hl2_src-leak-2017/src/public/bsptreedata.h

//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose: 
//
// $Revision: $
// $NoKeywords: $
//
// The BSP tree leaf data system
//
//=============================================================================//

#include "tier0/platform.h"

#if !defined( BSPTREEDATA )
#define BSPTREEDATA
#ifdef _WIN32
#pragma once
#endif

//-----------------------------------------------------------------------------
// Forward declarations
//-----------------------------------------------------------------------------

class Vector;
struct Ray_t;


//-----------------------------------------------------------------------------
// Handle to an renderable in the client leaf system
//-----------------------------------------------------------------------------

typedef unsigned short BSPTreeDataHandle_t;

enum
{
	TREEDATA_INVALID_HANDLE = (BSPTreeDataHandle_t)~0
};


//-----------------------------------------------------------------------------
// Interface needed by tree data to do its job
// 
// Note that anything that has convex spatial regions with leaves identified
// by indices can implement the ISpatialQuery. All you have to do is to implement
// a class that can answer the 5 questions in the Query interface about the
// spatial subdivision. For example, a K-D tree or a BSP tree could implement
// this interface
//
//-----------------------------------------------------------------------------

abstract_class ISpatialLeafEnumerator
{
public:
	// call back with a leaf and a context
	// The context is completely user defined; it's passed into the enumeration
	// function of ISpatialQuery.
	// This gets called	by the enumeration methods with each leaf
	// that passes the test; return true to continue enumerating,
	// false to stop

	virtual bool EnumerateLeaf( int leaf, int context ) = 0;
};

abstract_class ISpatialQuery
{
public:
	// Returns the number of leaves
	virtual int LeafCount() const = 0;

	// Enumerates the leaves along a ray, box, etc.
	virtual bool EnumerateLeavesAtPoint( Vector const& pt, ISpatialLeafEnumerator* pEnum, int context ) = 0;
	virtual bool EnumerateLeavesInBox( Vector const& mins, Vector const& maxs, ISpatialLeafEnumerator* pEnum, int context ) = 0;
	virtual bool EnumerateLeavesInSphere( Vector const& center, float radius, ISpatialLeafEnumerator* pEnum, int context ) = 0;
	virtual bool EnumerateLeavesAlongRay( Ray_t const& ray, ISpatialLeafEnumerator* pEnum, int context ) = 0;
};


//-----------------------------------------------------------------------------
// Data associated with leaves.
//
// This is a parasitic class that attaches data to the leaves specified by the
// ISpatialQuery sent in to the initialization function. It can't exist without
// a spatial partition of some sort to hold onto.
//-----------------------------------------------------------------------------

abstract_class IBSPTreeDataEnumerator
{
public:
	// call back with a userId and a context
	virtual bool FASTCALL EnumerateElement( int userId, int context ) = 0;
};

abstract_class IBSPTreeData
{
public:
	// Add a virtual destructor so that the derived class destructors will
	// be called.
	virtual ~IBSPTreeData() {}

	// Initializes, shuts down
	virtual void Init( ISpatialQuery* pBSPTree ) = 0;
	virtual void Shutdown() = 0;

	// Adds and removes data from the leaf lists
	virtual BSPTreeDataHandle_t Insert( int userId, Vector const& mins, Vector const& maxs ) = 0;
	virtual void Remove( BSPTreeDataHandle_t handle ) = 0;

	// Call this when a element moves
	virtual void ElementMoved( BSPTreeDataHandle_t handle, Vector const& mins, Vector const& maxs ) = 0;

	// Enumerate elements in a particular leaf
	virtual bool EnumerateElementsInLeaf( int leaf, IBSPTreeDataEnumerator* pEnum, int context ) = 0;

	// Is the element in any leaves at all?
	virtual bool IsElementInTree( BSPTreeDataHandle_t handle ) const = 0;

	// NOTE: These methods call through to the functions in the attached
	// ISpatialQuery
	// For convenience, enumerates the leaves along a ray, box, etc.
	virtual bool EnumerateLeavesAtPoint( Vector const& pt, ISpatialLeafEnumerator* pEnum, int context ) = 0;
	virtual bool EnumerateLeavesInBox( Vector const& mins, Vector const& maxs, ISpatialLeafEnumerator* pEnum, int context ) = 0;
	virtual bool EnumerateLeavesInSphere( Vector const& center, float radius, ISpatialLeafEnumerator* pEnum, int context ) = 0;
	virtual bool EnumerateLeavesAlongRay( Ray_t const& ray, ISpatialLeafEnumerator* pEnum, int context ) = 0;
};

//-----------------------------------------------------------------------------
// Class factory
//-----------------------------------------------------------------------------

IBSPTreeData* CreateBSPTreeData();
void DestroyBSPTreeData( IBSPTreeData* pTreeData );


#endif	// BSPTREEDATA
import hl2_src from full.7z source: magnet:?xt=urn:btih:21DDA6847DDE983F2F8063739249D2D1D09A5DDA 2020-12-25 16:26:23 +01:00			`//========= Copyright Valve Corporation, All rights reserved. ============//`
			`//`
			`// Purpose:`
			`//`
			`// $Revision: $`
			`// $NoKeywords: $`
			`//`
			`// The BSP tree leaf data system`
			`//`
			`//=============================================================================//`

			`#include "tier0/platform.h"`

			`#if !defined( BSPTREEDATA )`
			`#define BSPTREEDATA`
			`#ifdef _WIN32`
			`#pragma once`
			`#endif`

			`//-----------------------------------------------------------------------------`
			`// Forward declarations`
			`//-----------------------------------------------------------------------------`

			`class Vector;`
			`struct Ray_t;`


			`//-----------------------------------------------------------------------------`
			`// Handle to an renderable in the client leaf system`
			`//-----------------------------------------------------------------------------`

			`typedef unsigned short BSPTreeDataHandle_t;`

			`enum`
			`{`
			`TREEDATA_INVALID_HANDLE = (BSPTreeDataHandle_t)~0`
			`};`


			`//-----------------------------------------------------------------------------`
			`// Interface needed by tree data to do its job`
			`//`
			`// Note that anything that has convex spatial regions with leaves identified`
			`// by indices can implement the ISpatialQuery. All you have to do is to implement`
			`// a class that can answer the 5 questions in the Query interface about the`
			`// spatial subdivision. For example, a K-D tree or a BSP tree could implement`
			`// this interface`
			`//`
			`//-----------------------------------------------------------------------------`

			`abstract_class ISpatialLeafEnumerator`
			`{`
			`public:`
			`// call back with a leaf and a context`
			`// The context is completely user defined; it's passed into the enumeration`
			`// function of ISpatialQuery.`
			`// This gets called by the enumeration methods with each leaf`
			`// that passes the test; return true to continue enumerating,`
			`// false to stop`

			`virtual bool EnumerateLeaf( int leaf, int context ) = 0;`
			`};`

			`abstract_class ISpatialQuery`
			`{`
			`public:`
			`// Returns the number of leaves`
			`virtual int LeafCount() const = 0;`

			`// Enumerates the leaves along a ray, box, etc.`
			`virtual bool EnumerateLeavesAtPoint( Vector const& pt, ISpatialLeafEnumerator* pEnum, int context ) = 0;`
			`virtual bool EnumerateLeavesInBox( Vector const& mins, Vector const& maxs, ISpatialLeafEnumerator* pEnum, int context ) = 0;`
			`virtual bool EnumerateLeavesInSphere( Vector const& center, float radius, ISpatialLeafEnumerator* pEnum, int context ) = 0;`
			`virtual bool EnumerateLeavesAlongRay( Ray_t const& ray, ISpatialLeafEnumerator* pEnum, int context ) = 0;`
			`};`


			`//-----------------------------------------------------------------------------`
			`// Data associated with leaves.`
			`//`
			`// This is a parasitic class that attaches data to the leaves specified by the`
			`// ISpatialQuery sent in to the initialization function. It can't exist without`
			`// a spatial partition of some sort to hold onto.`
			`//-----------------------------------------------------------------------------`

			`abstract_class IBSPTreeDataEnumerator`
			`{`
			`public:`
			`// call back with a userId and a context`
			`virtual bool FASTCALL EnumerateElement( int userId, int context ) = 0;`
			`};`

			`abstract_class IBSPTreeData`
			`{`
			`public:`
			`// Add a virtual destructor so that the derived class destructors will`
			`// be called.`
			`virtual ~IBSPTreeData() {}`

			`// Initializes, shuts down`
			`virtual void Init( ISpatialQuery* pBSPTree ) = 0;`
			`virtual void Shutdown() = 0;`

			`// Adds and removes data from the leaf lists`
			`virtual BSPTreeDataHandle_t Insert( int userId, Vector const& mins, Vector const& maxs ) = 0;`
			`virtual void Remove( BSPTreeDataHandle_t handle ) = 0;`

			`// Call this when a element moves`
			`virtual void ElementMoved( BSPTreeDataHandle_t handle, Vector const& mins, Vector const& maxs ) = 0;`

			`// Enumerate elements in a particular leaf`
			`virtual bool EnumerateElementsInLeaf( int leaf, IBSPTreeDataEnumerator* pEnum, int context ) = 0;`

			`// Is the element in any leaves at all?`
			`virtual bool IsElementInTree( BSPTreeDataHandle_t handle ) const = 0;`

			`// NOTE: These methods call through to the functions in the attached`
			`// ISpatialQuery`
			`// For convenience, enumerates the leaves along a ray, box, etc.`
			`virtual bool EnumerateLeavesAtPoint( Vector const& pt, ISpatialLeafEnumerator* pEnum, int context ) = 0;`
			`virtual bool EnumerateLeavesInBox( Vector const& mins, Vector const& maxs, ISpatialLeafEnumerator* pEnum, int context ) = 0;`
			`virtual bool EnumerateLeavesInSphere( Vector const& center, float radius, ISpatialLeafEnumerator* pEnum, int context ) = 0;`
			`virtual bool EnumerateLeavesAlongRay( Ray_t const& ray, ISpatialLeafEnumerator* pEnum, int context ) = 0;`
			`};`

			`//-----------------------------------------------------------------------------`
			`// Class factory`
			`//-----------------------------------------------------------------------------`

			`IBSPTreeData* CreateBSPTreeData();`
			`void DestroyBSPTreeData( IBSPTreeData* pTreeData );`


			`#endif // BSPTREEDATA`