isle/LEGO1/tgl/tgl.h
2024-04-02 14:04:17 +02:00

371 lines
8.8 KiB
C++

#ifndef _tgl_h
#define _tgl_h
#include "tglvector.h"
#include <d3d.h>
#include <ddraw.h>
#include <windows.h>
namespace Tgl
{
enum ColorModel {
// Note: Not used in shipped game, no way to verify contents.
Ramp,
RGB
};
enum ShadingModel {
Wireframe,
UnlitFlat,
Flat,
Gouraud,
Phong
};
enum LightType {
Ambient,
Point,
Spot,
Directional,
ParallelPoint
};
enum ProjectionType {
Perspective,
Orthographic
};
enum TextureMappingMode {
Linear,
PerspectiveCorrect
};
// Not in the Tgl leak, inferred from the assembly
enum MaterialMode {
FromParent,
FromFrame,
FromMesh,
};
struct PaletteEntry {
unsigned char m_red;
unsigned char m_green;
unsigned char m_blue;
};
struct DeviceDirect3DCreateData {
IDirect3D2* m_pDirect3D;
IDirect3DDevice2* m_pDirect3DDevice;
};
struct DeviceDirectDrawCreateData {
const GUID* m_driverGUID;
HWND m_hWnd;
IDirectDraw* m_pDirectDraw;
IDirectDrawSurface* m_pFrontBuffer;
IDirectDrawSurface* m_pBackBuffer;
// These have possibly been removed in the shipped game
// (Put them back if we can verify when we find a callsite
// which constructs this type)
// IDirectDrawPalette* m_pPalette;
// int m_isFullScreen;
};
// Result type used for all methods in the Tgl API
enum Result {
Error = 0,
Success = 1
};
inline int Succeeded(Result result)
{
return (result == Success);
}
// Forward declarations
class Renderer;
class Object;
class Device;
class View;
class Light;
class Camera;
class Group;
class Mesh;
class Texture;
class MeshBuilder;
// VTABLE: LEGO1 0x100db980
class Object {
public:
// FUNCTION: LEGO1 0x100a2240
virtual ~Object() {}
virtual void* ImplementationDataPtr() = 0;
// SYNTHETIC: LEGO1 0x100a2250
// Tgl::Object::`scalar deleting destructor'
};
// VTABLE: LEGO1 0x100db948
class Renderer : public Object {
public:
// vtable+0x08
virtual Device* CreateDevice(const DeviceDirectDrawCreateData&) = 0;
virtual Device* CreateDevice(const DeviceDirect3DCreateData&) = 0;
// vtable+0x10
virtual View* CreateView(
const Device*,
const Camera*,
unsigned long x,
unsigned long y,
unsigned long width,
unsigned long height
) = 0;
virtual Camera* CreateCamera() = 0;
virtual Light* CreateLight(LightType, float r, float g, float b) = 0;
virtual Group* CreateGroup(const Group* pParent = 0) = 0;
// vtable+0x20
virtual MeshBuilder* CreateMeshBuilder() = 0;
virtual Texture* CreateTexture(
int width,
int height,
int bitsPerTexel,
const void* pTexels,
int pTexelsArePersistent,
int paletteEntryCount,
const PaletteEntry* pEntries
) = 0;
virtual Texture* CreateTexture() = 0;
virtual Result SetTextureDefaultShadeCount(unsigned long) = 0;
// vtable+0x30
virtual Result SetTextureDefaultColorCount(unsigned long) = 0;
// SYNTHETIC: LEGO1 0x100a1770
// Tgl::Renderer::~Renderer
// SYNTHETIC: LEGO1 0x100a17c0
// Tgl::Renderer::`scalar deleting destructor'
};
Renderer* CreateRenderer();
// VTABLE: LEGO1 0x100db9b8
class Device : public Object {
public:
// vtable+0x08
virtual unsigned long GetWidth() = 0;
virtual unsigned long GetHeight() = 0;
// vtable+0x10
virtual Result SetColorModel(ColorModel) = 0;
virtual Result SetShadingModel(ShadingModel) = 0;
virtual Result SetShadeCount(unsigned long) = 0;
virtual Result SetDither(int) = 0;
// vtable+0x20
virtual Result Update() = 0;
virtual void InitFromD3DDevice(Device*) = 0;
virtual void InitFromWindowsDevice(Device*) = 0;
// SYNTHETIC: LEGO1 0x100a2350
// Tgl::Device::~Device
// SYNTHETIC: LEGO1 0x100a28e0
// Tgl::Device::`scalar deleting destructor'
};
// VTABLE: LEGO1 0x100dba28
class View : public Object {
public:
virtual Result Add(const Light*) = 0;
virtual Result Remove(const Light*) = 0;
// vtable+0x10
virtual Result SetCamera(const Camera*) = 0;
virtual Result SetProjection(ProjectionType) = 0;
virtual Result SetFrustrum(float frontClippingDistance, float backClippingDistance, float degrees) = 0;
virtual Result SetBackgroundColor(float r, float g, float b) = 0;
// vtable+0x20
virtual Result GetBackgroundColor(float* r, float* g, float* b) = 0;
virtual Result Clear() = 0;
virtual Result Render(const Group*) = 0;
virtual Result ForceUpdate(unsigned long x, unsigned long y, unsigned long width, unsigned long height) = 0;
// vtable+0x30
virtual Result TransformWorldToScreen(const float world[3], float screen[4]) = 0;
virtual Result TransformScreenToWorld(const float screen[4], float world[3]) = 0;
// Pick():
// x, y:
// view coordinates
//
// ppGroupsToPickFrom:
// array of (Group*) in any order
// Groups to pick from
//
// groupsToPickFromCount:
// size of ppGroupsToPickFrom
//
// rppPickedGroups:
// output parameter
// array of (Group*) representing a Group hierarchy
// top-down order (element 0 is root/scene)
// caller must deallocate array
// ref count of each element (Group*) has not been increased
// an element will be 0, if a corresponding Group was not found in ppGroupsToPickFrom
//
// rPickedGroupCount:
// output parameter
// size of rppPickedGroups
virtual Result Pick(
unsigned long x,
unsigned long y,
const Group** ppGroupsToPickFrom,
int groupsToPickFromCount,
const Group**& rppPickedGroups,
int& rPickedGroupCount
) = 0;
// SYNTHETIC: LEGO1 0x100a2430
// Tgl::View::~View
// SYNTHETIC: LEGO1 0x100a2950
// Tgl::View::`scalar deleting destructor'
};
// VTABLE: LEGO1 0x100dbae8
class Camera : public Object {
public:
virtual Result SetTransformation(FloatMatrix4&) = 0;
// SYNTHETIC: LEGO1 0x100a25f0
// Tgl::Camera::~Camera
// SYNTHETIC: LEGO1 0x100a2a30
// Tgl::Camera::`scalar deleting destructor'
};
// VTABLE: LEGO1 0x100dbb08
class Light : public Object {
public:
virtual Result SetTransformation(FloatMatrix4&) = 0;
virtual Result SetColor(float r, float g, float b) = 0;
// SYNTHETIC: LEGO1 0x100a26d0
// Tgl::Light::~Light
// SYNTHETIC: LEGO1 0x100a2aa0
// Tgl::Light::`scalar deleting destructor'
};
// VTABLE: LEGO1 0x100dbbb0
class Mesh : public Object {
public:
// SYNTHETIC: LEGO1 0x100a3e10
// Tgl::Mesh::~Mesh
virtual Result SetColor(float r, float g, float b, float a) = 0;
virtual Result SetTexture(const Texture*) = 0;
virtual Result GetTexture(Texture*&) = 0;
virtual Result SetTextureMappingMode(TextureMappingMode) = 0;
virtual Result SetShadingModel(ShadingModel) = 0;
// Clone data in underlying group
virtual Mesh* DeepClone(MeshBuilder*) = 0;
// Just get another Group pointing to the same underlying data
virtual Mesh* ShallowClone(MeshBuilder*) = 0;
// SYNTHETIC: LEGO1 0x100a3e60
// Tgl::Mesh::`scalar deleting destructor'
};
// VTABLE: LEGO1 0x100dbaa0
class Group : public Object {
public:
virtual Result SetTransformation(FloatMatrix4&) = 0;
virtual Result SetColor(float r, float g, float b, float a) = 0;
virtual Result SetTexture(const Texture*) = 0;
virtual Result GetTexture(Texture*&) = 0;
virtual Result SetMaterialMode(MaterialMode) = 0;
virtual Result Add(const Group*) = 0;
virtual Result Add(const MeshBuilder*) = 0;
virtual Result Remove(const Group*) = 0;
virtual Result Remove(const MeshBuilder*) = 0;
virtual Result RemoveAll() = 0;
// This is TransformLocalToWorld in the leak, however it seems
// to have been replaced by something else in the shipped code.
virtual Result Unknown() = 0;
// SYNTHETIC: LEGO1 0x100a2510
// Tgl::Group::~Group
// SYNTHETIC: LEGO1 0x100a29c0
// Tgl::Group::`scalar deleting destructor'
};
// Don't know what this is. Seems like another Tgl object which
// was not in the leaked Tgl code. My suspicion is that it's
// some kind of builder class for creating meshes.
// VTABLE: LEGO1 0x100dbb30
class MeshBuilder : public Object {
public:
virtual Mesh* CreateMesh(
unsigned long faceCount,
unsigned long vertexCount,
float (*pPositions)[3],
float (*pNormals)[3],
float (*pTextureCoordinates)[2],
unsigned long (*pFaceIndices)[3],
unsigned long (*pTextureIndices)[3],
ShadingModel shadingModel
) = 0;
virtual Result GetBoundingBox(float min[3], float max[3]) const = 0;
virtual MeshBuilder* Clone() = 0;
// SYNTHETIC: LEGO1 0x100a27b0
// Tgl::MeshBuilder::~MeshBuilder
// SYNTHETIC: LEGO1 0x100a2b10
// Tgl::MeshBuilder::`scalar deleting destructor'
};
// VTABLE: LEGO1 0x100dbb68
class Texture : public Object {
public:
// vtable+0x08
virtual Result SetTexels(int width, int height, int bitsPerTexel, void* pTexels) = 0;
virtual void FillRowsOfTexture(int y, int height, void* pBuffer) = 0;
// vtable+0x10
virtual Result Changed(int texelsChanged, int paletteChanged) = 0;
virtual Result GetBufferAndPalette(
int* pWidth,
int* pHeight,
int* pDepth,
void** ppBuffer,
int* pPaletteSize,
PaletteEntry** ppPalette
) = 0;
virtual Result SetPalette(int entryCount, PaletteEntry* pEntries) = 0;
// SYNTHETIC: LEGO1 0x100a2890
// Tgl::Texture::~Texture
// SYNTHETIC: LEGO1 0x100a2b80
// Tgl::Texture::`scalar deleting destructor'
};
} // namespace Tgl
#endif /* _tgl_h */