MathGroupingCharacter
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[
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]MathGroupingCharacter class
Specifies a grouping symbol above or below an expression, usually to highlight the relationship between elements
public sealed class MathGroupingCharacter : MathElementBase, IMathGroupingCharacter
Constructors
| Name | Description |
|---|---|
| MathGroupingCharacter(IMathElement) | Initializes a new instance of the MathGroupingCharacter class with the default grouping character U+23DF (BOTTOM CURLY BRACKET) |
| MathGroupingCharacter(IMathElement, char, MathTopBotPositions, MathTopBotPositions) | Initializes a new instance of the MathGroupingCharacter class. |
Properties
| Name | Description |
|---|---|
| Base { get; } | Base argument |
| Character { get; set; } | Grouping Character Default value: U+23DF (BOTTOM CURLY BRACKET) |
| Position { get; set; } | Position of grouping character. Default: Bottom |
| VerticalJustification { get; set; } | 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 |
Methods
| Name | Description |
|---|---|
| Accent(char) | Sets an accent mark (a character on the top of this element) |
| AsArgumentOfFunction(IMathElement) | Takes specified function using this instance as the argument |
| AsArgumentOfFunction(MathFunctionsOfOneArgument) | Takes specified function using this instance as the argument |
| AsArgumentOfFunction(string) | Takes specified function using this instance as the argument |
| AsArgumentOfFunction(MathFunctionsOfTwoArguments, IMathElement) | Takes specified function using this instance as the argument and specified additional argument |
| AsArgumentOfFunction(MathFunctionsOfTwoArguments, string) | Takes specified function using this instance as the argument and specified additional argument |
| Divide(IMathElement) | Creates a fraction with this numerator and specified denominator |
| Divide(string) | Creates a fraction with this numerator and specified denominator |
| Divide(IMathElement, MathFractionTypes) | Creates a fraction of the specified type with this numerator and specified denominator |
| Divide(string, MathFractionTypes) | Creates a fraction of the specified type with this numerator and specified denominator |
| Enclose() | Encloses a math element in parenthesis |
| virtual Enclose(char, char) | Encloses a math element in specified characters such as parenthesis or another characters as framing |
| Function(IMathElement) | Takes a function of an argument using this instance as the function name |
| Function(string) | Takes a function of an argument using this instance as the function name |
| GetChildren() | Get children elements |
| Group() | Places this element in a group using a bottom curly bracket |
| Group(char, MathTopBotPositions, MathTopBotPositions) | Places this element in a group using a grouping character such as bottom curly bracket or another |
| Integral(MathIntegralTypes) | Takes the integral without limits |
| Integral(MathIntegralTypes, IMathElement, IMathElement) | Takes the integral |
| Integral(MathIntegralTypes, string, string) | Takes the integral |
| Integral(MathIntegralTypes, IMathElement, IMathElement, MathLimitLocations) | Takes the integral |
| Integral(MathIntegralTypes, string, string, MathLimitLocations) | Takes the integral |
| virtual Join(IMathElement) | Joins a mathematical element and forms a mathematical block |
| virtual Join(string) | Joins a mathematical text and forms a mathematical block |
| Nary(MathNaryOperatorTypes, IMathElement, IMathElement) | Creates a N-ary operator |
| Nary(MathNaryOperatorTypes, string, string) | Creates a N-ary operator |
| Overbar() | Sets a bar on the top of this element |
| Radical(IMathElement) | Specifies the mathematical root of the given degree from the specified argument. |
| Radical(string) | Specifies the mathematical root of the given degree from the specified argument. |
| SetLowerLimit(IMathElement) | Takes lower limit |
| SetLowerLimit(string) | Takes lower limit |
| SetSubscript(IMathElement) | Creates subscript |
| SetSubscript(string) | Creates subscript |
| SetSubSuperscriptOnTheLeft(IMathElement, IMathElement) | Creates subscript and superscript on the left |
| SetSubSuperscriptOnTheLeft(string, string) | Creates subscript and superscript on the left |
| SetSubSuperscriptOnTheRight(IMathElement, IMathElement) | Creates subscript and superscript on the right |
| SetSubSuperscriptOnTheRight(string, string) | Creates subscript and superscript on the right |
| SetSuperscript(IMathElement) | Creates superscript |
| SetSuperscript(string) | Creates superscript |
| SetUpperLimit(IMathElement) | Takes upper limit |
| SetUpperLimit(string) | Takes upper limit |
| ToBorderBox() | Places this element in a border-box |
| ToBorderBox(bool, bool, bool, bool, bool, bool, bool, bool) | Places this element in a border-box |
| ToBox() | 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. |
| virtual ToMathArray() | Puts in a vertical array |
| Underbar() | Sets a bar on the bottom of this element |
Examples
Example:
[C#]
MathGroupingCharacter groupingCharacter = new MathGroupingCharacter(new MathematicalText("abc"));
See Also
- class MathElementBase
- interface IMathGroupingCharacter
- namespace Aspose.Slides.MathText
- assembly Aspose.Slides
