a3x
/
re3
mirror of https://git.rip/DMCA_FUCKER/re3.git
1
0
Fork 0
Code Issues Projects Releases Wiki Activity

implemented most of librw wrapper

This commit is contained in:
aap 2020-04-15 14:05:24 +02:00
parent 6923117715
commit 90be379bed
22 changed files with 2212 additions and 44 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

22
premake5.lua
View File

@ -1,5 +1,7 @@
Librw = os.getenv("LIBRW")
workspace "re3"
configurations { "Debug", "Release", "ReleaseFH", "DebugRW", "ReleaseRW" }
configurations { "Debug", "Release", "ReleaseFH", "DebugRW", "ReleaseRW", "DebugLIBRW" }
location "build"
files { "src/*.*" }
@ -43,18 +45,28 @@ workspace "re3"
includedirs { "eax" }
includedirs { "dxsdk/include" }
includedirs { "rwsdk/include/d3d8" }
includedirs { "milessdk/include" }
includedirs { "eax" }
libdirs { "dxsdk/lib" }
libdirs { "milessdk/lib" }
filter "configurations:*LIBRW"
files { "src/fakerw/*.*" }
includedirs { "src/fakerw" }
includedirs { Librw }
libdirs { path.join(Librw, "lib/win-x86-d3d9/Debug") }
links { "rw", "d3d9" }
filter "configurations:not *LIBRW"
includedirs { "rwsdk/include/d3d8" }
filter "configurations:DebugRW or configurations:ReleaseRW"
defines { "RWLIBS" }
libdirs { "rwsdk/lib/d3d8/release" }
links { "rwcore", "rpworld", "rpmatfx", "rpskin", "rphanim", "rtbmp" }
filter {}
pbcommands = {
"setlocal EnableDelayedExpansion",
@ -123,3 +135,9 @@ project "re3"
optimize "On"
staticruntime "on"
setpaths("$(GTA_III_RE_DIR)/", "gta3.exe", "plugins/")
filter "configurations:DebugLIBRW"
defines { "DEBUG", "LIBRW", "RW_D3D9" }
symbols "On"
setpaths("$(GTA_III_RE_DIR)/", "gta3.exe", "plugins/")

4
src/audio/AudioManager.cpp
View File

@ -1,4 +1,4 @@
#include "common.h"
#include "common.h"
#include "patcher.h"
#include "audio_enums.h"
@ -6269,7 +6269,7 @@ cAudioManager::ProcessPedHeadphones(cPedParams *params)
emittingVol = 10;
veh = (CAutomobile *)ped->m_pMyVehicle;
if(veh && veh->IsCar()) {
for(int32 i = 2; i < ARRAYSIZE(veh->Doors); i++) {
for(int32 i = 2; i < ARRAY_SIZE(veh->Doors); i++) {
if(!veh->IsDoorClosed((eDoors)i) ||
veh->IsDoorMissing((eDoors)i)) {
emittingVol = 42;

10
src/control/Replay.cpp
View File

@ -1215,7 +1215,7 @@ void CReplay::RestoreStuffFromMem(void)
vehicle->SetModelIndex(mi);
if (mi == MI_DODO){
CAutomobile* dodo = (CAutomobile*)vehicle;
RpAtomicSetFlags(GetFirstObject(dodo->m_aCarNodes[CAR_WHEEL_LF]), 0);
RpAtomicSetFlags((RpAtomic*)GetFirstObject(dodo->m_aCarNodes[CAR_WHEEL_LF]), 0);
CMatrix tmp1;
tmp1.Attach(RwFrameGetMatrix(dodo->m_aCarNodes[CAR_WHEEL_RF]), false);
CMatrix tmp2(RwFrameGetMatrix(dodo->m_aCarNodes[CAR_WHEEL_LF]), false);
@ -1243,7 +1243,7 @@ void CReplay::RestoreStuffFromMem(void)
vehicle->GetMatrix().Detach();
if (vehicle->m_rwObject){
if (RwObjectGetType(vehicle->m_rwObject) == rpATOMIC){
RwFrame* frame = RpAtomicGetFrame(vehicle->m_rwObject);
RwFrame* frame = RpAtomicGetFrame((RpAtomic*)vehicle->m_rwObject);
RpAtomicDestroy((RpAtomic*)vehicle->m_rwObject);
RwFrameDestroy(frame);
}
@ -1254,7 +1254,7 @@ void CReplay::RestoreStuffFromMem(void)
int model_id = info->m_wheelId;
if (model_id != -1){
if ((vehicle->m_rwObject = CModelInfo::GetModelInfo(model_id)->CreateInstance())){
vehicle->GetMatrix().AttachRW(&((RwFrame*)vehicle->m_rwObject->parent)->modelling, false);
vehicle->GetMatrix().AttachRW(RwFrameGetMatrix(RpClumpGetFrame((RpClump*)vehicle->m_rwObject)), false);
}
}
}
@ -1274,7 +1274,7 @@ void CReplay::RestoreStuffFromMem(void)
object->SetModelIndex(mi);
object->GetMatrix().m_attachment = nil;
if (RwObjectGetType(object->m_rwObject) == rpATOMIC)
object->GetMatrix().AttachRW(RwFrameGetMatrix(RpAtomicGetFrame(object->m_rwObject)), false);
object->GetMatrix().AttachRW(RwFrameGetMatrix(RpAtomicGetFrame((RpAtomic*)object->m_rwObject)), false);
}
i = CPools::GetDummyPool()->GetSize();
while (--i >= 0) {
@ -1289,7 +1289,7 @@ void CReplay::RestoreStuffFromMem(void)
dummy->SetModelIndex(mi);
dummy->GetMatrix().m_attachment = nil;
if (RwObjectGetType(dummy->m_rwObject) == rpATOMIC)
dummy->GetMatrix().AttachRW(RwFrameGetMatrix(RpAtomicGetFrame(dummy->m_rwObject)), false);
dummy->GetMatrix().AttachRW(RwFrameGetMatrix(RpAtomicGetFrame((RpAtomic*)dummy->m_rwObject)), false);
}
CTimer::SetTimeInMilliseconds(Time1);
CTimer::SetTimeInMillisecondsNonClipped(Time2);

42
src/core/TempColModels.cpp
View File

@ -34,7 +34,7 @@ void
CTempColModels::Initialise(void)
{
#define SET_COLMODEL_SPHERES(colmodel, sphrs)\
colmodel.numSpheres = ARRAYSIZE(sphrs);\
colmodel.numSpheres = ARRAY_SIZE(sphrs);\
colmodel.spheres = sphrs;\
colmodel.level = LEVEL_NONE;\
colmodel.ownsCollisionVolumes = false;\
@ -45,7 +45,7 @@ CTempColModels::Initialise(void)
ms_colModelBBox.boundingBox.Set(CVector(-2.0f, -2.0f, -2.0f), CVector(2.0f, 2.0f, 2.0f), SURFACE_DEFAULT, 0);
ms_colModelBBox.level = LEVEL_NONE;
for (i = 0; i < ARRAYSIZE(ms_colModelCutObj); i++) {
for (i = 0; i < ARRAY_SIZE(ms_colModelCutObj); i++) {
ms_colModelCutObj[i].boundingSphere.Set(2.0f, CVector(0.0f, 0.0f, 0.0f), SURFACE_DEFAULT, 0);
ms_colModelCutObj[i].boundingBox.Set(CVector(-2.0f, -2.0f, -2.0f), CVector(2.0f, 2.0f, 2.0f), SURFACE_DEFAULT, 0);
ms_colModelCutObj[i].level = LEVEL_NONE;
@ -53,7 +53,7 @@ CTempColModels::Initialise(void)
// Ped Spheres
for (i = 0; i < ARRAYSIZE(s_aPedSpheres); i++)
for (i = 0; i < ARRAY_SIZE(s_aPedSpheres); i++)
s_aPedSpheres[i].radius = 0.35f;
s_aPedSpheres[0].center = CVector(0.0f, 0.0f, -0.25f);
@ -61,9 +61,9 @@ CTempColModels::Initialise(void)
s_aPedSpheres[2].center = CVector(0.0f, 0.0f, 0.55f);
#ifdef FIX_BUGS
for (i = 0; i < ARRAYSIZE(s_aPedSpheres); i++) {
for (i = 0; i < ARRAY_SIZE(s_aPedSpheres); i++) {
#else
for (i = 0; i < ARRAYSIZE(s_aPedGSpheres); i++) {
for (i = 0; i < ARRAY_SIZE(s_aPedGSpheres); i++) {
#endif
s_aPedSpheres[i].surface = SURFACE_FLESH;
s_aPedSpheres[i].piece = 0;
@ -83,7 +83,7 @@ CTempColModels::Initialise(void)
s_aPed2Spheres[1].center = CVector(0.0f, 0.0f, -0.9f);
s_aPed2Spheres[2].center = CVector(0.0f, -0.35f, -0.9f);
for (i = 0; i < ARRAYSIZE(s_aPed2Spheres); i++) {
for (i = 0; i < ARRAY_SIZE(s_aPed2Spheres); i++) {
s_aPed2Spheres[i].surface = SURFACE_FLESH;
s_aPed2Spheres[i].piece = 0;
}
@ -129,7 +129,7 @@ CTempColModels::Initialise(void)
s_aDoorSpheres[1].center = CVector(0.0f, -0.95f, -0.35f);
s_aDoorSpheres[2].center = CVector(0.0f, -0.6f, 0.25f);
for (i = 0; i < ARRAYSIZE(s_aDoorSpheres); i++) {
for (i = 0; i < ARRAY_SIZE(s_aDoorSpheres); i++) {
s_aDoorSpheres[i].surface = SURFACE_BILLBOARD;
s_aDoorSpheres[i].piece = 0;
}
@ -141,7 +141,7 @@ CTempColModels::Initialise(void)
// Bumper Spheres
for (i = 0; i < ARRAYSIZE(s_aBumperSpheres); i++)
for (i = 0; i < ARRAY_SIZE(s_aBumperSpheres); i++)
s_aBumperSpheres[i].radius = 0.15f;
s_aBumperSpheres[0].center = CVector(0.85f, -0.05f, 0.0f);
@ -149,7 +149,7 @@ CTempColModels::Initialise(void)
s_aBumperSpheres[2].center = CVector(-0.4f, 0.05f, 0.0f);
s_aBumperSpheres[3].center = CVector(-0.85f, -0.05f, 0.0f);
for (i = 0; i < ARRAYSIZE(s_aBumperSpheres); i++) {
for (i = 0; i < ARRAY_SIZE(s_aBumperSpheres); i++) {
s_aBumperSpheres[i].surface = SURFACE_BILLBOARD;
s_aBumperSpheres[i].piece = 0;
}
@ -161,7 +161,7 @@ CTempColModels::Initialise(void)
// Panel Spheres
for (i = 0; i < ARRAYSIZE(s_aPanelSpheres); i++)
for (i = 0; i < ARRAY_SIZE(s_aPanelSpheres); i++)
s_aPanelSpheres[i].radius = 0.15f;
s_aPanelSpheres[0].center = CVector(0.15f, 0.45f, 0.0f);
@ -169,7 +169,7 @@ CTempColModels::Initialise(void)
s_aPanelSpheres[2].center = CVector(-0.15f, -0.45f, 0.0f);
s_aPanelSpheres[3].center = CVector(-0.15f, 0.45f, 0.0f);
for (i = 0; i < ARRAYSIZE(s_aPanelSpheres); i++) {
for (i = 0; i < ARRAY_SIZE(s_aPanelSpheres); i++) {
s_aPanelSpheres[i].surface = SURFACE_BILLBOARD;
s_aPanelSpheres[i].piece = 0;
}
@ -181,7 +181,7 @@ CTempColModels::Initialise(void)
// Bonnet Spheres
for (i = 0; i < ARRAYSIZE(s_aBonnetSpheres); i++)
for (i = 0; i < ARRAY_SIZE(s_aBonnetSpheres); i++)
s_aBonnetSpheres[i].radius = 0.2f;
s_aBonnetSpheres[0].center = CVector(-0.4f, 0.1f, 0.0f);
@ -189,7 +189,7 @@ CTempColModels::Initialise(void)
s_aBonnetSpheres[2].center = CVector(0.4f, 0.1f, 0.0f);
s_aBonnetSpheres[3].center = CVector(0.4f, 0.9f, 0.0f);
for (i = 0; i < ARRAYSIZE(s_aBonnetSpheres); i++) {
for (i = 0; i < ARRAY_SIZE(s_aBonnetSpheres); i++) {
s_aBonnetSpheres[i].surface = SURFACE_BILLBOARD;
s_aBonnetSpheres[i].piece = 0;
}
@ -201,7 +201,7 @@ CTempColModels::Initialise(void)
// Boot Spheres
for (i = 0; i < ARRAYSIZE(s_aBootSpheres); i++)
for (i = 0; i < ARRAY_SIZE(s_aBootSpheres); i++)
s_aBootSpheres[i].radius = 0.2f;
s_aBootSpheres[0].center = CVector(-0.4f, -0.1f, 0.0f);
@ -209,7 +209,7 @@ CTempColModels::Initialise(void)
s_aBootSpheres[2].center = CVector(0.4f, -0.1f, 0.0f);
s_aBootSpheres[3].center = CVector(0.4f, -0.6f, 0.0f);
for (i = 0; i < ARRAYSIZE(s_aBootSpheres); i++) {
for (i = 0; i < ARRAY_SIZE(s_aBootSpheres); i++) {
s_aBootSpheres[i].surface = SURFACE_BILLBOARD;
s_aBootSpheres[i].piece = 0;
}
@ -228,9 +228,9 @@ CTempColModels::Initialise(void)
s_aWheelSpheres[1].center = CVector(0.3f, 0.0f, 0.0f);
#ifdef FIX_BUGS
for (i = 0; i < ARRAYSIZE(s_aWheelSpheres); i++) {
for (i = 0; i < ARRAY_SIZE(s_aWheelSpheres); i++) {
#else
for (i = 0; i < ARRAYSIZE(s_aBootSpheres); i++) {
for (i = 0; i < ARRAY_SIZE(s_aBootSpheres); i++) {
#endif
s_aWheelSpheres[i].surface = SURFACE_RUBBER29;
s_aWheelSpheres[i].piece = 0;
@ -250,9 +250,9 @@ CTempColModels::Initialise(void)
s_aBodyPartSpheres1[1].center = CVector(0.8f, 0.0f, 0.0f);
#ifdef FIX_BUGS
for (i = 0; i < ARRAYSIZE(s_aBodyPartSpheres1); i++) {
for (i = 0; i < ARRAY_SIZE(s_aBodyPartSpheres1); i++) {
#else
for (i = 0; i < ARRAYSIZE(s_aBootSpheres); i++) {
for (i = 0; i < ARRAY_SIZE(s_aBootSpheres); i++) {
#endif
s_aBodyPartSpheres1[i].surface = SURFACE_FLESH;
s_aBodyPartSpheres1[i].piece = 0;
@ -272,9 +272,9 @@ CTempColModels::Initialise(void)
s_aBodyPartSpheres2[1].center = CVector(0.5f, 0.0f, 0.0f);
#ifdef FIX_BUGS
for (i = 0; i < ARRAYSIZE(s_aBodyPartSpheres2); i++) {
for (i = 0; i < ARRAY_SIZE(s_aBodyPartSpheres2); i++) {
#else
for (i = 0; i < ARRAYSIZE(s_aBootSpheres); i++) {
for (i = 0; i < ARRAY_SIZE(s_aBootSpheres); i++) {
#endif
s_aBodyPartSpheres2[i].surface = SURFACE_FLESH;
s_aBodyPartSpheres2[i].piece = 0;

14
src/core/common.h
View File

@ -23,6 +23,15 @@
#include <rwcore.h>
#include <rpworld.h>
// gotta put this somewhere
#ifdef LIBRW
#define STREAMPOS(str) ((str)->tell())
#define STREAMFILE(str) (((rw::StreamFile*)(str))->file)
#else
#define STREAMPOS(str) ((str)->Type.memory.position)
#define STREAMFILE(str) ((str)->Type.file.fpFile)
#endif
#define rwVENDORID_ROCKSTAR 0x0253F2
// Get rid of bullshit windows definitions, we're not running on an 8086
@ -39,9 +48,6 @@
#ifndef min
#define min(a,b) ((a) < (b) ? (a) : (b))
#endif
#ifndef ARRAYSIZE
#define ARRAYSIZE(a) (sizeof(a) / sizeof(*(a)))
#endif
typedef uint8_t uint8;
typedef int8_t int8;
@ -55,7 +61,9 @@ typedef int64_t int64;
// hardcode ucs-2
typedef uint16_t wchar;
#ifndef nil
#define nil nullptr
#endif
#include "config.h"

795
src/fakerw/fake.cpp Normal file
View File

@ -0,0 +1,795 @@
#define _CRT_SECURE_NO_WARNINGS
#define WITH_D3D
#include <rwcore.h>
#include <rpworld.h>
#include <rpmatfx.h>
#include <rphanim.h>
#include <assert.h>
#include <string.h>
// TODO: split image<->raster functions in two
// implement raster context
// BMP reader
// geometry locking
using namespace rw;
RwUInt8 RwObjectGetType(const RwObject *obj) { return obj->type; }
void *RwMalloc(size_t size) { return malloc(size); }
void *RwCalloc(size_t numObj, size_t sizeObj) { return calloc(numObj, sizeObj); }
void RwFree(void *mem) { free(mem); }
//RwReal RwV3dNormalize(RwV3d * out, const RwV3d * in);
RwReal RwV3dLength(const RwV3d * in) { return length(*in); }
//RwReal RwV2dLength(const RwV2d * in);
//RwReal RwV2dNormalize(RwV2d * out, const RwV2d * in);
//void RwV2dAssign(RwV2d * out, const RwV2d * ina);
//void RwV2dAdd(RwV2d * out, const RwV2d * ina, const RwV2d * inb);
//void RwV2dLineNormal(RwV2d * out, const RwV2d * ina, const RwV2d * inb);
//void RwV2dSub(RwV2d * out, const RwV2d * ina, const RwV2d * inb);
//void RwV2dPerp(RwV2d * out, const RwV2d * in);
//void RwV2dScale(RwV2d * out, const RwV2d * in, RwReal scalar);
//RwReal RwV2dDotProduct(const RwV2d * ina, const RwV2d * inb);
//void RwV3dAssign(RwV3d * out, const RwV3d * ina);
void RwV3dAdd(RwV3d * out, const RwV3d * ina, const RwV3d * inb) { *out = add(*ina, *inb); }
void RwV3dSub(RwV3d * out, const RwV3d * ina, const RwV3d * inb) { *out = sub(*ina, *inb); }
//void RwV3dScale(RwV3d * out, const RwV3d * in, RwReal scalar);
//void RwV3dIncrementScaled(RwV3d * out, const RwV3d * in, RwReal scalar);
//void RwV3dNegate(RwV3d * out, const RwV3d * in);
RwReal RwV3dDotProduct(const RwV3d * ina, const RwV3d * inb) { return dot(*ina, *inb); }
//void RwV3dCrossProduct(RwV3d * out, const RwV3d * ina, const RwV3d * inb);
RwV3d *RwV3dTransformPoints(RwV3d * pointsOut, const RwV3d * pointsIn, RwInt32 numPoints, const RwMatrix * matrix)
{ V3d::transformPoints(pointsOut, pointsIn, numPoints, matrix); return pointsOut; }
//RwV3d *RwV3dTransformVectors(RwV3d * vectorsOut, const RwV3d * vectorsIn, RwInt32 numPoints, const RwMatrix * matrix);
RwBool RwMatrixDestroy(RwMatrix *mpMat) { mpMat->destroy(); return true; }
RwMatrix *RwMatrixCreate(void) { return Matrix::create(); }
void RwMatrixCopy(RwMatrix * dstMatrix, const RwMatrix * srcMatrix) { *dstMatrix = *srcMatrix; }
void RwMatrixSetIdentity(RwMatrix * matrix) { matrix->setIdentity(); }
RwMatrix *RwMatrixMultiply(RwMatrix * matrixOut, const RwMatrix * MatrixIn1, const RwMatrix * matrixIn2);
RwMatrix *RwMatrixTransform(RwMatrix * matrix, const RwMatrix * transform, RwOpCombineType combineOp)
{ matrix->transform(transform, (rw::CombineOp)combineOp); return matrix; }
//RwMatrix *RwMatrixOrthoNormalize(RwMatrix * matrixOut, const RwMatrix * matrixIn);
//RwMatrix *RwMatrixInvert(RwMatrix * matrixOut, const RwMatrix * matrixIn);
RwMatrix *RwMatrixScale(RwMatrix * matrix, const RwV3d * scale, RwOpCombineType combineOp)
{ matrix->scale(scale, (rw::CombineOp)combineOp); return matrix; }
RwMatrix *RwMatrixTranslate(RwMatrix * matrix, const RwV3d * translation, RwOpCombineType combineOp)
{ matrix->translate(translation, (rw::CombineOp)combineOp); return matrix; }
RwMatrix *RwMatrixRotate(RwMatrix * matrix, const RwV3d * axis, RwReal angle, RwOpCombineType combineOp)
{ matrix->rotate(axis, angle, (rw::CombineOp)combineOp); return matrix; }
//RwMatrix *RwMatrixRotateOneMinusCosineSine(RwMatrix * matrix, const RwV3d * unitAxis, RwReal oneMinusCosine, RwReal sine, RwOpCombineType combineOp);
//const RwMatrix *RwMatrixQueryRotate(const RwMatrix * matrix, RwV3d * unitAxis, RwReal * angle, RwV3d * center);
RwV3d *RwMatrixGetRight(RwMatrix * matrix) { return &matrix->right; }
RwV3d *RwMatrixGetUp(RwMatrix * matrix) { return &matrix->up; }
RwV3d *RwMatrixGetAt(RwMatrix * matrix) { return &matrix->at; }
RwV3d *RwMatrixGetPos(RwMatrix * matrix) { return &matrix->pos; }
RwMatrix *RwMatrixUpdate(RwMatrix * matrix) { matrix->update(); return matrix; }
//RwMatrix *RwMatrixOptimize(RwMatrix * matrix, const RwMatrixTolerance *tolerance);
RwFrame *RwFrameForAllObjects(RwFrame * frame, RwObjectCallBack callBack, void *data) {
FORLIST(lnk, frame->objectList)
if(callBack(&ObjectWithFrame::fromFrame(lnk)->object, data) == nil)
break;
return frame;
}
RwFrame *RwFrameTranslate(RwFrame * frame, const RwV3d * v, RwOpCombineType combine) { frame->translate(v, (CombineOp)combine); return frame; }
RwFrame *RwFrameRotate(RwFrame * frame, const RwV3d * axis, RwReal angle, RwOpCombineType combine) { frame->rotate(axis, angle, (CombineOp)combine); return frame; }
RwFrame *RwFrameScale(RwFrame * frame, const RwV3d * v, RwOpCombineType combine) { frame->scale(v, (CombineOp)combine); return frame; }
RwFrame *RwFrameTransform(RwFrame * frame, const RwMatrix * m, RwOpCombineType combine) { frame->transform(m, (CombineOp)combine); return frame; }
//RwFrame *RwFrameOrthoNormalize(RwFrame * frame);
RwFrame *RwFrameSetIdentity(RwFrame * frame) { frame->matrix.setIdentity(); frame->updateObjects(); return frame; }
//RwFrame *RwFrameCloneHierarchy(RwFrame * root);
//RwBool RwFrameDestroyHierarchy(RwFrame * frame);
RwFrame *RwFrameForAllChildren(RwFrame * frame, RwFrameCallBack callBack, void *data)
{ return frame->forAllChildren(callBack, data); }
RwFrame *RwFrameRemoveChild(RwFrame * child) { child->removeChild(); return child; }
RwFrame *RwFrameAddChild(RwFrame * parent, RwFrame * child) { parent->addChild(child); return parent; }
RwFrame *RwFrameGetParent(const RwFrame * frame) { return frame->getParent(); }
//RwFrame *RwFrameGetRoot(const RwFrame * frame);
RwMatrix *RwFrameGetLTM(RwFrame * frame) { return frame->getLTM(); }
RwMatrix *RwFrameGetMatrix(RwFrame * frame) { return &frame->matrix; }
RwFrame *RwFrameUpdateObjects(RwFrame * frame) { frame->updateObjects(); return frame; }
RwFrame *RwFrameCreate(void) { return rw::Frame::create(); }
//RwBool RwFrameInit(RwFrame *frame);
//RwBool RwFrameDeInit(RwFrame *frame);
RwBool RwFrameDestroy(RwFrame * frame) { frame->destroy(); return true; }
//void _rwFrameInit(RwFrame *frame);
//void _rwFrameDeInit(RwFrame *frame);
//RwBool RwFrameDirty(const RwFrame * frame);
//RwInt32 RwFrameCount(RwFrame * frame);
//RwBool RwFrameSetStaticPluginsSize(RwInt32 size);
RwInt32 RwFrameRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB)
{ return Frame::registerPlugin(size, pluginID, constructCB, destructCB, (CopyConstructor)copyCB); }
//RwInt32 RwFrameGetPluginOffset(RwUInt32 pluginID);
//RwBool RwFrameValidatePlugins(const RwFrame * frame);
//RwFrame *_rwFrameCloneAndLinkClones(RwFrame * root);
//RwFrame *_rwFramePurgeClone(RwFrame *root);
RwInt32 RwFrameRegisterPluginStream(RwUInt32 pluginID, RwPluginDataChunkReadCallBack readCB, RwPluginDataChunkWriteCallBack writeCB, RwPluginDataChunkGetSizeCallBack getSizeCB)
{ return Frame::registerPluginStream(pluginID, readCB, (StreamWrite)writeCB, (StreamGetSize)getSizeCB); }
rwFrameList *rwFrameListDeinitialize(rwFrameList *frameList) {
rwFree(frameList->frames);
frameList->frames = nil;
return frameList;
}
rwFrameList *rwFrameListStreamRead(RwStream *stream, rwFrameList *fl) { return fl->streamRead(stream); }
RwCamera *RwCameraBeginUpdate(RwCamera * camera) { camera->beginUpdate(); return camera; }
RwCamera *RwCameraEndUpdate(RwCamera * camera) { camera->endUpdate(); return camera; }
RwCamera *RwCameraClear(RwCamera * camera, RwRGBA * colour, RwInt32 clearMode) { camera->clear(colour, clearMode); return camera; }
// WARNING: ignored arguments
RwCamera *RwCameraShowRaster(RwCamera * camera, void *pDev, RwUInt32 flags) { camera->showRaster(); return camera; }
RwBool RwCameraDestroy(RwCamera * camera) { camera->destroy(); return true; }
RwCamera *RwCameraCreate(void) { return rw::Camera::create(); }
RwCamera *RwCameraClone(RwCamera * camera) { return camera->clone(); }
RwCamera *RwCameraSetViewOffset(RwCamera *camera, const RwV2d *offset) { camera->setViewOffset(offset); return camera; }
RwCamera *RwCameraSetViewWindow(RwCamera *camera, const RwV2d *viewWindow) { camera->setViewWindow(viewWindow); return camera; }
RwCamera *RwCameraSetProjection(RwCamera *camera, RwCameraProjection projection);
RwCamera *RwCameraSetNearClipPlane(RwCamera *camera, RwReal nearClip) { camera->setNearPlane(nearClip); return camera; }
RwCamera *RwCameraSetFarClipPlane(RwCamera *camera, RwReal farClip) { camera->setFarPlane(farClip); return camera; }
RwInt32 RwCameraRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RwCameraGetPluginOffset(RwUInt32 pluginID);
RwBool RwCameraValidatePlugins(const RwCamera * camera);
RwFrustumTestResult RwCameraFrustumTestSphere(const RwCamera * camera, const RwSphere * sphere) { return (RwFrustumTestResult)camera->frustumTestSphere(sphere); }
const RwV2d *RwCameraGetViewOffset(const RwCamera *camera) { return &camera->viewOffset; }
RwCamera *RwCameraSetRaster(RwCamera *camera, RwRaster *raster) { camera->frameBuffer = raster; return camera; }
RwRaster *RwCameraGetRaster(const RwCamera *camera) { return camera->frameBuffer; }
RwCamera *RwCameraSetZRaster(RwCamera *camera, RwRaster *zRaster) { camera->zBuffer = zRaster; return camera; }
RwRaster *RwCameraGetZRaster(const RwCamera *camera) { return camera->zBuffer; }
RwReal RwCameraGetNearClipPlane(const RwCamera *camera) { return camera->nearPlane; }
RwReal RwCameraGetFarClipPlane(const RwCamera *camera) { return camera->farPlane; }
RwCamera *RwCameraSetFogDistance(RwCamera *camera, RwReal fogDistance) { camera->fogPlane = fogDistance; return camera; }
RwReal RwCameraGetFogDistance(const RwCamera *camera) { return camera->fogPlane; }
RwCamera *RwCameraGetCurrentCamera(void);
RwCameraProjection RwCameraGetProjection(const RwCamera *camera);
const RwV2d *RwCameraGetViewWindow(const RwCamera *camera) { return &camera->viewWindow; }
RwMatrix *RwCameraGetViewMatrix(RwCamera *camera) { return &camera->viewMatrix; }
RwCamera *RwCameraSetFrame(RwCamera *camera, RwFrame *frame) { camera->setFrame(frame); return camera; }
RwFrame *RwCameraGetFrame(const RwCamera *camera) { return camera->getFrame(); }
RwImage *RwImageCreate(RwInt32 width, RwInt32 height, RwInt32 depth) { return Image::create(width, height, depth); }
RwBool RwImageDestroy(RwImage * image) { image->destroy(); return true; }
RwImage *RwImageAllocatePixels(RwImage * image);
RwImage *RwImageFreePixels(RwImage * image);
RwImage *RwImageCopy(RwImage * destImage, const RwImage * sourceImage);
RwImage *RwImageResize(RwImage * image, RwInt32 width, RwInt32 height);
RwImage *RwImageApplyMask(RwImage * image, const RwImage * mask);
RwImage *RwImageMakeMask(RwImage * image);
RwImage *RwImageReadMaskedImage(const RwChar * imageName, const RwChar * maskname);
RwImage *RwImageRead(const RwChar * imageName);
RwImage *RwImageWrite(RwImage * image, const RwChar * imageName);
RwChar *RwImageGetPath(void);
const RwChar *RwImageSetPath(const RwChar * path) { Image::setSearchPath(path); return path; }
RwImage *RwImageSetStride(RwImage * image, RwInt32 stride) { image->stride = stride; return image; }
RwImage *RwImageSetPixels(RwImage * image, RwUInt8 * pixels) { image->setPixels(pixels); return image; }
RwImage *RwImageSetPalette(RwImage * image, RwRGBA * palette) { image->setPalette((uint8*)palette); return image; }
RwInt32 RwImageGetWidth(const RwImage * image);
RwInt32 RwImageGetHeight(const RwImage * image);
RwInt32 RwImageGetDepth(const RwImage * image);
RwInt32 RwImageGetStride(const RwImage * image);
RwUInt8 *RwImageGetPixels(const RwImage * image);
RwRGBA *RwImageGetPalette(const RwImage * image);
RwUInt32 RwRGBAToPixel(RwRGBA * rgbIn, RwInt32 rasterFormat);
RwRGBA *RwRGBASetFromPixel(RwRGBA * rgbOut, RwUInt32 pixelValue, RwInt32 rasterFormat);
RwBool RwImageSetGamma(RwReal gammaValue);
RwReal RwImageGetGamma(void);
RwImage *RwImageGammaCorrect(RwImage * image);
RwRGBA *RwRGBAGammaCorrect(RwRGBA * rgb);
RwInt32 RwImageRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RwImageGetPluginOffset(RwUInt32 pluginID);
RwBool RwImageValidatePlugins(const RwImage * image);
//RwBool RwImageRegisterImageFormat(const RwChar * extension, RwImageCallBackRead imageRead, RwImageCallBackWrite imageWrite);
const RwChar *RwImageFindFileType(const RwChar * imageName);
RwInt32 RwImageStreamGetSize(const RwImage * image);
RwImage *RwImageStreamRead(RwStream * stream);
const RwImage *RwImageStreamWrite(const RwImage * image, RwStream * stream);
// TODO: this is kind hard...
RwImage *RwImageFindRasterFormat(RwImage *ipImage,RwInt32 nRasterType, RwInt32 *npWidth,RwInt32 *npHeight, RwInt32 *npDepth,RwInt32 *npFormat)
{
// very dumb implementation for now
// this is also platform specific
if((nRasterType&rwRASTERTYPEMASK) != rwRASTERTYPETEXTURE){
*npFormat = 0;
return nil;
}
*npWidth = ipImage->width;
*npHeight = ipImage->height;
switch(ipImage->depth){
case 4:
case 8:
*npDepth = 8;
*npFormat = Raster::C8888 | Raster::PAL8;
break;
case 16:
*npDepth = 16;
*npFormat = Raster::C1555;
break;
case 24:
*npDepth = 32;
*npFormat = Raster::C888;
break;
case 32:
*npDepth = 32;
*npFormat = Raster::C8888;
break;
default:
assert(0 && "invalid depth");
return nil;
}
return ipImage;
}
RwRaster *RwRasterCreate(RwInt32 width, RwInt32 height, RwInt32 depth, RwInt32 flags) { return Raster::create(width, height, depth, flags); }
RwBool RwRasterDestroy(RwRaster * raster) { raster->destroy(); return true; }
RwInt32 RwRasterGetWidth(const RwRaster *raster) { return raster->width; }
RwInt32 RwRasterGetHeight(const RwRaster *raster) { return raster->height; }
RwInt32 RwRasterGetStride(const RwRaster *raster);
RwInt32 RwRasterGetDepth(const RwRaster *raster) { return raster->depth; }
RwInt32 RwRasterGetFormat(const RwRaster *raster);
RwInt32 RwRasterGetType(const RwRaster *raster);
RwRaster *RwRasterGetParent(const RwRaster *raster) { return raster->parent; }
RwRaster *RwRasterGetOffset(RwRaster *raster, RwInt16 *xOffset, RwInt16 *yOffset);
RwInt32 RwRasterGetNumLevels(RwRaster * raster);
RwRaster *RwRasterSubRaster(RwRaster * subRaster, RwRaster * raster, RwRect * rect);
RwRaster *RwRasterRenderFast(RwRaster * raster, RwInt32 x, RwInt32 y);
RwRaster *RwRasterRender(RwRaster * raster, RwInt32 x, RwInt32 y);
RwRaster *RwRasterRenderScaled(RwRaster * raster, RwRect * rect);
RwRaster *RwRasterPushContext(RwRaster * raster);
RwRaster *RwRasterPopContext(void);
RwRaster *RwRasterGetCurrentContext(void);
RwBool RwRasterClear(RwInt32 pixelValue);
RwBool RwRasterClearRect(RwRect * rpRect, RwInt32 pixelValue);
RwRaster *RwRasterShowRaster(RwRaster * raster, void *dev, RwUInt32 flags);
RwUInt8 *RwRasterLock(RwRaster * raster, RwUInt8 level, RwInt32 lockMode);
RwRaster *RwRasterUnlock(RwRaster * raster);
RwUInt8 *RwRasterLockPalette(RwRaster * raster, RwInt32 lockMode);
RwRaster *RwRasterUnlockPalette(RwRaster * raster);
RwInt32 RwRasterRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RwRasterGetPluginOffset(RwUInt32 pluginID);
RwBool RwRasterValidatePlugins(const RwRaster * raster);
// TODO: let's hope this works
RwRaster *RwRasterSetFromImage(RwRaster *raster, RwImage *image) {
engine->driver[raster->platform]->rasterFromImage(raster, image);
return raster;
}
RwTexture *RwTextureCreate(RwRaster * raster) { return Texture::create(raster); }
RwBool RwTextureDestroy(RwTexture * texture) { texture->destroy(); return true; }
RwTexture *RwTextureAddRef(RwTexture *texture) { texture->refCount++; return texture; }
// TODO
RwBool RwTextureSetMipmapping(RwBool enable) { return true; }
RwBool RwTextureGetMipmapping(void);
// TODO
RwBool RwTextureSetAutoMipmapping(RwBool enable) { return true; }
RwBool RwTextureGetAutoMipmapping(void);
RwBool RwTextureSetMipmapGenerationCallBack(RwTextureCallBackMipmapGeneration callback);
RwTextureCallBackMipmapGeneration RwTextureGetMipmapGenerationCallBack(void);
RwBool RwTextureSetMipmapNameCallBack(RwTextureCallBackMipmapName callback);
RwTextureCallBackMipmapName RwTextureGetMipmapNameCallBack(void);
RwBool RwTextureGenerateMipmapName(RwChar * name, RwChar * maskName, RwUInt8 mipLevel, RwInt32 format);
RwBool RwTextureRasterGenerateMipmaps(RwRaster * raster, RwImage * image);
RwTextureCallBackRead RwTextureGetReadCallBack(void);
RwBool RwTextureSetReadCallBack(RwTextureCallBackRead fpCallBack);
RwTexture *RwTextureSetName(RwTexture * texture, const RwChar * name) { strncpy(texture->name, name, 32); return texture; }
RwTexture *RwTextureSetMaskName(RwTexture * texture, const RwChar * maskName);
RwChar *RwTextureGetName(RwTexture *texture) { return texture->name; }
RwChar *RwTextureGetMaskName(RwTexture *texture);
RwTexture *RwTextureSetRaster(RwTexture * texture, RwRaster * raster) { texture->raster = raster; return texture; }
RwTexture *RwTextureRead(const RwChar * name, const RwChar * maskName) { return Texture::read(name, maskName); }
RwRaster *RwTextureGetRaster(const RwTexture *texture) { return texture->raster; }
RwInt32 RwTextureRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RwTextureGetPluginOffset(RwUInt32 pluginID);
RwBool RwTextureValidatePlugins(const RwTexture * texture);
RwTexDictionary *RwTextureGetDictionary(RwTexture *texture);
RwTexture *RwTextureSetFilterMode(RwTexture *texture, RwTextureFilterMode filtering) { texture->setFilter((Texture::FilterMode)filtering); return texture; }
RwTextureFilterMode RwTextureGetFilterMode(const RwTexture *texture);
RwTexture *RwTextureSetAddressing(RwTexture *texture, RwTextureAddressMode addressing) {
texture->setAddressU((Texture::Addressing)addressing);
texture->setAddressV((Texture::Addressing)addressing);
return texture;
}
RwTexture *RwTextureSetAddressingU(RwTexture *texture, RwTextureAddressMode addressing) {
texture->setAddressU((Texture::Addressing)addressing);
return texture;
}
RwTexture *RwTextureSetAddressingV(RwTexture *texture, RwTextureAddressMode addressing) {
texture->setAddressV((Texture::Addressing)addressing);
return texture;
}
RwTextureAddressMode RwTextureGetAddressing(const RwTexture *texture);
RwTextureAddressMode RwTextureGetAddressingU(const RwTexture *texture);
RwTextureAddressMode RwTextureGetAddressingV(const RwTexture *texture);
// TODO
void _rwD3D8TexDictionaryEnableRasterFormatConversion(bool enable) { }
// hack for reading native textures
RwBool rwNativeTextureHackRead(RwStream *stream, RwTexture **tex, RwInt32 size)
{ *tex = Texture::streamReadNative(stream); return *tex != nil; }
RwTexDictionary *RwTexDictionaryCreate(void) { return TexDictionary::create(); }
RwBool RwTexDictionaryDestroy(RwTexDictionary * dict) { dict->destroy(); return true; }
RwTexture *RwTexDictionaryAddTexture(RwTexDictionary * dict, RwTexture * texture) { dict->add(texture); return texture; }
//RwTexture *RwTexDictionaryRemoveTexture(RwTexture * texture);
RwTexture *RwTexDictionaryFindNamedTexture(RwTexDictionary * dict, const RwChar * name) { return dict->find(name); }
RwTexDictionary *RwTexDictionaryGetCurrent(void) { return TexDictionary::getCurrent(); }
RwTexDictionary *RwTexDictionarySetCurrent(RwTexDictionary * dict) { TexDictionary::setCurrent(dict); return dict; }
const RwTexDictionary *RwTexDictionaryForAllTextures(const RwTexDictionary * dict, RwTextureCallBack fpCallBack, void *pData) {
FORLIST(lnk, ((RwTexDictionary*)dict)->textures)
if(fpCallBack(Texture::fromDict(lnk), pData) == nil)
break;
return dict;
}
RwBool RwTexDictionaryForAllTexDictionaries(RwTexDictionaryCallBack fpCallBack, void *pData);
RwInt32 RwTexDictionaryRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RwTexDictionaryGetPluginOffset(RwUInt32 pluginID);
RwBool RwTexDictionaryValidatePlugins(const RwTexDictionary * dict);
RwUInt32 RwTexDictionaryStreamGetSize(const RwTexDictionary *texDict);
RwTexDictionary *RwTexDictionaryStreamRead(RwStream *stream);
const RwTexDictionary *RwTexDictionaryStreamWrite(const RwTexDictionary *texDict, RwStream *stream) {
((RwTexDictionary*)texDict)->streamWrite(stream);
return texDict;
}
RwStream *RwStreamOpen(RwStreamType type, RwStreamAccessType accessType, const void *pData) {
StreamFile *file;
StreamMemory *mem;
RwMemory *memargs;
const char *mode;
switch(accessType){
case rwSTREAMREAD: mode = "rb"; break;
case rwSTREAMWRITE: mode = "wb"; break;
case rwSTREAMAPPEND: mode = "ab"; break;
default: return nil;
}
switch(type){
case rwSTREAMFILENAME:
file = rwNewT(StreamFile, 1, 0);
if(file->open((char*)pData, mode))
return file;
rwFree(file);
return nil;
case rwSTREAMMEMORY:
memargs = (RwMemory*)pData;
mem = rwNewT(StreamMemory, 1, 0);
if(mem->open(memargs->start, memargs->length))
return mem;
rwFree(mem);
return nil;
default:
assert(0 && "unknown type");
return nil;
}
}
RwBool RwStreamClose(RwStream * stream, void *pData) { stream->close(); rwFree(stream); return true; }
RwUInt32 RwStreamRead(RwStream * stream, void *buffer, RwUInt32 length) { return stream->read(buffer, length); }
RwStream *RwStreamWrite(RwStream * stream, const void *buffer, RwUInt32 length) { stream->write(buffer, length); return stream; }
RwStream *RwStreamSkip(RwStream * stream, RwUInt32 offset) { stream->seek(offset); return stream; }
RwBool RwStreamFindChunk(RwStream *stream, RwUInt32 type, RwUInt32 *lengthOut, RwUInt32 *versionOut)
{ return findChunk(stream, type, lengthOut, versionOut); }
void RwIm2DVertexSetCameraX(RwIm2DVertex *vert, RwReal camx) { }
void RwIm2DVertexSetCameraY(RwIm2DVertex *vert, RwReal camy) { }
void RwIm2DVertexSetCameraZ(RwIm2DVertex *vert, RwReal camz) { vert->setCameraZ(camz); }
void RwIm2DVertexSetRecipCameraZ(RwIm2DVertex *vert, RwReal recipz) { vert->setRecipCameraZ(recipz); }
void RwIm2DVertexSetScreenX(RwIm2DVertex *vert, RwReal scrnx) { vert->setScreenX(scrnx); }
void RwIm2DVertexSetScreenY(RwIm2DVertex *vert, RwReal scrny) { vert->setScreenY(scrny); }
void RwIm2DVertexSetScreenZ(RwIm2DVertex *vert, RwReal scrnz) { vert->setScreenZ(scrnz); }
void RwIm2DVertexSetU(RwIm2DVertex *vert, RwReal texU, RwReal recipz) { vert->setU(texU, recipz); }
void RwIm2DVertexSetV(RwIm2DVertex *vert, RwReal texV, RwReal recipz) { vert->setV(texV, recipz); }
void RwIm2DVertexSetIntRGBA(RwIm2DVertex *vert, RwUInt8 red, RwUInt8 green, RwUInt8 blue, RwUInt8 alpha) { vert->setColor(red, green, blue, alpha); }
RwReal RwIm2DGetNearScreenZ(void) { return im2d::GetNearZ(); }
RwReal RwIm2DGetFarScreenZ(void) { return im2d::GetFarZ(); }
RwBool RwIm2DRenderLine(RwIm2DVertex *vertices, RwInt32 numVertices, RwInt32 vert1, RwInt32 vert2)
{ im2d::RenderLine(vertices, numVertices, vert1, vert2); return true; }
RwBool RwIm2DRenderTriangle(RwIm2DVertex *vertices, RwInt32 numVertices, RwInt32 vert1, RwInt32 vert2, RwInt32 vert3 )
{ im2d::RenderTriangle(vertices, numVertices, vert1, vert2, vert3); return true; }
RwBool RwIm2DRenderPrimitive(RwPrimitiveType primType, RwIm2DVertex *vertices, RwInt32 numVertices)
{ im2d::RenderPrimitive((PrimitiveType)primType, vertices, numVertices); return true; }
RwBool RwIm2DRenderIndexedPrimitive(RwPrimitiveType primType, RwIm2DVertex *vertices, RwInt32 numVertices, RwImVertexIndex *indices, RwInt32 numIndices)
{ im2d::RenderIndexedPrimitive((PrimitiveType)primType, vertices, numVertices, indices, numIndices); return true; }
void RwIm3DVertexSetPos(RwIm3DVertex *vert, RwReal x, RwReal y, RwReal z) { vert->setX(x); vert->setY(y); vert->setZ(z); }
void RwIm3DVertexSetU(RwIm3DVertex *vert, RwReal u) { vert->setU(u); }
void RwIm3DVertexSetV(RwIm3DVertex *vert, RwReal v) { vert->setV(v); }
void RwIm3DVertexSetRGBA(RwIm3DVertex *vert, RwUInt8 r, RwUInt8 g, RwUInt8 b, RwUInt8 a) { vert->setColor(r, g, b, a); }
// WARNING: ignoring flags
void *RwIm3DTransform(RwIm3DVertex *pVerts, RwUInt32 numVerts, RwMatrix *ltm, RwUInt32 flags) { im3d::Transform(pVerts, numVerts, ltm); return pVerts; }
RwBool RwIm3DEnd(void) { im3d::End(); return true; }
RwBool RwIm3DRenderLine(RwInt32 vert1, RwInt32 vert2) {
RwImVertexIndex indices[2];
indices[0] = vert1;
indices[1] = vert2;
im3d::RenderIndexed((PrimitiveType)PRIMTYPELINELIST, indices, 2);
return true;
}
RwBool RwIm3DRenderTriangle(RwInt32 vert1, RwInt32 vert2, RwInt32 vert3);
RwBool RwIm3DRenderIndexedPrimitive(RwPrimitiveType primType, RwImVertexIndex *indices, RwInt32 numIndices) { im3d::RenderIndexed((PrimitiveType)primType, indices, numIndices); return true; }
RwBool RwIm3DRenderPrimitive(RwPrimitiveType primType);
RwBool RwRenderStateSet(RwRenderState state, void *value)
{
uint32 uival = (uintptr)value;
switch(state){
case rwRENDERSTATETEXTURERASTER: SetRenderState(TEXTURERASTER, uival); return true;
case rwRENDERSTATETEXTUREADDRESS: SetRenderState(TEXTUREADDRESS, uival); return true;
case rwRENDERSTATETEXTUREADDRESSU: SetRenderState(TEXTUREADDRESSU, uival); return true;
case rwRENDERSTATETEXTUREADDRESSV: SetRenderState(TEXTUREADDRESSV, uival); return true;
case rwRENDERSTATETEXTUREPERSPECTIVE: return true;
case rwRENDERSTATEZTESTENABLE: SetRenderState(ZTESTENABLE, uival); return true;
case rwRENDERSTATESHADEMODE: return true;
case rwRENDERSTATEZWRITEENABLE: SetRenderState(ZWRITEENABLE, uival); return true;
case rwRENDERSTATETEXTUREFILTER: SetRenderState(TEXTUREFILTER, uival); return true;
case rwRENDERSTATESRCBLEND: SetRenderState(SRCBLEND, uival); return true;
case rwRENDERSTATEDESTBLEND: SetRenderState(DESTBLEND, uival); return true;
case rwRENDERSTATEVERTEXALPHAENABLE: SetRenderState(VERTEXALPHA, uival); return true;
case rwRENDERSTATEBORDERCOLOR: return true;
case rwRENDERSTATEFOGENABLE: SetRenderState(FOGENABLE, uival); return true;
case rwRENDERSTATEFOGCOLOR: SetRenderState(FOGCOLOR, uival); return true;
case rwRENDERSTATEFOGTYPE: return true;
case rwRENDERSTATEFOGDENSITY: return true;
case rwRENDERSTATEFOGTABLE: return true;
case rwRENDERSTATEALPHAPRIMITIVEBUFFER: return true;
case rwRENDERSTATECULLMODE: SetRenderState(CULLMODE, uival); return true;
// all unsupported
case rwRENDERSTATESTENCILENABLE:
case rwRENDERSTATESTENCILFAIL:
case rwRENDERSTATESTENCILZFAIL:
case rwRENDERSTATESTENCILPASS:
case rwRENDERSTATESTENCILFUNCTION:
case rwRENDERSTATESTENCILFUNCTIONREF:
case rwRENDERSTATESTENCILFUNCTIONMASK:
case rwRENDERSTATESTENCILFUNCTIONWRITEMASK:
default:
return true;
}
}
static EngineOpenParams openParams;
// WARNING: unused parameters
RwBool RwEngineInit(RwMemoryFunctions *memFuncs, RwUInt32 initFlags, RwUInt32 resArenaSize) { Engine::init(); return true; }
// TODO: this is platform dependent
RwBool RwEngineOpen(RwEngineOpenParams *initParams) {
openParams.window = (HWND)initParams->displayID;
return Engine::open(&openParams);
}
RwBool RwEngineStart(void) { return Engine::start(); }
RwBool RwEngineStop(void) { Engine::stop(); return true; }
RwBool RwEngineClose(void) { Engine::close(); return true; }
RwBool RwEngineTerm(void) { Engine::term(); return true; }
RwInt32 RwEngineRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor initCB, RwPluginObjectDestructor termCB);
RwInt32 RwEngineGetPluginOffset(RwUInt32 pluginID);
RwInt32 RwEngineGetNumSubSystems(void) { return Engine::getNumSubSystems(); }
RwSubSystemInfo *RwEngineGetSubSystemInfo(RwSubSystemInfo *subSystemInfo, RwInt32 subSystemIndex)
{ return Engine::getSubSystemInfo(subSystemInfo, subSystemIndex); }
RwInt32 RwEngineGetCurrentSubSystem(void) { return Engine::getCurrentSubSystem(); }
RwBool RwEngineSetSubSystem(RwInt32 subSystemIndex) { return Engine::setSubSystem(subSystemIndex); }
RwInt32 RwEngineGetNumVideoModes(void) { return Engine::getNumVideoModes(); }
RwVideoMode *RwEngineGetVideoModeInfo(RwVideoMode *modeinfo, RwInt32 modeIndex)
{ return Engine::getVideoModeInfo(modeinfo, modeIndex); }
RwInt32 RwEngineGetCurrentVideoMode(void) { return Engine::getCurrentVideoMode(); }
RwBool RwEngineSetVideoMode(RwInt32 modeIndex) { return Engine::setVideoMode(modeIndex); }
RwInt32 RwEngineGetTextureMemorySize(void);
RwInt32 RwEngineGetMaxTextureSize(void);
// TODO
void RwD3D8EngineSetRefreshRate(RwUInt32 refreshRate) {}
RwBool RwD3D8DeviceSupportsDXTTexture(void) { return true; }
RpMaterial *RpMaterialCreate(void) { return Material::create(); }
RwBool RpMaterialDestroy(RpMaterial *material) { material->destroy(); return true; }
//RpMaterial *RpMaterialClone(RpMaterial *material);
RpMaterial *RpMaterialSetTexture(RpMaterial *material, RwTexture *texture) { material->setTexture(texture); return material; }
//RpMaterial *RpMaterialAddRef(RpMaterial *material);
RwTexture *RpMaterialGetTexture(const RpMaterial *material) { return material->texture; }
RpMaterial *RpMaterialSetColor(RpMaterial *material, const RwRGBA *color) { material->color = *color; return material; }
const RwRGBA *RpMaterialGetColor(const RpMaterial *material) { return &material->color; }
RpMaterial *RpMaterialSetSurfaceProperties(RpMaterial *material, const RwSurfaceProperties *surfaceProperties);
const RwSurfaceProperties *RpMaterialGetSurfaceProperties(const RpMaterial *material) { return &material->surfaceProps; }
//RwInt32 RpMaterialRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
//RwInt32 RpMaterialRegisterPluginStream(RwUInt32 pluginID, RwPluginDataChunkReadCallBack readCB, RwPluginDataChunkWriteCallBack writeCB, RwPluginDataChunkGetSizeCallBack getSizeCB);
//RwInt32 RpMaterialSetStreamAlwaysCallBack(RwUInt32 pluginID, RwPluginDataChunkAlwaysCallBack alwaysCB);
//RwInt32 RpMaterialGetPluginOffset(RwUInt32 pluginID);
//RwBool RpMaterialValidatePlugins(const RpMaterial *material);
//RwUInt32 RpMaterialStreamGetSize(const RpMaterial *material);
//RpMaterial *RpMaterialStreamRead(RwStream *stream);
//const RpMaterial *RpMaterialStreamWrite(const RpMaterial *material, RwStream *stream);
//RpMaterialChunkInfo *_rpMaterialChunkInfoRead(RwStream *stream, RpMaterialChunkInfo *materialChunkInfo, RwInt32 *bytesRead);
RwReal RpLightGetRadius(const RpLight *light) { return light->radius; }
//const RwRGBAReal *RpLightGetColor(const RpLight *light);
RpLight *RpLightSetFrame(RpLight *light, RwFrame *frame) { light->setFrame(frame); return light; }
RwFrame *RpLightGetFrame(const RpLight *light) { return light->getFrame(); }
//RpLightType RpLightGetType(const RpLight *light);
RpLight *RpLightSetFlags(RpLight *light, RwUInt32 flags) { light->setFlags(flags); return light; }
//RwUInt32 RpLightGetFlags(const RpLight *light);
RpLight *RpLightCreate(RwInt32 type) { return rw::Light::create(type); }
RwBool RpLightDestroy(RpLight *light) { light->destroy(); return true; }
RpLight *RpLightSetRadius(RpLight *light, RwReal radius) { light->radius = radius; return light; }
RpLight *RpLightSetColor(RpLight *light, const RwRGBAReal *color) { light->setColor(color->red, color->green, color->blue); return light; }
//RwReal RpLightGetConeAngle(const RpLight *light);
//RpLight *RpLightSetConeAngle(RpLight * ight, RwReal angle);
//RwUInt32 RpLightStreamGetSize(const RpLight *light);
//RpLight *RpLightStreamRead(RwStream *stream);
//const RpLight *RpLightStreamWrite(const RpLight *light, RwStream *stream);
//RpLightChunkInfo *_rpLightChunkInfoRead(RwStream *stream, RpLightChunkInfo *lightChunkInfo, RwInt32 *bytesRead);
//RwInt32 RpLightRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
//RwInt32 RpLightRegisterPluginStream(RwUInt32 pluginID, RwPluginDataChunkReadCallBack readCB, RwPluginDataChunkWriteCallBack writeCB, RwPluginDataChunkGetSizeCallBack getSizeCB);
//RwInt32 RpLightSetStreamAlwaysCallBack(RwUInt32 pluginID, RwPluginDataChunkAlwaysCallBack alwaysCB);
//RwInt32 RpLightGetPluginOffset(RwUInt32 pluginID);
//RwBool RpLightValidatePlugins(const RpLight * light);
RpGeometry *RpGeometryCreate(RwInt32 numVert, RwInt32 numTriangles, RwUInt32 format) { return Geometry::create(numVert, numTriangles, format); }
RwBool RpGeometryDestroy(RpGeometry *geometry) { geometry->destroy(); return true; }
RpGeometry *_rpGeometryAddRef(RpGeometry *geometry);
// TODO: implement this
RpGeometry *RpGeometryLock(RpGeometry *geometry, RwInt32 lockMode) { return geometry; }
RpGeometry *RpGeometryUnlock(RpGeometry *geometry) { return geometry; }
RpGeometry *RpGeometryTransform(RpGeometry *geometry, const RwMatrix *matrix);
RpGeometry *RpGeometryCreateSpace(RwReal radius);
RpMorphTarget *RpMorphTargetSetBoundingSphere(RpMorphTarget *morphTarget, const RwSphere *boundingSphere) { morphTarget->boundingSphere = *boundingSphere; return morphTarget; }
RwSphere *RpMorphTargetGetBoundingSphere(RpMorphTarget *morphTarget) { return &morphTarget->boundingSphere; }
const RpMorphTarget *RpMorphTargetCalcBoundingSphere(const RpMorphTarget *morphTarget, RwSphere *boundingSphere) { *boundingSphere = morphTarget->calculateBoundingSphere(); return morphTarget; }
RwInt32 RpGeometryAddMorphTargets(RpGeometry *geometry, RwInt32 mtcount);
RwInt32 RpGeometryAddMorphTarget(RpGeometry *geometry);
RpGeometry *RpGeometryRemoveMorphTarget(RpGeometry *geometry, RwInt32 morphTarget);
RwInt32 RpGeometryGetNumMorphTargets(const RpGeometry *geometry);
RpMorphTarget *RpGeometryGetMorphTarget(const RpGeometry *geometry, RwInt32 morphTarget) { return &geometry->morphTargets[morphTarget]; }
RwRGBA *RpGeometryGetPreLightColors(const RpGeometry *geometry) { return geometry->colors; }
RwTexCoords *RpGeometryGetVertexTexCoords(const RpGeometry *geometry, RwTextureCoordinateIndex uvIndex) { return geometry->texCoords[uvIndex]; }
RwInt32 RpGeometryGetNumTexCoordSets(const RpGeometry *geometry) { return geometry->numTexCoordSets; }
RwInt32 RpGeometryGetNumVertices (const RpGeometry *geometry) { return geometry->numVertices; }
RwV3d *RpMorphTargetGetVertices(const RpMorphTarget *morphTarget) { return morphTarget->vertices; }
RwV3d *RpMorphTargetGetVertexNormals(const RpMorphTarget *morphTarget) { return morphTarget->normals; }
RpTriangle *RpGeometryGetTriangles(const RpGeometry *geometry) { return geometry->triangles; }
RwInt32 RpGeometryGetNumTriangles(const RpGeometry *geometry) { return geometry->numTriangles; }
RpMaterial *RpGeometryGetMaterial(const RpGeometry *geometry, RwInt32 matNum) { return geometry->matList.materials[matNum]; }
const RpGeometry *RpGeometryTriangleSetVertexIndices(const RpGeometry *geometry, RpTriangle *triangle, RwUInt16 vert1, RwUInt16 vert2, RwUInt16 vert3)
{ triangle->v[0] = vert1; triangle->v[1] = vert2; triangle->v[2] = vert3; return geometry; }
RpGeometry *RpGeometryTriangleSetMaterial(RpGeometry *geometry, RpTriangle *triangle, RpMaterial *material) {
int id = geometry->matList.findIndex(material);
if(id < 0)
id = geometry->matList.appendMaterial(material);
if(id < 0)
return nil;
triangle->matId = id;
return geometry;
}
const RpGeometry *RpGeometryTriangleGetVertexIndices(const RpGeometry *geometry, const RpTriangle *triangle, RwUInt16 *vert1, RwUInt16 *vert2, RwUInt16 *vert3);
RpMaterial *RpGeometryTriangleGetMaterial(const RpGeometry *geometry, const RpTriangle *triangle);
RwInt32 RpGeometryGetNumMaterials(const RpGeometry *geometry);
RpGeometry *RpGeometryForAllMaterials(RpGeometry *geometry, RpMaterialCallBack fpCallBack, void *pData) {
int i;
for(i = 0; i < geometry->matList.numMaterials; i++)
if(fpCallBack(geometry->matList.materials[i], pData) == nil)
break;
return geometry;
}
//const RpGeometry *RpGeometryForAllMeshes(const RpGeometry *geometry, RpMeshCallBack fpCallBack, void *pData);
RwInt32 RpGeometryRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RpGeometryRegisterPluginStream(RwUInt32 pluginID, RwPluginDataChunkReadCallBack readCB, RwPluginDataChunkWriteCallBack writeCB, RwPluginDataChunkGetSizeCallBack getSizeCB);
RwInt32 RpGeometrySetStreamAlwaysCallBack(RwUInt32 pluginID, RwPluginDataChunkAlwaysCallBack alwaysCB);
RwInt32 RpGeometryGetPluginOffset(RwUInt32 pluginID);
RwBool RpGeometryValidatePlugins(const RpGeometry *geometry);
RwUInt32 RpGeometryStreamGetSize(const RpGeometry *geometry);
const RpGeometry *RpGeometryStreamWrite(const RpGeometry *geometry, RwStream *stream);
RpGeometry *RpGeometryStreamRead(RwStream *stream) { return Geometry::streamRead(stream); }
//RpGeometryChunkInfo *_rpGeometryChunkInfoRead(RwStream *stream, RpGeometryChunkInfo *geometryChunkInfo, RwInt32 *bytesRead);
RwUInt32 RpGeometryGetFlags(const RpGeometry *geometry) { return geometry->flags; }
RpGeometry *RpGeometrySetFlags(RpGeometry *geometry, RwUInt32 flags) { geometry->flags = flags; return geometry; }
const RwSurfaceProperties *_rpGeometryGetSurfaceProperties(const RpGeometry *geometry);
RpGeometry *_rpGeometrySetSurfaceProperties(RpGeometry *geometry, const RwSurfaceProperties *surfaceProperties);
RwFrame *RpClumpGetFrame(const RpClump * clump) { return clump->getFrame(); }
RpClump *RpClumpSetFrame(RpClump * clump, RwFrame * frame) { clump->setFrame(frame); return clump; }
RpClump *RpClumpForAllAtomics(RpClump * clump, RpAtomicCallBack callback, void *pData) {
FORLIST(lnk, clump->atomics)
if(callback(Atomic::fromClump(lnk), pData) == nil)
break;
return clump;
}
RpClump *RpClumpForAllLights(RpClump * clump, RpLightCallBack callback, void *pData);
RpClump *RpClumpForAllCameras(RpClump * clump, RwCameraCallBack callback, void *pData);
//RpClump *RpClumpCreateSpace(const RwV3d * position, RwReal radius);
RpClump *RpClumpRender(RpClump * clump) { clump->render(); return clump; }
RpClump *RpClumpRemoveAtomic(RpClump * clump, RpAtomic * atomic) { atomic->removeFromClump(); return clump; }
RpClump *RpClumpAddAtomic(RpClump * clump, RpAtomic * atomic) { clump->addAtomic(atomic); return clump; }
//RpClump *RpClumpRemoveLight(RpClump * clump, RpLight * light);
//RpClump *RpClumpAddLight(RpClump * clump, RpLight * light);
//RpClump *RpClumpRemoveCamera(RpClump * clump, RwCamera * camera);
//RpClump *RpClumpAddCamera(RpClump * clump, RwCamera * camera);
RwBool RpClumpDestroy(RpClump * clump) { clump->destroy(); return true; }
RpClump *RpClumpCreate(void) { return rw::Clump::create(); }
RpClump *RpClumpClone(RpClump * clump) { return clump->clone(); }
//RpClump *RpClumpSetCallBack(RpClump * clump, RpClumpCallBack callback);
//RpClumpCallBack RpClumpGetCallBack(const RpClump * clump);
RwInt32 RpClumpGetNumAtomics(RpClump * clump) { return clump->countAtomics(); }
//RwInt32 RpClumpGetNumLights(RpClump * clump);
//RwInt32 RpClumpGetNumCameras(RpClump * clump);
RpClump *RpClumpStreamRead(RwStream * stream) { return rw::Clump::streamRead(stream); }
//RpClump *RpClumpStreamWrite(RpClump * clump, RwStream * stream);
RwInt32 RpClumpRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB)
{ return Clump::registerPlugin(size, pluginID, constructCB, destructCB, (CopyConstructor)copyCB); }
RwInt32 RpClumpRegisterPluginStream(RwUInt32 pluginID, RwPluginDataChunkReadCallBack readCB, RwPluginDataChunkWriteCallBack writeCB, RwPluginDataChunkGetSizeCallBack getSizeCB)
{ return Clump::registerPluginStream(pluginID, readCB, (StreamWrite)writeCB, (StreamGetSize)getSizeCB); }
//RwInt32 RpClumpSetStreamAlwaysCallBack(RwUInt32 pluginID, RwPluginDataChunkAlwaysCallBack alwaysCB);
//RwInt32 RpClumpGetPluginOffset(RwUInt32 pluginID);
//RwBool RpClumpValidatePlugins(const RpClump * clump);
RpAtomic *RpAtomicCreate(void) { return rw::Atomic::create(); }
RwBool RpAtomicDestroy(RpAtomic * atomic) { atomic->destroy(); return true; }
RpAtomic *RpAtomicClone(RpAtomic * atomic) { return atomic->clone(); }
RpAtomic *RpAtomicSetFrame(RpAtomic * atomic, RwFrame * frame) { atomic->setFrame(frame); return atomic; }
RpAtomic *RpAtomicSetGeometry(RpAtomic * atomic, RpGeometry * geometry, RwUInt32 flags) { atomic->setGeometry(geometry, flags); return atomic; }
RwFrame *RpAtomicGetFrame(const RpAtomic * atomic) { return atomic->getFrame(); }
RpAtomic *RpAtomicSetFlags(RpAtomic * atomic, RwUInt32 flags) { atomic->setFlags(flags); return atomic; }
RwUInt32 RpAtomicGetFlags(const RpAtomic * atomic) { return atomic->getFlags(); }
RwSphere *RpAtomicGetBoundingSphere(RpAtomic * atomic) { return &atomic->boundingSphere; }
RpAtomic *RpAtomicRender(RpAtomic * atomic) { atomic->render(); return atomic; }
RpClump *RpAtomicGetClump(const RpAtomic * atomic) { return atomic->clump; }
//RpInterpolator *RpAtomicGetInterpolator(RpAtomic * atomic);
RpGeometry *RpAtomicGetGeometry(const RpAtomic * atomic) { return atomic->geometry; }
// WARNING: illegal cast
void RpAtomicSetRenderCallBack(RpAtomic * atomic, RpAtomicCallBackRender callback) { atomic->setRenderCB((Atomic::RenderCB)callback); }
RpAtomicCallBackRender RpAtomicGetRenderCallBack(const RpAtomic * atomic) { return (RpAtomicCallBackRender)atomic->renderCB; }
//RwBool RpAtomicInstance(RpAtomic *atomic);
//RwUInt32 RpAtomicStreamGetSize(RpAtomic * atomic);
//RpAtomic *RpAtomicStreamRead(RwStream * stream);
//RpAtomic *RpAtomicStreamWrite(RpAtomic * atomic, RwStream * stream);
RwInt32 RpAtomicRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB)
{ return Atomic::registerPlugin(size, pluginID, constructCB, destructCB, (CopyConstructor)copyCB); }
//RwInt32 RpAtomicRegisterPluginStream(RwUInt32 pluginID, RwPluginDataChunkReadCallBack readCB, RwPluginDataChunkWriteCallBack writeCB, RwPluginDataChunkGetSizeCallBack getSizeCB);
//RwInt32 RpAtomicSetStreamAlwaysCallBack(RwUInt32 pluginID, RwPluginDataChunkAlwaysCallBack alwaysCB);
//RwInt32 RpAtomicSetStreamRightsCallBack(RwUInt32 pluginID, RwPluginDataChunkRightsCallBack rightsCB);
//RwInt32 RpAtomicGetPluginOffset(RwUInt32 pluginID);
//RwBool RpAtomicValidatePlugins(const RpAtomic * atomic);
RpAtomic *AtomicDefaultRenderCallBack(RpAtomic * atomic) { Atomic::defaultRenderCB(atomic); return atomic; }
// TODO: this is extremely simplified
RpWorld *RpWorldCreate(RwBBox * boundingBox) { return World::create(); }
RwBool RpWorldDestroy(RpWorld * world) { world->destroy(); return true; }
RwBool RpWorldPluginAttach(void) {
registerMeshPlugin();
registerNativeDataPlugin();
registerAtomicRightsPlugin();
registerMaterialRightsPlugin();
return true;
}
RpWorld *RpWorldRemoveCamera(RpWorld *world, RwCamera *camera) { world->removeCamera(camera); return world; }
RpWorld *RpWorldAddCamera(RpWorld *world, RwCamera *camera) { world->addCamera(camera); return world; }
RpWorld *RwCameraGetWorld(const RwCamera *camera);
RpWorld *RpWorldRemoveAtomic(RpWorld *world, RpAtomic *atomic);
RpWorld *RpWorldAddAtomic(RpWorld *world, RpAtomic *atomic);
RpWorld *RpAtomicGetWorld(const RpAtomic *atomic);
RpWorld *RpWorldAddClump(RpWorld *world, RpClump *clump);
RpWorld *RpWorldRemoveClump(RpWorld *world, RpClump *clump);
RpWorld *RpClumpGetWorld(const RpClump *clump);
RpWorld *RpWorldAddLight(RpWorld *world, RpLight *light) { world->addLight(light); return world; }
RpWorld *RpWorldRemoveLight(RpWorld *world, RpLight *light) { world->removeLight(light); return world; }
RpWorld *RpLightGetWorld(const RpLight *light);
RwCamera *RwCameraForAllClumpsInFrustum(RwCamera *camera, void *data);
RwCamera *RwCameraForAllClumpsNotInFrustum(RwCamera *camera, RwInt32 numClumps, void *data);
RwBool RpMatFXPluginAttach( void ) { registerMatFXPlugin(); return true; }
RpAtomic *RpMatFXAtomicEnableEffects( RpAtomic *atomic ) { MatFX::enableEffects(atomic); return atomic; }
RpMaterial *RpMatFXMaterialSetEffects( RpMaterial *material, RpMatFXMaterialFlags flags ) { MatFX::setEffects(material, (uint32)flags); return material; }
RpMaterial *RpMatFXMaterialSetupEnvMap( RpMaterial *material, RwTexture *texture, RwFrame *frame, RwBool useFrameBufferAlpha, RwReal coef ) {
MatFX *mfx = MatFX::get(material);
mfx->setEnvTexture(texture);
mfx->setEnvFrame(frame);
mfx->setEnvCoefficient(coef);
return material;
}
RwBool RpHAnimPluginAttach(void) {
registerHAnimPlugin();
return true;
}
RwBool RpHAnimFrameSetHierarchy(RwFrame *frame, RpHAnimHierarchy *hierarchy) { HAnimData::get(frame)->hierarchy = hierarchy; return true; }
RpHAnimHierarchy *RpHAnimFrameGetHierarchy(RwFrame *frame) { return HAnimHierarchy::get(frame); }
RwBool RpHAnimHierarchySetCurrentAnim(RpHAnimHierarchy *hierarchy, RpHAnimAnimation *anim) { hierarchy->currentAnim->setCurrentAnim(anim); return true; }
RwBool RpHAnimHierarchyAddAnimTime(RpHAnimHierarchy *hierarchy, RwReal time) { hierarchy->currentAnim->addTime(time); return true; }
RwBool RpHAnimHierarchyUpdateMatrices(RpHAnimHierarchy *hierarchy) { hierarchy->updateMatrices(); return true; }
RpHAnimAnimation *RpHAnimAnimationStreamRead(RwStream *stream) { return Animation::streamRead(stream); }
RwBool RpSkinPluginAttach(void) {
registerSkinPlugin();
return true;
}
RpAtomic *RpSkinAtomicSetHAnimHierarchy( RpAtomic *atomic, RpHAnimHierarchy *hierarchy ) { Skin::setHierarchy(atomic, hierarchy); return atomic; }
RpHAnimHierarchy *RpSkinAtomicGetHAnimHierarchy( const RpAtomic *atomic ) { return Skin::getHierarchy(atomic); }
RwImage *RtBMPImageWrite(RwImage * image, const RwChar * imageName) { rw::writeBMP(image, imageName); return image; }
RwImage *RtBMPImageRead(const RwChar * imageName) { return rw::readBMP(imageName); }

20
src/fakerw/rphanim.h Normal file
View File

@ -0,0 +1,20 @@
#pragma once
//struct RpHAnimHierarchy;
typedef rw::HAnimHierarchy RpHAnimHierarchy;
//struct RpHAnimAnimation;
typedef rw::Animation RpHAnimAnimation;
RwBool RpHAnimPluginAttach(void);
RwBool RpHAnimFrameSetHierarchy(RwFrame *frame, RpHAnimHierarchy *hierarchy);
RpHAnimHierarchy *RpHAnimFrameGetHierarchy(RwFrame *frame);
RwBool RpHAnimHierarchySetCurrentAnim(RpHAnimHierarchy *hierarchy, RpHAnimAnimation *anim);
RwBool RpHAnimHierarchySetCurrentAnimTime(RpHAnimHierarchy *hierarchy, RwReal time);
RwBool RpHAnimHierarchySubAnimTime(RpHAnimHierarchy *hierarchy, RwReal time);
RwBool RpHAnimHierarchyAddAnimTime(RpHAnimHierarchy *hierarchy, RwReal time);
RwBool RpHAnimHierarchyUpdateMatrices(RpHAnimHierarchy *hierarchy);
RpHAnimAnimation *RpHAnimAnimationStreamRead(RwStream *stream);

43
src/fakerw/rpmatfx.h Normal file
View File

@ -0,0 +1,43 @@
#pragma once
enum RpMatFXMaterialFlags
{
rpMATFXEFFECTNULL = rw::MatFX::NOTHING,
rpMATFXEFFECTBUMPMAP = rw::MatFX::BUMPMAP,
rpMATFXEFFECTENVMAP = rw::MatFX::ENVMAP,
rpMATFXEFFECTBUMPENVMAP = rw::MatFX::BUMPENVMAP,
rpMATFXEFFECTDUAL = rw::MatFX::DUAL,
rpMATFXEFFECTMAX,
rpMATFXNUMEFFECTS = rpMATFXEFFECTMAX - 1,
};
RwBool RpMatFXPluginAttach( void );
RpAtomic *RpMatFXAtomicEnableEffects( RpAtomic *atomic );
RwBool RpMatFXAtomicQueryEffects( RpAtomic *atomic );
//RpWorldSector *RpMatFXWorldSectorEnableEffects( RpWorldSector *worldSector );
//RwBool RpMatFXWorldSectorQueryEffects( RpWorldSector *worldSector );
RpMaterial *RpMatFXMaterialSetEffects( RpMaterial *material, RpMatFXMaterialFlags flags );
RpMaterial *RpMatFXMaterialSetupBumpMap( RpMaterial *material, RwTexture *texture, RwFrame *frame, RwReal coef );
RpMaterial *RpMatFXMaterialSetupEnvMap( RpMaterial *material, RwTexture *texture, RwFrame *frame, RwBool useFrameBufferAlpha, RwReal coef );
RpMaterial *RpMatFXMaterialSetupDualTexture( RpMaterial *material, RwTexture *texture, RwBlendFunction srcBlendMode, RwBlendFunction dstBlendMode );
RpMatFXMaterialFlags RpMatFXMaterialGetEffects( const RpMaterial *material );
RpMaterial *RpMatFXMaterialSetBumpMapTexture( RpMaterial *material, RwTexture *texture );
RpMaterial *RpMatFXMaterialSetBumpMapFrame( RpMaterial *material, RwFrame *frame );
RpMaterial *RpMatFXMaterialSetBumpMapCoefficient( RpMaterial *material, RwReal coef );
RwTexture *RpMatFXMaterialGetBumpMapTexture( const RpMaterial *material );
RwTexture *RpMatFXMaterialGetBumpMapBumpedTexture( const RpMaterial *material );
RwFrame *RpMatFXMaterialGetBumpMapFrame( const RpMaterial *material );
RwReal RpMatFXMaterialGetBumpMapCoefficient( const RpMaterial *material );
RpMaterial *RpMatFXMaterialSetEnvMapTexture( RpMaterial *material, RwTexture *texture );
RpMaterial *RpMatFXMaterialSetEnvMapFrame( RpMaterial *material, RwFrame *frame );
RpMaterial *RpMatFXMaterialSetEnvMapFrameBufferAlpha( RpMaterial *material, RwBool useFrameBufferAlpha );
RpMaterial *RpMatFXMaterialSetEnvMapCoefficient( RpMaterial *material, RwReal coef );
RwTexture *RpMatFXMaterialGetEnvMapTexture( const RpMaterial *material );
RwFrame *RpMatFXMaterialGetEnvMapFrame( const RpMaterial *material );
RwBool RpMatFXMaterialGetEnvMapFrameBufferAlpha( const RpMaterial *material );
RwReal RpMatFXMaterialGetEnvMapCoefficient( const RpMaterial *material );
RpMaterial *RpMatFXMaterialSetDualTexture( RpMaterial *material, RwTexture *texture );
RpMaterial *RpMatFXMaterialSetDualBlendModes( RpMaterial *material, RwBlendFunction srcBlendMode, RwBlendFunction dstBlendMode );
RwTexture *RpMatFXMaterialGetDualTexture( const RpMaterial *material );
const RpMaterial *RpMatFXMaterialGetDualBlendModes( const RpMaterial *material, RwBlendFunction *srcBlendMode, RwBlendFunction *dstBlendMode );

8
src/fakerw/rpskin.h Normal file
View File

@ -0,0 +1,8 @@
#pragma once
#include <rphanim.h>
RwBool RpSkinPluginAttach(void);
RpAtomic *RpSkinAtomicSetHAnimHierarchy( RpAtomic *atomic, RpHAnimHierarchy *hierarchy );
RpHAnimHierarchy *RpSkinAtomicGetHAnimHierarchy( const RpAtomic *atomic );

336
src/fakerw/rpworld.h Normal file
View File

@ -0,0 +1,336 @@
#pragma once
#define rpATOMIC rw::Atomic::ID
#define rpCLUMP rw::Clump::ID
/*
***********************************************
*
* RpMaterial
*
***********************************************
*/
//struct RpMaterial;
typedef rw::Material RpMaterial;
typedef RpMaterial *(*RpMaterialCallBack)(RpMaterial *material, void *data);
RpMaterial *RpMaterialCreate(void);
RwBool RpMaterialDestroy(RpMaterial *material);
RpMaterial *RpMaterialClone(RpMaterial *material);
RpMaterial *RpMaterialSetTexture(RpMaterial *material, RwTexture *texture);
RpMaterial *RpMaterialAddRef(RpMaterial *material);
RwTexture *RpMaterialGetTexture(const RpMaterial *material);
RpMaterial *RpMaterialSetColor(RpMaterial *material, const RwRGBA *color);
const RwRGBA *RpMaterialGetColor(const RpMaterial *material);
RpMaterial *RpMaterialSetSurfaceProperties(RpMaterial *material, const RwSurfaceProperties *surfaceProperties);
const RwSurfaceProperties *RpMaterialGetSurfaceProperties(const RpMaterial *material);
RwInt32 RpMaterialRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RpMaterialRegisterPluginStream(RwUInt32 pluginID, RwPluginDataChunkReadCallBack readCB, RwPluginDataChunkWriteCallBack writeCB, RwPluginDataChunkGetSizeCallBack getSizeCB);
RwInt32 RpMaterialSetStreamAlwaysCallBack(RwUInt32 pluginID, RwPluginDataChunkAlwaysCallBack alwaysCB);
RwInt32 RpMaterialGetPluginOffset(RwUInt32 pluginID);
RwBool RpMaterialValidatePlugins(const RpMaterial *material);
RwUInt32 RpMaterialStreamGetSize(const RpMaterial *material);
RpMaterial *RpMaterialStreamRead(RwStream *stream);
const RpMaterial *RpMaterialStreamWrite(const RpMaterial *material, RwStream *stream);
//RpMaterialChunkInfo *_rpMaterialChunkInfoRead(RwStream *stream, RpMaterialChunkInfo *materialChunkInfo, RwInt32 *bytesRead);
/*
***********************************************
*
* RpLight
*
***********************************************
*/
//struct RpLight;
typedef rw::Light RpLight;
enum RpLightType
{
rpNALIGHTTYPE = 0,
rpLIGHTDIRECTIONAL,
rpLIGHTAMBIENT,
rpLIGHTPOINT = 0x80,
rpLIGHTSPOT,
rpLIGHTSPOTSOFT,
};
enum RpLightFlag
{
rpLIGHTLIGHTATOMICS = 0x01,
rpLIGHTLIGHTWORLD = 0x02,
};
typedef RpLight *(*RpLightCallBack) (RpLight * light, void *data);
RwReal RpLightGetRadius(const RpLight *light);
const RwRGBAReal *RpLightGetColor(const RpLight *light);
RpLight *RpLightSetFrame(RpLight *light, RwFrame *frame);
RwFrame *RpLightGetFrame(const RpLight *light);
RpLightType RpLightGetType(const RpLight *light);
RpLight *RpLightSetFlags(RpLight *light, RwUInt32 flags);
RwUInt32 RpLightGetFlags(const RpLight *light);
RpLight *RpLightCreate(RwInt32 type);
RwBool RpLightDestroy(RpLight *light);
RpLight *RpLightSetRadius(RpLight *light, RwReal radius);
RpLight *RpLightSetColor(RpLight *light, const RwRGBAReal *color);
RwReal RpLightGetConeAngle(const RpLight *light);
RpLight *RpLightSetConeAngle(RpLight * ight, RwReal angle);
RwUInt32 RpLightStreamGetSize(const RpLight *light);
RpLight *RpLightStreamRead(RwStream *stream);
const RpLight *RpLightStreamWrite(const RpLight *light, RwStream *stream);
//RpLightChunkInfo *_rpLightChunkInfoRead(RwStream *stream, RpLightChunkInfo *lightChunkInfo, RwInt32 *bytesRead);
RwInt32 RpLightRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RpLightRegisterPluginStream(RwUInt32 pluginID, RwPluginDataChunkReadCallBack readCB, RwPluginDataChunkWriteCallBack writeCB, RwPluginDataChunkGetSizeCallBack getSizeCB);
RwInt32 RpLightSetStreamAlwaysCallBack(RwUInt32 pluginID, RwPluginDataChunkAlwaysCallBack alwaysCB);
RwInt32 RpLightGetPluginOffset(RwUInt32 pluginID);
RwBool RpLightValidatePlugins(const RpLight * light);
/*
***********************************************
*
* RpGeometry
*
***********************************************
*/
typedef rw::Triangle RpTriangle;
//struct RpGeometry;
typedef rw::Geometry RpGeometry;
//struct RpMorphTarget;
typedef rw::MorphTarget RpMorphTarget;
enum RpGeometryFlag
{
rpGEOMETRYTRISTRIP = rw::Geometry::TRISTRIP,
rpGEOMETRYPOSITIONS = rw::Geometry::POSITIONS,
rpGEOMETRYTEXTURED = rw::Geometry::TEXTURED,
rpGEOMETRYPRELIT = rw::Geometry::PRELIT,
rpGEOMETRYNORMALS = rw::Geometry::NORMALS,
rpGEOMETRYLIGHT = rw::Geometry::LIGHT,
rpGEOMETRYMODULATEMATERIALCOLOR = rw::Geometry::MODULATE,
rpGEOMETRYTEXTURED2 = rw::Geometry::TEXTURED2,
rpGEOMETRYNATIVE = rw::Geometry::NATIVE,
rpGEOMETRYNATIVEINSTANCE = rw::Geometry::NATIVEINSTANCE,
rpGEOMETRYFLAGSMASK = 0x000000FF,
rpGEOMETRYNATIVEFLAGSMASK = 0x0F000000,
};
enum RpGeometryLockMode
{
rpGEOMETRYLOCKPOLYGONS = 0x01,
rpGEOMETRYLOCKVERTICES = 0x02,
rpGEOMETRYLOCKNORMALS = 0x04,
rpGEOMETRYLOCKPRELIGHT = 0x08,
rpGEOMETRYLOCKTEXCOORDS = 0x10,
rpGEOMETRYLOCKTEXCOORDS1 = 0x10,
rpGEOMETRYLOCKTEXCOORDS2 = 0x20,
rpGEOMETRYLOCKTEXCOORDS3 = 0x40,
rpGEOMETRYLOCKTEXCOORDS4 = 0x80,
rpGEOMETRYLOCKTEXCOORDS5 = 0x0100,
rpGEOMETRYLOCKTEXCOORDS6 = 0x0200,
rpGEOMETRYLOCKTEXCOORDS7 = 0x0400,
rpGEOMETRYLOCKTEXCOORDS8 = 0x0800,
rpGEOMETRYLOCKTEXCOORDSALL = 0x0ff0,
rpGEOMETRYLOCKALL = 0x0fff
};
RpGeometry *RpGeometryCreate(RwInt32 numVert, RwInt32 numTriangles, RwUInt32 format);
RwBool RpGeometryDestroy(RpGeometry *geometry);
RpGeometry *_rpGeometryAddRef(RpGeometry *geometry);
RpGeometry *RpGeometryLock(RpGeometry *geometry, RwInt32 lockMode);
RpGeometry *RpGeometryUnlock(RpGeometry *geometry);
RpGeometry *RpGeometryTransform(RpGeometry *geometry, const RwMatrix *matrix);
RpGeometry *RpGeometryCreateSpace(RwReal radius);
RpMorphTarget *RpMorphTargetSetBoundingSphere(RpMorphTarget *morphTarget, const RwSphere *boundingSphere);
RwSphere *RpMorphTargetGetBoundingSphere(RpMorphTarget *morphTarget);
const RpMorphTarget *RpMorphTargetCalcBoundingSphere(const RpMorphTarget *morphTarget, RwSphere *boundingSphere);
RwInt32 RpGeometryAddMorphTargets(RpGeometry *geometry, RwInt32 mtcount);
RwInt32 RpGeometryAddMorphTarget(RpGeometry *geometry);
RpGeometry *RpGeometryRemoveMorphTarget(RpGeometry *geometry, RwInt32 morphTarget);
RwInt32 RpGeometryGetNumMorphTargets(const RpGeometry *geometry);
RpMorphTarget *RpGeometryGetMorphTarget(const RpGeometry *geometry, RwInt32 morphTarget);
RwRGBA *RpGeometryGetPreLightColors(const RpGeometry *geometry);
RwTexCoords *RpGeometryGetVertexTexCoords(const RpGeometry *geometry, RwTextureCoordinateIndex uvIndex);
RwInt32 RpGeometryGetNumTexCoordSets(const RpGeometry *geometry);
RwInt32 RpGeometryGetNumVertices (const RpGeometry *geometry);
RwV3d *RpMorphTargetGetVertices(const RpMorphTarget *morphTarget);
RwV3d *RpMorphTargetGetVertexNormals(const RpMorphTarget *morphTarget);
RpTriangle *RpGeometryGetTriangles(const RpGeometry *geometry);
RwInt32 RpGeometryGetNumTriangles(const RpGeometry *geometry);
RpMaterial *RpGeometryGetMaterial(const RpGeometry *geometry, RwInt32 matNum);
const RpGeometry *RpGeometryTriangleSetVertexIndices(const RpGeometry *geometry, RpTriangle *triangle, RwUInt16 vert1, RwUInt16 vert2, RwUInt16 vert3);
RpGeometry *RpGeometryTriangleSetMaterial(RpGeometry *geometry, RpTriangle *triangle, RpMaterial *material);
const RpGeometry *RpGeometryTriangleGetVertexIndices(const RpGeometry *geometry, const RpTriangle *triangle, RwUInt16 *vert1, RwUInt16 *vert2, RwUInt16 *vert3);
RpMaterial *RpGeometryTriangleGetMaterial(const RpGeometry *geometry, const RpTriangle *triangle);
RwInt32 RpGeometryGetNumMaterials(const RpGeometry *geometry);
RpGeometry *RpGeometryForAllMaterials(RpGeometry *geometry, RpMaterialCallBack fpCallBack, void *pData);
//const RpGeometry *RpGeometryForAllMeshes(const RpGeometry *geometry, RpMeshCallBack fpCallBack, void *pData);
RwInt32 RpGeometryRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RpGeometryRegisterPluginStream(RwUInt32 pluginID, RwPluginDataChunkReadCallBack readCB, RwPluginDataChunkWriteCallBack writeCB, RwPluginDataChunkGetSizeCallBack getSizeCB);
RwInt32 RpGeometrySetStreamAlwaysCallBack(RwUInt32 pluginID, RwPluginDataChunkAlwaysCallBack alwaysCB);
RwInt32 RpGeometryGetPluginOffset(RwUInt32 pluginID);
RwBool RpGeometryValidatePlugins(const RpGeometry *geometry);
RwUInt32 RpGeometryStreamGetSize(const RpGeometry *geometry);
const RpGeometry *RpGeometryStreamWrite(const RpGeometry *geometry, RwStream *stream);
RpGeometry *RpGeometryStreamRead(RwStream *stream);
//RpGeometryChunkInfo *_rpGeometryChunkInfoRead(RwStream *stream, RpGeometryChunkInfo *geometryChunkInfo, RwInt32 *bytesRead);
RwUInt32 RpGeometryGetFlags(const RpGeometry *geometry);
RpGeometry *RpGeometrySetFlags(RpGeometry *geometry, RwUInt32 flags);
const RwSurfaceProperties *_rpGeometryGetSurfaceProperties(const RpGeometry *geometry);
RpGeometry *_rpGeometrySetSurfaceProperties(RpGeometry *geometry, const RwSurfaceProperties *surfaceProperties);
/*
***********************************************
*
* RpAtomic and RpClump
*
***********************************************
*/
//struct RpAtomic;
typedef rw::Atomic RpAtomic;
enum RpAtomicFlag
{
rpATOMICCOLLISIONTEST = 0x01,
rpATOMICRENDER = 0x04,
};
enum RpAtomicSetGeomFlag
{
rpATOMICSAMEBOUNDINGSPHERE = 0x01,
};
typedef RpAtomic *(*RpAtomicCallBack) (RpAtomic * atomic, void *data);
typedef RpAtomic *(*RpAtomicCallBackRender) (RpAtomic * atomic);
//struct RpClump;
typedef rw::Clump RpClump;
struct RpClumpChunkInfo
{
RwInt32 numAtomics;
RwInt32 numLights;
RwInt32 numCameras;
};
typedef RpClump *(*RpClumpCallBack) (RpClump * clump, void *data);
RpAtomic *AtomicDefaultRenderCallBack(RpAtomic * atomic);
//void _rpAtomicResyncInterpolatedSphere(RpAtomic * atomic);
//const RwSphere *RpAtomicGetWorldBoundingSphere(RpAtomic * atomic);
RwFrame *RpClumpGetFrame(const RpClump * clump);
RpClump *RpClumpSetFrame(RpClump * clump, RwFrame * frame);
RpClump *RpClumpForAllAtomics(RpClump * clump, RpAtomicCallBack callback, void *pData);
RpClump *RpClumpForAllLights(RpClump * clump, RpLightCallBack callback, void *pData);
RpClump *RpClumpForAllCameras(RpClump * clump, RwCameraCallBack callback, void *pData);
RpClump *RpClumpCreateSpace(const RwV3d * position, RwReal radius);
RpClump *RpClumpRender(RpClump * clump);
RpClump *RpClumpRemoveAtomic(RpClump * clump, RpAtomic * atomic);
RpClump *RpClumpAddAtomic(RpClump * clump, RpAtomic * atomic);
RpClump *RpClumpRemoveLight(RpClump * clump, RpLight * light);
RpClump *RpClumpAddLight(RpClump * clump, RpLight * light);
RpClump *RpClumpRemoveCamera(RpClump * clump, RwCamera * camera);
RpClump *RpClumpAddCamera(RpClump * clump, RwCamera * camera);
RwBool RpClumpDestroy(RpClump * clump);
RpClump *RpClumpCreate(void);
RpClump *RpClumpClone(RpClump * clump);
RpClump *RpClumpSetCallBack(RpClump * clump, RpClumpCallBack callback);
RpClumpCallBack RpClumpGetCallBack(const RpClump * clump);
RwInt32 RpClumpGetNumAtomics(RpClump * clump);
RwInt32 RpClumpGetNumLights(RpClump * clump);
RwInt32 RpClumpGetNumCameras(RpClump * clump);
RwUInt32 RpClumpStreamGetSize(RpClump * clump);
RpClump *RpClumpStreamRead(RwStream * stream);
RpClump *RpClumpStreamWrite(RpClump * clump, RwStream * stream);
RwInt32 RpClumpRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RpClumpRegisterPluginStream(RwUInt32 pluginID, RwPluginDataChunkReadCallBack readCB, RwPluginDataChunkWriteCallBack writeCB, RwPluginDataChunkGetSizeCallBack getSizeCB);
RwInt32 RpClumpSetStreamAlwaysCallBack(RwUInt32 pluginID, RwPluginDataChunkAlwaysCallBack alwaysCB);
RwInt32 RpClumpGetPluginOffset(RwUInt32 pluginID);
RwBool RpClumpValidatePlugins(const RpClump * clump);
RpAtomic *RpAtomicCreate(void);
RwBool RpAtomicDestroy(RpAtomic * atomic);
RpAtomic *RpAtomicClone(RpAtomic * atomic);
RpAtomic *RpAtomicSetFrame(RpAtomic * atomic, RwFrame * frame);
RpAtomic *RpAtomicSetGeometry(RpAtomic * atomic, RpGeometry * geometry, RwUInt32 flags);
RwFrame *RpAtomicGetFrame(const RpAtomic * atomic);
RpAtomic *RpAtomicSetFlags(RpAtomic * atomic, RwUInt32 flags);
RwUInt32 RpAtomicGetFlags(const RpAtomic * atomic);
RwSphere *RpAtomicGetBoundingSphere(RpAtomic * atomic);
RpAtomic *RpAtomicRender(RpAtomic * atomic);
RpClump *RpAtomicGetClump(const RpAtomic * atomic);
//RpInterpolator *RpAtomicGetInterpolator(RpAtomic * atomic);
RpGeometry *RpAtomicGetGeometry(const RpAtomic * atomic);
void RpAtomicSetRenderCallBack(RpAtomic * atomic, RpAtomicCallBackRender callback);
RpAtomicCallBackRender RpAtomicGetRenderCallBack(const RpAtomic * atomic);
RwBool RpAtomicInstance(RpAtomic *atomic);
RwUInt32 RpAtomicStreamGetSize(RpAtomic * atomic);
RpAtomic *RpAtomicStreamRead(RwStream * stream);
RpAtomic *RpAtomicStreamWrite(RpAtomic * atomic, RwStream * stream);
RwInt32 RpAtomicRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RpAtomicRegisterPluginStream(RwUInt32 pluginID, RwPluginDataChunkReadCallBack readCB, RwPluginDataChunkWriteCallBack writeCB, RwPluginDataChunkGetSizeCallBack getSizeCB);
RwInt32 RpAtomicSetStreamAlwaysCallBack(RwUInt32 pluginID, RwPluginDataChunkAlwaysCallBack alwaysCB);
RwInt32 RpAtomicSetStreamRightsCallBack(RwUInt32 pluginID, RwPluginDataChunkRightsCallBack rightsCB);
RwInt32 RpAtomicGetPluginOffset(RwUInt32 pluginID);
RwBool RpAtomicValidatePlugins(const RpAtomic * atomic);
//RwInt32 RpInterpolatorGetEndMorphTarget(const RpInterpolator * interpolator);
//RwInt32 RpInterpolatorGetStartMorphTarget(const RpInterpolator * interpolator);
//RwReal RpInterpolatorGetValue(const RpInterpolator * interpolator);
//RwReal RpInterpolatorGetScale(const RpInterpolator * interpolator);
//RpInterpolator *RpInterpolatorSetEndMorphTarget(RpInterpolator * interpolator, RwInt32 morphTarget, RpAtomic * atomic);
//RpInterpolator *RpInterpolatorSetStartMorphTarget(RpInterpolator * interpolator, RwInt32 morphTarget, RpAtomic * atomic);
//RpInterpolator *RpInterpolatorSetValue(RpInterpolator * interpolator, RwReal value, RpAtomic *atomic);
//RpInterpolator *RpInterpolatorSetScale(RpInterpolator * interpolator, RwReal scale, RpAtomic *atomic);
RpClump *RpLightGetClump(const RpLight *light);
RpClump *RwCameraGetClump(const RwCamera *camera);
/*
***********************************************
*
* RpWorld
*
***********************************************
*/
//struct RpWorld;
typedef rw::World RpWorld;
RwBool RpWorldDestroy(RpWorld * world);
RpWorld *RpWorldCreate(RwBBox * boundingBox);
RwBool RpWorldPluginAttach(void);
RpWorld *RpWorldRemoveCamera(RpWorld *world, RwCamera *camera);
RpWorld *RpWorldAddCamera(RpWorld *world, RwCamera *camera);
RpWorld *RwCameraGetWorld(const RwCamera *camera);
RpWorld *RpWorldRemoveAtomic(RpWorld *world, RpAtomic *atomic);
RpWorld *RpWorldAddAtomic(RpWorld *world, RpAtomic *atomic);
RpWorld *RpAtomicGetWorld(const RpAtomic *atomic);
RpWorld *RpWorldAddClump(RpWorld *world, RpClump *clump);
RpWorld *RpWorldRemoveClump(RpWorld *world, RpClump *clump);
RpWorld *RpClumpGetWorld(const RpClump *clump);
RpWorld *RpWorldAddLight(RpWorld *world, RpLight *light);
RpWorld *RpWorldRemoveLight(RpWorld *world, RpLight *light);
RpWorld *RpLightGetWorld(const RpLight *light);
RwCamera *RwCameraForAllClumpsInFrustum(RwCamera *camera, void *data);
RwCamera *RwCameraForAllClumpsNotInFrustum(RwCamera *camera, RwInt32 numClumps, void *data);
//RwCamera *RwCameraForAllSectorsInFrustum(RwCamera *camera, RpWorldSectorCallBack callBack, void *pData);
//RpLight *RpLightForAllWorldSectors(RpLight *light, RpWorldSectorCallBack callback, void *data);
//RpAtomic *RpAtomicForAllWorldSectors(RpAtomic *atomic, RpWorldSectorCallBack callback, void *data);
//RpWorldSector *RpWorldSectorForAllAtomics(RpWorldSector *sector, RpAtomicCallBack callback, void *data);
//RpWorldSector *RpWorldSectorForAllCollisionAtomics(RpWorldSector *sector, RpAtomicCallBack callback, void *data);
//RpWorldSector *RpWorldSectorForAllLights(RpWorldSector *sector, RpLightCallBack callback, void *data);

4
src/fakerw/rtbmp.h Normal file
View File

@ -0,0 +1,4 @@
#pragma once
RwImage *RtBMPImageWrite(RwImage * image, const RwChar * imageName);
RwImage *RtBMPImageRead(const RwChar * imageName);

413
src/fakerw/rwcore.h Normal file
View File

@ -0,0 +1,413 @@
#pragma once
#define RWCORE_H // needed by CVector
#include <rw.h>
#include <rwplcore.h>
/*
***********************************************
*
* RwIm2D and RwIm3D
*
***********************************************
*/
typedef rw::RWDEVICE::Im2DVertex RwIm2DVertex;
typedef rw::RWDEVICE::Im3DVertex RwIm3DVertex;
typedef RwUInt16 RwImVertexIndex;
enum RwIm3DTransformFlags
{
rwIM3D_VERTEXUV = 1,
rwIM3D_ALLOPAQUE = 2,
rwIM3D_NOCLIP = 4,
rwIM3D_VERTEXXYZ = 8,
rwIM3D_VERTEXRGBA = 16,
};
void RwIm2DVertexSetCameraX(RwIm2DVertex *vert, RwReal camx);
void RwIm2DVertexSetCameraY(RwIm2DVertex *vert, RwReal camy);
void RwIm2DVertexSetCameraZ(RwIm2DVertex *vert, RwReal camz);
void RwIm2DVertexSetRecipCameraZ(RwIm2DVertex *vert, RwReal recipz);
void RwIm2DVertexSetScreenX(RwIm2DVertex *vert, RwReal scrnx);
void RwIm2DVertexSetScreenY(RwIm2DVertex *vert, RwReal scrny);
void RwIm2DVertexSetScreenZ(RwIm2DVertex *vert, RwReal scrnz);
void RwIm2DVertexSetU(RwIm2DVertex *vert, RwReal texU, RwReal recipz);
void RwIm2DVertexSetV(RwIm2DVertex *vert, RwReal texV, RwReal recipz);
void RwIm2DVertexSetIntRGBA(RwIm2DVertex *vert, RwUInt8 red, RwUInt8 green, RwUInt8 blue, RwUInt8 alpha);
RwReal RwIm2DGetNearScreenZ(void);
RwReal RwIm2DGetFarScreenZ(void);
RwBool RwIm2DRenderLine(RwIm2DVertex *vertices, RwInt32 numVertices, RwInt32 vert1, RwInt32 vert2);
RwBool RwIm2DRenderTriangle(RwIm2DVertex *vertices, RwInt32 numVertices, RwInt32 vert1, RwInt32 vert2, RwInt32 vert3 );
RwBool RwIm2DRenderPrimitive(RwPrimitiveType primType, RwIm2DVertex *vertices, RwInt32 numVertices);
RwBool RwIm2DRenderIndexedPrimitive(RwPrimitiveType primType, RwIm2DVertex *vertices, RwInt32 numVertices, RwImVertexIndex *indices, RwInt32 numIndices);
void RwIm3DVertexSetPos(RwIm3DVertex *vert, RwReal x, RwReal y, RwReal z);
void RwIm3DVertexSetU(RwIm3DVertex *vert, RwReal u);
void RwIm3DVertexSetV(RwIm3DVertex *vert, RwReal v);
void RwIm3DVertexSetRGBA(RwIm3DVertex *vert, RwUInt8 r, RwUInt8 g, RwUInt8 b, RwUInt8 a);
void *RwIm3DTransform(RwIm3DVertex *pVerts, RwUInt32 numVerts, RwMatrix *ltm, RwUInt32 flags);
RwBool RwIm3DEnd(void);
RwBool RwIm3DRenderLine(RwInt32 vert1, RwInt32 vert2);
RwBool RwIm3DRenderTriangle(RwInt32 vert1, RwInt32 vert2, RwInt32 vert3);
RwBool RwIm3DRenderIndexedPrimitive(RwPrimitiveType primType, RwImVertexIndex *indices, RwInt32 numIndices);
RwBool RwIm3DRenderPrimitive(RwPrimitiveType primType);
/*
***********************************************
*
* RwRaster
*
***********************************************
*/
//struct RwRaster;
typedef rw::Raster RwRaster;
enum RwRasterType
{
rwRASTERTYPENORMAL = rw::Raster::NORMAL,
rwRASTERTYPEZBUFFER = rw::Raster::ZBUFFER,
rwRASTERTYPECAMERA = rw::Raster::CAMERA,
rwRASTERTYPETEXTURE = rw::Raster::TEXTURE,
rwRASTERTYPECAMERATEXTURE = rw::Raster::CAMERATEXTURE,
rwRASTERTYPEMASK = 0x07,
rwRASTERDONTALLOCATE = rw::Raster::DONTALLOCATE,
};
enum RwRasterFormat
{
rwRASTERFORMATDEFAULT = rw::Raster::DEFAULT,
rwRASTERFORMAT1555 = rw::Raster::C1555,
rwRASTERFORMAT565 = rw::Raster::C565,
rwRASTERFORMAT4444 = rw::Raster::C4444,
rwRASTERFORMATLUM8 = rw::Raster::LUM8,
rwRASTERFORMAT8888 = rw::Raster::C8888,
rwRASTERFORMAT888 = rw::Raster::C888,
rwRASTERFORMAT16 = rw::Raster::D16,
rwRASTERFORMAT24 = rw::Raster::D24,
rwRASTERFORMAT32 = rw::Raster::D32,
rwRASTERFORMAT555 = rw::Raster::C555,
rwRASTERFORMATAUTOMIPMAP = rw::Raster::AUTOMIPMAP,
rwRASTERFORMATPAL8 = rw::Raster::PAL8,
rwRASTERFORMATPAL4 = rw::Raster::PAL4,
rwRASTERFORMATMIPMAP = rw::Raster::MIPMAP,
rwRASTERFORMATPIXELFORMATMASK = 0x0f00,
rwRASTERFORMATMASK = 0xff00
};
enum RwRasterFlipMode
{
rwRASTERFLIPDONTWAIT = 0,
rwRASTERFLIPWAITVSYNC = 1,
};
RwRaster *RwRasterCreate(RwInt32 width, RwInt32 height, RwInt32 depth, RwInt32 flags);
RwBool RwRasterDestroy(RwRaster * raster);
RwInt32 RwRasterGetWidth(const RwRaster *raster);
RwInt32 RwRasterGetHeight(const RwRaster *raster);
RwInt32 RwRasterGetStride(const RwRaster *raster);
RwInt32 RwRasterGetDepth(const RwRaster *raster);
RwInt32 RwRasterGetFormat(const RwRaster *raster);
RwInt32 RwRasterGetType(const RwRaster *raster);
RwRaster *RwRasterGetParent(const RwRaster *raster);
RwRaster *RwRasterGetOffset(RwRaster *raster, RwInt16 *xOffset, RwInt16 *yOffset);
RwInt32 RwRasterGetNumLevels(RwRaster * raster);
RwRaster *RwRasterSubRaster(RwRaster * subRaster, RwRaster * raster, RwRect * rect);
RwRaster *RwRasterRenderFast(RwRaster * raster, RwInt32 x, RwInt32 y);
RwRaster *RwRasterRender(RwRaster * raster, RwInt32 x, RwInt32 y);
RwRaster *RwRasterRenderScaled(RwRaster * raster, RwRect * rect);
RwRaster *RwRasterPushContext(RwRaster * raster);
RwRaster *RwRasterPopContext(void);
RwRaster *RwRasterGetCurrentContext(void);
RwBool RwRasterClear(RwInt32 pixelValue);
RwBool RwRasterClearRect(RwRect * rpRect, RwInt32 pixelValue);
RwRaster *RwRasterShowRaster(RwRaster * raster, void *dev, RwUInt32 flags);
RwUInt8 *RwRasterLock(RwRaster * raster, RwUInt8 level, RwInt32 lockMode);
RwRaster *RwRasterUnlock(RwRaster * raster);
RwUInt8 *RwRasterLockPalette(RwRaster * raster, RwInt32 lockMode);
RwRaster *RwRasterUnlockPalette(RwRaster * raster);
RwInt32 RwRasterRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RwRasterGetPluginOffset(RwUInt32 pluginID);
RwBool RwRasterValidatePlugins(const RwRaster * raster);
/*
***********************************************
*
* RwImage
*
***********************************************
*/
//struct RwImage;
typedef rw::Image RwImage;
RwImage *RwImageCreate(RwInt32 width, RwInt32 height, RwInt32 depth);
RwBool RwImageDestroy(RwImage * image);
RwImage *RwImageAllocatePixels(RwImage * image);
RwImage *RwImageFreePixels(RwImage * image);
RwImage *RwImageCopy(RwImage * destImage, const RwImage * sourceImage);
RwImage *RwImageResize(RwImage * image, RwInt32 width, RwInt32 height);
RwImage *RwImageApplyMask(RwImage * image, const RwImage * mask);
RwImage *RwImageMakeMask(RwImage * image);
RwImage *RwImageReadMaskedImage(const RwChar * imageName, const RwChar * maskname);
RwImage *RwImageRead(const RwChar * imageName);
RwImage *RwImageWrite(RwImage * image, const RwChar * imageName);
RwChar *RwImageGetPath(void);
const RwChar *RwImageSetPath(const RwChar * path);
RwImage *RwImageSetStride(RwImage * image, RwInt32 stride);
RwImage *RwImageSetPixels(RwImage * image, RwUInt8 * pixels);
RwImage *RwImageSetPalette(RwImage * image, RwRGBA * palette);
RwInt32 RwImageGetWidth(const RwImage * image);
RwInt32 RwImageGetHeight(const RwImage * image);
RwInt32 RwImageGetDepth(const RwImage * image);
RwInt32 RwImageGetStride(const RwImage * image);
RwUInt8 *RwImageGetPixels(const RwImage * image);
RwRGBA *RwImageGetPalette(const RwImage * image);
RwUInt32 RwRGBAToPixel(RwRGBA * rgbIn, RwInt32 rasterFormat);
RwRGBA *RwRGBASetFromPixel(RwRGBA * rgbOut, RwUInt32 pixelValue, RwInt32 rasterFormat);
RwBool RwImageSetGamma(RwReal gammaValue);
RwReal RwImageGetGamma(void);
RwImage *RwImageGammaCorrect(RwImage * image);
RwRGBA *RwRGBAGammaCorrect(RwRGBA * rgb);
RwInt32 RwImageRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RwImageGetPluginOffset(RwUInt32 pluginID);
RwBool RwImageValidatePlugins(const RwImage * image);
//RwBool RwImageRegisterImageFormat(const RwChar * extension, RwImageCallBackRead imageRead, RwImageCallBackWrite imageWrite);
const RwChar *RwImageFindFileType(const RwChar * imageName);
RwInt32 RwImageStreamGetSize(const RwImage * image);
RwImage *RwImageStreamRead(RwStream * stream);
const RwImage *RwImageStreamWrite(const RwImage * image, RwStream * stream);
/*
***********************************************
*
* RwTexture
*
***********************************************
*/
//struct RwTexture;
typedef rw::Texture RwTexture;
//struct RwTexDictionary;
typedef rw::TexDictionary RwTexDictionary;
typedef RwTexture *(*RwTextureCallBackRead)(const RwChar *name, const RwChar *maskName);
typedef RwTexture *(*RwTextureCallBack)(RwTexture *texture, void *pData);
typedef RwTexDictionary *(*RwTexDictionaryCallBack)(RwTexDictionary *dict, void *data);
typedef RwRaster *(*RwTextureCallBackMipmapGeneration)(RwRaster * raster, RwImage * image);
typedef RwBool (*RwTextureCallBackMipmapName)(RwChar *name, RwChar *maskName, RwUInt8 mipLevel, RwInt32 format);
RwTexture *RwTextureCreate(RwRaster * raster);
RwBool RwTextureDestroy(RwTexture * texture);
RwTexture *RwTextureAddRef(RwTexture *texture);
RwBool RwTextureSetMipmapping(RwBool enable);
RwBool RwTextureGetMipmapping(void);
RwBool RwTextureSetAutoMipmapping(RwBool enable);
RwBool RwTextureGetAutoMipmapping(void);
RwBool RwTextureSetMipmapGenerationCallBack(RwTextureCallBackMipmapGeneration callback);
RwTextureCallBackMipmapGeneration RwTextureGetMipmapGenerationCallBack(void);
RwBool RwTextureSetMipmapNameCallBack(RwTextureCallBackMipmapName callback);
RwTextureCallBackMipmapName RwTextureGetMipmapNameCallBack(void);
RwBool RwTextureGenerateMipmapName(RwChar * name, RwChar * maskName, RwUInt8 mipLevel, RwInt32 format);
RwBool RwTextureRasterGenerateMipmaps(RwRaster * raster, RwImage * image);
RwTextureCallBackRead RwTextureGetReadCallBack(void);
RwBool RwTextureSetReadCallBack(RwTextureCallBackRead fpCallBack);
RwTexture *RwTextureSetName(RwTexture * texture, const RwChar * name);
RwTexture *RwTextureSetMaskName(RwTexture * texture, const RwChar * maskName);
RwChar *RwTextureGetName(RwTexture *texture);
RwChar *RwTextureGetMaskName(RwTexture *texture);
RwTexture *RwTextureSetRaster(RwTexture * texture, RwRaster * raster);
RwTexture *RwTextureRead(const RwChar * name, const RwChar * maskName);
RwRaster *RwTextureGetRaster(const RwTexture *texture);
RwInt32 RwTextureRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RwTextureGetPluginOffset(RwUInt32 pluginID);
RwBool RwTextureValidatePlugins(const RwTexture * texture);
RwTexDictionary *RwTextureGetDictionary(RwTexture *texture);
RwTexture *RwTextureSetFilterMode(RwTexture *texture, RwTextureFilterMode filtering);
RwTextureFilterMode RwTextureGetFilterMode(const RwTexture *texture);
RwTexture *RwTextureSetAddressing(RwTexture *texture, RwTextureAddressMode addressing);
RwTexture *RwTextureSetAddressingU(RwTexture *texture, RwTextureAddressMode addressing);
RwTexture *RwTextureSetAddressingV(RwTexture *texture, RwTextureAddressMode addressing);
RwTextureAddressMode RwTextureGetAddressing(const RwTexture *texture);
RwTextureAddressMode RwTextureGetAddressingU(const RwTexture *texture);
RwTextureAddressMode RwTextureGetAddressingV(const RwTexture *texture);
void _rwD3D8TexDictionaryEnableRasterFormatConversion(bool enable);
// hack for reading native textures
RwBool rwNativeTextureHackRead(RwStream *stream, RwTexture **tex, RwInt32 size);
RwTexDictionary *RwTexDictionaryCreate(void);
RwBool RwTexDictionaryDestroy(RwTexDictionary * dict);
RwTexture *RwTexDictionaryAddTexture(RwTexDictionary * dict, RwTexture * texture);
RwTexture *RwTexDictionaryRemoveTexture(RwTexture * texture);
RwTexture *RwTexDictionaryFindNamedTexture(RwTexDictionary * dict, const RwChar * name);
RwTexDictionary *RwTexDictionaryGetCurrent(void);
RwTexDictionary *RwTexDictionarySetCurrent(RwTexDictionary * dict);
const RwTexDictionary *RwTexDictionaryForAllTextures(const RwTexDictionary * dict, RwTextureCallBack fpCallBack, void *pData);
RwBool RwTexDictionaryForAllTexDictionaries(RwTexDictionaryCallBack fpCallBack, void *pData);
RwInt32 RwTexDictionaryRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RwTexDictionaryGetPluginOffset(RwUInt32 pluginID);
RwBool RwTexDictionaryValidatePlugins(const RwTexDictionary * dict);
RwUInt32 RwTexDictionaryStreamGetSize(const RwTexDictionary *texDict);
RwTexDictionary *RwTexDictionaryStreamRead(RwStream *stream);
const RwTexDictionary *RwTexDictionaryStreamWrite(const RwTexDictionary *texDict, RwStream *stream);
/* RwImage/RwRaster */
RwImage *RwImageSetFromRaster(RwImage *image, RwRaster *raster);
RwRaster *RwRasterSetFromImage(RwRaster *raster, RwImage *image);
RwRGBA *RwRGBAGetRasterPixel(RwRGBA *rgbOut, RwRaster *raster, RwInt32 x, RwInt32 y);
RwRaster *RwRasterRead(const RwChar *filename);
RwRaster *RwRasterReadMaskedRaster(const RwChar *filename, const RwChar *maskname);
RwImage *RwImageFindRasterFormat(RwImage *ipImage,RwInt32 nRasterType, RwInt32 *npWidth,RwInt32 *npHeight, RwInt32 *npDepth,RwInt32 *npFormat);
/*
***********************************************
*
* RwFrame
*
***********************************************
*/
//struct RwFrame;
typedef rw::Frame RwFrame;
typedef RwFrame *(*RwFrameCallBack)(RwFrame *frame, void *data);
RwFrame *RwFrameForAllObjects(RwFrame * frame, RwObjectCallBack callBack, void *data);
RwFrame *RwFrameTranslate(RwFrame * frame, const RwV3d * v, RwOpCombineType combine);
RwFrame *RwFrameRotate(RwFrame * frame, const RwV3d * axis, RwReal angle, RwOpCombineType combine);
RwFrame *RwFrameScale(RwFrame * frame, const RwV3d * v, RwOpCombineType combine);
RwFrame *RwFrameTransform(RwFrame * frame, const RwMatrix * m, RwOpCombineType combine);
RwFrame *RwFrameOrthoNormalize(RwFrame * frame);
RwFrame *RwFrameSetIdentity(RwFrame * frame);
RwFrame *RwFrameCloneHierarchy(RwFrame * root);
RwBool RwFrameDestroyHierarchy(RwFrame * frame);
RwFrame *RwFrameForAllChildren(RwFrame * frame, RwFrameCallBack callBack, void *data);
RwFrame *RwFrameRemoveChild(RwFrame * child);
RwFrame *RwFrameAddChild(RwFrame * parent, RwFrame * child);
RwFrame *RwFrameGetParent(const RwFrame * frame);
RwFrame *RwFrameGetRoot(const RwFrame * frame);
RwMatrix *RwFrameGetLTM(RwFrame * frame);
RwMatrix *RwFrameGetMatrix(RwFrame * frame);
RwFrame *RwFrameUpdateObjects(RwFrame * frame);
RwFrame *RwFrameCreate(void);
RwBool RwFrameInit(RwFrame *frame);
RwBool RwFrameDeInit(RwFrame *frame);
RwBool RwFrameDestroy(RwFrame * frame);
void _rwFrameInit(RwFrame *frame);
void _rwFrameDeInit(RwFrame *frame);
RwBool RwFrameDirty(const RwFrame * frame);
RwInt32 RwFrameCount(RwFrame * frame);
RwBool RwFrameSetStaticPluginsSize(RwInt32 size);
RwInt32 RwFrameRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RwFrameGetPluginOffset(RwUInt32 pluginID);
RwBool RwFrameValidatePlugins(const RwFrame * frame);
RwFrame *_rwFrameCloneAndLinkClones(RwFrame * root);
RwFrame *_rwFramePurgeClone(RwFrame *root);
RwInt32 RwFrameRegisterPluginStream(RwUInt32 pluginID, RwPluginDataChunkReadCallBack readCB, RwPluginDataChunkWriteCallBack writeCB, RwPluginDataChunkGetSizeCallBack getSizeCB);
RwInt32 RwFrameSetStreamAlwaysCallBack(RwUInt32 pluginID, RwPluginDataChunkAlwaysCallBack alwaysCB);
typedef rw::FrameList_ rwFrameList;
rwFrameList *rwFrameListInitialize(rwFrameList *frameList, RwFrame *frame);
RwBool rwFrameListFindFrame(const rwFrameList *frameList, const RwFrame *frame, RwInt32 *npIndex);
rwFrameList *rwFrameListDeinitialize(rwFrameList *frameList);
RwUInt32 rwFrameListStreamGetSize(const rwFrameList *frameList);
rwFrameList *rwFrameListStreamRead(RwStream *stream, rwFrameList *fl);
const rwFrameList *rwFrameListStreamWrite(const rwFrameList *frameList, RwStream *stream);
typedef rw::BBox RwBBox;
/*
***********************************************
*
* RwCamera
*
***********************************************
*/
//struct RwCamera;
typedef rw::Camera RwCamera;
typedef RwCamera *(*RwCameraCallBack)(RwCamera *camera, void *data);
enum RwCameraClearMode
{
rwCAMERACLEARIMAGE = 0x1,
rwCAMERACLEARZ = 0x2,
rwCAMERACLEARSTENCIL = 0x4
};
enum RwCameraProjection
{
rwNACAMERAPROJECTION = 0,
rwPERSPECTIVE = 1,
rwPARALLEL = 2
};
enum RwFrustumTestResult
{
rwSPHEREOUTSIDE = 0,
rwSPHEREBOUNDARY = 1,
rwSPHEREINSIDE = 2
};
RwCamera *RwCameraBeginUpdate(RwCamera * camera);
RwCamera *RwCameraEndUpdate(RwCamera * camera);
RwCamera *RwCameraClear(RwCamera * camera, RwRGBA * colour, RwInt32 clearMode);
RwCamera *RwCameraShowRaster(RwCamera * camera, void *pDev, RwUInt32 flags);
RwBool RwCameraDestroy(RwCamera * camera);
RwCamera *RwCameraCreate(void);
RwCamera *RwCameraClone(RwCamera * camera);
RwCamera *RwCameraSetViewOffset(RwCamera *camera, const RwV2d *offset);
RwCamera *RwCameraSetViewWindow(RwCamera *camera, const RwV2d *viewWindow);
RwCamera *RwCameraSetProjection(RwCamera *camera, RwCameraProjection projection);
RwCamera *RwCameraSetNearClipPlane(RwCamera *camera, RwReal nearClip);
RwCamera *RwCameraSetFarClipPlane(RwCamera *camera, RwReal farClip);
RwInt32 RwCameraRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor constructCB, RwPluginObjectDestructor destructCB, RwPluginObjectCopy copyCB);
RwInt32 RwCameraGetPluginOffset(RwUInt32 pluginID);
RwBool RwCameraValidatePlugins(const RwCamera * camera);
RwFrustumTestResult RwCameraFrustumTestSphere(const RwCamera * camera, const RwSphere * sphere);
const RwV2d *RwCameraGetViewOffset(const RwCamera *camera);
RwCamera *RwCameraSetRaster(RwCamera *camera, RwRaster *raster);
RwRaster *RwCameraGetRaster(const RwCamera *camera);
RwCamera *RwCameraSetZRaster(RwCamera *camera, RwRaster *zRaster);
RwRaster *RwCameraGetZRaster(const RwCamera *camera);
RwReal RwCameraGetNearClipPlane(const RwCamera *camera);
RwReal RwCameraGetFarClipPlane(const RwCamera *camera);
RwCamera *RwCameraSetFogDistance(RwCamera *camera, RwReal fogDistance);
RwReal RwCameraGetFogDistance(const RwCamera *camera);
RwCamera *RwCameraGetCurrentCamera(void);
RwCameraProjection RwCameraGetProjection(const RwCamera *camera);
const RwV2d *RwCameraGetViewWindow(const RwCamera *camera);
RwMatrix *RwCameraGetViewMatrix(RwCamera *camera);
RwCamera *RwCameraSetFrame(RwCamera *camera, RwFrame *frame);
RwFrame *RwCameraGetFrame(const RwCamera *camera);
/*
*
* D3D-engine specific stuff
*
*/
void RwD3D8EngineSetRefreshRate(RwUInt32 refreshRate);
RwBool RwD3D8DeviceSupportsDXTTexture(void);

498
src/fakerw/rwplcore.h Normal file
View File

@ -0,0 +1,498 @@
#pragma once
typedef rw::int8 RwInt8;
typedef rw::int16 RwInt16;
typedef rw::int32 RwInt32;
typedef rw::uint8 RwUInt8;
typedef rw::uint16 RwUInt16;
typedef rw::uint32 RwUInt32;
typedef rw::float32 RwReal;
typedef char RwChar;
typedef RwInt32 RwBool;
#define __RWUNUSED__
#ifndef FALSE
#define FALSE 0
#endif
#ifndef TRUE
#define TRUE !FALSE
#endif
// used for unicode
#define RWSTRING(x) x
typedef rw::V2d RwV2d;
typedef rw::V3d RwV3d;
typedef rw::Rect RwRect;
typedef rw::Sphere RwSphere;
enum RwTextureCoordinateIndex
{
rwNARWTEXTURECOORDINATEINDEX = 0,
rwTEXTURECOORDINATEINDEX0,
rwTEXTURECOORDINATEINDEX1,
rwTEXTURECOORDINATEINDEX2,
rwTEXTURECOORDINATEINDEX3,
rwTEXTURECOORDINATEINDEX4,
rwTEXTURECOORDINATEINDEX5,
rwTEXTURECOORDINATEINDEX6,
rwTEXTURECOORDINATEINDEX7,
};
typedef rw::TexCoords RwTexCoords;
typedef rw::SurfaceProperties RwSurfaceProperties;
#define RWRGBALONG(r,g,b,a) \
((RwUInt32) (((a) << 24) | ((r) << 16) | ((g) << 8) | (b)))
#define MAKECHUNKID(vendorID, chunkID) (((vendorID & 0xFFFFFF) << 8) | (chunkID & 0xFF))
enum RwCorePluginID
{
rwID_NAOBJECT = 0x00,
rwID_STRUCT = 0x01,
rwID_STRING = 0x02,
rwID_EXTENSION = 0x03,
rwID_CAMERA = 0x05,
rwID_TEXTURE = 0x06,
rwID_MATERIAL = 0x07,
rwID_MATLIST = 0x08,
rwID_ATOMICSECT = 0x09,
rwID_PLANESECT = 0x0A,
rwID_WORLD = 0x0B,
rwID_SPLINE = 0x0C,
rwID_MATRIX = 0x0D,
rwID_FRAMELIST = 0x0E,
rwID_GEOMETRY = 0x0F,
rwID_CLUMP = 0x10,
rwID_LIGHT = 0x12,
rwID_UNICODESTRING = 0x13,
rwID_ATOMIC = 0x14,
rwID_TEXTURENATIVE = 0x15,
rwID_TEXDICTIONARY = 0x16,
rwID_ANIMDATABASE = 0x17,
rwID_IMAGE = 0x18,
rwID_SKINANIMATION = 0x19,
rwID_GEOMETRYLIST = 0x1A,
rwID_HANIMANIMATION = 0x1B,
rwID_TEAM = 0x1C,
rwID_CROWD = 0x1D,
rwID_DMORPHANIMATION = 0x1E,
rwID_RIGHTTORENDER = 0x1f,
rwID_MTEFFECTNATIVE = 0x20,
rwID_MTEFFECTDICT = 0x21,
rwID_TEAMDICTIONARY = 0x22,
rwID_PITEXDICTIONARY = 0x23,
rwID_TOC = 0x24,
rwID_PRTSTDGLOBALDATA = 0x25,
/* Insert before MAX and increment MAX */
rwID_COREPLUGINIDMAX = 0x26,
};
/*
***********************************************
*
* RwObject
*
***********************************************
*/
//struct RwObject;
typedef rw::Object RwObject;
typedef RwObject *(*RwObjectCallBack)(RwObject *object, void *data);
RwUInt8 RwObjectGetType(const RwObject *obj);
#define rwsprintf sprintf
#define rwvsprintf vsprintf
#define rwstrcpy strcpy
#define rwstrncpy strncpy
#define rwstrcat strcat
#define rwstrncat strncat
#define rwstrrchr strrchr
#define rwstrchr strchr
#define rwstrstr strstr
#define rwstrcmp strcmp
#define rwstricmp stricmp
#define rwstrlen strlen
#define rwstrupr strupr
#define rwstrlwr strlwr
#define rwstrtok strtok
#define rwsscanf sscanf
/*
***********************************************
*
* Memory
*
***********************************************
*/
struct RwMemoryFunctions;
/*
{
void *(*rwmalloc)(size_t size);
void (*rwfree)(void *mem);
void *(*rwrealloc)(void *mem, size_t newSize);
void *(*rwcalloc)(size_t numObj, size_t sizeObj);
};
*/
void *RwMalloc(size_t size);
void RwFree(void *mem);
void *RwRealloc(void *mem, size_t newSize);
void *RwCalloc(size_t numObj, size_t sizeObj);
/*
***********************************************
*
* RwStream
*
***********************************************
*/
//struct RwStream;
typedef rw::Stream RwStream;
struct RwMemory
{
RwUInt8 *start;
RwUInt32 length;
};
enum RwStreamType
{
rwNASTREAM = 0,
rwSTREAMFILE,
rwSTREAMFILENAME,
rwSTREAMMEMORY,
rwSTREAMCUSTOM
};
enum RwStreamAccessType
{
rwNASTREAMACCESS = 0,
rwSTREAMREAD,
rwSTREAMWRITE,
rwSTREAMAPPEND
};
RwStream *RwStreamOpen(RwStreamType type, RwStreamAccessType accessType, const void *pData);
RwBool RwStreamClose(RwStream * stream, void *pData);
RwUInt32 RwStreamRead(RwStream * stream, void *buffer, RwUInt32 length);
RwStream *RwStreamWrite(RwStream * stream, const void *buffer, RwUInt32 length);
RwStream *RwStreamSkip(RwStream * stream, RwUInt32 offset);
/*
***********************************************
*
* Plugin Registry
*
***********************************************
*/
#define RWPLUGINOFFSET(_type, _base, _offset) \
((_type *)((RwUInt8 *)(_base) + (_offset)))
typedef RwStream *(*RwPluginDataChunkWriteCallBack)(RwStream *stream, RwInt32 binaryLength, const void *object, RwInt32 offsetInObject, RwInt32 sizeInObject);
typedef RwStream *(*RwPluginDataChunkReadCallBack)(RwStream *stream, RwInt32 binaryLength, void *object, RwInt32 offsetInObject, RwInt32 sizeInObject);
typedef RwInt32(*RwPluginDataChunkGetSizeCallBack)(const void *object, RwInt32 offsetInObject, RwInt32 sizeInObject);
typedef RwBool(*RwPluginDataChunkAlwaysCallBack)(void *object, RwInt32 offsetInObject, RwInt32 sizeInObject);
typedef RwBool(*RwPluginDataChunkRightsCallBack)(void *object, RwInt32 offsetInObject, RwInt32 sizeInObject, RwUInt32 extraData);
typedef void *(*RwPluginObjectConstructor)(void *object, RwInt32 offsetInObject, RwInt32 sizeInObject);
typedef void *(*RwPluginObjectCopy)(void *dstObject, const void *srcObject, RwInt32 offsetInObject, RwInt32 sizeInObject);
typedef void *(*RwPluginObjectDestructor)(void *object, RwInt32 offsetInObject, RwInt32 sizeInObject);
/*
***********************************************
*
* RwMatrix
*
***********************************************
*/
typedef rw::Matrix RwMatrix;
enum RwOpCombineType
{
rwCOMBINEREPLACE = rw::COMBINEREPLACE,
rwCOMBINEPRECONCAT = rw::COMBINEPRECONCAT,
rwCOMBINEPOSTCONCAT = rw::COMBINEPOSTCONCAT
};
enum RwMatrixType
{
rwMATRIXTYPENORMAL = rw::Matrix::TYPENORMAL,
rwMATRIXTYPEORTHOGANAL = rw::Matrix::TYPEORTHOGONAL,
rwMATRIXTYPEORTHONORMAL = rw::Matrix::TYPEORTHONORMAL,
rwMATRIXTYPEMASK = 0x00000003,
};
typedef rw::Matrix::Tolerance RwMatrixTolerance;
RwBool RwMatrixDestroy(RwMatrix *mpMat);
RwMatrix *RwMatrixCreate(void);
void RwMatrixCopy(RwMatrix * dstMatrix, const RwMatrix * srcMatrix);
void RwMatrixSetIdentity(RwMatrix * matrix);
RwMatrix *RwMatrixMultiply(RwMatrix * matrixOut, const RwMatrix * MatrixIn1, const RwMatrix * matrixIn2);
RwMatrix *RwMatrixTransform(RwMatrix * matrix, const RwMatrix * transform, RwOpCombineType combineOp);
RwMatrix *RwMatrixOrthoNormalize(RwMatrix * matrixOut, const RwMatrix * matrixIn);
RwMatrix *RwMatrixInvert(RwMatrix * matrixOut, const RwMatrix * matrixIn);
RwMatrix *RwMatrixScale(RwMatrix * matrix, const RwV3d * scale, RwOpCombineType combineOp);
RwMatrix *RwMatrixTranslate(RwMatrix * matrix, const RwV3d * translation, RwOpCombineType combineOp);
RwMatrix *RwMatrixRotate(RwMatrix * matrix, const RwV3d * axis, RwReal angle, RwOpCombineType combineOp);
RwMatrix *RwMatrixRotateOneMinusCosineSine(RwMatrix * matrix, const RwV3d * unitAxis, RwReal oneMinusCosine, RwReal sine, RwOpCombineType combineOp);
const RwMatrix *RwMatrixQueryRotate(const RwMatrix * matrix, RwV3d * unitAxis, RwReal * angle, RwV3d * center);
RwV3d *RwMatrixGetRight(RwMatrix * matrix);
RwV3d *RwMatrixGetUp(RwMatrix * matrix);
RwV3d *RwMatrixGetAt(RwMatrix * matrix);
RwV3d *RwMatrixGetPos(RwMatrix * matrix);
RwMatrix *RwMatrixUpdate(RwMatrix * matrix);
RwMatrix *RwMatrixOptimize(RwMatrix * matrix, const RwMatrixTolerance *tolerance);
/*
***********************************************
*
* RwRGBA
*
***********************************************
*/
typedef rw::RGBA RwRGBA;
typedef rw::RGBAf RwRGBAReal;
inline void RwRGBAAssign(RwRGBA *target, const RwRGBA *source) { *target = *source; }
RwReal RwV3dNormalize(RwV3d * out, const RwV3d * in);
RwReal RwV3dLength(const RwV3d * in);
RwReal RwV2dLength(const RwV2d * in);
RwReal RwV2dNormalize(RwV2d * out, const RwV2d * in);
void RwV2dAssign(RwV2d * out, const RwV2d * ina);
void RwV2dAdd(RwV2d * out, const RwV2d * ina, const RwV2d * inb);
void RwV2dLineNormal(RwV2d * out, const RwV2d * ina, const RwV2d * inb);
void RwV2dSub(RwV2d * out, const RwV2d * ina, const RwV2d * inb);
void RwV2dPerp(RwV2d * out, const RwV2d * in);
void RwV2dScale(RwV2d * out, const RwV2d * in, RwReal scalar);
RwReal RwV2dDotProduct(const RwV2d * ina, const RwV2d * inb);
void RwV3dAssign(RwV3d * out, const RwV3d * ina);
void RwV3dAdd(RwV3d * out, const RwV3d * ina, const RwV3d * inb);
void RwV3dSub(RwV3d * out, const RwV3d * ina, const RwV3d * inb);
void RwV3dScale(RwV3d * out, const RwV3d * in, RwReal scalar);
void RwV3dIncrementScaled(RwV3d * out, const RwV3d * in, RwReal scalar);
void RwV3dNegate(RwV3d * out, const RwV3d * in);
RwReal RwV3dDotProduct(const RwV3d * ina, const RwV3d * inb);
void RwV3dCrossProduct(RwV3d * out, const RwV3d * ina, const RwV3d * inb);
RwV3d *RwV3dTransformPoints(RwV3d * pointsOut, const RwV3d * pointsIn, RwInt32 numPoints, const RwMatrix * matrix);
RwV3d *RwV3dTransformVectors(RwV3d * vectorsOut, const RwV3d * vectorsIn, RwInt32 numPoints, const RwMatrix * matrix);
/*
***********************************************
*
* Render States
*
***********************************************
*/
// not librw because we don't support all of them (yet?) - mapping in wrapper functions
enum RwRenderState
{
rwRENDERSTATENARENDERSTATE = 0,
rwRENDERSTATETEXTURERASTER,
rwRENDERSTATETEXTUREADDRESS,
rwRENDERSTATETEXTUREADDRESSU,
rwRENDERSTATETEXTUREADDRESSV,
rwRENDERSTATETEXTUREPERSPECTIVE,
rwRENDERSTATEZTESTENABLE,
rwRENDERSTATESHADEMODE,
rwRENDERSTATEZWRITEENABLE,
rwRENDERSTATETEXTUREFILTER,
rwRENDERSTATESRCBLEND,
rwRENDERSTATEDESTBLEND,
rwRENDERSTATEVERTEXALPHAENABLE,
rwRENDERSTATEBORDERCOLOR,
rwRENDERSTATEFOGENABLE,
rwRENDERSTATEFOGCOLOR,
rwRENDERSTATEFOGTYPE,
rwRENDERSTATEFOGDENSITY,
rwRENDERSTATEFOGTABLE,
rwRENDERSTATEALPHAPRIMITIVEBUFFER,
rwRENDERSTATECULLMODE,
rwRENDERSTATESTENCILENABLE,
rwRENDERSTATESTENCILFAIL,
rwRENDERSTATESTENCILZFAIL,
rwRENDERSTATESTENCILPASS,
rwRENDERSTATESTENCILFUNCTION,
rwRENDERSTATESTENCILFUNCTIONREF,
rwRENDERSTATESTENCILFUNCTIONMASK,
rwRENDERSTATESTENCILFUNCTIONWRITEMASK
};
// not supported - we only do gouraud
enum RwShadeMode
{
rwSHADEMODENASHADEMODE = 0,
rwSHADEMODEFLAT,
rwSHADEMODEGOURAUD
};
enum RwBlendFunction
{
rwBLENDNABLEND = 0,
rwBLENDZERO = rw::BLENDZERO,
rwBLENDONE = rw::BLENDONE,
rwBLENDSRCCOLOR = rw::BLENDSRCCOLOR,
rwBLENDINVSRCCOLOR = rw::BLENDINVSRCCOLOR,
rwBLENDSRCALPHA = rw::BLENDSRCALPHA,
rwBLENDINVSRCALPHA = rw::BLENDINVSRCALPHA,
rwBLENDDESTALPHA = rw::BLENDDESTALPHA,
rwBLENDINVDESTALPHA = rw::BLENDINVDESTALPHA,
rwBLENDDESTCOLOR = rw::BLENDDESTCOLOR,
rwBLENDINVDESTCOLOR = rw::BLENDINVDESTCOLOR,
rwBLENDSRCALPHASAT = rw::BLENDSRCALPHASAT
};
// unsupported - we only need linear
enum RwFogType
{
rwFOGTYPENAFOGTYPE = 0,
rwFOGTYPELINEAR,
rwFOGTYPEEXPONENTIAL,
rwFOGTYPEEXPONENTIAL2
};
enum RwTextureFilterMode
{
rwFILTERNAFILTERMODE = 0,
rwFILTERNEAREST = rw::Texture::NEAREST,
rwFILTERLINEAR = rw::Texture::LINEAR,
rwFILTERMIPNEAREST = rw::Texture::MIPNEAREST,
rwFILTERMIPLINEAR = rw::Texture::MIPLINEAR,
rwFILTERLINEARMIPNEAREST = rw::Texture::LINEARMIPNEAREST,
rwFILTERLINEARMIPLINEAR = rw::Texture::LINEARMIPLINEAR
};
enum RwTextureAddressMode
{
rwTEXTUREADDRESSNATEXTUREADDRESS = 0,
rwTEXTUREADDRESSWRAP = rw::Texture::WRAP,
rwTEXTUREADDRESSMIRROR = rw::Texture::MIRROR,
rwTEXTUREADDRESSCLAMP = rw::Texture::CLAMP,
rwTEXTUREADDRESSBORDER = rw::Texture::BORDER
};
enum RwCullMode
{
rwCULLMODENACULLMODE = 0,
rwCULLMODECULLNONE = rw::CULLNONE,
rwCULLMODECULLBACK = rw::CULLBACK,
rwCULLMODECULLFRONT = rw::CULLFRONT
};
enum RwPrimitiveType
{
rwPRIMTYPENAPRIMTYPE = rw::PRIMTYPENONE,
rwPRIMTYPELINELIST = rw::PRIMTYPELINELIST,
rwPRIMTYPEPOLYLINE = rw::PRIMTYPEPOLYLINE,
rwPRIMTYPETRILIST = rw::PRIMTYPETRILIST,
rwPRIMTYPETRISTRIP = rw::PRIMTYPETRISTRIP,
rwPRIMTYPETRIFAN = rw::PRIMTYPETRIFAN,
rwPRIMTYPEPOINTLIST = rw::PRIMTYPEPOINTLIST
};
RwBool RwRenderStateGet(RwRenderState state, void *value);
RwBool RwRenderStateSet(RwRenderState state, void *value);
/*
***********************************************
*
* Engine
*
***********************************************
*/
struct RwEngineOpenParams
{
void *displayID;
};
typedef rw::SubSystemInfo RwSubSystemInfo;
enum RwVideoModeFlag
{
rwVIDEOMODEEXCLUSIVE = rw::VIDEOMODEEXCLUSIVE,
/*
rwVIDEOMODEINTERLACE = 0x2,
rwVIDEOMODEFFINTERLACE = 0x4,
rwVIDEOMODEFSAA0 = 0x8,
rwVIDEOMODEFSAA1 = 0x10
*/
};
typedef rw::VideoMode RwVideoMode;
#if 0
struct RwFileFunctions
{
rwFnFexist rwfexist; /**< Pointer to fexist function */
rwFnFopen rwfopen; /**< Pointer to fopen function */
rwFnFclose rwfclose; /**< Pointer to fclose function */
rwFnFread rwfread; /**< Pointer to fread function */
rwFnFwrite rwfwrite; /**< Pointer to fwrite function */
rwFnFgets rwfgets; /**< Pointer to fgets function */
rwFnFputs rwfputs; /**< Pointer to puts function */
rwFnFeof rwfeof; /**< Pointer to feof function */
rwFnFseek rwfseek; /**< Pointer to fseek function */
rwFnFflush rwfflush; /**< Pointer to fflush function */
rwFnFtell rwftell; /**< Pointer to ftell function */
};
RwFileFunctions *RwOsGetFileInterface(void);
#endif
RwBool RwEngineInit(RwMemoryFunctions *memFuncs, RwUInt32 initFlags, RwUInt32 resArenaSize);
RwInt32 RwEngineRegisterPlugin(RwInt32 size, RwUInt32 pluginID, RwPluginObjectConstructor initCB, RwPluginObjectDestructor termCB);
RwInt32 RwEngineGetPluginOffset(RwUInt32 pluginID);
RwBool RwEngineOpen(RwEngineOpenParams *initParams);
RwBool RwEngineStart(void);
RwBool RwEngineStop(void);
RwBool RwEngineClose(void);
RwBool RwEngineTerm(void);
RwInt32 RwEngineGetNumSubSystems(void);
RwSubSystemInfo *RwEngineGetSubSystemInfo(RwSubSystemInfo *subSystemInfo, RwInt32 subSystemIndex);
RwInt32 RwEngineGetCurrentSubSystem(void);
RwBool RwEngineSetSubSystem(RwInt32 subSystemIndex);
RwInt32 RwEngineGetNumVideoModes(void);
RwVideoMode *RwEngineGetVideoModeInfo(RwVideoMode *modeinfo, RwInt32 modeIndex);
RwInt32 RwEngineGetCurrentVideoMode(void);
RwBool RwEngineSetVideoMode(RwInt32 modeIndex);
RwInt32 RwEngineGetTextureMemorySize(void);
RwInt32 RwEngineGetMaxTextureSize(void);
/*
***********************************************
*
* Binary stream
*
***********************************************
*/
RwBool RwStreamFindChunk(RwStream *stream, RwUInt32 type, RwUInt32 *lengthOut, RwUInt32 *versionOut);

2
src/peds/Ped.cpp
View File

@ -2244,7 +2244,7 @@ CPed::BuildPedLists(void)
if (nThreatReactionRangeMultiplier * 30.0f > dist) {
gapTempPedList[gnNumTempPedList] = ped;
gnNumTempPedList++;
assert(gnNumTempPedList < ARRAYSIZE(gapTempPedList));
assert(gnNumTempPedList < ARRAY_SIZE(gapTempPedList));
}
}
}

1
src/render/Console.cpp
View File

@ -1,4 +1,5 @@
#include "common.h"
#include <stdarg.h>
#include "patcher.h"
#include "Console.h"
#include "Font.h"

1
src/render/Shadows.h
View File

@ -6,7 +6,6 @@
#define MAX_PERMAMENTSHADOWS 48
struct RwTexture;
class CEntity;
enum eShadowType

2
src/render/Weather.cpp
View File

@ -126,7 +126,7 @@ void CWeather::Update(void)
if (ForcedWeatherType >= 0)
NewWeatherType = ForcedWeatherType;
else {
WeatherTypeInList = (WeatherTypeInList + 1) % ARRAYSIZE(WeatherTypesList);
WeatherTypeInList = (WeatherTypeInList + 1) % ARRAY_SIZE(WeatherTypesList);
NewWeatherType = WeatherTypesList[WeatherTypeInList];
#ifdef FIX_BUGS
}

6
src/rw/ClumpRead.cpp
View File

@ -153,7 +153,7 @@ RpClumpGtaStreamRead1(RwStream *stream)
if(!RwStreamFindChunk(stream, rwID_FRAMELIST, nil, &version))
return false;
if(_rwFrameListStreamRead(stream, &gFrameList) == nil)
if(rwFrameListStreamRead(stream, &gFrameList) == nil)
return false;
if(!RwStreamFindChunk(stream, rwID_GEOMETRYLIST, nil, &version)){
@ -164,7 +164,7 @@ RpClumpGtaStreamRead1(RwStream *stream)
rwFrameListDeinitialize(&gFrameList);
return false;
}
streamPosition = stream->Type.memory.position;
streamPosition = STREAMPOS(stream);
return true;
}
@ -180,7 +180,7 @@ RpClumpGtaStreamRead2(RwStream *stream)
if(clump == nil)
return nil;
RwStreamSkip(stream, streamPosition - stream->Type.memory.position);
RwStreamSkip(stream, streamPosition - STREAMPOS(stream));
if(GeometryListStreamRead2(stream, &gGeomList) == nil){
GeometryListDeinitialize(&gGeomList);

4
src/rw/RwHelper.cpp
View File

@ -90,9 +90,13 @@ DefinedState(void)
RwRenderStateSet(rwRENDERSTATEFOGTYPE, (void*)rwFOGTYPELINEAR);
RwRenderStateSet(rwRENDERSTATECULLMODE, (void*)rwCULLMODECULLNONE);
#ifdef LIBRW
#pragma message (" TODO: alphatest func")
#else
// D3D stuff
RwD3D8SetRenderState(D3DRS_ALPHAFUNC, D3DCMP_GREATER);
RwD3D8SetRenderState(D3DRS_ALPHAREF, 2);
#endif
}
RwFrame*

4
src/rw/RwMatFX.cpp
View File

@ -1,3 +1,5 @@
#ifndef LIBRW
#define WITHD3D
#include "common.h"
#include "patcher.h"
@ -224,3 +226,5 @@ STARTPATCHES
ENDPATCHES
#endif
#endif

25
src/rw/TexRead.cpp
View File

@ -25,6 +25,12 @@
float &texLoadTime = *(float*)0x8F1B50;
int32 &texNumLoaded = *(int32*)0x8F252C;
#ifdef LIBRW
#define READNATIVE(stream, tex, size) rwNativeTextureHackRead(stream, tex, size)
#else
#define READNATIVE(stream, tex, size) RWSRCGLOBAL(stdFunc[rwSTANDARDNATIVETEXTUREREAD](stream, tex, size))
#endif
RwTexture*
RwTextureGtaStreamRead(RwStream *stream)
{
@ -36,7 +42,7 @@ RwTextureGtaStreamRead(RwStream *stream)
float preloadTime = (float)CTimer::GetCurrentTimeInCycles() / (float)CTimer::GetCyclesPerMillisecond();
if(!RWSRCGLOBAL(stdFunc[rwSTANDARDNATIVETEXTUREREAD](stream, &tex, size)))
if(!READNATIVE(stream, &tex, size))
return nil;
if (gGameState == GS_INIT_PLAYING_GAME) {
@ -121,7 +127,7 @@ RwTexDictionaryGtaStreamRead1(RwStream *stream)
}
numberTextures = numTextures;
streamPosition = stream->Type.memory.position;
streamPosition = STREAMPOS(stream);
return texDict;
}
@ -131,7 +137,7 @@ RwTexDictionaryGtaStreamRead2(RwStream *stream, RwTexDictionary *texDict)
{
RwTexture *tex;
RwStreamSkip(stream, streamPosition - stream->Type.memory.position);
RwStreamSkip(stream, streamPosition - STREAMPOS(stream));
while(numberTextures--){
tex = RwTextureGtaStreamRead(stream);
@ -251,6 +257,12 @@ DealWithTxdWriteError(uint32 num, uint32 count, const char *text)
RsGlobal.quit = true;
}
#ifdef LIBRW
#define STREAMTELL(str) str->tell()
#else
#define STREAMTELL(str) filesys->rwftell((str)->Type.file.fpFile)
#endif
bool
CreateTxdImageForVideoCard()
{
@ -260,7 +272,9 @@ CreateTxdImageForVideoCard()
CStreaming::FlushRequestList();
#ifndef LIBRW
RwFileFunctions *filesys = RwOsGetFileInterface();
#endif
RwStream *img = RwStreamOpen(rwSTREAMFILENAME, rwSTREAMWRITE, "models\\txd.img");
if (img == nil) {
@ -287,7 +301,8 @@ CreateTxdImageForVideoCard()
sprintf(filename, "%s.txd", CTxdStore::GetTxdName(i));
if (CTxdStore::GetSlot(i)->texDict) {
int32 pos = filesys->rwftell(img->Type.file.fpFile);
int32 pos = STREAMTELL(img);
if (RwTexDictionaryStreamWrite(CTxdStore::GetSlot(i)->texDict, img) == nil) {
DealWithTxdWriteError(i, TXDSTORESIZE, "CVT_ERR");
@ -298,7 +313,7 @@ CreateTxdImageForVideoCard()
return false;
}
int32 size = filesys->rwftell(img->Type.file.fpFile) - pos;
int32 size = STREAMTELL(img) - pos;
int32 num = size % CDSTREAM_SECTOR_SIZE;
size /= CDSTREAM_SECTOR_SIZE;

2
src/rw/rw.cpp
View File

@ -1,3 +1,4 @@
#ifndef LIBRW
#include "common.h"
#include "patcher.h"
#include "rwcore.h"
@ -836,4 +837,5 @@ InjectHook(0x5DF040, &RxNodeDefinitionGetLight, PATCH_JUMP);
InjectHook(0x5DF560, &RxNodeDefinitionGetPostLight, PATCH_JUMP);
InjectHook(0x5DFC60, &RxD3D8AllInOneSetRenderCallBack, PATCH_JUMP);
ENDPATCHES
#endif
#endif