Cleanup & refactoring

This commit is contained in:
Aruki 2018-12-16 14:00:40 -07:00
parent 2287b05bc3
commit c4829f5fda
197 changed files with 2461 additions and 2345 deletions

2
externals/CodeGen vendored

@ -1 +1 @@
Subproject commit 42038000181a5fa5b92f2abfb74d91b7bec25040
Subproject commit 8847ab12160ef22174e79b64f1620c7a1abdb2a6

2
externals/LibCommon vendored

@ -1 +1 @@
Subproject commit 4917932573b3e6539113886c537a473550d3bbff
Subproject commit 47d83075e0fb20786ad28c2e945a204ed1837856

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@ -17,7 +17,7 @@ void CAudioManager::LoadAssets()
mSfxIdMap.clear();
// Load/sort all audio groups
for (TResourceIterator<eAudioGroup> It(mpProject->ResourceStore()); It; ++It)
for (TResourceIterator<EResourceType::AudioGroup> It(mpProject->ResourceStore()); It; ++It)
{
CAudioGroup *pGroup = (CAudioGroup*) It->Load();
if (pGroup) mAudioGroups.push_back(pGroup);

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@ -26,8 +26,8 @@ void ApplyGeneratedName(CResourceEntry *pEntry, const TString& rkDir, const TStr
ASSERT(pEntry != nullptr);
// Don't overwrite hand-picked names and directories with auto-generated ones
bool HasCustomDir = !pEntry->HasFlag(eREF_AutoResDir);
bool HasCustomName = !pEntry->HasFlag(eREF_AutoResName);
bool HasCustomDir = !pEntry->HasFlag(EResEntryFlag::AutoResDir);
bool HasCustomName = !pEntry->HasFlag(EResEntryFlag::AutoResName);
if (HasCustomDir && HasCustomName) return;
// Determine final directory to use
@ -94,8 +94,8 @@ void GenerateAssetNames(CGameProject *pProj)
for (CResourceIterator It(pStore); It; ++It)
{
bool HasCustomDir = !It->HasFlag(eREF_AutoResDir);
bool HasCustomName = !It->HasFlag(eREF_AutoResName);
bool HasCustomDir = !It->HasFlag(EResEntryFlag::AutoResDir);
bool HasCustomName = !It->HasFlag(EResEntryFlag::AutoResName);
if (HasCustomDir && HasCustomName) continue;
TString NewDir = (HasCustomDir ? It->DirectoryPath() : pStore->DefaultResourceDirPath());
@ -131,7 +131,7 @@ void GenerateAssetNames(CGameProject *pProj)
debugf("Processing worlds");
const TString kWorldsRoot = "Worlds/";
for (TResourceIterator<eWorld> It(pStore); It; ++It)
for (TResourceIterator<EResourceType::World> It(pStore); It; ++It)
{
// Set world name
TResPtr<CWorld> pWorld = It->Load();
@ -245,7 +245,7 @@ void GenerateAssetNames(CGameProject *pProj)
{
CMaterialPass *pPass = pMat->Pass(iPass);
bool IsLightmap = ( (pArea->Game() <= EGame::Echoes && pMat->Options().HasFlag(CMaterial::eLightmap) && iPass == 0) ||
bool IsLightmap = ( (pArea->Game() <= EGame::Echoes && pMat->Options().HasFlag(EMaterialOption::Lightmap) && iPass == 0) ||
(pArea->Game() >= EGame::CorruptionProto && pPass->Type() == "DIFF") );
bool IsBloomLightmap = (pArea->Game() >= EGame::CorruptionProto && pPass->Type() == "BLOL");
@ -398,7 +398,7 @@ void GenerateAssetNames(CGameProject *pProj)
// Generate Model Lightmap names
debugf("Processing model lightmaps");
for (TResourceIterator<eModel> It(pStore); It; ++It)
for (TResourceIterator<EResourceType::Model> It(pStore); It; ++It)
{
CModel *pModel = (CModel*) It->Load();
uint32 LightmapNum = 0;
@ -415,7 +415,7 @@ void GenerateAssetNames(CGameProject *pProj)
{
CMaterialPass *pPass = pMat->Pass(iPass);
bool IsLightmap = ( (pMat->Version() <= EGame::Echoes && pMat->Options().HasFlag(CMaterial::eLightmap) && iPass == 0) ||
bool IsLightmap = ( (pMat->Version() <= EGame::Echoes && pMat->Options().HasFlag(EMaterialOption::Lightmap) && iPass == 0) ||
(pMat->Version() >= EGame::CorruptionProto && pPass->Type() == "DIFF") );
if (IsLightmap)
@ -442,7 +442,7 @@ void GenerateAssetNames(CGameProject *pProj)
debugf("Processing audio groups");
const TString kAudioGrpDir = "Audio/";
for (TResourceIterator<eAudioGroup> It(pStore); It; ++It)
for (TResourceIterator<EResourceType::AudioGroup> It(pStore); It; ++It)
{
CAudioGroup *pGroup = (CAudioGroup*) It->Load();
TString GroupName = pGroup->GroupName();
@ -455,7 +455,7 @@ void GenerateAssetNames(CGameProject *pProj)
debugf("Processing audio macros");
const TString kSfxDir = "Audio/Uncategorized/";
for (TResourceIterator<eAudioMacro> It(pStore); It; ++It)
for (TResourceIterator<EResourceType::AudioMacro> It(pStore); It; ++It)
{
CAudioMacro *pMacro = (CAudioMacro*) It->Load();
TString MacroName = pMacro->MacroName();
@ -485,7 +485,9 @@ void GenerateAssetNames(CGameProject *pProj)
// Generate animation format names
// Hacky syntax because animsets are under eAnimSet in MP1/2 and eCharacter in MP3/DKCR
debugf("Processing animation data");
CResourceIterator *pIter = (pProj->Game() <= EGame::Echoes ? (CResourceIterator*) new TResourceIterator<eAnimSet> : (CResourceIterator*) new TResourceIterator<eCharacter>);
CResourceIterator *pIter = (pProj->Game() <= EGame::Echoes ?
(CResourceIterator*) new TResourceIterator<EResourceType::AnimSet> :
(CResourceIterator*) new TResourceIterator<EResourceType::Character>);
CResourceIterator& It = *pIter;
for (; It; ++It)
@ -523,10 +525,10 @@ void GenerateAssetNames(CGameProject *pProj)
if (rkOverlay.ModelID.IsValid() || rkOverlay.SkinID.IsValid())
{
TString TypeName = (
rkOverlay.Type == eOT_Frozen ? "frozen" :
rkOverlay.Type == eOT_Acid ? "acid" :
rkOverlay.Type == eOT_Hypermode ? "hypermode" :
rkOverlay.Type == eOT_XRay ? "xray" :
rkOverlay.Type == EOverlayType::Frozen ? "frozen" :
rkOverlay.Type == EOverlayType::Acid ? "acid" :
rkOverlay.Type == EOverlayType::Hypermode ? "hypermode" :
rkOverlay.Type == EOverlayType::XRay ? "xray" :
""
);
ASSERT(TypeName != "");
@ -576,7 +578,7 @@ void GenerateAssetNames(CGameProject *pProj)
debugf("Processing strings");
const TString kStringsDir = "Strings/Uncategorized/";
for (TResourceIterator<eStringTable> It(pStore); It; ++It)
for (TResourceIterator<EResourceType::StringTable> It(pStore); It; ++It)
{
if (It->IsNamed()) continue;
CStringTable *pString = (CStringTable*) It->Load();
@ -601,7 +603,7 @@ void GenerateAssetNames(CGameProject *pProj)
#if PROCESS_SCANS
// Generate scan names
debugf("Processing scans");
for (TResourceIterator<eScan> It(pStore); It; ++It)
for (TResourceIterator<EResourceType::Scan> It(pStore); It; ++It)
{
if (It->IsNamed()) continue;
CScan *pScan = (CScan*) It->Load();
@ -641,7 +643,7 @@ void GenerateAssetNames(CGameProject *pProj)
#if PROCESS_FONTS
// Generate font names
debugf("Processing fonts");
for (TResourceIterator<eFont> It(pStore); It; ++It)
for (TResourceIterator<EResourceType::Font> It(pStore); It; ++It)
{
CFont *pFont = (CFont*) It->Load();

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@ -19,8 +19,8 @@ bool CAssetNameMap::LoadAssetNames(TString Path /*= ""*/)
else
{
debugf("Failed to load asset names; expected %s IDs, got %s",
mIDLength == e32Bit ? "32-bit" : "64-bit",
FileIDLength == e32Bit ? "32-bit" : "64-bit" );
mIDLength == k32Bit ? "32-bit" : "64-bit",
FileIDLength == k32Bit ? "32-bit" : "64-bit" );
return false;
}
}
@ -36,7 +36,7 @@ bool CAssetNameMap::SaveAssetNames(TString Path /*= ""*/)
if (Path.IsEmpty())
Path = DefaultNameMapPath(mIDLength);
EGame Game = (mIDLength == e32Bit ? EGame::Prime : EGame::Corruption);
EGame Game = (mIDLength == k32Bit ? EGame::Prime : EGame::Corruption);
CXMLWriter Writer(Path, "AssetNameMap", 0, Game);
Serialize(Writer);
return Writer.Save();
@ -58,7 +58,7 @@ bool CAssetNameMap::GetNameInfo(CAssetID ID, TString& rOutDirectory, TString& rO
else
{
EGame Game = (ID.Length() == e32Bit ? EGame::Prime : EGame::Corruption);
EGame Game = (ID.Length() == k32Bit ? EGame::Prime : EGame::Corruption);
rOutDirectory = CResourceStore::StaticDefaultResourceDirPath(Game);
rOutName = ID.ToString();
rOutAutoGenDir = true;
@ -99,8 +99,8 @@ void CAssetNameMap::CopyFromStore(CResourceStore *pStore /*= gpResourceStore*/)
TString Name = It->Name();
TString Directory = It->Directory()->FullPath();
CFourCC Type = It->CookedExtension();
bool AutoName = It->HasFlag(eREF_AutoResName);
bool AutoDir = It->HasFlag(eREF_AutoResDir);
bool AutoName = It->HasFlag(EResEntryFlag::AutoResName);
bool AutoDir = It->HasFlag(EResEntryFlag::AutoResDir);
SAssetNameInfo NameInfo { Name, Directory, Type, AutoName, AutoDir };
// Check for conflicts with new name
@ -193,8 +193,8 @@ void CAssetNameMap::PostLoadValidate()
TString CAssetNameMap::DefaultNameMapPath(EIDLength IDLength)
{
ASSERT(IDLength != eInvalidIDLength);
TString Suffix = (IDLength == e32Bit ? "32" : "64");
ASSERT(IDLength != kInvalidIDLength);
TString Suffix = (IDLength == k32Bit ? "32" : "64");
return gkAssetMapPath + Suffix + "." + gkAssetMapExt;
}

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@ -56,8 +56,8 @@ class CAssetNameMap
void PostLoadValidate();
public:
CAssetNameMap(EIDLength IDLength) : mIsValid(true), mIDLength(IDLength) { ASSERT(mIDLength != eInvalidIDLength); }
CAssetNameMap(EGame Game) : mIsValid(true), mIDLength( CAssetID::GameIDLength(Game) ) { ASSERT(mIDLength != eInvalidIDLength); }
CAssetNameMap(EIDLength IDLength) : mIsValid(true), mIDLength(IDLength) { ASSERT(mIDLength != kInvalidIDLength); }
CAssetNameMap(EGame Game) : mIsValid(true), mIDLength( CAssetID::GameIDLength(Game) ) { ASSERT(mIDLength != kInvalidIDLength); }
bool LoadAssetNames(TString Path = "");
bool SaveAssetNames(TString Path = "");
bool GetNameInfo(CAssetID ID, TString& rOutDirectory, TString& rOutName, bool& rOutAutoGenDir, bool& rOutAutoGenName);

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@ -35,15 +35,15 @@ IDependencyNode* IDependencyNode::ArchiveConstructor(EDependencyNodeType Type)
{
switch (Type)
{
case eDNT_DependencyTree: return new CDependencyTree;
case eDNT_ResourceDependency: return new CResourceDependency;
case eDNT_ScriptInstance: return new CScriptInstanceDependency;
case eDNT_ScriptProperty: return new CPropertyDependency;
case eDNT_CharacterProperty: return new CCharPropertyDependency;
case eDNT_SetCharacter: return new CSetCharacterDependency;
case eDNT_SetAnimation: return new CSetAnimationDependency;
case eDNT_AnimEvent: return new CAnimEventDependency;
case eDNT_Area: return new CAreaDependencyTree;
case EDependencyNodeType::DependencyTree: return new CDependencyTree;
case EDependencyNodeType::Resource: return new CResourceDependency;
case EDependencyNodeType::ScriptInstance: return new CScriptInstanceDependency;
case EDependencyNodeType::ScriptProperty: return new CPropertyDependency;
case EDependencyNodeType::CharacterProperty: return new CCharPropertyDependency;
case EDependencyNodeType::SetCharacter: return new CSetCharacterDependency;
case EDependencyNodeType::SetAnimation: return new CSetAnimationDependency;
case EDependencyNodeType::AnimEvent: return new CAnimEventDependency;
case EDependencyNodeType::Area: return new CAreaDependencyTree;
default: ASSERT(false); return nullptr;
}
}
@ -51,7 +51,7 @@ IDependencyNode* IDependencyNode::ArchiveConstructor(EDependencyNodeType Type)
// ************ CDependencyTree ************
EDependencyNodeType CDependencyTree::Type() const
{
return eDNT_DependencyTree;
return EDependencyNodeType::DependencyTree;
}
void CDependencyTree::Serialize(IArchive& rArc)
@ -90,7 +90,7 @@ void CDependencyTree::AddCharacterDependency(const CAnimationParameters& rkAnimP
// ************ CResourceDependency ************
EDependencyNodeType CResourceDependency::Type() const
{
return eDNT_ResourceDependency;
return EDependencyNodeType::Resource;
}
void CResourceDependency::Serialize(IArchive& rArc)
@ -111,7 +111,7 @@ bool CResourceDependency::HasDependency(const CAssetID& rkID) const
// ************ CPropertyDependency ************
EDependencyNodeType CPropertyDependency::Type() const
{
return eDNT_ScriptProperty;
return EDependencyNodeType::ScriptProperty;
}
void CPropertyDependency::Serialize(IArchive& rArc)
@ -123,7 +123,7 @@ void CPropertyDependency::Serialize(IArchive& rArc)
// ************ CCharacterPropertyDependency ************
EDependencyNodeType CCharPropertyDependency::Type() const
{
return eDNT_CharacterProperty;
return EDependencyNodeType::CharacterProperty;
}
void CCharPropertyDependency::Serialize(IArchive& rArc)
@ -135,7 +135,7 @@ void CCharPropertyDependency::Serialize(IArchive& rArc)
// ************ CScriptInstanceDependency ************
EDependencyNodeType CScriptInstanceDependency::Type() const
{
return eDNT_ScriptInstance;
return EDependencyNodeType::ScriptInstance;
}
void CScriptInstanceDependency::Serialize(IArchive& rArc)
@ -222,7 +222,7 @@ void CScriptInstanceDependency::ParseStructDependencies(CScriptInstanceDependenc
// ************ CSetCharacterDependency ************
EDependencyNodeType CSetCharacterDependency::Type() const
{
return eDNT_SetCharacter;
return EDependencyNodeType::SetCharacter;
}
void CSetCharacterDependency::Serialize(IArchive& rArc)
@ -267,7 +267,7 @@ CSetCharacterDependency* CSetCharacterDependency::BuildTree(const SSetCharacter&
// ************ CSetAnimationDependency ************
EDependencyNodeType CSetAnimationDependency::Type() const
{
return eDNT_SetAnimation;
return EDependencyNodeType::SetAnimation;
}
void CSetAnimationDependency::Serialize(IArchive& rArc)
@ -313,7 +313,7 @@ CSetAnimationDependency* CSetAnimationDependency::BuildTree(const CAnimSet *pkOw
// ************ CAnimEventDependency ************
EDependencyNodeType CAnimEventDependency::Type() const
{
return eDNT_AnimEvent;
return EDependencyNodeType::AnimEvent;
}
void CAnimEventDependency::Serialize(IArchive& rArc)
@ -325,7 +325,7 @@ void CAnimEventDependency::Serialize(IArchive& rArc)
// ************ CAreaDependencyTree ************
EDependencyNodeType CAreaDependencyTree::Type() const
{
return eDNT_Area;
return EDependencyNodeType::Area;
}
void CAreaDependencyTree::Serialize(IArchive& rArc)
@ -379,7 +379,7 @@ void CAreaDependencyTree::GetModuleDependencies(EGame Game, std::vector<TString>
for (uint32 iInst = StartIdx; iInst < EndIdx; iInst++)
{
IDependencyNode *pNode = mChildren[iInst];
if (pNode->Type() != eDNT_ScriptInstance) continue;
if (pNode->Type() != EDependencyNodeType::ScriptInstance) continue;
CScriptInstanceDependency *pInst = static_cast<CScriptInstanceDependency*>(pNode);
uint32 ObjType = pInst->ObjectType();

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@ -14,17 +14,17 @@ class CAnimationParameters;
struct SSetCharacter;
// Group of node classes forming a tree of cached resource dependencies.
enum EDependencyNodeType
enum class EDependencyNodeType
{
eDNT_DependencyTree = FOURCC('TREE'),
eDNT_ResourceDependency = FOURCC('RSDP'),
eDNT_ScriptInstance = FOURCC('SCIN'),
eDNT_ScriptProperty = FOURCC('SCPR'),
eDNT_CharacterProperty = FOURCC('CRPR'),
eDNT_SetCharacter = FOURCC('SCHR'),
eDNT_SetAnimation = FOURCC('SANM'),
eDNT_AnimEvent = FOURCC('EVNT'),
eDNT_Area = FOURCC('AREA'),
DependencyTree = FOURCC('TREE'),
Resource = FOURCC('RSDP'),
ScriptInstance = FOURCC('SCIN'),
ScriptProperty = FOURCC('SCPR'),
CharacterProperty = FOURCC('CRPR'),
SetCharacter = FOURCC('SCHR'),
SetAnimation = FOURCC('SANM'),
AnimEvent = FOURCC('EVNT'),
Area = FOURCC('AREA'),
};
// Base class providing an interface for a basic dependency node.

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@ -100,7 +100,7 @@ void CGameExporter::LoadResource(const CAssetID& rkID, std::vector<uint8>& rBuff
bool CGameExporter::ShouldExportDiscNode(const nod::Node *pkNode, bool IsInRoot)
{
if (IsInRoot && mDiscType != eDT_Normal)
if (IsInRoot && mDiscType != EDiscType::Normal)
{
// Directories - exclude the filesystem for other games
if (pkNode->getKind() == nod::Node::Kind::Directory)
@ -115,15 +115,15 @@ bool CGameExporter::ShouldExportDiscNode(const nod::Node *pkNode, bool IsInRoot)
switch (mGame)
{
case EGame::Prime:
return ( (mDiscType == eDT_WiiDeAsobu && pkNode->getName() == "MP1JPN") ||
(mDiscType == eDT_Trilogy && pkNode->getName() == "MP1") );
return ( (mDiscType == EDiscType::WiiDeAsobu && pkNode->getName() == "MP1JPN") ||
(mDiscType == EDiscType::Trilogy && pkNode->getName() == "MP1") );
case EGame::Echoes:
return ( (mDiscType == eDT_WiiDeAsobu && pkNode->getName() == "MP2JPN") ||
(mDiscType == eDT_Trilogy && pkNode->getName() == "MP2") );
return ( (mDiscType == EDiscType::WiiDeAsobu && pkNode->getName() == "MP2JPN") ||
(mDiscType == EDiscType::Trilogy && pkNode->getName() == "MP2") );
case EGame::Corruption:
return (mDiscType == eDT_Trilogy && pkNode->getName() == "MP3");
return (mDiscType == EDiscType::Trilogy && pkNode->getName() == "MP3");
default:
return false;
@ -143,15 +143,15 @@ bool CGameExporter::ShouldExportDiscNode(const nod::Node *pkNode, bool IsInRoot)
switch (mGame)
{
case EGame::Prime:
return ( (mDiscType == eDT_WiiDeAsobu && pkNode->getName() == "rs5mp1jpn_p.dol") ||
(mDiscType == eDT_Trilogy && pkNode->getName() == "rs5mp1_p.dol") );
return ( (mDiscType == EDiscType::WiiDeAsobu && pkNode->getName() == "rs5mp1jpn_p.dol") ||
(mDiscType == EDiscType::Trilogy && pkNode->getName() == "rs5mp1_p.dol") );
case EGame::Echoes:
return ( (mDiscType == eDT_WiiDeAsobu && pkNode->getName() == "rs5mp2jpn_p.dol") ||
(mDiscType == eDT_Trilogy && pkNode->getName() == "rs5mp2_p.dol") );
return ( (mDiscType == EDiscType::WiiDeAsobu && pkNode->getName() == "rs5mp2jpn_p.dol") ||
(mDiscType == EDiscType::Trilogy && pkNode->getName() == "rs5mp2_p.dol") );
case EGame::Corruption:
return (mDiscType == eDT_Trilogy && pkNode->getName() == "rs5mp3_p.dol");
return (mDiscType == EDiscType::Trilogy && pkNode->getName() == "rs5mp3_p.dol");
default:
return false;
@ -232,7 +232,7 @@ bool CGameExporter::ExtractDiscNodeRecursive(const nod::Node *pkNode, const TStr
if (FilePath.GetFileExtension().CaseInsensitiveCompare("pak"))
{
// For multi-game Wii discs, don't track packages for frontend unless we're exporting frontend
if (mDiscType == eDT_Normal || mFrontEnd || pkNode->getName() != "fe")
if (mDiscType == EDiscType::Normal || mFrontEnd || pkNode->getName() != "fe")
mPaks.push_back(FilePath);
}
}
@ -264,7 +264,7 @@ void CGameExporter::LoadPaks()
for (auto It = mPaks.begin(); It != mPaks.end(); It++)
{
TString PakPath = *It;
CFileInStream Pak(PakPath, IOUtil::eBigEndian);
CFileInStream Pak(PakPath, EEndian::BigEndian);
if (!Pak.IsValid())
{
@ -427,7 +427,7 @@ void CGameExporter::LoadPaks()
void CGameExporter::LoadResource(const SResourceInstance& rkResource, std::vector<uint8>& rBuffer)
{
CFileInStream Pak(rkResource.PakFile, IOUtil::eBigEndian);
CFileInStream Pak(rkResource.PakFile, EEndian::BigEndian);
if (Pak.IsValid())
{
@ -559,13 +559,13 @@ void CGameExporter::ExportResourceEditorData()
for (CResourceIterator It(mpStore); It && !mpProgress->ShouldCancel(); ++It, ++ResIndex)
{
// Update progress
if ((ResIndex & 0x3) == 0 || It->ResourceType() == eArea)
if ((ResIndex & 0x3) == 0 || It->ResourceType() == EResourceType::Area)
mpProgress->Report(ResIndex, mpStore->NumTotalResources(), TString::Format("Processing asset %d/%d: %s",
ResIndex, mpStore->NumTotalResources(), *It->CookedAssetPath(true).GetFileName()) );
// Worlds need some info we can only get from the pak at export time; namely, which areas can
// have duplicates, as well as the world's internal name.
if (It->ResourceType() == eWorld)
if (It->ResourceType() == EResourceType::World)
{
CWorld *pWorld = (CWorld*) It->Load();
@ -629,15 +629,15 @@ void CGameExporter::ExportResource(SResourceInstance& rRes)
CResourceEntry *pEntry = mpStore->RegisterResource(rRes.ResourceID, CResTypeInfo::TypeForCookedExtension(mGame, rRes.ResourceType)->Type(), Directory, Name);
// Set flags
pEntry->SetFlag(eREF_IsBaseGameResource);
pEntry->SetFlagEnabled(eREF_AutoResDir, AutoDir);
pEntry->SetFlagEnabled(eREF_AutoResName, AutoName);
pEntry->SetFlag(EResEntryFlag::IsBaseGameResource);
pEntry->SetFlagEnabled(EResEntryFlag::AutoResDir, AutoDir);
pEntry->SetFlagEnabled(EResEntryFlag::AutoResName, AutoName);
#if EXPORT_COOKED
// Save cooked asset
TString OutCookedPath = pEntry->CookedAssetPath();
FileUtil::MakeDirectory(OutCookedPath.GetFileDirectory());
CFileOutStream Out(OutCookedPath, IOUtil::eBigEndian);
CFileOutStream Out(OutCookedPath, EEndian::BigEndian);
if (Out.IsValid())
Out.WriteBytes(ResourceData.data(), ResourceData.size());
@ -652,7 +652,7 @@ void CGameExporter::ExportResource(SResourceInstance& rRes)
TString CGameExporter::MakeWorldName(CAssetID WorldID)
{
CResourceEntry *pWorldEntry = mpStore->FindEntry(WorldID);
ASSERT(pWorldEntry && pWorldEntry->ResourceType() == eWorld);
ASSERT(pWorldEntry && pWorldEntry->ResourceType() == EResourceType::World);
// Find the original world name in the package resource names
TString WorldName;

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@ -11,11 +11,11 @@
#include <map>
#include <nod/nod.hpp>
enum EDiscType
enum class EDiscType
{
eDT_Normal,
eDT_WiiDeAsobu,
eDT_Trilogy
Normal,
WiiDeAsobu,
Trilogy
};
class CGameExporter

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@ -26,7 +26,7 @@ bool CGameProject::Save()
{
mProjFileLock.Release();
TString ProjPath = ProjectPath();
CXMLWriter Writer(ProjPath, "GameProject", eVer_Current, mGame);
CXMLWriter Writer(ProjPath, "GameProject", (int) EProjectVersion::Current, mGame);
Serialize(Writer);
bool SaveSuccess = Writer.Save();
mProjFileLock.Lock(*ProjPath);

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@ -15,6 +15,15 @@
namespace nod { class DiscWii; }
enum class EProjectVersion
{
Initial,
// Add new versions before this line
Max,
Current = EProjectVersion::Max - 1
};
class CGameProject
{
TString mProjectName;
@ -33,14 +42,6 @@ class CGameProject
// in multiple instances of PWE
CFileLock mProjFileLock;
enum EProjectVersion
{
eVer_Initial,
eVer_Max,
eVer_Current = eVer_Max - 1
};
// Private Constructor
CGameProject()
: mProjectName("Unnamed Project")

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@ -7,7 +7,7 @@ COpeningBanner::COpeningBanner(CGameProject *pProj)
mWii = mpProj->IsWiiBuild();
TString BannerPath = mpProj->DiscFilesystemRoot(false) + "opening.bnr";
CFileInStream Banner(BannerPath, IOUtil::eBigEndian);
CFileInStream Banner(BannerPath, EEndian::BigEndian);
if (Banner.IsValid())
{
@ -20,7 +20,7 @@ TString COpeningBanner::EnglishGameName() const
{
// opening.bnr stores the game name in a fixed-length buffer. Need to account for
// this and prevent the string-reading function from overrunning the buffer
CMemoryInStream Banner(mBannerData.data(), mBannerData.size(), IOUtil::eBigEndian);
CMemoryInStream Banner(mBannerData.data(), mBannerData.size(), EEndian::BigEndian);
uint32 CharSize = mWii ? 2 : 1;
uint32 MaxLen = MaxGameNameLength();
@ -29,13 +29,13 @@ TString COpeningBanner::EnglishGameName() const
Banner.GoTo( mWii ? 0xB0 : 0x1860 );
Banner.ReadBytes(NameBuffer.data(), MaxLen * CharSize);
Banner.SetData(NameBuffer.data(), NameBuffer.size(), IOUtil::eBigEndian);
Banner.SetData(NameBuffer.data(), NameBuffer.size(), EEndian::BigEndian);
return mWii ? Banner.ReadWString().ToUTF8() : Banner.ReadString();
}
void COpeningBanner::SetEnglishGameName(const TString& rkName)
{
CMemoryOutStream Banner(mBannerData.data(), mBannerData.size(), IOUtil::eBigEndian);
CMemoryOutStream Banner(mBannerData.data(), mBannerData.size(), EEndian::BigEndian);
uint32 PadCount = 0;
uint32 MaxLen = MaxGameNameLength();
@ -61,7 +61,7 @@ void COpeningBanner::SetEnglishGameName(const TString& rkName)
void COpeningBanner::Save()
{
TString BannerPath = mpProj->DiscFilesystemRoot(false) + "opening.bnr";
CFileOutStream Banner(BannerPath, IOUtil::eBigEndian);
CFileOutStream Banner(BannerPath, EEndian::BigEndian);
Banner.WriteBytes(mBannerData.data(), mBannerData.size());
}

View File

@ -73,7 +73,7 @@ void CPackage::Cook(IProgressNotifier *pProgress)
// Write new pak
TString PakPath = CookedPackagePath(false);
CFileOutStream Pak(PakPath, IOUtil::eBigEndian);
CFileOutStream Pak(PakPath, EEndian::BigEndian);
if (!Pak.IsValid())
{
@ -191,7 +191,7 @@ void CPackage::Cook(IProgressNotifier *pProgress)
rTableInfo.Offset = (Game <= EGame::Echoes ? AssetOffset : AssetOffset - ResDataOffset);
// Load resource data
CFileInStream CookedAsset(pEntry->CookedAssetPath(), IOUtil::eBigEndian);
CFileInStream CookedAsset(pEntry->CookedAssetPath(), EEndian::BigEndian);
ASSERT(CookedAsset.IsValid());
uint32 ResourceSize = CookedAsset.Size();
@ -200,24 +200,28 @@ void CPackage::Cook(IProgressNotifier *pProgress)
// Check if this asset should be compressed; there are a few resource types that are
// always compressed, and some types that are compressed if they're over a certain size
EResType Type = pEntry->ResourceType();
EResourceType Type = pEntry->ResourceType();
uint32 CompressThreshold = (Game <= EGame::CorruptionProto ? 0x400 : 0x80);
bool ShouldAlwaysCompress = (Type == eTexture || Type == eModel || Type == eSkin ||
Type == eAnimSet || Type == eAnimation || Type == eFont);
bool ShouldAlwaysCompress = (Type == EResourceType::Texture || Type == EResourceType::Model ||
Type == EResourceType::Skin || Type == EResourceType::AnimSet ||
Type == EResourceType::Animation || Type == EResourceType::Font);
if (Game >= EGame::Corruption)
{
ShouldAlwaysCompress = ShouldAlwaysCompress ||
(Type == eCharacter || Type == eSourceAnimData || Type == eScan ||
Type == eAudioSample || Type == eStringTable || Type == eAudioAmplitudeData ||
Type == eDynamicCollision);
(Type == EResourceType::Character || Type == EResourceType::SourceAnimData ||
Type == EResourceType::Scan || Type == EResourceType::AudioSample ||
Type == EResourceType::StringTable || Type == EResourceType::AudioAmplitudeData ||
Type == EResourceType::DynamicCollision);
}
bool ShouldCompressConditional = !ShouldAlwaysCompress &&
(Type == eParticle || Type == eParticleElectric || Type == eParticleSwoosh ||
Type == eParticleWeapon || Type == eParticleDecal || Type == eParticleCollisionResponse ||
Type == eParticleSpawn || Type == eParticleSorted || Type == eBurstFireData);
(Type == EResourceType::Particle || Type == EResourceType::ParticleElectric ||
Type == EResourceType::ParticleSwoosh || Type == EResourceType::ParticleWeapon ||
Type == EResourceType::ParticleDecal || Type == EResourceType::ParticleCollisionResponse ||
Type == EResourceType::ParticleSpawn || Type == EResourceType::ParticleSorted ||
Type == EResourceType::BurstFireData);
bool ShouldCompress = ShouldAlwaysCompress || (ShouldCompressConditional && ResourceSize >= CompressThreshold);
@ -342,7 +346,7 @@ void CPackage::CompareOriginalAssetList(const std::list<CAssetID>& rkNewList)
// Read the original pak
TString CookedPath = CookedPackagePath(false);
CFileInStream Pak(CookedPath, IOUtil::eBigEndian);
CFileInStream Pak(CookedPath, EEndian::BigEndian);
if (!Pak.IsValid() || Pak.Size() == 0)
{
@ -373,7 +377,7 @@ void CPackage::CompareOriginalAssetList(const std::list<CAssetID>& rkNewList)
for (uint32 iRes = 0; iRes < NumResources; iRes++)
{
Pak.Seek(0x8, SEEK_CUR);
OldListSet.insert( CAssetID(Pak, e32Bit) );
OldListSet.insert( CAssetID(Pak, k32Bit) );
Pak.Seek(0x8, SEEK_CUR);
}
}
@ -397,7 +401,7 @@ void CPackage::CompareOriginalAssetList(const std::list<CAssetID>& rkNewList)
for (uint32 iRes = 0; iRes < NumResources; iRes++)
{
Pak.Seek(0x8, SEEK_CUR);
OldListSet.insert( CAssetID(Pak, e64Bit) );
OldListSet.insert( CAssetID(Pak, k64Bit) );
Pak.Seek(0x8, SEEK_CUR);
}
}

View File

@ -9,6 +9,15 @@
class CGameProject;
enum class EPackageDefinitionVersion
{
Initial,
// Add new versions before this line
Max,
Current = EPackageDefinitionVersion::Max - 1
};
struct SNamedResource
{
TString Name;
@ -35,14 +44,6 @@ class CPackage
mutable bool mCacheDirty;
mutable std::set<CAssetID> mCachedDependencies;
enum EPackageDefinitionVersion
{
eVer_Initial,
eVer_Max,
eVer_Current = eVer_Max - 1
};
public:
CPackage() {}

View File

@ -24,7 +24,7 @@ CResourceEntry::CResourceEntry(CResourceStore *pStore)
// Static constructors
CResourceEntry* CResourceEntry::CreateNewResource(CResourceStore *pStore, const CAssetID& rkID,
const TString& rkDir, const TString& rkName,
EResType Type)
EResourceType Type)
{
// Initialize all entry info with the input data.
CResourceEntry *pEntry = new CResourceEntry(pStore);
@ -257,7 +257,7 @@ bool CResourceEntry::NeedsRecook() const
// toggled to arbitrarily flag any asset for recook.
if (!HasRawVersion()) return false;
if (!HasCookedVersion()) return true;
if (HasFlag(eREF_NeedsRecook)) return true;
if (HasFlag(EResEntryFlag::NeedsRecook)) return true;
return (FileUtil::LastModifiedTime(CookedAssetPath()) < FileUtil::LastModifiedTime(RawAssetPath()));
}
@ -298,7 +298,7 @@ bool CResourceEntry::Save(bool SkipCacheSave /*= false*/)
return false;
}
SetFlag(eREF_NeedsRecook);
SetFlag(EResEntryFlag::NeedsRecook);
}
// This resource type doesn't have a raw format; save cooked instead
@ -314,7 +314,7 @@ bool CResourceEntry::Save(bool SkipCacheSave /*= false*/)
}
// Resource has been saved; now make sure metadata, dependencies, and packages are all up to date
SetFlag(eREF_HasBeenModified);
SetFlag(EResEntryFlag::HasBeenModified);
SaveMetadata();
UpdateDependencies();
@ -348,7 +348,7 @@ bool CResourceEntry::Cook()
FileUtil::MakeDirectory(Dir);
// Attempt to open output cooked file
CFileOutStream File(Path, IOUtil::eBigEndian);
CFileOutStream File(Path, EEndian::BigEndian);
if (!File.IsValid())
{
errorf("Failed to open cooked file for writing: %s", *Path);
@ -359,8 +359,8 @@ bool CResourceEntry::Cook()
if (Success)
{
ClearFlag(eREF_NeedsRecook);
SetFlag(eREF_HasBeenModified);
ClearFlag(EResEntryFlag::NeedsRecook);
SetFlag(EResEntryFlag::HasBeenModified);
SaveMetadata();
}
@ -409,7 +409,7 @@ CResource* CResourceEntry::Load()
ASSERT(!mpResource);
if (HasCookedVersion())
{
CFileInStream File(CookedAssetPath(), IOUtil::eBigEndian);
CFileInStream File(CookedAssetPath(), EEndian::BigEndian);
if (!File.IsValid())
{
@ -571,12 +571,12 @@ bool CResourceEntry::MoveAndRename(const TString& rkDir, const TString& rkName,
FSMoveSuccess = pOldDir->RemoveChildResource(this);
ASSERT(FSMoveSuccess == true); // this shouldn't be able to fail
mpDirectory->AddChild("", this);
SetFlagEnabled(eREF_AutoResDir, IsAutoGenDir);
SetFlagEnabled(EResEntryFlag::AutoResDir, IsAutoGenDir);
}
if (mName != OldName)
{
SetFlagEnabled(eREF_AutoResName, IsAutoGenName);
SetFlagEnabled(EResEntryFlag::AutoResName, IsAutoGenName);
}
mpStore->SetCacheDirty();

View File

@ -13,14 +13,14 @@ class CResource;
class CGameProject;
class CDependencyTree;
enum EResEntryFlag
enum class EResEntryFlag
{
eREF_NeedsRecook = 0x00000001, // Resource has been updated but not recooked
eREF_IsBaseGameResource = 0x00000002, // Resource is from the original game, not user-created
eREF_Hidden = 0x00000004, // Resource is hidden, doesn't show up in resource browser
eREF_HasBeenModified = 0x00000008, // Resource has been modified and resaved by the user
eREF_AutoResName = 0x00000010, // Resource name is auto-generated
eREF_AutoResDir = 0x00000020, // Resource directory name is auto-generated
NeedsRecook = 0x00000001, // Resource has been updated but not recooked
IsBaseGameResource = 0x00000002, // Resource is from the original game, not user-created
Hidden = 0x00000004, // Resource is hidden, doesn't show up in resource browser
HasBeenModified = 0x00000008, // Resource has been modified and resaved by the user
AutoResName = 0x00000010, // Resource name is auto-generated
AutoResDir = 0x00000020, // Resource directory name is auto-generated
};
DECLARE_FLAGS(EResEntryFlag, FResEntryFlags)
@ -45,7 +45,7 @@ class CResourceEntry
public:
static CResourceEntry* CreateNewResource(CResourceStore *pStore, const CAssetID& rkID,
const TString& rkDir, const TString& rkName,
EResType Type);
EResourceType Type);
static CResourceEntry* BuildFromArchive(CResourceStore *pStore, IArchive& rArc);
static CResourceEntry* BuildFromDirectory(CResourceStore *pStore, CResTypeInfo *pTypeInfo,
const TString& rkDirPath, const TString& rkName);
@ -86,10 +86,10 @@ public:
// Accessors
inline void SetFlagEnabled(EResEntryFlag Flag, bool Enabled) { Enabled ? SetFlag(Flag) : ClearFlag(Flag); }
inline void SetDirty() { SetFlag(eREF_NeedsRecook); }
inline void SetHidden(bool Hidden) { Hidden ? SetFlag(eREF_Hidden) : ClearFlag(eREF_Hidden); }
inline void SetDirty() { SetFlag(EResEntryFlag::NeedsRecook); }
inline void SetHidden(bool Hidden) { Hidden ? SetFlag(EResEntryFlag::Hidden) : ClearFlag(EResEntryFlag::Hidden); }
inline bool HasFlag(EResEntryFlag Flag) const { return mFlags.HasFlag(Flag); }
inline bool IsHidden() const { return HasFlag(eREF_Hidden); }
inline bool IsHidden() const { return HasFlag(EResEntryFlag::Hidden); }
inline bool IsLoaded() const { return mpResource != nullptr; }
inline bool IsCategorized() const { return mpDirectory && !mpDirectory->FullPath().CaseInsensitiveCompare( mpStore->DefaultResourceDirPath() ); }
@ -103,7 +103,7 @@ public:
inline TString DirectoryPath() const { return mpDirectory->FullPath(); }
inline TString Name() const { return mName; }
inline const TString& UppercaseName() const { return mCachedUppercaseName; }
inline EResType ResourceType() const { return mpTypeInfo->Type(); }
inline EResourceType ResourceType() const { return mpTypeInfo->Type(); }
protected:
CResource* InternalLoad(IInputStream& rInput);

View File

@ -66,7 +66,7 @@ public:
}
};
template<EResType ResType>
template<EResourceType ResType>
class TResourceIterator : public CResourceIterator
{
public:

View File

@ -384,7 +384,7 @@ bool CResourceStore::IsResourceRegistered(const CAssetID& rkID) const
return FindEntry(rkID) != nullptr;
}
CResourceEntry* CResourceStore::RegisterResource(const CAssetID& rkID, EResType Type, const TString& rkDir, const TString& rkName)
CResourceEntry* CResourceStore::RegisterResource(const CAssetID& rkID, EResourceType Type, const TString& rkDir, const TString& rkName)
{
CResourceEntry *pEntry = FindEntry(rkID);
@ -424,7 +424,7 @@ CResource* CResourceStore::LoadResource(const CAssetID& rkID)
}
}
CResource* CResourceStore::LoadResource(const CAssetID& rkID, EResType Type)
CResource* CResourceStore::LoadResource(const CAssetID& rkID, EResourceType Type)
{
CResource *pRes = LoadResource(rkID);

View File

@ -14,6 +14,15 @@ class CGameExporter;
class CGameProject;
class CResource;
enum class EDatabaseVersion
{
Initial,
// Add new versions before this line
Max,
Current = EDatabaseVersion::Max - 1
};
class CResourceStore
{
friend class CResourceIterator;
@ -28,14 +37,6 @@ class CResourceStore
// Directory paths
TString mDatabasePath;
enum EDatabaseVersion
{
eVer_Initial,
eVer_Max,
eVer_Current = eVer_Max - 1
};
public:
CResourceStore(const TString& rkDatabasePath);
CResourceStore(CGameProject *pProject);
@ -53,7 +54,7 @@ public:
TString DefaultResourceDirPath() const;
bool IsResourceRegistered(const CAssetID& rkID) const;
CResourceEntry* RegisterResource(const CAssetID& rkID, EResType Type, const TString& rkDir, const TString& rkName);
CResourceEntry* RegisterResource(const CAssetID& rkID, EResourceType Type, const TString& rkDir, const TString& rkName);
CResourceEntry* FindEntry(const CAssetID& rkID) const;
CResourceEntry* FindEntry(const TString& rkPath) const;
bool AreAllEntriesValid() const;
@ -63,7 +64,7 @@ public:
template<typename ResType> ResType* LoadResource(const CAssetID& rkID) { return static_cast<ResType*>(LoadResource(rkID, ResType::StaticType())); }
CResource* LoadResource(const CAssetID& rkID);
CResource* LoadResource(const CAssetID& rkID, EResType Type);
CResource* LoadResource(const CAssetID& rkID, EResourceType Type);
CResource* LoadResource(const TString& rkPath);
void TrackLoadedResource(CResourceEntry *pEntry);
void DestroyUnreferencedResources();

View File

@ -117,14 +117,14 @@ CResourceEntry* CVirtualDirectory::FindChildResource(const TString& rkPath)
else if (!Name.IsEmpty())
{
TString Ext = Name.GetFileExtension();
EResType Type = CResTypeInfo::TypeForCookedExtension(mpStore->Game(), Ext)->Type();
EResourceType Type = CResTypeInfo::TypeForCookedExtension(mpStore->Game(), Ext)->Type();
return FindChildResource(Name.GetFileName(false), Type);
}
return nullptr;
}
CResourceEntry* CVirtualDirectory::FindChildResource(const TString& rkName, EResType Type)
CResourceEntry* CVirtualDirectory::FindChildResource(const TString& rkName, EResourceType Type)
{
for (uint32 iRes = 0; iRes < mResources.size(); iRes++)
{

View File

@ -31,7 +31,7 @@ public:
CVirtualDirectory* GetRoot();
CVirtualDirectory* FindChildDirectory(const TString& rkName, bool AllowCreate);
CResourceEntry* FindChildResource(const TString& rkPath);
CResourceEntry* FindChildResource(const TString& rkName, EResType Type);
CResourceEntry* FindChildResource(const TString& rkName, EResourceType Type);
bool AddChild(const TString& rkPath, CResourceEntry *pEntry);
bool AddChild(CVirtualDirectory *pDir);
bool RemoveChildDirectory(CVirtualDirectory *pSubdir);

View File

@ -35,7 +35,7 @@ void CCharacterUsageMap::FindUsagesForAsset(CResourceEntry *pEntry)
void CCharacterUsageMap::FindUsagesForArea(CWorld *pWorld, CResourceEntry *pEntry)
{
ASSERT(pEntry->ResourceType() == eArea);
ASSERT(pEntry->ResourceType() == EResourceType::Area);
for (uint32 iArea = 0; iArea < pWorld->NumAreas(); iArea++)
{
@ -59,7 +59,7 @@ void CCharacterUsageMap::FindUsagesForArea(CWorld *pWorld, uint32 AreaIndex)
CAssetID AreaID = pWorld->AreaResourceID(iArea);
CResourceEntry *pEntry = mpStore->FindEntry(AreaID);
ASSERT(pEntry && pEntry->ResourceType() == eArea);
ASSERT(pEntry && pEntry->ResourceType() == EResourceType::Area);
ParseDependencyNode(pEntry->Dependencies());
mIsInitialArea = false;
@ -72,7 +72,7 @@ void CCharacterUsageMap::FindUsagesForLayer(CResourceEntry *pAreaEntry, uint32 L
mLayerIndex = LayerIndex;
CAreaDependencyTree *pTree = static_cast<CAreaDependencyTree*>(pAreaEntry->Dependencies());
ASSERT(pTree->Type() == eDNT_Area);
ASSERT(pTree->Type() == EDependencyNodeType::Area);
// Only examine dependencies of the particular layer specified by the caller
bool IsLastLayer = (mLayerIndex == pTree->NumScriptLayers() - 1);
@ -115,7 +115,7 @@ void CCharacterUsageMap::ParseDependencyNode(IDependencyNode *pNode)
{
EDependencyNodeType Type = pNode->Type();
if (Type == eDNT_CharacterProperty)
if (Type == EDependencyNodeType::CharacterProperty)
{
CCharPropertyDependency *pDep = static_cast<CCharPropertyDependency*>(pNode);
CAssetID ResID = pDep->ID();
@ -150,12 +150,12 @@ void CCharacterUsageMap::ParseDependencyNode(IDependencyNode *pNode)
}
// Parse dependencies of the referenced resource if it's a type that can reference animsets
else if (Type == eDNT_ResourceDependency || Type == eDNT_ScriptProperty)
else if (Type == EDependencyNodeType::Resource || Type == EDependencyNodeType::ScriptProperty)
{
CResourceDependency *pDep = static_cast<CResourceDependency*>(pNode);
CResourceEntry *pEntry = mpStore->FindEntry(pDep->ID());
if (pEntry && pEntry->ResourceType() == eScan)
if (pEntry && pEntry->ResourceType() == EResourceType::Scan)
{
ParseDependencyNode(pEntry->Dependencies());
}
@ -206,17 +206,17 @@ void CPackageDependencyListBuilder::BuildDependencyList(bool AllowDuplicates, st
void CPackageDependencyListBuilder::AddDependency(CResourceEntry *pCurEntry, const CAssetID& rkID, std::list<CAssetID>& rOut)
{
if (pCurEntry && pCurEntry->ResourceType() == eDependencyGroup) return;
if (pCurEntry && pCurEntry->ResourceType() == EResourceType::DependencyGroup) return;
CResourceEntry *pEntry = mpStore->FindEntry(rkID);
if (!pEntry) return;
EResType ResType = pEntry->ResourceType();
EResourceType ResType = pEntry->ResourceType();
// Is this entry valid?
bool IsValid = ResType != eMidi &&
(ResType != eAudioGroup || mGame >= EGame::EchoesDemo) &&
(ResType != eWorld || !pCurEntry) &&
(ResType != eArea || !pCurEntry || pCurEntry->ResourceType() == eWorld);
bool IsValid = ResType != EResourceType::Midi &&
(ResType != EResourceType::AudioGroup || mGame >= EGame::EchoesDemo) &&
(ResType != EResourceType::World || !pCurEntry) &&
(ResType != EResourceType::Area || !pCurEntry || pCurEntry->ResourceType() == EResourceType::World);
if (!IsValid) return;
@ -230,7 +230,7 @@ void CPackageDependencyListBuilder::AddDependency(CResourceEntry *pCurEntry, con
mAreaUsedAssets.insert(rkID);
// New area - toggle duplicates and find character usages
if (ResType == eArea)
if (ResType == EResourceType::Area)
{
if (mGame <= EGame::Echoes)
mCharacterUsageMap.FindUsagesForArea(mpWorld, pEntry);
@ -252,7 +252,7 @@ void CPackageDependencyListBuilder::AddDependency(CResourceEntry *pCurEntry, con
}
// Animset - keep track of the current animset ID
else if (ResType == eAnimSet)
else if (ResType == EResourceType::AnimSet)
mCurrentAnimSetID = rkID;
// Evaluate dependencies of this entry
@ -261,11 +261,11 @@ void CPackageDependencyListBuilder::AddDependency(CResourceEntry *pCurEntry, con
rOut.push_back(rkID);
// Revert current animset ID
if (ResType == eAnimSet)
if (ResType == EResourceType::AnimSet)
mCurrentAnimSetID = CAssetID::InvalidID(mGame);
// Revert duplicate flag
else if (ResType == eArea)
else if (ResType == EResourceType::Area)
mCurrentAreaHasDuplicates = false;
}
@ -275,14 +275,14 @@ void CPackageDependencyListBuilder::EvaluateDependencyNode(CResourceEntry *pCurE
bool ParseChildren = false;
// Straight resource dependencies should just be added to the tree directly
if (Type == eDNT_ResourceDependency || Type == eDNT_ScriptProperty || Type == eDNT_CharacterProperty)
if (Type == EDependencyNodeType::Resource || Type == EDependencyNodeType::ScriptProperty || Type == EDependencyNodeType::CharacterProperty)
{
CResourceDependency *pDep = static_cast<CResourceDependency*>(pNode);
AddDependency(pCurEntry, pDep->ID(), rOut);
}
// Anim events should be added if either they apply to characters, or their character index is used
else if (Type == eDNT_AnimEvent)
else if (Type == EDependencyNodeType::AnimEvent)
{
CAnimEventDependency *pDep = static_cast<CAnimEventDependency*>(pNode);
uint32 CharIndex = pDep->CharIndex();
@ -292,14 +292,14 @@ void CPackageDependencyListBuilder::EvaluateDependencyNode(CResourceEntry *pCurE
}
// Set characters should only be added if their character index is used
else if (Type == eDNT_SetCharacter)
else if (Type == EDependencyNodeType::SetCharacter)
{
CSetCharacterDependency *pChar = static_cast<CSetCharacterDependency*>(pNode);
ParseChildren = mCharacterUsageMap.IsCharacterUsed(mCurrentAnimSetID, pChar->CharSetIndex()) || mIsPlayerActor;
}
// Set animations should only be added if they're being used by at least one used character
else if (Type == eDNT_SetAnimation)
else if (Type == EDependencyNodeType::SetAnimation)
{
CSetAnimationDependency *pAnim = static_cast<CSetAnimationDependency*>(pNode);
ParseChildren = mCharacterUsageMap.IsAnimationUsed(mCurrentAnimSetID, pAnim) || (mIsPlayerActor && pAnim->IsUsedByAnyCharacter());
@ -311,7 +311,7 @@ void CPackageDependencyListBuilder::EvaluateDependencyNode(CResourceEntry *pCurE
// Analyze this node's children
if (ParseChildren)
{
if (Type == eDNT_ScriptInstance)
if (Type == EDependencyNodeType::ScriptInstance)
{
uint32 ObjType = static_cast<CScriptInstanceDependency*>(pNode)->ObjectType();
mIsPlayerActor = (ObjType == 0x4C || ObjType == FOURCC('PLAC'));
@ -320,7 +320,7 @@ void CPackageDependencyListBuilder::EvaluateDependencyNode(CResourceEntry *pCurE
for (uint32 iChild = 0; iChild < pNode->NumChildren(); iChild++)
EvaluateDependencyNode(pCurEntry, pNode->ChildByIndex(iChild), rOut);
if (Type == eDNT_ScriptInstance)
if (Type == EDependencyNodeType::ScriptInstance)
mIsPlayerActor = false;
}
}
@ -388,7 +388,7 @@ void CAreaDependencyListBuilder::BuildDependencyList(std::list<CAssetID>& rAsset
for (uint32 iDep = 0; iDep < BaseEndIndex; iDep++)
{
CResourceDependency *pRes = static_cast<CResourceDependency*>(pTree->ChildByIndex(iDep));
ASSERT(pRes->Type() == eDNT_ResourceDependency);
ASSERT(pRes->Type() == EDependencyNodeType::Resource);
mBaseUsedAssets.insert(pRes->ID());
}
@ -407,7 +407,7 @@ void CAreaDependencyListBuilder::BuildDependencyList(std::list<CAssetID>& rAsset
{
IDependencyNode *pNode = pTree->ChildByIndex(iChild);
if (pNode->Type() == eDNT_ScriptInstance)
if (pNode->Type() == EDependencyNodeType::ScriptInstance)
{
CScriptInstanceDependency *pInst = static_cast<CScriptInstanceDependency*>(pNode);
mIsPlayerActor = (pInst->ObjectType() == 0x4C || pInst->ObjectType() == FOURCC('PLAC'));
@ -435,7 +435,7 @@ void CAreaDependencyListBuilder::BuildDependencyList(std::list<CAssetID>& rAsset
AddDependency(pDep->ID(), rAssetsOut, pAudioGroupsOut);
}
}
else if (pNode->Type() == eDNT_ResourceDependency)
else if (pNode->Type() == EDependencyNodeType::Resource)
{
CResourceDependency *pResDep = static_cast<CResourceDependency*>(pNode);
AddDependency(pResDep->ID(), rAssetsOut, pAudioGroupsOut);
@ -464,10 +464,10 @@ void CAreaDependencyListBuilder::AddDependency(const CAssetID& rkID, std::list<C
CResourceEntry *pEntry = mpStore->FindEntry(rkID);
if (!pEntry) return;
EResType ResType = pEntry->ResourceType();
EResourceType ResType = pEntry->ResourceType();
// If this is an audio group, for MP1, save it in the output set. For MP2, treat audio groups as a normal dependency.
if (mGame <= EGame::Prime && ResType == eAudioGroup)
if (mGame <= EGame::Prime && ResType == EResourceType::AudioGroup)
{
if (pAudioGroupsOut)
pAudioGroupsOut->insert(rkID);
@ -475,20 +475,20 @@ void CAreaDependencyListBuilder::AddDependency(const CAssetID& rkID, std::list<C
}
// If this is an audio stream, skip
if (ResType == eStreamedAudio)
if (ResType == EResourceType::StreamedAudio)
return;
// Check to ensure this is a valid/new dependency
if (ResType == eWorld || ResType == eArea)
if (ResType == EResourceType::World || ResType == EResourceType::Area)
return;
if (mBaseUsedAssets.find(rkID) != mBaseUsedAssets.end() || mLayerUsedAssets.find(rkID) != mLayerUsedAssets.end())
return;
// Dependency is valid! Evaluate the node tree (except for SCAN and DGRP)
if (ResType != eScan && ResType != eDependencyGroup)
if (ResType != EResourceType::Scan && ResType != EResourceType::DependencyGroup)
{
if (ResType == eAnimSet)
if (ResType == EResourceType::AnimSet)
{
ASSERT(!mCurrentAnimSetID.IsValid());
mCurrentAnimSetID = pEntry->ID();
@ -496,7 +496,7 @@ void CAreaDependencyListBuilder::AddDependency(const CAssetID& rkID, std::list<C
EvaluateDependencyNode(pEntry, pEntry->Dependencies(), rOut, pAudioGroupsOut);
if (ResType == eAnimSet)
if (ResType == EResourceType::AnimSet)
{
ASSERT(mCurrentAnimSetID.IsValid());
mCurrentAnimSetID = CAssetID::InvalidID(mGame);
@ -504,7 +504,7 @@ void CAreaDependencyListBuilder::AddDependency(const CAssetID& rkID, std::list<C
}
// Don't add CSNGs to the output dependency list (we parse them because we need their AGSC dependencies in the output AudioGroup set)
if (ResType != eMidi)
if (ResType != EResourceType::Midi)
{
rOut.push_back(rkID);
mLayerUsedAssets.insert(rkID);
@ -516,13 +516,13 @@ void CAreaDependencyListBuilder::EvaluateDependencyNode(CResourceEntry *pCurEntr
EDependencyNodeType Type = pNode->Type();
bool ParseChildren = false;
if (Type == eDNT_ResourceDependency || Type == eDNT_ScriptProperty || Type == eDNT_CharacterProperty)
if (Type == EDependencyNodeType::Resource || Type == EDependencyNodeType::ScriptProperty || Type == EDependencyNodeType::CharacterProperty)
{
CResourceDependency *pDep = static_cast<CResourceDependency*>(pNode);
AddDependency(pDep->ID(), rOut, pAudioGroupsOut);
}
else if (Type == eDNT_AnimEvent)
else if (Type == EDependencyNodeType::AnimEvent)
{
CAnimEventDependency *pDep = static_cast<CAnimEventDependency*>(pNode);
uint32 CharIndex = pDep->CharIndex();
@ -531,7 +531,7 @@ void CAreaDependencyListBuilder::EvaluateDependencyNode(CResourceEntry *pCurEntr
AddDependency(pDep->ID(), rOut, pAudioGroupsOut);
}
else if (Type == eDNT_SetCharacter)
else if (Type == EDependencyNodeType::SetCharacter)
{
// Note: For MP1/2 PlayerActor, always treat as if Empty Suit is the only used one
const uint32 kEmptySuitIndex = (mGame >= EGame::EchoesDemo ? 3 : 5);
@ -541,7 +541,7 @@ void CAreaDependencyListBuilder::EvaluateDependencyNode(CResourceEntry *pCurEntr
ParseChildren = mCharacterUsageMap.IsCharacterUsed(mCurrentAnimSetID, pChar->CharSetIndex()) || (mIsPlayerActor && SetIndex == kEmptySuitIndex);
}
else if (Type == eDNT_SetAnimation)
else if (Type == EDependencyNodeType::SetAnimation)
{
CSetAnimationDependency *pAnim = static_cast<CSetAnimationDependency*>(pNode);
ParseChildren = mCharacterUsageMap.IsAnimationUsed(mCurrentAnimSetID, pAnim) || (mIsPlayerActor && pAnim->IsUsedByAnyCharacter());

View File

@ -88,7 +88,7 @@ public:
, mGame(pAreaEntry->Game())
, mCharacterUsageMap(pAreaEntry->ResourceStore())
{
ASSERT(mpAreaEntry->ResourceType() == eArea);
ASSERT(mpAreaEntry->ResourceType() == EResourceType::Area);
}
void BuildDependencyList(std::list<CAssetID>& rAssetsOut, std::list<uint32>& rLayerOffsetsOut, std::set<CAssetID> *pAudioGroupsOut = nullptr);

View File

@ -6,8 +6,8 @@ static const uint32 gskAttribSize[] = {
};
CDynamicVertexBuffer::CDynamicVertexBuffer()
: mAttribFlags(eNoAttributes)
, mBufferedFlags(eNoAttributes)
: mAttribFlags(EVertexAttribute::None)
, mBufferedFlags(EVertexAttribute::None)
, mNumVertices(0)
{
}
@ -48,18 +48,18 @@ void CDynamicVertexBuffer::BufferAttrib(EVertexAttribute Attrib, const void *pkD
switch (Attrib)
{
case ePosition: Index = 0; break;
case eNormal: Index = 1; break;
case eColor0: Index = 2; break;
case eColor1: Index = 3; break;
case eTex0: Index = 4; break;
case eTex1: Index = 5; break;
case eTex2: Index = 6; break;
case eTex3: Index = 7; break;
case eTex4: Index = 8; break;
case eTex5: Index = 9; break;
case eTex6: Index = 10; break;
case eTex7: Index = 11; break;
case EVertexAttribute::Position: Index = 0; break;
case EVertexAttribute::Normal: Index = 1; break;
case EVertexAttribute::Color0: Index = 2; break;
case EVertexAttribute::Color1: Index = 3; break;
case EVertexAttribute::Tex0: Index = 4; break;
case EVertexAttribute::Tex1: Index = 5; break;
case EVertexAttribute::Tex2: Index = 6; break;
case EVertexAttribute::Tex3: Index = 7; break;
case EVertexAttribute::Tex4: Index = 8; break;
case EVertexAttribute::Tex5: Index = 9; break;
case EVertexAttribute::Tex6: Index = 10; break;
case EVertexAttribute::Tex7: Index = 11; break;
default: return;
}
@ -77,7 +77,7 @@ void CDynamicVertexBuffer::ClearBuffers()
glDeleteBuffers(1, &mAttribBuffers[iAttrib]);
}
mBufferedFlags = eNoAttributes;
mBufferedFlags = EVertexAttribute::None;
}
GLuint CDynamicVertexBuffer::CreateVAO()

View File

@ -155,29 +155,29 @@ bool CShaderGenerator::CreateVertexShader(const CMaterial& rkMat)
// Input
ShaderCode << "// Input\n";
FVertexDescription VtxDesc = rkMat.VtxDesc();
ASSERT(VtxDesc & ePosition);
ASSERT(VtxDesc & EVertexAttribute::Position);
ShaderCode << "layout(location = 0) in vec3 RawPosition;\n";
if (VtxDesc & eNormal) ShaderCode << "layout(location = 1) in vec3 RawNormal;\n";
if (VtxDesc & eColor0) ShaderCode << "layout(location = 2) in vec4 RawColor0;\n";
if (VtxDesc & eColor1) ShaderCode << "layout(location = 3) in vec4 RawColor1;\n";
if (VtxDesc & eTex0) ShaderCode << "layout(location = 4) in vec2 RawTex0;\n";
if (VtxDesc & eTex1) ShaderCode << "layout(location = 5) in vec2 RawTex1;\n";
if (VtxDesc & eTex2) ShaderCode << "layout(location = 6) in vec2 RawTex2;\n";
if (VtxDesc & eTex3) ShaderCode << "layout(location = 7) in vec2 RawTex3;\n";
if (VtxDesc & eTex4) ShaderCode << "layout(location = 8) in vec2 RawTex4;\n";
if (VtxDesc & eTex5) ShaderCode << "layout(location = 9) in vec2 RawTex5;\n";
if (VtxDesc & eTex6) ShaderCode << "layout(location = 10) in vec2 RawTex6;\n";
if (VtxDesc & eTex7) ShaderCode << "layout(location = 11) in vec2 RawTex7;\n";
if (VtxDesc & eBoneIndices) ShaderCode << "layout(location = 12) in int BoneIndices;\n";
if (VtxDesc & eBoneWeights) ShaderCode << "layout(location = 13) in vec4 BoneWeights;\n";
if (VtxDesc & EVertexAttribute::Normal) ShaderCode << "layout(location = 1) in vec3 RawNormal;\n";
if (VtxDesc & EVertexAttribute::Color0) ShaderCode << "layout(location = 2) in vec4 RawColor0;\n";
if (VtxDesc & EVertexAttribute::Color1) ShaderCode << "layout(location = 3) in vec4 RawColor1;\n";
if (VtxDesc & EVertexAttribute::Tex0) ShaderCode << "layout(location = 4) in vec2 RawTex0;\n";
if (VtxDesc & EVertexAttribute::Tex1) ShaderCode << "layout(location = 5) in vec2 RawTex1;\n";
if (VtxDesc & EVertexAttribute::Tex2) ShaderCode << "layout(location = 6) in vec2 RawTex2;\n";
if (VtxDesc & EVertexAttribute::Tex3) ShaderCode << "layout(location = 7) in vec2 RawTex3;\n";
if (VtxDesc & EVertexAttribute::Tex4) ShaderCode << "layout(location = 8) in vec2 RawTex4;\n";
if (VtxDesc & EVertexAttribute::Tex5) ShaderCode << "layout(location = 9) in vec2 RawTex5;\n";
if (VtxDesc & EVertexAttribute::Tex6) ShaderCode << "layout(location = 10) in vec2 RawTex6;\n";
if (VtxDesc & EVertexAttribute::Tex7) ShaderCode << "layout(location = 11) in vec2 RawTex7;\n";
if (VtxDesc & EVertexAttribute::BoneIndices) ShaderCode << "layout(location = 12) in int BoneIndices;\n";
if (VtxDesc & EVertexAttribute::BoneWeights) ShaderCode << "layout(location = 13) in vec4 BoneWeights;\n";
ShaderCode << "\n";
// Output
ShaderCode << "// Output\n";
if (VtxDesc & eNormal) ShaderCode << "out vec3 Normal;\n";
if (VtxDesc & eColor0) ShaderCode << "out vec4 Color0;\n";
if (VtxDesc & eColor1) ShaderCode << "out vec4 Color1;\n";
if (VtxDesc & EVertexAttribute::Normal) ShaderCode << "out vec3 Normal;\n";
if (VtxDesc & EVertexAttribute::Color0) ShaderCode << "out vec4 Color0;\n";
if (VtxDesc & EVertexAttribute::Color1) ShaderCode << "out vec4 Color1;\n";
for (uint32 iPass = 0; iPass < rkMat.PassCount(); iPass++)
if (rkMat.Pass(iPass)->TexCoordSource() != 0xFF)
@ -222,7 +222,7 @@ bool CShaderGenerator::CreateVertexShader(const CMaterial& rkMat)
<< "uniform int NumLights;\n"
<< "\n";
bool HasSkinning = (rkMat.VtxDesc().HasAnyFlags(eBoneIndices | eBoneWeights));
bool HasSkinning = (rkMat.VtxDesc().HasAnyFlags(EVertexAttribute::BoneIndices | EVertexAttribute::BoneWeights));
if (HasSkinning)
{
@ -240,8 +240,8 @@ bool CShaderGenerator::CreateVertexShader(const CMaterial& rkMat)
<< " mat4 MV = ModelMtx * ViewMtx;\n"
<< " mat4 MVP = MV * ProjMtx;\n";
if (VtxDesc & eColor0) ShaderCode << " Color0 = RawColor0;\n";
if (VtxDesc & eColor1) ShaderCode << " Color1 = RawColor1;\n";
if (VtxDesc & EVertexAttribute::Color0) ShaderCode << " Color0 = RawColor0;\n";
if (VtxDesc & EVertexAttribute::Color1) ShaderCode << " Color1 = RawColor1;\n";
ShaderCode << "\n";
// Skinning
@ -250,7 +250,7 @@ bool CShaderGenerator::CreateVertexShader(const CMaterial& rkMat)
ShaderCode << " // Skinning\n"
<< " vec3 ModelSpacePos = vec3(0,0,0);\n";
if (VtxDesc & eNormal)
if (VtxDesc & EVertexAttribute::Normal)
ShaderCode << " vec3 ModelSpaceNormal = vec3(0,0,0);\n";
ShaderCode << " \n"
@ -264,14 +264,14 @@ bool CShaderGenerator::CreateVertexShader(const CMaterial& rkMat)
<< " {\n"
<< " ModelSpacePos += vec3(vec4(RawPosition, 1) * BoneTransforms[BoneIdx] * Weight);\n";
if (VtxDesc & eNormal)
if (VtxDesc & EVertexAttribute::Normal)
ShaderCode << " ModelSpaceNormal += RawNormal.xyz * inverse(transpose(mat3(BoneTransforms[BoneIdx]))) * Weight;\n";
ShaderCode << " }\n"
<< " }\n"
<< " \n";
if (VtxDesc & eNormal)
if (VtxDesc & EVertexAttribute::Normal)
ShaderCode << " ModelSpaceNormal = normalize(ModelSpaceNormal);\n"
<< " \n";
}
@ -279,7 +279,7 @@ bool CShaderGenerator::CreateVertexShader(const CMaterial& rkMat)
{
ShaderCode << " vec3 ModelSpacePos = RawPosition;\n";
if (VtxDesc & eNormal)
if (VtxDesc & EVertexAttribute::Normal)
ShaderCode << " vec3 ModelSpaceNormal = RawNormal.xyz;\n";
ShaderCode << "\n";
@ -287,7 +287,7 @@ bool CShaderGenerator::CreateVertexShader(const CMaterial& rkMat)
ShaderCode << " gl_Position = vec4(ModelSpacePos, 1) * MVP;\n";
if (VtxDesc & eNormal)
if (VtxDesc & EVertexAttribute::Normal)
ShaderCode << " Normal = normalize(ModelSpaceNormal * inverse(transpose(mat3(MV))));\n";
// Per-vertex lighting
@ -341,7 +341,7 @@ bool CShaderGenerator::CreateVertexShader(const CMaterial& rkMat)
EUVAnimMode AnimMode = pPass->AnimMode();
if (AnimMode == eNoUVAnim) // No animation
if (AnimMode == EUVAnimMode::NoUVAnim) // No animation
ShaderCode << " Tex" << iPass << " = vec3(" << gkCoordSrc[pPass->TexCoordSource()] << ");\n";
else // Animation used - texture matrix at least, possibly normalize/post-transform
@ -349,7 +349,7 @@ bool CShaderGenerator::CreateVertexShader(const CMaterial& rkMat)
// Texture Matrix
ShaderCode << " Tex" << iPass << " = vec3(vec4(" << gkCoordSrc[pPass->TexCoordSource()] << ", 1.0) * TexMtx[" << iPass << "]).xyz;\n";
if ((AnimMode < 2) || (AnimMode > 5))
if ((AnimMode < EUVAnimMode::UVScroll) || (AnimMode > EUVAnimMode::VFilmstrip))
{
// Normalization + Post-Transform
ShaderCode << " Tex" << iPass << " = normalize(Tex" << iPass << ");\n"
@ -373,10 +373,10 @@ bool CShaderGenerator::CreatePixelShader(const CMaterial& rkMat)
<< "\n";
FVertexDescription VtxDesc = rkMat.VtxDesc();
if (VtxDesc & ePosition) ShaderCode << "in vec3 Position;\n";
if (VtxDesc & eNormal) ShaderCode << "in vec3 Normal;\n";
if (VtxDesc & eColor0) ShaderCode << "in vec4 Color0;\n";
if (VtxDesc & eColor1) ShaderCode << "in vec4 Color1;\n";
if (VtxDesc & EVertexAttribute::Position) ShaderCode << "in vec3 Position;\n";
if (VtxDesc & EVertexAttribute::Normal) ShaderCode << "in vec3 Normal;\n";
if (VtxDesc & EVertexAttribute::Color0) ShaderCode << "in vec4 Color0;\n";
if (VtxDesc & EVertexAttribute::Color1) ShaderCode << "in vec4 Color1;\n";
uint32 PassCount = rkMat.PassCount();
@ -441,14 +441,14 @@ bool CShaderGenerator::CreatePixelShader(const CMaterial& rkMat)
// Apply lightmap multiplier
if ( (PassType == "DIFF") ||
(PassType == "CUST" && (rkMat.Options() & CMaterial::eLightmap) && iPass == 0) )
(PassType == "CUST" && (rkMat.Options() & EMaterialOption::Lightmap) && iPass == 0) )
ShaderCode << " * LightmapMultiplier";
ShaderCode << ";\n";
ShaderCode << " Konst = vec4(" << gkKonstColor[pPass->KColorSel()] << ", " << gkKonstAlpha[pPass->KAlphaSel()] << ");\n";
if (pPass->RasSel() != eRasColorNull)
if (pPass->RasSel() != kRasColorNull)
ShaderCode << " Ras = " << gkRasSel[pPass->RasSel()] << ";\n";
for (uint8 iInput = 0; iInput < 4; iInput++)
@ -479,7 +479,7 @@ bool CShaderGenerator::CreatePixelShader(const CMaterial& rkMat)
ShaderCode << "clamp(TevInD.a + ((1.0 - TevInC.a) * TevInA.a + TevInC.a * TevInB.a), 0.0, 1.0);\n\n";
}
if (rkMat.Options() & CMaterial::ePunchthrough)
if (rkMat.Options() & EMaterialOption::Masked)
{
if (rkMat.Version() < EGame::CorruptionProto)
{

View File

@ -5,6 +5,21 @@
#include "Core/Resource/CMaterial.h"
#include <GL/glew.h>
/**
* @todo Would be great to have a more complex shader system that would allow
* more advanced things to be done with shaders and materials in particular.
* Currently every material only has one shader, which means any extra rendering
* effects that need to be rendered on a mesh that has a material has to be
* integrated directly into that material's shader and has to be toggled via a
* shader uniform, which is pretty messy. If you look at Unreal for instance,
* there is a much nicer system where the output of a material (color, emissive,
* opacity, etc) is provided via a function call in the shader code, and then
* you can write another shader on top that calls that function and then integrates
* the material output into the shader's output pixel color however you want, which
* allows for vastly more customization in how materials render for any given situation.
* As the current system stands, it's kind of a pain to extend with any new features,
* or to add any new graphical effects to game assets.
*/
class CShaderGenerator
{
CShader *mpShader;

View File

@ -4,7 +4,11 @@
CVertexBuffer::CVertexBuffer()
{
mBuffered = false;
SetVertexDesc(ePosition | eNormal | eTex0 | eTex1 | eTex2 | eTex3 | eTex4 | eTex5 | eTex6 | eTex7);
SetVertexDesc(EVertexAttribute::Position | EVertexAttribute::Normal |
EVertexAttribute::Tex0 | EVertexAttribute::Tex1 |
EVertexAttribute::Tex2 | EVertexAttribute::Tex3 |
EVertexAttribute::Tex4 | EVertexAttribute::Tex5 |
EVertexAttribute::Tex6 | EVertexAttribute::Tex7);
}
CVertexBuffer::CVertexBuffer(FVertexDescription Desc)
@ -25,22 +29,22 @@ uint16 CVertexBuffer::AddVertex(const CVertex& rkVtx)
{
if (mPositions.size() == 0xFFFF) throw std::overflow_error("VBO contains too many vertices");
if (mVtxDesc & ePosition) mPositions.push_back(rkVtx.Position);
if (mVtxDesc & eNormal) mNormals.push_back(rkVtx.Normal);
if (mVtxDesc & eColor0) mColors[0].push_back(rkVtx.Color[0]);
if (mVtxDesc & eColor1) mColors[1].push_back(rkVtx.Color[1]);
if (mVtxDesc & EVertexAttribute::Position) mPositions.push_back(rkVtx.Position);
if (mVtxDesc & EVertexAttribute::Normal) mNormals.push_back(rkVtx.Normal);
if (mVtxDesc & EVertexAttribute::Color0) mColors[0].push_back(rkVtx.Color[0]);
if (mVtxDesc & EVertexAttribute::Color1) mColors[1].push_back(rkVtx.Color[1]);
for (uint32 iTex = 0; iTex < 8; iTex++)
if (mVtxDesc & (eTex0 << iTex)) mTexCoords[iTex].push_back(rkVtx.Tex[iTex]);
if (mVtxDesc & (EVertexAttribute::Tex0 << iTex)) mTexCoords[iTex].push_back(rkVtx.Tex[iTex]);
for (uint32 iMtx = 0; iMtx < 8; iMtx++)
if (mVtxDesc & (ePosMtx << iMtx)) mTexCoords[iMtx].push_back(rkVtx.MatrixIndices[iMtx]);
if (mVtxDesc & (EVertexAttribute::PosMtx << iMtx)) mTexCoords[iMtx].push_back(rkVtx.MatrixIndices[iMtx]);
if (mVtxDesc.HasAnyFlags(eBoneIndices | eBoneWeights) && mpSkin)
if (mVtxDesc.HasAnyFlags(EVertexAttribute::BoneIndices | EVertexAttribute::BoneWeights) && mpSkin)
{
const SVertexWeights& rkWeights = mpSkin->WeightsForVertex(rkVtx.ArrayPosition);
if (mVtxDesc & eBoneIndices) mBoneIndices.push_back(rkWeights.Indices);
if (mVtxDesc & eBoneWeights) mBoneWeights.push_back(rkWeights.Weights);
if (mVtxDesc & EVertexAttribute::BoneIndices) mBoneIndices.push_back(rkWeights.Indices);
if (mVtxDesc & EVertexAttribute::BoneWeights) mBoneWeights.push_back(rkWeights.Weights);
}
return (mPositions.size() - 1);
@ -55,35 +59,35 @@ uint16 CVertexBuffer::AddIfUnique(const CVertex& rkVtx, uint16 Start)
// I use a bool because "continue" doesn't work properly within the iTex loop
bool Unique = false;
if (mVtxDesc & ePosition)
if (mVtxDesc & EVertexAttribute::Position)
if (rkVtx.Position != mPositions[iVert]) Unique = true;
if (!Unique && (mVtxDesc & eNormal))
if (!Unique && (mVtxDesc & EVertexAttribute::Normal))
if (rkVtx.Normal != mNormals[iVert]) Unique = true;
if (!Unique && (mVtxDesc & eColor0))
if (!Unique && (mVtxDesc & EVertexAttribute::Color0))
if (rkVtx.Color[0] != mColors[0][iVert]) Unique = true;
if (!Unique && (mVtxDesc & eColor1))
if (!Unique && (mVtxDesc & EVertexAttribute::Color1))
if (rkVtx.Color[1] != mColors[1][iVert]) Unique = true;
if (!Unique)
for (uint32 iTex = 0; iTex < 8; iTex++)
if ((mVtxDesc & (eTex0 << iTex)))
if ((mVtxDesc & (EVertexAttribute::Tex0 << iTex)))
if (rkVtx.Tex[iTex] != mTexCoords[iTex][iVert])
{
Unique = true;
break;
}
if (!Unique && mpSkin && (mVtxDesc.HasAnyFlags(eBoneIndices | eBoneWeights)))
if (!Unique && mpSkin && (mVtxDesc.HasAnyFlags(EVertexAttribute::BoneIndices | EVertexAttribute::BoneWeights)))
{
const SVertexWeights& rkWeights = mpSkin->WeightsForVertex(rkVtx.ArrayPosition);
for (uint32 iWgt = 0; iWgt < 4; iWgt++)
{
if ( ((mVtxDesc & eBoneIndices) && (rkWeights.Indices[iWgt] != mBoneIndices[iVert][iWgt])) ||
((mVtxDesc & eBoneWeights) && (rkWeights.Weights[iWgt] != mBoneWeights[iVert][iWgt])) )
if ( ((mVtxDesc & EVertexAttribute::BoneIndices) && (rkWeights.Indices[iWgt] != mBoneIndices[iVert][iWgt])) ||
((mVtxDesc & EVertexAttribute::BoneWeights) && (rkWeights.Weights[iWgt] != mBoneWeights[iVert][iWgt])) )
{
Unique = true;
break;
@ -102,26 +106,26 @@ void CVertexBuffer::Reserve(uint16 Size)
{
uint32 ReserveSize = mPositions.size() + Size;
if (mVtxDesc & ePosition)
if (mVtxDesc & EVertexAttribute::Position)
mPositions.reserve(ReserveSize);
if (mVtxDesc & eNormal)
if (mVtxDesc & EVertexAttribute::Normal)
mNormals.reserve(ReserveSize);
if (mVtxDesc & eColor0)
if (mVtxDesc & EVertexAttribute::Color0)
mColors[0].reserve(ReserveSize);
if (mVtxDesc & eColor1)
if (mVtxDesc & EVertexAttribute::Color1)
mColors[1].reserve(ReserveSize);
for (uint32 iTex = 0; iTex < 8; iTex++)
if (mVtxDesc & (eTex0 << iTex))
if (mVtxDesc & (EVertexAttribute::Tex0 << iTex))
mTexCoords[iTex].reserve(ReserveSize);
if (mVtxDesc & eBoneIndices)
if (mVtxDesc & EVertexAttribute::BoneIndices)
mBoneIndices.reserve(ReserveSize);
if (mVtxDesc & eBoneWeights)
if (mVtxDesc & EVertexAttribute::BoneWeights)
mBoneWeights.reserve(ReserveSize);
}
@ -157,7 +161,7 @@ void CVertexBuffer::Buffer()
for (uint32 iAttrib = 0; iAttrib < 14; iAttrib++)
{
int Attrib = (ePosition << iAttrib);
int Attrib = (EVertexAttribute::Position << iAttrib);
bool HasAttrib = ((mVtxDesc & Attrib) != 0);
if (!HasAttrib) continue;
@ -247,7 +251,7 @@ GLuint CVertexBuffer::CreateVAO()
for (uint32 iAttrib = 0; iAttrib < 14; iAttrib++)
{
int Attrib = (ePosition << iAttrib);
int Attrib = (EVertexAttribute::Position << iAttrib);
bool HasAttrib = ((mVtxDesc & Attrib) != 0);
if (!HasAttrib) continue;

View File

@ -1,5 +1,5 @@
#include "GLCommon.h"
#include <stdexcept>
#include <Common/Macros.h>
GLenum gBlendFactor[] =
{
@ -25,16 +25,16 @@ GLenum gZMode[] =
GL_ALWAYS // GX_ALWAYS
};
GLenum GXPrimToGLPrim(EGXPrimitiveType Type)
GLenum GXPrimToGLPrim(EPrimitiveType Type)
{
switch (Type) {
case eGX_Quads: return GL_TRIANGLE_STRIP; // Quads are converted to strips
case eGX_Triangles: return GL_TRIANGLE_STRIP; // Triangles are converted to strips
case eGX_TriangleStrip: return GL_TRIANGLE_STRIP;
case eGX_TriangleFan: return GL_TRIANGLE_STRIP; // Fans are converted to strips
case eGX_Lines: return GL_LINES;
case eGX_LineStrip: return GL_LINE_STRIP;
case eGX_Points: return GL_POINTS;
default: throw std::invalid_argument("Invalid GX primitive type");
case EPrimitiveType::Quads: return GL_TRIANGLE_STRIP; // Quads are converted to strips
case EPrimitiveType::Triangles: return GL_TRIANGLE_STRIP; // Triangles are converted to strips
case EPrimitiveType::TriangleStrip: return GL_TRIANGLE_STRIP;
case EPrimitiveType::TriangleFan: return GL_TRIANGLE_STRIP; // Fans are converted to strips
case EPrimitiveType::Lines: return GL_LINES;
case EPrimitiveType::LineStrip: return GL_LINE_STRIP;
case EPrimitiveType::Points: return GL_POINTS;
default: ASSERT(false); return GL_INVALID_ENUM;
}
}

View File

@ -4,31 +4,33 @@
#include <Common/BasicTypes.h>
#include <GL/glew.h>
enum EBlendFactor
enum class EBlendFactor
{
eBlendZero = GL_ZERO,
eBlendOne = GL_ONE,
eBlendSrcColor = GL_SRC_COLOR,
eBlendInvSrcColor = GL_ONE_MINUS_SRC_COLOR,
eBlendSrcAlpha = GL_SRC_ALPHA,
eBlendInvSrcAlpha = GL_ONE_MINUS_SRC_ALPHA,
eBlendDstAlpha = GL_DST_ALPHA,
eBlendInvDstAlpha = GL_ONE_MINUS_DST_ALPHA
Zero = GL_ZERO,
One = GL_ONE,
SrcColor = GL_SRC_COLOR,
InvSrcColor = GL_ONE_MINUS_SRC_COLOR,
SrcAlpha = GL_SRC_ALPHA,
InvSrcAlpha = GL_ONE_MINUS_SRC_ALPHA,
DstAlpha = GL_DST_ALPHA,
InvDstAlpha = GL_ONE_MINUS_DST_ALPHA
};
enum EGXPrimitiveType
enum class EPrimitiveType
{
eGX_Quads = 0x80,
eGX_Triangles = 0x90,
eGX_TriangleStrip = 0x98,
eGX_TriangleFan = 0xA0,
eGX_Lines = 0xA8,
eGX_LineStrip = 0xB0,
eGX_Points = 0xB8
// The values assigned here match the defines for primitive types in GX
// and appear in geometry data in game file formats
Quads = 0x80,
Triangles = 0x90,
TriangleStrip = 0x98,
TriangleFan = 0xA0,
Lines = 0xA8,
LineStrip = 0xB0,
Points = 0xB8
};
extern GLenum gBlendFactor[];
extern GLenum gZMode[];
GLenum GXPrimToGLPrim(EGXPrimitiveType Type);
GLenum GXPrimToGLPrim(EPrimitiveType Type);
#endif // GLCOMMON_H

View File

@ -4,7 +4,7 @@
#include <Common/Math/MathUtil.h>
CCamera::CCamera()
: mMode(eFreeCamera)
: mMode(ECameraMoveMode::Free)
, mPosition(0)
, mAspectRatio(1.7777777f)
, mYaw(-Math::skHalfPi)
@ -22,7 +22,7 @@ CCamera::CCamera()
// todo: make it actually look at the target!
// don't actually use this constructor, it's unfinished and won't work properly
CCamera::CCamera(CVector3f Position, CVector3f /*Target*/)
: mMode(eFreeCamera)
: mMode(ECameraMoveMode::Free)
, mMoveSpeed(1.f)
, mLookSpeed(1.f)
, mPosition(Position)
@ -33,7 +33,7 @@ CCamera::CCamera(CVector3f Position, CVector3f /*Target*/)
void CCamera::Pan(float XAmount, float YAmount)
{
if (mMode == eFreeCamera)
if (mMode == ECameraMoveMode::Free)
{
mPosition += mRightVector * (XAmount * mMoveSpeed);
mPosition += mUpVector * (YAmount * mMoveSpeed);
@ -59,7 +59,7 @@ void CCamera::Rotate(float XAmount, float YAmount)
void CCamera::Zoom(float Amount)
{
if (mMode == eFreeCamera)
if (mMode == ECameraMoveMode::Free)
mPosition += mDirection * (Amount * mMoveSpeed);
else
@ -86,32 +86,32 @@ void CCamera::ProcessKeyInput(FKeyInputs KeyFlags, double DeltaTime)
{
float FDeltaTime = (float) DeltaTime;
if (KeyFlags & eWKey) Zoom(FDeltaTime * 25.f);
if (KeyFlags & eSKey) Zoom(-FDeltaTime * 25.f);
if (KeyFlags & eQKey) Pan(0, -FDeltaTime * 25.f);
if (KeyFlags & eEKey) Pan(0, FDeltaTime * 25.f);
if (KeyFlags & eAKey) Pan(-FDeltaTime * 25.f, 0);
if (KeyFlags & eDKey) Pan(FDeltaTime * 25.f, 0);
if (KeyFlags & EKeyInput::W) Zoom(FDeltaTime * 25.f);
if (KeyFlags & EKeyInput::S) Zoom(-FDeltaTime * 25.f);
if (KeyFlags & EKeyInput::Q) Pan(0, -FDeltaTime * 25.f);
if (KeyFlags & EKeyInput::E) Pan(0, FDeltaTime * 25.f);
if (KeyFlags & EKeyInput::A) Pan(-FDeltaTime * 25.f, 0);
if (KeyFlags & EKeyInput::D) Pan(FDeltaTime * 25.f, 0);
}
void CCamera::ProcessMouseInput(FKeyInputs KeyFlags, FMouseInputs MouseFlags, float XMovement, float YMovement)
{
// Free Camera
if (mMode == eFreeCamera)
if (mMode == ECameraMoveMode::Free)
{
if (MouseFlags & eMiddleButton)
if (MouseFlags & EMouseInput::MiddleButton)
{
if (KeyFlags & eCtrlKey) Zoom(-YMovement * 0.2f);
if (KeyFlags & EKeyInput::Ctrl) Zoom(-YMovement * 0.2f);
else Pan(-XMovement, YMovement);
}
else if (MouseFlags & eRightButton) Rotate(XMovement, YMovement);
else if (MouseFlags & EMouseInput::RightButton) Rotate(XMovement, YMovement);
}
// Orbit Camera
else if (mMode == eOrbitCamera)
else if (mMode == ECameraMoveMode::Orbit)
{
if ((MouseFlags & eMiddleButton) || (MouseFlags & eRightButton))
if ((MouseFlags & EMouseInput::MiddleButton) || (MouseFlags & EMouseInput::RightButton))
Pan(-XMovement, YMovement);
}
}
@ -136,7 +136,7 @@ void CCamera::SetMoveMode(ECameraMoveMode Mode)
mViewDirty = true;
mFrustumPlanesDirty = true;
if (mMode == eOrbitCamera)
if (mMode == ECameraMoveMode::Orbit)
mTransformDirty = true;
}
@ -145,7 +145,7 @@ void CCamera::SetOrbit(const CVector3f& OrbitTarget, float Distance)
mOrbitTarget = OrbitTarget;
mOrbitDistance = Distance;
if (mMode == eOrbitCamera)
if (mMode == ECameraMoveMode::Orbit)
{
mTransformDirty = true;
mViewDirty = true;
@ -161,7 +161,7 @@ void CCamera::SetOrbit(const CAABox& OrbitTarget, float DistScale /*= 1.75f*/)
float Dist = OrbitTarget.Center().Distance(OrbitTarget.Max());
mOrbitDistance = Dist * DistScale;
if (mMode == eOrbitCamera)
if (mMode == ECameraMoveMode::Orbit)
{
mTransformDirty = true;
mViewDirty = true;
@ -173,7 +173,7 @@ void CCamera::SetOrbitTarget(const CVector3f& rkOrbitTarget)
{
mOrbitTarget = rkOrbitTarget;
if (mMode == eOrbitCamera)
if (mMode == ECameraMoveMode::Orbit)
{
mTransformDirty = true;
mViewDirty = true;
@ -185,7 +185,7 @@ void CCamera::SetOrbitDistance(float Distance)
{
mOrbitDistance = Distance;
if (mMode == eOrbitCamera)
if (mMode == ECameraMoveMode::Orbit)
{
mTransformDirty = true;
mViewDirty = true;
@ -228,7 +228,7 @@ void CCamera::UpdateTransform() const
mUpVector = mRightVector.Cross(mDirection);
// Update position
if (mMode == eOrbitCamera)
if (mMode == ECameraMoveMode::Orbit)
{
if (mOrbitDistance < 1.f) mOrbitDistance = 1.f;
mPosition = mOrbitTarget + (mDirection * -mOrbitDistance);

View File

@ -11,9 +11,9 @@
#include <Common/Math/CVector2i.h>
#include <Common/Math/CVector3f.h>
enum ECameraMoveMode
enum class ECameraMoveMode
{
eFreeCamera, eOrbitCamera
Free, Orbit
};
/* This class uses a lot of mutable members as an optimization so that they can

View File

@ -87,7 +87,7 @@ void CDrawUtil::DrawSquare(const float *pTexCoords)
// Set tex coords
for (uint32 iTex = 0; iTex < 8; iTex++)
{
EVertexAttribute TexAttrib = (EVertexAttribute) (eTex0 << (iTex *2));
EVertexAttribute TexAttrib = (EVertexAttribute) ((uint) (EVertexAttribute::Tex0) << iTex);
mSquareVertices.BufferAttrib(TexAttrib, pTexCoords);
}
@ -114,7 +114,7 @@ void CDrawUtil::DrawLine(const CVector3f& PointA, const CVector3f& PointB, const
// Copy vec3s into an array to ensure they are adjacent in memory
CVector3f Points[2] = { PointA, PointB };
mLineVertices.BufferAttrib(ePosition, Points);
mLineVertices.BufferAttrib(EVertexAttribute::Position, Points);
// Draw
UseColorShader(LineColor);
@ -132,7 +132,7 @@ void CDrawUtil::DrawLine(const CVector2f& PointA, const CVector2f& PointB, const
void CDrawUtil::DrawCube()
{
Init();
mpCubeModel->Draw(eNoMaterialSetup, 0);
mpCubeModel->Draw(ERenderOption::NoMaterialSetup, 0);
}
void CDrawUtil::DrawCube(const CColor& Color)
@ -186,9 +186,9 @@ void CDrawUtil::DrawSphere(bool DoubleSided)
Init();
if (!DoubleSided)
mpSphereModel->Draw(eNoMaterialSetup, 0);
mpSphereModel->Draw(ERenderOption::NoMaterialSetup, 0);
else
mpDoubleSidedSphereModel->Draw(eNoMaterialSetup, 0);
mpDoubleSidedSphereModel->Draw(ERenderOption::NoMaterialSetup, 0);
}
void CDrawUtil::DrawSphere(const CColor &kColor)
@ -217,7 +217,7 @@ void CDrawUtil::DrawWireSphere(const CVector3f& Position, float Radius, const CC
glDepthMask(GL_TRUE);
// Draw
mpWireSphereModel->Draw(eNoMaterialSetup, 0);
mpWireSphereModel->Draw(ERenderOption::NoMaterialSetup, 0);
}
void CDrawUtil::DrawBillboard(CTexture* pTexture, const CVector3f& Position, const CVector2f& Scale /*= CVector2f::skOne*/, const CColor& Tint /*= CColor::skWhite*/)
@ -366,13 +366,13 @@ void CDrawUtil::LoadCheckerboardTexture(uint32 GLTextureUnit)
CTexture* CDrawUtil::GetLightTexture(ELightType Type)
{
Init();
return mpLightTextures[Type];
return mpLightTextures[(int) Type];
}
CTexture* CDrawUtil::GetLightMask(ELightType Type)
{
Init();
return mpLightMasks[Type];
return mpLightMasks[(int) Type];
}
CModel* CDrawUtil::GetCubeModel()
@ -413,7 +413,7 @@ void CDrawUtil::InitGrid()
int MinIdx = (kGridSize - 1) / -2;
int MaxIdx = (kGridSize - 1) / 2;
mGridVertices.SetVertexDesc(ePosition);
mGridVertices.SetVertexDesc(EVertexAttribute::Position);
mGridVertices.Reserve(kGridSize * 4);
for (int32 i = MinIdx; i <= MaxIdx; i++)
@ -439,9 +439,16 @@ void CDrawUtil::InitGrid()
void CDrawUtil::InitSquare()
{
debugf("Creating square");
mSquareVertices.SetActiveAttribs(ePosition | eNormal |
eTex0 | eTex1 | eTex2 | eTex3 |
eTex4 | eTex5 | eTex6 | eTex7);
mSquareVertices.SetActiveAttribs(EVertexAttribute::Position |
EVertexAttribute::Normal |
EVertexAttribute::Tex0 |
EVertexAttribute::Tex1 |
EVertexAttribute::Tex2 |
EVertexAttribute::Tex3 |
EVertexAttribute::Tex4 |
EVertexAttribute::Tex5 |
EVertexAttribute::Tex6 |
EVertexAttribute::Tex7 );
mSquareVertices.SetVertexCount(4);
CVector3f SquareVertices[] = {
@ -465,12 +472,12 @@ void CDrawUtil::InitSquare()
CVector2f(0.f, 0.f)
};
mSquareVertices.BufferAttrib(ePosition, SquareVertices);
mSquareVertices.BufferAttrib(eNormal, SquareNormals);
mSquareVertices.BufferAttrib(EVertexAttribute::Position, SquareVertices);
mSquareVertices.BufferAttrib(EVertexAttribute::Normal, SquareNormals);
for (uint32 iTex = 0; iTex < 8; iTex++)
{
EVertexAttribute Attrib = (EVertexAttribute) (eTex0 << (iTex *2));
EVertexAttribute Attrib = (EVertexAttribute) (EVertexAttribute::Tex0 << iTex);
mSquareVertices.BufferAttrib(Attrib, SquareTexCoords);
}
@ -485,7 +492,7 @@ void CDrawUtil::InitSquare()
void CDrawUtil::InitLine()
{
debugf("Creating line");
mLineVertices.SetActiveAttribs(ePosition);
mLineVertices.SetActiveAttribs(EVertexAttribute::Position);
mLineVertices.SetVertexCount(2);
mLineIndices.Reserve(2);
@ -503,7 +510,7 @@ void CDrawUtil::InitCube()
void CDrawUtil::InitWireCube()
{
debugf("Creating wire cube");
mWireCubeVertices.SetVertexDesc(ePosition);
mWireCubeVertices.SetVertexDesc(EVertexAttribute::Position);
mWireCubeVertices.Reserve(8);
mWireCubeVertices.AddVertex(CVector3f(-0.5f, -0.5f, -0.5f));
mWireCubeVertices.AddVertex(CVector3f(-0.5f, 0.5f, -0.5f));

View File

@ -7,9 +7,13 @@
#include "Core/Resource/model/CModel.h"
#include "Core/Resource/CLight.h"
/* todo: CDrawUtil should work with CRenderer to queue primitives for rendering
* rather than trying to draw them straight away, so that CDrawUtil functions can
* be called from anywhere in the codebase and still function correctly */
/**
* @todo there are a LOT of problems with how this is implemented; trying to
* use CDrawUtil in a lot of places in the codebase just plain doesn't work
* because it goes outside CRenderer to draw stuff, and also it's slow as heck
* because it issues tons of draw calls instead of batching items together
* which is a cause of significant performance problems
*/
class CDrawUtil
{
// 7x7 Grid

View File

@ -48,7 +48,7 @@ void CGraphics::Initialize()
mpLightBlockBuffer = new CUniformBuffer(sizeof(sLightBlock));
mpBoneTransformBuffer = new CUniformBuffer(sizeof(CTransform4f) * 100);
sLightMode = eWorldLighting;
sLightMode = ELightingMode::World;
sNumLights = 0;
sWorldLightMultiplier = 1.f;
@ -175,9 +175,9 @@ void CGraphics::SetDefaultLighting()
void CGraphics::SetupAmbientColor()
{
if (sLightMode == eWorldLighting)
if (sLightMode == ELightingMode::World)
sVertexBlock.COLOR0_Amb = sAreaAmbientColor * sWorldLightMultiplier;
else if (sLightMode == eBasicLighting)
else if (sLightMode == ELightingMode::Basic)
sVertexBlock.COLOR0_Amb = skDefaultAmbientColor;
else
sVertexBlock.COLOR0_Amb = CColor::skWhite;

View File

@ -12,11 +12,11 @@
#include <GL/glew.h>
/**
* todo: should probably be replaced with a CGraphicsState class which
* can be instantiated and is probably more safe/functional than global access.
* also, should probably have inline set/get functions rather than having all
* members public so that we can track when a value is modified and maybe
* execute extra functionality when certain values are changed
* todo: this entire thing needs to be further abstracted, other classes shouldn't
* need to get this close to the metal - makes it harder to extend and harder to
* theoretically add support for other kinds of graphics backends. additionally,
* all this stuff really shouldn't be global, and shouldn't all use public members
* either... basically, there's a lot wrong with this system
*/
class CGraphics
{
@ -79,7 +79,7 @@ public:
static SLightBlock sLightBlock;
// Lighting-related
enum ELightingMode { eNoLighting, eBasicLighting, eWorldLighting };
enum class ELightingMode { None, Basic, World };
static ELightingMode sLightMode;
static uint32 sNumLights;
static const CColor skDefaultAmbientColor;

View File

@ -68,7 +68,7 @@ void CRenderBucket::CSubBucket::Draw(const SViewInfo& rkViewInfo)
const SRenderablePtr& rkPtr = mRenderables[iPtr];
// todo: DrawSelection probably shouldn't be a separate function anymore.
if (rkPtr.Command == eDrawSelection)
if (rkPtr.Command == ERenderCommand::DrawSelection)
rkPtr.pRenderable->DrawSelection();
else
rkPtr.pRenderable->Draw(Options, rkPtr.ComponentIndex, rkPtr.Command, rkViewInfo);

View File

@ -17,8 +17,8 @@ uint32 CRenderer::sNumRenderers = 0;
// ************ INITIALIZATION ************
CRenderer::CRenderer()
: mOptions(eEnableUVScroll | eEnableBackfaceCull)
, mBloomMode(eNoBloom)
: mOptions(ERenderOption::EnableUVScroll | ERenderOption::EnableBackfaceCull)
, mBloomMode(EBloomMode::NoBloom)
, mDrawGrid(true)
, mInitialized(false)
, mContextIndex(-1)
@ -55,14 +55,14 @@ FRenderOptions CRenderer::RenderOptions() const
void CRenderer::ToggleBackfaceCull(bool Enable)
{
if (Enable) mOptions |= eEnableBackfaceCull;
else mOptions &= ~eEnableBackfaceCull;
if (Enable) mOptions |= ERenderOption::EnableBackfaceCull;
else mOptions &= ~ERenderOption::EnableBackfaceCull;
}
void CRenderer::ToggleUVAnimation(bool Enable)
{
if (Enable) mOptions |= eEnableUVScroll;
else mOptions &= ~eEnableUVScroll;
if (Enable) mOptions |= ERenderOption::EnableUVScroll;
else mOptions &= ~ERenderOption::EnableUVScroll;
}
void CRenderer::ToggleGrid(bool Enable)
@ -72,24 +72,24 @@ void CRenderer::ToggleGrid(bool Enable)
void CRenderer::ToggleOccluders(bool Enable)
{
if (Enable) mOptions |= eEnableOccluders;
else mOptions &= ~eEnableOccluders;
if (Enable) mOptions |= ERenderOption::EnableOccluders;
else mOptions &= ~ERenderOption::EnableOccluders;
}
void CRenderer::ToggleAlphaDisabled(bool Enable)
{
if (Enable) mOptions |= eNoAlpha;
else mOptions &= ~eNoAlpha;
if (Enable) mOptions |= ERenderOption::NoAlpha;
else mOptions &= ~ERenderOption::NoAlpha;
}
void CRenderer::SetBloom(EBloomMode BloomMode)
{
mBloomMode = BloomMode;
if (BloomMode != eNoBloom)
mOptions |= eEnableBloom;
if (BloomMode != EBloomMode::NoBloom)
mOptions |= ERenderOption::EnableBloom;
else
mOptions &= ~eEnableBloom;
mOptions &= ~ERenderOption::EnableBloom;
}
void CRenderer::SetClearColor(const CColor& rkClear)
@ -118,7 +118,7 @@ void CRenderer::RenderBuckets(const SViewInfo& rkViewInfo)
mSceneFramebuffer.Bind();
// Set backface culling
if (mOptions & eEnableBackfaceCull) glEnable(GL_CULL_FACE);
if (mOptions & ERenderOption::EnableBackfaceCull) glEnable(GL_CULL_FACE);
else glDisable(GL_CULL_FACE);
// Render scene to texture
@ -145,7 +145,7 @@ void CRenderer::RenderBuckets(const SViewInfo& rkViewInfo)
void CRenderer::RenderBloom()
{
// Check to ensure bloom is enabled. Also don't render bloom in unlit mode.
if (mBloomMode == eNoBloom || CGraphics::sLightMode != CGraphics::eWorldLighting) return;
if (mBloomMode == EBloomMode::NoBloom || CGraphics::sLightMode != CGraphics::ELightingMode::World) return;
// Setup
static const float skHOffset[6] = { -0.008595f, -0.005470f, -0.002345f,
@ -161,10 +161,10 @@ void CRenderer::RenderBloom()
CColor::Integral(53, 53, 53),
CColor::Integral(17, 17, 17) };
uint32 BloomWidth = (mBloomMode == eBloom ? mBloomWidth : mViewportWidth);
uint32 BloomHeight = (mBloomMode == eBloom ? mBloomHeight : mViewportHeight);
float BloomHScale = (mBloomMode == eBloom ? mBloomHScale : 0);
float BloomVScale = (mBloomMode == eBloom ? mBloomVScale : 0);
uint32 BloomWidth = (mBloomMode == EBloomMode::Bloom ? mBloomWidth : mViewportWidth);
uint32 BloomHeight = (mBloomMode == EBloomMode::Bloom ? mBloomHeight : mViewportHeight);
float BloomHScale = (mBloomMode == EBloomMode::Bloom ? mBloomHScale : 0);
float BloomVScale = (mBloomMode == EBloomMode::Bloom ? mBloomVScale : 0);
glDisable(GL_DEPTH_TEST);
glViewport(0, 0, BloomWidth, BloomHeight);
@ -242,7 +242,7 @@ void CRenderer::RenderBloom()
mBloomFramebuffers[2].Texture()->Bind(0);
CDrawUtil::DrawSquare();
if (mBloomMode == eBloomMaps)
if (mBloomMode == EBloomMode::BloomMaps)
{
// Bloom maps are in the framebuffer alpha channel.
// White * dst alpha = bloom map colors
@ -294,19 +294,19 @@ void CRenderer::AddMesh(IRenderable *pRenderable, int ComponentIndex, const CAAB
switch (DepthGroup)
{
case eBackground:
case EDepthGroup::Background:
mBackgroundBucket.Add(Ptr, Transparent);
break;
case eMidground:
case EDepthGroup::Midground:
mMidgroundBucket.Add(Ptr, Transparent);
break;
case eForeground:
case EDepthGroup::Foreground:
mForegroundBucket.Add(Ptr, Transparent);
break;
case eUI:
case EDepthGroup::UI:
mUIBucket.Add(Ptr, Transparent);
break;
}

View File

@ -21,14 +21,35 @@
#include <GL/glew.h>
enum class EBloomMode
{
NoBloom,
Bloom,
BloomMaps,
FakeBloom
};
/**
* @todo this rendering subsystem is bad and needs a rewrite
* there's quite a lot of problems overall, but generally speaking, one of the
* biggest problems with it is that scene nodes have too much control over how
* they render, and the renderer doesn't have enough. for example, if a certain
* render option is set, it should not be up to the node classes to respect that
* option, the renderer should be able to enforce it. there's a lot of other issues
* that make the renderer suboptimal and harder to maintain/extend than it should be.
* this is also a more general issue but graphics stuff needs to be further abstracted
* so that rendering code isn't directly calling OpenGL functions, ideally it should
* just have more abstracted code that gets redirected to OpenGL at a lower level so
* that other graphics backends could be supported in the future without needing to
* majorly rewrite everything (but I guess that's the point we're at right now anyway).
* I'm also pretty sure there's been no attempt made whatsoever to reduce the number of
* shader/texture state changes needed per frame, outside batching world geometry (via
* CStaticModel), which might be a performance drain.
*
* for more complaints about the rendering system implementation, see CSceneNode
*/
class CRenderer
{
public:
enum EBloomMode {
eNoBloom, eBloom, eBloomMaps, eFakeBloom
};
private:
FRenderOptions mOptions;
EBloomMode mBloomMode;
bool mDrawGrid;
@ -73,7 +94,7 @@ public:
void RenderBuckets(const SViewInfo& rkViewInfo);
void RenderBloom();
void RenderSky(CModel *pSkyboxModel, const SViewInfo& rkViewInfo);
void AddMesh(IRenderable *pRenderable, int ComponentIndex, const CAABox& rkAABox, bool Transparent, ERenderCommand Command, EDepthGroup DepthGroup = eMidground);
void AddMesh(IRenderable *pRenderable, int ComponentIndex, const CAABox& rkAABox, bool Transparent, ERenderCommand Command, EDepthGroup DepthGroup = EDepthGroup::Midground);
void BeginFrame();
void EndFrame();
void ClearDepthBuffer();

View File

@ -1,12 +1,12 @@
#ifndef EDEPTHGROUP
#define EDEPTHGROUP
enum EDepthGroup
enum class EDepthGroup
{
eBackground,
eMidground,
eForeground,
eUI
Background,
Midground,
Foreground,
UI
};
#endif // EDEPTHGROUP

View File

@ -1,12 +1,12 @@
#ifndef ERENDERCOMMAND
#define ERENDERCOMMAND
enum ERenderCommand
enum class ERenderCommand
{
eDrawMesh,
eDrawOpaqueParts,
eDrawTransparentParts,
eDrawSelection
DrawMesh,
DrawOpaqueParts,
DrawTransparentParts,
DrawSelection
};
#endif // ERENDERCOMMAND

View File

@ -3,17 +3,17 @@
#include <Common/Flags.h>
enum ERenderOption
enum class ERenderOption
{
eNoRenderOptions = 0x0,
eEnableUVScroll = 0x1,
eEnableBackfaceCull = 0x2,
eEnableOccluders = 0x4,
eNoMaterialSetup = 0x8,
eEnableBloom = 0x10,
eNoAlpha = 0x20
None = 0x0,
EnableUVScroll = 0x1,
EnableBackfaceCull = 0x2,
EnableOccluders = 0x4,
NoMaterialSetup = 0x8,
EnableBloom = 0x10,
NoAlpha = 0x20
};
DECLARE_FLAGS(ERenderOption, FRenderOptions)
DECLARE_FLAGS_ENUMCLASS(ERenderOption, FRenderOptions)
#endif // FRENDEROPTIONS_H

View File

@ -5,7 +5,7 @@
class CAnimEventData : public CResource
{
DECLARE_RESOURCE_TYPE(eAnimEventData)
DECLARE_RESOURCE_TYPE(AnimEventData)
struct SEvent
{

View File

@ -45,12 +45,12 @@ struct SHalfTransition
};
// Character structures
enum EOverlayType
enum class EOverlayType
{
eOT_Frozen = FOURCC('FRZN'),
eOT_Hypermode = FOURCC('HYPR'),
eOT_Acid = FOURCC('ACID'),
eOT_XRay = FOURCC('XRAY')
Frozen = FOURCC('FRZN'),
Hypermode = FOURCC('HYPR'),
Acid = FOURCC('ACID'),
XRay = FOURCC('XRAY')
};
struct SOverlayModel
@ -84,7 +84,7 @@ struct SSetCharacter
class CAnimSet : public CResource
{
DECLARE_RESOURCE_TYPE(eAnimSet)
DECLARE_RESOURCE_TYPE(AnimSet)
friend class CAnimSetLoader;
// Character Set

View File

@ -10,7 +10,7 @@
class CAnimation : public CResource
{
DECLARE_RESOURCE_TYPE(eAnimation)
DECLARE_RESOURCE_TYPE(Animation)
friend class CAnimationLoader;
typedef std::vector<CVector3f> TScaleChannel;

View File

@ -160,7 +160,7 @@ const SSetCharacter* CAnimationParameters::GetCurrentSetCharacter(int32 NodeInde
{
CAnimSet *pSet = AnimSet();
if (pSet && (pSet->Type() == eAnimSet || pSet->Type() == eCharacter))
if (pSet && (pSet->Type() == EResourceType::AnimSet || pSet->Type() == EResourceType::Character))
{
if (NodeIndex == -1)
NodeIndex = mCharIndex;
@ -215,7 +215,7 @@ void CAnimationParameters::SetResource(const CAssetID& rkID)
if (!pEntry)
errorf("Invalid resource ID passed to CAnimationParameters: %s", *rkID.ToString());
else if (pEntry->ResourceType() != eAnimSet && pEntry->ResourceType() != eCharacter)
else if (pEntry->ResourceType() != EResourceType::AnimSet && pEntry->ResourceType() != EResourceType::Character)
errorf("Resource with invalid type passed to CAnimationParameters: %s", *pEntry->CookedAssetPath().GetFileName());
}
}

View File

@ -24,7 +24,7 @@ struct SBoneTransformInfo
class CSkeleton : public CResource
{
DECLARE_RESOURCE_TYPE(eSkeleton)
DECLARE_RESOURCE_TYPE(Skeleton)
friend class CSkeletonLoader;
CBone *mpRootBone;

View File

@ -12,7 +12,7 @@ struct SVertexWeights
class CSkin : public CResource
{
DECLARE_RESOURCE_TYPE(eSkin)
DECLARE_RESOURCE_TYPE(Skin)
friend class CSkinLoader;
struct SVertGroup

View File

@ -6,7 +6,7 @@
class CSourceAnimData : public CResource
{
DECLARE_RESOURCE_TYPE(eSourceAnimData)
DECLARE_RESOURCE_TYPE(SourceAnimData)
friend class CAnimSetLoader;
struct STransition

View File

@ -5,21 +5,21 @@ CMetaAnimFactory gMetaAnimFactory;
IMetaAnimation* CMetaAnimFactory::LoadFromStream(IInputStream& rInput, EGame Game)
{
EMetaAnimationType Type = (EMetaAnimationType) rInput.ReadLong();
EMetaAnimType Type = (EMetaAnimType) rInput.ReadLong();
switch (Type)
{
case eMAT_Play:
case EMetaAnimType::Play:
return new CMetaAnimPlay(rInput, Game);
case eMAT_Blend:
case eMAT_PhaseBlend:
case EMetaAnimType::Blend:
case EMetaAnimType::PhaseBlend:
return new CMetaAnimBlend(Type, rInput, Game);
case eMAT_Random:
case EMetaAnimType::Random:
return new CMetaAnimRandom(rInput, Game);
case eMAT_Sequence:
case EMetaAnimType::Sequence:
return new CMetaAnimSequence(rInput, Game);
default:
@ -43,9 +43,9 @@ CMetaAnimPlay::CMetaAnimPlay(IInputStream& rInput, EGame Game)
mUnknownB = rInput.ReadLong();
}
EMetaAnimationType CMetaAnimPlay::Type() const
EMetaAnimType CMetaAnimPlay::Type() const
{
return eMAT_Play;
return EMetaAnimType::Play;
}
void CMetaAnimPlay::GetUniquePrimitives(std::set<CAnimPrimitive>& rPrimSet) const
@ -54,9 +54,9 @@ void CMetaAnimPlay::GetUniquePrimitives(std::set<CAnimPrimitive>& rPrimSet) cons
}
// ************ CMetaAnimBlend ************
CMetaAnimBlend::CMetaAnimBlend(EMetaAnimationType Type, IInputStream& rInput, EGame Game)
CMetaAnimBlend::CMetaAnimBlend(EMetaAnimType Type, IInputStream& rInput, EGame Game)
{
ASSERT(Type == eMAT_Blend || Type == eMAT_PhaseBlend);
ASSERT(Type == EMetaAnimType::Blend || Type == EMetaAnimType::PhaseBlend);
mType = Type;
mpMetaAnimA = gMetaAnimFactory.LoadFromStream(rInput, Game);
mpMetaAnimB = gMetaAnimFactory.LoadFromStream(rInput, Game);
@ -70,7 +70,7 @@ CMetaAnimBlend::~CMetaAnimBlend()
delete mpMetaAnimB;
}
EMetaAnimationType CMetaAnimBlend::Type() const
EMetaAnimType CMetaAnimBlend::Type() const
{
return mType;
}
@ -102,9 +102,9 @@ CMetaAnimRandom::~CMetaAnimRandom()
delete mProbabilityPairs[iPair].pAnim;
}
EMetaAnimationType CMetaAnimRandom::Type() const
EMetaAnimType CMetaAnimRandom::Type() const
{
return eMAT_Random;
return EMetaAnimType::Random;
}
void CMetaAnimRandom::GetUniquePrimitives(std::set<CAnimPrimitive>& rPrimSet) const
@ -132,9 +132,9 @@ CMetaAnimSequence::~CMetaAnimSequence()
delete mAnimations[iAnim];
}
EMetaAnimationType CMetaAnimSequence::Type() const
EMetaAnimType CMetaAnimSequence::Type() const
{
return eMAT_Sequence;
return EMetaAnimType::Sequence;
}
void CMetaAnimSequence::GetUniquePrimitives(std::set<CAnimPrimitive>& rPrimSet) const

View File

@ -5,13 +5,13 @@
#include "Core/Resource/TResPtr.h"
#include <Common/TString.h>
enum EMetaAnimationType
enum class EMetaAnimType
{
eMAT_Play = 0,
eMAT_Blend = 1,
eMAT_PhaseBlend = 2, // note: structure shared with eMAT_Blend
eMAT_Random = 3,
eMAT_Sequence = 4
Play = 0,
Blend = 1,
PhaseBlend = 2, // note: structure shared with eMAT_Blend
Random = 3,
Sequence = 4
};
// Factory class
@ -60,7 +60,7 @@ class IMetaAnimation
public:
IMetaAnimation() {}
virtual ~IMetaAnimation() {}
virtual EMetaAnimationType Type() const = 0;
virtual EMetaAnimType Type() const = 0;
virtual void GetUniquePrimitives(std::set<CAnimPrimitive>& rPrimSet) const = 0;
// Static
@ -78,7 +78,7 @@ protected:
public:
CMetaAnimPlay(const CAnimPrimitive& rkPrimitive, float UnkA, uint32 UnkB);
CMetaAnimPlay(IInputStream& rInput, EGame Game);
virtual EMetaAnimationType Type() const;
virtual EMetaAnimType Type() const;
virtual void GetUniquePrimitives(std::set<CAnimPrimitive>& rPrimSet) const;
// Accessors
@ -91,16 +91,16 @@ public:
class CMetaAnimBlend : public IMetaAnimation
{
protected:
EMetaAnimationType mType;
EMetaAnimType mType;
IMetaAnimation *mpMetaAnimA;
IMetaAnimation *mpMetaAnimB;
float mUnknownA;
bool mUnknownB;
public:
CMetaAnimBlend(EMetaAnimationType Type, IInputStream& rInput, EGame Game);
CMetaAnimBlend(EMetaAnimType Type, IInputStream& rInput, EGame Game);
~CMetaAnimBlend();
virtual EMetaAnimationType Type() const;
virtual EMetaAnimType Type() const;
virtual void GetUniquePrimitives(std::set<CAnimPrimitive>& rPrimSet) const;
// Accessors
@ -126,7 +126,7 @@ protected:
public:
CMetaAnimRandom(IInputStream& rInput, EGame Game);
~CMetaAnimRandom();
virtual EMetaAnimationType Type() const;
virtual EMetaAnimType Type() const;
virtual void GetUniquePrimitives(std::set<CAnimPrimitive>& rPrimSet) const;
};
@ -139,7 +139,7 @@ protected:
public:
CMetaAnimSequence(IInputStream& rInput, EGame Game);
~CMetaAnimSequence();
virtual EMetaAnimationType Type() const;
virtual EMetaAnimType Type() const;
virtual void GetUniquePrimitives(std::set<CAnimPrimitive>& rPrimSet) const;
};

View File

@ -6,21 +6,21 @@ CMetaTransFactory gMetaTransFactory;
IMetaTransition* CMetaTransFactory::LoadFromStream(IInputStream& rInput, EGame Game)
{
EMetaTransitionType Type = (EMetaTransitionType) rInput.ReadLong();
EMetaTransType Type = (EMetaTransType) rInput.ReadLong();
switch (Type)
{
case eMTT_MetaAnim:
case EMetaTransType::MetaAnim:
return new CMetaTransMetaAnim(rInput, Game);
case eMTT_Trans:
case eMTT_PhaseTrans:
case EMetaTransType::Trans:
case EMetaTransType::PhaseTrans:
return new CMetaTransTrans(Type, rInput, Game);
case eMTT_Snap:
case EMetaTransType::Snap:
return new CMetaTransSnap(rInput, Game);
case eMTT_Type4:
case EMetaTransType::Type4:
return new CMetaTransType4(rInput, Game);
default:
@ -40,9 +40,9 @@ CMetaTransMetaAnim::~CMetaTransMetaAnim()
delete mpAnim;
}
EMetaTransitionType CMetaTransMetaAnim::Type() const
EMetaTransType CMetaTransMetaAnim::Type() const
{
return eMTT_MetaAnim;
return EMetaTransType::MetaAnim;
}
void CMetaTransMetaAnim::GetUniquePrimitives(std::set<CAnimPrimitive>& rPrimSet) const
@ -51,9 +51,9 @@ void CMetaTransMetaAnim::GetUniquePrimitives(std::set<CAnimPrimitive>& rPrimSet)
}
// ************ CMetaTransTrans ************
CMetaTransTrans::CMetaTransTrans(EMetaTransitionType Type, IInputStream& rInput, EGame Game)
CMetaTransTrans::CMetaTransTrans(EMetaTransType Type, IInputStream& rInput, EGame Game)
{
ASSERT(Type == eMTT_Trans || Type == eMTT_PhaseTrans);
ASSERT(Type == EMetaTransType::Trans || Type == EMetaTransType::PhaseTrans);
mType = Type;
if (Game <= EGame::Echoes)
@ -70,7 +70,7 @@ CMetaTransTrans::CMetaTransTrans(EMetaTransitionType Type, IInputStream& rInput,
}
}
EMetaTransitionType CMetaTransTrans::Type() const
EMetaTransType CMetaTransTrans::Type() const
{
return mType;
}
@ -84,9 +84,9 @@ CMetaTransSnap::CMetaTransSnap(IInputStream&, EGame)
{
}
EMetaTransitionType CMetaTransSnap::Type() const
EMetaTransType CMetaTransSnap::Type() const
{
return eMTT_Snap;
return EMetaTransType::Snap;
}
void CMetaTransSnap::GetUniquePrimitives(std::set<CAnimPrimitive>&) const
@ -99,9 +99,9 @@ CMetaTransType4::CMetaTransType4(IInputStream& rInput, EGame)
rInput.Skip(0x14);
}
EMetaTransitionType CMetaTransType4::Type() const
EMetaTransType CMetaTransType4::Type() const
{
return eMTT_Type4;
return EMetaTransType::Type4;
}
void CMetaTransType4::GetUniquePrimitives(std::set<CAnimPrimitive>&) const

View File

@ -6,13 +6,13 @@
class IMetaAnimation;
class IMetaTransition;
enum EMetaTransitionType
enum class EMetaTransType
{
eMTT_MetaAnim = 0,
eMTT_Trans = 1,
eMTT_PhaseTrans = 2, // note: structure shared with eMTT_Trans
eMTT_Snap = 3,
eMTT_Type4 = 4 // MP3 only
MetaAnim = 0,
Trans = 1,
PhaseTrans = 2, // note: structure shared with eMTT_Trans
Snap = 3,
Type4 = 4 // MP3 only
};
// Factory class
@ -29,7 +29,7 @@ class IMetaTransition
public:
IMetaTransition() {}
virtual ~IMetaTransition() {}
virtual EMetaTransitionType Type() const = 0;
virtual EMetaTransType Type() const = 0;
virtual void GetUniquePrimitives(std::set<CAnimPrimitive>& rPrimSet) const = 0;
};
@ -41,14 +41,14 @@ class CMetaTransMetaAnim : public IMetaTransition
public:
CMetaTransMetaAnim(IInputStream& rInput, EGame Game);
~CMetaTransMetaAnim();
virtual EMetaTransitionType Type() const;
virtual EMetaTransType Type() const;
virtual void GetUniquePrimitives(std::set<CAnimPrimitive>& rPrimSet) const;
};
// CMetaTransTrans
class CMetaTransTrans : public IMetaTransition
{
EMetaTransitionType mType;
EMetaTransType mType;
float mUnknownA;
uint32 mUnknownB;
bool mUnknownC;
@ -56,8 +56,8 @@ class CMetaTransTrans : public IMetaTransition
uint32 mUnknownE;
public:
CMetaTransTrans(EMetaTransitionType Type, IInputStream& rInput, EGame Game);
virtual EMetaTransitionType Type() const;
CMetaTransTrans(EMetaTransType Type, IInputStream& rInput, EGame Game);
virtual EMetaTransType Type() const;
virtual void GetUniquePrimitives(std::set<CAnimPrimitive>& rPrimSet) const;
};
@ -66,7 +66,7 @@ class CMetaTransSnap : public IMetaTransition
{
public:
CMetaTransSnap(IInputStream& rInput, EGame Game);
virtual EMetaTransitionType Type() const;
virtual EMetaTransType Type() const;
virtual void GetUniquePrimitives(std::set<CAnimPrimitive>& rPrimSet) const;
};
@ -75,7 +75,7 @@ class CMetaTransType4 : public IMetaTransition
{
public:
CMetaTransType4(IInputStream& rInput, EGame Game);
virtual EMetaTransitionType Type() const;
virtual EMetaTransType Type() const;
virtual void GetUniquePrimitives(std::set<CAnimPrimitive>& rPrimSet) const;
};

View File

@ -20,7 +20,7 @@ class CScriptTemplate;
class CGameArea : public CResource
{
DECLARE_RESOURCE_TYPE(eArea)
DECLARE_RESOURCE_TYPE(Area)
friend class CAreaLoader;
friend class CAreaCooker;

View File

@ -6,7 +6,7 @@
// Very limited functionality - mostly just intended to find the AGSC that a sound ID belongs to
class CAudioGroup : public CResource
{
DECLARE_RESOURCE_TYPE(eAudioGroup)
DECLARE_RESOURCE_TYPE(AudioGroup)
friend class CAudioGroupLoader;
TString mGroupName;

View File

@ -5,7 +5,7 @@
class CAudioLookupTable : public CResource
{
DECLARE_RESOURCE_TYPE(eAudioLookupTable)
DECLARE_RESOURCE_TYPE(AudioLookupTable)
friend class CAudioGroupLoader;
std::vector<uint16> mDefineIDs;

View File

@ -5,7 +5,7 @@
class CAudioMacro : public CResource
{
DECLARE_RESOURCE_TYPE(eAudioMacro)
DECLARE_RESOURCE_TYPE(AudioMacro)
friend class CUnsupportedFormatLoader;
TString mMacroName;

View File

@ -5,7 +5,7 @@
CCollisionMesh::CCollisionMesh()
{
mVBO.SetVertexDesc(ePosition | eNormal);
mVBO.SetVertexDesc(EVertexAttribute::Position | EVertexAttribute::Normal);
mVertexCount = 0;
mLineCount = 0;
mFaceCount = 0;

View File

@ -8,7 +8,7 @@
class CCollisionMeshGroup : public CResource
{
DECLARE_RESOURCE_TYPE(eDynamicCollision)
DECLARE_RESOURCE_TYPE(DynamicCollision)
std::vector<CCollisionMesh*> mMeshes;
public:

View File

@ -5,7 +5,7 @@
class CDependencyGroup : public CResource
{
DECLARE_RESOURCE_TYPE(eDependencyGroup)
DECLARE_RESOURCE_TYPE(DependencyGroup)
std::vector<CAssetID> mDependencies;
public:

View File

@ -116,7 +116,7 @@ CVector2f CFont::RenderString(const TString& rkString, CRenderer* /*pRenderer*/,
// Load shader uniforms, buffer texture
glUniformMatrix4fv(ModelMtxLoc, 1, GL_FALSE, (GLfloat*) &GlyphTransform);
smGlyphVertices.BufferAttrib(eTex0, &pGlyph->TexCoords);
smGlyphVertices.BufferAttrib(EVertexAttribute::Tex0, &pGlyph->TexCoords);
// Draw fill
glUniform1i(LayerLoc, GlyphLayer);
@ -148,7 +148,7 @@ CVector2f CFont::RenderString(const TString& rkString, CRenderer* /*pRenderer*/,
void CFont::InitBuffers()
{
smGlyphVertices.SetActiveAttribs(ePosition | eTex0);
smGlyphVertices.SetActiveAttribs(EVertexAttribute::Position | EVertexAttribute::Tex0);
smGlyphVertices.SetVertexCount(4);
CVector3f Vertices[4] = {
@ -157,7 +157,7 @@ void CFont::InitBuffers()
CVector3f( 0.f, -2.f, 0.f),
CVector3f( 2.f, -2.f, 0.f)
};
smGlyphVertices.BufferAttrib(ePosition, Vertices);
smGlyphVertices.BufferAttrib(EVertexAttribute::Position, Vertices);
CVector2f TexCoords[4] = {
CVector2f(0.f, 0.f),
@ -165,7 +165,7 @@ void CFont::InitBuffers()
CVector2f(0.f, 1.f),
CVector2f(1.f, 1.f)
};
smGlyphVertices.BufferAttrib(eTex0, TexCoords);
smGlyphVertices.BufferAttrib(EVertexAttribute::Tex0, TexCoords);
smGlyphIndices.Reserve(4);
smGlyphIndices.AddIndex(0);

View File

@ -18,7 +18,7 @@ class CRenderer;
class CFont : public CResource
{
DECLARE_RESOURCE_TYPE(eFont)
DECLARE_RESOURCE_TYPE(Font)
friend class CFontLoader;
static CDynamicVertexBuffer smGlyphVertices; // This is the vertex buffer used to draw glyphs. It has two attributes - Pos and Tex0. Tex0 should be updated for each glyph.
static CIndexBuffer smGlyphIndices; // This is the index buffer used to draw glyphs. It uses a triangle strip.

View File

@ -60,14 +60,14 @@ float CLight::CalculateIntensity() const
float Greatest = (mColor.G >= mColor.B) ? mColor.G : mColor.B;
Greatest = (mColor.R >= Greatest) ? mColor.R : Greatest;
float Multiplier = (mType == eCustom) ? mAngleAttenCoefficients.X : 1.0f;
float Multiplier = (mType == ELightType::Custom) ? mAngleAttenCoefficients.X : 1.0f;
return Greatest * Multiplier;
}
// As is this one... partly
CVector3f CLight::CalculateSpotAngleAtten()
{
if (mType != eSpot) return CVector3f(1.f, 0.f, 0.f);
if (mType != ELightType::Spot) return CVector3f(1.f, 0.f, 0.f);
if ((mSpotCutoff < 0.f) || (mSpotCutoff > 90.f))
return CVector3f(1.f, 0.f, 0.f);
@ -141,14 +141,15 @@ CStructProperty* CLight::GetProperties() const
0,
"Light");
//@todo it would be really cool if the property could detect all possible values automatically from TEnumReflection
CChoiceProperty* pLightType = (CChoiceProperty*) IProperty::CreateIntrinsic(EPropertyType::Choice,
pProperties,
MEMBER_OFFSET(CLight, mType),
"LightType");
pLightType->AddValue("LocalAmbient", eLocalAmbient);
pLightType->AddValue("Directional", eDirectional);
pLightType->AddValue("Spot", eSpot);
pLightType->AddValue("Custom", eCustom);
pLightType->AddValue("LocalAmbient", (uint32) ELightType::LocalAmbient);
pLightType->AddValue("Directional", (uint32) ELightType::Directional);
pLightType->AddValue("Spot", (uint32) ELightType::Spot);
pLightType->AddValue("Custom", (uint32) ELightType::Custom);
IProperty::CreateIntrinsic(EPropertyType::Color,
pProperties,
@ -184,24 +185,24 @@ void CLight::Load() const
switch (mType)
{
case eLocalAmbient:
case ELightType::LocalAmbient:
// LocalAmbient is already accounted for in CGraphics::sAreaAmbientColor
return;
case eDirectional:
case ELightType::Directional:
pLight->Position = CVector4f(-mDirection * 1048576.f, 1.f);
pLight->Direction = CVector4f(mDirection, 0.f);
pLight->Color = mColor * CGraphics::sWorldLightMultiplier;
pLight->DistAtten = CVector4f(1.f, 0.f, 0.f, 0.f);
pLight->AngleAtten = CVector4f(1.f, 0.f, 0.f, 0.f);
break;
case eSpot:
case ELightType::Spot:
pLight->Position = CVector4f(mPosition, 1.f);
pLight->Direction = CVector4f(mDirection, 0.f);
pLight->Color = mColor * CGraphics::sWorldLightMultiplier;
pLight->DistAtten = mDistAttenCoefficients;
pLight->AngleAtten = mAngleAttenCoefficients;
break;
case eCustom:
case ELightType::Custom:
pLight->Position = CVector4f(mPosition, 1.f);
pLight->Direction = CVector4f(mDirection, 0.f);
pLight->Color = mColor * CGraphics::sWorldLightMultiplier;
@ -218,7 +219,7 @@ void CLight::Load() const
CLight* CLight::BuildLocalAmbient(const CVector3f& rkPosition, const CColor& rkColor)
{
CLight *pLight = new CLight;
pLight->mType = eLocalAmbient;
pLight->mType = ELightType::LocalAmbient;
pLight->mPosition = rkPosition;
pLight->mDirection = skDefaultLightDir;
pLight->mColor = rkColor;
@ -229,7 +230,7 @@ CLight* CLight::BuildLocalAmbient(const CVector3f& rkPosition, const CColor& rkC
CLight* CLight::BuildDirectional(const CVector3f& rkPosition, const CVector3f& rkDirection, const CColor& rkColor)
{
CLight *pLight = new CLight;
pLight->mType = eDirectional;
pLight->mType = ELightType::Directional;
pLight->mPosition = rkPosition;
pLight->mDirection = rkDirection;
pLight->mColor = rkColor;
@ -240,7 +241,7 @@ CLight* CLight::BuildDirectional(const CVector3f& rkPosition, const CVector3f& r
CLight* CLight::BuildSpot(const CVector3f& rkPosition, const CVector3f& rkDirection, const CColor& rkColor, float Cutoff)
{
CLight *pLight = new CLight;
pLight->mType = eSpot;
pLight->mType = ELightType::Spot;
pLight->mPosition = rkPosition;
pLight->mDirection = -rkDirection.Normalized();
pLight->mColor = rkColor;
@ -254,7 +255,7 @@ CLight* CLight::BuildCustom(const CVector3f& rkPosition, const CVector3f& rkDire
float AngleAttenA, float AngleAttenB, float AngleAttenC)
{
CLight *pLight = new CLight;
pLight->mType = eCustom;
pLight->mType = ELightType::Custom;
pLight->mPosition = rkPosition;
pLight->mDirection = rkDirection;
pLight->mColor = rkColor;

View File

@ -9,12 +9,12 @@
/* CLight is currently heavily based on the lights system from Metroid Prime,
* including code reverse engineered from the game's executable. Not yet sure
* how much needs to be modified to properly support DKCR. */
enum ELightType
enum class ELightType
{
eLocalAmbient = 0,
eDirectional = 1,
eSpot = 3,
eCustom = 2
LocalAmbient = 0,
Directional = 1,
Spot = 3,
Custom = 2
};
class CLight

View File

@ -15,12 +15,12 @@ std::map<uint64, CMaterial::SMaterialShader> CMaterial::smShaderMap;
CMaterial::CMaterial()
: mpShader(nullptr)
, mShaderStatus(eNoShader)
, mShaderStatus(EShaderStatus::NoShader)
, mRecalcHash(true)
, mEnableBloom(false)
, mVersion(EGame::Invalid)
, mOptions(eNoSettings)
, mVtxDesc(eNoAttributes)
, mOptions(EMaterialOption::None)
, mVtxDesc(EVertexAttribute::None)
, mBlendSrcFac(GL_ONE)
, mBlendDstFac(GL_ZERO)
, mLightingEnabled(true)
@ -32,11 +32,11 @@ CMaterial::CMaterial()
CMaterial::CMaterial(EGame Version, FVertexDescription VtxDesc)
: mpShader(nullptr)
, mShaderStatus(eNoShader)
, mShaderStatus(EShaderStatus::NoShader)
, mRecalcHash(true)
, mEnableBloom(Version == EGame::Corruption)
, mVersion(Version)
, mOptions(eDepthWrite)
, mOptions(EMaterialOption::DepthWrite)
, mVtxDesc(VtxDesc)
, mBlendSrcFac(GL_ONE)
, mBlendDstFac(GL_ZERO)
@ -46,11 +46,11 @@ CMaterial::CMaterial(EGame Version, FVertexDescription VtxDesc)
, mpIndirectTexture(nullptr)
{
mpShader = nullptr;
mShaderStatus = eNoShader;
mShaderStatus = EShaderStatus::NoShader;
mRecalcHash = true;
mEnableBloom = (Version == EGame::Corruption);
mVersion = Version;
mOptions = eDepthWrite;
mOptions = EMaterialOption::DepthWrite;
mVtxDesc = VtxDesc;
mBlendSrcFac = GL_ONE;
mBlendDstFac = GL_ZERO;
@ -96,7 +96,7 @@ void CMaterial::GenerateShader(bool AllowRegen /*= true*/)
{
HashParameters(); // Calling HashParameters() may change mShaderStatus so call it before checking
if (mShaderStatus != eShaderExists || AllowRegen)
if (mShaderStatus != EShaderStatus::ShaderExists || AllowRegen)
{
auto Find = smShaderMap.find(mParametersHash);
@ -119,14 +119,14 @@ void CMaterial::GenerateShader(bool AllowRegen /*= true*/)
if (!mpShader->IsValidProgram())
{
mShaderStatus = eShaderFailed;
mShaderStatus = EShaderStatus::ShaderFailed;
delete mpShader;
mpShader = nullptr;
}
else
{
mShaderStatus = eShaderExists;
mShaderStatus = EShaderStatus::ShaderExists;
smShaderMap[mParametersHash] = SMaterialShader { 1, mpShader };
}
}
@ -152,7 +152,7 @@ void CMaterial::ClearShader()
}
mpShader = nullptr;
mShaderStatus = eNoShader;
mShaderStatus = EShaderStatus::NoShader;
}
}
@ -162,16 +162,16 @@ bool CMaterial::SetCurrent(FRenderOptions Options)
if (sCurrentMaterial != HashParameters())
{
// Shader setup
if (mShaderStatus == eNoShader) GenerateShader();
if (mShaderStatus == EShaderStatus::NoShader) GenerateShader();
mpShader->SetCurrent();
if (mShaderStatus == eShaderFailed)
if (mShaderStatus == EShaderStatus::ShaderFailed)
return false;
// Set RGB blend equation - force to ZERO/ONE if alpha is disabled
GLenum srcRGB, dstRGB, srcAlpha, dstAlpha;
if (Options & eNoAlpha) {
if (Options & ERenderOption::NoAlpha) {
srcRGB = GL_ONE;
dstRGB = GL_ZERO;
} else {
@ -182,7 +182,7 @@ bool CMaterial::SetCurrent(FRenderOptions Options)
// Set alpha blend equation
bool AlphaBlended = ((mBlendSrcFac == GL_SRC_ALPHA) && (mBlendDstFac == GL_ONE_MINUS_SRC_ALPHA));
if ((mEnableBloom) && (Options & eEnableBloom) && (!AlphaBlended)) {
if ((mEnableBloom) && (Options & ERenderOption::EnableBloom) && (!AlphaBlended)) {
srcAlpha = mBlendSrcFac;
dstAlpha = mBlendDstFac;
} else {
@ -201,7 +201,7 @@ bool CMaterial::SetCurrent(FRenderOptions Options)
CGraphics::sVertexBlock.COLOR0_Mat = CColor::skWhite;
// Set depth write - force on if alpha is disabled (lots of weird depth issues otherwise)
if ((mOptions & eDepthWrite) || (Options & eNoAlpha)) glDepthMask(GL_TRUE);
if ((mOptions & EMaterialOption::DepthWrite) || (Options & ERenderOption::NoAlpha)) glDepthMask(GL_TRUE);
else glDepthMask(GL_FALSE);
// Load uniforms
@ -218,8 +218,8 @@ bool CMaterial::SetCurrent(FRenderOptions Options)
{
EUVAnimMode mode = mPasses[iPass]->AnimMode();
if ((mode == eInverseMV) || (mode == eInverseMVTranslated) ||
(mode == eModelMatrix) || (mode == eSimpleMode))
if ((mode == EUVAnimMode::InverseMV) || (mode == EUVAnimMode::InverseMVTranslated) ||
(mode == EUVAnimMode::ModelMatrix) || (mode == EUVAnimMode::SimpleMode))
mPasses[iPass]->SetAnimCurrent(Options, iPass);
}
}
@ -243,7 +243,7 @@ uint64 CMaterial::HashParameters()
{
if (mRecalcHash)
{
CFNV1A Hash(CFNV1A::e64Bit);
CFNV1A Hash(CFNV1A::k64Bit);
Hash.HashLong((int) mVersion);
Hash.HashLong(mOptions);
@ -273,7 +273,7 @@ uint64 CMaterial::HashParameters()
void CMaterial::Update()
{
mRecalcHash = true;
mShaderStatus = eNoShader;
mShaderStatus = EShaderStatus::NoShader;
}
void CMaterial::SetNumPasses(uint32 NumPasses)

View File

@ -16,35 +16,33 @@
class CMaterialSet;
// Enums
enum class EMaterialOption
{
None = 0,
Konst = 0x8,
Transparent = 0x10,
Masked = 0x20,
Reflection = 0x40,
DepthWrite = 0x80,
SurfaceReflection = 0x100,
Occluder = 0x200,
IndStage = 0x400,
Lightmap = 0x800,
ShortTexCoord = 0x2000,
AllMP1Settings = 0x2FF8,
DrawWhiteAmbientDKCR = 0x80000
};
DECLARE_FLAGS_ENUMCLASS(EMaterialOption, FMaterialOptions)
class CMaterial
{
public:
friend class CMaterialLoader;
friend class CMaterialCooker;
// Enums
enum EMaterialOption
enum class EShaderStatus
{
eNoSettings = 0,
eKonst = 0x8,
eTransparent = 0x10,
ePunchthrough = 0x20,
eReflection = 0x40,
eDepthWrite = 0x80,
eSurfaceReflection = 0x100,
eOccluder = 0x200,
eIndStage = 0x400,
eLightmap = 0x800,
eShortTexCoord = 0x2000,
eAllMP1Settings = 0x2FF8,
eDrawWhiteAmbientDKCR = 0x80000
};
DECLARE_FLAGS(EMaterialOption, FMaterialOptions)
private:
enum EShaderStatus
{
eNoShader, eShaderExists, eShaderFailed
NoShader, ShaderExists, ShaderFailed
};
// Statics

View File

@ -5,22 +5,22 @@
CMaterialPass::CMaterialPass(CMaterial *pParent)
: mPassType("CUST")
, mSettings(eNoPassSettings)
, mSettings(EPassSettings::None)
, mpTexture(nullptr)
, mEnabled(true)
, mpParentMat(pParent)
, mColorOutput(ePrevReg)
, mAlphaOutput(ePrevReg)
, mKColorSel(eKonstOne)
, mKAlphaSel(eKonstOne)
, mRasSel(eRasColorNull)
, mColorOutput(kPrevReg)
, mAlphaOutput(kPrevReg)
, mKColorSel(kKonstOne)
, mKAlphaSel(kKonstOne)
, mRasSel(kRasColorNull)
, mTexCoordSource(0xFF)
, mAnimMode(eNoUVAnim)
, mAnimMode(EUVAnimMode::NoUVAnim)
{
for (uint32 iParam = 0; iParam < 4; iParam++)
{
mColorInputs[iParam] = eZeroRGB;
mAlphaInputs[iParam] = eZeroAlpha;
mColorInputs[iParam] = kZeroRGB;
mAlphaInputs[iParam] = kZeroAlpha;
mAnimParams[iParam] = 0.f;
}
}
@ -72,7 +72,7 @@ void CMaterialPass::HashParameters(CFNV1A& rHash)
rHash.HashLong(mKAlphaSel);
rHash.HashLong(mRasSel);
rHash.HashLong(mTexCoordSource);
rHash.HashLong(mAnimMode);
rHash.HashLong((uint) mAnimMode);
rHash.HashData(mAnimParams, sizeof(float) * 4);
rHash.HashByte(mEnabled);
}
@ -86,7 +86,7 @@ void CMaterialPass::LoadTexture(uint32 PassIndex)
void CMaterialPass::SetAnimCurrent(FRenderOptions Options, uint32 PassIndex)
{
if (mAnimMode == eNoUVAnim) return;
if (mAnimMode == EUVAnimMode::NoUVAnim) return;
float Seconds = CTimer::SecondsMod900();
const CMatrix4f& ModelMtx = CGraphics::sMVPBlock.ModelMatrix;
@ -98,8 +98,8 @@ void CMaterialPass::SetAnimCurrent(FRenderOptions Options, uint32 PassIndex)
switch (mAnimMode)
{
case eInverseMV: // Mode 0
case eSimpleMode: // Mode 10 - maybe not correct?
case EUVAnimMode::InverseMV: // Mode 0
case EUVAnimMode::SimpleMode: // Mode 10 - maybe not correct?
{
TexMtx = (ViewMtx.Inverse().Transpose() * ModelMtx);
TexMtx[0][3] = TexMtx[1][3] = TexMtx[2][3] = 0.f;
@ -110,7 +110,7 @@ void CMaterialPass::SetAnimCurrent(FRenderOptions Options, uint32 PassIndex)
break;
}
case eInverseMVTranslated: // Mode 1
case EUVAnimMode::InverseMVTranslated: // Mode 1
{
TexMtx = (ViewMtx.Inverse().Transpose() * ModelMtx);
PostMtx = CMatrix4f(0.5f, 0.0f, 0.0f, 0.5f,
@ -119,9 +119,9 @@ void CMaterialPass::SetAnimCurrent(FRenderOptions Options, uint32 PassIndex)
0.0f, 0.0f, 0.0f, 1.0f);
}
case eUVScroll: // Mode 2
case EUVAnimMode::UVScroll: // Mode 2
{
if (Options & eEnableUVScroll)
if (Options & ERenderOption::EnableUVScroll)
{
TexMtx[0][3] = (Seconds * mAnimParams[2]) + mAnimParams[0];
TexMtx[1][3] = (Seconds * mAnimParams[3]) + mAnimParams[1];
@ -129,9 +129,9 @@ void CMaterialPass::SetAnimCurrent(FRenderOptions Options, uint32 PassIndex)
break;
}
case eUVRotation: // Mode 3
case EUVAnimMode::UVRotation: // Mode 3
{
if (Options & eEnableUVScroll)
if (Options & ERenderOption::EnableUVScroll)
{
float Angle = (Seconds * mAnimParams[1]) + mAnimParams[0];
@ -148,20 +148,20 @@ void CMaterialPass::SetAnimCurrent(FRenderOptions Options, uint32 PassIndex)
break;
}
case eHFilmstrip: // Mode 4
case eVFilmstrip: // Mode 5
case EUVAnimMode::HFilmstrip: // Mode 4
case EUVAnimMode::VFilmstrip: // Mode 5
{
if (Options & eEnableUVScroll)
if (Options & ERenderOption::EnableUVScroll)
{
float Offset = mAnimParams[2] * mAnimParams[0] * (mAnimParams[3] + Seconds);
Offset = (float)(short)(float)(mAnimParams[1] * fmod(Offset, 1.0f)) * mAnimParams[2];
if (mAnimMode == eHFilmstrip) TexMtx[0][3] = Offset;
if (mAnimMode == eVFilmstrip) TexMtx[1][3] = Offset;
if (mAnimMode == EUVAnimMode::HFilmstrip) TexMtx[0][3] = Offset;
if (mAnimMode == EUVAnimMode::VFilmstrip) TexMtx[1][3] = Offset;
}
break;
}
case eModelMatrix: // Mode 6
case EUVAnimMode::ModelMatrix: // Mode 6
{
// It looks ok, but I can't tell whether it's correct...
TexMtx = ModelMtx;
@ -174,7 +174,7 @@ void CMaterialPass::SetAnimCurrent(FRenderOptions Options, uint32 PassIndex)
TexMtx[2][3] = 0.f;
}
case eConvolutedModeA: // Mode 7
case EUVAnimMode::ConvolutedModeA: // Mode 7
{
CMatrix4f View = CGraphics::sMVPBlock.ViewMatrix;
@ -196,7 +196,7 @@ void CMaterialPass::SetAnimCurrent(FRenderOptions Options, uint32 PassIndex)
break;
}
case eConvolutedModeB: // Mode 8 (MP3/DKCR only)
case EUVAnimMode::ConvolutedModeB: // Mode 8 (MP3/DKCR only)
{
// todo
break;
@ -256,8 +256,8 @@ void CMaterialPass::SetKColorSel(ETevKSel Sel)
void CMaterialPass::SetKAlphaSel(ETevKSel Sel)
{
// Konst RGB is invalid for alpha, so reset to One if that's the selection
if ((Sel >= eKonst0_RGB) && (Sel <= eKonst3_RGB))
Sel = eKonstOne;
if ((Sel >= kKonst0_RGB) && (Sel <= kKonst3_RGB))
Sel = kKonstOne;
mKAlphaSel = Sel;
mpParentMat->Update();

View File

@ -10,23 +10,22 @@
class CMaterial;
enum class EPassSettings
{
None = 0x0,
EmissiveBloom = 0x4,
InvertOpacityMap = 0x10
};
DECLARE_FLAGS_ENUMCLASS(EPassSettings, FPassSettings)
class CMaterialPass
{
friend class CMaterialLoader;
friend class CMaterialCooker;
public:
enum EPassSettings
{
eNoPassSettings = 0x0,
eEmissiveBloom = 0x4,
eInvertOpacityMap = 0x10
};
private:
CMaterial *mpParentMat;
CFourCC mPassType;
EPassSettings mSettings;
FPassSettings mSettings;
ETevColorInput mColorInputs[4];
ETevAlphaInput mAlphaInputs[4];

View File

@ -8,7 +8,7 @@
class CPoiToWorld : public CResource
{
DECLARE_RESOURCE_TYPE(eStaticGeometryMap)
DECLARE_RESOURCE_TYPE(StaticGeometryMap)
public:
struct SPoiMap

View File

@ -8,7 +8,7 @@
class CResTypeFilter
{
EGame mGame;
std::set<EResType> mAcceptedTypes;
std::set<EResourceType> mAcceptedTypes;
public:
CResTypeFilter() : mGame(EGame::Invalid) { }
@ -53,7 +53,7 @@ public:
rArc << SerialParameter("AcceptedTypes", mAcceptedTypes, SH_Proxy);
}
inline bool Accepts(EResType Type) const
inline bool Accepts(EResourceType Type) const
{
return mAcceptedTypes.find(Type) != mAcceptedTypes.end();
}

View File

@ -2,9 +2,9 @@
#include <Common/Macros.h>
#include <algorithm>
std::unordered_map<EResType, CResTypeInfo*> CResTypeInfo::smTypeMap;
std::unordered_map<EResourceType, CResTypeInfo*> CResTypeInfo::smTypeMap;
CResTypeInfo::CResTypeInfo(EResType Type, const TString& rkTypeName, const TString& rkRetroExtension)
CResTypeInfo::CResTypeInfo(EResourceType Type, const TString& rkTypeName, const TString& rkRetroExtension)
: mType(Type)
, mTypeName(rkTypeName)
, mRetroExtension(rkRetroExtension)
@ -117,7 +117,7 @@ void Serialize(IArchive& rArc, CResTypeInfo*& rpType)
}
}
void Serialize(IArchive& rArc, EResType& rType)
void Serialize(IArchive& rArc, EResourceType& rType)
{
CFourCC Extension;
@ -169,235 +169,235 @@ void CResTypeInfo::CResTypeInfoFactory::AddExtension(CResTypeInfo *pType, CFourC
void CResTypeInfo::CResTypeInfoFactory::InitTypes()
{
{
CResTypeInfo *pType = new CResTypeInfo(eAnimation, "Animation", "ani");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::Animation, "Animation", "ani");
AddExtension(pType, "ANIM", EGame::PrimeDemo, EGame::DKCReturns);
}
{
CResTypeInfo *pType = new CResTypeInfo(eAnimCollisionPrimData, "Animation Collision Primitive Data", "?");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::AnimCollisionPrimData, "Animation Collision Primitive Data", "?");
AddExtension(pType, "CPRM", EGame::DKCReturns, EGame::DKCReturns);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(eAnimEventData, "Animation Event Data", "evnt");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::AnimEventData, "Animation Event Data", "evnt");
AddExtension(pType, "EVNT", EGame::PrimeDemo, EGame::Prime);
}
{
CResTypeInfo *pType = new CResTypeInfo(eAnimSet, "Animation Character Set", "acs");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::AnimSet, "Animation Character Set", "acs");
AddExtension(pType, "ANCS", EGame::PrimeDemo, EGame::Echoes);
}
{
CResTypeInfo *pType = new CResTypeInfo(eArea, "Area", "mrea");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::Area, "Area", "mrea");
AddExtension(pType, "MREA", EGame::PrimeDemo, EGame::DKCReturns);
}
{
CResTypeInfo *pType = new CResTypeInfo(eAudioAmplitudeData, "Audio Amplitude Data", "?");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::AudioAmplitudeData, "Audio Amplitude Data", "?");
AddExtension(pType, "CAAD", EGame::Corruption, EGame::Corruption);
}
{
CResTypeInfo *pType = new CResTypeInfo(eAudioGroup, "Audio Group", "agsc");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::AudioGroup, "Audio Group", "agsc");
AddExtension(pType, "AGSC", EGame::PrimeDemo, EGame::Echoes);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(eAudioMacro, "Audio Macro", "caud");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::AudioMacro, "Audio Macro", "caud");
AddExtension(pType, "CAUD", EGame::CorruptionProto, EGame::DKCReturns);
}
{
CResTypeInfo *pType = new CResTypeInfo(eAudioSample, "Audio Sample", "csmp");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::AudioSample, "Audio Sample", "csmp");
AddExtension(pType, "CSMP", EGame::CorruptionProto, EGame::DKCReturns);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(eAudioLookupTable, "Audio Lookup Table", "atbl");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::AudioLookupTable, "Audio Lookup Table", "atbl");
AddExtension(pType, "ATBL", EGame::PrimeDemo, EGame::Corruption);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(eBinaryData, "Generic Data", "dat");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::BinaryData, "Generic Data", "dat");
AddExtension(pType, "DUMB", EGame::PrimeDemo, EGame::Corruption);
}
{
CResTypeInfo *pType = new CResTypeInfo(eBurstFireData, "Burst Fire Data", "bfre.bfrc");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::BurstFireData, "Burst Fire Data", "bfre.bfrc");
AddExtension(pType, "BFRC", EGame::CorruptionProto, EGame::Corruption);
}
{
CResTypeInfo *pType = new CResTypeInfo(eCharacter, "Character", "char");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::Character, "Character", "char");
AddExtension(pType, "CHAR", EGame::CorruptionProto, EGame::DKCReturns);
}
{
CResTypeInfo *pType = new CResTypeInfo(eDependencyGroup, "Dependency Group", "?");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::DependencyGroup, "Dependency Group", "?");
AddExtension(pType, "DGRP", EGame::PrimeDemo, EGame::DKCReturns);
}
{
CResTypeInfo *pType = new CResTypeInfo(eDynamicCollision, "Dynamic Collision", "dcln");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::DynamicCollision, "Dynamic Collision", "dcln");
AddExtension(pType, "DCLN", EGame::PrimeDemo, EGame::DKCReturns);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(eFont, "Font", "rpff");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::Font, "Font", "rpff");
AddExtension(pType, "FONT", EGame::PrimeDemo, EGame::DKCReturns);
}
{
CResTypeInfo *pType = new CResTypeInfo(eGuiFrame, "Gui Frame", "frme");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::GuiFrame, "Gui Frame", "frme");
AddExtension(pType, "FRME", EGame::PrimeDemo, EGame::DKCReturns);
}
{
CResTypeInfo *pType = new CResTypeInfo(eGuiKeyFrame, "Gui Keyframe", "?");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::GuiKeyFrame, "Gui Keyframe", "?");
AddExtension(pType, "KFAM", EGame::PrimeDemo, EGame::PrimeDemo);
}
{
CResTypeInfo *pType = new CResTypeInfo(eHintSystem, "Hint System Data", "hint");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::HintSystem, "Hint System Data", "hint");
AddExtension(pType, "HINT", EGame::Prime, EGame::Corruption);
}
{
CResTypeInfo *pType = new CResTypeInfo(eMapArea, "Area Map", "mapa");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::MapArea, "Area Map", "mapa");
AddExtension(pType, "MAPA", EGame::PrimeDemo, EGame::Corruption);
}
{
CResTypeInfo *pType = new CResTypeInfo(eMapWorld, "World Map", "mapw");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::MapWorld, "World Map", "mapw");
AddExtension(pType, "MAPW", EGame::PrimeDemo, EGame::Corruption);
}
{
CResTypeInfo *pType = new CResTypeInfo(eMapUniverse, "Universe Map", "mapu");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::MapUniverse, "Universe Map", "mapu");
AddExtension(pType, "MAPU", EGame::PrimeDemo, EGame::Echoes);
}
{
CResTypeInfo *pType = new CResTypeInfo(eMidi, "MIDI", "?");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::Midi, "MIDI", "?");
AddExtension(pType, "CSNG", EGame::PrimeDemo, EGame::Echoes);
}
{
CResTypeInfo *pType = new CResTypeInfo(eModel, "Model", "cmdl");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::Model, "Model", "cmdl");
AddExtension(pType, "CMDL", EGame::PrimeDemo, EGame::DKCReturns);
}
{
CResTypeInfo *pType = new CResTypeInfo(eParticle, "Particle System", "gpsm.part");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::Particle, "Particle System", "gpsm.part");
AddExtension(pType, "PART", EGame::PrimeDemo, EGame::DKCReturns);
}
{
CResTypeInfo *pType = new CResTypeInfo(eParticleCollisionResponse, "Collision Response Particle System", "crsm.crsc");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::ParticleCollisionResponse, "Collision Response Particle System", "crsm.crsc");
AddExtension(pType, "CRSC", EGame::PrimeDemo, EGame::Corruption);
}
{
CResTypeInfo *pType = new CResTypeInfo(eParticleDecal, "Decal Particle System", "dpsm.dpsc");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::ParticleDecal, "Decal Particle System", "dpsm.dpsc");
AddExtension(pType, "DPSC", EGame::PrimeDemo, EGame::Corruption);
}
{
CResTypeInfo *pType = new CResTypeInfo(eParticleElectric, "Electric Particle System", "elsm.elsc");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::ParticleElectric, "Electric Particle System", "elsm.elsc");
AddExtension(pType, "ELSC", EGame::PrimeDemo, EGame::Corruption);
}
{
CResTypeInfo *pType = new CResTypeInfo(eParticleSorted, "Sorted Particle System", "srsm.srsc");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::ParticleSorted, "Sorted Particle System", "srsm.srsc");
AddExtension(pType, "SRSC", EGame::EchoesDemo, EGame::Echoes);
}
{
CResTypeInfo *pType = new CResTypeInfo(eParticleSpawn, "Spawn Particle System", "spsm.spsc");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::ParticleSpawn, "Spawn Particle System", "spsm.spsc");
AddExtension(pType, "SPSC", EGame::EchoesDemo, EGame::DKCReturns);
}
{
CResTypeInfo *pType = new CResTypeInfo(eParticleSwoosh, "Swoosh Particle System", "swsh.swhc");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::ParticleSwoosh, "Swoosh Particle System", "swsh.swhc");
AddExtension(pType, "SWHC", EGame::PrimeDemo, EGame::DKCReturns);
}
{
CResTypeInfo *pType = new CResTypeInfo(eParticleTransform, "Transform Particle System", "xfsm.xfsc");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::ParticleTransform, "Transform Particle System", "xfsm.xfsc");
AddExtension(pType, "XFSC", EGame::DKCReturns, EGame::DKCReturns);
}
{
CResTypeInfo *pType = new CResTypeInfo(eParticleWeapon, "Weapon Particle System", "wpsm.wpsc");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::ParticleWeapon, "Weapon Particle System", "wpsm.wpsc");
AddExtension(pType, "WPSC", EGame::PrimeDemo, EGame::Corruption);
}
{
CResTypeInfo *pType = new CResTypeInfo(ePathfinding, "Pathfinding Mesh", "path");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::Pathfinding, "Pathfinding Mesh", "path");
AddExtension(pType, "PATH", EGame::PrimeDemo, EGame::Corruption);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(ePortalArea, "Portal Area", "?");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::PortalArea, "Portal Area", "?");
AddExtension(pType, "PTLA", EGame::EchoesDemo, EGame::Corruption);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(eRuleSet, "Rule Set", "rule");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::RuleSet, "Rule Set", "rule");
AddExtension(pType, "RULE", EGame::EchoesDemo, EGame::DKCReturns);
}
{
CResTypeInfo *pType = new CResTypeInfo(eSaveArea, "Area Save Info", "sava");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::SaveArea, "Area Save Info", "sava");
AddExtension(pType, "SAVA", EGame::CorruptionProto, EGame::Corruption);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(eSaveWorld, "World Save Info", "savw");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::SaveWorld, "World Save Info", "savw");
AddExtension(pType, "SAVW", EGame::Prime, EGame::DKCReturns);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(eScan, "Scan", "scan");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::Scan, "Scan", "scan");
AddExtension(pType, "SCAN", EGame::PrimeDemo, EGame::Corruption);
}
{
CResTypeInfo *pType = new CResTypeInfo(eSkeleton, "Skeleton", "cin");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::Skeleton, "Skeleton", "cin");
AddExtension(pType, "CINF", EGame::PrimeDemo, EGame::DKCReturns);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(eSkin, "Skin", "cskr");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::Skin, "Skin", "cskr");
AddExtension(pType, "CSKR", EGame::PrimeDemo, EGame::DKCReturns);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(eSourceAnimData, "Source Animation Data", "sand");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::SourceAnimData, "Source Animation Data", "sand");
AddExtension(pType, "SAND", EGame::CorruptionProto, EGame::Corruption);
pType->mCanHaveDependencies = false; // all dependencies are added to the CHAR dependency tree
}
{
CResTypeInfo *pType = new CResTypeInfo(eSpatialPrimitive, "Spatial Primitive", "?");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::SpatialPrimitive, "Spatial Primitive", "?");
AddExtension(pType, "CSPP", EGame::EchoesDemo, EGame::Echoes);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(eStateMachine, "State Machine", "afsm");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::StateMachine, "State Machine", "afsm");
AddExtension(pType, "AFSM", EGame::PrimeDemo, EGame::Echoes);
AddExtension(pType, "FSM2", EGame::CorruptionProto, EGame::Corruption);
AddExtension(pType, "FSMC", EGame::DKCReturns, EGame::DKCReturns);
}
{
CResTypeInfo *pType = new CResTypeInfo(eStateMachine2, "State Machine 2", "fsm2");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::StateMachine2, "State Machine 2", "fsm2");
AddExtension(pType, "FSM2", EGame::EchoesDemo, EGame::Corruption);
}
{
CResTypeInfo *pType = new CResTypeInfo(eStaticGeometryMap, "Static Scan Map", "egmc");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::StaticGeometryMap, "Static Scan Map", "egmc");
AddExtension(pType, "EGMC", EGame::EchoesDemo, EGame::Corruption);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(eStreamedAudio, "Streamed Audio", "?");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::StreamedAudio, "Streamed Audio", "?");
AddExtension(pType, "STRM", EGame::CorruptionProto, EGame::DKCReturns);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(eStringList, "String List", "stlc");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::StringList, "String List", "stlc");
AddExtension(pType, "STLC", EGame::EchoesDemo, EGame::CorruptionProto);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(eStringTable, "String Table", "strg");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::StringTable, "String Table", "strg");
AddExtension(pType, "STRG", EGame::PrimeDemo, EGame::DKCReturns);
}
{
CResTypeInfo *pType = new CResTypeInfo(eTexture, "Texture", "txtr");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::Texture, "Texture", "txtr");
AddExtension(pType, "TXTR", EGame::PrimeDemo, EGame::DKCReturns);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(eTweak, "Tweak Data", "ctwk");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::Tweak, "Tweak Data", "ctwk");
AddExtension(pType, "CTWK", EGame::PrimeDemo, EGame::Prime);
pType->mCanHaveDependencies = false;
}
{
CResTypeInfo *pType = new CResTypeInfo(eUserEvaluatorData, "User Evaluator Data", "user.usrc");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::UserEvaluatorData, "User Evaluator Data", "user.usrc");
AddExtension(pType, "USRC", EGame::CorruptionProto, EGame::Corruption);
}
{
CResTypeInfo *pType = new CResTypeInfo(eWorld, "World", "mwld");
CResTypeInfo *pType = new CResTypeInfo(EResourceType::World, "World", "mwld");
AddExtension(pType, "MLVL", EGame::PrimeDemo, EGame::DKCReturns);
pType->mCanBeSerialized = true;
}

View File

@ -17,17 +17,17 @@ class CResTypeInfo
CFourCC CookedExt;
};
EResType mType;
EResourceType mType;
TString mTypeName;
std::vector<SGameExtension> mCookedExtensions;
TString mRetroExtension; // File extension in Retro's directory tree. We don't use it directly but it is needed for generating asset ID hashes
bool mCanBeSerialized;
bool mCanHaveDependencies;
static std::unordered_map<EResType, CResTypeInfo*> smTypeMap;
static std::unordered_map<EResourceType, CResTypeInfo*> smTypeMap;
// Private Methods
CResTypeInfo(EResType Type, const TString& rkTypeName, const TString& rkRetroExtension);
CResTypeInfo(EResourceType Type, const TString& rkTypeName, const TString& rkRetroExtension);
~CResTypeInfo() {}
// Public Methods
@ -36,7 +36,7 @@ public:
CFourCC CookedExtension(EGame Game) const;
// Accessors
inline EResType Type() const { return mType; }
inline EResourceType Type() const { return mType; }
inline TString TypeName() const { return mTypeName; }
inline bool CanBeSerialized() const { return mCanBeSerialized; }
inline bool CanHaveDependencies() const { return mCanHaveDependencies; }
@ -45,7 +45,7 @@ public:
static void GetAllTypesInGame(EGame Game, std::list<CResTypeInfo*>& rOut);
static CResTypeInfo* TypeForCookedExtension(EGame, CFourCC Ext);
inline static CResTypeInfo* FindTypeInfo(EResType Type)
inline static CResTypeInfo* FindTypeInfo(EResourceType Type)
{
auto Iter = smTypeMap.find(Type);
return (Iter == smTypeMap.end() ? nullptr : Iter->second);

View File

@ -13,11 +13,11 @@
// This macro creates functions that allow us to easily identify this resource type.
// Must be included on every CResource subclass.
#define DECLARE_RESOURCE_TYPE(ResTypeEnum) \
#define DECLARE_RESOURCE_TYPE(ResourceTypeEnum) \
public: \
static EResType StaticType() \
static EResourceType StaticType() \
{ \
return ResTypeEnum; \
return EResourceType::ResourceTypeEnum; \
} \
\
static CResTypeInfo* StaticTypeInfo() \
@ -29,7 +29,7 @@ private: \
class CResource
{
DECLARE_RESOURCE_TYPE(eResource)
DECLARE_RESOURCE_TYPE(Resource)
CResourceEntry *mpEntry;
int mRefCount;
@ -46,7 +46,7 @@ public:
inline CResourceEntry* Entry() const { return mpEntry; }
inline CResTypeInfo* TypeInfo() const { return mpEntry->TypeInfo(); }
inline EResType Type() const { return mpEntry->TypeInfo()->Type(); }
inline EResourceType Type() const { return mpEntry->TypeInfo()->Type(); }
inline TString Source() const { return mpEntry ? mpEntry->CookedAssetPath(true).GetFileName() : ""; }
inline TString FullSource() const { return mpEntry ? mpEntry->CookedAssetPath(true) : ""; }
inline CAssetID ID() const { return mpEntry ? mpEntry->ID() : CAssetID::skInvalidID64; }

View File

@ -9,18 +9,18 @@
class CScan : public CResource
{
DECLARE_RESOURCE_TYPE(eScan)
DECLARE_RESOURCE_TYPE(Scan)
friend class CScanLoader;
public:
// This likely needs revising when MP2/MP3 support is added
enum ELogbookCategory
enum class ELogbookCategory
{
eNone,
ePirateData,
eChozoLore,
eCreatures,
eResearch
None,
PirateData,
ChozoLore,
Creatures,
Research
};
struct SScanInfoSecondaryModel
@ -61,7 +61,7 @@ public:
, mpStringTable(nullptr)
, mIsSlow(false)
, mIsImportant(false)
, mCategory(eNone)
, mCategory(ELogbookCategory::None)
{}
CDependencyTree* BuildDependencyTree() const

View File

@ -5,7 +5,7 @@
class CStringList : public CResource
{
DECLARE_RESOURCE_TYPE(eStringList)
DECLARE_RESOURCE_TYPE(StringList)
friend class CAudioGroupLoader;
std::vector<TString> mStringList;

View File

@ -9,7 +9,7 @@
class CStringTable : public CResource
{
DECLARE_RESOURCE_TYPE(eStringTable)
DECLARE_RESOURCE_TYPE(StringTable)
friend class CStringLoader;
std::vector<TString> mStringNames;
@ -46,7 +46,7 @@ public:
{
// STRGs can reference FONTs with the &font=; formatting tag and TXTRs with the &image=; tag
CDependencyTree *pTree = new CDependencyTree();
EIDLength IDLength = (Game() <= EGame::Echoes ? e32Bit : e64Bit);
EIDLength IDLength = (Game() <= EGame::Echoes ? k32Bit : k64Bit);
for (uint32 iLang = 0; iLang < mLangTables.size(); iLang++)
{

View File

@ -2,8 +2,8 @@
CTexture::CTexture(CResourceEntry *pEntry /*= 0*/)
: CResource(pEntry)
, mTexelFormat(eRGBA8)
, mSourceTexelFormat(eRGBA8)
, mTexelFormat(ETexelFormat::RGBA8)
, mSourceTexelFormat(ETexelFormat::RGBA8)
, mWidth(0)
, mHeight(0)
, mNumMipMaps(0)
@ -17,8 +17,8 @@ CTexture::CTexture(CResourceEntry *pEntry /*= 0*/)
}
CTexture::CTexture(uint32 Width, uint32 Height)
: mTexelFormat(eRGBA8)
, mSourceTexelFormat(eRGBA8)
: mTexelFormat(ETexelFormat::RGBA8)
, mSourceTexelFormat(ETexelFormat::RGBA8)
, mWidth((uint16) Width)
, mHeight((uint16) Height)
, mNumMipMaps(1)
@ -47,27 +47,27 @@ bool CTexture::BufferGL()
switch (mTexelFormat)
{
case eLuminance:
case ETexelFormat::Luminance:
GLFormat = GL_LUMINANCE;
GLType = GL_UNSIGNED_BYTE;
break;
case eLuminanceAlpha:
case ETexelFormat::LuminanceAlpha:
GLFormat = GL_LUMINANCE_ALPHA;
GLType = GL_UNSIGNED_BYTE;
break;
case eRGB565:
case ETexelFormat::RGB565:
GLFormat = GL_RGB;
GLType = GL_UNSIGNED_SHORT_5_6_5;
break;
case eRGBA4:
case ETexelFormat::RGBA4:
GLFormat = GL_RGBA;
GLType = GL_UNSIGNED_SHORT_4_4_4_4;
break;
case eRGBA8:
case ETexelFormat::RGBA8:
GLFormat = GL_RGBA;
GLType = GL_UNSIGNED_BYTE;
break;
case eDXT1:
case ETexelFormat::DXT1:
GLFormat = GL_COMPRESSED_RGBA_S3TC_DXT1_EXT;
IsCompressed = true;
break;
@ -145,9 +145,9 @@ float CTexture::ReadTexelAlpha(const CVector2f& rkTexCoord)
uint32 TexelX = (uint32) ((mWidth - 1) * rkTexCoord.X);
uint32 TexelY = (uint32) ((mHeight - 1) * (1.f - fmodf(rkTexCoord.Y, 1.f)));
if (mTexelFormat == eDXT1 && mBufferExists)
if (mTexelFormat == ETexelFormat::DXT1 && mBufferExists)
{
CMemoryInStream Buffer(mpImgDataBuffer, mImgDataSize, IOUtil::kSystemEndianness);
CMemoryInStream Buffer(mpImgDataBuffer, mImgDataSize, EEndian::SystemEndian);
// 8 bytes per 4x4 16-pixel block, left-to-right top-to-bottom
uint32 BlockIdxX = TexelX / 4;
@ -205,18 +205,18 @@ bool CTexture::WriteDDS(IOutputStream& rOut)
switch (mTexelFormat)
{
case eLuminance:
case ETexelFormat::Luminance:
PFFlags = 0x20000;
PFBpp = 0x8;
PFRBitMask = 0xFF;
break;
case eLuminanceAlpha:
case ETexelFormat::LuminanceAlpha:
PFFlags = 0x20001;
PFBpp = 0x10;
PFRBitMask = 0x00FF;
PFABitMask = 0xFF00;
break;
case eRGBA4:
case ETexelFormat::RGBA4:
PFFlags = 0x41;
PFBpp = 0x10;
PFRBitMask = 0x0F00;
@ -224,14 +224,14 @@ bool CTexture::WriteDDS(IOutputStream& rOut)
PFBBitMask = 0x000F;
PFABitMask = 0xF000;
break;
case eRGB565:
case ETexelFormat::RGB565:
PFFlags = 0x40;
PFBpp = 0x10;
PFRBitMask = 0xF800;
PFGBitMask = 0x7E0;
PFBBitMask = 0x1F;
break;
case eRGBA8:
case ETexelFormat::RGBA8:
PFFlags = 0x41;
PFBpp = 0x20;
PFRBitMask = 0x00FF0000;
@ -239,13 +239,13 @@ bool CTexture::WriteDDS(IOutputStream& rOut)
PFBBitMask = 0x000000FF;
PFABitMask = 0xFF000000;
break;
case eDXT1:
case ETexelFormat::DXT1:
PFFlags = 0x4;
break;
}
rOut.WriteLong(PFFlags); // DDS_PIXELFORMAT.dwFlags
(mTexelFormat == eDXT1) ? rOut.WriteFourCC(FOURCC('DXT1')) : rOut.WriteLong(0); // DDS_PIXELFORMAT.dwFourCC
(mTexelFormat == ETexelFormat::DXT1) ? rOut.WriteFourCC(FOURCC('DXT1')) : rOut.WriteLong(0); // DDS_PIXELFORMAT.dwFourCC
rOut.WriteLong(PFBpp); // DDS_PIXELFORMAT.dwRGBBitCount
rOut.WriteLong(PFRBitMask); // DDS_PIXELFORMAT.dwRBitMask
rOut.WriteLong(PFGBitMask); // DDS_PIXELFORMAT.dwGBitMask
@ -267,22 +267,22 @@ uint32 CTexture::FormatBPP(ETexelFormat Format)
{
switch (Format)
{
case eGX_I4: return 4;
case eGX_I8: return 8;
case eGX_IA4: return 8;
case eGX_IA8: return 16;
case eGX_C4: return 4;
case eGX_C8: return 8;
case eGX_RGB565: return 16;
case eGX_RGB5A3: return 16;
case eGX_RGBA8: return 32;
case eGX_CMPR: return 4;
case eLuminance: return 8;
case eLuminanceAlpha: return 16;
case eRGBA4: return 16;
case eRGB565: return 16;
case eRGBA8: return 32;
case eDXT1: return 4;
case ETexelFormat::GX_I4: return 4;
case ETexelFormat::GX_I8: return 8;
case ETexelFormat::GX_IA4: return 8;
case ETexelFormat::GX_IA8: return 16;
case ETexelFormat::GX_C4: return 4;
case ETexelFormat::GX_C8: return 8;
case ETexelFormat::GX_RGB565: return 16;
case ETexelFormat::GX_RGB5A3: return 16;
case ETexelFormat::GX_RGBA8: return 32;
case ETexelFormat::GX_CMPR: return 4;
case ETexelFormat::Luminance: return 8;
case ETexelFormat::LuminanceAlpha: return 16;
case ETexelFormat::RGBA4: return 16;
case ETexelFormat::RGB565: return 16;
case ETexelFormat::RGBA8: return 32;
case ETexelFormat::DXT1: return 4;
default: return 0;
}
}
@ -346,7 +346,7 @@ void CTexture::CopyGLBuffer()
MipH /= 2;
}
mTexelFormat = eRGBA8;
mTexelFormat = ETexelFormat::RGBA8;
mLinearSize = mWidth * mHeight * 4;
}

View File

@ -11,7 +11,7 @@
class CTexture : public CResource
{
DECLARE_RESOURCE_TYPE(eTexture)
DECLARE_RESOURCE_TYPE(Texture)
friend class CTextureDecoder;
friend class CTextureEncoder;

View File

@ -10,7 +10,7 @@
class CWorld : public CResource
{
DECLARE_RESOURCE_TYPE(eWorld)
DECLARE_RESOURCE_TYPE(World)
friend class CWorldLoader;
friend class CWorldCooker;

View File

@ -9,26 +9,26 @@ CMaterialCooker::CMaterialCooker()
uint32 CMaterialCooker::ConvertFromVertexDescription(FVertexDescription VtxDesc)
{
uint32 Flags = 0;
if (VtxDesc & ePosition) Flags |= 0x00000003;
if (VtxDesc & eNormal) Flags |= 0x0000000C;
if (VtxDesc & eColor0) Flags |= 0x00000030;
if (VtxDesc & eColor1) Flags |= 0x000000C0;
if (VtxDesc & eTex0) Flags |= 0x00000300;
if (VtxDesc & eTex1) Flags |= 0x00000C00;
if (VtxDesc & eTex2) Flags |= 0x00003000;
if (VtxDesc & eTex3) Flags |= 0x0000C000;
if (VtxDesc & eTex4) Flags |= 0x00030000;
if (VtxDesc & eTex5) Flags |= 0x000C0000;
if (VtxDesc & eTex6) Flags |= 0x00300000;
if (VtxDesc & eTex7) Flags |= 0x00C00000;
if (VtxDesc & ePosMtx) Flags |= 0x01000000;
if (VtxDesc & eTex0Mtx) Flags |= 0x02000000;
if (VtxDesc & eTex1Mtx) Flags |= 0x04000000;
if (VtxDesc & eTex2Mtx) Flags |= 0x08000000;
if (VtxDesc & eTex3Mtx) Flags |= 0x10000000;
if (VtxDesc & eTex4Mtx) Flags |= 0x20000000;
if (VtxDesc & eTex5Mtx) Flags |= 0x40000000;
if (VtxDesc & eTex6Mtx) Flags |= 0x80000000;
if (VtxDesc & EVertexAttribute::Position) Flags |= 0x00000003;
if (VtxDesc & EVertexAttribute::Normal) Flags |= 0x0000000C;
if (VtxDesc & EVertexAttribute::Color0) Flags |= 0x00000030;
if (VtxDesc & EVertexAttribute::Color1) Flags |= 0x000000C0;
if (VtxDesc & EVertexAttribute::Tex0) Flags |= 0x00000300;
if (VtxDesc & EVertexAttribute::Tex1) Flags |= 0x00000C00;
if (VtxDesc & EVertexAttribute::Tex2) Flags |= 0x00003000;
if (VtxDesc & EVertexAttribute::Tex3) Flags |= 0x0000C000;
if (VtxDesc & EVertexAttribute::Tex4) Flags |= 0x00030000;
if (VtxDesc & EVertexAttribute::Tex5) Flags |= 0x000C0000;
if (VtxDesc & EVertexAttribute::Tex6) Flags |= 0x00300000;
if (VtxDesc & EVertexAttribute::Tex7) Flags |= 0x00C00000;
if (VtxDesc & EVertexAttribute::PosMtx) Flags |= 0x01000000;
if (VtxDesc & EVertexAttribute::Tex0Mtx) Flags |= 0x02000000;
if (VtxDesc & EVertexAttribute::Tex1Mtx) Flags |= 0x04000000;
if (VtxDesc & EVertexAttribute::Tex2Mtx) Flags |= 0x08000000;
if (VtxDesc & EVertexAttribute::Tex3Mtx) Flags |= 0x10000000;
if (VtxDesc & EVertexAttribute::Tex4Mtx) Flags |= 0x20000000;
if (VtxDesc & EVertexAttribute::Tex5Mtx) Flags |= 0x40000000;
if (VtxDesc & EVertexAttribute::Tex6Mtx) Flags |= 0x80000000;
return Flags;
}
@ -98,19 +98,20 @@ void CMaterialCooker::WriteMatSetCorruption(IOutputStream& /*rOut*/)
void CMaterialCooker::WriteMaterialPrime(IOutputStream& rOut)
{
// Gather data from the passes before we start writing
uint32 TexFlags = 0;
uint32 NumKonst = 0;
std::vector<uint32> TexIndices;
uint TexFlags = 0;
uint NumKonst = 0;
std::vector<uint> TexIndices;
for (uint32 iPass = 0; iPass < mpMat->mPasses.size(); iPass++)
for (uint iPass = 0; iPass < mpMat->mPasses.size(); iPass++)
{
CMaterialPass *pPass = mpMat->Pass(iPass);
if ((pPass->KColorSel() >= 0xC) || (pPass->KAlphaSel() >= 0x10))
if ((pPass->KColorSel() >= kKonst0_RGB) ||
(pPass->KAlphaSel() >= kKonst0_R))
{
// Determine the highest Konst index being used
uint32 KColorIndex = pPass->KColorSel() % 4;
uint32 KAlphaIndex = pPass->KAlphaSel() % 4;
uint KColorIndex = ((uint) pPass->KColorSel()) % 4;
uint KAlphaIndex = ((uint) pPass->KAlphaSel()) % 4;
if (KColorIndex >= NumKonst)
NumKonst = KColorIndex + 1;
@ -272,14 +273,14 @@ void CMaterialCooker::WriteMaterialPrime(IOutputStream& rOut)
CMaterialPass *pPass = mpMat->Pass(iPass);
if (pPass->Texture() == nullptr) continue;
uint32 AnimType = pPass->AnimMode();
EUVAnimMode AnimType = pPass->AnimMode();
uint32 CoordSource = pPass->TexCoordSource();
uint32 TexMtxIdx, PostMtxIdx;
bool Normalize;
// No animation - set TexMtx and PostMtx to identity, disable normalization
if (AnimType == eNoUVAnim)
if (AnimType == EUVAnimMode::NoUVAnim)
{
TexMtxIdx = 30;
PostMtxIdx = 61;
@ -291,7 +292,7 @@ void CMaterialCooker::WriteMaterialPrime(IOutputStream& rOut)
{
TexMtxIdx = CurTexMtx;
if ((AnimType < 2) || (AnimType > 5))
if ((AnimType <= EUVAnimMode::InverseMVTranslated) || (AnimType >= EUVAnimMode::ModelMatrix))
{
PostMtxIdx = CurTexMtx;
Normalize = true;
@ -318,17 +319,17 @@ void CMaterialCooker::WriteMaterialPrime(IOutputStream& rOut)
for (uint32 iPass = 0; iPass < NumPasses; iPass++)
{
CMaterialPass *pPass = mpMat->Pass(iPass);
uint32 AnimMode = pPass->AnimMode();
if (AnimMode == eNoUVAnim) continue;
EUVAnimMode AnimMode = pPass->AnimMode();
if (AnimMode == EUVAnimMode::NoUVAnim) continue;
rOut.WriteLong(AnimMode);
rOut.WriteLong((int) AnimMode);
if ((AnimMode > 1) && (AnimMode != 6))
if ((AnimMode >= EUVAnimMode::UVScroll) && (AnimMode != EUVAnimMode::ModelMatrix))
{
rOut.WriteFloat(pPass->AnimParam(0));
rOut.WriteFloat(pPass->AnimParam(1));
if ((AnimMode == 2) || (AnimMode == 4) || (AnimMode == 5))
if ((AnimMode == EUVAnimMode::UVScroll) || (AnimMode == EUVAnimMode::HFilmstrip) || (AnimMode == EUVAnimMode::VFilmstrip))
{
rOut.WriteFloat(pPass->AnimParam(2));
rOut.WriteFloat(pPass->AnimParam(3));

View File

@ -18,7 +18,7 @@ void CModelCooker::GenerateSurfaceData()
mVertices.resize(mNumVertices);
// Get vertex attributes
mVtxAttribs = eNoAttributes;
mVtxAttribs = EVertexAttribute::None;
for (uint32 iMat = 0; iMat < mpModel->GetMatCount(); iMat++)
{
@ -115,7 +115,8 @@ void CModelCooker::WriteModelPrime(IOutputStream& rOut)
// Float UV coordinates
for (uint32 iTexSlot = 0; iTexSlot < 8; iTexSlot++)
{
bool HasTexSlot = (mVtxAttribs & (eTex0 << iTexSlot)) != 0;
uint TexSlotBit = ((uint) (EVertexAttribute::Tex0)) << iTexSlot;
bool HasTexSlot = (mVtxAttribs & TexSlotBit) != 0;
if (HasTexSlot)
{
for (uint32 iTex = 0; iTex < mNumVertices; iTex++)
@ -171,28 +172,35 @@ void CModelCooker::WriteModelPrime(IOutputStream& rOut)
if (mVersion == EGame::Echoes)
{
for (uint32 iMtxAttribs = 0; iMtxAttribs < 8; iMtxAttribs++)
if (VtxAttribs & (ePosMtx << iMtxAttribs))
{
uint MatrixBit = ((uint) (EVertexAttribute::PosMtx) << iMtxAttribs);
if (VtxAttribs & MatrixBit)
{
rOut.WriteByte(pVert->MatrixIndices[iMtxAttribs]);
}
}
}
uint16 VertexIndex = (uint16) pVert->ArrayPosition;
if (VtxAttribs & ePosition)
if (VtxAttribs & EVertexAttribute::Position)
rOut.WriteShort(VertexIndex);
if (VtxAttribs & eNormal)
if (VtxAttribs & EVertexAttribute::Normal)
rOut.WriteShort(VertexIndex);
if (VtxAttribs & eColor0)
if (VtxAttribs & EVertexAttribute::Color0)
rOut.WriteShort(VertexIndex);
if (VtxAttribs & eColor1)
if (VtxAttribs & EVertexAttribute::Color1)
rOut.WriteShort(VertexIndex);
uint16 TexOffset = 0;
for (uint32 iTex = 0; iTex < 8; iTex++)
{
if (VtxAttribs & (eTex0 << iTex))
uint TexBit = ((uint) EVertexAttribute::Tex0) << iTex;
if (VtxAttribs & TexBit)
{
rOut.WriteShort(VertexIndex + TexOffset);
TexOffset += (uint16) mNumVertices;

View File

@ -20,10 +20,10 @@ public:
switch (pEntry->ResourceType())
{
case eArea: return CAreaCooker::CookMREA((CGameArea*) pRes, rOutput);
case eModel: return CModelCooker::CookCMDL((CModel*) pRes, rOutput);
case eStaticGeometryMap: return CPoiToWorldCooker::CookEGMC((CPoiToWorld*) pRes, rOutput);
case eWorld: return CWorldCooker::CookMLVL((CWorld*) pRes, rOutput);
case EResourceType::Area: return CAreaCooker::CookMREA((CGameArea*) pRes, rOutput);
case EResourceType::Model: return CModelCooker::CookCMDL((CModel*) pRes, rOutput);
case EResourceType::StaticGeometryMap: return CPoiToWorldCooker::CookEGMC((CPoiToWorld*) pRes, rOutput);
case EResourceType::World: return CWorldCooker::CookMLVL((CWorld*) pRes, rOutput);
default:
warnf("Failed to cook %s asset; this resource type is not supported for cooking", *pEntry->CookedExtension().ToString());

View File

@ -250,12 +250,12 @@ void CScriptCooker::WriteInstance(IOutputStream& rOut, CScriptObject *pInstance)
uint32 InstanceID = (pInstance->Layer()->AreaIndex() << 26) | pInstance->InstanceID();
rOut.WriteLong(InstanceID);
uint32 NumLinks = pInstance->NumLinks(eOutgoing);
uint32 NumLinks = pInstance->NumLinks(ELinkType::Outgoing);
IsPrime1 ? rOut.WriteLong(NumLinks) : rOut.WriteShort((uint16) NumLinks);
for (uint32 LinkIdx = 0; LinkIdx < NumLinks; LinkIdx++)
{
CLink *pLink = pInstance->Link(eOutgoing, LinkIdx);
CLink *pLink = pInstance->Link(ELinkType::Outgoing, LinkIdx);
rOut.WriteLong(pLink->State());
rOut.WriteLong(pLink->Message());
rOut.WriteLong(pLink->ReceiverID());
@ -298,9 +298,9 @@ void CScriptCooker::WriteLayer(IOutputStream& rOut, CScriptLayer *pLayer)
// Generate/Attach message (MP3+) should be written to SCGN, not SCLY
else
{
for (uint32 LinkIdx = 0; LinkIdx < pInstance->NumLinks(eIncoming); LinkIdx++)
for (uint32 LinkIdx = 0; LinkIdx < pInstance->NumLinks(ELinkType::Incoming); LinkIdx++)
{
CLink *pLink = pInstance->Link(eIncoming, LinkIdx);
CLink *pLink = pInstance->Link(ELinkType::Incoming, LinkIdx);
if (mGame <= EGame::Echoes)
{

View File

@ -9,14 +9,14 @@ CTextureEncoder::CTextureEncoder()
void CTextureEncoder::WriteTXTR(IOutputStream& rTXTR)
{
// Only DXT1->CMPR supported at the moment
rTXTR.WriteLong(mOutputFormat);
rTXTR.WriteLong((uint) mOutputFormat);
rTXTR.WriteShort(mpTexture->mWidth);
rTXTR.WriteShort(mpTexture->mHeight);
rTXTR.WriteLong(mpTexture->mNumMipMaps);
uint32 MipW = mpTexture->Width() / 4;
uint32 MipH = mpTexture->Height() / 4;
CMemoryInStream Image(mpTexture->mpImgDataBuffer, mpTexture->mImgDataSize, IOUtil::eLittleEndian);
CMemoryInStream Image(mpTexture->mpImgDataBuffer, mpTexture->mImgDataSize, EEndian::LittleEndian);
uint32 MipOffset = Image.Tell();
for (uint32 iMip = 0; iMip < mpTexture->mNumMipMaps; iMip++)
@ -61,7 +61,7 @@ void CTextureEncoder::ReadSubBlockCMPR(IInputStream& rSource, IOutputStream& rDe
// ************ STATIC ************
void CTextureEncoder::EncodeTXTR(IOutputStream& rTXTR, CTexture *pTex)
{
if (pTex->mTexelFormat != eDXT1)
if (pTex->mTexelFormat != ETexelFormat::DXT1)
{
errorf("Unsupported texel format for decoding");
return;
@ -69,8 +69,8 @@ void CTextureEncoder::EncodeTXTR(IOutputStream& rTXTR, CTexture *pTex)
CTextureEncoder Encoder;
Encoder.mpTexture = pTex;
Encoder.mSourceFormat = eDXT1;
Encoder.mOutputFormat = eGX_CMPR;
Encoder.mSourceFormat = ETexelFormat::DXT1;
Encoder.mOutputFormat = ETexelFormat::GX_CMPR;
Encoder.WriteTXTR(rTXTR);
}
@ -84,13 +84,13 @@ ETexelFormat CTextureEncoder::GetGXFormat(ETexelFormat Format)
{
switch (Format)
{
case eLuminance: return eGX_I8;
case eLuminanceAlpha: return eGX_IA8;
case eRGBA4: return eGX_RGB5A3;
case eRGB565: return eGX_RGB565;
case eRGBA8: return eGX_RGBA8;
case eDXT1: return eGX_CMPR;
default: return eInvalidTexelFormat;
case ETexelFormat::Luminance: return ETexelFormat::GX_I8;
case ETexelFormat::LuminanceAlpha: return ETexelFormat::GX_IA8;
case ETexelFormat::RGBA4: return ETexelFormat::GX_RGB5A3;
case ETexelFormat::RGB565: return ETexelFormat::GX_RGB565;
case ETexelFormat::RGBA8: return ETexelFormat::GX_RGBA8;
case ETexelFormat::DXT1: return ETexelFormat::GX_CMPR;
default: return ETexelFormat::Invalid;
}
}
@ -98,12 +98,12 @@ ETexelFormat CTextureEncoder::GetFormat(ETexelFormat Format)
{
switch (Format)
{
case eGX_I4: return eLuminance;
case eGX_I8: return eLuminance;
case eGX_IA4: return eLuminanceAlpha;
case eGX_IA8: return eLuminanceAlpha;
case ETexelFormat::GX_I4: return ETexelFormat::Luminance;
case ETexelFormat::GX_I8: return ETexelFormat::Luminance;
case ETexelFormat::GX_IA4: return ETexelFormat::LuminanceAlpha;
case ETexelFormat::GX_IA8: return ETexelFormat::LuminanceAlpha;
// todo rest of these
case eGX_CMPR: return eDXT1;
default: return eInvalidTexelFormat;
case ETexelFormat::GX_CMPR: return ETexelFormat::DXT1;
default: return ETexelFormat::Invalid;
}
}

View File

@ -73,7 +73,7 @@ bool CWorldCooker::CookMLVL(CWorld *pWorld, IOutputStream& rMLVL)
// Area Header
CWorld::SArea& rArea = pWorld->mAreas[iArea];
CResourceEntry *pAreaEntry = gpResourceStore->FindEntry(rArea.AreaResID);
ASSERT(pAreaEntry && pAreaEntry->ResourceType() == eArea);
ASSERT(pAreaEntry && pAreaEntry->ResourceType() == EResourceType::Area);
CAssetID AreaNameID = rArea.pAreaName ? rArea.pAreaName->ID() : CAssetID::InvalidID(Game);
AreaNameID.Write(rMLVL);

View File

@ -1,81 +1,81 @@
#ifndef ERESTYPE
#define ERESTYPE
#ifndef ERESOURCETYPE
#define ERESOURCETYPE
#include <Common/EGame.h>
#include <Common/TString.h>
enum EResType
enum class EResourceType
{
eAnimation,
eAnimCollisionPrimData,
eAnimEventData,
eAnimSet,
eArea,
eAreaCollision,
eAreaGeometry,
eAreaLights,
eAreaMaterials,
eAreaSurfaceBounds,
eAreaOctree,
eAreaVisibilityTree,
eAudioAmplitudeData,
eAudioGroup,
eAudioMacro,
eAudioSample,
eAudioLookupTable,
eBinaryData,
eBurstFireData,
eCharacter,
eDependencyGroup,
eDynamicCollision,
eFont,
eGuiFrame,
eGuiKeyFrame,
eHintSystem,
eMapArea,
eMapWorld,
eMapUniverse,
eMidi,
eModel,
eMusicTrack,
ePackage,
eParticle,
eParticleCollisionResponse,
eParticleDecal,
eParticleElectric,
eParticleSorted,
eParticleSpawn,
eParticleSwoosh,
eParticleTransform,
eParticleWeapon,
ePathfinding,
ePortalArea,
eResource,
eRuleSet,
eSaveArea,
eSaveWorld,
eScan,
eSkeleton,
eSkin,
eSourceAnimData,
eSpatialPrimitive,
eStateMachine,
eStateMachine2, // For distinguishing AFSM/FSM2
eStaticGeometryMap,
eStreamedAudio,
eStringList,
eStringTable,
eTexture,
eTweak,
eUserEvaluatorData,
eVideo,
eWorld,
Animation,
AnimCollisionPrimData,
AnimEventData,
AnimSet,
Area,
AreaCollision,
AreaGeometry,
AreaLights,
AreaMaterials,
AreaSurfaceBounds,
AreaOctree,
AreaVisibilityTree,
AudioAmplitudeData,
AudioGroup,
AudioMacro,
AudioSample,
AudioLookupTable,
BinaryData,
BurstFireData,
Character,
DependencyGroup,
DynamicCollision,
Font,
GuiFrame,
GuiKeyFrame,
HintSystem,
MapArea,
MapWorld,
MapUniverse,
Midi,
Model,
MusicTrack,
Package,
Particle,
ParticleCollisionResponse,
ParticleDecal,
ParticleElectric,
ParticleSorted,
ParticleSpawn,
ParticleSwoosh,
ParticleTransform,
ParticleWeapon,
Pathfinding,
PortalArea,
Resource,
RuleSet,
SaveArea,
SaveWorld,
Scan,
Skeleton,
Skin,
SourceAnimData,
SpatialPrimitive,
StateMachine,
StateMachine2, // For distinguishing AFSM/FSM2
StaticGeometryMap,
StreamedAudio,
StringList,
StringTable,
Texture,
Tweak,
UserEvaluatorData,
Video,
World,
eInvalidResType = -1
Invalid = -1
};
// Defined in CResTypeInfo.cpp
void Serialize(IArchive& rArc, EResType& rType);
void Serialize(IArchive& rArc, EResourceType& rType);
#endif // ERESTYPE
#endif // ERESOURCETYPE

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@ -3,103 +3,103 @@
enum ETevColorInput
{
ePrevRGB = 0x0,
ePrevAAA = 0x1,
eColor0RGB = 0x2,
eColor0AAA = 0x3,
eColor1RGB = 0x4,
eColor1AAA = 0x5,
eColor2RGB = 0x6,
eColor2AAA = 0x7,
eTextureRGB = 0x8,
eTextureAAA = 0x9,
eRasRGB = 0xA,
eRasAAA = 0xB,
eOneRGB = 0xC,
eHalfRGB = 0xD,
eKonstRGB = 0xE,
eZeroRGB = 0xF
kPrevRGB = 0x0,
kPrevAAA = 0x1,
kColor0RGB = 0x2,
kColor0AAA = 0x3,
kColor1RGB = 0x4,
kColor1AAA = 0x5,
kColor2RGB = 0x6,
kColor2AAA = 0x7,
kTextureRGB = 0x8,
kTextureAAA = 0x9,
kRasRGB = 0xA,
kRasAAA = 0xB,
kOneRGB = 0xC,
kHalfRGB = 0xD,
kKonstRGB = 0xE,
kZeroRGB = 0xF
};
enum ETevAlphaInput
{
ePrevAlpha = 0x0,
eColor0Alpha = 0x1,
eColor1Alpha = 0x2,
eColor2Alpha = 0x3,
eTextureAlpha = 0x4,
eRasAlpha = 0x5,
eKonstAlpha = 0x6,
eZeroAlpha = 0x7
kPrevAlpha = 0x0,
kColor0Alpha = 0x1,
kColor1Alpha = 0x2,
kColor2Alpha = 0x3,
kTextureAlpha = 0x4,
kRasAlpha = 0x5,
kKonstAlpha = 0x6,
kZeroAlpha = 0x7
};
enum ETevOutput
{
ePrevReg = 0x0,
eColor0Reg = 0x1,
eColor1Reg = 0x2,
eColor2Reg = 0x3
kPrevReg = 0x0,
kColor0Reg = 0x1,
kColor1Reg = 0x2,
kColor2Reg = 0x3
};
enum ETevKSel
{
eKonstOne = 0x0,
eKonstSevenEighths = 0x1,
eKonstThreeFourths = 0x2,
eKonstFiveEighths = 0x3,
eKonstOneHalf = 0x4,
eKonstThreeEighths = 0x5,
eKonstOneFourth = 0x6,
eKonstOneEighth = 0x7,
eKonst0_RGB = 0xC,
eKonst1_RGB = 0xD,
eKonst2_RGB = 0xE,
eKonst3_RGB = 0xF,
eKonst0_R = 0x10,
eKonst1_R = 0x11,
eKonst2_R = 0x12,
eKonst3_R = 0x13,
eKonst0_G = 0x14,
eKonst1_G = 0x15,
eKonst2_G = 0x16,
eKonst3_G = 0x17,
eKonst0_B = 0x18,
eKonst1_B = 0x19,
eKonst2_B = 0x1A,
eKonst3_B = 0x1B,
eKonst0_A = 0x1C,
eKonst1_A = 0x1D,
eKonst2_A = 0x1E,
eKonst3_A = 0x1F
kKonstOne = 0x0,
kKonstSevenEighths = 0x1,
kKonstThreeFourths = 0x2,
kKonstFiveEighths = 0x3,
kKonstOneHalf = 0x4,
kKonstThreeEighths = 0x5,
kKonstOneFourth = 0x6,
kKonstOneEighth = 0x7,
kKonst0_RGB = 0xC,
kKonst1_RGB = 0xD,
kKonst2_RGB = 0xE,
kKonst3_RGB = 0xF,
kKonst0_R = 0x10,
kKonst1_R = 0x11,
kKonst2_R = 0x12,
kKonst3_R = 0x13,
kKonst0_G = 0x14,
kKonst1_G = 0x15,
kKonst2_G = 0x16,
kKonst3_G = 0x17,
kKonst0_B = 0x18,
kKonst1_B = 0x19,
kKonst2_B = 0x1A,
kKonst3_B = 0x1B,
kKonst0_A = 0x1C,
kKonst1_A = 0x1D,
kKonst2_A = 0x1E,
kKonst3_A = 0x1F
};
enum ETevRasSel
{
eRasColor0 = 0x0,
eRasColor1 = 0x1,
eRasAlpha0 = 0x2,
eRasAlpha1 = 0x3,
eRasColor0A0 = 0x4,
eRasColor1A1 = 0x5,
eRasColorZero = 0x6,
eRasAlphaBump = 0x7,
eRasAlphaBumpN = 0x8,
eRasColorNull = 0xFF
kRasColor0 = 0x0,
kRasColor1 = 0x1,
kRasAlpha0 = 0x2,
kRasAlpha1 = 0x3,
kRasColor0A0 = 0x4,
kRasColor1A1 = 0x5,
kRasColorZero = 0x6,
kRasAlphaBump = 0x7,
kRasAlphaBumpN = 0x8,
kRasColorNull = 0xFF
};
enum EUVAnimMode
enum class EUVAnimMode
{
eInverseMV = 0x0,
eInverseMVTranslated = 0x1,
eUVScroll = 0x2,
eUVRotation = 0x3,
eHFilmstrip = 0x4,
eVFilmstrip = 0x5,
eModelMatrix = 0x6,
eConvolutedModeA = 0x7,
eConvolutedModeB = 0x8,
eSimpleMode = 0xA,
eNoUVAnim = 0xFFFFFFFF
InverseMV = 0x0,
InverseMVTranslated = 0x1,
UVScroll = 0x2,
UVRotation = 0x3,
HFilmstrip = 0x4,
VFilmstrip = 0x5,
ModelMatrix = 0x6,
ConvolutedModeA = 0x7,
ConvolutedModeB = 0x8,
SimpleMode = 0xA,
NoUVAnim = -1
};
#endif // ETEVENUMS

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@ -2,36 +2,36 @@
#define ETEXELFORMAT
// ETexelFormat - supported internal formats for decoded textures
enum ETexelFormat
enum class ETexelFormat
{
// Supported texel formats in GX using Retro's numbering
eGX_I4 = 0x0,
eGX_I8 = 0x1,
eGX_IA4 = 0x2,
eGX_IA8 = 0x3,
eGX_C4 = 0x4,
eGX_C8 = 0x5,
eGX_C14x2 = 0x6,
eGX_RGB565 = 0x7,
eGX_RGB5A3 = 0x8,
eGX_RGBA8 = 0x9,
eGX_CMPR = 0xA,
GX_I4 = 0x0,
GX_I8 = 0x1,
GX_IA4 = 0x2,
GX_IA8 = 0x3,
GX_C4 = 0x4,
GX_C8 = 0x5,
GX_C14x2 = 0x6,
GX_RGB565 = 0x7,
GX_RGB5A3 = 0x8,
GX_RGBA8 = 0x9,
GX_CMPR = 0xA,
// Supported internal texel formats for decoded textures
eLuminance,
eLuminanceAlpha,
eRGBA4,
eRGB565,
eRGBA8,
eDXT1,
eInvalidTexelFormat
Luminance,
LuminanceAlpha,
RGBA4,
RGB565,
RGBA8,
DXT1,
Invalid = -1
};
// EGXPaletteFormat - GX's supported palette texel formats for C4/C8
enum EGXPaletteFormat
enum class EGXPaletteFormat
{
ePalette_IA8 = 0,
ePalette_RGB565 = 1,
ePalette_RGB5A3 = 2
IA8 = 0,
RGB565 = 1,
RGB5A3 = 2
};
#endif // ETEXELFORMAT

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@ -24,13 +24,13 @@ CAnimSet* CAnimSetLoader::LoadCorruptionCHAR(IInputStream& rCHAR)
{
SOverlayModel Overlay;
Overlay.Type = (EOverlayType) rCHAR.ReadLong();
Overlay.ModelID = CAssetID(rCHAR, e64Bit);
Overlay.SkinID = CAssetID(rCHAR, e64Bit);
Overlay.ModelID = CAssetID(rCHAR, k64Bit);
Overlay.SkinID = CAssetID(rCHAR, k64Bit);
rChar.OverlayModels.push_back(Overlay);
}
rChar.pSkeleton = gpResourceStore->LoadResource<CSkeleton>(rCHAR.ReadLongLong());
rChar.AnimDataID = CAssetID(rCHAR, e64Bit);
rChar.AnimDataID = CAssetID(rCHAR, k64Bit);
// PAS Database
LoadPASDatabase(rCHAR);
@ -88,7 +88,7 @@ CAnimSet* CAnimSetLoader::LoadCorruptionCHAR(IInputStream& rCHAR)
for (uint32 SoundIdx = 0; SoundIdx < NumSounds; SoundIdx++)
{
CAssetID SoundID(rCHAR, e64Bit);
CAssetID SoundID(rCHAR, k64Bit);
rChar.SoundEffects.push_back(SoundID);
}
@ -581,7 +581,7 @@ CAnimSet* CAnimSetLoader::LoadANCS(IInputStream& rANCS, CResourceEntry *pEntry)
{
rANCS.ReadString();
rANCS.Seek(0x4, SEEK_CUR);
CAssetID ParticleID(rANCS, e32Bit);
CAssetID ParticleID(rANCS, k32Bit);
if (ParticleID.IsValid()) pChar->EffectParticles.push_back(ParticleID);
if (Loader.mGame == EGame::Prime) rANCS.ReadString();
@ -591,9 +591,9 @@ CAnimSet* CAnimSetLoader::LoadANCS(IInputStream& rANCS, CResourceEntry *pEntry)
}
SOverlayModel Overlay;
Overlay.Type = eOT_Frozen;
Overlay.ModelID = CAssetID(rANCS, e32Bit);
Overlay.SkinID = CAssetID(rANCS, e32Bit);
Overlay.Type = EOverlayType::Frozen;
Overlay.ModelID = CAssetID(rANCS, k32Bit);
Overlay.SkinID = CAssetID(rANCS, k32Bit);
pChar->OverlayModels.push_back(Overlay);
uint32 AnimIndexCount = rANCS.ReadLong();
@ -664,8 +664,8 @@ CSourceAnimData* CAnimSetLoader::LoadSAND(IInputStream& rSAND, CResourceEntry *p
ASSERT(UnkByte == 0);
CSourceAnimData::STransition Transition;
Transition.AnimA = CAssetID(rSAND, e64Bit);
Transition.AnimB = CAssetID(rSAND, e64Bit);
Transition.AnimA = CAssetID(rSAND, k64Bit);
Transition.AnimB = CAssetID(rSAND, k64Bit);
Transition.pTransition = gMetaTransFactory.LoadFromStream(rSAND, pEntry->Game());
pData->mTransitions.push_back(Transition);
}
@ -679,7 +679,7 @@ CSourceAnimData* CAnimSetLoader::LoadSAND(IInputStream& rSAND, CResourceEntry *p
ASSERT(UnkByte == 0);
CSourceAnimData::SHalfTransition HalfTrans;
HalfTrans.Anim = CAssetID(rSAND, e64Bit);
HalfTrans.Anim = CAssetID(rSAND, k64Bit);
HalfTrans.pTransition = gMetaTransFactory.LoadFromStream(rSAND, pEntry->Game());
pData->mHalfTransitions.push_back(HalfTrans);
}

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@ -198,7 +198,7 @@ void CAreaLoader::ReadLightsPrime()
Multiplier = FLT_EPSILON;
// Local Ambient
if (Type == eLocalAmbient)
if (Type == ELightType::LocalAmbient)
{
Color *= Multiplier;
@ -212,13 +212,13 @@ void CAreaLoader::ReadLightsPrime()
}
// Directional
else if (Type == eDirectional)
else if (Type == ELightType::Directional)
{
pLight = CLight::BuildDirectional(Position, Direction, LightColor);
}
// Spot
else if (Type == eSpot)
else if (Type == ELightType::Spot)
{
pLight = CLight::BuildSpot(Position, Direction.Normalized(), LightColor, SpotCutoff);
@ -499,19 +499,19 @@ void CAreaLoader::ReadLightsCorruption()
Multiplier = FLT_EPSILON;
// Local Ambient
if (Type == eLocalAmbient)
if (Type == ELightType::LocalAmbient)
{
pLight = CLight::BuildLocalAmbient(Position, LightColor * Multiplier);
}
// Directional
else if (Type == eDirectional)
else if (Type == ELightType::Directional)
{
pLight = CLight::BuildDirectional(Position, Direction, LightColor);
}
// Spot
else if (Type == eSpot)
else if (Type == ELightType::Spot)
{
pLight = CLight::BuildSpot(Position, Direction.Normalized(), LightColor, SpotCutoff);
@ -597,7 +597,7 @@ void CAreaLoader::Decompress()
}
TString Source = mpMREA->GetSourceString();
mpMREA = new CMemoryInStream(mpDecmpBuffer, mTotalDecmpSize, IOUtil::eBigEndian);
mpMREA = new CMemoryInStream(mpDecmpBuffer, mTotalDecmpSize, EEndian::BigEndian);
mpMREA->SetSourceString(Source);
mpSectionMgr->SetInputStream(mpMREA);
mHasDecompressedBuffer = true;
@ -639,7 +639,7 @@ void CAreaLoader::ReadEGMC()
{
mpSectionMgr->ToSection(mEGMCBlockNum);
CAssetID EGMC(*mpMREA, mVersion);
mpArea->mpPoiToWorldMap = gpResourceStore->LoadResource(EGMC, eStaticGeometryMap);
mpArea->mpPoiToWorldMap = gpResourceStore->LoadResource(EGMC, EResourceType::StaticGeometryMap);
}
void CAreaLoader::SetUpObjects(CScriptLayer *pGenLayer)
@ -692,9 +692,9 @@ void CAreaLoader::SetUpObjects(CScriptLayer *pGenLayer)
CScriptObject *pInst = Iter->second;
// Store outgoing connections
for (uint32 iCon = 0; iCon < pInst->NumLinks(eOutgoing); iCon++)
for (uint32 iCon = 0; iCon < pInst->NumLinks(ELinkType::Outgoing); iCon++)
{
CLink *pLink = pInst->Link(eOutgoing, iCon);
CLink *pLink = pInst->Link(ELinkType::Outgoing, iCon);
mConnectionMap[pLink->ReceiverID()].push_back(pLink);
}

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@ -17,10 +17,7 @@ CFont* CFontLoader::LoadFont(IInputStream& rFONT)
rFONT.Seek(0x2, SEEK_CUR);
mpFont->mDefaultSize = rFONT.ReadLong();
mpFont->mFontName = rFONT.ReadString();
if (mVersion <= EGame::Echoes) mpFont->mpFontTexture = gpResourceStore->LoadResource(rFONT.ReadLong(), eTexture);
else mpFont->mpFontTexture = gpResourceStore->LoadResource(rFONT.ReadLongLong(), eTexture);
mpFont->mpFontTexture = gpResourceStore->LoadResource(CAssetID(rFONT, mVersion), EResourceType::Texture);
mpFont->mTextureFormat = rFONT.ReadLong();
uint32 NumGlyphs = rFONT.ReadLong();
mpFont->mGlyphs.reserve(NumGlyphs);

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@ -18,26 +18,26 @@ CMaterialLoader::~CMaterialLoader()
FVertexDescription CMaterialLoader::ConvertToVertexDescription(uint32 VertexFlags)
{
FVertexDescription Desc;
if (VertexFlags & 0x00000003) Desc |= ePosition;
if (VertexFlags & 0x0000000C) Desc |= eNormal;
if (VertexFlags & 0x00000030) Desc |= eColor0;
if (VertexFlags & 0x000000C0) Desc |= eColor1;
if (VertexFlags & 0x00000300) Desc |= eTex0;
if (VertexFlags & 0x00000C00) Desc |= eTex1;
if (VertexFlags & 0x00003000) Desc |= eTex2;
if (VertexFlags & 0x0000C000) Desc |= eTex3;
if (VertexFlags & 0x00030000) Desc |= eTex4;
if (VertexFlags & 0x000C0000) Desc |= eTex5;
if (VertexFlags & 0x00300000) Desc |= eTex6;
if (VertexFlags & 0x00C00000) Desc |= eTex7;
if (VertexFlags & 0x01000000) Desc |= ePosMtx;
if (VertexFlags & 0x02000000) Desc |= eTex0Mtx;
if (VertexFlags & 0x04000000) Desc |= eTex1Mtx;
if (VertexFlags & 0x08000000) Desc |= eTex2Mtx;
if (VertexFlags & 0x10000000) Desc |= eTex3Mtx;
if (VertexFlags & 0x20000000) Desc |= eTex4Mtx;
if (VertexFlags & 0x40000000) Desc |= eTex5Mtx;
if (VertexFlags & 0x80000000) Desc |= eTex6Mtx;
if (VertexFlags & 0x00000003) Desc |= EVertexAttribute::Position;
if (VertexFlags & 0x0000000C) Desc |= EVertexAttribute::Normal;
if (VertexFlags & 0x00000030) Desc |= EVertexAttribute::Color0;
if (VertexFlags & 0x000000C0) Desc |= EVertexAttribute::Color1;
if (VertexFlags & 0x00000300) Desc |= EVertexAttribute::Tex0;
if (VertexFlags & 0x00000C00) Desc |= EVertexAttribute::Tex1;
if (VertexFlags & 0x00003000) Desc |= EVertexAttribute::Tex2;
if (VertexFlags & 0x0000C000) Desc |= EVertexAttribute::Tex3;
if (VertexFlags & 0x00030000) Desc |= EVertexAttribute::Tex4;
if (VertexFlags & 0x000C0000) Desc |= EVertexAttribute::Tex5;
if (VertexFlags & 0x00300000) Desc |= EVertexAttribute::Tex6;
if (VertexFlags & 0x00C00000) Desc |= EVertexAttribute::Tex7;
if (VertexFlags & 0x01000000) Desc |= EVertexAttribute::PosMtx;
if (VertexFlags & 0x02000000) Desc |= EVertexAttribute::Tex0Mtx;
if (VertexFlags & 0x04000000) Desc |= EVertexAttribute::Tex1Mtx;
if (VertexFlags & 0x08000000) Desc |= EVertexAttribute::Tex2Mtx;
if (VertexFlags & 0x10000000) Desc |= EVertexAttribute::Tex3Mtx;
if (VertexFlags & 0x20000000) Desc |= EVertexAttribute::Tex4Mtx;
if (VertexFlags & 0x40000000) Desc |= EVertexAttribute::Tex5Mtx;
if (VertexFlags & 0x80000000) Desc |= EVertexAttribute::Tex6Mtx;
return Desc;
}
@ -76,7 +76,7 @@ CMaterial* CMaterialLoader::ReadPrimeMaterial()
pMat->mEnableBloom = false;
// Flags
pMat->mOptions = (mpFile->ReadLong() & CMaterial::eAllMP1Settings);
pMat->mOptions = (mpFile->ReadLong() & (uint) EMaterialOption::AllMP1Settings);
// Textures
uint32 NumTextures = mpFile->ReadLong();
@ -100,7 +100,7 @@ CMaterial* CMaterialLoader::ReadPrimeMaterial()
mpFile->Seek(0x4, SEEK_CUR); // Skipping group index
// Konst
if (pMat->mOptions & CMaterial::eKonst)
if (pMat->mOptions & EMaterialOption::Konst)
{
uint32 KonstCount = mpFile->ReadLong();
@ -117,7 +117,7 @@ CMaterial* CMaterialLoader::ReadPrimeMaterial()
pMat->mBlendSrcFac = gBlendFactor[mpFile->ReadShort()];
// Indirect texture
if (pMat->mOptions & CMaterial::eIndStage)
if (pMat->mOptions & EMaterialOption::IndStage)
{
uint32 IndTexIndex = mpFile->ReadLong();
pMat->mpIndirectTexture = mTextures[TextureIndices[IndTexIndex]];
@ -224,7 +224,7 @@ CMaterial* CMaterialLoader::ReadPrimeMaterial()
if ((TexGens.size() == 0) || (TexCoordIdx == 0xFF))
{
pPass->mTexCoordSource = 0xFF;
pPass->mAnimMode = eNoUVAnim;
pPass->mAnimMode = EUVAnimMode::NoUVAnim;
}
else
@ -235,7 +235,7 @@ CMaterial* CMaterialLoader::ReadPrimeMaterial()
// Texture matrix is a reliable way to tell, because every UV anim mode generates a texture matrix
uint32 TexMtxIdx = ((TexGens[TexCoordIdx] & 0x3E00) >> 9) / 3;
if (TexMtxIdx == 10) pPass->mAnimMode = eNoUVAnim; // 10 is identity matrix; indicates no UV anim for this pass
if (TexMtxIdx == 10) pPass->mAnimMode = EUVAnimMode::NoUVAnim; // 10 is identity matrix; indicates no UV anim for this pass
else
{
@ -269,7 +269,7 @@ void CMaterialLoader::ReadCorruptionMatSet()
CMaterial* CMaterialLoader::ReadCorruptionMaterial()
{
CMaterial *pMat = new CMaterial();
pMat->mOptions = CMaterial::eDepthWrite;
pMat->mOptions = EMaterialOption::DepthWrite;
pMat->mEnableBloom = true;
// Flags
@ -278,18 +278,18 @@ CMaterial* CMaterialLoader::ReadCorruptionMaterial()
{
pMat->mBlendSrcFac = GL_SRC_ALPHA;
pMat->mBlendDstFac = GL_ONE_MINUS_SRC_ALPHA;
pMat->mOptions |= CMaterial::eTransparent;
pMat->mOptions |= EMaterialOption::Transparent;
}
else if (Flags & 0x20)
{
pMat->mBlendSrcFac = GL_ONE;
pMat->mBlendDstFac = GL_ONE;
pMat->mOptions |= CMaterial::eTransparent;
pMat->mOptions |= EMaterialOption::Transparent;
}
if (Flags & 0x10) pMat->mOptions |= CMaterial::ePunchthrough;
if (Flags & 0x100) pMat->mOptions |= CMaterial::eOccluder;
if (Flags & 0x80000) pMat->mOptions |= CMaterial::eDrawWhiteAmbientDKCR;
if (Flags & 0x10) pMat->mOptions |= EMaterialOption::Masked;
if (Flags & 0x100) pMat->mOptions |= EMaterialOption::Occluder;
if (Flags & 0x80000) pMat->mOptions |= EMaterialOption::DrawWhiteAmbientDKCR;
mHas0x400 = ((Flags & 0x400) != 0);
mpFile->Seek(0x8, SEEK_CUR); // Don't know what any of this is
@ -356,7 +356,7 @@ CMaterial* CMaterialLoader::ReadCorruptionMaterial()
uint32 Next = Size + mpFile->Tell();
pPass->mPassType = mpFile->ReadLong();
pPass->mSettings = (CMaterialPass::EPassSettings) mpFile->ReadLong();
pPass->mSettings = (EPassSettings) mpFile->ReadLong();
// Skip passes that don't have a texture. Honestly don't really know what to do with these right now
uint64 TextureID = mpFile->ReadLongLong();
@ -408,11 +408,16 @@ CMaterial* CMaterialLoader::ReadCorruptionMaterial()
}
// Hack until the correct way to determine tex coord source is figured out
if ((pPass->mAnimMode < 2) || (pPass->mAnimMode == 6) || (pPass->mAnimMode == 7) || (pPass->mAnimMode == 10))
if ((pPass->mAnimMode < EUVAnimMode::UVScroll) ||
(pPass->mAnimMode == EUVAnimMode::ModelMatrix) ||
(pPass->mAnimMode == EUVAnimMode::ConvolutedModeA) ||
(pPass->mAnimMode == EUVAnimMode::SimpleMode))
{
pPass->mTexCoordSource = 1;
}
}
else pPass->mAnimMode = eNoUVAnim;
else pPass->mAnimMode = EUVAnimMode::NoUVAnim;
pMat->mPasses.push_back(pPass);
mpFile->Seek(Next, SEEK_SET);
@ -438,48 +443,48 @@ void CMaterialLoader::CreateCorruptionPasses(CMaterial *pMat)
// Color Map (Diffuse)
if (Type == "CLR ")
{
pPass->SetRasSel(eRasColor0A0);
pPass->SetRasSel(kRasColor0A0);
if (Lightmap)
{
pPass->SetColorInputs(eZeroRGB, eColor0RGB, eTextureRGB, eZeroRGB);
pPass->SetColorInputs(kZeroRGB, kColor0RGB, kTextureRGB, kZeroRGB);
}
else
{
pPass->SetColorInputs(eZeroRGB, eRasRGB, eTextureRGB, eZeroRGB);
pPass->SetColorInputs(kZeroRGB, kRasRGB, kTextureRGB, kZeroRGB);
}
if (pMat->mOptions & CMaterial::ePunchthrough)
if (pMat->mOptions & EMaterialOption::Masked)
{
pPass->SetAlphaInputs(eZeroAlpha, eZeroAlpha, eZeroAlpha, eTextureAlpha);
pPass->SetAlphaInputs(kZeroAlpha, kZeroAlpha, kZeroAlpha, kTextureAlpha);
}
else if (mHasOPAC)
{
pPass->SetAlphaInputs(eZeroAlpha, eZeroAlpha, eZeroAlpha, eKonstAlpha);
pPass->SetKColorSel(eKonst0_RGB);
pPass->SetKAlphaSel(eKonst0_A);
pPass->SetAlphaInputs(kZeroAlpha, kZeroAlpha, kZeroAlpha, kKonstAlpha);
pPass->SetKColorSel(kKonst0_RGB);
pPass->SetKAlphaSel(kKonst0_A);
}
else
{
pPass->SetAlphaInputs(eZeroAlpha, eZeroAlpha, eZeroAlpha, ePrevAlpha);
pPass->SetAlphaInputs(kZeroAlpha, kZeroAlpha, kZeroAlpha, kPrevAlpha);
}
pPass->SetColorOutput(ePrevReg);
pPass->SetAlphaOutput(ePrevReg);
pPass->SetColorOutput(kPrevReg);
pPass->SetAlphaOutput(kPrevReg);
}
// Lightmap
else if (Type == "DIFF")
{
pPass->SetColorInputs(eZeroRGB, eKonstRGB, eTextureRGB, eRasRGB);
pPass->SetAlphaInputs(eZeroAlpha, eZeroAlpha, eZeroAlpha, eKonstAlpha);
pPass->SetColorOutput(eColor0Reg);
pPass->SetAlphaOutput(eColor0Reg);
pPass->SetKColorSel(eKonst1_RGB);
pPass->SetKAlphaSel(eKonst1_A);
pPass->SetRasSel(eRasColor0A0);
pPass->SetColorInputs(kZeroRGB, kKonstRGB, kTextureRGB, kRasRGB);
pPass->SetAlphaInputs(kZeroAlpha, kZeroAlpha, kZeroAlpha, kKonstAlpha);
pPass->SetColorOutput(kColor0Reg);
pPass->SetAlphaOutput(kColor0Reg);
pPass->SetKColorSel(kKonst1_RGB);
pPass->SetKAlphaSel(kKonst1_A);
pPass->SetRasSel(kRasColor0A0);
Lightmap = true;
}
@ -487,91 +492,91 @@ void CMaterialLoader::CreateCorruptionPasses(CMaterial *pMat)
else if (Type == "BLOL")
{
// Bloom maps work by writing to framebuffer alpha. Can't do this on alpha-blended mats.
pPass->SetColorInputs(eZeroRGB, eZeroRGB, eZeroRGB, ePrevRGB);
pPass->SetColorInputs(kZeroRGB, kZeroRGB, kZeroRGB, kPrevRGB);
if ((AlphaBlended) || (pMat->mOptions & CMaterial::ePunchthrough))
pPass->SetAlphaInputs(eZeroAlpha, eZeroAlpha, eZeroAlpha, ePrevAlpha);
if ((AlphaBlended) || (pMat->mOptions & EMaterialOption::Masked))
pPass->SetAlphaInputs(kZeroAlpha, kZeroAlpha, kZeroAlpha, kPrevAlpha);
else
pPass->SetAlphaInputs(eZeroAlpha, eZeroAlpha, eZeroAlpha, eTextureAlpha);
pPass->SetAlphaInputs(kZeroAlpha, kZeroAlpha, kZeroAlpha, kTextureAlpha);
pPass->SetColorOutput(ePrevReg);
pPass->SetAlphaOutput(ePrevReg);
pPass->SetColorOutput(kPrevReg);
pPass->SetAlphaOutput(kPrevReg);
}
// Rim Light Map
else if (Type == "RIML")
{
pPass->SetColorInputs(eZeroRGB, eOneRGB, ePrevRGB, eTextureRGB);
pPass->SetAlphaInputs(eZeroAlpha, eZeroAlpha, eZeroAlpha, ePrevAlpha);
pPass->SetColorOutput(ePrevReg);
pPass->SetAlphaOutput(ePrevReg);
pPass->SetColorInputs(kZeroRGB, kOneRGB, kPrevRGB, kTextureRGB);
pPass->SetAlphaInputs(kZeroAlpha, kZeroAlpha, kZeroAlpha, kPrevAlpha);
pPass->SetColorOutput(kPrevReg);
pPass->SetAlphaOutput(kPrevReg);
}
// Emissive Map
else if (Type == "INCA")
{
pPass->SetColorInputs(eZeroRGB, eTextureRGB, eOneRGB, ePrevRGB);
pPass->SetColorInputs(kZeroRGB, kTextureRGB, kOneRGB, kPrevRGB);
if ((pPass->mSettings & CMaterialPass::eEmissiveBloom) && (!AlphaBlended))
if ((pPass->mSettings & EPassSettings::EmissiveBloom) && (!AlphaBlended))
{
pPass->SetAlphaInputs(eZeroAlpha, eTextureAlpha, eKonstAlpha, ePrevAlpha);
pPass->SetKAlphaSel(eKonstOneFourth);
pPass->SetAlphaInputs(kZeroAlpha, kTextureAlpha, kKonstAlpha, kPrevAlpha);
pPass->SetKAlphaSel(kKonstOneFourth);
}
else
{
pPass->SetAlphaInputs(eZeroAlpha, eZeroAlpha, eZeroAlpha, ePrevAlpha);
pPass->SetAlphaInputs(kZeroAlpha, kZeroAlpha, kZeroAlpha, kPrevAlpha);
}
pPass->SetColorOutput(ePrevReg);
pPass->SetAlphaOutput(ePrevReg);
pPass->SetColorOutput(kPrevReg);
pPass->SetAlphaOutput(kPrevReg);
}
// Opacity Map
else if (Type == "TRAN")
{
pPass->SetColorInputs(eZeroRGB, eZeroRGB, eZeroRGB, ePrevRGB);
pPass->SetColorInputs(kZeroRGB, kZeroRGB, kZeroRGB, kPrevRGB);
if (pPass->mSettings & CMaterialPass::eInvertOpacityMap)
pPass->SetAlphaInputs(eKonstAlpha, eZeroAlpha, eTextureAlpha, eZeroAlpha);
if (pPass->mSettings & EPassSettings::InvertOpacityMap)
pPass->SetAlphaInputs(kKonstAlpha, kZeroAlpha, kTextureAlpha, kZeroAlpha);
else
pPass->SetAlphaInputs(eZeroAlpha, eKonstAlpha, eTextureAlpha, eZeroAlpha);
pPass->SetAlphaInputs(kZeroAlpha, kKonstAlpha, kTextureAlpha, kZeroAlpha);
pPass->SetColorOutput(ePrevReg);
pPass->SetAlphaOutput(ePrevReg);
pPass->SetColorOutput(kPrevReg);
pPass->SetAlphaOutput(kPrevReg);
}
// Specular Map
else if (Type == "RFLV")
{
pPass->SetColorInputs(eZeroRGB, eZeroRGB, eZeroRGB, eTextureRGB);
pPass->SetAlphaInputs(eZeroAlpha, eZeroAlpha, eZeroAlpha, ePrevAlpha);
pPass->SetColorOutput(eColor2Reg);
pPass->SetAlphaOutput(eColor2Reg);
pPass->SetColorInputs(kZeroRGB, kZeroRGB, kZeroRGB, kTextureRGB);
pPass->SetAlphaInputs(kZeroAlpha, kZeroAlpha, kZeroAlpha, kPrevAlpha);
pPass->SetColorOutput(kColor2Reg);
pPass->SetAlphaOutput(kColor2Reg);
}
// Reflection Map
else if (Type == "RFLD")
{
pPass->SetColorInputs(eZeroRGB, eColor2RGB, eTextureRGB, ePrevRGB);
pPass->SetAlphaInputs(eZeroAlpha, eZeroAlpha, eZeroAlpha, ePrevAlpha);
pPass->SetColorOutput(ePrevReg);
pPass->SetAlphaOutput(ePrevReg);
pPass->SetColorInputs(kZeroRGB, kColor2RGB, kTextureRGB, kPrevRGB);
pPass->SetAlphaInputs(kZeroAlpha, kZeroAlpha, kZeroAlpha, kPrevAlpha);
pPass->SetColorOutput(kPrevReg);
pPass->SetAlphaOutput(kPrevReg);
if (mHas0x400) pPass->SetEnabled(false);
}
// Bloom Incandescence
else if (Type == "BLOI")
{
pPass->SetColorInputs(eZeroRGB, eZeroRGB, eZeroRGB, ePrevRGB);
pPass->SetColorInputs(kZeroRGB, kZeroRGB, kZeroRGB, kPrevRGB);
// Comes out wrong every time even though this is exactly how the Dolphin shaders say this is done.
if (AlphaBlended)
pPass->SetAlphaInputs(eZeroAlpha, eZeroAlpha, eZeroAlpha, ePrevAlpha);
pPass->SetAlphaInputs(kZeroAlpha, kZeroAlpha, kZeroAlpha, kPrevAlpha);
else
pPass->SetAlphaInputs(eTextureAlpha, eZeroAlpha, eZeroAlpha, ePrevAlpha);
pPass->SetAlphaInputs(kTextureAlpha, kZeroAlpha, kZeroAlpha, kPrevAlpha);
pPass->SetColorOutput(ePrevReg);
pPass->SetAlphaOutput(ePrevReg);
pPass->SetColorOutput(kPrevReg);
pPass->SetAlphaOutput(kPrevReg);
}
// Bloom Diffuse
@ -583,28 +588,28 @@ void CMaterialLoader::CreateCorruptionPasses(CMaterial *pMat)
// X-Ray - since we don't support X-Ray previews, no effect
else if (Type == "XRAY")
{
pPass->SetColorInputs(eZeroRGB, eZeroRGB, eZeroRGB, ePrevRGB);
pPass->SetAlphaInputs(eZeroAlpha, eZeroAlpha, eZeroAlpha, ePrevAlpha);
pPass->SetColorOutput(ePrevReg);
pPass->SetAlphaOutput(ePrevReg);
pPass->SetColorInputs(kZeroRGB, kZeroRGB, kZeroRGB, kPrevRGB);
pPass->SetAlphaInputs(kZeroAlpha, kZeroAlpha, kZeroAlpha, kPrevAlpha);
pPass->SetColorOutput(kPrevReg);
pPass->SetAlphaOutput(kPrevReg);
}
// Toon? Don't know what it's for but got TEV setup from shader dumps
else if (Type == "TOON")
{
pPass->SetColorInputs(eZeroRGB, ePrevRGB, eTextureRGB, eZeroRGB);
pPass->SetAlphaInputs(eZeroAlpha, eZeroAlpha, eZeroAlpha, eTextureAlpha);
pPass->SetColorOutput(ePrevReg);
pPass->SetAlphaOutput(ePrevReg);
pPass->SetColorInputs(kZeroRGB, kPrevRGB, kTextureRGB, kZeroRGB);
pPass->SetAlphaInputs(kZeroAlpha, kZeroAlpha, kZeroAlpha, kTextureAlpha);
pPass->SetColorOutput(kPrevReg);
pPass->SetAlphaOutput(kPrevReg);
}
// LURD and LRLD are unknown and don't seem to do anything
else if ((Type == "LURD") || (Type == "LRLD"))
{
pPass->SetColorInputs(eZeroRGB, eZeroRGB, eZeroRGB, ePrevRGB);
pPass->SetAlphaInputs(eZeroAlpha, eZeroAlpha, eZeroAlpha, ePrevAlpha);
pPass->SetColorOutput(ePrevReg);
pPass->SetAlphaOutput(ePrevReg);
pPass->SetColorInputs(kZeroRGB, kZeroRGB, kZeroRGB, kPrevRGB);
pPass->SetAlphaInputs(kZeroAlpha, kZeroAlpha, kZeroAlpha, kPrevAlpha);
pPass->SetColorOutput(kPrevReg);
pPass->SetAlphaOutput(kPrevReg);
}
else if (Type == "CUST") {}
@ -620,7 +625,7 @@ void CMaterialLoader::CreateCorruptionPasses(CMaterial *pMat)
CMaterial* CMaterialLoader::LoadAssimpMaterial(const aiMaterial *pAiMat)
{
// todo: generate new material using import values.
CMaterial *pMat = new CMaterial(mVersion, eNoAttributes);
CMaterial *pMat = new CMaterial(mVersion, EVertexAttribute::None);
aiString Name;
pAiMat->Get(AI_MATKEY_NAME, Name);
@ -628,11 +633,11 @@ CMaterial* CMaterialLoader::LoadAssimpMaterial(const aiMaterial *pAiMat)
// Create generic custom pass that uses Konst color
CMaterialPass *pPass = new CMaterialPass(pMat);
pPass->SetColorInputs(eZeroRGB, eRasRGB, eKonstRGB, eZeroRGB);
pPass->SetAlphaInputs(eZeroAlpha, eZeroAlpha, eZeroAlpha, eKonstAlpha);
pPass->SetKColorSel(eKonst0_RGB);
pPass->SetKAlphaSel(eKonstOne);
pPass->SetRasSel(eRasColor0A0);
pPass->SetColorInputs(kZeroRGB, kRasRGB, kKonstRGB, kZeroRGB);
pPass->SetAlphaInputs(kZeroAlpha, kZeroAlpha, kZeroAlpha, kKonstAlpha);
pPass->SetKColorSel(kKonst0_RGB);
pPass->SetKAlphaSel(kKonstOne);
pPass->SetRasSel(kRasColor0A0);
pMat->mKonstColors[0] = CColor::RandomLightColor(false);
pMat->mPasses.push_back(pPass);

View File

@ -4,7 +4,7 @@
#include <map>
CModelLoader::CModelLoader()
: mFlags(eNoFlags)
: mFlags(EModelLoaderFlag::None)
, mNumVertices(0)
{
}
@ -24,7 +24,7 @@ void CModelLoader::LoadWorldMeshHeader(IInputStream& rModel)
void CModelLoader::LoadAttribArrays(IInputStream& rModel)
{
// Positions
if (mFlags & eShortPositions) // Shorts (DKCR only)
if (mFlags & EModelLoaderFlag::HalfPrecisionPositions) // 16-bit (DKCR only)
{
mPositions.resize(mpSectionMgr->CurrentSectionSize() / 0x6);
float Divisor = 8192.f; // Might be incorrect! Needs verification via size comparison.
@ -38,7 +38,7 @@ void CModelLoader::LoadAttribArrays(IInputStream& rModel)
}
}
else // Floats
else // 32-bit
{
mPositions.resize(mpSectionMgr->CurrentSectionSize() / 0xC);
@ -49,7 +49,7 @@ void CModelLoader::LoadAttribArrays(IInputStream& rModel)
mpSectionMgr->ToNextSection();
// Normals
if (mFlags & eShortNormals) // Shorts
if (mFlags & EModelLoaderFlag::HalfPrecisionNormals) // 16-bit
{
mNormals.resize(mpSectionMgr->CurrentSectionSize() / 0x6);
float Divisor = (mVersion < EGame::DKCReturns) ? 32768.f : 16384.f;
@ -62,7 +62,7 @@ void CModelLoader::LoadAttribArrays(IInputStream& rModel)
mNormals[iVtx] = CVector3f(X, Y, Z);
}
}
else // Floats
else // 32-bit
{
mNormals.resize(mpSectionMgr->CurrentSectionSize() / 0xC);
@ -81,7 +81,7 @@ void CModelLoader::LoadAttribArrays(IInputStream& rModel)
mpSectionMgr->ToNextSection();
// Float UVs
// UVs
mTex0.resize(mpSectionMgr->CurrentSectionSize() / 0x8);
for (uint32 iVtx = 0; iVtx < mTex0.size(); iVtx++)
@ -89,8 +89,8 @@ void CModelLoader::LoadAttribArrays(IInputStream& rModel)
mpSectionMgr->ToNextSection();
// Short UVs
if (mFlags & eHasTex1)
// Lightmap UVs
if (mFlags & EModelLoaderFlag::LightmapUVs)
{
mTex1.resize(mpSectionMgr->CurrentSectionSize() / 0x4);
float Divisor = (mVersion < EGame::DKCReturns) ? 32768.f : 8192.f;
@ -137,7 +137,7 @@ SSurface* CModelLoader::LoadSurface(IInputStream& rModel)
while ((Flag != 0) && ((uint32) rModel.Tell() < NextSurface))
{
SSurface::SPrimitive Prim;
Prim.Type = EGXPrimitiveType(Flag & 0xF8);
Prim.Type = EPrimitiveType(Flag & 0xF8);
uint16 VertexCount = rModel.ReadShort();
for (uint16 iVtx = 0; iVtx < VertexCount; iVtx++)
@ -146,14 +146,14 @@ SSurface* CModelLoader::LoadSurface(IInputStream& rModel)
FVertexDescription VtxDesc = pMat->VtxDesc();
for (uint32 iMtxAttr = 0; iMtxAttr < 8; iMtxAttr++)
if (VtxDesc & (ePosMtx << iMtxAttr)) rModel.Seek(0x1, SEEK_CUR);
if (VtxDesc & ((uint) EVertexAttribute::PosMtx << iMtxAttr)) rModel.Seek(0x1, SEEK_CUR);
// Only thing to do here is check whether each attribute is present, and if so, read it.
// A couple attributes have special considerations; normals can be floats or shorts, as can tex0, depending on vtxfmt.
// tex0 can also be read from either UV buffer; depends what the material says.
// Position
if (VtxDesc & ePosition)
if (VtxDesc & EVertexAttribute::Position)
{
uint16 PosIndex = rModel.ReadShort() & 0xFFFF;
Vtx.Position = mPositions[PosIndex];
@ -163,21 +163,21 @@ SSurface* CModelLoader::LoadSurface(IInputStream& rModel)
}
// Normal
if (VtxDesc & eNormal)
if (VtxDesc & EVertexAttribute::Normal)
Vtx.Normal = mNormals[rModel.ReadShort() & 0xFFFF];
// Color
for (uint32 iClr = 0; iClr < 2; iClr++)
if (VtxDesc & (eColor0 << iClr))
if (VtxDesc & ((uint) EVertexAttribute::Color0 << iClr))
Vtx.Color[iClr] = mColors[rModel.ReadShort() & 0xFFFF];
// Tex Coords - these are done a bit differently in DKCR than in the Prime series
if (mVersion < EGame::DKCReturns)
{
// Tex0
if (VtxDesc & eTex0)
if (VtxDesc & EVertexAttribute::Tex0)
{
if ((mFlags & eHasTex1) && (pMat->Options() & CMaterial::eShortTexCoord))
if ((mFlags & EModelLoaderFlag::LightmapUVs) && (pMat->Options() & EMaterialOption::ShortTexCoord))
Vtx.Tex[0] = mTex1[rModel.ReadShort() & 0xFFFF];
else
Vtx.Tex[0] = mTex0[rModel.ReadShort() & 0xFFFF];
@ -185,7 +185,7 @@ SSurface* CModelLoader::LoadSurface(IInputStream& rModel)
// Tex1-7
for (uint32 iTex = 1; iTex < 7; iTex++)
if (VtxDesc & (eTex0 << iTex))
if (VtxDesc & ((uint) EVertexAttribute::Tex0 << iTex))
Vtx.Tex[iTex] = mTex0[rModel.ReadShort() & 0xFFFF];
}
@ -194,7 +194,7 @@ SSurface* CModelLoader::LoadSurface(IInputStream& rModel)
// Tex0-7
for (uint32 iTex = 0; iTex < 7; iTex++)
{
if (VtxDesc & (eTex0 << iTex))
if (VtxDesc & ((uint) EVertexAttribute::Tex0 << iTex))
{
if (!mSurfaceUsingTex1)
Vtx.Tex[iTex] = mTex0[rModel.ReadShort() & 0xFFFF];
@ -212,11 +212,11 @@ SSurface* CModelLoader::LoadSurface(IInputStream& rModel)
switch (Prim.Type)
{
case eGX_Triangles:
case EPrimitiveType::Triangles:
pSurf->TriangleCount += VertexCount / 3;
break;
case eGX_TriangleFan:
case eGX_TriangleStrip:
case EPrimitiveType::TriangleFan:
case EPrimitiveType::TriangleStrip:
pSurf->TriangleCount += VertexCount - 2;
break;
}
@ -283,13 +283,13 @@ SSurface* CModelLoader::LoadAssimpMesh(const aiMesh *pkMesh, CMaterialSet *pSet)
CMaterial *pMat = pSet->MaterialByIndex(pkMesh->mMaterialIndex);
FVertexDescription Desc = pMat->VtxDesc();
if (Desc == eNoAttributes)
if (Desc == (FVertexDescription) EVertexAttribute::None)
{
if (pkMesh->HasPositions()) Desc |= ePosition;
if (pkMesh->HasNormals()) Desc |= eNormal;
if (pkMesh->HasPositions()) Desc |= EVertexAttribute::Position;
if (pkMesh->HasNormals()) Desc |= EVertexAttribute::Normal;
for (uint32 iUV = 0; iUV < pkMesh->GetNumUVChannels(); iUV++)
Desc |= (eTex0 << iUV);
Desc |= ((uint) EVertexAttribute::Tex0 << iUV);
pMat->SetVertexDescription(Desc);
@ -297,8 +297,8 @@ SSurface* CModelLoader::LoadAssimpMesh(const aiMesh *pkMesh, CMaterialSet *pSet)
if (!pkMesh->HasNormals())
{
pMat->SetLightingEnabled(false);
pMat->Pass(0)->SetColorInputs(eZeroRGB, eOneRGB, eKonstRGB, eZeroRGB);
pMat->Pass(0)->SetRasSel(eRasColorNull);
pMat->Pass(0)->SetColorInputs(kZeroRGB, kOneRGB, kKonstRGB, kZeroRGB);
pMat->Pass(0)->SetRasSel(kRasColorNull);
}
}
@ -313,9 +313,9 @@ SSurface* CModelLoader::LoadAssimpMesh(const aiMesh *pkMesh, CMaterialSet *pSet)
// Check primitive type on first face
uint32 NumIndices = pkMesh->mFaces[0].mNumIndices;
if (NumIndices == 1) rPrim.Type = eGX_Points;
else if (NumIndices == 2) rPrim.Type = eGX_Lines;
else if (NumIndices == 3) rPrim.Type = eGX_Triangles;
if (NumIndices == 1) rPrim.Type = EPrimitiveType::Points;
else if (NumIndices == 2) rPrim.Type = EPrimitiveType::Lines;
else if (NumIndices == 3) rPrim.Type = EPrimitiveType::Triangles;
// Generate bounding box, center point, and reflection projection
pSurf->CenterPoint = CVector3f::skZero;
@ -340,7 +340,7 @@ SSurface* CModelLoader::LoadAssimpMesh(const aiMesh *pkMesh, CMaterialSet *pSet)
// Set vertex/triangle count
pSurf->VertexCount = pkMesh->mNumVertices;
pSurf->TriangleCount = (rPrim.Type == eGX_Triangles ? pkMesh->mNumFaces : 0);
pSurf->TriangleCount = (rPrim.Type == EPrimitiveType::Triangles ? pkMesh->mNumFaces : 0);
// Create primitive
for (uint32 iFace = 0; iFace < pkMesh->mNumFaces; iFace++)
@ -401,9 +401,9 @@ CModel* CModelLoader::LoadCMDL(IInputStream& rCMDL, CResourceEntry *pEntry)
BlockCount = rCMDL.ReadLong();
MatSetCount = rCMDL.ReadLong();
if (Flags & 0x1) Loader.mFlags |= eSkinnedModel;
if (Flags & 0x2) Loader.mFlags |= eShortNormals;
if (Flags & 0x4) Loader.mFlags |= eHasTex1;
if (Flags & 0x1) Loader.mFlags |= EModelLoaderFlag::Skinned;
if (Flags & 0x2) Loader.mFlags |= EModelLoaderFlag::HalfPrecisionNormals;
if (Flags & 0x4) Loader.mFlags |= EModelLoaderFlag::LightmapUVs;
}
// 0x9381000A - Donkey Kong Country Returns
@ -416,9 +416,9 @@ CModel* CModelLoader::LoadCMDL(IInputStream& rCMDL, CResourceEntry *pEntry)
MatSetCount = rCMDL.ReadLong();
// todo: unknown flags
Loader.mFlags = eShortNormals | eHasTex1;
if (Flags & 0x10) Loader.mFlags |= eHasVisGroups;
if (Flags & 0x20) Loader.mFlags |= eShortPositions;
Loader.mFlags = EModelLoaderFlag::HalfPrecisionNormals | EModelLoaderFlag::LightmapUVs;
if (Flags & 0x10) Loader.mFlags |= EModelLoaderFlag::VisibilityGroups;
if (Flags & 0x20) Loader.mFlags |= EModelLoaderFlag::HalfPrecisionPositions;
// Visibility group data
// Skipping for now - should read in eventually
@ -498,8 +498,8 @@ CModel* CModelLoader::LoadWorldModel(IInputStream& rMREA, CSectionMgrIn& rBlockM
CModelLoader Loader;
Loader.mpSectionMgr = &rBlockMgr;
Loader.mVersion = Version;
Loader.mFlags = eShortNormals;
if (Version != EGame::CorruptionProto) Loader.mFlags |= eHasTex1;
Loader.mFlags = EModelLoaderFlag::HalfPrecisionNormals;
if (Version != EGame::CorruptionProto) Loader.mFlags |= EModelLoaderFlag::LightmapUVs;
Loader.mMaterials.resize(1);
Loader.mMaterials[0] = &rMatSet;
@ -531,10 +531,10 @@ CModel* CModelLoader::LoadCorruptionWorldModel(IInputStream& rMREA, CSectionMgrI
CModelLoader Loader;
Loader.mpSectionMgr = &rBlockMgr;
Loader.mVersion = Version;
Loader.mFlags = eShortNormals;
Loader.mFlags = EModelLoaderFlag::HalfPrecisionNormals;
Loader.mMaterials.resize(1);
Loader.mMaterials[0] = &rMatSet;
if (Version == EGame::DKCReturns) Loader.mFlags |= eHasTex1;
if (Version == EGame::DKCReturns) Loader.mFlags |= EModelLoaderFlag::LightmapUVs;
// Corruption/DKCR MREAs split the mesh header and surface offsets away from the actual geometry data so I need two section numbers to read it
rBlockMgr.ToSection(HeaderSecNum);

View File

@ -11,19 +11,20 @@
#include <assimp/scene.h>
enum class EModelLoaderFlag
{
None = 0x0,
HalfPrecisionPositions = 0x1,
HalfPrecisionNormals = 0x2,
LightmapUVs = 0x4,
VisibilityGroups = 0x8,
Skinned = 0x10
};
DECLARE_FLAGS_ENUMCLASS(EModelLoaderFlag, FModelLoaderFlags)
class CModelLoader
{
public:
enum EModelFlag
{
eNoFlags = 0x0,
eShortPositions = 0x1,
eShortNormals = 0x2,
eHasTex1 = 0x4,
eHasVisGroups = 0x8,
eSkinnedModel = 0x10
};
DECLARE_FLAGS(EModelFlag, FModelFlags)
private:
TResPtr<CModel> mpModel;
@ -43,7 +44,7 @@ private:
uint32 mSurfaceCount;
std::vector<uint32> mSurfaceOffsets;
FModelFlags mFlags;
FModelLoaderFlags mFlags;
CModelLoader();
~CModelLoader();

View File

@ -34,28 +34,28 @@ public:
{
switch (pEntry->ResourceType())
{
case eAnimation: return new CAnimation(pEntry);
case eAnimEventData: return new CAnimEventData(pEntry);
case eAnimSet: return new CAnimSet(pEntry);
case eArea: return new CGameArea(pEntry);
case eAudioMacro: return new CAudioMacro(pEntry);
case eAudioGroup: return new CAudioGroup(pEntry);
case eAudioLookupTable: return new CAudioLookupTable(pEntry);
case eCharacter: return new CAnimSet(pEntry);
case eDynamicCollision: return new CCollisionMeshGroup(pEntry);
case eDependencyGroup: return new CDependencyGroup(pEntry);
case eFont: return new CFont(pEntry);
case eMapArea: return new CMapArea(pEntry);
case eModel: return new CModel(pEntry);
case eScan: return new CScan(pEntry);
case eSkeleton: return new CSkeleton(pEntry);
case eSkin: return new CSkin(pEntry);
case eSourceAnimData: return new CSourceAnimData(pEntry);
case eStaticGeometryMap: return new CPoiToWorld(pEntry);
case eStringList: return new CStringList(pEntry);
case eStringTable: return new CStringTable(pEntry);
case eTexture: return new CTexture(pEntry);
case eWorld: return new CWorld(pEntry);
case EResourceType::Animation: return new CAnimation(pEntry);
case EResourceType::AnimEventData: return new CAnimEventData(pEntry);
case EResourceType::AnimSet: return new CAnimSet(pEntry);
case EResourceType::Area: return new CGameArea(pEntry);
case EResourceType::AudioMacro: return new CAudioMacro(pEntry);
case EResourceType::AudioGroup: return new CAudioGroup(pEntry);
case EResourceType::AudioLookupTable: return new CAudioLookupTable(pEntry);
case EResourceType::Character: return new CAnimSet(pEntry);
case EResourceType::DynamicCollision: return new CCollisionMeshGroup(pEntry);
case EResourceType::DependencyGroup: return new CDependencyGroup(pEntry);
case EResourceType::Font: return new CFont(pEntry);
case EResourceType::MapArea: return new CMapArea(pEntry);
case EResourceType::Model: return new CModel(pEntry);
case EResourceType::Scan: return new CScan(pEntry);
case EResourceType::Skeleton: return new CSkeleton(pEntry);
case EResourceType::Skin: return new CSkin(pEntry);
case EResourceType::SourceAnimData: return new CSourceAnimData(pEntry);
case EResourceType::StaticGeometryMap: return new CPoiToWorld(pEntry);
case EResourceType::StringList: return new CStringList(pEntry);
case EResourceType::StringTable: return new CStringTable(pEntry);
case EResourceType::Texture: return new CTexture(pEntry);
case EResourceType::World: return new CWorld(pEntry);
default: return nullptr; // should it return a CResource instead?
}
}
@ -68,38 +68,38 @@ public:
switch (pEntry->ResourceType())
{
case eAnimation: pRes = CAnimationLoader::LoadANIM(rInput, pEntry); break;
case eAnimEventData: pRes = CAnimEventLoader::LoadEVNT(rInput, pEntry); break;
case eAnimSet: pRes = CAnimSetLoader::LoadANCS(rInput, pEntry); break;
case eArea: pRes = CAreaLoader::LoadMREA(rInput, pEntry); break;
case eAudioMacro: pRes = CUnsupportedFormatLoader::LoadCAUD(rInput, pEntry); break;
case eAudioGroup: pRes = CAudioGroupLoader::LoadAGSC(rInput, pEntry); break;
case eAudioLookupTable: pRes = CAudioGroupLoader::LoadATBL(rInput, pEntry); break;
case eBinaryData: pRes = CUnsupportedFormatLoader::LoadDUMB(rInput, pEntry); break;
case eCharacter: pRes = CAnimSetLoader::LoadCHAR(rInput, pEntry); break;
case eDependencyGroup: pRes = CDependencyGroupLoader::LoadDGRP(rInput, pEntry); break;
case eDynamicCollision: pRes = CCollisionLoader::LoadDCLN(rInput, pEntry); break;
case eFont: pRes = CFontLoader::LoadFONT(rInput, pEntry); break;
case eGuiFrame: pRes = CUnsupportedFormatLoader::LoadFRME(rInput, pEntry); break;
case eHintSystem: pRes = CUnsupportedFormatLoader::LoadHINT(rInput, pEntry); break;
case eMapArea: pRes = CUnsupportedFormatLoader::LoadMAPA(rInput, pEntry); break;
case eMapWorld: pRes = CUnsupportedFormatLoader::LoadMAPW(rInput, pEntry); break;
case eMapUniverse: pRes = CUnsupportedFormatLoader::LoadMAPU(rInput, pEntry); break;
case eMidi: pRes = CUnsupportedFormatLoader::LoadCSNG(rInput, pEntry); break;
case eModel: pRes = CModelLoader::LoadCMDL(rInput, pEntry); break;
case eRuleSet: pRes = CUnsupportedFormatLoader::LoadRULE(rInput, pEntry); break;
case eScan: pRes = CScanLoader::LoadSCAN(rInput, pEntry); break;
case eSkeleton: pRes = CSkeletonLoader::LoadCINF(rInput, pEntry); break;
case eSkin: pRes = CSkinLoader::LoadCSKR(rInput, pEntry); break;
case eSourceAnimData: pRes = CAnimSetLoader::LoadSAND(rInput, pEntry); break;
case eStateMachine2: pRes = CUnsupportedFormatLoader::LoadFSM2(rInput, pEntry); break;
case eStaticGeometryMap: pRes = CPoiToWorldLoader::LoadEGMC(rInput, pEntry); break;
case eStringList: pRes = CAudioGroupLoader::LoadSTLC(rInput, pEntry); break;
case eStringTable: pRes = CStringLoader::LoadSTRG(rInput, pEntry); break;
case eTexture: pRes = CTextureDecoder::LoadTXTR(rInput, pEntry); break;
case eWorld: pRes = CWorldLoader::LoadMLVL(rInput, pEntry); break;
case EResourceType::Animation: pRes = CAnimationLoader::LoadANIM(rInput, pEntry); break;
case EResourceType::AnimEventData: pRes = CAnimEventLoader::LoadEVNT(rInput, pEntry); break;
case EResourceType::AnimSet: pRes = CAnimSetLoader::LoadANCS(rInput, pEntry); break;
case EResourceType::Area: pRes = CAreaLoader::LoadMREA(rInput, pEntry); break;
case EResourceType::AudioMacro: pRes = CUnsupportedFormatLoader::LoadCAUD(rInput, pEntry); break;
case EResourceType::AudioGroup: pRes = CAudioGroupLoader::LoadAGSC(rInput, pEntry); break;
case EResourceType::AudioLookupTable: pRes = CAudioGroupLoader::LoadATBL(rInput, pEntry); break;
case EResourceType::BinaryData: pRes = CUnsupportedFormatLoader::LoadDUMB(rInput, pEntry); break;
case EResourceType::Character: pRes = CAnimSetLoader::LoadCHAR(rInput, pEntry); break;
case EResourceType::DependencyGroup: pRes = CDependencyGroupLoader::LoadDGRP(rInput, pEntry); break;
case EResourceType::DynamicCollision: pRes = CCollisionLoader::LoadDCLN(rInput, pEntry); break;
case EResourceType::Font: pRes = CFontLoader::LoadFONT(rInput, pEntry); break;
case EResourceType::GuiFrame: pRes = CUnsupportedFormatLoader::LoadFRME(rInput, pEntry); break;
case EResourceType::HintSystem: pRes = CUnsupportedFormatLoader::LoadHINT(rInput, pEntry); break;
case EResourceType::MapArea: pRes = CUnsupportedFormatLoader::LoadMAPA(rInput, pEntry); break;
case EResourceType::MapWorld: pRes = CUnsupportedFormatLoader::LoadMAPW(rInput, pEntry); break;
case EResourceType::MapUniverse: pRes = CUnsupportedFormatLoader::LoadMAPU(rInput, pEntry); break;
case EResourceType::Midi: pRes = CUnsupportedFormatLoader::LoadCSNG(rInput, pEntry); break;
case EResourceType::Model: pRes = CModelLoader::LoadCMDL(rInput, pEntry); break;
case EResourceType::RuleSet: pRes = CUnsupportedFormatLoader::LoadRULE(rInput, pEntry); break;
case EResourceType::Scan: pRes = CScanLoader::LoadSCAN(rInput, pEntry); break;
case EResourceType::Skeleton: pRes = CSkeletonLoader::LoadCINF(rInput, pEntry); break;
case EResourceType::Skin: pRes = CSkinLoader::LoadCSKR(rInput, pEntry); break;
case EResourceType::SourceAnimData: pRes = CAnimSetLoader::LoadSAND(rInput, pEntry); break;
case EResourceType::StateMachine2: pRes = CUnsupportedFormatLoader::LoadFSM2(rInput, pEntry); break;
case EResourceType::StaticGeometryMap: pRes = CPoiToWorldLoader::LoadEGMC(rInput, pEntry); break;
case EResourceType::StringList: pRes = CAudioGroupLoader::LoadSTLC(rInput, pEntry); break;
case EResourceType::StringTable: pRes = CStringLoader::LoadSTRG(rInput, pEntry); break;
case EResourceType::Texture: pRes = CTextureDecoder::LoadTXTR(rInput, pEntry); break;
case EResourceType::World: pRes = CWorldLoader::LoadMLVL(rInput, pEntry); break;
case eStateMachine:
case EResourceType::StateMachine:
// AFSM currently unsupported
if (pEntry->Game() <= EGame::Echoes)
pRes = new CDependencyGroup(pEntry);
@ -109,17 +109,17 @@ public:
pRes = CUnsupportedFormatLoader::LoadFSMC(rInput, pEntry);
break;
case eBurstFireData:
case eParticle:
case eParticleElectric:
case eParticleSorted:
case eParticleSpawn:
case eParticleSwoosh:
case eParticleDecal:
case eParticleWeapon:
case eParticleCollisionResponse:
case eParticleTransform:
case eUserEvaluatorData:
case EResourceType::BurstFireData:
case EResourceType::Particle:
case EResourceType::ParticleElectric:
case EResourceType::ParticleSorted:
case EResourceType::ParticleSpawn:
case EResourceType::ParticleSwoosh:
case EResourceType::ParticleDecal:
case EResourceType::ParticleWeapon:
case EResourceType::ParticleCollisionResponse:
case EResourceType::ParticleTransform:
case EResourceType::UserEvaluatorData:
pRes = CUnsupportedParticleLoader::LoadParticle(rInput, pEntry);
break;

View File

@ -9,15 +9,15 @@ CScanLoader::CScanLoader()
CScan* CScanLoader::LoadScanMP1(IInputStream& rSCAN)
{
// Basic support at the moment - don't read animation/scan image data
mpScan->mFrameID = CAssetID(rSCAN, e32Bit);
mpScan->mpStringTable = gpResourceStore->LoadResource(rSCAN.ReadLong(), eStringTable);
mpScan->mFrameID = CAssetID(rSCAN, k32Bit);
mpScan->mpStringTable = gpResourceStore->LoadResource(rSCAN.ReadLong(), EResourceType::StringTable);
mpScan->mIsSlow = (rSCAN.ReadLong() != 0);
mpScan->mCategory = (CScan::ELogbookCategory) rSCAN.ReadLong();
mpScan->mIsImportant = (rSCAN.ReadByte() == 1);
for (uint32 iImg = 0; iImg < 4; iImg++)
{
mpScan->mScanImageTextures[iImg] = CAssetID(rSCAN, e32Bit);
mpScan->mScanImageTextures[iImg] = CAssetID(rSCAN, k32Bit);
rSCAN.Seek(0x18, SEEK_CUR);
}
@ -116,7 +116,7 @@ void CScanLoader::LoadParamsMP2(IInputStream& rSCAN, uint16 NumProperties)
switch (PropertyID)
{
case 0x2F5B6423:
mpScan->mpStringTable = gpResourceStore->LoadResource(rSCAN.ReadLong(), eStringTable);
mpScan->mpStringTable = gpResourceStore->LoadResource(rSCAN.ReadLong(), EResourceType::StringTable);
break;
case 0xC308A322:
@ -199,7 +199,7 @@ void CScanLoader::LoadParamsMP2(IInputStream& rSCAN, uint16 NumProperties)
rSCAN.GoTo(Next);
}
mpScan->mCategory = CScan::eNone;
mpScan->mCategory = CScan::ELogbookCategory::None;
}
void CScanLoader::LoadParamsMP3(IInputStream& rSCAN, uint16 NumProperties)
@ -214,7 +214,7 @@ void CScanLoader::LoadParamsMP3(IInputStream& rSCAN, uint16 NumProperties)
switch (PropertyID)
{
case 0x2F5B6423:
mpScan->mpStringTable = gpResourceStore->LoadResource(rSCAN.ReadLongLong(), eStringTable);
mpScan->mpStringTable = gpResourceStore->LoadResource(rSCAN.ReadLongLong(), EResourceType::Scan);
break;
case 0xC308A322:
@ -229,7 +229,7 @@ void CScanLoader::LoadParamsMP3(IInputStream& rSCAN, uint16 NumProperties)
rSCAN.GoTo(Next);
}
mpScan->mCategory = CScan::eNone;
mpScan->mCategory = CScan::ELogbookCategory::None;
}
void CScanLoader::LoadScanInfoSecondaryModel(IInputStream& rSCAN, CScan::SScanInfoSecondaryModel& rSecondaryModel)

View File

@ -49,37 +49,37 @@ CTexture* CTextureDecoder::CreateTexture()
pTex->mWidth = mWidth;
pTex->mHeight = mHeight;
pTex->mNumMipMaps = mNumMipMaps;
pTex->mLinearSize = (uint32) (mWidth * mHeight * gskPixelsToBytes[mTexelFormat]);
pTex->mLinearSize = (uint32) (mWidth * mHeight * gskPixelsToBytes[(int) mTexelFormat]);
pTex->mpImgDataBuffer = mpDataBuffer;
pTex->mImgDataSize = mDataBufferSize;
pTex->mBufferExists = true;
switch (mTexelFormat)
{
case eGX_I4:
case eGX_I8:
case eGX_IA4:
case eGX_IA8:
pTex->mTexelFormat = eLuminanceAlpha;
case ETexelFormat::GX_I4:
case ETexelFormat::GX_I8:
case ETexelFormat::GX_IA4:
case ETexelFormat::GX_IA8:
pTex->mTexelFormat = ETexelFormat::LuminanceAlpha;
break;
case eGX_RGB565:
pTex->mTexelFormat = eRGB565;
case ETexelFormat::GX_RGB565:
pTex->mTexelFormat = ETexelFormat::RGB565;
break;
case eGX_C4:
case eGX_C8:
if (mPaletteFormat == ePalette_IA8) pTex->mTexelFormat = eLuminanceAlpha;
if (mPaletteFormat == ePalette_RGB565) pTex->mTexelFormat = eRGB565;
if (mPaletteFormat == ePalette_RGB5A3) pTex->mTexelFormat = eRGBA8;
case ETexelFormat::GX_C4:
case ETexelFormat::GX_C8:
if (mPaletteFormat == EGXPaletteFormat::IA8) pTex->mTexelFormat = ETexelFormat::LuminanceAlpha;
if (mPaletteFormat == EGXPaletteFormat::RGB565) pTex->mTexelFormat = ETexelFormat::RGB565;
if (mPaletteFormat == EGXPaletteFormat::RGB5A3) pTex->mTexelFormat = ETexelFormat::RGBA8;
break;
case eGX_RGB5A3:
case eGX_RGBA8:
pTex->mTexelFormat = eRGBA8;
case ETexelFormat::GX_RGB5A3:
case ETexelFormat::GX_RGBA8:
pTex->mTexelFormat = ETexelFormat::RGBA8;
break;
case eGX_CMPR:
pTex->mTexelFormat = eDXT1;
case ETexelFormat::GX_CMPR:
pTex->mTexelFormat = ETexelFormat::DXT1;
break;
case eDXT1:
pTex->mTexelFormat = eDXT1;
case ETexelFormat::DXT1:
pTex->mTexelFormat = ETexelFormat::DXT1;
pTex->mLinearSize = mWidth * mHeight / 2;
break;
default:
@ -108,7 +108,7 @@ CTexture* CTextureDecoder::DoFullDecode(IInputStream& rTXTR, CResourceEntry *pEn
Decoder.FullDecodeGXTexture(rTXTR);
CTexture *pTexture = Decoder.CreateTexture();
pTexture->mTexelFormat = eRGBA8;
pTexture->mTexelFormat = ETexelFormat::RGBA8;
return pTexture;
}
@ -136,17 +136,17 @@ void CTextureDecoder::ReadTXTR(IInputStream& rTXTR)
mNumMipMaps = rTXTR.ReadLong();
// For C4 and C8 images, read palette
if ((mTexelFormat == eGX_C4) || (mTexelFormat == eGX_C8))
if ((mTexelFormat == ETexelFormat::GX_C4) || (mTexelFormat == ETexelFormat::GX_C8))
{
mHasPalettes = true;
mPaletteFormat = EGXPaletteFormat(rTXTR.ReadLong());
rTXTR.Seek(0x4, SEEK_CUR);
uint32 PaletteEntryCount = (mTexelFormat == eGX_C4) ? 16 : 256;
uint32 PaletteEntryCount = (mTexelFormat == ETexelFormat::GX_C4) ? 16 : 256;
mPalettes.resize(PaletteEntryCount * 2);
rTXTR.ReadBytes(mPalettes.data(), mPalettes.size());
mPaletteInput.SetData(mPalettes.data(), mPalettes.size(), IOUtil::eBigEndian);
mPaletteInput.SetData(mPalettes.data(), mPalettes.size(), EEndian::BigEndian);
}
else mHasPalettes = false;
}
@ -214,28 +214,28 @@ void CTextureDecoder::PartialDecodeGXTexture(IInputStream& TXTR)
uint32 ImageSize = TXTR.Tell() - ImageStart;
TXTR.Seek(ImageStart, SEEK_SET);
mDataBufferSize = ImageSize * (gskOutputBpp[mTexelFormat] / gskSourceBpp[mTexelFormat]);
if ((mHasPalettes) && (mPaletteFormat == ePalette_RGB5A3)) mDataBufferSize *= 2;
mDataBufferSize = ImageSize * (gskOutputBpp[(int) mTexelFormat] / gskSourceBpp[(int) mTexelFormat]);
if ((mHasPalettes) && (mPaletteFormat == EGXPaletteFormat::RGB5A3)) mDataBufferSize *= 2;
mpDataBuffer = new uint8[mDataBufferSize];
CMemoryOutStream Out(mpDataBuffer, mDataBufferSize, IOUtil::kSystemEndianness);
CMemoryOutStream Out(mpDataBuffer, mDataBufferSize, EEndian::SystemEndian);
// Initializing more stuff before we start the mipmap loop
uint32 MipW = mWidth, MipH = mHeight;
uint32 MipOffset = 0;
uint32 BWidth = gskBlockWidth[mTexelFormat];
uint32 BHeight = gskBlockHeight[mTexelFormat];
uint32 BWidth = gskBlockWidth[(int) mTexelFormat];
uint32 BHeight = gskBlockHeight[(int) mTexelFormat];
uint32 PixelStride = gskOutputPixelStride[mTexelFormat];
if (mHasPalettes && (mPaletteFormat == ePalette_RGB5A3))
uint32 PixelStride = gskOutputPixelStride[(int) mTexelFormat];
if (mHasPalettes && (mPaletteFormat == EGXPaletteFormat::RGB5A3))
PixelStride = 4;
// With CMPR, we're using a little trick.
// CMPR stores pixels in 8x8 blocks, with four 4x4 subblocks.
// An easy way to convert it is to pretend each block is 2x2 and each subblock is one pixel.
// So to do that we need to calculate the "new" dimensions of the image, 1/4 the size of the original.
if (mTexelFormat == eGX_CMPR) {
if (mTexelFormat == ETexelFormat::GX_CMPR) {
MipW /= 4;
MipH /= 4;
}
@ -261,33 +261,33 @@ void CTextureDecoder::PartialDecodeGXTexture(IInputStream& TXTR)
uint32 DstPos = ((iImgY * MipW) + iImgX) * PixelStride;
Out.Seek(MipOffset + DstPos, SEEK_SET);
if (mTexelFormat == eGX_I4) ReadPixelsI4(TXTR, Out);
else if (mTexelFormat == eGX_I8) ReadPixelI8(TXTR, Out);
else if (mTexelFormat == eGX_IA4) ReadPixelIA4(TXTR, Out);
else if (mTexelFormat == eGX_IA8) ReadPixelIA8(TXTR, Out);
else if (mTexelFormat == eGX_C4) ReadPixelsC4(TXTR, Out);
else if (mTexelFormat == eGX_C8) ReadPixelC8(TXTR, Out);
else if (mTexelFormat == eGX_RGB565) ReadPixelRGB565(TXTR, Out);
else if (mTexelFormat == eGX_RGB5A3) ReadPixelRGB5A3(TXTR, Out);
else if (mTexelFormat == eGX_RGBA8) ReadPixelRGBA8(TXTR, Out);
else if (mTexelFormat == eGX_CMPR) ReadSubBlockCMPR(TXTR, Out);
if (mTexelFormat == ETexelFormat::GX_I4) ReadPixelsI4(TXTR, Out);
else if (mTexelFormat == ETexelFormat::GX_I8) ReadPixelI8(TXTR, Out);
else if (mTexelFormat == ETexelFormat::GX_IA4) ReadPixelIA4(TXTR, Out);
else if (mTexelFormat == ETexelFormat::GX_IA8) ReadPixelIA8(TXTR, Out);
else if (mTexelFormat == ETexelFormat::GX_C4) ReadPixelsC4(TXTR, Out);
else if (mTexelFormat == ETexelFormat::GX_C8) ReadPixelC8(TXTR, Out);
else if (mTexelFormat == ETexelFormat::GX_RGB565) ReadPixelRGB565(TXTR, Out);
else if (mTexelFormat == ETexelFormat::GX_RGB5A3) ReadPixelRGB5A3(TXTR, Out);
else if (mTexelFormat == ETexelFormat::GX_RGBA8) ReadPixelRGBA8(TXTR, Out);
else if (mTexelFormat == ETexelFormat::GX_CMPR) ReadSubBlockCMPR(TXTR, Out);
// I4 and C4 have 4bpp images, so I'm forced to read two pixels at a time.
if ((mTexelFormat == eGX_I4) || (mTexelFormat == eGX_C4)) iImgX++;
if ((mTexelFormat == ETexelFormat::GX_I4) || (mTexelFormat == ETexelFormat::GX_C4)) iImgX++;
// Check if we're at the end of the file.
if (TXTR.EoF()) BreakEarly = true;
}
if (BreakEarly) break;
}
if (mTexelFormat == eGX_RGBA8) TXTR.Seek(0x20, SEEK_CUR);
if (mTexelFormat == ETexelFormat::GX_RGBA8) TXTR.Seek(0x20, SEEK_CUR);
if (BreakEarly) break;
}
if (BreakEarly) break;
}
uint32 MipSize = (uint32) (MipW * MipH * gskPixelsToBytes[mTexelFormat]);
if (mTexelFormat == eGX_CMPR) MipSize *= 16; // Since we're pretending the image is 1/4 its actual size, we have to multiply the size by 16 to get the correct offset
uint32 MipSize = (uint32) (MipW * MipH * gskPixelsToBytes[(int) mTexelFormat]);
if (mTexelFormat == ETexelFormat::GX_CMPR) MipSize *= 16; // Since we're pretending the image is 1/4 its actual size, we have to multiply the size by 16 to get the correct offset
MipOffset += MipSize;
MipW /= 2;
@ -305,23 +305,23 @@ void CTextureDecoder::FullDecodeGXTexture(IInputStream& rTXTR)
uint32 ImageSize = rTXTR.Tell() - ImageStart;
rTXTR.Seek(ImageStart, SEEK_SET);
mDataBufferSize = ImageSize * (32 / gskSourceBpp[mTexelFormat]);
mDataBufferSize = ImageSize * (32 / gskSourceBpp[(int) mTexelFormat]);
mpDataBuffer = new uint8[mDataBufferSize];
CMemoryOutStream Out(mpDataBuffer, mDataBufferSize, IOUtil::kSystemEndianness);
CMemoryOutStream Out(mpDataBuffer, mDataBufferSize, EEndian::SystemEndian);
// Initializing more stuff before we start the mipmap loop
uint32 MipW = mWidth, MipH = mHeight;
uint32 MipOffset = 0;
uint32 BWidth = gskBlockWidth[mTexelFormat];
uint32 BHeight = gskBlockHeight[mTexelFormat];
uint32 BWidth = gskBlockWidth[(int) mTexelFormat];
uint32 BHeight = gskBlockHeight[(int) mTexelFormat];
// With CMPR, we're using a little trick.
// CMPR stores pixels in 8x8 blocks, with four 4x4 subblocks.
// An easy way to convert it is to pretend each block is 2x2 and each subblock is one pixel.
// So to do that we need to calculate the "new" dimensions of the image, 1/4 the size of the original.
if (mTexelFormat == eGX_CMPR)
if (mTexelFormat == ETexelFormat::GX_CMPR)
{
MipW /= 4;
MipH /= 4;
@ -334,45 +334,45 @@ void CTextureDecoder::FullDecodeGXTexture(IInputStream& rTXTR)
for (uint32 iImgY = iBlockY; iImgY < iBlockY + BHeight; iImgY++) {
for (uint32 iImgX = iBlockX; iImgX < iBlockX + BWidth; iImgX++)
{
uint32 DstPos = (mTexelFormat == eGX_CMPR) ? ((iImgY * (MipW * 4)) + iImgX) * 16 : ((iImgY * MipW) + iImgX) * 4;
uint32 DstPos = (mTexelFormat == ETexelFormat::GX_CMPR) ? ((iImgY * (MipW * 4)) + iImgX) * 16 : ((iImgY * MipW) + iImgX) * 4;
Out.Seek(MipOffset + DstPos, SEEK_SET);
// I4/C4/CMPR require reading more than one pixel at a time
if (mTexelFormat == eGX_I4)
if (mTexelFormat == ETexelFormat::GX_I4)
{
uint8 Byte = rTXTR.ReadByte();
Out.WriteLong( DecodePixelI4(Byte, 0).ToLongARGB() );
Out.WriteLong( DecodePixelI4(Byte, 1).ToLongARGB() );
}
else if (mTexelFormat == eGX_C4)
else if (mTexelFormat == ETexelFormat::GX_C4)
{
uint8 Byte = rTXTR.ReadByte();
Out.WriteLong( DecodePixelC4(Byte, 0, mPaletteInput).ToLongARGB() );
Out.WriteLong( DecodePixelC4(Byte, 1, mPaletteInput).ToLongARGB() );
}
else if (mTexelFormat == eGX_CMPR) DecodeSubBlockCMPR(rTXTR, Out, (uint16) (MipW * 4));
else if (mTexelFormat == ETexelFormat::GX_CMPR) DecodeSubBlockCMPR(rTXTR, Out, (uint16) (MipW * 4));
else
{
CColor Pixel;
if (mTexelFormat == eGX_I8) Pixel = DecodePixelI8(rTXTR.ReadByte());
else if (mTexelFormat == eGX_IA4) Pixel = DecodePixelIA4(rTXTR.ReadByte());
else if (mTexelFormat == eGX_IA8) Pixel = DecodePixelIA8(rTXTR.ReadShort());
else if (mTexelFormat == eGX_C8) Pixel = DecodePixelC8(rTXTR.ReadByte(), mPaletteInput);
else if (mTexelFormat == eGX_RGB565) Pixel = DecodePixelRGB565(rTXTR.ReadShort());
else if (mTexelFormat == eGX_RGB5A3) Pixel = DecodePixelRGB5A3(rTXTR.ReadShort());
else if (mTexelFormat == eGX_RGBA8) Pixel = CColor(rTXTR, true);
if (mTexelFormat == ETexelFormat::GX_I8) Pixel = DecodePixelI8(rTXTR.ReadByte());
else if (mTexelFormat == ETexelFormat::GX_IA4) Pixel = DecodePixelIA4(rTXTR.ReadByte());
else if (mTexelFormat == ETexelFormat::GX_IA8) Pixel = DecodePixelIA8(rTXTR.ReadShort());
else if (mTexelFormat == ETexelFormat::GX_C8) Pixel = DecodePixelC8(rTXTR.ReadByte(), mPaletteInput);
else if (mTexelFormat == ETexelFormat::GX_RGB565) Pixel = DecodePixelRGB565(rTXTR.ReadShort());
else if (mTexelFormat == ETexelFormat::GX_RGB5A3) Pixel = DecodePixelRGB5A3(rTXTR.ReadShort());
else if (mTexelFormat == ETexelFormat::GX_RGBA8) Pixel = CColor(rTXTR, true);
Out.WriteLong(Pixel.ToLongARGB());
}
}
}
if (mTexelFormat == eGX_RGBA8) rTXTR.Seek(0x20, SEEK_CUR);
if (mTexelFormat == ETexelFormat::GX_RGBA8) rTXTR.Seek(0x20, SEEK_CUR);
}
uint32 MipSize = MipW * MipH * 4;
if (mTexelFormat == eGX_CMPR) MipSize *= 16;
if (mTexelFormat == ETexelFormat::GX_CMPR) MipSize *= 16;
MipOffset += MipSize;
MipW /= 2;
@ -396,7 +396,7 @@ void CTextureDecoder::DecodeDDS(IInputStream& rDDS)
else mDataBufferSize *= 4;
mpDataBuffer = new uint8[mDataBufferSize];
CMemoryOutStream Out(mpDataBuffer, mDataBufferSize, IOUtil::kSystemEndianness);
CMemoryOutStream Out(mpDataBuffer, mDataBufferSize, EEndian::SystemEndian);
// Initializing more stuff before we start the mipmap loop
uint32 MipW = mWidth, MipH = mHeight;
@ -487,9 +487,9 @@ void CTextureDecoder::DecodeDDS(IInputStream& rDDS)
}
if (mDDSInfo.Format == SDDSInfo::DXT1)
mTexelFormat = eDXT1;
mTexelFormat = ETexelFormat::DXT1;
else
mTexelFormat = eGX_RGBA8;
mTexelFormat = ETexelFormat::GX_RGBA8;
}
// ************ READ PIXELS (PARTIAL DECODE) ************
@ -567,9 +567,9 @@ void CTextureDecoder::ReadPixelC8(IInputStream& rSrc, IOutputStream& rDst)
mPaletteInput.Seek(Index * 2, SEEK_SET);
if (mPaletteFormat == ePalette_IA8) ReadPixelIA8(mPaletteInput, rDst);
else if (mPaletteFormat == ePalette_RGB565) ReadPixelRGB565(mPaletteInput, rDst);
else if (mPaletteFormat == ePalette_RGB5A3) ReadPixelRGB5A3(mPaletteInput, rDst);
if (mPaletteFormat == EGXPaletteFormat::IA8) ReadPixelIA8(mPaletteInput, rDst);
else if (mPaletteFormat == EGXPaletteFormat::RGB565) ReadPixelRGB565(mPaletteInput, rDst);
else if (mPaletteFormat == EGXPaletteFormat::RGB5A3) ReadPixelRGB5A3(mPaletteInput, rDst);
}
void CTextureDecoder::ReadPixelRGB565(IInputStream& rSrc, IOutputStream& rDst)
@ -659,18 +659,18 @@ CColor CTextureDecoder::DecodePixelC4(uint8 Byte, uint8 WhichPixel, IInputStream
Byte &= 0xF;
rPaletteStream.Seek(Byte * 2, SEEK_SET);
if (mPaletteFormat == ePalette_IA8) return DecodePixelIA8(rPaletteStream.ReadShort());
else if (mPaletteFormat == ePalette_RGB565) return DecodePixelIA8(rPaletteStream.ReadShort());
else if (mPaletteFormat == ePalette_RGB5A3) return DecodePixelIA8(rPaletteStream.ReadShort());
if (mPaletteFormat == EGXPaletteFormat::IA8) return DecodePixelIA8(rPaletteStream.ReadShort());
else if (mPaletteFormat == EGXPaletteFormat::RGB565) return DecodePixelIA8(rPaletteStream.ReadShort());
else if (mPaletteFormat == EGXPaletteFormat::RGB5A3) return DecodePixelIA8(rPaletteStream.ReadShort());
else return CColor::skTransparentBlack;
}
CColor CTextureDecoder::DecodePixelC8(uint8 Byte, IInputStream& rPaletteStream)
{
rPaletteStream.Seek(Byte * 2, SEEK_SET);
if (mPaletteFormat == ePalette_IA8) return DecodePixelIA8(rPaletteStream.ReadShort());
else if (mPaletteFormat == ePalette_RGB565) return DecodePixelIA8(rPaletteStream.ReadShort());
else if (mPaletteFormat == ePalette_RGB5A3) return DecodePixelIA8(rPaletteStream.ReadShort());
if (mPaletteFormat == EGXPaletteFormat::IA8) return DecodePixelIA8(rPaletteStream.ReadShort());
else if (mPaletteFormat == EGXPaletteFormat::RGB565) return DecodePixelIA8(rPaletteStream.ReadShort());
else if (mPaletteFormat == EGXPaletteFormat::RGB5A3) return DecodePixelIA8(rPaletteStream.ReadShort());
else return CColor::skTransparentBlack;
}

View File

@ -176,7 +176,7 @@ CDependencyGroup* CUnsupportedFormatLoader::LoadFRME(IInputStream& rFRME, CResou
// Model
else if (WidgetType == FOURCC('MODL'))
{
pGroup->AddDependency( CAssetID(rFRME, e32Bit) ); // CMDL
pGroup->AddDependency( CAssetID(rFRME, k32Bit) ); // CMDL
rFRME.Seek(0x8, SEEK_CUR);
}
@ -184,12 +184,12 @@ CDependencyGroup* CUnsupportedFormatLoader::LoadFRME(IInputStream& rFRME, CResou
else if (WidgetType == FOURCC('TXPN'))
{
rFRME.Seek(0x14, SEEK_CUR);
pGroup->AddDependency( CAssetID(rFRME, e32Bit) ); // FONT
pGroup->AddDependency( CAssetID(rFRME, k32Bit) ); // FONT
rFRME.Seek(0x32, SEEK_CUR);
if (Version == 1)
{
pGroup->AddDependency( CAssetID(rFRME, e32Bit) ); // FONT
pGroup->AddDependency( CAssetID(rFRME, k32Bit) ); // FONT
rFRME.Seek(0x8, SEEK_CUR);
}
}
@ -197,7 +197,7 @@ CDependencyGroup* CUnsupportedFormatLoader::LoadFRME(IInputStream& rFRME, CResou
// Image Pane
else if (WidgetType == FOURCC('IMGP'))
{
pGroup->AddDependency( CAssetID(rFRME, e32Bit) ); // TXTR
pGroup->AddDependency( CAssetID(rFRME, k32Bit) ); // TXTR
if (rFRME.ReadLong() != 0xFFFFFFFF) DEBUG_BREAK;
rFRME.Seek(0x4, SEEK_CUR);
@ -210,7 +210,7 @@ CDependencyGroup* CUnsupportedFormatLoader::LoadFRME(IInputStream& rFRME, CResou
// Energy Bar
else if (WidgetType == FOURCC('ENRG'))
{
pGroup->AddDependency( CAssetID(rFRME, e32Bit) ); // TXTR
pGroup->AddDependency( CAssetID(rFRME, k32Bit) ); // TXTR
}
// Slider Group
@ -438,7 +438,7 @@ CMapArea* CUnsupportedFormatLoader::LoadMAPA(IInputStream& /*rMAPA*/, CResourceE
CAssetID MapWorldID;
uint32 WorldIndex = -1;
for (TResourceIterator<eMapWorld> It; It; ++It)
for (TResourceIterator<EResourceType::MapWorld> It; It; ++It)
{
CDependencyGroup *pGroup = (CDependencyGroup*) It->Load();
@ -459,7 +459,7 @@ CMapArea* CUnsupportedFormatLoader::LoadMAPA(IInputStream& /*rMAPA*/, CResourceE
// Find a world that contains this MapWorld
if (WorldIndex != -1)
{
for (TResourceIterator<eWorld> It; It; ++It)
for (TResourceIterator<EResourceType::World> It; It; ++It)
{
CWorld *pWorld = (CWorld*) It->Load();
CDependencyGroup *pMapWorld = (CDependencyGroup*) pWorld->MapWorld();
@ -490,7 +490,7 @@ CDependencyGroup* CUnsupportedFormatLoader::LoadMAPW(IInputStream& rMAPW, CResou
// Version check
uint32 AreasStart = rMAPW.Tell();
rMAPW.Seek(NumAreas * 4, SEEK_CUR);
EIDLength IDLength = (rMAPW.EoF() || rMAPW.ReadLong() == 0xFFFFFFFF ? e32Bit : e64Bit);
EIDLength IDLength = (rMAPW.EoF() || rMAPW.ReadLong() == 0xFFFFFFFF ? k32Bit : k64Bit);
rMAPW.Seek(AreasStart, SEEK_SET);
// Read MAPA IDs
@ -542,7 +542,7 @@ CDependencyGroup* CUnsupportedFormatLoader::LoadRULE(IInputStream& rRULE, CResou
uint32 IDOffset = rRULE.Tell();
rRULE.Seek(0x4, SEEK_CUR);
uint32 RuleSetCount = rRULE.ReadShort();
EIDLength IDLength = (RuleSetCount > 0xFF ? e64Bit : e32Bit);
EIDLength IDLength = (RuleSetCount > 0xFF ? k64Bit : k32Bit);
rRULE.Seek(IDOffset, SEEK_SET);
// Read rule ID

View File

@ -16,19 +16,19 @@ void CWorldLoader::LoadPrimeMLVL(IInputStream& rMLVL)
// Header
if (mVersion < EGame::CorruptionProto)
{
mpWorld->mpWorldName = gpResourceStore->LoadResource(rMLVL.ReadLong(), eStringTable);
if (mVersion == EGame::Echoes) mpWorld->mpDarkWorldName = gpResourceStore->LoadResource(rMLVL.ReadLong(), eStringTable);
mpWorld->mpWorldName = gpResourceStore->LoadResource(rMLVL.ReadLong(), EResourceType::StringTable);
if (mVersion == EGame::Echoes) mpWorld->mpDarkWorldName = gpResourceStore->LoadResource(rMLVL.ReadLong(), EResourceType::StringTable);
if (mVersion >= EGame::Echoes) mpWorld->mTempleKeyWorldIndex = rMLVL.ReadLong();
if (mVersion >= EGame::Prime) mpWorld->mpSaveWorld = gpResourceStore->LoadResource(rMLVL.ReadLong(), eSaveWorld);
mpWorld->mpDefaultSkybox = gpResourceStore->LoadResource(rMLVL.ReadLong(), eModel);
if (mVersion >= EGame::Prime) mpWorld->mpSaveWorld = gpResourceStore->LoadResource(rMLVL.ReadLong(), EResourceType::SaveWorld);
mpWorld->mpDefaultSkybox = gpResourceStore->LoadResource(rMLVL.ReadLong(), EResourceType::Model);
}
else
{
mpWorld->mpWorldName = gpResourceStore->LoadResource(rMLVL.ReadLongLong(), eStringTable);
mpWorld->mpWorldName = gpResourceStore->LoadResource(rMLVL.ReadLongLong(), EResourceType::StringTable);
rMLVL.Seek(0x4, SEEK_CUR); // Skipping unknown value
mpWorld->mpSaveWorld = gpResourceStore->LoadResource(rMLVL.ReadLongLong(), eSaveWorld);
mpWorld->mpDefaultSkybox = gpResourceStore->LoadResource(rMLVL.ReadLongLong(), eModel);
mpWorld->mpSaveWorld = gpResourceStore->LoadResource(rMLVL.ReadLongLong(), EResourceType::SaveWorld);
mpWorld->mpDefaultSkybox = gpResourceStore->LoadResource(rMLVL.ReadLongLong(), EResourceType::Model);
}
// Memory relays - only in MP1
@ -132,7 +132,7 @@ void CWorldLoader::LoadPrimeMLVL(IInputStream& rMLVL)
}
// MapWorld
mpWorld->mpMapWorld = gpResourceStore->LoadResource( CAssetID(rMLVL, mVersion), eMapWorld );
mpWorld->mpMapWorld = gpResourceStore->LoadResource( CAssetID(rMLVL, mVersion), EResourceType::MapWorld );
rMLVL.Seek(0x5, SEEK_CUR); // Unknown values which are always 0
// Audio Groups - we don't need this info as we regenerate it on cook
@ -200,7 +200,7 @@ void CWorldLoader::LoadReturnsMLVL(IInputStream& rMLVL)
rData.ShinyGoldTime = rMLVL.ReadFloat();
}
mpWorld->mpSaveWorld = gpResourceStore->LoadResource(rMLVL.ReadLongLong(), eSaveWorld);
mpWorld->mpSaveWorld = gpResourceStore->LoadResource(rMLVL.ReadLongLong(), EResourceType::SaveWorld);
mpWorld->mpDefaultSkybox = gpResourceStore->LoadResource<CModel>(rMLVL.ReadLongLong());
// Areas

View File

@ -8,7 +8,7 @@
class CBasicModel : public CResource
{
DECLARE_RESOURCE_TYPE(eModel)
DECLARE_RESOURCE_TYPE(Model)
protected:
CAABox mAABox;
uint32 mVertexCount;

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