Aspose::Slides::MathText::IMathGroupingCharacter Class Referenceabstract

Specifies a grouping symbol above or below an expression, usually to highlight the relationship between elements More...

Inherits Aspose::Slides::MathText::IMathElement.

Inherited by Aspose::Slides::MathText::MathGroupingCharacter.

Public Member Functions

virtual System::SharedPtr< IMathElementget_Base ()=0
 Base argument More...
 
virtual char16_t get_Character ()=0
 Grouping Character Default value: U+23DF (BOTTOM CURLY BRACKET) More...
 
virtual void set_Character (char16_t value)=0
 Grouping Character Default value: U+23DF (BOTTOM CURLY BRACKET) More...
 
virtual MathTopBotPositions get_Position ()=0
 Position of grouping character. Default: Bottom More...
 
virtual void set_Position (MathTopBotPositions value)=0
 Position of grouping character. Default: Bottom More...
 
virtual MathTopBotPositions get_VerticalJustification ()=0
 Vertical justification of group character. Specifies the alignment of the object with respect to the baseline. For example, when the group character is above the object, VerticalJustification of Top signifies that the top of the object falls on the baseline; when VerticalJustification is set to Bottom, the bottom of the object is on the baseline Default: Bottom for Position=Top, and Top for Position=Bottom More...
 
virtual void set_VerticalJustification (MathTopBotPositions value)=0
 Vertical justification of group character. Specifies the alignment of the object with respect to the baseline. For example, when the group character is above the object, VerticalJustification of Top signifies that the top of the object falls on the baseline; when VerticalJustification is set to Bottom, the bottom of the object is on the baseline Default: Bottom for Position=Top, and Top for Position=Bottom More...
 
- Public Member Functions inherited from Aspose::Slides::MathText::IMathElement
virtual System::ArrayPtr< System::SharedPtr< IMathElement > > GetChildren ()=0
 Get children elements More...
 
virtual System::SharedPtr< IMathBlockJoin (System::SharedPtr< IMathElement > mathElement)=0
 Joins a mathematical element and forms a mathematical block More...
 
virtual System::SharedPtr< IMathBlockJoin (System::String mathText)=0
 Joins a mathematical text and forms a mathematical block More...
 
virtual System::SharedPtr< IMathFractionDivide (System::SharedPtr< IMathElement > denominator)=0
 Creates a fraction with this numerator and specified denominator More...
 
virtual System::SharedPtr< IMathFractionDivide (System::String denominator)=0
 Creates a fraction with this numerator and specified denominator More...
 
virtual System::SharedPtr< IMathFractionDivide (System::SharedPtr< IMathElement > denominator, MathFractionTypes fractionType)=0
 Creates a fraction of the specified type with this numerator and specified denominator More...
 
virtual System::SharedPtr< IMathFractionDivide (System::String denominator, MathFractionTypes fractionType)=0
 Creates a fraction of the specified type with this numerator and specified denominator More...
 
virtual System::SharedPtr< IMathDelimiterEnclose ()=0
 Encloses a math element in parenthesis More...
 
virtual System::SharedPtr< IMathDelimiterEnclose (char16_t beginningCharacter, char16_t endingCharacter)=0
 Encloses this element in specified characters such as parenthesis or another characters as framing More...
 
virtual System::SharedPtr< IMathFunctionFunction (System::SharedPtr< IMathElement > functionArgument)=0
 Takes a function of an argument using this instance as the function name More...
 
virtual System::SharedPtr< IMathFunctionFunction (System::String functionArgument)=0
 Takes a function of an argument using this instance as the function name More...
 
virtual System::SharedPtr< IMathFunctionAsArgumentOfFunction (System::SharedPtr< IMathElement > functionName)=0
 Takes specified function using this instance as the argument More...
 
virtual System::SharedPtr< IMathFunctionAsArgumentOfFunction (System::String functionName)=0
 Takes specified function using this instance as the argument More...
 
virtual System::SharedPtr< IMathFunctionAsArgumentOfFunction (MathFunctionsOfOneArgument functionType)=0
 Takes specified function using this instance as the argument More...
 
virtual System::SharedPtr< IMathFunctionAsArgumentOfFunction (MathFunctionsOfTwoArguments functionType, System::SharedPtr< IMathElement > additionalArgument)=0
 Takes specified function using this instance as the argument and specified additional argument More...
 
virtual System::SharedPtr< IMathFunctionAsArgumentOfFunction (MathFunctionsOfTwoArguments functionType, System::String additionalArgument)=0
 Takes specified function using this instance as the argument and specified additional argument More...
 
virtual System::SharedPtr< IMathSubscriptElementSetSubscript (System::SharedPtr< IMathElement > subscript)=0
 Creates subscript More...
 
virtual System::SharedPtr< IMathSubscriptElementSetSubscript (System::String subscript)=0
 Creates subscript More...
 
virtual System::SharedPtr< IMathSuperscriptElementSetSuperscript (System::SharedPtr< IMathElement > superscript)=0
 Creates superscript More...
 
virtual System::SharedPtr< IMathSuperscriptElementSetSuperscript (System::String superscript)=0
 Creates superscript More...
 
virtual System::SharedPtr< IMathRightSubSuperscriptElementSetSubSuperscriptOnTheRight (System::SharedPtr< IMathElement > subscript, System::SharedPtr< IMathElement > superscript)=0
 Creates subscript and superscript on the right More...
 
virtual System::SharedPtr< IMathRightSubSuperscriptElementSetSubSuperscriptOnTheRight (System::String subscript, System::String superscript)=0
 Creates subscript and superscript on the right More...
 
virtual System::SharedPtr< IMathLeftSubSuperscriptElementSetSubSuperscriptOnTheLeft (System::SharedPtr< IMathElement > subscript, System::SharedPtr< IMathElement > superscript)=0
 Creates subscript and superscript on the left More...
 
virtual System::SharedPtr< IMathLeftSubSuperscriptElementSetSubSuperscriptOnTheLeft (System::String subscript, System::String superscript)=0
 Creates subscript and superscript on the left More...
 
virtual System::SharedPtr< IMathRadicalRadical (System::SharedPtr< IMathElement > degree)=0
 Specifies the mathematical root of the given degree from the specified argument. More...
 
virtual System::SharedPtr< IMathRadicalRadical (System::String degree)=0
 Specifies the mathematical root of the given degree from the specified argument. More...
 
virtual System::SharedPtr< IMathLimitSetUpperLimit (System::SharedPtr< IMathElement > limit)=0
 Takes upper limit More...
 
virtual System::SharedPtr< IMathLimitSetUpperLimit (System::String limit)=0
 Takes upper limit More...
 
virtual System::SharedPtr< IMathLimitSetLowerLimit (System::SharedPtr< IMathElement > limit)=0
 Takes lower limit More...
 
virtual System::SharedPtr< IMathLimitSetLowerLimit (System::String limit)=0
 Takes lower limit More...
 
virtual System::SharedPtr< IMathNaryOperatorNary (MathNaryOperatorTypes type, System::SharedPtr< IMathElement > lowerLimit, System::SharedPtr< IMathElement > upperLimit)=0
 Creates a N-ary operator More...
 
virtual System::SharedPtr< IMathNaryOperatorNary (MathNaryOperatorTypes type, System::String lowerLimit, System::String upperLimit)=0
 Creates a N-ary operator More...
 
virtual System::SharedPtr< IMathArrayToMathArray ()=0
 Puts in a vertical array More...
 
virtual System::SharedPtr< IMathNaryOperatorIntegral (MathIntegralTypes integralType, System::SharedPtr< IMathElement > lowerLimit, System::SharedPtr< IMathElement > upperLimit, MathLimitLocations limitLocations)=0
 Takes the integral More...
 
virtual System::SharedPtr< IMathNaryOperatorIntegral (MathIntegralTypes integralType, System::SharedPtr< IMathElement > lowerLimit, System::SharedPtr< IMathElement > upperLimit)=0
 Takes the integral More...
 
virtual System::SharedPtr< IMathNaryOperatorIntegral (MathIntegralTypes integralType)=0
 Takes the integral without limits More...
 
virtual System::SharedPtr< IMathNaryOperatorIntegral (MathIntegralTypes integralType, System::String lowerLimit, System::String upperLimit, MathLimitLocations limitLocations)=0
 Takes the integral More...
 
virtual System::SharedPtr< IMathNaryOperatorIntegral (MathIntegralTypes integralType, System::String lowerLimit, System::String upperLimit)=0
 Takes the integral More...
 
virtual System::SharedPtr< IMathAccentAccent (char16_t accentCharacter)=0
 Sets an accent mark (a character on the top of this element) More...
 
virtual System::SharedPtr< IMathBarOverbar ()=0
 Sets a bar on the top of this element More...
 
virtual System::SharedPtr< IMathBarUnderbar ()=0
 Sets a bar on the bottom of this element More...
 
virtual System::SharedPtr< IMathGroupingCharacterGroup ()=0
 Places this element in a group using a bottom curly bracket More...
 
virtual System::SharedPtr< IMathGroupingCharacterGroup (char16_t character, MathTopBotPositions position, MathTopBotPositions verticalJustification)=0
 Places this element in a group using a grouping character such as bottom curly bracket or another More...
 
virtual System::SharedPtr< IMathBorderBoxToBorderBox ()=0
 Places this element in a border-box More...
 
virtual System::SharedPtr< IMathBorderBoxToBorderBox (bool hideTop, bool hideBottom, bool hideLeft, bool hideRight, bool strikethroughHorizontal, bool strikethroughVertical, bool strikethroughBottomLeftToTopRight, bool strikethroughTopLeftToBottomRight)=0
 Places this element in a border-box More...
 
virtual System::SharedPtr< IMathBoxToBox ()=0
 Places this element in a non-visual box (logical grouping) which is used to group components of an equation or other instance of mathematical text. A boxed object can (for example) serve as an operator emulator with or without an alignment point, serve as a line break point, or be grouped such as not to allow line breaks within. More...
 
- Public Member Functions inherited from System::Object
 Object ()
 Creates object. Initializes all internal data structures. More...
 
virtual ~Object ()
 Destroys object. Frees all internal data structures. More...
 
 Object (Object const &x)
 Copy constructor. Doesn't copy anything, really, just initializes new object and enables copy constructing subclasses. More...
 
Objectoperator= (Object const &x)
 Assignment operator. Doesn't copy anything, really, just initializes new object and enables copy constructing subclasses. More...
 
ObjectSharedRefAdded ()
 Increments shared reference count. Shouldn't be called directly; instead, use smart pointers or ThisProtector. More...
 
int SharedRefRemovedSafe ()
 Decrements and returns shared reference count. Shouldn't be called directly; instead, use smart pointers or ThisProtector. More...
 
int RemovedSharedRefs (int count)
 Decreases shared reference count by specified value. More...
 
Detail::SmartPtrCounter * WeakRefAdded ()
 Increments weak reference count. Shouldn't be called directly; instead, use smart pointers or ThisProtector. More...
 
void WeakRefRemoved ()
 Decrements weak reference count. Shouldn't be called directly; instead, use smart pointers or ThisProtector. More...
 
Detail::SmartPtrCounter * GetCounter ()
 Gets reference counter data structure associated with the object. More...
 
int SharedCount () const
 Gets current value of shared reference counter. More...
 
void Lock ()
 Implements C# lock() statement locking. Call directly or use LockContext sentry object. More...
 
void Unlock ()
 Implements C# lock() statement unlocking. Call directly or use LockContext sentry object. More...
 
virtual bool Equals (ptr obj)
 Compares objects using C# Object.Equals semantics. More...
 
virtual int32_t GetHashCode () const
 Analog of C# Object.GetHashCode() method. Enables hashing of custom objects. More...
 
virtual String ToString () const
 Analog of C# Object.ToString() method. Enables converting custom objects to string. More...
 
virtual ptr MemberwiseClone () const
 Analog of C# Object.MemberwiseClone() method. Enables cloning custom types. More...
 
virtual const TypeInfoGetType () const
 Gets actual type of object. Analog of C# System.Object.GetType() call. More...
 
virtual bool Is (const TypeInfo &targetType) const
 Check if object represents an instance of type described by targetType. Analog of C# 'is' operator. More...
 
virtual void SetTemplateWeakPtr (uint32_t argument)
 Set n'th template argument a weak pointer (rather than shared). Allows switching pointers in containers to weak mode. More...
 
virtual bool FastCast (const Details::FastRttiBase &helper, void **out_ptr) const
 For internal purposes only. More...
 
template<>
bool ReferenceEquals (String const &str, std::nullptr_t)
 Specialization of Object::ReferenceEquals for case of string and nullptr. More...
 
template<>
bool ReferenceEquals (String const &str1, String const &str2)
 Specialization of Object::ReferenceEquals for case of strings. More...
 

Additional Inherited Members

- Public Types inherited from System::Object
typedef SmartPtr< Objectptr
 Alias for smart pointer type. More...
 
- Static Public Member Functions inherited from System::Object
static bool ReferenceEquals (ptr const &objA, ptr const &objB)
 Compares objects by reference. More...
 
template<typename T >
static std::enable_if<!IsSmartPtr< T >::value, bool >::type ReferenceEquals (T const &objA, T const &objB)
 Compares objects by reference. More...
 
template<typename T >
static std::enable_if<!IsSmartPtr< T >::value, bool >::type ReferenceEquals (T const &objA, std::nullptr_t)
 Reference-compares value type object with nullptr. More...
 
template<typename T1 , typename T2 >
static std::enable_if< IsSmartPtr< T1 >::value &&IsSmartPtr< T2 >::value, bool >::type Equals (T1 const &objA, T2 const &objB)
 Compares reference type objects in C# style. More...
 
template<typename T1 , typename T2 >
static std::enable_if<!IsSmartPtr< T1 >::value &&!IsSmartPtr< T2 >::value, bool >::type Equals (T1 const &objA, T2 const &objB)
 Compares value type objects in C# style. More...
 
static const TypeInfoType ()
 Implements C# typeof(System.Object) construct. More...
 
template<>
bool Equals (float const &objA, float const &objB)
 Emulates C#-style floating point comparison where two NaNs are considered equal even though according to IEC 60559:1989 NaN is not equal to any value, including NaN. More...
 
template<>
bool Equals (double const &objA, double const &objB)
 Emulates C#-style floating point comparison where two NaNs are considered equal even though according to IEC 60559:1989 NaN is not equal to any value, including NaN. More...
 

Detailed Description

Specifies a grouping symbol above or below an expression, usually to highlight the relationship between elements

Example:

auto groupingElement = System::MakeObject<MathematicalText>(u"x;y;z")->Group();

Member Function Documentation

◆ get_Base()

virtual System::SharedPtr<IMathElement> Aspose::Slides::MathText::IMathGroupingCharacter::get_Base ( )
pure virtual

Base argument

Implemented in Aspose::Slides::MathText::MathGroupingCharacter.

◆ get_Character()

virtual char16_t Aspose::Slides::MathText::IMathGroupingCharacter::get_Character ( )
pure virtual

Grouping Character Default value: U+23DF (BOTTOM CURLY BRACKET)

Example:

auto groupingCharacter = System::MakeObject<MathGroupingCharacter>(System::MakeObject<MathematicalText>(u"abc"));
groupingCharacter->set_Character(u'\u23DD');
// Bottom Parenthesis

Implemented in Aspose::Slides::MathText::MathGroupingCharacter.

◆ get_Position()

virtual MathTopBotPositions Aspose::Slides::MathText::IMathGroupingCharacter::get_Position ( )
pure virtual

Position of grouping character. Default: Bottom

Implemented in Aspose::Slides::MathText::MathGroupingCharacter.

◆ get_VerticalJustification()

virtual MathTopBotPositions Aspose::Slides::MathText::IMathGroupingCharacter::get_VerticalJustification ( )
pure virtual

Vertical justification of group character. Specifies the alignment of the object with respect to the baseline. For example, when the group character is above the object, VerticalJustification of Top signifies that the top of the object falls on the baseline; when VerticalJustification is set to Bottom, the bottom of the object is on the baseline Default: Bottom for Position=Top, and Top for Position=Bottom

Implemented in Aspose::Slides::MathText::MathGroupingCharacter.

◆ set_Character()

virtual void Aspose::Slides::MathText::IMathGroupingCharacter::set_Character ( char16_t  value)
pure virtual

Grouping Character Default value: U+23DF (BOTTOM CURLY BRACKET)

Example:

auto groupingCharacter = System::MakeObject<MathGroupingCharacter>(System::MakeObject<MathematicalText>(u"abc"));
groupingCharacter->set_Character(u'\u23DD');
// Bottom Parenthesis

Implemented in Aspose::Slides::MathText::MathGroupingCharacter.

◆ set_Position()

virtual void Aspose::Slides::MathText::IMathGroupingCharacter::set_Position ( MathTopBotPositions  value)
pure virtual

Position of grouping character. Default: Bottom

Implemented in Aspose::Slides::MathText::MathGroupingCharacter.

◆ set_VerticalJustification()

virtual void Aspose::Slides::MathText::IMathGroupingCharacter::set_VerticalJustification ( MathTopBotPositions  value)
pure virtual

Vertical justification of group character. Specifies the alignment of the object with respect to the baseline. For example, when the group character is above the object, VerticalJustification of Top signifies that the top of the object falls on the baseline; when VerticalJustification is set to Bottom, the bottom of the object is on the baseline Default: Bottom for Position=Top, and Top for Position=Bottom

Implemented in Aspose::Slides::MathText::MathGroupingCharacter.