IMathSubscriptElement
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[
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]IMathSubscriptElement class
Specifies the subscript object, which consists of a base
and a reduced-size subscript placed below and to the right.
The IMathSubscriptElement type exposes the following members:
Properties
Name | Description |
---|---|
base | Base argument |
subscript | Subscript |
as_i_math_element | Allows to get base IMathElement interface IMathElement |
Methods
Name | Description |
---|---|
join(math_element) | Joins a mathematical element and forms a mathematical block |
join(math_text) | Joins a mathematical text and forms a mathematical block |
divide(denominator) | Creates a fraction with this numerator and specified denominator |
divide(denominator) | Creates a fraction with this numerator and specified denominator |
divide(denominator, fraction_type) | Creates a fraction of the specified type with this numerator and specified denominator |
divide(denominator, fraction_type) | Creates a fraction of the specified type with this numerator and specified denominator |
enclose() | Encloses a math element in parenthesis |
enclose(beginning_character, ending_character) | Encloses this element in specified characters such as parenthesis or another characters as framing |
function(function_argument) | Takes a function of an argument using this instance as the function name |
function(function_argument) | Takes a function of an argument using this instance as the function name |
as_argument_of_function(function_name) | Takes specified function using this instance as the argument |
as_argument_of_function(function_name) | Takes specified function using this instance as the argument |
as_argument_of_function(function_type) | Takes specified function using this instance as the argument |
as_argument_of_function(function_type, additional_argument) | Takes specified function using this instance as the argument and specified additional argument |
as_argument_of_function(function_type, additional_argument) | Takes specified function using this instance as the argument and specified additional argument |
set_subscript(subscript) | Creates subscript |
set_subscript(subscript) | Creates subscript |
set_superscript(superscript) | Creates superscript |
set_superscript(superscript) | Creates superscript |
set_sub_superscript_on_the_right(subscript, superscript) | Creates subscript and superscript on the right |
set_sub_superscript_on_the_right(subscript, superscript) | Creates subscript and superscript on the right |
set_sub_superscript_on_the_left(subscript, superscript) | Creates subscript and superscript on the left |
set_sub_superscript_on_the_left(subscript, superscript) | Creates subscript and superscript on the left |
radical(degree) | Specifies the mathematical root of the given degree from the specified argument. |
radical(degree) | Specifies the mathematical root of the given degree from the specified argument. |
set_upper_limit(limit) | Takes upper limit |
set_upper_limit(limit) | Takes upper limit |
set_lower_limit(limit) | Takes lower limit |
set_lower_limit(limit) | Takes lower limit |
nary(type, lower_limit, upper_limit) | Creates a N-ary operator |
nary(type, lower_limit, upper_limit) | Creates a N-ary operator |
integral(integral_type, lower_limit, upper_limit, limit_locations) | Takes the integral |
integral(integral_type, lower_limit, upper_limit) | Takes the integral |
integral(integral_type) | Takes the integral |
integral(integral_type, lower_limit, upper_limit, limit_locations) | Takes the integral |
integral(integral_type, lower_limit, upper_limit) | Takes the integral |
group() | Places this element in a group using a bottom curly bracket |
group(character, position, vertical_justification) | Places this element in a group using a grouping character such as bottom curly bracket or another |
to_border_box() | Places this element in a border-box |
to_border_box(hide_top, hide_bottom, hide_left, hide_right, strikethrough_horizontal, strikethrough_vertical, strikethrough_bottom_left_to_top_right, strikethrough_top_left_to_bottom_right) | Places this element in a border-box |
get_children() | Get children elements |
to_math_array() | Puts in a vertical array |
accent(accent_character) | Sets an accent mark (a character on the top of this element) |
overbar() | Sets a bar on the top of this element |
underbar() | Sets a bar on the bottom of this element |
to_box() | 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. |
See Also
- namespace aspose.slides.mathtext
- assembly Aspose.Slides