EquationNodeParagraph
EquationNodeParagraph class
This class specifies a mathematical paragraph containing one or more MathEquationNode(OMath) elements.
class EquationNodeParagraph extends EquationNode;
Constructors
Name | Description |
---|---|
constructor(EquationNode) | Constructs from a parent object convertible to this. |
Methods
Method | Description |
---|---|
getJustification() | This specifies justification of the math paragraph (a series of adjacent equations within the same paragraph). A math paragraph can be Left Justified, Right Justified, Centered, or Centered as Group. By default, the math paragraph is Centered as Group. This means that the equations can be aligned with respect to each other, but the entire group of equations is centered as a whole. |
setJustification(EquationHorizontalJustificationType) | This specifies justification of the math paragraph (a series of adjacent equations within the same paragraph). A math paragraph can be Left Justified, Right Justified, Centered, or Centered as Group. By default, the math paragraph is Centered as Group. This means that the equations can be aligned with respect to each other, but the entire group of equations is centered as a whole. |
equals(object) | Determine whether the current equation node is equal to the specified node |
isNull() | Checks whether the implementation object is null. |
getStartIndex() | Gets the start index of the characters. |
getLength() | Gets the length of the characters. |
getFont() | Returns the font of this object. |
getTextOptions() | Returns the text options. |
setWordArtStyle(PresetWordArtStyle) | Sets the preset WordArt style. |
getParentNode() | Specifies the parent node of the current node |
setParentNode(EquationNode) | Specifies the parent node of the current node |
getType() | Represents the type of the node. |
getEquationType() | Get the equation type of the current node |
toLaTeX() | Convert this equtation to LaTeX expression. |
toMathML() | Convert this equtation to MathML expression. |
addChild(EquationNodeType) | Insert a node of the specified type at the end of the child node list of the current node. |
addChild(EquationNode) | Inserts the specified node at the end of the current node’s list of child nodes. |
insertChild(number, EquationNodeType) | Inserts a node of the specified type at the specified index position in the current node’s child node list. |
insertAfter(EquationNodeType) | Inserts the specified node after the current node. |
insertBefore(EquationNodeType) | Inserts the specified node before the current node. |
getChild(number) | Returns the node at the specified index among the children of the current node. |
remove() | Removes itself from the parent. |
removeChild(EquationNode) | Removes the specified node from the current node’s children. |
removeChild(number) | Removes the node at the specified index from the current node’s children. |
removeAllChildren() | Removes all the child nodes of the current node. |
static createNode(EquationNodeType, Workbook, EquationNode) | Create a node of the specified type. |
constructor(EquationNode)
Constructs from a parent object convertible to this.
constructor(obj: EquationNode);
Parameters:
Parameter | Type | Description |
---|---|---|
obj | EquationNode | The parent object. |
getJustification()
This specifies justification of the math paragraph (a series of adjacent equations within the same paragraph). A math paragraph can be Left Justified, Right Justified, Centered, or Centered as Group. By default, the math paragraph is Centered as Group. This means that the equations can be aligned with respect to each other, but the entire group of equations is centered as a whole.
getJustification() : EquationHorizontalJustificationType;
Returns
EquationHorizontalJustificationType
setJustification(EquationHorizontalJustificationType)
This specifies justification of the math paragraph (a series of adjacent equations within the same paragraph). A math paragraph can be Left Justified, Right Justified, Centered, or Centered as Group. By default, the math paragraph is Centered as Group. This means that the equations can be aligned with respect to each other, but the entire group of equations is centered as a whole.
setJustification(value: EquationHorizontalJustificationType) : void;
Parameters:
Parameter | Type | Description |
---|---|---|
value | EquationHorizontalJustificationType | The value to set. |
equals(object)
Determine whether the current equation node is equal to the specified node
equals(obj: object) : boolean;
Parameters:
Parameter | Type | Description |
---|---|---|
obj | object | The specified node |
isNull()
Checks whether the implementation object is null.
isNull() : boolean;
getStartIndex()
Gets the start index of the characters.
getStartIndex() : number;
getLength()
Gets the length of the characters.
getLength() : number;
getFont()
Returns the font of this object.
getFont() : Font;
Returns
getTextOptions()
Returns the text options.
getTextOptions() : TextOptions;
Returns
setWordArtStyle(PresetWordArtStyle)
Sets the preset WordArt style.
setWordArtStyle(style: PresetWordArtStyle) : void;
Parameters:
Parameter | Type | Description |
---|---|---|
style | PresetWordArtStyle | The preset WordArt style. |
Remarks
Only for the text of shape/chart.
getParentNode()
Specifies the parent node of the current node
getParentNode() : EquationNode;
Returns
setParentNode(EquationNode)
Specifies the parent node of the current node
setParentNode(value: EquationNode) : void;
Parameters:
Parameter | Type | Description |
---|---|---|
value | EquationNode | The value to set. |
getType()
Represents the type of the node.
getType() : TextNodeType;
Returns
getEquationType()
Get the equation type of the current node
getEquationType() : EquationNodeType;
Returns
toLaTeX()
Convert this equtation to LaTeX expression.
toLaTeX() : string;
toMathML()
Convert this equtation to MathML expression.
toMathML() : string;
addChild(EquationNodeType)
Insert a node of the specified type at the end of the child node list of the current node.
addChild(equationType: EquationNodeType) : EquationNode;
Parameters:
Parameter | Type | Description |
---|---|---|
equationType | EquationNodeType | Types of Equation Nodes |
Returns
If the specified type exists, the corresponding node is returned, and if the type does not exist, a node of unknown type is returned.
addChild(EquationNode)
Inserts the specified node at the end of the current node’s list of child nodes.
addChild(node: EquationNode) : void;
Parameters:
Parameter | Type | Description |
---|---|---|
node | EquationNode | The specified node |
insertChild(number, EquationNodeType)
Inserts a node of the specified type at the specified index position in the current node’s child node list.
insertChild(index: number, equationType: EquationNodeType) : EquationNode;
Parameters:
Parameter | Type | Description |
---|---|---|
index | number | index value |
equationType | EquationNodeType | Types of Equation Nodes |
Returns
If the specified type exists, the corresponding node is returned, and if the type does not exist, a node of unknown type is returned.
insertAfter(EquationNodeType)
Inserts the specified node after the current node.
insertAfter(equationType: EquationNodeType) : EquationNode;
Parameters:
Parameter | Type | Description |
---|---|---|
equationType | EquationNodeType | Types of Equation Nodes |
Returns
If the specified type exists, the corresponding node is returned, and if the type does not exist, a node of unknown type is returned.
insertBefore(EquationNodeType)
Inserts the specified node before the current node.
insertBefore(equationType: EquationNodeType) : EquationNode;
Parameters:
Parameter | Type | Description |
---|---|---|
equationType | EquationNodeType | Types of Equation Nodes |
Returns
If the specified type exists, the corresponding node is returned, and if the type does not exist, a node of unknown type is returned.
getChild(number)
Returns the node at the specified index among the children of the current node.
getChild(index: number) : EquationNode;
Parameters:
Parameter | Type | Description |
---|---|---|
index | number | Index of the node |
Returns
Returns the corresponding node if the specified node exists, otherwise returns null.
remove()
Removes itself from the parent.
remove() : void;
removeChild(EquationNode)
Removes the specified node from the current node’s children.
removeChild(node: EquationNode) : void;
Parameters:
Parameter | Type | Description |
---|---|---|
node | EquationNode | Node to be deleted. |
removeChild(number)
Removes the node at the specified index from the current node’s children.
removeChild(index: number) : void;
Parameters:
Parameter | Type | Description |
---|---|---|
index | number | Index of the node |
removeAllChildren()
Removes all the child nodes of the current node.
removeAllChildren() : void;
createNode(EquationNodeType, Workbook, EquationNode)
Create a node of the specified type.
static createNode(equationType: EquationNodeType, workbook: Workbook, parent: EquationNode) : EquationNode;
Parameters:
Parameter | Type | Description |
---|---|---|
equationType | EquationNodeType | Types of Equation Nodes |
workbook | Workbook | The workbook object associated with the equation |
parent | EquationNode | The parent node where this node is located |
Returns
If the specified type exists, the corresponding node is returned, and if the type does not exist, a node of unknown type is returned.