Backports of isle-portable x64 fixes (#1044)

* Introduce LPD3DRM_APPDATA typedef for setting d3drm appdata

* Fix warning about assigning const string literals to variable char pointers

* Don't cast pointers to integers on non-32-bit architectures

* memset 2nd argument is int

* Assume cpuid is available on x86_64, needs testing on i386 and unavailable on anything else

* Store HFILE in its own member variable
This commit is contained in:
Anonymous Maarten 2024-06-25 17:56:30 +02:00 committed by GitHub
parent 62307e1819
commit 8113a17167
No known key found for this signature in database
GPG key ID: B5690EEEBB952194
13 changed files with 115 additions and 57 deletions

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@ -430,6 +430,7 @@ if (ISLE_USE_SMARTHEAP)
endif() endif()
foreach(tgt IN LISTS lego1_targets) foreach(tgt IN LISTS lego1_targets)
target_link_libraries(${tgt} PRIVATE $<$<BOOL:${ISLE_USE_DX5}>:DirectX5::DirectX5>) target_link_libraries(${tgt} PRIVATE $<$<BOOL:${ISLE_USE_DX5}>:DirectX5::DirectX5>)
target_compile_definitions(${tgt} PRIVATE $<$<BOOL:${ISLE_USE_DX5}>:DIRECTX5_SDK>)
endforeach() endforeach()
# Make sure filenames are ALL CAPS # Make sure filenames are ALL CAPS

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@ -96,7 +96,7 @@ class LegoAnimationManager : public MxCore {
public: public:
// SIZE 0x18 // SIZE 0x18
struct Character { struct Character {
char* m_name; // 0x00 const char* m_name; // 0x00
MxBool m_inExtras; // 0x04 MxBool m_inExtras; // 0x04
MxS8 m_vehicleId; // 0x05 MxS8 m_vehicleId; // 0x05
undefined m_unk0x06; // 0x06 (unused?) undefined m_unk0x06; // 0x06 (unused?)
@ -112,7 +112,7 @@ class LegoAnimationManager : public MxCore {
// SIZE 0x08 // SIZE 0x08
struct Vehicle { struct Vehicle {
char* m_name; // 0x00 const char* m_name; // 0x00
MxBool m_unk0x04; // 0x04 MxBool m_unk0x04; // 0x04
MxBool m_unk0x05; // 0x05 MxBool m_unk0x05; // 0x05
}; };

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@ -7,17 +7,23 @@
#include "mxstl/stlcompat.h" #include "mxstl/stlcompat.h"
#include "mxtypes.h" #include "mxtypes.h"
#if defined(_M_IX86) || defined(__i386__)
#define COMPARE_POINTER_TYPE MxS32
#else
#define COMPARE_POINTER_TYPE MxS32*
#endif
struct LegoPathActorSetCompare { struct LegoPathActorSetCompare {
MxU32 operator()(const LegoPathActor* p_lhs, const LegoPathActor* p_rhs) const MxU32 operator()(const LegoPathActor* p_lhs, const LegoPathActor* p_rhs) const
{ {
return (MxS32) p_lhs < (MxS32) p_rhs; return (COMPARE_POINTER_TYPE) p_lhs < (COMPARE_POINTER_TYPE) p_rhs;
} }
}; };
struct LegoAnimPresenterSetCompare { struct LegoAnimPresenterSetCompare {
MxBool operator()(const LegoAnimPresenter* p_lhs, const LegoAnimPresenter* p_rhs) const MxBool operator()(const LegoAnimPresenter* p_lhs, const LegoAnimPresenter* p_rhs) const
{ {
return (MxS32) p_lhs < (MxS32) p_rhs; return (COMPARE_POINTER_TYPE) p_lhs < (COMPARE_POINTER_TYPE) p_rhs;
} }
}; };

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@ -14,6 +14,12 @@ class LegoWorld;
class MxAtomId; class MxAtomId;
class Vector3; class Vector3;
#if defined(_M_IX86) || defined(__i386__)
#define COMPARE_POINTER_TYPE MxS32
#else
#define COMPARE_POINTER_TYPE MxS32*
#endif
// VTABLE: LEGO1 0x100d7da8 // VTABLE: LEGO1 0x100d7da8
// SIZE 0x40 // SIZE 0x40
struct LegoPathCtrlEdge : public LegoUnknown100db7f4 {}; struct LegoPathCtrlEdge : public LegoUnknown100db7f4 {};
@ -21,7 +27,7 @@ struct LegoPathCtrlEdge : public LegoUnknown100db7f4 {};
struct LegoPathCtrlEdgeCompare { struct LegoPathCtrlEdgeCompare {
MxU32 operator()(const LegoPathCtrlEdge* p_lhs, const LegoPathCtrlEdge* p_rhs) const MxU32 operator()(const LegoPathCtrlEdge* p_lhs, const LegoPathCtrlEdge* p_rhs) const
{ {
return (MxS32) p_lhs < (MxS32) p_rhs; return (COMPARE_POINTER_TYPE) p_lhs < (COMPARE_POINTER_TYPE) p_rhs;
} }
}; };

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@ -12,8 +12,17 @@ class LegoEntityList;
class LegoPathBoundary; class LegoPathBoundary;
class LegoHideAnimPresenter; class LegoHideAnimPresenter;
#if defined(_M_IX86) || defined(__i386__)
#define COMPARE_POINTER_TYPE MxS32
#else
#define COMPARE_POINTER_TYPE MxS32*
#endif
struct CoreSetCompare { struct CoreSetCompare {
MxS32 operator()(MxCore* const& p_a, MxCore* const& p_b) const { return (MxS32) p_a < (MxS32) p_b; } MxS32 operator()(MxCore* const& p_a, MxCore* const& p_b) const
{
return (COMPARE_POINTER_TYPE) p_a < (COMPARE_POINTER_TYPE) p_b;
}
}; };
typedef set<MxCore*, CoreSetCompare> MxCoreSet; typedef set<MxCore*, CoreSetCompare> MxCoreSet;

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@ -15,9 +15,9 @@ DECOMP_SIZE_ASSERT(HistoryBook, 0x3e4)
// FUNCTION: LEGO1 0x100822f0 // FUNCTION: LEGO1 0x100822f0
HistoryBook::HistoryBook() HistoryBook::HistoryBook()
{ {
memset(m_alphabet, NULL, sizeof(m_alphabet)); memset(m_alphabet, 0, sizeof(m_alphabet));
memset(m_names, NULL, sizeof(m_names)); memset(m_names, 0, sizeof(m_names));
memset(m_scores, NULL, sizeof(m_scores)); memset(m_scores, 0, sizeof(m_scores));
NotificationManager()->Register(this); NotificationManager()->Register(this);
} }

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@ -1054,6 +1054,7 @@ int MxDeviceEnumerate::SupportsCPUID()
{ {
int has_cpuid; int has_cpuid;
#ifdef _MSC_VER #ifdef _MSC_VER
#if defined(_M_IX86)
__asm { __asm {
xor eax, eax ; Zero EAX register xor eax, eax ; Zero EAX register
pushfd ; Push EFLAGS register value on the stack pushfd ; Push EFLAGS register value on the stack
@ -1065,7 +1066,13 @@ int MxDeviceEnumerate::SupportsCPUID()
popfd ; Push EFLAGS register value on the stack (again, and makes sure the stack remains the same) popfd ; Push EFLAGS register value on the stack (again, and makes sure the stack remains the same)
mov has_cpuid, eax ; Save eax into C variable mov has_cpuid, eax ; Save eax into C variable
} }
#elif defined(_M_X64)
has_cpuid = 1;
#else #else
has_cpuid = 0;
#endif
#else
#if defined(__i386__)
__asm__("xorl %%eax, %%eax\n\t" // Zero EAX register __asm__("xorl %%eax, %%eax\n\t" // Zero EAX register
"pushfl\n\t" // Push EFLAGS register value on the stack "pushfl\n\t" // Push EFLAGS register value on the stack
"orl $0x200000, (%%esp)\n\t" // Set bit 0x200000: Able to use CPUID instruction (Pentium+) "orl $0x200000, (%%esp)\n\t" // Set bit 0x200000: Able to use CPUID instruction (Pentium+)
@ -1076,6 +1083,11 @@ int MxDeviceEnumerate::SupportsCPUID()
"popfl" // Push EFLAGS register value on the stack (again, and makes sure the stack remains the same) "popfl" // Push EFLAGS register value on the stack (again, and makes sure the stack remains the same)
: "=a"(has_cpuid) // has_cpuid == EAX : "=a"(has_cpuid) // has_cpuid == EAX
); );
#elif defined(__x86_64__) || defined(__amd64__)
has_cpuid = 1;
#else
has_cpuid = 0;
#endif
#endif #endif
return has_cpuid; return has_cpuid;
} }

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@ -9,6 +9,10 @@
#include <mmsystem.h> #include <mmsystem.h>
// clang-format on // clang-format on
#if defined(_M_IX86) || defined(__i386__)
#define MXIO_MINFO_MFILE
#endif
// SIZE 0x48 // SIZE 0x48
class MXIOINFO { class MXIOINFO {
public: public:
@ -29,6 +33,9 @@ class MXIOINFO {
// NOTE: In MXIOINFO, the `hmmio` member of MMIOINFO is used like // NOTE: In MXIOINFO, the `hmmio` member of MMIOINFO is used like
// an HFILE (int) instead of an HMMIO (WORD). // an HFILE (int) instead of an HMMIO (WORD).
MMIOINFO m_info; MMIOINFO m_info;
#ifndef MXIO_MINFO_MFILE
HFILE m_file;
#endif
}; };
#endif // MXIO_H #endif // MXIO_H

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@ -9,6 +9,16 @@
// but this assert will enforce the size if we decide to change that. // but this assert will enforce the size if we decide to change that.
DECOMP_SIZE_ASSERT(MXIOINFO, sizeof(MMIOINFO)); DECOMP_SIZE_ASSERT(MXIOINFO, sizeof(MMIOINFO));
#ifdef MXIO_MINFO_MFILE
#define ASSIGN_M_FILE(X) m_info.hmmio = (HMMIO) (X)
#define M_FILE (HFILE)(m_info.hmmio)
#define RAW_M_FILE m_info.hmmio
#else
#define ASSIGN_M_FILE(X) m_file = (X)
#define M_FILE (m_file)
#define RAW_M_FILE m_file
#endif
// FUNCTION: LEGO1 0x100cc800 // FUNCTION: LEGO1 0x100cc800
// FUNCTION: BETA10 0x1015e140 // FUNCTION: BETA10 0x1015e140
MXIOINFO::MXIOINFO() MXIOINFO::MXIOINFO()
@ -33,9 +43,10 @@ MxU16 MXIOINFO::Open(const char* p_filename, MxULong p_flags)
m_info.lDiskOffset = m_info.lBufOffset = 0; m_info.lDiskOffset = m_info.lBufOffset = 0;
// DECOMP: Cast of p_flags to u16 forces the `movzx` instruction // DECOMP: Cast of p_flags to u16 forces the `movzx` instruction
m_info.hmmio = (HMMIO) OpenFile(p_filename, &unused, (MxU16) p_flags); // original: m_info.hmmio = OpenFile(p_filename, &unused, (MxU16) p_flags);
ASSIGN_M_FILE(OpenFile(p_filename, &unused, (MxU16) p_flags));
if ((HFILE) m_info.hmmio != HFILE_ERROR) { if (M_FILE != HFILE_ERROR) {
m_info.dwFlags = p_flags; m_info.dwFlags = p_flags;
if (m_info.dwFlags & MMIO_ALLOCBUF) { if (m_info.dwFlags & MMIO_ALLOCBUF) {
@ -75,10 +86,10 @@ MxU16 MXIOINFO::Close(MxLong p_unused)
{ {
MxU16 result = 0; MxU16 result = 0;
if (m_info.hmmio) { if (RAW_M_FILE) {
result = Flush(0); result = Flush(0);
_lclose((HFILE) m_info.hmmio); _lclose(M_FILE);
m_info.hmmio = 0; ASSIGN_M_FILE(0);
if (m_info.dwFlags & MMIO_ALLOCBUF) { if (m_info.dwFlags & MMIO_ALLOCBUF) {
delete[] m_info.pchBuffer; delete[] m_info.pchBuffer;
@ -127,12 +138,12 @@ MxLong MXIOINFO::Read(void* p_buf, MxLong p_len)
} }
} }
} }
else if (m_info.hmmio && p_len > 0) { else if (RAW_M_FILE && p_len > 0) {
bytesRead = _hread((HFILE) m_info.hmmio, p_buf, p_len); bytesRead = _hread(M_FILE, p_buf, p_len);
if (bytesRead == -1) { if (bytesRead == -1) {
bytesRead = 0; bytesRead = 0;
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, 0, SEEK_CUR); m_info.lDiskOffset = _llseek(M_FILE, 0, SEEK_CUR);
} }
else { else {
m_info.lDiskOffset += bytesRead; m_info.lDiskOffset += bytesRead;
@ -180,12 +191,12 @@ MxLong MXIOINFO::Write(void* p_buf, MxLong p_len)
} }
} }
} }
else if (m_info.hmmio && p_len > 0) { else if (RAW_M_FILE && p_len > 0) {
bytesWritten = _hwrite((HFILE) m_info.hmmio, (const char*) p_buf, p_len); bytesWritten = _hwrite(M_FILE, (const char*) p_buf, p_len);
if (bytesWritten == -1) { if (bytesWritten == -1) {
bytesWritten = 0; bytesWritten = 0;
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, 0, SEEK_CUR); m_info.lDiskOffset = _llseek(M_FILE, 0, SEEK_CUR);
} }
else { else {
m_info.lDiskOffset += bytesWritten; m_info.lDiskOffset += bytesWritten;
@ -234,11 +245,11 @@ MxLong MXIOINFO::Seek(MxLong p_offset, MxLong p_origin)
} }
else { else {
// we have to read another chunk from disk. // we have to read another chunk from disk.
if (m_info.hmmio && !Flush(0)) { if (RAW_M_FILE && !Flush(0)) {
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, p_offset, p_origin); m_info.lDiskOffset = _llseek(M_FILE, p_offset, p_origin);
if (m_info.lDiskOffset == -1) { if (m_info.lDiskOffset == -1) {
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, 0, SEEK_CUR); m_info.lDiskOffset = _llseek(M_FILE, 0, SEEK_CUR);
} }
else { else {
@ -248,10 +259,10 @@ MxLong MXIOINFO::Seek(MxLong p_offset, MxLong p_origin)
// do we need to seek again? // do we need to seek again?
// (i.e. are we already aligned to buffer size?) // (i.e. are we already aligned to buffer size?)
if (p_offset != m_info.lBufOffset) { if (p_offset != m_info.lBufOffset) {
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, m_info.lBufOffset, SEEK_SET); m_info.lDiskOffset = _llseek(M_FILE, m_info.lBufOffset, SEEK_SET);
if (m_info.lDiskOffset == -1) { if (m_info.lDiskOffset == -1) {
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, 0, SEEK_CUR); m_info.lDiskOffset = _llseek(M_FILE, 0, SEEK_CUR);
} }
} }
@ -259,10 +270,10 @@ MxLong MXIOINFO::Seek(MxLong p_offset, MxLong p_origin)
// is the file open for writing only? // is the file open for writing only?
if ((m_info.dwFlags & MMIO_RWMODE) == 0 || (m_info.dwFlags & MMIO_RWMODE) == MMIO_READWRITE) { if ((m_info.dwFlags & MMIO_RWMODE) == 0 || (m_info.dwFlags & MMIO_RWMODE) == MMIO_READWRITE) {
// We can read from the file. Fill the buffer. // We can read from the file. Fill the buffer.
bytesRead = _hread((HFILE) m_info.hmmio, m_info.pchBuffer, m_info.cchBuffer); bytesRead = _hread(M_FILE, m_info.pchBuffer, m_info.cchBuffer);
if (bytesRead == -1) { if (bytesRead == -1) {
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, 0, SEEK_CUR); m_info.lDiskOffset = _llseek(M_FILE, 0, SEEK_CUR);
} }
else { else {
m_info.lDiskOffset += bytesRead; m_info.lDiskOffset += bytesRead;
@ -283,19 +294,19 @@ MxLong MXIOINFO::Seek(MxLong p_offset, MxLong p_origin)
} }
} }
} }
else if (m_info.hmmio) { else if (RAW_M_FILE) {
// No buffer so just seek the file directly (if we have a valid handle) // No buffer so just seek the file directly (if we have a valid handle)
// i.e. if we just want to get the current file position // i.e. if we just want to get the current file position
if (p_origin == SEEK_CUR && p_offset == 0) { if (p_origin == SEEK_CUR && p_offset == 0) {
return m_info.lDiskOffset; return m_info.lDiskOffset;
} }
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, p_offset, p_origin); m_info.lDiskOffset = _llseek(M_FILE, p_offset, p_origin);
result = m_info.lDiskOffset; result = m_info.lDiskOffset;
if (result == -1) { if (result == -1) {
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, 0, SEEK_CUR); m_info.lDiskOffset = _llseek(M_FILE, 0, SEEK_CUR);
} }
} }
@ -334,25 +345,25 @@ MxU16 MXIOINFO::Flush(MxU16 p_unused)
// if we have allocated an IO buffer // if we have allocated an IO buffer
if (m_info.pchBuffer) { if (m_info.pchBuffer) {
// if we have a file open for writing // if we have a file open for writing
if (m_info.hmmio && (m_info.dwFlags & MMIO_RWMODE)) { if (RAW_M_FILE && (m_info.dwFlags & MMIO_RWMODE)) {
// DECOMP: pulling this value out into a variable forces it into EBX // DECOMP: pulling this value out into a variable forces it into EBX
MxLong cchBuffer = m_info.cchBuffer; MxLong cchBuffer = m_info.cchBuffer;
if (cchBuffer > 0) { if (cchBuffer > 0) {
if (m_info.lBufOffset != m_info.lDiskOffset) { if (m_info.lBufOffset != m_info.lDiskOffset) {
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, m_info.lBufOffset, SEEK_SET); m_info.lDiskOffset = _llseek(M_FILE, m_info.lBufOffset, SEEK_SET);
} }
// Was the previous seek (if required) successful? // Was the previous seek (if required) successful?
if (m_info.lBufOffset != m_info.lDiskOffset) { if (m_info.lBufOffset != m_info.lDiskOffset) {
result = MMIOERR_CANNOTSEEK; result = MMIOERR_CANNOTSEEK;
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, 0, SEEK_CUR); m_info.lDiskOffset = _llseek(M_FILE, 0, SEEK_CUR);
} }
else { else {
bytesWritten = _hwrite((HFILE) m_info.hmmio, m_info.pchBuffer, cchBuffer); bytesWritten = _hwrite(M_FILE, m_info.pchBuffer, cchBuffer);
if (bytesWritten == -1 || bytesWritten != cchBuffer) { if (bytesWritten == -1 || bytesWritten != cchBuffer) {
result = MMIOERR_CANNOTWRITE; result = MMIOERR_CANNOTWRITE;
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, 0, SEEK_CUR); m_info.lDiskOffset = _llseek(M_FILE, 0, SEEK_CUR);
} }
else { else {
m_info.lDiskOffset += bytesWritten; m_info.lDiskOffset += bytesWritten;
@ -392,19 +403,19 @@ MxU16 MXIOINFO::Advance(MxU16 p_option)
((p_option & MMIO_WRITE) || (rwmode == MMIO_READWRITE)) && cch > 0) { ((p_option & MMIO_WRITE) || (rwmode == MMIO_READWRITE)) && cch > 0) {
if (m_info.lBufOffset != m_info.lDiskOffset) { if (m_info.lBufOffset != m_info.lDiskOffset) {
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, m_info.lBufOffset, SEEK_SET); m_info.lDiskOffset = _llseek(M_FILE, m_info.lBufOffset, SEEK_SET);
} }
if (m_info.lBufOffset != m_info.lDiskOffset) { if (m_info.lBufOffset != m_info.lDiskOffset) {
result = MMIOERR_CANNOTSEEK; result = MMIOERR_CANNOTSEEK;
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, 0, SEEK_CUR); m_info.lDiskOffset = _llseek(M_FILE, 0, SEEK_CUR);
} }
else { else {
bytesCounter = _hwrite((HFILE) m_info.hmmio, m_info.pchBuffer, cch); bytesCounter = _hwrite(M_FILE, m_info.pchBuffer, cch);
if (bytesCounter == -1 || bytesCounter != cch) { if (bytesCounter == -1 || bytesCounter != cch) {
result = MMIOERR_CANNOTWRITE; result = MMIOERR_CANNOTWRITE;
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, 0, SEEK_CUR); m_info.lDiskOffset = _llseek(M_FILE, 0, SEEK_CUR);
} }
else { else {
m_info.lDiskOffset += bytesCounter; m_info.lDiskOffset += bytesCounter;
@ -418,20 +429,20 @@ MxU16 MXIOINFO::Advance(MxU16 p_option)
m_info.lBufOffset += cch; m_info.lBufOffset += cch;
if ((!rwmode || rwmode == MMIO_READWRITE) && cch > 0) { if ((!rwmode || rwmode == MMIO_READWRITE) && cch > 0) {
if (m_info.lBufOffset != m_info.lDiskOffset) { if (m_info.lBufOffset != m_info.lDiskOffset) {
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, m_info.lBufOffset, SEEK_SET); m_info.lDiskOffset = _llseek(M_FILE, m_info.lBufOffset, SEEK_SET);
} }
// if previous seek failed // if previous seek failed
if (m_info.lBufOffset != m_info.lDiskOffset) { if (m_info.lBufOffset != m_info.lDiskOffset) {
result = MMIOERR_CANNOTSEEK; result = MMIOERR_CANNOTSEEK;
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, 0, SEEK_CUR); m_info.lDiskOffset = _llseek(M_FILE, 0, SEEK_CUR);
} }
else { else {
bytesCounter = _hread((HFILE) m_info.hmmio, m_info.pchBuffer, cch); bytesCounter = _hread(M_FILE, m_info.pchBuffer, cch);
if (bytesCounter == -1) { if (bytesCounter == -1) {
result = MMIOERR_CANNOTREAD; result = MMIOERR_CANNOTREAD;
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, 0, SEEK_CUR); m_info.lDiskOffset = _llseek(M_FILE, 0, SEEK_CUR);
} }
else { else {
m_info.lDiskOffset += bytesCounter; m_info.lDiskOffset += bytesCounter;
@ -574,11 +585,11 @@ MxU16 MXIOINFO::Ascend(MMCKINFO* p_chunkInfo, MxU16 p_ascend)
m_info.dwFlags |= MMIO_DIRTY; m_info.dwFlags |= MMIO_DIRTY;
} }
else { else {
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, ofs, SEEK_SET); m_info.lDiskOffset = _llseek(M_FILE, ofs, SEEK_SET);
if (m_info.lDiskOffset == ofs) { if (m_info.lDiskOffset == ofs) {
if (_lwrite((HFILE) m_info.hmmio, (char*) &size, 4) != 4) { if (_lwrite(M_FILE, (char*) &size, 4) != 4) {
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, 0, SEEK_CUR); m_info.lDiskOffset = _llseek(M_FILE, 0, SEEK_CUR);
result = MMIOERR_CANNOTWRITE; result = MMIOERR_CANNOTWRITE;
} }
else { else {
@ -586,7 +597,7 @@ MxU16 MXIOINFO::Ascend(MMCKINFO* p_chunkInfo, MxU16 p_ascend)
} }
} }
else { else {
m_info.lDiskOffset = _llseek((HFILE) m_info.hmmio, 0, SEEK_CUR); m_info.lDiskOffset = _llseek(M_FILE, 0, SEEK_CUR);
result = MMIOERR_CANNOTSEEK; result = MMIOERR_CANNOTSEEK;
} }
} }

View file

@ -5,6 +5,12 @@
#include <d3drm.h> #include <d3drm.h>
#ifdef DIRECTX5_SDK
typedef DWORD LPD3DRM_APPDATA;
#else
typedef LPVOID LPD3DRM_APPDATA;
#endif
// Forward declare D3D types // Forward declare D3D types
struct IDirect3DRM2; struct IDirect3DRM2;
struct IDirect3DRMDevice2; struct IDirect3DRMDevice2;

View file

@ -15,16 +15,16 @@ void TextureDestroyCallback(IDirect3DRMObject* pObject, void* pArg);
// FUNCTION: LEGO1 0x100a12a0 // FUNCTION: LEGO1 0x100a12a0
Result TextureImpl::SetImage(IDirect3DRMTexture* pSelf, TglD3DRMIMAGE* pImage) Result TextureImpl::SetImage(IDirect3DRMTexture* pSelf, TglD3DRMIMAGE* pImage)
{ {
unsigned long appData; void* appData;
Result result; Result result;
appData = reinterpret_cast<unsigned long>(pImage); appData = pImage;
// This is here because in the original code they asserted // This is here because in the original code they asserted
// on the return value being NULL. // on the return value being NULL.
TextureGetImage(pSelf); TextureGetImage(pSelf);
result = ResultVal(pSelf->SetAppData(appData)); result = ResultVal(pSelf->SetAppData((LPD3DRM_APPDATA) appData));
if (Succeeded(result) && pImage) { if (Succeeded(result) && pImage) {
result = ResultVal(pSelf->AddDestroyCallback(TextureDestroyCallback, NULL)); result = ResultVal(pSelf->AddDestroyCallback(TextureDestroyCallback, NULL));
if (!Succeeded(result)) { if (!Succeeded(result)) {

View file

@ -50,7 +50,7 @@ Result ViewImpl::ViewportCreateAppData(IDirect3DRM2* pDevice, IDirect3DRMViewpor
{ {
ViewportAppData* data = new ViewportAppData(pDevice); ViewportAppData* data = new ViewportAppData(pDevice);
data->m_pCamera = pCamera; data->m_pCamera = pCamera;
Result result = ResultVal(pView->SetAppData(reinterpret_cast<unsigned long>(data))); Result result = ResultVal(pView->SetAppData(reinterpret_cast<LPD3DRM_APPDATA>(data)));
if (Succeeded(result)) { if (Succeeded(result)) {
result = ResultVal(pView->AddDestroyCallback(ViewportDestroyCallback, data)); result = ResultVal(pView->AddDestroyCallback(ViewportDestroyCallback, data));
} }

View file

@ -29,7 +29,7 @@ float g_unk0x1010105c = 0.000125F;
// GLOBAL: LEGO1 0x10101060 // GLOBAL: LEGO1 0x10101060
float g_elapsedSeconds = 0; float g_elapsedSeconds = 0;
inline void SetAppData(ViewROI* p_roi, DWORD data); inline void SetAppData(ViewROI* p_roi, LPD3DRM_APPDATA data);
inline undefined4 GetD3DRM(IDirect3DRM2*& d3drm, Tgl::Renderer* pRenderer); inline undefined4 GetD3DRM(IDirect3DRM2*& d3drm, Tgl::Renderer* pRenderer);
inline undefined4 GetFrame(IDirect3DRMFrame2*& frame, Tgl::Group* scene); inline undefined4 GetFrame(IDirect3DRMFrame2*& frame, Tgl::Group* scene);
@ -165,7 +165,7 @@ void ViewManager::UpdateROIDetailBasedOnLOD(ViewROI* p_roi, int p_und)
if (lod->GetUnknown0x08() & ViewLOD::c_bit4) { if (lod->GetUnknown0x08() & ViewLOD::c_bit4) {
scene->Add((Tgl::MeshBuilder*) group); scene->Add((Tgl::MeshBuilder*) group);
SetAppData(p_roi, (DWORD) p_roi); SetAppData(p_roi, reinterpret_cast<LPD3DRM_APPDATA>(p_roi));
} }
} }
else { else {
@ -187,7 +187,7 @@ void ViewManager::UpdateROIDetailBasedOnLOD(ViewROI* p_roi, int p_und)
if (meshBuilder != NULL) { if (meshBuilder != NULL) {
group->Add(meshBuilder); group->Add(meshBuilder);
SetAppData(p_roi, (DWORD) p_roi); SetAppData(p_roi, reinterpret_cast<LPD3DRM_APPDATA>(p_roi));
p_roi->SetUnknown0xe0(p_und); p_roi->SetUnknown0xe0(p_und);
return; return;
} }
@ -533,7 +533,7 @@ ViewROI* ViewManager::Pick(Tgl::View* p_view, unsigned long x, unsigned long y)
return result; return result;
} }
inline void SetAppData(ViewROI* p_roi, DWORD data) inline void SetAppData(ViewROI* p_roi, LPD3DRM_APPDATA data)
{ {
IDirect3DRMFrame2* frame = NULL; IDirect3DRMFrame2* frame = NULL;