metaforce/Runtime/Character/IAnimReader.hpp

147 lines
5.8 KiB
C++

#ifndef __URDE_IANIMREADER_HPP__
#define __URDE_IANIMREADER_HPP__
#include "RetroTypes.hpp"
#include "CCharAnimTime.hpp"
#include "zeus/CVector3f.hpp"
#include "zeus/CQuaternion.hpp"
#include "CParticleData.hpp"
#include "CToken.hpp"
#include "CAllFormatsAnimSource.hpp"
namespace urde
{
class CSegId;
class CBoolPOINode;
class CInt32POINode;
class CParticlePOINode;
class CSoundPOINode;
class CSegIdList;
class CSegStatementSet;
struct SAdvancementDeltas
{
zeus::CVector3f x0_posDelta;
zeus::CQuaternion xc_rotDelta;
static SAdvancementDeltas Interpolate(const SAdvancementDeltas& a, const SAdvancementDeltas& b,
float oldWeight, float newWeight);
};
struct SAdvancementResults
{
CCharAnimTime x0_remTime;
SAdvancementDeltas x8_deltas;
};
class CSteadyStateAnimInfo
{
CCharAnimTime x0_duration;
zeus::CVector3f x8_offset;
bool x14_looping = false;
public:
/* HACK: Remove this default constructor */
CSteadyStateAnimInfo() = default;
CSteadyStateAnimInfo(bool looping, const CCharAnimTime& duration, const zeus::CVector3f& offset)
: x0_duration(duration), x8_offset(offset), x14_looping(looping) {}
const CCharAnimTime& GetDuration() const { return x0_duration; }
const zeus::CVector3f& GetOffset() const { return x8_offset; }
bool IsLooping() const { return x14_looping; }
};
struct CAnimTreeEffectiveContribution
{
float x0_contributionWeight;
std::string x4_name;
CSteadyStateAnimInfo x14_ssInfo;
CCharAnimTime x2c_remTime;
u32 x34_dbIdx;
public:
CAnimTreeEffectiveContribution(float cweight, std::string_view name, const CSteadyStateAnimInfo& ssInfo,
const CCharAnimTime& remTime, u32 dbIdx)
: x0_contributionWeight(cweight), x4_name(name), x14_ssInfo(ssInfo), x2c_remTime(remTime), x34_dbIdx(dbIdx) {}
float GetContributionWeight() const { return x0_contributionWeight; }
std::string_view GetPrimitiveName() const { return x4_name; }
const CSteadyStateAnimInfo& GetSteadyStateAnimInfo() const { return x14_ssInfo; }
const CCharAnimTime& GetTimeRemaining() const { return x2c_remTime; }
u32 GetAnimDatabaseIndex() const { return x34_dbIdx; }
};
template <class T>
class TSubAnimTypeToken : public TLockedToken<CAllFormatsAnimSource>
{
};
template <>
class TSubAnimTypeToken<CAnimSource> : public TLockedToken<CAllFormatsAnimSource>
{
public:
TSubAnimTypeToken<CAnimSource>(const TLockedToken<CAllFormatsAnimSource>& token)
: TLockedToken<CAllFormatsAnimSource>(token) {}
const CAnimSource* GetObj() const
{
const CAllFormatsAnimSource* source = TLockedToken<CAllFormatsAnimSource>::GetObj();
return &source->GetAsCAnimSource();
}
const CAnimSource* operator->() const {return GetObj();}
const CAnimSource& operator*() const {return *GetObj();}
};
template <>
class TSubAnimTypeToken<CFBStreamedCompression> : public TLockedToken<CAllFormatsAnimSource>
{
public:
TSubAnimTypeToken<CFBStreamedCompression>(const TLockedToken<CAllFormatsAnimSource>& token)
: TLockedToken<CAllFormatsAnimSource>(token) {}
const CFBStreamedCompression* GetObj() const
{
const CAllFormatsAnimSource* source = TLockedToken<CAllFormatsAnimSource>::GetObj();
return &source->GetAsCFBStreamedCompression();
}
const CFBStreamedCompression* operator->() const {return GetObj();}
const CFBStreamedCompression& operator*() const {return *GetObj();}
};
class IAnimReader
{
public:
virtual ~IAnimReader() = default;
virtual bool IsCAnimTreeNode() const {return false;}
virtual SAdvancementResults VAdvanceView(const CCharAnimTime& a)=0;
virtual CCharAnimTime VGetTimeRemaining() const=0;
virtual CSteadyStateAnimInfo VGetSteadyStateAnimInfo() const=0;
virtual bool VHasOffset(const CSegId& seg) const=0;
virtual zeus::CVector3f VGetOffset(const CSegId& seg) const=0;
virtual zeus::CQuaternion VGetRotation(const CSegId& seg) const=0;
virtual u32 VGetBoolPOIList(const CCharAnimTime& time, CBoolPOINode* listOut, u32 capacity, u32 iterator, u32) const=0;
virtual u32 VGetInt32POIList(const CCharAnimTime& time, CInt32POINode* listOut, u32 capacity, u32 iterator, u32) const=0;
virtual u32 VGetParticlePOIList(const CCharAnimTime& time, CParticlePOINode* listOut, u32 capacity, u32 iterator, u32) const=0;
virtual u32 VGetSoundPOIList(const CCharAnimTime& time, CSoundPOINode* listOut, u32 capacity, u32 iterator, u32) const=0;
virtual bool VGetBoolPOIState(const char*) const=0;
virtual s32 VGetInt32POIState(const char*) const=0;
virtual CParticleData::EParentedMode VGetParticlePOIState(const char*) const=0;
virtual void VGetSegStatementSet(const CSegIdList& list, CSegStatementSet& setOut) const=0;
virtual void VGetSegStatementSet(const CSegIdList& list, CSegStatementSet& setOut, const CCharAnimTime& time) const=0;
virtual std::unique_ptr<IAnimReader> VClone() const=0;
virtual std::experimental::optional<std::unique_ptr<IAnimReader>> VSimplified() {return {};}
virtual void VSetPhase(float)=0;
virtual SAdvancementResults VGetAdvancementResults(const CCharAnimTime& a, const CCharAnimTime& b) const;
u32 GetBoolPOIList(const CCharAnimTime& time, CBoolPOINode* listOut, u32 capacity, u32 iterator, u32) const;
u32 GetInt32POIList(const CCharAnimTime& time, CInt32POINode* listOut, u32 capacity, u32 iterator, u32) const;
u32 GetParticlePOIList(const CCharAnimTime& time, CParticlePOINode* listOut, u32 capacity, u32 iterator, u32) const;
u32 GetSoundPOIList(const CCharAnimTime& time, CSoundPOINode* listOut, u32 capacity, u32 iterator, u32) const;
std::experimental::optional<std::unique_ptr<IAnimReader>> Simplified() { return VSimplified(); }
std::unique_ptr<IAnimReader> Clone() const { return VClone(); }
};
}
#endif // __URDE_IANIMREADER_HPP__