Shipwright/ZAPDTR/ZAPD/ZSkeleton.cpp

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#include "ZSkeleton.h"
#include <cassert>
#include "Globals.h"
#include "Utils/BitConverter.h"
#include "Utils/StringHelper.h"
#include "WarningHandler.h"
REGISTER_ZFILENODE(Skeleton, ZSkeleton);
REGISTER_ZFILENODE(LimbTable, ZLimbTable);
ZSkeleton::ZSkeleton(ZFile* nParent) : ZResource(nParent), limbsTable(nParent)
{
RegisterRequiredAttribute("Type");
RegisterRequiredAttribute("LimbType");
genOTRDef = true;
}
void ZSkeleton::ParseXML(tinyxml2::XMLElement* reader)
{
ZResource::ParseXML(reader);
std::string skelTypeXml = registeredAttributes.at("Type").value;
if (skelTypeXml == "Flex")
type = ZSkeletonType::Flex;
else if (skelTypeXml == "Curve")
type = ZSkeletonType::Curve;
else if (skelTypeXml != "Normal")
{
HANDLE_ERROR_RESOURCE(WarningType::InvalidAttributeValue, parent, this, rawDataIndex,
"invalid value found for 'Type' attribute", "");
}
std::string limbTypeXml = registeredAttributes.at("LimbType").value;
limbType = ZLimb::GetTypeByAttributeName(limbTypeXml);
if (limbType == ZLimbType::Invalid)
{
HANDLE_ERROR_RESOURCE(
WarningType::InvalidAttributeValue, parent, this, rawDataIndex,
StringHelper::Sprintf("invalid value '%s' found for 'LimbType' attribute",
limbTypeXml.c_str()),
"Defaulting to 'Standard'.");
}
}
void ZSkeleton::ParseRawData()
{
ZResource::ParseRawData();
const auto& rawData = parent->GetRawData();
limbsArrayAddress = BitConverter::ToUInt32BE(rawData, rawDataIndex);
limbCount = BitConverter::ToUInt8BE(rawData, rawDataIndex + 4);
if (type == ZSkeletonType::Flex)
{
dListCount = BitConverter::ToUInt8BE(rawData, rawDataIndex + 8);
}
if (limbsArrayAddress != 0 && GETSEGNUM(limbsArrayAddress) == parent->segment)
{
uint32_t ptr = Seg2Filespace(limbsArrayAddress, parent->baseAddress);
limbsTable.ExtractFromBinary(ptr, limbType, limbCount);
}
}
void ZSkeleton::DeclareReferences(const std::string& prefix)
{
std::string defaultPrefix = name;
if (defaultPrefix == "")
defaultPrefix = prefix;
ZResource::DeclareReferences(defaultPrefix);
if (limbsArrayAddress != 0 && GETSEGNUM(limbsArrayAddress) == parent->segment)
{
uint32_t ptr = Seg2Filespace(limbsArrayAddress, parent->baseAddress);
if (!parent->HasDeclaration(ptr))
{
limbsTable.SetName(StringHelper::Sprintf("%sLimbs", defaultPrefix.c_str()));
limbsTable.DeclareReferences(prefix);
limbsTable.GetSourceOutputCode(prefix);
}
}
}
std::string ZSkeleton::GetBodySourceCode() const
{
std::string limbArrayName;
Globals::Instance->GetSegmentedPtrName(limbsArrayAddress, parent, "", limbArrayName);
switch (type)
{
case ZSkeletonType::Normal:
case ZSkeletonType::Curve:
return StringHelper::Sprintf("\n\t%s, %i\n", limbArrayName.c_str(), limbCount);
case ZSkeletonType::Flex:
return StringHelper::Sprintf("\n\t{ %s, %i }, %i\n", limbArrayName.c_str(), limbCount,
dListCount);
}
// TODO: Throw exception?
return "ERROR";
}
size_t ZSkeleton::GetRawDataSize() const
{
switch (type)
{
case ZSkeletonType::Flex:
return 0xC;
case ZSkeletonType::Normal:
case ZSkeletonType::Curve:
default:
return 0x8;
}
}
std::string ZSkeleton::GetSourceTypeName() const
{
switch (type)
{
case ZSkeletonType::Normal:
return "SkeletonHeader";
case ZSkeletonType::Flex:
return "FlexSkeletonHeader";
case ZSkeletonType::Curve:
return "SkelCurveLimbList";
}
return "SkeletonHeader";
}
ZResourceType ZSkeleton::GetResourceType() const
{
return ZResourceType::Skeleton;
}
DeclarationAlignment ZSkeleton::GetDeclarationAlignment() const
{
return DeclarationAlignment::Align4;
}
uint8_t ZSkeleton::GetLimbCount()
{
return limbCount;
}
/* ZLimbTable */
ZLimbTable::ZLimbTable(ZFile* nParent) : ZResource(nParent)
{
RegisterRequiredAttribute("LimbType");
RegisterRequiredAttribute("Count");
}
void ZLimbTable::ExtractFromBinary(uint32_t nRawDataIndex, ZLimbType nLimbType, size_t nCount)
{
rawDataIndex = nRawDataIndex;
limbType = nLimbType;
count = nCount;
ParseRawData();
}
void ZLimbTable::ParseXML(tinyxml2::XMLElement* reader)
{
ZResource::ParseXML(reader);
std::string limbTypeXml = registeredAttributes.at("LimbType").value;
limbType = ZLimb::GetTypeByAttributeName(limbTypeXml);
if (limbType == ZLimbType::Invalid)
{
HANDLE_WARNING_RESOURCE(WarningType::InvalidAttributeValue, parent, this, rawDataIndex,
"invalid value found for 'LimbType' attribute.",
"Defaulting to 'Standard'.");
limbType = ZLimbType::Standard;
}
count = StringHelper::StrToL(registeredAttributes.at("Count").value);
}
void ZLimbTable::ParseRawData()
{
ZResource::ParseRawData();
const auto& rawData = parent->GetRawData();
uint32_t ptr = rawDataIndex;
for (size_t i = 0; i < count; i++)
{
limbsAddresses.push_back(BitConverter::ToUInt32BE(rawData, ptr));
ptr += 4;
}
}
void ZLimbTable::DeclareReferences(const std::string& prefix)
{
std::string varPrefix = name;
if (varPrefix == "")
varPrefix = prefix;
ZResource::DeclareReferences(varPrefix);
for (size_t i = 0; i < count; i++)
{
segptr_t limbAddress = limbsAddresses[i];
if (limbAddress != 0 && GETSEGNUM(limbAddress) == parent->segment)
{
uint32_t limbOffset = Seg2Filespace(limbAddress, parent->baseAddress);
if (!parent->HasDeclaration(limbOffset))
{
ZLimb* limb = new ZLimb(parent);
limb->ExtractFromBinary(limbOffset, limbType);
limb->SetName(limb->GetDefaultName(varPrefix));
limb->DeclareVar(varPrefix, "");
limb->DeclareReferences(varPrefix);
parent->AddResource(limb);
}
}
}
}
Declaration* ZLimbTable::DeclareVar(const std::string& prefix, const std::string& bodyStr)
{
std::string auxName = name;
if (name == "")
auxName = GetDefaultName(prefix);
Declaration* decl =
parent->AddDeclarationArray(rawDataIndex, GetDeclarationAlignment(), GetRawDataSize(),
GetSourceTypeName(), auxName, limbsAddresses.size(), bodyStr);
decl->staticConf = staticConf;
return decl;
}
std::string ZLimbTable::GetBodySourceCode() const
{
std::string body;
for (size_t i = 0; i < count; i++)
{
std::string limbName;
Globals::Instance->GetSegmentedPtrName(limbsAddresses[i], parent, "", limbName);
body += StringHelper::Sprintf("\t%s,", limbName.c_str());
if (i + 1 < count)
body += "\n";
}
return body;
}
std::string ZLimbTable::GetSourceTypeName() const
{
switch (limbType)
{
case ZLimbType::Standard:
case ZLimbType::LOD:
case ZLimbType::Skin:
return "void*";
case ZLimbType::Curve:
case ZLimbType::Legacy:
return StringHelper::Sprintf("%s*", ZLimb::GetSourceTypeName(limbType));
case ZLimbType::Invalid:
// TODO: Proper error message or something.
assert("Invalid limb type.\n");
}
return "ERROR";
}
ZResourceType ZLimbTable::GetResourceType() const
{
return ZResourceType::LimbTable;
}
size_t ZLimbTable::GetRawDataSize() const
{
return 4 * limbsAddresses.size();
}