Ogre::Technique Class Reference

Class representing an approach to rendering this particular Material. More...

#include <OgreTechnique.h>

Inheritance diagram for Ogre::Technique:

Classes
struct	GPUDeviceNameRule
	Rule controlling whether technique is deemed supported based on GPU device name. More...
struct	GPUVendorRule
	Rule controlling whether technique is deemed supported based on GPU vendor. More...

Public Types
typedef ConstVectorIterator< GPUDeviceNameRuleList >	GPUDeviceNameRuleIterator
typedef vector< GPUDeviceNameRule >::type	GPUDeviceNameRuleList
typedef ConstVectorIterator< GPUVendorRuleList >	GPUVendorRuleIterator
typedef vector< GPUVendorRule >::type	GPUVendorRuleList
enum	IncludeOrExclude { INCLUDE = 0, EXCLUDE = 1 }
	Directive used to manually control technique support based on the inclusion or exclusion of some factor. More...
typedef VectorIterator< Passes >	PassIterator

Public Member Functions
	Technique (Material *parent)
	Constructor. More...
	Technique (Material *parent, const Technique &oth)
	Copy constructor. More...
	~Technique ()
String	_compile (bool autoManageTextureUnits)
	Internal compilation method; see Material::compile. More...
unsigned short	_getSchemeIndex (void) const
	Internal method for getting the scheme index. More...
void	_load (void)
	Internal load method, derived from call to Material::load. More...
void	_notifyNeedsRecompile (void)
	Tells the technique that it needs recompilation. More...
void	_prepare (void)
	Internal prepare method, derived from call to Material::prepare. More...
void	_unload (void)
	Internal unload method, derived from call to Material::unload. More...
void	_unprepare (void)
	Internal unprepare method, derived from call to Material::unprepare. More...
void	addGPUDeviceNameRule (const String &devicePattern, IncludeOrExclude includeOrExclude, bool caseSensitive=false)
	Add a rule which manually influences the support for this technique based on a pattern that matches a GPU device name (e.g. More...
void	addGPUDeviceNameRule (const GPUDeviceNameRule &rule)
	Add a rule which manually influences the support for this technique based on a pattern that matches a GPU device name (e.g. More...
void	addGPUVendorRule (GPUVendor vendor, IncludeOrExclude includeOrExclude)
	Add a rule which manually influences the support for this technique based on a GPU vendor. More...
void	addGPUVendorRule (const GPUVendorRule &rule)
	Add a rule which manually influences the support for this technique based on a GPU vendor. More...
bool	applyTextureAliases (const AliasTextureNamePairList &aliasList, const bool apply=true) const
	Applies texture names to Texture Unit State with matching texture name aliases. More...
size_t	calculateSize (void) const
bool	checkGPURules (StringStream &errors)
	Internal method for checking GPU vendor / device rules. More...
bool	checkHardwareSupport (bool autoManageTextureUnits, StringStream &compileErrors)
	Internal method for checking hardware support. More...
Pass *	createPass (void)
	Creates a new Pass for this Technique. More...
GPUDeviceNameRuleIterator	getGPUDeviceNameRuleIterator () const
	Get an iterator over the currently registered device name rules. More...
GPUVendorRuleIterator	getGPUVendorRuleIterator () const
	Get an iterator over the currently registered vendor rules. More...
unsigned short	getLodIndex (void) const
	Gets the level-of-detail index assigned to this Technique. More...
const String &	getName (void) const
	Gets the name of the technique. More...
unsigned short	getNumPasses (void) const
	Retrieves the number of passes. More...
Material *	getParent (void) const
	Gets the parent Material. More...
Pass *	getPass (unsigned short index)
	Retrieves the Pass with the given index. More...
Pass *	getPass (const String &name)
	Retrieves the Pass matching name. More...
const PassIterator	getPassIterator (void)
	Gets an iterator over the passes in this Technique. More...
const String &	getResourceGroup (void) const
	Gets the resource group of the ultimate parent Material. More...
const String &	getSchemeName (void) const
	Returns the scheme to which this technique is assigned. More...
Ogre::MaterialPtr	getShadowCasterMaterial () const
	return this material specific shadow casting specific material More...
UserObjectBindings &	getUserObjectBindings ()
	Return an instance of user objects binding associated with this class. More...
const UserObjectBindings &	getUserObjectBindings () const
	Return an instance of user objects binding associated with this class. More...
bool	hasColourWriteDisabled (void) const
	Exists colour writing disabled pass on this technique? More...
bool	isDepthCheckEnabled (void) const
	Is depth checking going to occur on this technique? More...
bool	isDepthWriteEnabled (void) const
	Is depth writing going to occur on this technique? More...
bool	isLoaded (void) const
	Is this loaded? More...
bool	isSupported (void) const
	Indicates if this technique is supported by the current graphics card. More...
bool	isTransparent (void) const
	Returns true if this Technique involves transparency. More...
bool	movePass (const unsigned short sourceIndex, const unsigned short destinationIndex)
	Move a pass from source index to destination index. More...
void	operator delete (void *ptr)
void	operator delete (void *ptr, void *)
void	operator delete (void *ptr, const char *, int, const char *)
void	operator delete[] (void *ptr)
void	operator delete[] (void *ptr, const char *, int, const char *)
void *	operator new (size_t sz, const char *file, int line, const char *func)
	operator new, with debug line info More...
void *	operator new (size_t sz)
void *	operator new (size_t sz, void *ptr)
	placement operator new More...
void *	operator new[] (size_t sz, const char *file, int line, const char *func)
	array operator new, with debug line info More...
void *	operator new[] (size_t sz)
Technique &	operator= (const Technique &rhs)
	Overloaded operator to copy on Technique to another. More...
void	removeAllPasses (void)
	Removes all Passes from this Technique. More...
void	removeGPUDeviceNameRule (const String &devicePattern)
	Removes a matching device name rule. More...
void	removeGPUVendorRule (GPUVendor vendor)
	Removes a matching vendor rule. More...
void	removePass (unsigned short index)
	Removes the Pass with the given index. More...
void	setAmbient (Real red, Real green, Real blue)
	Sets the ambient colour reflectance properties for every Pass in every Technique. More...
void	setAmbient (const ColourValue &ambient)
	Sets the ambient colour reflectance properties for every Pass in every Technique. More...
void	setBlendblock (const HlmsBlendblock &blendblock)
	Sets the blendblock every pass has with the existing contents of the scene. More...
void	setDiffuse (Real red, Real green, Real blue, Real alpha)
	Sets the diffuse colour reflectance properties of every Pass in every Technique. More...
void	setDiffuse (const ColourValue &diffuse)
	Sets the diffuse colour reflectance properties of every Pass in every Technique. More...
void	setFog (bool overrideScene, FogMode mode=FOG_NONE, const ColourValue &colour=ColourValue::White, Real expDensity=0.001, Real linearStart=0.0, Real linearEnd=1.0)
	Sets the fogging mode applied to each pass. More...
void	setLodIndex (unsigned short index)
	Assigns a level-of-detail (LOD) index to this Technique. More...
void	setMacroblock (const HlmsMacroblock &macroblock)
	Sets the macroblock every pass has with the existing contents of the scene. More...
void	setName (const String &name)
	Set the name of the technique. More...
void	setPointSize (Real ps)
	Sets the point size properties for every Pass in this Technique. More...
void	setSamplerblock (const HlmsSamplerblock &samplerblock)
	Set samplerblock for every texture unit in every Pass. More...
void	setSchemeName (const String &schemeName)
	Set the 'scheme name' for this technique. More...
void	setSelfIllumination (Real red, Real green, Real blue)
	Sets the amount of self-illumination of every Pass in every Technique. More...
void	setSelfIllumination (const ColourValue &selfIllum)
	Sets the amount of self-illumination of every Pass in every Technique. More...
void	setShadingMode (ShadeOptions mode)
	Sets the type of light shading required. More...
void	setShadowCasterMaterial (Ogre::MaterialPtr val)
	set this material specific shadow casting specific material More...
void	setShadowCasterMaterial (const Ogre::String &name)
	set this material specific shadow casting specific material More...
void	setShininess (Real val)
	Sets the shininess properties of every Pass in every Technique. More...
void	setSpecular (Real red, Real green, Real blue, Real alpha)
	Sets the specular colour reflectance properties of every Pass in every Technique. More...
void	setSpecular (const ColourValue &specular)
	Sets the specular colour reflectance properties of every Pass in every Technique. More...

Detailed Description

Class representing an approach to rendering this particular Material.

Remarks

Ogre will attempt to use the best technique supported by the active hardware, unless you specifically request a lower detail technique (say for distant rendering).

Member Typedef Documentation

GPUDeviceNameRuleIterator

typedef ConstVectorIterator<GPUDeviceNameRuleList> Ogre::Technique::GPUDeviceNameRuleIterator

GPUDeviceNameRuleList

typedef vector<GPUDeviceNameRule>::type Ogre::Technique::GPUDeviceNameRuleList

GPUVendorRuleIterator

typedef ConstVectorIterator<GPUVendorRuleList> Ogre::Technique::GPUVendorRuleIterator

GPUVendorRuleList

typedef vector<GPUVendorRule>::type Ogre::Technique::GPUVendorRuleList

PassIterator

typedef VectorIterator<Passes> Ogre::Technique::PassIterator

Member Enumeration Documentation

IncludeOrExclude

enum Ogre::Technique::IncludeOrExclude

Directive used to manually control technique support based on the inclusion or exclusion of some factor.

Enumerator
INCLUDE	Inclusive - only support if present.
EXCLUDE	Exclusive - do not support if present.

Constructor & Destructor Documentation

Technique() [1/2]

Ogre::Technique::Technique

(

Material *

parent

)

Constructor.

Technique() [2/2]

Ogre::Technique::Technique	(	Material *	parent,
		const Technique &	oth
	)

Copy constructor.

~Technique()

Ogre::Technique::~Technique

(

)

Member Function Documentation

_compile()

String Ogre::Technique::_compile

(

bool

autoManageTextureUnits

)

Internal compilation method; see Material::compile.

Returns

Any information explaining problems with the compile.

_getSchemeIndex()

unsigned short Ogre::Technique::_getSchemeIndex

(

void

)

const

Internal method for getting the scheme index.

_load()

void Ogre::Technique::_load

(

void

)

Internal load method, derived from call to Material::load.

_notifyNeedsRecompile()

void Ogre::Technique::_notifyNeedsRecompile

(

void

)

Tells the technique that it needs recompilation.

_prepare()

void Ogre::Technique::_prepare

(

void

)

Internal prepare method, derived from call to Material::prepare.

_unload()

void Ogre::Technique::_unload

(

void

)

Internal unload method, derived from call to Material::unload.

_unprepare()

void Ogre::Technique::_unprepare

(

void

)

Internal unprepare method, derived from call to Material::unprepare.

addGPUDeviceNameRule() [1/2]

void Ogre::Technique::addGPUDeviceNameRule	(	const String &	devicePattern,
		IncludeOrExclude	includeOrExclude,
		bool	caseSensitive = false
	)

Add a rule which manually influences the support for this technique based on a pattern that matches a GPU device name (e.g.

'8800').

Remarks

You can use this facility to manually control whether a technique is considered supported, based on a GPU device name pattern. You can add inclusive or exclusive rules, and you can add as many of each as you like. If at least one inclusive rule is added, a technique is considered unsupported if it does not match any of those inclusive rules. If exclusive rules are added, the technique is considered unsupported if it matches any of those inclusive rules. The pattern you supply can include wildcard characters ('*') if you only want to match part of the device name.

Note

Any rule for the same device pattern will be removed before adding this one.

Parameters

devicePattern	The GPU vendor
includeOrExclude	Whether this is an inclusive or exclusive rule
caseSensitive	Whether the match is case sensitive or not

addGPUDeviceNameRule() [2/2]

void Ogre::Technique::addGPUDeviceNameRule

(

const GPUDeviceNameRule &

rule

)

Add a rule which manually influences the support for this technique based on a pattern that matches a GPU device name (e.g.

'8800').

Remarks

You can use this facility to manually control whether a technique is considered supported, based on a GPU device name pattern. You can add inclusive or exclusive rules, and you can add as many of each as you like. If at least one inclusive rule is added, a technique is considered unsupported if it does not match any of those inclusive rules. If exclusive rules are added, the technique is considered unsupported if it matches any of those inclusive rules. The pattern you supply can include wildcard characters ('*') if you only want to match part of the device name.

Note

Any rule for the same device pattern will be removed before adding this one.

addGPUVendorRule() [1/2]

void Ogre::Technique::addGPUVendorRule	(	GPUVendor	vendor,
		IncludeOrExclude	includeOrExclude
	)

Add a rule which manually influences the support for this technique based on a GPU vendor.

Remarks

You can use this facility to manually control whether a technique is considered supported, based on a GPU vendor. You can add inclusive or exclusive rules, and you can add as many of each as you like. If at least one inclusive rule is added, a technique is considered unsupported if it does not match any of those inclusive rules. If exclusive rules are added, the technique is considered unsupported if it matches any of those inclusive rules.

Note

Any rule for the same vendor will be removed before adding this one.

Parameters

vendor	The GPU vendor
includeOrExclude	Whether this is an inclusive or exclusive rule

addGPUVendorRule() [2/2]

void Ogre::Technique::addGPUVendorRule

(

const GPUVendorRule &

rule

)

Add a rule which manually influences the support for this technique based on a GPU vendor.

Remarks

You can use this facility to manually control whether a technique is considered supported, based on a GPU vendor. You can add inclusive or exclusive rules, and you can add as many of each as you like. If at least one inclusive rule is added, a technique is considered unsupported if it does not match any of those inclusive rules. If exclusive rules are added, the technique is considered unsupported if it matches any of those inclusive rules.

Note

Any rule for the same vendor will be removed before adding this one.

applyTextureAliases()

bool Ogre::Technique::applyTextureAliases	(	const AliasTextureNamePairList &	aliasList,
		const bool	apply = true
	)		const

Applies texture names to Texture Unit State with matching texture name aliases.

All passes, and Texture Unit States within the technique are checked. If matching texture aliases are found then true is returned.

Parameters

aliasList	is a map container of texture alias, texture name pairs
apply	set true to apply the texture aliases else just test to see if texture alias matches are found.

Returns

True if matching texture aliases were found in the Technique.

calculateSize()

size_t Ogre::Technique::calculateSize

(

void

)

const

checkGPURules()

bool Ogre::Technique::checkGPURules

(

StringStream &

errors

)

Internal method for checking GPU vendor / device rules.

checkHardwareSupport()

bool Ogre::Technique::checkHardwareSupport	(	bool	autoManageTextureUnits,
		StringStream &	compileErrors
	)

Internal method for checking hardware support.

createPass()

Pass* Ogre::Technique::createPass

(

void

)

Creates a new Pass for this Technique.

Remarks

A Pass is a single rendering pass, i.e. a single draw of the given material. Note that if you create a pass without a fragment program, during compilation of the material the pass may be split into multiple passes if the graphics card cannot handle the number of texture units requested. For passes with fragment programs, however, the number of passes you create will never be altered, so you have to make sure that you create an alternative fallback Technique for if a card does not have enough facilities for what you're asking for.

getGPUDeviceNameRuleIterator()

GPUDeviceNameRuleIterator Ogre::Technique::getGPUDeviceNameRuleIterator

(

)

const

Get an iterator over the currently registered device name rules.

getGPUVendorRuleIterator()

GPUVendorRuleIterator Ogre::Technique::getGPUVendorRuleIterator

(

)

const

Get an iterator over the currently registered vendor rules.

getLodIndex()

unsigned short Ogre::Technique::getLodIndex ( void  ) const

inline

Gets the level-of-detail index assigned to this Technique.

getName()

const String& Ogre::Technique::getName ( void  ) const

inline

Gets the name of the technique.

getNumPasses()

unsigned short Ogre::Technique::getNumPasses

(

void

)

const

Retrieves the number of passes.

getParent()

Material* Ogre::Technique::getParent ( void  ) const

inline

Gets the parent Material.

References Ogre::FOG_NONE, and Ogre::ColourValue::White.

getPass() [1/2]

Pass* Ogre::Technique::getPass

(

unsigned short

index

)

Retrieves the Pass with the given index.

getPass() [2/2]

Pass* Ogre::Technique::getPass

(

const String &

name

)

Retrieves the Pass matching name.

Returns 0 if name match is not found.

getPassIterator()

const PassIterator Ogre::Technique::getPassIterator

(

void

)

Gets an iterator over the passes in this Technique.

getResourceGroup()

const String& Ogre::Technique::getResourceGroup

(

void

)

const

Gets the resource group of the ultimate parent Material.

getSchemeName()

const String& Ogre::Technique::getSchemeName

(

void

)

const

Returns the scheme to which this technique is assigned.

See also

Technique::setSchemeName

getShadowCasterMaterial()

Ogre::MaterialPtr Ogre::Technique::getShadowCasterMaterial

(

)

const

return this material specific shadow casting specific material

getUserObjectBindings() [1/2]

UserObjectBindings& Ogre::Technique::getUserObjectBindings ( )

inline

Return an instance of user objects binding associated with this class.

You can use it to associate one or more custom objects with this class instance.

See also

UserObjectBindings::setUserAny.

getUserObjectBindings() [2/2]

const UserObjectBindings& Ogre::Technique::getUserObjectBindings ( ) const

inline

Return an instance of user objects binding associated with this class.

You can use it to associate one or more custom objects with this class instance.

See also

UserObjectBindings::setUserAny.

hasColourWriteDisabled()

bool Ogre::Technique::hasColourWriteDisabled

(

void

)

const

Exists colour writing disabled pass on this technique?

isDepthCheckEnabled()

bool Ogre::Technique::isDepthCheckEnabled

(

void

)

const

Is depth checking going to occur on this technique?

isDepthWriteEnabled()

bool Ogre::Technique::isDepthWriteEnabled

(

void

)

const

Is depth writing going to occur on this technique?

isLoaded()

bool Ogre::Technique::isLoaded

(

void

)

const

Is this loaded?

isSupported()

bool Ogre::Technique::isSupported

(

void

)

const

Indicates if this technique is supported by the current graphics card.

Remarks

This will only be correct after the Technique has been compiled, which is usually done from Material::compile.

isTransparent()

bool Ogre::Technique::isTransparent

(

void

)

const

Returns true if this Technique involves transparency.

Remarks

This basically boils down to whether the first pass has a scene blending factor. Even if the other passes do not, the base colour, including parts of the original scene, may be used for blending, therefore we have to treat the whole Technique as transparent.

movePass()

bool Ogre::Technique::movePass	(	const unsigned short	sourceIndex,
		const unsigned short	destinationIndex
	)

Move a pass from source index to destination index.

If successful then returns true.

operator delete() [1/3]

template<class Alloc >

void Ogre::AllocatedObject< Alloc >::operator delete ( void *  ptr )

inlineinherited

operator delete() [2/3]

template<class Alloc >

void Ogre::AllocatedObject< Alloc >::operator delete ( void *  ptr, void *    )

inlineinherited

operator delete() [3/3]

template<class Alloc >

void Ogre::AllocatedObject< Alloc >::operator delete ( void *  ptr, const char *  , int  , const char *    )

inlineinherited

operator delete[]() [1/2]

template<class Alloc >

void Ogre::AllocatedObject< Alloc >::operator delete[] ( void *  ptr )

inlineinherited

operator delete[]() [2/2]

template<class Alloc >

void Ogre::AllocatedObject< Alloc >::operator delete[] ( void *  ptr, const char *  , int  , const char *    )

inlineinherited

operator new() [1/3]

template<class Alloc >

void* Ogre::AllocatedObject< Alloc >::operator new ( size_t  sz, const char *  file, int  line, const char *  func  )

inlineinherited

operator new, with debug line info

operator new() [2/3]

template<class Alloc >

void* Ogre::AllocatedObject< Alloc >::operator new ( size_t  sz )

inlineinherited

operator new() [3/3]

template<class Alloc >

void* Ogre::AllocatedObject< Alloc >::operator new ( size_t  sz, void *  ptr  )

inlineinherited

placement operator new

operator new[]() [1/2]

template<class Alloc >

void* Ogre::AllocatedObject< Alloc >::operator new[] ( size_t  sz, const char *  file, int  line, const char *  func  )

inlineinherited

array operator new, with debug line info

operator new[]() [2/2]

template<class Alloc >

void* Ogre::AllocatedObject< Alloc >::operator new[] ( size_t  sz )

inlineinherited

operator=()

Technique& Ogre::Technique::operator=

(

const Technique &

rhs

)

Overloaded operator to copy on Technique to another.

removeAllPasses()

void Ogre::Technique::removeAllPasses

(

void

)

Removes all Passes from this Technique.

removeGPUDeviceNameRule()

void Ogre::Technique::removeGPUDeviceNameRule

(

const String &

devicePattern

)

Removes a matching device name rule.

See also

addGPUDeviceNameRule

removeGPUVendorRule()

void Ogre::Technique::removeGPUVendorRule

(

GPUVendor

vendor

)

Removes a matching vendor rule.

See also

addGPUVendorRule

removePass()

void Ogre::Technique::removePass

(

unsigned short

index

)

Removes the Pass with the given index.

setAmbient() [1/2]

void Ogre::Technique::setAmbient	(	Real	red,
		Real	green,
		Real	blue
	)

Sets the ambient colour reflectance properties for every Pass in every Technique.

Note

This property actually exists on the Pass class. For simplicity, this method allows you to set these properties for every current Pass within this Technique. If you need more precision, retrieve the Pass instance and set the property there.

See also

Pass::setAmbient

setAmbient() [2/2]

void Ogre::Technique::setAmbient

(

const ColourValue &

ambient

)

Sets the ambient colour reflectance properties for every Pass in every Technique.

Note

This property actually exists on the Pass class. For simplicity, this method allows you to set these properties for every current Pass within this Technique. If you need more precision, retrieve the Pass instance and set the property there.

See also

Pass::setAmbient

setBlendblock()

void Ogre::Technique::setBlendblock

(

const HlmsBlendblock &

blendblock

)

Sets the blendblock every pass has with the existing contents of the scene.

Note

This property actually exists on the Pass class. For simplicity, this method allows you to set these properties for every current Pass within this Technique. If you need more precision, retrieve the Pass instance and set the property there.

See also

Pass::setBlendblock

setDiffuse() [1/2]

void Ogre::Technique::setDiffuse	(	Real	red,
		Real	green,
		Real	blue,
		Real	alpha
	)

Sets the diffuse colour reflectance properties of every Pass in every Technique.

Note

This property actually exists on the Pass class. For simplicity, this method allows you to set these properties for every current Pass within this Technique. If you need more precision, retrieve the Pass instance and set the property there.

See also

Pass::setDiffuse

setDiffuse() [2/2]

void Ogre::Technique::setDiffuse

(

const ColourValue &

diffuse

)

Sets the diffuse colour reflectance properties of every Pass in every Technique.

Note

This property actually exists on the Pass class. For simplicity, this method allows you to set these properties for every current Pass within this Technique. If you need more precision, retrieve the Pass instance and set the property there.

See also

Pass::setDiffuse

setFog()

void Ogre::Technique::setFog	(	bool	overrideScene,
		FogMode	mode = FOG_NONE,
		const ColourValue &	colour = ColourValue::White,
		Real	expDensity = 0.001,
		Real	linearStart = 0.0,
		Real	linearEnd = 1.0
	)

Sets the fogging mode applied to each pass.

Note

This property actually exists on the Pass class. For simplicity, this method allows you to set these properties for every current Pass within this Technique. If you need more precision, retrieve the Pass instance and set the property there.

See also

Pass::setFog

setLodIndex()

void Ogre::Technique::setLodIndex

(

unsigned short

index

)

Assigns a level-of-detail (LOD) index to this Technique.

Remarks

As noted previously, as well as providing fallback support for various graphics cards, multiple Technique objects can also be used to implement material LOD, where the detail of the material diminishes with distance to save rendering power.

By default, all Techniques have a LOD index of 0, which means they are the highest level of detail. Increasing LOD indexes are lower levels of detail. You can assign more than one Technique to the same LOD index, meaning that the best Technique that is supported at that LOD index is used.

You should not leave gaps in the LOD sequence; Ogre will allow you to do this and will continue to function as if the LODs were sequential, but it will confuse matters.

setMacroblock()

void Ogre::Technique::setMacroblock

(

const HlmsMacroblock &

macroblock

)

Sets the macroblock every pass has with the existing contents of the scene.

Note

This property actually exists on the Pass class. For simplicity, this method allows you to set these properties for every current Pass within this Technique. If you need more precision, retrieve the Pass instance and set the property there.

See also

Pass::setBlendblock

setName()

void Ogre::Technique::setName

(

const String &

name

)

Set the name of the technique.

Remarks

The use of technique name is optional. Its useful in material scripts where a material could inherit from another material and only want to modify a particular technique.

setPointSize()

void Ogre::Technique::setPointSize

(

Real

ps

)

Sets the point size properties for every Pass in this Technique.

Note

This property actually exists on the Pass class. For simplicity, this method allows you to set these properties for every current Pass within this Technique. If you need more precision, retrieve the Pass instance and set the property there.

See also

Pass::setPointSize

setSamplerblock()

void Ogre::Technique::setSamplerblock

(

const HlmsSamplerblock &

samplerblock

)

Set samplerblock for every texture unit in every Pass.

Note

This property actually exists on the TextureUnitState class For simplicity, this method allows you to set these properties for every current TeextureUnitState, If you need more precision, retrieve the Pass and TextureUnitState instances and set the property there.

See also

TextureUnitState::setSamplerblock

setSchemeName()

void Ogre::Technique::setSchemeName

(

const String &

schemeName

)

Set the 'scheme name' for this technique.

Remarks

Material schemes are used to control top-level switching from one set of techniques to another. For example, you might use this to define 'high', 'medium' and 'low' complexity levels on materials to allow a user to pick a performance / quality ratio. Another possibility is that you have a fully HDR-enabled pipeline for top machines, rendering all objects using unclamped shaders, and a simpler pipeline for others; this can be implemented using schemes.

Every technique belongs to a scheme - if you don't specify one, the Technique belongs to the scheme called 'Default', which is also the scheme used to render by default. The active scheme is set one of two ways - either by calling Viewport::setMaterialScheme, or by manually calling MaterialManager::setActiveScheme.

setSelfIllumination() [1/2]

void Ogre::Technique::setSelfIllumination	(	Real	red,
		Real	green,
		Real	blue
	)

Sets the amount of self-illumination of every Pass in every Technique.

Note

This property actually exists on the Pass class. For simplicity, this method allows you to set these properties for every current Pass within this Technique. If you need more precision, retrieve the Pass instance and set the property there.

See also

Pass::setSelfIllumination

setSelfIllumination() [2/2]

void Ogre::Technique::setSelfIllumination

(

const ColourValue &

selfIllum

)

Sets the amount of self-illumination of every Pass in every Technique.

Note

This property actually exists on the Pass class. For simplicity, this method allows you to set these properties for every current Pass within this Technique. If you need more precision, retrieve the Pass instance and set the property there.

See also

Pass::setSelfIllumination

setShadingMode()

void Ogre::Technique::setShadingMode

(

ShadeOptions

mode

)

Sets the type of light shading required.

Note

This property actually exists on the Pass class. For simplicity, this method allows you to set these properties for every current Pass within this Technique. If you need more precision, retrieve the Pass instance and set the property there.

See also

Pass::setShadingMode

setShadowCasterMaterial() [1/2]

void Ogre::Technique::setShadowCasterMaterial

(

Ogre::MaterialPtr

val

)

set this material specific shadow casting specific material

setShadowCasterMaterial() [2/2]

void Ogre::Technique::setShadowCasterMaterial

(

const Ogre::String &

name

)

set this material specific shadow casting specific material

setShininess()

void Ogre::Technique::setShininess

(

Real

val

)

Sets the shininess properties of every Pass in every Technique.

Note

This property actually exists on the Pass class. For simplicity, this method allows you to set these properties for every current Pass within this Technique. If you need more precision, retrieve the Pass instance and set the property there.

See also

Pass::setShininess

setSpecular() [1/2]

void Ogre::Technique::setSpecular	(	Real	red,
		Real	green,
		Real	blue,
		Real	alpha
	)

Sets the specular colour reflectance properties of every Pass in every Technique.

Note

This property actually exists on the Pass class. For simplicity, this method allows you to set these properties for every current Pass within this Technique. If you need more precision, retrieve the Pass instance and set the property there.

See also

Pass::setSpecular

setSpecular() [2/2]

void Ogre::Technique::setSpecular

(

const ColourValue &

specular

)

Sets the specular colour reflectance properties of every Pass in every Technique.

Note

This property actually exists on the Pass class. For simplicity, this method allows you to set these properties for every current Pass within this Technique. If you need more precision, retrieve the Pass instance and set the property there.

See also

Pass::setSpecular

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The documentation for this class was generated from the following file:

• OgreTechnique.h