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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <new>
#include "rwbase.h"
#include "rwerror.h"
#include "rwplg.h"
#include "rwpipeline.h"
#include "rwobjects.h"
#include "rwengine.h"
#include "ps2/rwps2.h"
#include "d3d/rwxbox.h"
#include "d3d/rwd3d.h"
#include "d3d/rwd3d8.h"
#include "d3d/rwd3d9.h"
#include "gl/rwgl3.h"
#include "gl/rwwdgl.h"
#define PLUGIN_ID 0
// on windows
//#ifdef DEBUG
//#include <crtdbg.h>
//#define free(p) _free_dbg(p, _NORMAL_BLOCK);
//#define malloc(sz) _malloc_dbg(sz, _NORMAL_BLOCK, __FILE__, __LINE__)
//#define realloc(p, sz) _realloc_dbg(p, sz, _NORMAL_BLOCK, __FILE__, __LINE__)
//#endif
namespace rw {
Engine *engine;
PluginList Engine::s_plglist(sizeof(Engine));
Engine::State Engine::state = Dead;
MemoryFunctions Engine::memfuncs;
PluginList Driver::s_plglist[NUM_PLATFORMS];
const char *allocLocation;
void *malloc_h(size_t sz, uint32 hint) { if(sz == 0) return nil; return malloc(sz); }
void *realloc_h(void *p, size_t sz, uint32 hint) { return realloc(p, sz); }
struct MemoryBlock
{
size_t sz;
uint32 hint;
void *origPtr;
const char *codeline;
LLLink inAllocList;
};
LinkList allocations;
size_t totalMemoryAllocated;
// We align managed memory blocks on a 16 byte boundary
#define ALIGN16(x) ((x) + 0xF & ~0xF)
void*
malloc_managed(size_t sz, uint32 hint)
{
void *origPtr;
uint8 *data;
MemoryBlock *mem;
if(sz == 0) return nil;
origPtr = malloc(sz + sizeof(MemoryBlock) + 15);
if(origPtr == nil)
return nil;
totalMemoryAllocated += sz;
data = (uint8*)origPtr;
data += sizeof(MemoryBlock);
data = (uint8*)ALIGN16((uintptr)data);
mem = (MemoryBlock*)(data-sizeof(MemoryBlock));
mem->sz = sz;
mem->hint = hint;
mem->origPtr = origPtr;
mem->codeline = allocLocation;
allocations.add(&mem->inAllocList);
return data;
}
void*
realloc_managed(void *p, size_t sz, uint32 hint)
{
void *origPtr;
MemoryBlock *mem;
uint32 offset;
if(p == nil)
return malloc_managed(sz, hint);
mem = (MemoryBlock*)((uint8*)p-sizeof(MemoryBlock));
offset = (uint8*)p - (uint8*)mem->origPtr;
mem->inAllocList.remove();
origPtr = realloc(mem->origPtr, sz + sizeof(MemoryBlock) + 15);
if(origPtr == nil){
allocations.add(&mem->inAllocList);
return nil;
}
p = (uint8*)origPtr + offset;
mem = (MemoryBlock*)((uint8*)p-sizeof(MemoryBlock));
totalMemoryAllocated -= mem->sz;
mem->sz = sz;
mem->hint = hint;
mem->origPtr = origPtr;
mem->codeline = allocLocation;
allocations.add(&mem->inAllocList);
totalMemoryAllocated += mem->sz;
return p;
}
void
free_managed(void *p)
{
MemoryBlock *mem;
if(p == nil)
return;
mem = (MemoryBlock*)((uint8*)p-sizeof(MemoryBlock));
mem->inAllocList.remove();
totalMemoryAllocated -= mem->sz;
free(mem->origPtr);
}
void
printleaks(void)
{
FORLIST(lnk, allocations){
MemoryBlock *mem = LLLinkGetData(lnk, MemoryBlock, inAllocList);
printf("sz %zu hint %X\n %s\n", mem->sz, mem->hint, mem->codeline);
}
}
// TODO: make the debug out configurable
void *mustmalloc_h(size_t sz, uint32 hint)
{
void *ret;
ret = Engine::memfuncs.rwmalloc(sz, hint);
if(ret || sz == 0)
return ret;
fprintf(stderr, "Error: out of memory\n");
exit(1);
return nil;
}
void *mustrealloc_h(void *p, size_t sz, uint32 hint)
{
void *ret;
ret = Engine::memfuncs.rwrealloc(p, sz, hint);
if(ret || sz == 0)
return ret;
fprintf(stderr, "Error: out of memory\n");
exit(1);
return nil;
}
char *strdup_LOC(const char *s, uint32 hint, const char *here) {
char *t;
size_t sz = strlen(s)+1;
t = (char*)malloc_LOC(sz, hint, here);
if(t)
memcpy(t, s, sz);
return t;
}
MemoryFunctions defaultMemfuncs = {
malloc_h,
realloc_h,
free,
nil,
nil
};
MemoryFunctions managedMemfuncs = {
malloc_managed,
realloc_managed,
free_managed,
nil,
nil
};
// This function mainly registers engine plugins
bool32
Engine::init(MemoryFunctions *memfuncs)
{
if(engine || Engine::state != Dead){
RWERROR((ERR_ENGINEINIT));
return 0;
}
totalMemoryAllocated = 0;
allocations.init();
if(memfuncs)
Engine::memfuncs = *memfuncs;
else
Engine::memfuncs = defaultMemfuncs;
if(Engine::memfuncs.rwmustmalloc == nil)
Engine::memfuncs.rwmustmalloc = mustmalloc_h;
if(Engine::memfuncs.rwmustrealloc == nil)
Engine::memfuncs.rwmustrealloc = mustrealloc_h;
PluginList::open();
for(uint i = 0; i < NUM_PLATFORMS; i++)
new (&Driver::s_plglist[i]) PluginList(sizeof(Driver));
// core plugin attach here
Frame::registerModule();
Image::registerModule();
Raster::registerModule();
Texture::registerModule();
// TODO: reset all allocation counts here. or maybe do that in modules?
Frame::numAllocated = 0;
Image::numAllocated = 0;
Raster::numAllocated = 0;
Texture::numAllocated = 0;
TexDictionary::numAllocated = 0;
Geometry::numAllocated = 0;
Material::numAllocated = 0;
Atomic::numAllocated = 0;
Light::numAllocated = 0;
Camera::numAllocated = 0;
Clump::numAllocated = 0;
World::numAllocated = 0;
// driver plugin attach
ps2::registerPlatformPlugins();
xbox::registerPlatformPlugins();
d3d8::registerPlatformPlugins();
d3d9::registerPlatformPlugins();
wdgl::registerPlatformPlugins();
gl3::registerPlatformPlugins();
Engine::state = Initialized;
return 1;
}
// This is where RW allocates the engine and e.g. opens d3d
bool32
Engine::open(EngineOpenParams *p)
{
if(engine || Engine::state != Initialized){
RWERROR((ERR_ENGINEOPEN));
return 0;
}
// Allocate engine
engine = (Engine*)rwNew(Engine::s_plglist.size, MEMDUR_GLOBAL);
engine->currentCamera = nil;
engine->currentWorld = nil;
engine->filefuncs.rwfopen = (void *(*)(const char*, const char*))fopen;
engine->filefuncs.rwfclose = (int (*)(void*))fclose;
engine->filefuncs.rwfseek = (int (*)(void*, long, int))fseek;
engine->filefuncs.rwftell = (long (*)(void*))ftell;
engine->filefuncs.rwfread = (size_t (*)(void*, size_t, size_t, void*))fread;
engine->filefuncs.rwfwrite = (size_t (*)(const void*, size_t, size_t, void*))fwrite;
engine->filefuncs.rwfeof = (int (*)(void*))feof;
// Initialize device
// Device and possibly OS specific!
#ifdef RW_PS2
engine->device = ps2::renderdevice;
#elif RW_GL3
engine->device = gl3::renderdevice;
#elif RW_D3D9
engine->device = d3d::renderdevice;
#else
engine->device = null::renderdevice;
#endif
engine->device.system(DEVICEOPEN, (void*)p, 0);
engine->dummyDefaultPipeline = ObjPipeline::create();
for(uint i = 0; i < NUM_PLATFORMS; i++){
rw::engine->driver[i] = (Driver*)rwNew(Driver::s_plglist[i].size,
MEMDUR_GLOBAL);
engine->driver[i]->defaultPipeline = engine->dummyDefaultPipeline;
engine->driver[i]->rasterCreate = null::rasterCreate;
engine->driver[i]->rasterLock = null::rasterLock;
engine->driver[i]->rasterUnlock = null::rasterUnlock;
engine->driver[i]->rasterLockPalette = null::rasterLockPalette;
engine->driver[i]->rasterUnlockPalette = null::rasterUnlockPalette;
engine->driver[i]->rasterNumLevels = null::rasterNumLevels;
engine->driver[i]->imageFindRasterFormat = null::imageFindRasterFormat;
engine->driver[i]->rasterFromImage = null::rasterFromImage;
engine->driver[i]->rasterToImage = null::rasterToImage;
}
Engine::state = Opened;
return 1;
}
// This is where RW creates the actual rendering device
// and calls the engine plugin ctors
bool32
Engine::start(void)
{
if(engine == nil || Engine::state != Opened){
RWERROR((ERR_ENGINESTART));
return 0;
}
engine->device.system(DEVICEINIT, nil, 0);
Engine::s_plglist.construct(engine);
for(uint i = 0; i < NUM_PLATFORMS; i++)
Driver::s_plglist[i].construct(rw::engine->driver[i]);
engine->device.system(DEVICEFINALIZE, nil, 0);
// Register some image formats. Or should we leave that to the user?
Image::registerFileFormat("tga", readTGA, writeTGA);
Image::registerFileFormat("bmp", readBMP, writeBMP);
Image::registerFileFormat("png", readPNG, writePNG);
Engine::state = Started;
return 1;
}
void
Engine::term(void)
{
if(engine || Engine::state != Initialized){
RWERROR((ERR_GENERAL));
return;
}
PluginList::close();
// This has to be reset because it won't be opened again otherwise
// TODO: maybe reset more stuff here?
d3d::nativeRasterOffset = 0;
Engine::state = Dead;
}
void
Engine::close(void)
{
if(engine == nil || Engine::state != Opened){
RWERROR((ERR_GENERAL));
return;
}
engine->device.system(DEVICECLOSE, nil, 0);
for(uint i = 0; i < NUM_PLATFORMS; i++)
rwFree(rw::engine->driver[i]);
engine->dummyDefaultPipeline->destroy();
rwFree(engine);
engine = nil;
Engine::state = Initialized;
}
void
Engine::stop(void)
{
if(engine == nil || Engine::state != Started){
RWERROR((ERR_GENERAL));
return;
}
for(uint i = 0; i < NUM_PLATFORMS; i++)
Driver::s_plglist[i].destruct(rw::engine->driver[i]);
Engine::s_plglist.destruct(engine);
engine->device.system(DEVICETERM, nil, 0);
Engine::state = Opened;
}
int32
Engine::getNumSubSystems(void)
{
return engine->device.system(DEVICEGETNUMSUBSYSTEMS, nil, 0);
}
int32
Engine::getCurrentSubSystem(void)
{
return engine->device.system(DEVICEGETCURRENTSUBSYSTEM, nil, 0);
}
bool32
Engine::setSubSystem(int32 subsys)
{
return engine->device.system(DEVICESETSUBSYSTEM, nil, subsys);
}
SubSystemInfo*
Engine::getSubSystemInfo(SubSystemInfo *info, int32 subsys)
{
if(engine->device.system(DEVICEGETSUBSSYSTEMINFO, info, subsys))
return info;
return nil;
}
int32
Engine::getNumVideoModes(void)
{
return engine->device.system(DEVICEGETNUMVIDEOMODES, nil, 0);
}
int32
Engine::getCurrentVideoMode(void)
{
return engine->device.system(DEVICEGETCURRENTVIDEOMODE, nil, 0);
}
bool32
Engine::setVideoMode(int32 mode)
{
return engine->device.system(DEVICESETVIDEOMODE, nil, mode);
}
VideoMode*
Engine::getVideoModeInfo(VideoMode *info, int32 mode)
{
if(engine->device.system(DEVICEGETVIDEOMODEINFO, info, mode))
return info;
return nil;
}
uint32
Engine::getMaxMultiSamplingLevels(void)
{
return engine->device.system(DEVICEGETMAXMULTISAMPLINGLEVELS, nil, 0);
}
uint32
Engine::getMultiSamplingLevels(void)
{
return engine->device.system(DEVICEGETMULTISAMPLINGLEVELS, nil, 0);
}
bool32
Engine::setMultiSamplingLevels(uint32 levels)
{
return engine->device.system(DEVICESETMULTISAMPLINGLEVELS, nil, levels);
}
namespace null {
void beginUpdate(Camera*) { }
void endUpdate(Camera*) { }
void clearCamera(Camera*,RGBA*,uint32) { }
void showRaster(Raster*,uint32) { }
void setRenderState(int32, void*) { }
void *getRenderState(int32) { return 0; }
bool32 rasterRenderFast(Raster *raster, int32 x, int32 y) { return 0; }
void im2DRenderLine(void*, int32, int32, int32) { }
void im2DRenderTriangle(void*, int32, int32, int32, int32) { }
void im2DRenderPrimitive(PrimitiveType, void*, int32) { }
void im2DRenderIndexedPrimitive(PrimitiveType, void*, int32, void*, int32) { }
void im3DTransform(void *vertices, int32 numVertices, Matrix *world, uint32 flags) { }
void im3DRenderPrimitive(PrimitiveType primType) { }
void im3DRenderIndexedPrimitive(PrimitiveType primType, void *indices, int32 numIndices) { }
void im3DEnd(void) { }
Raster*
rasterCreate(Raster*)
{
assert(0 && "rasterCreate not implemented");
return nil;
}
uint8*
rasterLock(Raster*, int32, int32)
{
assert(0 && "lockRaster not implemented");
return nil;
}
void
rasterUnlock(Raster*, int32)
{
assert(0 && "unlockRaster not implemented");
}
uint8*
rasterLockPalette(Raster*, int32)
{
assert(0 && "rasterLockPalette not implemented");
return nil;
}
void
rasterUnlockPalette(Raster*)
{
assert(0 && "rasterUnlockPalette not implemented");
}
int32
rasterNumLevels(Raster*)
{
assert(0 && "rasterNumLevels not implemented");
return 0;
}
bool32
imageFindRasterFormat(Image *img, int32 type,
int32 *width, int32 *height, int32 *depth, int32 *format)
{
assert(0 && "imageFindRasterFormat not implemented");
return 0;
}
bool32
rasterFromImage(Raster*, Image*)
{
assert(0 && "rasterFromImage not implemented");
return 0;
}
Image*
rasterToImage(Raster*)
{
assert(0 && "rasterToImage not implemented");
return nil;
}
int
deviceSystem(DeviceReq req, void *arg0, int32 n)
{
switch(req){
case DEVICEGETNUMSUBSYSTEMS:
return 0;
case DEVICEGETCURRENTSUBSYSTEM:
return 0;
case DEVICEGETSUBSSYSTEMINFO:
return 0;
default: break;
}
return 1;
}
Device renderdevice = {
0.0f, 1.0f,
null::beginUpdate,
null::endUpdate,
null::clearCamera,
null::showRaster,
null::rasterRenderFast,
null::setRenderState,
null::getRenderState,
null::im2DRenderLine,
null::im2DRenderTriangle,
null::im2DRenderPrimitive,
null::im2DRenderIndexedPrimitive,
null::im3DTransform,
null::im3DRenderPrimitive,
null::im3DRenderIndexedPrimitive,
null::im3DEnd,
null::deviceSystem
};
}
}
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