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NotesUESTC/Markdown高级用法/example.md

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---
---
# Example for OneDark Theme
[toc]
## Headers
### h3
Markdown is a lightweight markup language with plain-text-formatting syntax. Its design allows it to be converted to many output formats, but the original tool by the same name only supports HTML. Markdown is often used to format readme files, for writing messages in online discussion forums, and to create rich text using a plain text editor.
#### h4
Since the initial description of Markdown contained ambiguities and unanswered questions, the implementations that appeared over the years have subtle differences and many come with syntax extensions.
##### h5
In MediaWiki, it is implemented in the currently unmaintained MarkdownExtraParser parser function extension
###### h6
Implementations of Markdown are available for over a dozen programming languages.
## Quote
> Most UI components including tooltip, dialog and buttons are painted by HTML. And you only need to change those part when you find the UI components are incompatible with your editor theme after finishing steps above. HTML files from the toolkit includes most common UI components for you to easily debug.
## Font Style
**Bold**, *italic*, ~~delete~~
<u>underline</u>, [Link](typora.io)
H~2~O, E=mc^2^
<span style="color:red">colored text</span>, ==highlight==
emoji: :smile:
- [ ] checkbox
## Codeblock
```python
# hello_world.py
class HelloWorld():
def __init__(self):
self.text='hello world!'
def show(self,word):
print(f'{word}, {self.text}')
test=HelloWorld()
test.show()
```
Run terminal then enter: `python hello_world.py`
## KBD
* bold<kbd>Ctrl/Command</kbd> + <kbd>B</kbd>
* italic<kbd>Ctrl/Command</kbd> + <kbd>I</kbd>
## MathJax
Given two populations, $x_1$ and $x_2$ , with logistic dynamics, the LotkaVolterra formulation adds an additional term to account for the species' interactions. Thus the competitive LotkaVolterra equations are:
$$
\begin{cases}
\cfrac{dx_1}{dt}=r_1x_1\bigg(1-\cfrac{x_1+\alpha_{12} x_2}{K_1}\bigg)\\
\cfrac{dx_2}{dt}=r_2x_2\bigg(1-\cfrac{x_2+\alpha_{21} x_1}{K_2}\bigg)
\end{cases}
$$
Here, $\alpha_{12}$ represents the effect species 2 has on the population of species 1 and $\alpha_{21}$represents the effect species 1 has on the population of species 2.
## Order
1. first item
2. second item
1. first item
2. second item
3. third item
---
* first item
* second item
* first item
* first item
* fourth item
## Table
| Cinderella | 11 | glass | transparent |
| :----------- | ---: | :---------- | :---------- |
| Name | Size | Material | Color |
| All Business | 9 | leather | brown |
| Roundabout | 10 | hemp canvas | natural |
## Footnote
You can create footnotes like this[^fn1] and this[^fn2].
[^fn1]: Here is the **text** of the first ***\*footnote\****.
[^fn2]: Here is the **text** of the second ***\*footnote\****.
## Image, Video
<img src="D:\Project\typora-onedark-theme\example\image.jpg" alt="Cosmos08" style="zoom:15%;" />
<video src="./video.mp4" />
<table>
<tr>
<td>Bash command
</td>
<td>Description
</td>
</tr>
<tr>
<td>ls
</td>
<td>List directory contents
</td>
</tr>
<tr>
<td>cd
</td>
<td>Change directory
</td>
</tr>
<tr>
<td>cp
</td>
<td>Copy files
</td>
</tr>
<tr>
<td>mv
</td>
<td>Move files
</td>
</tr>
</table>
## Graph
### sequence
```sequence
Alice->Bob: Hello Bob, how are you?
Note right of Bob: Bob thinks
Bob-->Alice: I am good thanks!
```
### flow
```flow
st=>start: Start
op=>operation: Your Operation
cond=>condition: Yes or No?
e=>end
st->op->cond
cond(yes)->e
cond(no)->op
```
### mermaid
#### Flowchart
```mermaid
graph TD
Start --> Stop
```
```mermaid
graph LR
A([A]) --- B(B) -- C --- C{C}
C -- D --> D[[D]]
C -.->|E| E[E]
C -. F .-> F[(F)]
C ==>|G| G((G))
B == edge ==> H>H]
B --> I{{I}}
subgraph sub [subgraph]
I -->|J| J[/J/]
I -->|K| K[\K\]
I -->|L| L[\L/]
I -->|M| M[/M\]
end
```
#### Sequence diagram
```mermaid
%% Example of sequence diagram
sequenceDiagram
participant A
participant B
participant C
Note right of B: note
Note over A,B: note
A->B: a
activate B
A-->B: b
activate B
A->>B: c
deactivate B
A-->>B: d
deactivate B
rect rgba(128,0,0,0.5)
A-xA: e
end
loop loop
A--xB: f
end
alt alt
B->>A: g
else else
B->>A: h
end
par par
A->C: i
and and
A->B: j
par nest
B->C: k
end
end
```
#### Class diagram
```mermaid
classDiagram
A <|-- B: label
A "1" *-- "1.." C
A "*" o-- "0..1" D
C <-- E
C -- F
D <.. G
D <|.. H
D .. I
A: +int i1
A: -String s1
A: #List~int~ l1
A: ~f1(arg) bool
A: +f2()*
A: +f3()$
class B {
<<enumeration>>
RED
GREEN
BLUE
}
class D {
<<interface>>
int i1
f1()
}
```
#### State diagram
```mermaid
stateDiagram
[*] --> Still
Still --> [*]
Still --> Moving
Moving --> Still
Moving --> Crash
Crash --> [*]
```
```mermaid
stateDiagram
state fork_state <<fork>>
state "This is A" as A
[*] --> fork_state
[*] --> D
D --> fork_state
note right of D
note for D
end note
note left of A: note for A
fork_state --> A
fork_state --> B
A --> C: trans
B --> C
C --> [*]
state C {
[*] --> C1: test
C1 --> C2
C2 --> C3
C3 --> [*]
state C2 {
[*] --> C21
C21 --> [*]
state C21 {
[*] --> C211
}
}
C1: This is C1
--
[*] --> T
}
```
```mermaid
stateDiagram-v2
state fork_state <<fork>>
state "This is A" as A
[*] --> fork_state
[*] --> D
D --> fork_state
note right of D
note for D
end note
note left of A: note for A
fork_state --> A
fork_state --> B
A --> C: trans
B --> C
C --> [*]
state C {
[*] --> C1: test
C1 --> C2
C2 --> C3
C3 --> [*]
state C2 {
[*] --> C21
C21 --> [*]
state C21 {
[*] --> C211
}
}
C1: This is C1
--
[*] --> T
}
```
#### Entity Relationship Diagram
```mermaid
erDiagram
A |o--o| B : b
B ||--|| C : c
A }o..o{ D : d
D }|..|{ E : e
```
#### User Journey Diagram
```mermaid
journey
title My working day
section A
A1: 5: Me
A2: 3: Me
A3: 1: Me, Cat
A4: 2
A5: 4
```
#### Gantt
```mermaid
%% Example with selection of syntaxes
gantt
dateFormat YYYY-MM-DD
title Adding GANTT diagram functionality to mermaid
section A section
Completed task :done, des1, 2014-01-06,2014-01-08
Active task :active, des2, 2014-01-09, 3d
Future task : des3, after des2, 5d
Future task2 : des4, after des3, 5d
section Critical tasks
Completed task in the critical line :crit, done, 2014-01-06,24h
Implement parser and jison :crit, done, after des1, 2d
Create tests for parser :crit, active, 3d
Future task in critical line :crit, 5d
Create tests for renderer :2d
Add to mermaid :1d
section Documentation
Describe gantt syntax :active, a1, after des1, 3d
Add gantt diagram to demo page :after a1 , 20h
Add another diagram to demo page :doc1, after a1 , 48h
section Last section
Describe gantt syntax :after doc1, 3d
Add gantt diagram to demo page : 20h
Add another diagram to demo page : 48h
```
#### Pie Chart
```mermaid
pie
title Pie Chart
"A" : 1
"B" : 2
"C" : 3
"D" : 4
"E" : 5
"F" : 6
"G" : 7
"H" : 8
```