metaforce/DataSpec/DNACommon/RigInverter.cpp

#include "RigInverter.hpp"
#include "DataSpec/DNAMP1/CINF.hpp"
#include "DataSpec/DNAMP2/CINF.hpp"
#include "DataSpec/DNAMP3/CINF.hpp"
#include "hecl/Blender/Connection.hpp"

namespace DataSpec::DNAANIM
{

template <class CINFType>
RigInverter<CINFType>::Bone::Bone(const CINFType& cinf, const typename CINFType::Bone& origBone)
: m_origBone(origBone)
{
    atUint32 parentIdx = cinf.getInternalBoneIdxFromId(origBone.parentId);
    zeus::CVector3f boneOrigin(origBone.origin);
    zeus::CVector3f naturalTail = boneOrigin + zeus::CVector3f{0.f, 0.5f, 0.f};
    if (parentIdx != -1)
    {
        const typename CINFType::Bone& pBone = cinf.bones[parentIdx];
        m_parentDelta = boneOrigin - zeus::CVector3f(pBone.origin);
    }
    
    size_t actualChildren = 0;
    for (atUint32 chId : origBone.linked)
    {
        if (chId == origBone.parentId)
            continue;
        atUint32 chIdx = cinf.getInternalBoneIdxFromId(chId);
        if (chIdx != -1)
            ++actualChildren;
    }

    const std::string* bName = cinf.getBoneNameFromId(origBone.id);
    bool isLCTR = false;
    if (bName)
        isLCTR = bName->find("_LCTR") != std::string::npos;

    if (parentIdx == -1)
    {
        /* Root will always use +Y tail */
        m_tail = naturalTail;
    }
    else if (actualChildren)
    {
        /* Position tail to average of children */
        for (atUint32 chId : origBone.linked)
        {
            if (chId == origBone.parentId)
                continue;
            atUint32 chIdx = cinf.getInternalBoneIdxFromId(chId);
            if (chIdx != -1)
            {
                const typename CINFType::Bone& chBone = cinf.bones[chIdx];
                m_tail += chBone.origin;
            }
        }
        m_tail /= zeus::CVector3f(float(actualChildren));
        if ((m_tail - boneOrigin).magSquared() < 0.001f)
            m_tail = naturalTail;
        else if (isLCTR)
            m_tail = boneOrigin + zeus::CVector3f{0.f, 1.0f, 0.f} * (m_tail - boneOrigin).magnitude();
    }
    else if (parentIdx != -1)
    {
        /* Extrapolate by delta with parent */
        m_tail = boneOrigin + m_parentDelta;
        float deltaMag = m_parentDelta.magnitude();
        if (deltaMag < 0.001f)
        {
            deltaMag = 0.5f;
            m_tail = naturalTail;
        }
        else if (deltaMag > 0.5f)
        {
            /* Extreme bones capped to +0.5 value */
            deltaMag = 0.5f;
            m_tail = boneOrigin + m_parentDelta.normalized() * 0.5f;
        }

        if (isLCTR)
            m_tail = boneOrigin + zeus::CVector3f{0.f, 1.0f, 0.f} * deltaMag;
    }
    else
    {
        /* Fallback to +Y tail */
        m_tail = naturalTail;
    }
}

template <class CINFType>
RigInverter<CINFType>::RigInverter(const CINFType& cinf)
: m_cinf(cinf)
{
    m_bones.reserve(cinf.bones.size());
    for (const typename CINFType::Bone& b : cinf.bones)
        m_bones.emplace_back(cinf, b);
}

template <class CINFType>
RigInverter<CINFType>::RigInverter(const CINFType& cinf,
                                   const std::unordered_map<std::string,
                                   hecl::blender::Matrix3f>& matrices)
: m_cinf(cinf)
{
    m_bones.reserve(cinf.bones.size());
    for (const typename CINFType::Bone& b : cinf.bones)
    {
        m_bones.emplace_back(cinf, b);

        const std::string* name = cinf.getBoneNameFromId(b.id);
        if (name)
        {
            auto search = matrices.find(*name);
            if (search != matrices.cend())
            {
                zeus::CMatrix3f boneMtx(search->second[0],
                                        search->second[1],
                                        search->second[2]);
                m_bones.back().m_inverter = boneMtx.transposed();
                m_bones.back().m_restorer = boneMtx;
            }
        }
    }
}

template <class CINFType>
zeus::CQuaternion
RigInverter<CINFType>::invertRotation(atUint32 boneId, const zeus::CQuaternion& origRot) const
{
    for (const Bone& b : m_bones)
        if (b.m_origBone.id == boneId)
            return b.m_restorer * zeus::CMatrix3f(origRot) * b.m_inverter;
    return origRot;
}
    
template <class CINFType>
zeus::CVector3f
RigInverter<CINFType>::invertPosition(atUint32 boneId, const zeus::CVector3f& origPos, bool subDelta) const
{
    for (const Bone& b : m_bones)
        if (b.m_origBone.id == boneId)
        {
            zeus::CVector3f localPos = origPos;
            if (subDelta)
                localPos -= b.m_parentDelta;
            return b.m_restorer * localPos;
        }
    return origPos;
}

template <class CINFType>
zeus::CQuaternion
RigInverter<CINFType>::restoreRotation(atUint32 boneId, const zeus::CQuaternion& origRot) const
{
    for (const Bone& b : m_bones)
        if (b.m_origBone.id == boneId)
            return b.m_inverter * zeus::CMatrix3f(origRot) * b.m_restorer;
    return origRot;
}

template <class CINFType>
zeus::CVector3f
RigInverter<CINFType>::restorePosition(atUint32 boneId, const zeus::CVector3f& origPos, bool subDelta) const
{
    for (const Bone& b : m_bones)
        if (b.m_origBone.id == boneId)
        {
            zeus::CVector3f localPos = b.m_inverter * origPos;
            if (subDelta)
                localPos += b.m_parentDelta;
            return localPos;
        }
    return origPos;
}

template class RigInverter<DNAMP1::CINF>;
template class RigInverter<DNAMP2::CINF>;
template class RigInverter<DNAMP3::CINF>;

}
Migration to new ANIM extract 2016-04-07 03:40:25 +00:00			`#include "RigInverter.hpp"`
			`#include "DataSpec/DNAMP1/CINF.hpp"`
			`#include "DataSpec/DNAMP2/CINF.hpp"`
			`#include "DataSpec/DNAMP3/CINF.hpp"`
Huge compile performance refactor 2017-12-29 08:08:12 +00:00			`#include "hecl/Blender/Connection.hpp"`
Migration to new ANIM extract 2016-04-07 03:40:25 +00:00
Huge compile performance refactor 2017-12-29 08:08:12 +00:00			`namespace DataSpec::DNAANIM`
Migration to new ANIM extract 2016-04-07 03:40:25 +00:00			`{`

			`template <class CINFType>`
			`RigInverter<CINFType>::Bone::Bone(const CINFType& cinf, const typename CINFType::Bone& origBone)`
			`: m_origBone(origBone)`
			`{`
			`atUint32 parentIdx = cinf.getInternalBoneIdxFromId(origBone.parentId);`
Make sure LCTR bones are untransformed by RigInverter 2016-04-09 03:10:50 +00:00			`zeus::CVector3f boneOrigin(origBone.origin);`
			`zeus::CVector3f naturalTail = boneOrigin + zeus::CVector3f{0.f, 0.5f, 0.f};`
Migration to new ANIM extract 2016-04-07 03:40:25 +00:00			`if (parentIdx != -1)`
			`{`
			`const typename CINFType::Bone& pBone = cinf.bones[parentIdx];`
Make sure LCTR bones are untransformed by RigInverter 2016-04-09 03:10:50 +00:00			`m_parentDelta = boneOrigin - zeus::CVector3f(pBone.origin);`
Migration to new ANIM extract 2016-04-07 03:40:25 +00:00			`}`

			`size_t actualChildren = 0;`
			`for (atUint32 chId : origBone.linked)`
			`{`
			`if (chId == origBone.parentId)`
			`continue;`
			`atUint32 chIdx = cinf.getInternalBoneIdxFromId(chId);`
			`if (chIdx != -1)`
			`++actualChildren;`
			`}`

Make sure LCTR bones are untransformed by RigInverter 2016-04-09 03:10:50 +00:00			`const std::string* bName = cinf.getBoneNameFromId(origBone.id);`
			`bool isLCTR = false;`
			`if (bName)`
			`isLCTR = bName->find("_LCTR") != std::string::npos;`

Migration to new ANIM extract 2016-04-07 03:40:25 +00:00			`if (parentIdx == -1)`
			`{`
			`/* Root will always use +Y tail */`
			`m_tail = naturalTail;`
			`}`
			`else if (actualChildren)`
			`{`
			`/* Position tail to average of children */`
			`for (atUint32 chId : origBone.linked)`
			`{`
			`if (chId == origBone.parentId)`
			`continue;`
			`atUint32 chIdx = cinf.getInternalBoneIdxFromId(chId);`
			`if (chIdx != -1)`
			`{`
			`const typename CINFType::Bone& chBone = cinf.bones[chIdx];`
			`m_tail += chBone.origin;`
			`}`
			`}`
Several collision fixes 2017-12-18 02:54:50 +00:00			`m_tail /= zeus::CVector3f(float(actualChildren));`
MP2/3 RigInverter 2016-04-09 07:10:09 +00:00			`if ((m_tail - boneOrigin).magSquared() < 0.001f)`
Migration to new ANIM extract 2016-04-07 03:40:25 +00:00			`m_tail = naturalTail;`
Update RigInverter.cpp 2016-04-22 10:43:29 +00:00			`else if (isLCTR)`
Make sure LCTR bones are untransformed by RigInverter 2016-04-09 03:10:50 +00:00			`m_tail = boneOrigin + zeus::CVector3f{0.f, 1.0f, 0.f} * (m_tail - boneOrigin).magnitude();`
Migration to new ANIM extract 2016-04-07 03:40:25 +00:00			`}`
			`else if (parentIdx != -1)`
			`{`
			`/* Extrapolate by delta with parent */`
MP2/3 RigInverter 2016-04-09 07:10:09 +00:00			`m_tail = boneOrigin + m_parentDelta;`
Make sure LCTR bones are untransformed by RigInverter 2016-04-09 03:10:50 +00:00			`float deltaMag = m_parentDelta.magnitude();`
SLERP PoseBone exporting for supported blender builds 2016-04-26 00:47:48 +00:00			`if (deltaMag < 0.001f)`
			`{`
			`deltaMag = 0.5f;`
			`m_tail = naturalTail;`
			`}`
			`else if (deltaMag > 0.5f)`
Make sure LCTR bones are untransformed by RigInverter 2016-04-09 03:10:50 +00:00			`{`
			`/* Extreme bones capped to +0.5 value */`
			`deltaMag = 0.5f;`
			`m_tail = boneOrigin + m_parentDelta.normalized() * 0.5f;`
			`}`

			`if (isLCTR)`
			`m_tail = boneOrigin + zeus::CVector3f{0.f, 1.0f, 0.f} * deltaMag;`
Migration to new ANIM extract 2016-04-07 03:40:25 +00:00			`}`
			`else`
			`{`
			`/* Fallback to +Y tail */`
			`m_tail = naturalTail;`
			`}`
			`}`

			`template <class CINFType>`
			`RigInverter<CINFType>::RigInverter(const CINFType& cinf)`
			`: m_cinf(cinf)`
			`{`
			`m_bones.reserve(cinf.bones.size());`
			`for (const typename CINFType::Bone& b : cinf.bones)`
			`m_bones.emplace_back(cinf, b);`
			`}`

More RigInverter work 2016-04-08 03:37:14 +00:00			`template <class CINFType>`
			`RigInverter<CINFType>::RigInverter(const CINFType& cinf,`
			`const std::unordered_map<std::string,`
Huge compile performance refactor 2017-12-29 08:08:12 +00:00			`hecl::blender::Matrix3f>& matrices)`
More RigInverter work 2016-04-08 03:37:14 +00:00			`: m_cinf(cinf)`
			`{`
			`m_bones.reserve(cinf.bones.size());`
			`for (const typename CINFType::Bone& b : cinf.bones)`
			`{`
			`m_bones.emplace_back(cinf, b);`
Initial working RigInverter 2016-04-08 23:11:26 +00:00
More RigInverter work 2016-04-08 03:37:14 +00:00			`const std::string* name = cinf.getBoneNameFromId(b.id);`
			`if (name)`
			`{`
			`auto search = matrices.find(*name);`
			`if (search != matrices.cend())`
			`{`
Initial working RigInverter 2016-04-08 23:11:26 +00:00			`zeus::CMatrix3f boneMtx(search->second[0],`
			`search->second[1],`
			`search->second[2]);`
			`m_bones.back().m_inverter = boneMtx.transposed();`
			`m_bones.back().m_restorer = boneMtx;`
More RigInverter work 2016-04-08 03:37:14 +00:00			`}`
			`}`
			`}`
			`}`

Migration to new ANIM extract 2016-04-07 03:40:25 +00:00			`template <class CINFType>`
			`zeus::CQuaternion`
Initial working RigInverter 2016-04-08 23:11:26 +00:00			`RigInverter<CINFType>::invertRotation(atUint32 boneId, const zeus::CQuaternion& origRot) const`
Migration to new ANIM extract 2016-04-07 03:40:25 +00:00			`{`
			`for (const Bone& b : m_bones)`
			`if (b.m_origBone.id == boneId)`
Initial working RigInverter 2016-04-08 23:11:26 +00:00			`return b.m_restorer * zeus::CMatrix3f(origRot) * b.m_inverter;`
Migration to new ANIM extract 2016-04-07 03:40:25 +00:00			`return origRot;`
			`}`

			`template <class CINFType>`
			`zeus::CVector3f`
Initial working RigInverter 2016-04-08 23:11:26 +00:00			`RigInverter<CINFType>::invertPosition(atUint32 boneId, const zeus::CVector3f& origPos, bool subDelta) const`
Migration to new ANIM extract 2016-04-07 03:40:25 +00:00			`{`
			`for (const Bone& b : m_bones)`
			`if (b.m_origBone.id == boneId)`
			`{`
			`zeus::CVector3f localPos = origPos;`
			`if (subDelta)`
			`localPos -= b.m_parentDelta;`
RigInverter translation fix 2016-04-08 23:21:41 +00:00			`return b.m_restorer * localPos;`
Initial working RigInverter 2016-04-08 23:11:26 +00:00			`}`
			`return origPos;`
			`}`

			`template <class CINFType>`
			`zeus::CQuaternion`
			`RigInverter<CINFType>::restoreRotation(atUint32 boneId, const zeus::CQuaternion& origRot) const`
			`{`
			`for (const Bone& b : m_bones)`
			`if (b.m_origBone.id == boneId)`
			`return b.m_inverter * zeus::CMatrix3f(origRot) * b.m_restorer;`
			`return origRot;`
			`}`

			`template <class CINFType>`
			`zeus::CVector3f`
			`RigInverter<CINFType>::restorePosition(atUint32 boneId, const zeus::CVector3f& origPos, bool subDelta) const`
			`{`
			`for (const Bone& b : m_bones)`
			`if (b.m_origBone.id == boneId)`
			`{`
RigInverter translation fix 2016-04-08 23:21:41 +00:00			`zeus::CVector3f localPos = b.m_inverter * origPos;`
Initial working RigInverter 2016-04-08 23:11:26 +00:00			`if (subDelta)`
			`localPos += b.m_parentDelta;`
			`return localPos;`
Migration to new ANIM extract 2016-04-07 03:40:25 +00:00			`}`
			`return origPos;`
			`}`

			`template class RigInverter<DNAMP1::CINF>;`
			`template class RigInverter<DNAMP2::CINF>;`
			`template class RigInverter<DNAMP3::CINF>;`

			`}`