Serious-Engine/Sources/Engine/Models/EditModel.h

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2016-03-11 14:57:17 +01:00
/* Copyright (c) 2002-2012 Croteam Ltd. All rights reserved. */
#ifndef SE_INCL_EDITMODEL_H
#define SE_INCL_EDITMODEL_H
#ifdef PRAGMA_ONCE
#pragma once
#endif
#include <Engine/Base/Lists.h>
#include <Engine/Base/CTString.h>
#include <Engine/Base/FileName.h>
#include <Engine/Math/Vector.h>
#include <Engine/Math/Object3D.h>
#include <Engine/Templates/StaticArray.h>
#include <Engine/Models/RenderModel.h>
#define MAX_MODELERTEXTURES 32
#define MAPPING_VERSION_WITHOUT_POLYGONS_PER_SURFACE "0001"
#define MAPPING_VERSION_WITHOUT_SOUNDS_AND_ATTACHMENTS "0002"
#define MAPPING_VERSION_WITHOUT_COLLISION "0003"
#define MAPPING_VERSION_WITHOUT_PATCHES "0004"
#define MAPPING_WITHOUT_SURFACE_COLORS "0005"
#define MAPPING_VERSION "0006"
class ENGINE_API CProgressRoutines
{
public:
CProgressRoutines();
void (*SetProgressMessage)( char *strMessage); // sets message for modeler's "new progress dialog"
void (*SetProgressRange)( INDEX iProgresSteps); // sets range of modeler's "new progress dialog"
void (*SetProgressState)( INDEX iCurrentStep); // sets current modeler's "new progress dialog" state
};
ENGINE_API extern CProgressRoutines ProgresRoutines;
class ENGINE_API CTextureDataInfo
{
public:
CListNode tdi_ListNode;
CTextureData *tdi_TextureData;
CTFileName tdi_FileName;
};
#define UNDO_VERTEX 0
#define UNDO_SURFACE 1
class ENGINE_API CMappingUndo
{
public:
CListNode mu_ListNode;
INDEX mu_Action;
ModelTextureVertex *mu_ClosestVertex;
FLOAT3D mu_UndoCoordinate;
INDEX mu_iCurrentMip;
INDEX mu_iCurrentSurface;
FLOAT mu_Zoom;
FLOAT3D mu_Center;
FLOAT3D mu_HPB;
};
class ENGINE_API CAttachedModel {
public:
BOOL am_bVisible;
CModelObject am_moAttachedModel; // used as smart pointer (holds file name of attachment), never rendered
CTString am_strName;
INDEX am_iAnimation;
CAttachedModel(void);
~CAttachedModel(void);
void SetModel_t(CTFileName fnModel);
void Read_t( CTStream *strFile); // throw char *
void Write_t( CTStream *strFile); // throw char *
void Clear(void); // clear the object.
};
class ENGINE_API CAttachedSound {
public:
BOOL as_bLooping;
BOOL as_bPlaying;
FLOAT as_fDelay;
CTFileName as_fnAttachedSound;
CAttachedSound(void);
void Read_t( CTStream *strFile); // throw char *
void Write_t( CTStream *strFile); // throw char *
void Clear(void) { as_fnAttachedSound = CTString("");};
};
class ENGINE_API CThumbnailSettings {
public:
BOOL ts_bSet;
CPlacement3D ts_plLightPlacement;
CPlacement3D ts_plModelPlacement;
FLOAT ts_fTargetDistance;
FLOAT3D ts_vTarget;
ANGLE3D ts_angViewerOrientation;
FLOAT ts_LightDistance;
COLOR ts_LightColor;
COLOR ts_colAmbientColor;
COLORREF ts_PaperColor;
COLORREF ts_InkColor;
BOOL ts_IsWinBcgTexture;
CTFileName ts_WinBcgTextureName;
CModelRenderPrefs ts_RenderPrefs;
CThumbnailSettings( void);
void Read_t( CTStream *strFile); // throw char *
void Write_t( CTStream *strFile); // throw char *
};
class ENGINE_API CEditModel : public CSerial
{
private:
void NewModel(CObject3D *pO3D); // creates new model, surface, vertice and polygon arrays
void AddMipModel(CObject3D *pO3D); // adds one mip model
// loads and converts model's animation data from script file
void LoadModelAnimationData_t( CTStream *pFile, const FLOATmatrix3D &mStretch); // throw char *
INDEX edm_iActiveCollisionBox; // collision box that is currently edited
public:
CEditModel(); // default contructor
~CEditModel(); // default destructor
CModelData edm_md; // edited model data
CDynamicArray<CAttachedModel> edm_aamAttachedModels;// array of attached models
CStaticArray<CAttachedSound> edm_aasAttachedSounds;// array of attached sounds
CThumbnailSettings edm_tsThumbnailSettings; // remembered parameters for taking thumbnail
CListHead edm_WorkingSkins; // list of file names and texture data objects
CListHead edm_UndoList; // list containing structures used for undo operation
CListHead edm_RedoList; // list containing structures used for redo operation
INDEX edm_Action; // type of last mapping change action (used by undo/redo)
CTFileName edm_fnSpecularTexture; // names of textures saved in ini file
CTFileName edm_fnReflectionTexture;
CTFileName edm_fnBumpTexture;
// create empty attaching sounds
void CreateEmptyAttachingSounds(void);
// creates default script file
void CreateScriptFile_t(CTFileName &fnFile); // throw char *
// creates mip-model and mapping default constructios after it loads data from script
void LoadFromScript_t(CTFileName &fnFileName); // throw char *
// recalculate mapping for surface after some polygon has been added to surface
void RecalculateSurfaceMapping( INDEX iMipModel, INDEX iSurface);
// functions for extracting texture vertex links for given mip model
void CalculateSurfaceCenterOffset( INDEX iCurrentMip, INDEX iSurface);
void RemapTextureVerticesForSurface(INDEX iMip, INDEX iSurface, BOOL bJustCount);
void RemapTextureVertices( INDEX iCurrentMip);
// calculates mapping from three special 3D objects
void CalculateUnwrappedMapping( CObject3D &o3dClosed, CObject3D &o3dOpened, CObject3D &o3dUnwrapped);
// calculates mapping for mip models (except for main mip)
void CalculateMappingForMips(void);
// updates animations
void UpdateAnimations_t(CTFileName &fnScriptName); // throw char *
// updates mip models configuration, looses their mapping !
void UpdateMipModels_t(CTFileName &fnScriptName); // throw char *
void CreateMipModels_t(CObject3D &objRestFrame, CObject3D &objMipSourceFrame,
INDEX iVertexRemoveRate, INDEX iSurfacePreservingFactor);
void DefaultMapping( INDEX iCurrentMip, INDEX iSurface=-1);// sets default mapping for given mip-model and surface (or all surfaces -1)
void CalculateMapping( INDEX iCurrentMip, INDEX iSurfaceNo); // calculate mapping coordinates
void CalculateMappingAll( INDEX iCurrentMip);
void DrawWireSurface( CDrawPort *pDP, INDEX iCurrentMip, INDEX iCurrentSurface,
FLOAT fMagnifyFactor, PIX offx, PIX offy, COLOR clrVisible, COLOR clrInvisible); // draws given surface in wire frame
void DrawFilledSurface( CDrawPort *pDP, INDEX iCurrentMip, INDEX iCurrentSurface,
FLOAT fMagnifyFactor, PIX offx, PIX offy, COLOR clrVisible, COLOR clrInvisible); // fills given surface with color
void PrintSurfaceNumbers( CDrawPort *pDP, CFontData *pFont, INDEX iCurrentMip,
FLOAT fMagnifyFactor, PIX offx, PIX offy, COLOR clrInk); // prints surface numbers
void ExportSurfaceNumbersAndNames( CTFileName fnFile);
void GetScreenSurfaceCenter( CDrawPort *pDP, INDEX iCurrentMip,
INDEX iCurrentSurface, FLOAT fMagnifyFactor, PIX offx, PIX offy,
PIX &XCenter, PIX &YCenter); // Calculates given surface's center point in view's window (in pixels)
FLOATaabbox3D CalculateSurfaceBBox( INDEX iCurrentMip, // used to calculate mapping coordinate's bbox
INDEX iSurfaceNo, FLOAT3D f3Position, FLOAT3D f3Angle, FLOAT fZoom);
void CalculateMapping(); // used to calculate mapping coordinates
BOOL ChangeSurfacePositionRelative( INDEX iCurrentMip, INDEX iCurrentSurface, FLOAT fDZoom,
FLOAT dX, FLOAT dY, PIX dTH, PIX dTV); // if it can, sets surface position with given offseted values
BOOL ChangeSurfacePositionAbsolute( INDEX iCurrentMip, INDEX iCurrentSurface,
FLOAT newZoom, FLOAT3D newCenter, FLOAT3D newAngle); // if it can, sets surface position to given values
void RememberSurfaceUndo( INDEX iCurrentMip, INDEX iCurrentSurface); // remember undo position
ModelTextureVertex *FindClosestMappingVertex( INDEX iCurrentMip, INDEX iCurrentSurface,
PIX ptx, PIX pty, FLOAT fMagnifyFactor, PIX offx, PIX offy);// finds closest point and returns it
void MoveVertex( ModelTextureVertex *pmtvClosestVertex, PIX dx, PIX dy, INDEX iCurrentMip, INDEX iCurrentSurface); // try new vertex position
void RememberVertexUndo( ModelTextureVertex *pmtvClosestVertex);// remember coordinate change into undo buffer
// add one texture to list of working textures
CTextureDataInfo *AddTexture_t(const CTFileName &fnFileName, const MEX mexWidth,
const MEX mexHeight); // throw char *
FLOAT3D GetSurfacePos(INDEX iCurrentMip, INDEX iCurrentSurface); // Retrieves given surface's position
FLOAT3D GetSurfaceAngles(INDEX iCurrentMip, INDEX iCurrentSurface); // Retrieves given surface's angles
FLOAT GetSurfaceZoom(INDEX iCurrentMip, INDEX iCurrentSurface); // Retrieves given surface's zoom factor
const char *GetSurfaceName(INDEX iCurrentMip, INDEX iCurrentSurface); // Retrieves given surface's name
void Undo(void); // Undoes last operation
void Redo(void); // Redoes last operation
void RemoveTexture(char *pFileName); // removes one of working textures in modeler app
void MovePatchRelative( INDEX iMaskBit, MEX2D mexOffset);
void SetPatchStretch( INDEX iMaskBit, FLOAT fNewStretch);
BOOL EditAddPatch( CTFileName fnPatchName, MEX2D mexPos, INDEX &iMaskBit); // Adds one patch
void EditRemovePatch( INDEX iMaskBit); // Removes given patch
void EditRemoveAllPatches( void);
INDEX CountPatches(void);
ULONG GetExistingPatchesMask(void);
BOOL GetFirstEmptyPatchIndex( INDEX &iMaskBit); // Finds first empty space ready to recieve new patch
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BOOL GetFirstValidPatchIndex( INDEX &iMaskBit); // Finds first valid patch index
void GetPreviousValidPatchIndex( INDEX &iMaskBit);// Sets previous valid patch index
void GetNextValidPatchIndex( INDEX &iMaskBit); // Sets next valid patch index
void CalculatePatchesPerPolygon(void);
INDEX GetMipCt(){ return edm_md.md_MipCt;}; // Returns number of mip models
MEX GetWidth(){ return edm_md.md_Width;}; // Returns allowed width for model's texture
MEX GetHeight(){ return edm_md.md_Height;}; // Returns allowed height for model's texture
// collision box handling functions
FLOAT3D &GetCollisionBoxMin(void);
FLOAT3D &GetCollisionBoxMax(void);
void AddCollisionBox(void);
void DeleteCurrentCollisionBox(void);
INDEX GetActiveCollisionBoxIndex(void) { return edm_iActiveCollisionBox;};
void ActivatePreviousCollisionBox(void);
void ActivateNextCollisionBox(void);
void SetCollisionBox(FLOAT3D vMin, FLOAT3D vMax);
CTString GetCollisionBoxName(INDEX iCollisionBox);
CTString GetCollisionBoxName(void);
void SetCollisionBoxName(CTString strNewName);
void CorrectCollisionBoxSize(void);
// returns HEIGHT_EQ_WIDTH, LENGTH_EQ_WIDTH or LENGTH_EQ_HEIGHT
INDEX GetCollisionBoxDimensionEquality();
// set new collision box equality value
void SetCollisionBoxDimensionEquality( INDEX iNewDimEqType);
// overloaded load function
void Load_t( CTFileName fnFileName); // throw char *
// overloaded save function
void Save_t( CTFileName fnFileName); // throw char *
// exports .h file (#define ......)
void SaveIncludeFile_t( CTFileName fnFileName, CTString strDefinePrefix); // throw char *
// know how to load
void Read_t( CTStream *istrFile); // throw char *
// and save modeler data (i.e. vindow positions, view prefs, texture file names...)
void Write_t( CTStream *ostrFile); // throw char *
// load and save mapping data for whole model (iMip = -1) or just for one mip model
void LoadMapping_t( CTFileName fnFileName, INDEX iMip = -1);
void SaveMapping_t( CTFileName fnFileName, INDEX iMip = -1);
// read and write settings for given mip
void ReadMipSettings_t( CTStream *istrFile, INDEX iMip); // throw char *
void WriteMipSettings_t( CTStream *ostrFile, INDEX iMip);
};
#endif /* include-once check. */