mirror of https://github.com/AxioDL/metaforce.git
185 lines
6.2 KiB
C++
185 lines
6.2 KiB
C++
#include "CHierarchyPoseBuilder.hpp"
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#include "CAnimData.hpp"
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#include "CCharLayoutInfo.hpp"
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namespace urde
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{
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void CHierarchyPoseBuilder::BuildIntoHierarchy(const CCharLayoutInfo& layout,
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const CSegId& boneId, const CSegId& nullId)
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{
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if (!x38_treeMap.HasElement(boneId))
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{
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const CCharLayoutNode::Bone& bone = layout.GetRootNode()->GetBoneMap()[boneId];
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if (bone.x0_parentId == nullId)
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{
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xcec_rootId = boneId;
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xcf0_hasRoot = true;
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//zeus::CVector3f origin = layout.GetFromParentUnrotated(boneId);
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//CTreeNode& node = x38_treeMap[boneId];
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//node.x14_offset = origin;
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}
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else
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{
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BuildIntoHierarchy(layout, bone.x0_parentId, nullId);
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zeus::CVector3f origin = layout.GetFromParentUnrotated(boneId);
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CTreeNode& pNode = x38_treeMap[bone.x0_parentId];
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CTreeNode& node = x38_treeMap[boneId];
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node.x14_offset = origin;
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node.x1_sibling = pNode.x0_child;
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pNode.x0_child = boneId;
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}
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}
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}
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void CHierarchyPoseBuilder::RecursivelyBuildNoScale(const CSegId& boneId, const CTreeNode& node,
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CPoseAsTransforms& pose, const zeus::CQuaternion& parentRot,
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const zeus::CMatrix3f& parentXf, const zeus::CVector3f& parentOffset) const
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{
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zeus::CVector3f bindOffset;
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if (x0_layoutDesc.GetScaledLayoutDescription())
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{
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const CLayoutDescription::CScaledLayoutDescription& desc = *x0_layoutDesc.GetScaledLayoutDescription();
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bindOffset = desc.GetCharLayoutInfo()->GetFromRootUnrotated(boneId);
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}
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else
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bindOffset = x0_layoutDesc.GetCharLayoutInfo()->GetFromRootUnrotated(boneId);
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zeus::CQuaternion quat = parentRot * node.x4_rotation;
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zeus::CMatrix3f xf = quat;
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zeus::CVector3f xfOffset = parentXf * node.x14_offset + parentOffset;
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pose.Insert(boneId, quat, xfOffset, bindOffset);
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CSegId curBone = node.x0_child;
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while (curBone != 0)
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{
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const CTreeNode& node = x38_treeMap[curBone];
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RecursivelyBuild(curBone, node, pose, quat, xf, xfOffset);
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curBone = node.x1_sibling;
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}
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}
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void CHierarchyPoseBuilder::RecursivelyBuild(const CSegId& boneId, const CTreeNode& node,
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CPoseAsTransforms& pose, const zeus::CQuaternion& parentRot,
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const zeus::CMatrix3f& parentXf, const zeus::CVector3f& parentOffset) const
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{
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zeus::CQuaternion quat = parentRot * node.x4_rotation;
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float scale;
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zeus::CVector3f bindOffset;
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if (x0_layoutDesc.GetScaledLayoutDescription())
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{
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const CLayoutDescription::CScaledLayoutDescription& desc = *x0_layoutDesc.GetScaledLayoutDescription();
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scale = desc.GetScale();
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bindOffset = desc.GetCharLayoutInfo()->GetFromRootUnrotated(boneId);
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}
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else
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{
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scale = 1.f;
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bindOffset = x0_layoutDesc.GetCharLayoutInfo()->GetFromRootUnrotated(boneId);
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}
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zeus::CMatrix3f mtxXf;
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if (scale == 1.f)
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mtxXf = quat;
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else
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mtxXf = parentXf * zeus::CMatrix3f(scale);
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zeus::CVector3f xfOffset = parentXf * node.x14_offset + parentOffset;
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pose.Insert(boneId, mtxXf, xfOffset, bindOffset);
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CSegId curBone = node.x0_child;
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while (curBone != 0)
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{
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const CTreeNode& node = x38_treeMap[curBone];
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RecursivelyBuild(curBone, node, pose, quat, quat, xfOffset);
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curBone = node.x1_sibling;
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}
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}
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void CHierarchyPoseBuilder::BuildTransform(const CSegId& boneId, zeus::CTransform& xfOut) const
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{
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TLockedToken<CCharLayoutInfo> layoutInfoTok;
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float scale;
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if (x0_layoutDesc.GetScaledLayoutDescription())
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{
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layoutInfoTok = x0_layoutDesc.GetScaledLayoutDescription()->GetCharLayoutInfo();
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scale = x0_layoutDesc.GetScaledLayoutDescription()->GetScale();
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}
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else
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{
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layoutInfoTok = x0_layoutDesc.GetCharLayoutInfo();
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scale = 1.f;
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}
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const CCharLayoutInfo& layoutInfo = *layoutInfoTok.GetObj();
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u32 idCount = 0;
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CSegId buildIDs[100];
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{
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CSegId curId = boneId;
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while (curId != 2)
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{
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buildIDs[idCount++] = curId;
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curId = layoutInfo.GetRootNode()->GetBoneMap()[curId].x0_parentId;
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}
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}
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zeus::CQuaternion accumRot;
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zeus::CMatrix3f accumXF;
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zeus::CVector3f accumPos;
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for (CSegId* id=&buildIDs[idCount] ; id != buildIDs ; --id)
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{
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CSegId& thisId = id[-1];
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const CTreeNode& node = x38_treeMap[thisId];
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accumRot *= node.x4_rotation;
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accumPos += accumXF * node.x14_offset;
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if (scale == 1.f)
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accumXF = accumRot;
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else
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accumXF = accumXF * zeus::CMatrix3f(node.x4_rotation) * zeus::CMatrix3f(scale);
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}
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xfOut.setRotation(accumXF);
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xfOut.origin = accumPos;
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}
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void CHierarchyPoseBuilder::BuildNoScale(CPoseAsTransforms& pose)
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{
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pose.Clear();
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const CTreeNode& node = x38_treeMap[xcec_rootId];
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zeus::CQuaternion quat;
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zeus::CMatrix3f mtx;
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zeus::CVector3f vec;
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RecursivelyBuildNoScale(xcec_rootId, node, pose, quat, mtx, vec);
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}
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void CHierarchyPoseBuilder::Insert(const CSegId& boneId, const zeus::CQuaternion& quat)
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{
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CTreeNode& node = x38_treeMap[boneId];
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node.x4_rotation = quat;
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}
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void CHierarchyPoseBuilder::Insert(const CSegId& boneId, const zeus::CQuaternion& quat, const zeus::CVector3f& offset)
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{
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CTreeNode& node = x38_treeMap[boneId];
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node.x4_rotation = quat;
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node.x14_offset = offset;
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}
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CHierarchyPoseBuilder::CHierarchyPoseBuilder(const CLayoutDescription& layout)
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: x0_layoutDesc(layout), x38_treeMap(layout.GetCharLayoutInfo()->GetSegIdList().GetList().size())
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{
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TLockedToken<CCharLayoutInfo> layoutInfoTok;
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if (layout.GetScaledLayoutDescription())
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layoutInfoTok = layout.GetScaledLayoutDescription()->GetCharLayoutInfo();
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else
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layoutInfoTok = layout.GetCharLayoutInfo();
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const CCharLayoutInfo& layoutInfo = *layoutInfoTok.GetObj();
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const CSegIdList& segIDs = layoutInfo.GetSegIdList();
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for (const CSegId& id : segIDs.GetList())
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BuildIntoHierarchy(layoutInfo, id, 2);
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}
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}
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