#ifndef __URDE_TYPES_HPP__ #define __URDE_TYPES_HPP__ #include #include #include #include "GCNTypes.hpp" #include "rstl.hpp" #include "DataSpec/DNACommon/DNACommon.hpp" #include "IOStreams.hpp" namespace urde { using FourCC = hecl::FourCC; using ResId = s64; struct SObjectTag { FourCC type; ResId id = -1; operator bool() const { return (id & 0xffffffff) != 0xffffffff; } bool operator!=(const SObjectTag& other) const { return id != other.id; } bool operator==(const SObjectTag& other) const { return id == other.id; } SObjectTag() = default; SObjectTag(FourCC tp, ResId rid) : type(tp), id(rid) {} SObjectTag(CInputStream& in) { in.readBytesToBuf(&type, 4); id = in.readUint32Big(); } void readMLVL(CInputStream& in) { id = in.readUint32Big(); in.readBytesToBuf(&type, 4); } }; struct TEditorId { TEditorId() = default; TEditorId(u32 idin) : id(idin) {} u32 id = -1; u8 LayerNum() const { return (id >> 26) & 0x3f; } u16 AreaNum() const { return (id >> 16) & 0x3ff; } u16 Id() const { return id & 0xffff; } bool operator<(const TEditorId& other) const { return (id & 0x3ffffff) < (other.id & 0x3ffffff); } bool operator!=(const TEditorId& other) const { return (id & 0x3ffffff) != (other.id & 0x3ffffff); } bool operator==(const TEditorId& other) const { return (id & 0x3ffffff) == (other.id & 0x3ffffff); } }; using TUniqueId = s16; using TAreaId = s32; #define kInvalidEditorId TEditorId() #define kInvalidUniqueId TUniqueId(-1) #define kInvalidAreaId TAreaId(-1) } #if 0 template class TRoundRobin { rstl::reserved_vector vals; public: TRoundRobin(const T& val) : vals(N, val) {} void PushBack(const T& val) { vals.push_back(val); } size_t Size() const { return vals.size(); } const T& GetLastValue() const { return vals.back(); } void Clear() { vals.clear(); } const T& GetValue(s32) const {} }; #endif template T GetAverage(const T* v, s32 count) { T r = v[0]; for (s32 i = 1; i < count; ++i) r += v[i]; return r / count; } template class TReservedAverage : rstl::reserved_vector { public: TReservedAverage() = default; TReservedAverage(const T& t) { resize(N, t); } void AddValue(const T& t) { if (this->size() < N) this->push_back(t); } rstl::optional_object GetAverage() const { if (this->empty()) return {}; return {::GetAverage(this->data(), this->size())}; } void Clear() { this->clear(); } }; namespace std { template <> struct hash { inline size_t operator()(const urde::SObjectTag& tag) const { return tag.id; } }; } #endif // __URDE_TYPES_HPP__