Shipwright/ZAPDTR/ZAPD/ZLimb.cpp
M4xw 5dda5762ba git subrepo clone https://github.com/HarbourMasters/ZAPDTR.git
subrepo:
  subdir:   "ZAPDTR"
  merged:   "a53a53ea4"
upstream:
  origin:   "https://github.com/HarbourMasters/ZAPDTR.git"
  branch:   "master"
  commit:   "a53a53ea4"
git-subrepo:
  version:  "0.4.1"
  origin:   "???"
  commit:   "???"
2022-03-22 02:54:48 +01:00

386 lines
9.6 KiB
C++

#include "ZLimb.h"
#include <cassert>
#include "Globals.h"
#include "Utils/BitConverter.h"
#include "WarningHandler.h"
REGISTER_ZFILENODE(Limb, ZLimb);
ZLimb::ZLimb(ZFile* nParent) : ZResource(nParent), segmentStruct(nParent)
{
RegisterOptionalAttribute("LimbType");
RegisterOptionalAttribute("Type");
}
void ZLimb::ExtractFromBinary(uint32_t nRawDataIndex, ZLimbType nType)
{
rawDataIndex = nRawDataIndex;
type = nType;
// Don't parse raw data of external files
if (parent->GetMode() == ZFileMode::ExternalFile)
return;
ParseRawData();
}
void ZLimb::ParseXML(tinyxml2::XMLElement* reader)
{
ZResource::ParseXML(reader);
// Reading from a <Skeleton/>
std::string limbType = registeredAttributes.at("LimbType").value;
if (limbType == "") // Reading from a <Limb/>
limbType = registeredAttributes.at("Type").value;
if (limbType == "")
{
HANDLE_ERROR_RESOURCE(WarningType::MissingAttribute, parent, this, rawDataIndex,
"missing 'LimbType' attribute in <Limb>", "");
}
type = GetTypeByAttributeName(limbType);
if (type == ZLimbType::Invalid)
{
HANDLE_ERROR_RESOURCE(WarningType::InvalidAttributeValue, parent, this, rawDataIndex,
"invalid value found for 'LimbType' attribute", "");
}
}
void ZLimb::ParseRawData()
{
ZResource::ParseRawData();
const auto& rawData = parent->GetRawData();
if (type == ZLimbType::Curve)
{
childIndex = BitConverter::ToUInt8BE(rawData, rawDataIndex + 0);
siblingIndex = BitConverter::ToUInt8BE(rawData, rawDataIndex + 1);
dListPtr = BitConverter::ToUInt32BE(rawData, rawDataIndex + 4);
dList2Ptr = BitConverter::ToUInt32BE(rawData, rawDataIndex + 8);
return;
}
if (type == ZLimbType::Legacy)
{
dListPtr = BitConverter::ToUInt32BE(rawData, rawDataIndex + 0x00);
legTransX = BitConverter::ToFloatBE(rawData, rawDataIndex + 0x04);
legTransY = BitConverter::ToFloatBE(rawData, rawDataIndex + 0x08);
legTransZ = BitConverter::ToFloatBE(rawData, rawDataIndex + 0x0C);
rotX = BitConverter::ToUInt16BE(rawData, rawDataIndex + 0x10);
rotY = BitConverter::ToUInt16BE(rawData, rawDataIndex + 0x12);
rotZ = BitConverter::ToUInt16BE(rawData, rawDataIndex + 0x14);
childPtr = BitConverter::ToUInt32BE(rawData, rawDataIndex + 0x18);
siblingPtr = BitConverter::ToUInt32BE(rawData, rawDataIndex + 0x1C);
return;
}
transX = BitConverter::ToInt16BE(rawData, rawDataIndex + 0);
transY = BitConverter::ToInt16BE(rawData, rawDataIndex + 2);
transZ = BitConverter::ToInt16BE(rawData, rawDataIndex + 4);
childIndex = rawData.at(rawDataIndex + 6);
siblingIndex = rawData.at(rawDataIndex + 7);
switch (type)
{
case ZLimbType::LOD:
dList2Ptr = BitConverter::ToUInt32BE(rawData, rawDataIndex + 12);
[[fallthrough]];
case ZLimbType::Standard:
dListPtr = BitConverter::ToUInt32BE(rawData, rawDataIndex + 8);
break;
case ZLimbType::Skin:
skinSegmentType =
static_cast<ZLimbSkinType>(BitConverter::ToInt32BE(rawData, rawDataIndex + 8));
skinSegment = BitConverter::ToUInt32BE(rawData, rawDataIndex + 12);
if (skinSegmentType == ZLimbSkinType::SkinType_4)
{
if (skinSegment != 0 && GETSEGNUM(skinSegment) == parent->segment)
{
uint32_t skinSegmentOffset = Seg2Filespace(skinSegment, parent->baseAddress);
segmentStruct.ExtractFromFile(skinSegmentOffset);
}
}
break;
case ZLimbType::Curve:
case ZLimbType::Legacy:
break;
case ZLimbType::Invalid:
assert(!"whoops");
break;
}
}
void ZLimb::DeclareReferences(const std::string& prefix)
{
std::string varPrefix = name;
if (varPrefix == "")
varPrefix = prefix;
ZResource::DeclareReferences(varPrefix);
std::string suffix;
switch (type)
{
case ZLimbType::Legacy:
if (childPtr != 0 && GETSEGNUM(childPtr) == parent->segment)
{
uint32_t childOffset = Seg2Filespace(childPtr, parent->baseAddress);
if (!parent->HasDeclaration(childOffset))
{
ZLimb* child = new ZLimb(parent);
child->ExtractFromBinary(childOffset, ZLimbType::Legacy);
child->DeclareVar(varPrefix, "");
child->DeclareReferences(varPrefix);
parent->AddResource(child);
}
}
if (siblingPtr != 0 && GETSEGNUM(siblingPtr) == parent->segment)
{
uint32_t siblingdOffset = Seg2Filespace(siblingPtr, parent->baseAddress);
if (!parent->HasDeclaration(siblingdOffset))
{
ZLimb* sibling = new ZLimb(parent);
sibling->ExtractFromBinary(siblingdOffset, ZLimbType::Legacy);
sibling->DeclareVar(varPrefix, "");
sibling->DeclareReferences(varPrefix);
parent->AddResource(sibling);
}
}
break;
case ZLimbType::Curve:
case ZLimbType::LOD:
suffix = "Far";
if (type == ZLimbType::Curve)
suffix = "Curve2";
DeclareDList(dList2Ptr, varPrefix, suffix);
[[fallthrough]];
case ZLimbType::Standard:
suffix = "";
if (type == ZLimbType::Curve)
suffix = "Curve";
DeclareDList(dListPtr, varPrefix, suffix);
break;
case ZLimbType::Skin:
switch (skinSegmentType)
{
case ZLimbSkinType::SkinType_4:
if (skinSegment != 0 && GETSEGNUM(skinSegment) == parent->segment)
{
segmentStruct.DeclareReferences(varPrefix);
segmentStruct.GetSourceOutputCode(varPrefix);
}
break;
case ZLimbSkinType::SkinType_DList:
DeclareDList(skinSegment, varPrefix, "");
break;
default:
break;
}
break;
case ZLimbType::Invalid:
break;
}
}
size_t ZLimb::GetRawDataSize() const
{
switch (type)
{
case ZLimbType::Standard:
case ZLimbType::Curve:
return 0x0C;
case ZLimbType::LOD:
case ZLimbType::Skin:
return 0x10;
case ZLimbType::Legacy:
return 0x20;
case ZLimbType::Invalid:
break;
}
return 0x0C;
}
std::string ZLimb::GetBodySourceCode() const
{
std::string dListStr;
std::string dListStr2;
Globals::Instance->GetSegmentedArrayIndexedName(dListPtr, 8, parent, "Gfx", dListStr);
Globals::Instance->GetSegmentedArrayIndexedName(dList2Ptr, 8, parent, "Gfx", dListStr2);
std::string entryStr = "\n\t";
if (type == ZLimbType::Legacy)
{
std::string childName;
std::string siblingName;
Globals::Instance->GetSegmentedPtrName(childPtr, parent, "LegacyLimb", childName);
Globals::Instance->GetSegmentedPtrName(siblingPtr, parent, "LegacyLimb", siblingName);
entryStr += StringHelper::Sprintf("%s,\n", dListStr.c_str());
entryStr +=
StringHelper::Sprintf("\t{ %ff, %ff, %ff },\n", legTransX, legTransY, legTransZ);
entryStr += StringHelper::Sprintf("\t{ 0x%04X, 0x%04X, 0x%04X },\n", rotX, rotY, rotZ);
entryStr += StringHelper::Sprintf("\t%s,\n", childName.c_str());
entryStr += StringHelper::Sprintf("\t%s\n", siblingName.c_str());
}
else
{
if (type != ZLimbType::Curve)
{
entryStr += StringHelper::Sprintf("{ %i, %i, %i }, ", transX, transY, transZ);
}
entryStr += StringHelper::Sprintf("0x%02X, 0x%02X,\n", childIndex, siblingIndex);
switch (type)
{
case ZLimbType::Standard:
entryStr += StringHelper::Sprintf("\t%s\n", dListStr.c_str());
break;
case ZLimbType::LOD:
case ZLimbType::Curve:
entryStr +=
StringHelper::Sprintf("\t{ %s, %s }\n", dListStr.c_str(), dListStr2.c_str());
break;
case ZLimbType::Skin:
{
std::string skinSegmentStr;
Globals::Instance->GetSegmentedPtrName(skinSegment, parent, "", skinSegmentStr);
entryStr +=
StringHelper::Sprintf("\t0x%02X, %s\n", skinSegmentType, skinSegmentStr.c_str());
}
break;
case ZLimbType::Legacy:
break;
case ZLimbType::Invalid:
break;
}
}
return entryStr;
}
std::string ZLimb::GetDefaultName(const std::string& prefix) const
{
return StringHelper::Sprintf("%sLimb_%06X", prefix.c_str(), rawDataIndex);
}
std::string ZLimb::GetSourceTypeName() const
{
return GetSourceTypeName(type);
}
ZResourceType ZLimb::GetResourceType() const
{
return ZResourceType::Limb;
}
ZLimbType ZLimb::GetLimbType()
{
return type;
}
void ZLimb::SetLimbType(ZLimbType value)
{
type = value;
}
const char* ZLimb::GetSourceTypeName(ZLimbType limbType)
{
switch (limbType)
{
case ZLimbType::Standard:
return "StandardLimb";
case ZLimbType::LOD:
return "LodLimb";
case ZLimbType::Skin:
return "SkinLimb";
case ZLimbType::Curve:
return "SkelCurveLimb";
case ZLimbType::Legacy:
return "LegacyLimb";
default:
return "StandardLimb";
}
}
ZLimbType ZLimb::GetTypeByAttributeName(const std::string& attrName)
{
if (attrName == "Standard")
{
return ZLimbType::Standard;
}
if (attrName == "LOD")
{
return ZLimbType::LOD;
}
if (attrName == "Skin")
{
return ZLimbType::Skin;
}
if (attrName == "Curve")
{
return ZLimbType::Curve;
}
if (attrName == "Legacy")
{
return ZLimbType::Legacy;
}
return ZLimbType::Invalid;
}
void ZLimb::DeclareDList(segptr_t dListSegmentedPtr, const std::string& prefix,
const std::string& limbSuffix)
{
if (dListSegmentedPtr == 0 || GETSEGNUM(dListSegmentedPtr) != parent->segment)
return;
uint32_t dlistOffset = Seg2Filespace(dListSegmentedPtr, parent->baseAddress);
if (parent->HasDeclaration(dlistOffset))
return;
if (!parent->IsOffsetInFileRange(dlistOffset) || dlistOffset >= parent->GetRawData().size())
return;
std::string dlistName;
bool declFound = Globals::Instance->GetSegmentedArrayIndexedName(dListSegmentedPtr, 8, parent,
"Gfx", dlistName);
if (declFound)
return;
int32_t dlistLength = ZDisplayList::GetDListLength(
parent->GetRawData(), dlistOffset,
Globals::Instance->game == ZGame::OOT_SW97 ? DListType::F3DEX : DListType::F3DZEX);
ZDisplayList* dlist = new ZDisplayList(parent);
dlist->ExtractFromBinary(dlistOffset, dlistLength);
std::string dListStr =
StringHelper::Sprintf("%s%sDL_%06X", prefix.c_str(), limbSuffix.c_str(), dlistOffset);
dlist->SetName(dListStr);
dlist->DeclareVar(prefix, "");
parent->AddResource(dlist);
}