source-engine/game/client/glow_outline_effect.h

//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Functionality to render a glowing outline around client renderable objects.
//
//===============================================================================

#ifndef GLOW_OUTLINE_EFFECT_H
#define GLOW_OUTLINE_EFFECT_H

#if defined( COMPILER_MSVC )
#pragma once
#endif

#include "utlvector.h"
#include "mathlib/vector.h"

#ifdef GLOWS_ENABLE

class C_BaseEntity;
class CViewSetup;
class CMatRenderContextPtr;

static const int GLOW_FOR_ALL_SPLIT_SCREEN_SLOTS = -1;

class CGlowObjectManager
{
public:
	CGlowObjectManager() :
	m_nFirstFreeSlot( GlowObjectDefinition_t::END_OF_FREE_LIST )
	{
	}

	int RegisterGlowObject( C_BaseEntity *pEntity, const Vector &vGlowColor, float flGlowAlpha, bool bRenderWhenOccluded, bool bRenderWhenUnoccluded, int nSplitScreenSlot )
	{
		int nIndex;
		if ( m_nFirstFreeSlot == GlowObjectDefinition_t::END_OF_FREE_LIST )
		{
			nIndex = m_GlowObjectDefinitions.AddToTail();
		}
		else
		{
			nIndex = m_nFirstFreeSlot;
			m_nFirstFreeSlot = m_GlowObjectDefinitions[nIndex].m_nNextFreeSlot;
		}
		
		m_GlowObjectDefinitions[nIndex].m_hEntity = pEntity;
		m_GlowObjectDefinitions[nIndex].m_vGlowColor = vGlowColor;
		m_GlowObjectDefinitions[nIndex].m_flGlowAlpha = flGlowAlpha;
		m_GlowObjectDefinitions[nIndex].m_bRenderWhenOccluded = bRenderWhenOccluded;
		m_GlowObjectDefinitions[nIndex].m_bRenderWhenUnoccluded = bRenderWhenUnoccluded;
		m_GlowObjectDefinitions[nIndex].m_nSplitScreenSlot = nSplitScreenSlot;
		m_GlowObjectDefinitions[nIndex].m_nNextFreeSlot = GlowObjectDefinition_t::ENTRY_IN_USE;

		return nIndex;
	}

	void UnregisterGlowObject( int nGlowObjectHandle )
	{
		Assert( !m_GlowObjectDefinitions[nGlowObjectHandle].IsUnused() );

		m_GlowObjectDefinitions[nGlowObjectHandle].m_nNextFreeSlot = m_nFirstFreeSlot;
		m_GlowObjectDefinitions[nGlowObjectHandle].m_hEntity = NULL;
		m_nFirstFreeSlot = nGlowObjectHandle;
	}

	void SetEntity( int nGlowObjectHandle, C_BaseEntity *pEntity )
	{
		Assert( !m_GlowObjectDefinitions[nGlowObjectHandle].IsUnused() );
		m_GlowObjectDefinitions[nGlowObjectHandle].m_hEntity = pEntity;
	}

	void SetColor( int nGlowObjectHandle, const Vector &vGlowColor ) 
	{ 
		Assert( !m_GlowObjectDefinitions[nGlowObjectHandle].IsUnused() );
		m_GlowObjectDefinitions[nGlowObjectHandle].m_vGlowColor = vGlowColor;
	}

	void SetAlpha( int nGlowObjectHandle, float flAlpha ) 
	{ 
		Assert( !m_GlowObjectDefinitions[nGlowObjectHandle].IsUnused() );
		m_GlowObjectDefinitions[nGlowObjectHandle].m_flGlowAlpha = flAlpha;
	}

	void SetRenderFlags( int nGlowObjectHandle, bool bRenderWhenOccluded, bool bRenderWhenUnoccluded )
	{
		Assert( !m_GlowObjectDefinitions[nGlowObjectHandle].IsUnused() );
		m_GlowObjectDefinitions[nGlowObjectHandle].m_bRenderWhenOccluded = bRenderWhenOccluded;
		m_GlowObjectDefinitions[nGlowObjectHandle].m_bRenderWhenUnoccluded = bRenderWhenUnoccluded;
	}

	bool IsRenderingWhenOccluded( int nGlowObjectHandle ) const
	{
		Assert( !m_GlowObjectDefinitions[nGlowObjectHandle].IsUnused() );
		return m_GlowObjectDefinitions[nGlowObjectHandle].m_bRenderWhenOccluded;
	}
	
	bool IsRenderingWhenUnoccluded( int nGlowObjectHandle ) const
	{
		Assert( !m_GlowObjectDefinitions[nGlowObjectHandle].IsUnused() );
		return m_GlowObjectDefinitions[nGlowObjectHandle].m_bRenderWhenUnoccluded;
	}

	bool HasGlowEffect( C_BaseEntity *pEntity ) const
	{
		for ( int i = 0; i < m_GlowObjectDefinitions.Count(); ++ i )
		{
			if ( !m_GlowObjectDefinitions[i].IsUnused() && m_GlowObjectDefinitions[i].m_hEntity.Get() == pEntity )
			{
				return true;
			}
		}

		return false;
	}

	void RenderGlowEffects( const CViewSetup *pSetup, int nSplitScreenSlot );

private:

	void RenderGlowModels( const CViewSetup *pSetup, int nSplitScreenSlot, CMatRenderContextPtr &pRenderContext );
	void ApplyEntityGlowEffects( const CViewSetup *pSetup, int nSplitScreenSlot, CMatRenderContextPtr &pRenderContext, float flBloomScale, int x, int y, int w, int h );

	struct GlowObjectDefinition_t
	{
		bool ShouldDraw( int nSlot ) const
		{
			return m_hEntity.Get() && 
				   ( m_nSplitScreenSlot == GLOW_FOR_ALL_SPLIT_SCREEN_SLOTS || m_nSplitScreenSlot == nSlot ) && 
				   ( m_bRenderWhenOccluded || m_bRenderWhenUnoccluded ) && 
				   m_hEntity->ShouldDraw() && 
				   !m_hEntity->IsDormant();
		}

		bool IsUnused() const { return m_nNextFreeSlot != GlowObjectDefinition_t::ENTRY_IN_USE; }
		void DrawModel();

		EHANDLE m_hEntity;
		Vector m_vGlowColor;
		float m_flGlowAlpha;

		bool m_bRenderWhenOccluded;
		bool m_bRenderWhenUnoccluded;
		int m_nSplitScreenSlot;

		// Linked list of free slots
		int m_nNextFreeSlot;

		// Special values for GlowObjectDefinition_t::m_nNextFreeSlot
		static const int END_OF_FREE_LIST = -1;
		static const int ENTRY_IN_USE = -2;
	};

	CUtlVector< GlowObjectDefinition_t > m_GlowObjectDefinitions;
	int m_nFirstFreeSlot;
};

extern CGlowObjectManager g_GlowObjectManager;

class CGlowObject
{
public:
	CGlowObject( C_BaseEntity *pEntity, const Vector &vGlowColor = Vector( 1.0f, 1.0f, 1.0f ), float flGlowAlpha = 1.0f, bool bRenderWhenOccluded = false, bool bRenderWhenUnoccluded = false, int nSplitScreenSlot = GLOW_FOR_ALL_SPLIT_SCREEN_SLOTS )
	{
		m_nGlowObjectHandle = g_GlowObjectManager.RegisterGlowObject( pEntity, vGlowColor, flGlowAlpha, bRenderWhenOccluded, bRenderWhenUnoccluded, nSplitScreenSlot );
	}

	~CGlowObject()
	{
		g_GlowObjectManager.UnregisterGlowObject( m_nGlowObjectHandle );
	}

	void SetEntity( C_BaseEntity *pEntity )
	{
		g_GlowObjectManager.SetEntity( m_nGlowObjectHandle, pEntity );
	}

	void SetColor( const Vector &vGlowColor )
	{
		g_GlowObjectManager.SetColor( m_nGlowObjectHandle, vGlowColor );
	}

	void SetAlpha( float flAlpha )
	{
		g_GlowObjectManager.SetAlpha( m_nGlowObjectHandle, flAlpha );
	}

	void SetRenderFlags( bool bRenderWhenOccluded, bool bRenderWhenUnoccluded )
	{
		g_GlowObjectManager.SetRenderFlags( m_nGlowObjectHandle, bRenderWhenOccluded, bRenderWhenUnoccluded );
	}

	bool IsRenderingWhenOccluded() const
	{
		return g_GlowObjectManager.IsRenderingWhenOccluded( m_nGlowObjectHandle );
	}

	bool IsRenderingWhenUnoccluded() const
	{
		return g_GlowObjectManager.IsRenderingWhenUnoccluded( m_nGlowObjectHandle );
	}

	bool IsRendering() const
	{
		return IsRenderingWhenOccluded() || IsRenderingWhenUnoccluded();
	}

	// Add more accessors/mutators here as needed

private:
	int m_nGlowObjectHandle;

	// Assignment & copy-construction disallowed
	CGlowObject( const CGlowObject &other );
	CGlowObject& operator=( const CGlowObject &other );
};

#endif // GLOWS_ENABLE

#endif // GLOW_OUTLINE_EFFECT_H
1 5 years ago			`//========= Copyright Valve Corporation, All rights reserved. ============//`
			`//`
			`// Functionality to render a glowing outline around client renderable objects.`
			`//`
			`//===============================================================================`

			`#ifndef GLOW_OUTLINE_EFFECT_H`
			`#define GLOW_OUTLINE_EFFECT_H`

			`#if defined( COMPILER_MSVC )`
			`#pragma once`
			`#endif`

			`#include "utlvector.h"`
			`#include "mathlib/vector.h"`

			`#ifdef GLOWS_ENABLE`

			`class C_BaseEntity;`
			`class CViewSetup;`
			`class CMatRenderContextPtr;`

			`static const int GLOW_FOR_ALL_SPLIT_SCREEN_SLOTS = -1;`

			`class CGlowObjectManager`
			`{`
			`public:`
			`CGlowObjectManager() :`
			`m_nFirstFreeSlot( GlowObjectDefinition_t::END_OF_FREE_LIST )`
			`{`
			`}`

			`int RegisterGlowObject( C_BaseEntity *pEntity, const Vector &vGlowColor, float flGlowAlpha, bool bRenderWhenOccluded, bool bRenderWhenUnoccluded, int nSplitScreenSlot )`
			`{`
			`int nIndex;`
			`if ( m_nFirstFreeSlot == GlowObjectDefinition_t::END_OF_FREE_LIST )`
			`{`
			`nIndex = m_GlowObjectDefinitions.AddToTail();`
			`}`
			`else`
			`{`
			`nIndex = m_nFirstFreeSlot;`
			`m_nFirstFreeSlot = m_GlowObjectDefinitions[nIndex].m_nNextFreeSlot;`
			`}`

			`m_GlowObjectDefinitions[nIndex].m_hEntity = pEntity;`
			`m_GlowObjectDefinitions[nIndex].m_vGlowColor = vGlowColor;`
			`m_GlowObjectDefinitions[nIndex].m_flGlowAlpha = flGlowAlpha;`
			`m_GlowObjectDefinitions[nIndex].m_bRenderWhenOccluded = bRenderWhenOccluded;`
			`m_GlowObjectDefinitions[nIndex].m_bRenderWhenUnoccluded = bRenderWhenUnoccluded;`
			`m_GlowObjectDefinitions[nIndex].m_nSplitScreenSlot = nSplitScreenSlot;`
			`m_GlowObjectDefinitions[nIndex].m_nNextFreeSlot = GlowObjectDefinition_t::ENTRY_IN_USE;`

			`return nIndex;`
			`}`

			`void UnregisterGlowObject( int nGlowObjectHandle )`
			`{`
			`Assert( !m_GlowObjectDefinitions[nGlowObjectHandle].IsUnused() );`

			`m_GlowObjectDefinitions[nGlowObjectHandle].m_nNextFreeSlot = m_nFirstFreeSlot;`
			`m_GlowObjectDefinitions[nGlowObjectHandle].m_hEntity = NULL;`
			`m_nFirstFreeSlot = nGlowObjectHandle;`
			`}`

			`void SetEntity( int nGlowObjectHandle, C_BaseEntity *pEntity )`
			`{`
			`Assert( !m_GlowObjectDefinitions[nGlowObjectHandle].IsUnused() );`
			`m_GlowObjectDefinitions[nGlowObjectHandle].m_hEntity = pEntity;`
			`}`

			`void SetColor( int nGlowObjectHandle, const Vector &vGlowColor )`
			`{`
			`Assert( !m_GlowObjectDefinitions[nGlowObjectHandle].IsUnused() );`
			`m_GlowObjectDefinitions[nGlowObjectHandle].m_vGlowColor = vGlowColor;`
			`}`

			`void SetAlpha( int nGlowObjectHandle, float flAlpha )`
			`{`
			`Assert( !m_GlowObjectDefinitions[nGlowObjectHandle].IsUnused() );`
			`m_GlowObjectDefinitions[nGlowObjectHandle].m_flGlowAlpha = flAlpha;`
			`}`

			`void SetRenderFlags( int nGlowObjectHandle, bool bRenderWhenOccluded, bool bRenderWhenUnoccluded )`
			`{`
			`Assert( !m_GlowObjectDefinitions[nGlowObjectHandle].IsUnused() );`
			`m_GlowObjectDefinitions[nGlowObjectHandle].m_bRenderWhenOccluded = bRenderWhenOccluded;`
			`m_GlowObjectDefinitions[nGlowObjectHandle].m_bRenderWhenUnoccluded = bRenderWhenUnoccluded;`
			`}`

			`bool IsRenderingWhenOccluded( int nGlowObjectHandle ) const`
			`{`
			`Assert( !m_GlowObjectDefinitions[nGlowObjectHandle].IsUnused() );`
			`return m_GlowObjectDefinitions[nGlowObjectHandle].m_bRenderWhenOccluded;`
			`}`

			`bool IsRenderingWhenUnoccluded( int nGlowObjectHandle ) const`
			`{`
			`Assert( !m_GlowObjectDefinitions[nGlowObjectHandle].IsUnused() );`
			`return m_GlowObjectDefinitions[nGlowObjectHandle].m_bRenderWhenUnoccluded;`
			`}`

			`bool HasGlowEffect( C_BaseEntity *pEntity ) const`
			`{`
			`for ( int i = 0; i < m_GlowObjectDefinitions.Count(); ++ i )`
			`{`
			`if ( !m_GlowObjectDefinitions[i].IsUnused() && m_GlowObjectDefinitions[i].m_hEntity.Get() == pEntity )`
			`{`
			`return true;`
			`}`
			`}`

			`return false;`
			`}`

			`void RenderGlowEffects( const CViewSetup *pSetup, int nSplitScreenSlot );`

			`private:`

			`void RenderGlowModels( const CViewSetup *pSetup, int nSplitScreenSlot, CMatRenderContextPtr &pRenderContext );`
			`void ApplyEntityGlowEffects( const CViewSetup *pSetup, int nSplitScreenSlot, CMatRenderContextPtr &pRenderContext, float flBloomScale, int x, int y, int w, int h );`

			`struct GlowObjectDefinition_t`
			`{`
			`bool ShouldDraw( int nSlot ) const`
			`{`
			`return m_hEntity.Get() &&`
			`( m_nSplitScreenSlot == GLOW_FOR_ALL_SPLIT_SCREEN_SLOTS \|\| m_nSplitScreenSlot == nSlot ) &&`
			`( m_bRenderWhenOccluded \|\| m_bRenderWhenUnoccluded ) &&`
			`m_hEntity->ShouldDraw() &&`
			`!m_hEntity->IsDormant();`
			`}`

			`bool IsUnused() const { return m_nNextFreeSlot != GlowObjectDefinition_t::ENTRY_IN_USE; }`
			`void DrawModel();`

			`EHANDLE m_hEntity;`
			`Vector m_vGlowColor;`
			`float m_flGlowAlpha;`

			`bool m_bRenderWhenOccluded;`
			`bool m_bRenderWhenUnoccluded;`
			`int m_nSplitScreenSlot;`

			`// Linked list of free slots`
			`int m_nNextFreeSlot;`

			`// Special values for GlowObjectDefinition_t::m_nNextFreeSlot`
			`static const int END_OF_FREE_LIST = -1;`
			`static const int ENTRY_IN_USE = -2;`
			`};`

			`CUtlVector< GlowObjectDefinition_t > m_GlowObjectDefinitions;`
			`int m_nFirstFreeSlot;`
			`};`

			`extern CGlowObjectManager g_GlowObjectManager;`

			`class CGlowObject`
			`{`
			`public:`
			`CGlowObject( C_BaseEntity *pEntity, const Vector &vGlowColor = Vector( 1.0f, 1.0f, 1.0f ), float flGlowAlpha = 1.0f, bool bRenderWhenOccluded = false, bool bRenderWhenUnoccluded = false, int nSplitScreenSlot = GLOW_FOR_ALL_SPLIT_SCREEN_SLOTS )`
			`{`
			`m_nGlowObjectHandle = g_GlowObjectManager.RegisterGlowObject( pEntity, vGlowColor, flGlowAlpha, bRenderWhenOccluded, bRenderWhenUnoccluded, nSplitScreenSlot );`
			`}`

			`~CGlowObject()`
			`{`
			`g_GlowObjectManager.UnregisterGlowObject( m_nGlowObjectHandle );`
			`}`

			`void SetEntity( C_BaseEntity *pEntity )`
			`{`
			`g_GlowObjectManager.SetEntity( m_nGlowObjectHandle, pEntity );`
			`}`

			`void SetColor( const Vector &vGlowColor )`
			`{`
			`g_GlowObjectManager.SetColor( m_nGlowObjectHandle, vGlowColor );`
			`}`

			`void SetAlpha( float flAlpha )`
			`{`
			`g_GlowObjectManager.SetAlpha( m_nGlowObjectHandle, flAlpha );`
			`}`

			`void SetRenderFlags( bool bRenderWhenOccluded, bool bRenderWhenUnoccluded )`
			`{`
			`g_GlowObjectManager.SetRenderFlags( m_nGlowObjectHandle, bRenderWhenOccluded, bRenderWhenUnoccluded );`
			`}`

			`bool IsRenderingWhenOccluded() const`
			`{`
			`return g_GlowObjectManager.IsRenderingWhenOccluded( m_nGlowObjectHandle );`
			`}`

			`bool IsRenderingWhenUnoccluded() const`
			`{`
			`return g_GlowObjectManager.IsRenderingWhenUnoccluded( m_nGlowObjectHandle );`
			`}`

			`bool IsRendering() const`
			`{`
			`return IsRenderingWhenOccluded() \|\| IsRenderingWhenUnoccluded();`
			`}`

			`// Add more accessors/mutators here as needed`

			`private:`
			`int m_nGlowObjectHandle;`

			`// Assignment & copy-construction disallowed`
			`CGlowObject( const CGlowObject &other );`
			`CGlowObject& operator=( const CGlowObject &other );`
			`};`

			`#endif // GLOWS_ENABLE`

			`#endif // GLOW_OUTLINE_EFFECT_H`