathfindingLinkset
//---------------------------------------------------------------------------

const S32 LLPathfindingLinkset::MIN_WALKABILITY_VALUE(0);
const S32 LLPathfindingLinkset::MAX_WALKABILITY_VALUE(100);

LLPathfindingLinkset::LLPathfindingLinkset(const LLSD& pTerrainData)
    : LLPathfindingObject(),
    mIsTerrain(true),
    mLandImpact(0U),
    mIsModifiable(FALSE),
    mCanBeVolume(FALSE),
    mIsScripted(FALSE),
    mHasIsScripted(TRUE),
    mLinksetUse(kUnknown),
    mWalkabilityCoefficientA(MIN_WALKABILITY_VALUE),
    mWalkabilityCoefficientB(MIN_WALKABILITY_VALUE),
    mWalkabilityCoefficientC(MIN_WALKABILITY_VALUE),
    mWalkabilityCoefficientD(MIN_WALKABILITY_VALUE)
{
    parsePathfindingData(pTerrainData);
}

LLPathfindingLinkset::LLPathfindingLinkset(const std::string &pUUID, const LLSD& pLinksetData)
    : LLPathfindingObject(pUUID, pLinksetData),
    mIsTerrain(false),
    mLandImpact(0U),
    mIsModifiable(TRUE),
    mCanBeVolume(TRUE),
    mIsScripted(FALSE),
    mHasIsScripted(FALSE),
    mLinksetUse(kUnknown),
    mWalkabilityCoefficientA(MIN_WALKABILITY_VALUE),
    mWalkabilityCoefficientB(MIN_WALKABILITY_VALUE),
    mWalkabilityCoefficientC(MIN_WALKABILITY_VALUE),
    mWalkabilityCoefficientD(MIN_WALKABILITY_VALUE)
{
    parseLinksetData(pLinksetData);
    parsePathfindingData(pLinksetData);
}

LLPathfindingLinkset::LLPathfindingLinkset(const LLPathfindingLinkset& pOther)
    : LLPathfindingObject(pOther),
    mIsTerrain(pOther.mIsTerrain),
    mLandImpact(pOther.mLandImpact),
    mIsModifiable(pOther.mIsModifiable),
    mCanBeVolume(pOther.mCanBeVolume),
    mIsScripted(pOther.mIsScripted),
    mHasIsScripted(pOther.mHasIsScripted),
    mLinksetUse(pOther.mLinksetUse),
    mWalkabilityCoefficientA(pOther.mWalkabilityCoefficientA),
    mWalkabilityCoefficientB(pOther.mWalkabilityCoefficientB),
    mWalkabilityCoefficientC(pOther.mWalkabilityCoefficientC),
    mWalkabilityCoefficientD(pOther.mWalkabilityCoefficientD)
{
}

LLPathfindingLinkset::~LLPathfindingLinkset()
{
}

LLPathfindingLinkset& LLPathfindingLinkset::operator =(const LLPathfindingLinkset& pOther)
{
    dynamic_cast<LLPathfindingObject &>(*this) = pOther;

    mIsTerrain = pOther.mIsTerrain;
    mLandImpact = pOther.mLandImpact;
    mIsModifiable = pOther.mIsModifiable;
    mCanBeVolume = pOther.mCanBeVolume;
    mIsScripted = pOther.mIsScripted;
    mHasIsScripted = pOther.mHasIsScripted;
    mLinksetUse = pOther.mLinksetUse;
    mWalkabilityCoefficientA = pOther.mWalkabilityCoefficientA;
    mWalkabilityCoefficientB = pOther.mWalkabilityCoefficientB;
    mWalkabilityCoefficientC = pOther.mWalkabilityCoefficientC;
    mWalkabilityCoefficientD = pOther.mWalkabilityCoefficientD;

    return *this;
}

BOOL LLPathfindingLinkset::isPhantom() const
{
    return isPhantom(getLinksetUse());
}

LLPathfindingLinkset::ELinksetUse LLPathfindingLinkset::getLinksetUseWithToggledPhantom(ELinksetUse pLinksetUse)
{
    BOOL isPhantom = LLPathfindingLinkset::isPhantom(pLinksetUse);
    ENavMeshGenerationCategory navMeshGenerationCategory = getNavMeshGenerationCategory(pLinksetUse);

    return getLinksetUse(!isPhantom, navMeshGenerationCategory);
}

bool LLPathfindingLinkset::isShowUnmodifiablePhantomWarning(ELinksetUse pLinksetUse) const
{
    return (!isModifiable() && (isPhantom() != isPhantom(pLinksetUse)));
}

bool LLPathfindingLinkset::isShowPhantomToggleWarning(ELinksetUse pLinksetUse) const
{
    return (isModifiable() && (isPhantom() != isPhantom(pLinksetUse)));
}

bool LLPathfindingLinkset::isShowCannotBeVolumeWarning(ELinksetUse pLinksetUse) const
{
    return (!canBeVolume() && ((pLinksetUse == kMaterialVolume) || (pLinksetUse == kExclusionVolume)));
}

LLSD LLPathfindingLinkset::encodeAlteredFields(ELinksetUse pLinksetUse, S32 pA, S32 pB, S32 pC, S32 pD) const
{
    LLSD itemData;

    if (!isTerrain() && (pLinksetUse != kUnknown) && (getLinksetUse() != pLinksetUse) &&
        (canBeVolume() || ((pLinksetUse != kMaterialVolume) && (pLinksetUse != kExclusionVolume))))
    {
        if (isModifiable())
        {
            itemData[LINKSET_PHANTOM_FIELD] = static_cast<bool>(isPhantom(pLinksetUse));
        }

        itemData[LINKSET_CATEGORY_FIELD] = convertCategoryToLLSD(getNavMeshGenerationCategory(pLinksetUse));
    }

    if (mWalkabilityCoefficientA != pA)
    {
        itemData[LINKSET_WALKABILITY_A_FIELD] = llclamp(pA, MIN_WALKABILITY_VALUE, MAX_WALKABILITY_VALUE);
    }

    if (mWalkabilityCoefficientB != pB)
    {
        itemData[LINKSET_WALKABILITY_B_FIELD] = llclamp(pB, MIN_WALKABILITY_VALUE, MAX_WALKABILITY_VALUE);
    }

    if (mWalkabilityCoefficientC != pC)
    {
        itemData[LINKSET_WALKABILITY_C_FIELD] = llclamp(pC, MIN_WALKABILITY_VALUE, MAX_WALKABILITY_VALUE);
    }

    if (mWalkabilityCoefficientD != pD)
    {
        itemData[LINKSET_WALKABILITY_D_FIELD] = llclamp(pD, MIN_WALKABILITY_VALUE, MAX_WALKABILITY_VALUE);
    }

    return itemData;
}

void LLPathfindingLinkset::parseLinksetData(const LLSD &pLinksetData)
{
    llassert(pLinksetData.has(LINKSET_LAND_IMPACT_FIELD));
    llassert(pLinksetData.get(LINKSET_LAND_IMPACT_FIELD).isInteger());
    llassert(pLinksetData.get(LINKSET_LAND_IMPACT_FIELD).asInteger() >= 0);
    mLandImpact = pLinksetData.get(LINKSET_LAND_IMPACT_FIELD).asInteger();

    llassert(pLinksetData.has(LINKSET_MODIFIABLE_FIELD));
    llassert(pLinksetData.get(LINKSET_MODIFIABLE_FIELD).isBoolean());
    mIsModifiable = pLinksetData.get(LINKSET_MODIFIABLE_FIELD).asBoolean();

    mHasIsScripted = pLinksetData.has(LINKSET_IS_SCRIPTED_FIELD);
    if (mHasIsScripted)
    {
        llassert(pLinksetData.get(LINKSET_IS_SCRIPTED_FIELD).isBoolean());
        mIsScripted = pLinksetData.get(LINKSET_IS_SCRIPTED_FIELD).asBoolean();
    }
}

void LLPathfindingLinkset::parsePathfindingData(const LLSD &pLinksetData)
{
    bool isPhantom = false;
    if (pLinksetData.has(LINKSET_PHANTOM_FIELD))
    {
        llassert(pLinksetData.get(LINKSET_PHANTOM_FIELD).isBoolean());
        isPhantom = pLinksetData.get(LINKSET_PHANTOM_FIELD).asBoolean();
    }

    llassert(pLinksetData.has(LINKSET_CATEGORY_FIELD));
    mLinksetUse = getLinksetUse(isPhantom, convertCategoryFromLLSD(pLinksetData.get(LINKSET_CATEGORY_FIELD)));

    if (pLinksetData.has(LINKSET_CAN_BE_VOLUME))
    {
        llassert(pLinksetData.get(LINKSET_CAN_BE_VOLUME).isBoolean());
        mCanBeVolume = pLinksetData.get(LINKSET_CAN_BE_VOLUME).asBoolean();
    }

    llassert(pLinksetData.has(LINKSET_WALKABILITY_A_FIELD));
    llassert(pLinksetData.get(LINKSET_WALKABILITY_A_FIELD).isInteger());
    mWalkabilityCoefficientA = pLinksetData.get(LINKSET_WALKABILITY_A_FIELD).asInteger();
    llassert(mWalkabilityCoefficientA >= MIN_WALKABILITY_VALUE);
    llassert(mWalkabilityCoefficientA <= MAX_WALKABILITY_VALUE);

    llassert(pLinksetData.has(LINKSET_WALKABILITY_B_FIELD));
    llassert(pLinksetData.get(LINKSET_WALKABILITY_B_FIELD).isInteger());
    mWalkabilityCoefficientB = pLinksetData.get(LINKSET_WALKABILITY_B_FIELD).asInteger();
    llassert(mWalkabilityCoefficientB >= MIN_WALKABILITY_VALUE);
    llassert(mWalkabilityCoefficientB <= MAX_WALKABILITY_VALUE);

    llassert(pLinksetData.has(LINKSET_WALKABILITY_C_FIELD));
    llassert(pLinksetData.get(LINKSET_WALKABILITY_C_FIELD).isInteger());
    mWalkabilityCoefficientC = pLinksetData.get(LINKSET_WALKABILITY_C_FIELD).asInteger();
    llassert(mWalkabilityCoefficientC >= MIN_WALKABILITY_VALUE);
    llassert(mWalkabilityCoefficientC <= MAX_WALKABILITY_VALUE);

    llassert(pLinksetData.has(LINKSET_WALKABILITY_D_FIELD));
    llassert(pLinksetData.get(LINKSET_WALKABILITY_D_FIELD).isInteger());
    mWalkabilityCoefficientD = pLinksetData.get(LINKSET_WALKABILITY_D_FIELD).asInteger();
    llassert(mWalkabilityCoefficientD >= MIN_WALKABILITY_VALUE);
    llassert(mWalkabilityCoefficientD <= MAX_WALKABILITY_VALUE);
}

BOOL LLPathfindingLinkset::isPhantom(ELinksetUse pLinksetUse)
{
    BOOL retVal;

    switch (pLinksetUse)
    {
    case kWalkable :
    case kStaticObstacle :
    case kDynamicObstacle :
        retVal = false;
        break;
    case kMaterialVolume :
    case kExclusionVolume :
    case kDynamicPhantom :
        retVal = true;
        break;
    case kUnknown :
    default :
        retVal = false;
        llassert(0);
        break;
    }

    return retVal;
}

LLPathfindingLinkset::ELinksetUse LLPathfindingLinkset::getLinksetUse(bool pIsPhantom, ENavMeshGenerationCategory pNavMeshGenerationCategory)
{
    ELinksetUse linksetUse = kUnknown;

    if (pIsPhantom)
    {
        switch (pNavMeshGenerationCategory)
        {
        case kNavMeshGenerationIgnore :
            linksetUse = kDynamicPhantom;
            break;
        case kNavMeshGenerationInclude :
            linksetUse = kMaterialVolume;
            break;
        case kNavMeshGenerationExclude :
            linksetUse = kExclusionVolume;
            break;
        default :
            linksetUse = kUnknown;
            llassert(0);
            break;
        }
    }
    else
    {
        switch (pNavMeshGenerationCategory)
        {
        case kNavMeshGenerationIgnore :
            linksetUse = kDynamicObstacle;
            break;
        case kNavMeshGenerationInclude :
            linksetUse = kWalkable;
            break;
        case kNavMeshGenerationExclude :
            linksetUse = kStaticObstacle;
            break;
        default :
            linksetUse = kUnknown;
            llassert(0);
            break;
        }
    }

    return linksetUse;
}

LLPathfindingLinkset::ENavMeshGenerationCategory LLPathfindingLinkset::getNavMeshGenerationCategory(ELinksetUse pLinksetUse)
{
    ENavMeshGenerationCategory navMeshGenerationCategory;
    switch (pLinksetUse)
    {
    case kWalkable :
    case kMaterialVolume :
        navMeshGenerationCategory = kNavMeshGenerationInclude;
        break;
    case kStaticObstacle :
    case kExclusionVolume :
        navMeshGenerationCategory = kNavMeshGenerationExclude;
        break;
    case kDynamicObstacle :
    case kDynamicPhantom :
        navMeshGenerationCategory = kNavMeshGenerationIgnore;
        break;
    case kUnknown :
    default :
        navMeshGenerationCategory = kNavMeshGenerationIgnore;
        llassert(0);
        break;
    }

    return navMeshGenerationCategory;
}

LLSD LLPathfindingLinkset::convertCategoryToLLSD(ENavMeshGenerationCategory pNavMeshGenerationCategory)
{
    LLSD llsd;

    switch (pNavMeshGenerationCategory)
    {
        case kNavMeshGenerationIgnore :
            llsd = static_cast<S32>(LINKSET_CATEGORY_VALUE_IGNORE);
            break;
        case kNavMeshGenerationInclude :
            llsd = static_cast<S32>(LINKSET_CATEGORY_VALUE_INCLUDE);
            break;
        case kNavMeshGenerationExclude :
            llsd = static_cast<S32>(LINKSET_CATEGORY_VALUE_EXCLUDE);
            break;
        default :
            llsd = static_cast<S32>(LINKSET_CATEGORY_VALUE_IGNORE);
            llassert(0);
            break;
    }

    return llsd;
}

LLPathfindingLinkset::ENavMeshGenerationCategory LLPathfindingLinkset::convertCategoryFromLLSD(const LLSD &llsd)
{
    ENavMeshGenerationCategory navMeshGenerationCategory;

    llassert(llsd.isInteger());
    switch (llsd.asInteger())
    {
        case LINKSET_CATEGORY_VALUE_IGNORE :
            navMeshGenerationCategory = kNavMeshGenerationIgnore;
            break;
        case LINKSET_CATEGORY_VALUE_INCLUDE :
            navMeshGenerationCategory = kNavMeshGenerationInclude;
            break;
        case LINKSET_CATEGORY_VALUE_EXCLUDE :
            navMeshGenerationCategory = kNavMeshGenerationExclude;
            break;
        default :
            navMeshGenerationCategory = kNavMeshGenerationIgnore;
            llassert(0);
            break;
    }

    return navMeshGenerationCategory;
}