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Implement/match LegoPathController::Create and Init (#911)

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Christian Semmler 2024-05-12 14:33:20 -04:00 committed by GitHub
parent 119ff93461
commit dcaa07cc49
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5 changed files with 186 additions and 42 deletions
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51
LEGO1/lego/legoomni/include/legopathcontroller.h
View file

@ -31,6 +31,32 @@ typedef set<LegoPathCtrlEdge*, LegoPathCtrlEdgeCompare> LegoPathCtrlEdgeSet;
// SIZE 0x40 // SIZE 0x40
class LegoPathController : public MxCore { class LegoPathController : public MxCore {
public: public:
// SIZE 0x08
struct CtrlBoundary {
// FUNCTION: LEGO1 0x10046dc0
CtrlBoundary()
{
m_controller = NULL;
m_boundary = NULL;
}
LegoPathController* m_controller; // 0x00
LegoPathBoundary* m_boundary; // 0x04
};
// SIZE 0x08
struct CtrlEdge {
// FUNCTION: LEGO1 0x10046dd0
CtrlEdge()
{
m_controller = NULL;
m_edge = NULL;
}
LegoPathController* m_controller; // 0x00
LegoEdge* m_edge; // 0x04
};
LegoPathController(); LegoPathController();
~LegoPathController() override { Destroy(); } ~LegoPathController() override { Destroy(); }
@ -52,8 +78,8 @@ class LegoPathController : public MxCore {
// SYNTHETIC: LEGO1 0x10045740 // SYNTHETIC: LEGO1 0x10045740
// LegoPathController::`scalar deleting destructor' // LegoPathController::`scalar deleting destructor'
virtual void Create(MxU8* p_data, Vector3& p_location, MxAtomId& p_trigger); // vtable+0x14 virtual MxResult Create(MxU8* p_data, const Vector3& p_location, const MxAtomId& p_trigger); // vtable+0x14
virtual void Destroy(); // vtable+0x18 virtual void Destroy(); // vtable+0x18
MxResult FUN_10045c20( MxResult FUN_10045c20(
LegoPathActor* p_actor, LegoPathActor* p_actor,
@ -70,6 +96,7 @@ class LegoPathController : public MxCore {
LegoPathBoundary* GetPathBoundary(const char* p_name); LegoPathBoundary* GetPathBoundary(const char* p_name);
void Enable(MxBool p_enable); void Enable(MxBool p_enable);
void FUN_10046bb0(LegoWorld* p_world); void FUN_10046bb0(LegoWorld* p_world);
static MxResult Init();
private: private:
MxResult Read(LegoStorage* p_storage); MxResult Read(LegoStorage* p_storage);
@ -79,16 +106,16 @@ class LegoPathController : public MxCore {
static MxResult ReadVector(LegoStorage* p_storage, Mx3DPointFloat& p_vec); static MxResult ReadVector(LegoStorage* p_storage, Mx3DPointFloat& p_vec);
static MxResult ReadVector(LegoStorage* p_storage, Mx4DPointFloat& p_vec); static MxResult ReadVector(LegoStorage* p_storage, Mx4DPointFloat& p_vec);
LegoPathBoundary* m_unk0x08; // 0x08 LegoPathBoundary* m_boundaries; // 0x08
LegoPathCtrlEdge* m_unk0x0c; // 0x0c LegoPathCtrlEdge* m_edges; // 0x0c
Mx3DPointFloat* m_unk0x10; // 0x10 Mx3DPointFloat* m_unk0x10; // 0x10
LegoPathStruct* m_unk0x14; // 0x14 LegoPathStruct* m_structs; // 0x14
MxU16 m_numL; // 0x18 MxU16 m_numL; // 0x18
MxU16 m_numE; // 0x1a MxU16 m_numE; // 0x1a
MxU16 m_numN; // 0x1c MxU16 m_numN; // 0x1c
MxU16 m_numT; // 0x1e MxU16 m_numT; // 0x1e
LegoPathCtrlEdgeSet m_pfsE; // 0x20 LegoPathCtrlEdgeSet m_pfsE; // 0x20
LegoPathActorSet m_actors; // 0x30 LegoPathActorSet m_actors; // 0x30
}; };
// clang-format off // clang-format off

2
LEGO1/lego/legoomni/include/legopathstruct.h
View file

@ -35,6 +35,8 @@ struct LegoPathStruct : public LegoPathStructBase {
void VTable0x04(undefined4, undefined4, undefined4); // vtable+0x04 void VTable0x04(undefined4, undefined4, undefined4); // vtable+0x04
inline void SetAtomId(const MxAtomId& p_atomId) { m_atomId = p_atomId; }
undefined4 m_unk0x0c; // 0x0c undefined4 m_unk0x0c; // 0x0c
MxAtomId m_atomId; // 0x10 MxAtomId m_atomId; // 0x10
}; };

2
LEGO1/lego/legoomni/src/main/legomain.cpp
View file

@ -200,7 +200,7 @@ MxResult LegoOmni::Create(MxOmniCreateParam& p_param)
m_viewLODListManager = new ViewLODListManager(); m_viewLODListManager = new ViewLODListManager();
m_textureContainer = new LegoTextureContainer(); m_textureContainer = new LegoTextureContainer();
m_textureContainer->SetOwnership(FALSE); m_textureContainer->SetOwnership(FALSE);
// FUN_10046c10 LegoPathController::Init();
m_characterManager = new LegoCharacterManager(); m_characterManager = new LegoCharacterManager();
m_plantManager = new LegoPlantManager(); m_plantManager = new LegoPlantManager();

171
LEGO1/lego/legoomni/src/paths/legopathcontroller.cpp
View file

@ -3,32 +3,132 @@
#include "legopathstruct.h" #include "legopathstruct.h"
#include "misc/legostorage.h" #include "misc/legostorage.h"
#include "mxmisc.h" #include "mxmisc.h"
#include "mxticklemanager.h"
#include "mxtimer.h" #include "mxtimer.h"
DECOMP_SIZE_ASSERT(LegoPathController, 0x40) DECOMP_SIZE_ASSERT(LegoPathController, 0x40)
DECOMP_SIZE_ASSERT(LegoPathCtrlEdge, 0x40) DECOMP_SIZE_ASSERT(LegoPathCtrlEdge, 0x40)
DECOMP_SIZE_ASSERT(LegoPathController::CtrlBoundary, 0x08)
DECOMP_SIZE_ASSERT(LegoPathController::CtrlEdge, 0x08)
// GLOBAL: LEGO1 0x100d7cc8
MxU32 g_unk0x100d7cc8[] = {2, 2, 2, 1, 2, 2, 2, 2, 2, 2, 2, 2, 2, 0, 2, 0};
// GLOBAL: LEGO1 0x100d7d08
MxU32 g_unk0x100d7d08[] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
// GLOBAL: LEGO1 0x100f42e8
LegoPathController::CtrlBoundary* g_ctrlBoundariesA = NULL;
// GLOBAL: LEGO1 0x100f42ec
LegoPathController::CtrlEdge* g_ctrlEdgesA = NULL;
// GLOBAL: LEGO1 0x100f42f0
const char* g_unk0x100f42f0[] = {
"edg03_21",
"edg03_23",
"edg03_30",
"edg03_31",
"edg03_39",
"edg03_40",
"edg03_91",
"edg03_92",
"edg03_99",
"edg03_100",
"edg03_112",
"edg03_113",
"edg10_61",
"edg10_62",
"edg10_55",
"edg10_58"
};
// GLOBAL: LEGO1 0x100f4330
const char* g_unk0x100f4330[] = {
"edg03_06",
"edg03_21",
"edg03_30",
"edg03_148",
"edg03_39",
"edg03_91",
"edg03_99",
"edg03_112",
"edg03_800",
"edg03_135"
};
// GLOBAL: LEGO1 0x100f4358
LegoPathController::CtrlBoundary* g_ctrlBoundariesB = NULL;
// GLOBAL: LEGO1 0x100f435c
LegoPathController::CtrlEdge* g_ctrlEdgesB = NULL;
// FUNCTION: LEGO1 0x10044f40 // FUNCTION: LEGO1 0x10044f40
// FUNCTION: BETA10 0x100b6860 // FUNCTION: BETA10 0x100b6860
LegoPathController::LegoPathController() LegoPathController::LegoPathController()
{ {
m_unk0x08 = NULL; m_boundaries = NULL;
m_unk0x0c = NULL; m_edges = NULL;
m_unk0x10 = NULL; m_unk0x10 = NULL;
m_unk0x14 = NULL; m_structs = NULL;
m_numL = 0; m_numL = 0;
m_numE = 0; m_numE = 0;
m_numN = 0; m_numN = 0;
m_numT = 0; m_numT = 0;
} }
// STUB: LEGO1 0x10045880 // FUNCTION: LEGO1 0x10045880
void LegoPathController::Create(MxU8* p_data, Vector3& p_location, MxAtomId& p_trigger) // FUNCTION: BETA10 0x100b6959
MxResult LegoPathController::Create(MxU8* p_data, const Vector3& p_location, const MxAtomId& p_trigger)
{ {
// TODO MxResult result = FAILURE;
LegoMemory storage(p_data); LegoMemory storage(p_data);
Read(&storage);
if ((result = Read(&storage)) == SUCCESS) {
MxS32 i;
for (i = 0; i < m_numT; i++) {
m_structs[i].SetAtomId(p_trigger);
}
for (i = 0; i < m_numN; i++) {
// TODO: Fix call
((Vector3&) m_unk0x10[i]).Add(&p_location);
}
for (i = 0; i < m_numL; i++) {
LegoPathBoundary& boundary = m_boundaries[i];
MxS32 j;
for (j = 0; j < _countof(g_unk0x100f42f0); j++) {
if (!strcmpi(g_unk0x100f42f0[j], boundary.GetName())) {
g_ctrlBoundariesA[j].m_controller = this;
g_ctrlBoundariesA[j].m_boundary = &boundary;
MxU32 edge = g_unk0x100d7cc8[j];
g_ctrlEdgesA[j].m_controller = this;
g_ctrlEdgesA[j].m_edge = boundary.GetEdges()[edge];
}
}
for (j = 0; j < _countof(g_unk0x100f4330); j++) {
if (!strcmpi(g_unk0x100f4330[j], boundary.GetName())) {
g_ctrlBoundariesB[j].m_controller = this;
g_ctrlBoundariesB[j].m_boundary = &boundary;
g_ctrlEdgesB[j].m_controller = this;
g_ctrlEdgesB[j].m_edge = boundary.GetEdges()[g_unk0x100d7d08[j]];
}
}
}
TickleManager()->RegisterClient(this, 10);
}
if (result != SUCCESS) {
Destroy();
}
return result;
} }
// STUB: LEGO1 0x10045b20 // STUB: LEGO1 0x10045b20
@ -105,8 +205,8 @@ MxResult LegoPathController::FUN_10046b30(LegoPathBoundary** p_path, MxS32& p_va
LegoPathBoundary* LegoPathController::GetPathBoundary(const char* p_name) LegoPathBoundary* LegoPathController::GetPathBoundary(const char* p_name)
{ {
for (MxS32 i = 0; i < m_numL; i++) { for (MxS32 i = 0; i < m_numL; i++) {
if (!strcmpi(m_unk0x08[i].GetName(), p_name)) { if (!strcmpi(m_boundaries[i].GetName(), p_name)) {
return &m_unk0x08[i]; return &m_boundaries[i];
} }
} }
@ -125,6 +225,21 @@ void LegoPathController::Enable(MxBool p_enable)
// TODO // TODO
} }
// FUNCTION: LEGO1 0x10046c10
// FUNCTION: BETA10 0x100b767a
MxResult LegoPathController::Init()
{
if (g_ctrlBoundariesA != NULL || g_ctrlEdgesA != NULL || g_ctrlBoundariesB != NULL || g_ctrlEdgesB != NULL) {
return FAILURE;
}
g_ctrlBoundariesA = new CtrlBoundary[_countof(g_unk0x100f42f0)];
g_ctrlEdgesA = new CtrlEdge[_countof(g_unk0x100f42f0)];
g_ctrlBoundariesB = new CtrlBoundary[_countof(g_unk0x100f4330)];
g_ctrlEdgesB = new CtrlEdge[_countof(g_unk0x100f4330)];
return SUCCESS;
}
// FUNCTION: LEGO1 0x10046e50 // FUNCTION: LEGO1 0x10046e50
// FUNCTION: BETA10 0x100b781f // FUNCTION: BETA10 0x100b781f
MxResult LegoPathController::Read(LegoStorage* p_storage) MxResult LegoPathController::Read(LegoStorage* p_storage)
@ -133,7 +248,7 @@ MxResult LegoPathController::Read(LegoStorage* p_storage)
return FAILURE; return FAILURE;
} }
if (m_numT > 0) { if (m_numT > 0) {
m_unk0x14 = new LegoPathStruct[m_numT]; m_structs = new LegoPathStruct[m_numT];
} }
if (p_storage->Read(&m_numN, sizeof(m_numN)) != SUCCESS) { if (p_storage->Read(&m_numN, sizeof(m_numN)) != SUCCESS) {
@ -147,14 +262,14 @@ MxResult LegoPathController::Read(LegoStorage* p_storage)
return FAILURE; return FAILURE;
} }
if (m_numE > 0) { if (m_numE > 0) {
m_unk0x0c = new LegoPathCtrlEdge[m_numE]; m_edges = new LegoPathCtrlEdge[m_numE];
} }
if (p_storage->Read(&m_numL, sizeof(m_numL)) != SUCCESS) { if (p_storage->Read(&m_numL, sizeof(m_numL)) != SUCCESS) {
return FAILURE; return FAILURE;
} }
if (m_numL > 0) { if (m_numL > 0) {
m_unk0x08 = new LegoPathBoundary[m_numL]; m_boundaries = new LegoPathBoundary[m_numL];
} }
if (m_numT > 0 && ReadStructs(p_storage) != SUCCESS) { if (m_numT > 0 && ReadStructs(p_storage) != SUCCESS) {
@ -178,7 +293,7 @@ MxResult LegoPathController::Read(LegoStorage* p_storage)
} }
for (MxS32 j = 0; j < m_numE; j++) { for (MxS32 j = 0; j < m_numE; j++) {
m_pfsE.insert(&m_unk0x0c[j]); m_pfsE.insert(&m_edges[j]);
} }
return SUCCESS; return SUCCESS;
@ -196,16 +311,16 @@ MxResult LegoPathController::ReadStructs(LegoStorage* p_storage)
} }
if (length > 0) { if (length > 0) {
m_unk0x14[i].m_name = new char[length + 1]; m_structs[i].m_name = new char[length + 1];
if (p_storage->Read(m_unk0x14[i].m_name, length) != SUCCESS) { if (p_storage->Read(m_structs[i].m_name, length) != SUCCESS) {
return FAILURE; return FAILURE;
} }
m_unk0x14[i].m_name[length] = '\0'; m_structs[i].m_name[length] = '\0';
} }
if (p_storage->Read(&m_unk0x14[i].m_unk0x08, sizeof(m_unk0x14[i].m_unk0x08)) != SUCCESS) { if (p_storage->Read(&m_structs[i].m_unk0x08, sizeof(m_structs[i].m_unk0x08)) != SUCCESS) {
return FAILURE; return FAILURE;
} }
} }
@ -218,7 +333,7 @@ MxResult LegoPathController::ReadStructs(LegoStorage* p_storage)
MxResult LegoPathController::ReadEdges(LegoStorage* p_storage) MxResult LegoPathController::ReadEdges(LegoStorage* p_storage)
{ {
for (MxS32 i = 0; i < m_numE; i++) { for (MxS32 i = 0; i < m_numE; i++) {
LegoPathCtrlEdge& edge = m_unk0x0c[i]; LegoPathCtrlEdge& edge = m_edges[i];
MxU16 s; MxU16 s;
if (p_storage->Read(&edge.m_flags, sizeof(edge.m_flags)) != SUCCESS) { if (p_storage->Read(&edge.m_flags, sizeof(edge.m_flags)) != SUCCESS) {
@ -239,34 +354,34 @@ MxResult LegoPathController::ReadEdges(LegoStorage* p_storage)
if (p_storage->Read(&s, sizeof(s)) != SUCCESS) { if (p_storage->Read(&s, sizeof(s)) != SUCCESS) {
return FAILURE; return FAILURE;
} }
edge.m_faceA = &m_unk0x08[s]; edge.m_faceA = &m_boundaries[s];
if (p_storage->Read(&s, sizeof(s)) != SUCCESS) { if (p_storage->Read(&s, sizeof(s)) != SUCCESS) {
return FAILURE; return FAILURE;
} }
edge.m_ccwA = &m_unk0x0c[s]; edge.m_ccwA = &m_edges[s];
if (p_storage->Read(&s, sizeof(s)) != SUCCESS) { if (p_storage->Read(&s, sizeof(s)) != SUCCESS) {
return FAILURE; return FAILURE;
} }
edge.m_cwA = &m_unk0x0c[s]; edge.m_cwA = &m_edges[s];
} }
if (edge.m_flags & LegoUnknown100db7f4::c_bit4) { if (edge.m_flags & LegoUnknown100db7f4::c_bit4) {
if (p_storage->Read(&s, sizeof(s)) != SUCCESS) { if (p_storage->Read(&s, sizeof(s)) != SUCCESS) {
return FAILURE; return FAILURE;
} }
edge.m_faceB = &m_unk0x08[s]; edge.m_faceB = &m_boundaries[s];
if (p_storage->Read(&s, sizeof(s)) != SUCCESS) { if (p_storage->Read(&s, sizeof(s)) != SUCCESS) {
return FAILURE; return FAILURE;
} }
edge.m_ccwB = &m_unk0x0c[s]; edge.m_ccwB = &m_edges[s];
if (p_storage->Read(&s, sizeof(s)) != SUCCESS) { if (p_storage->Read(&s, sizeof(s)) != SUCCESS) {
return FAILURE; return FAILURE;
} }
edge.m_cwB = &m_unk0x0c[s]; edge.m_cwB = &m_edges[s];
} }
if (ReadVector(p_storage, edge.m_unk0x28) != SUCCESS) { if (ReadVector(p_storage, edge.m_unk0x28) != SUCCESS) {
@ -286,7 +401,7 @@ MxResult LegoPathController::ReadEdges(LegoStorage* p_storage)
MxResult LegoPathController::ReadBoundaries(LegoStorage* p_storage) MxResult LegoPathController::ReadBoundaries(LegoStorage* p_storage)
{ {
for (MxS32 i = 0; i < m_numL; i++) { for (MxS32 i = 0; i < m_numL; i++) {
LegoPathBoundary& boundary = m_unk0x08[i]; LegoPathBoundary& boundary = m_boundaries[i];
MxU8 numE; MxU8 numE;
MxU16 s; MxU16 s;
MxU8 j; MxU8 j;
@ -305,7 +420,7 @@ MxResult LegoPathController::ReadBoundaries(LegoStorage* p_storage)
return FAILURE; return FAILURE;
} }
edges[j] = &m_unk0x0c[s]; edges[j] = &m_edges[s];
} }
if (p_storage->Read(&boundary.m_unk0x0c, sizeof(boundary.m_unk0x0c)) != SUCCESS) { if (p_storage->Read(&boundary.m_unk0x0c, sizeof(boundary.m_unk0x0c)) != SUCCESS) {
@ -362,7 +477,7 @@ MxResult LegoPathController::ReadBoundaries(LegoStorage* p_storage)
return FAILURE; return FAILURE;
} }
boundary.m_unk0x4c[j].m_unk0x00 = &m_unk0x14[s]; boundary.m_unk0x4c[j].m_unk0x00 = &m_structs[s];
if (p_storage->Read(&boundary.m_unk0x4c[j].m_unk0x04, sizeof(boundary.m_unk0x4c[j].m_unk0x04)) != if (p_storage->Read(&boundary.m_unk0x4c[j].m_unk0x04, sizeof(boundary.m_unk0x4c[j].m_unk0x04)) !=
SUCCESS) { SUCCESS) {

2
LEGO1/realtime/vector.h
View file

@ -120,7 +120,7 @@ class Vector2 {
virtual void Add(float* p_other) { AddImpl(p_other); } // vtable+0x4c virtual void Add(float* p_other) { AddImpl(p_other); } // vtable+0x4c
// FUNCTION: LEGO1 0x100021e0 // FUNCTION: LEGO1 0x100021e0
virtual void Add(Vector2* p_other) { AddImpl(p_other->m_data); } // vtable+0x48 virtual void Add(const Vector2* p_other) { AddImpl((float*) p_other->m_data); } // vtable+0x48
// FUNCTION: LEGO1 0x100021f0 // FUNCTION: LEGO1 0x100021f0
virtual void Sub(const float* p_other) { SubImpl((float*) p_other); } // vtable+0x58 virtual void Sub(const float* p_other) { SubImpl((float*) p_other); } // vtable+0x58