10 KiB
This is the title
Level 1 in org-mode
This is a text I write so we can test many different details of a web page.
The text can be bold, italic, strikethrough or keyword
.
Here is a link to another page.
There should be whitespace between paragraphs.
Multiples lines in the source code should be set as a single paragraph. But if I use a double space There should be a forced newline.
Width
Testing the width: I use a max width of 76
--------10--------20--------30--------40--------50--------60--------70-----
123456789-123456789-123456789-123456789-123456789-123456789-123456789-12345
123456789-123456789-123456789-123456789-123456789-123456789-123456789-123456
123456789-123456789-123456789-123456789-123456789-123456789-123456789-1234567
123456789-123456789-123456789-123456789-123456789-123456789-123456789-12345678
123456789-123456789-123456789-123456789-123456789-123456789-123456789-123456789
123456789-123456789-123456789-123456789-123456789-123456789-123456789-123456789-
123456789-123456789-123456789-123456789-123456789-123456789-123456789-123456789-1
a b c d e f g h i j k l m n o p q r s t u v w x y z A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 0 1 2 3 4 5 6 7 8 9 a b c d e f g h i j k l m n o p q r s t u v w x y z
a0 b c d e f g h i j k l m n o p q r s t u v w x y z A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 0 1 2 3 4 5 6 7 8 9 a b c d e f g h i j k l m n o p q r s t u v w x y z
Math
Let also try to write some math inside the text $\pi_1(X,x_0)$
\(x^y / \log(x)\)
\[ \prod_{i=0}^n \sum_{x_i\in E} \frac{1}{x_i} \]
Blocks
Notes
This is some note. With a bit of information and text. Perhaps a list:
- thing
- another thing
Examples
This is an example. We can say a few things. Perhaps a list: - thing - another thing
Lists
Ordered lists
- counting with very very long lines. Just to check that everything is all right regarding very long lines inside list, but also nested lists.
- foo
- bar
- baz
- counting
- up
- to
- a
- big
- number enough
- to have two
- digits
- The simplest example of a homotopy group is the fundamental group of a space, which is written $\pi_1(X,x_0)$: Given a space $X$ and a point $x_0$ in it, one can make a group whose elements are loops at $x_0$ (continuous paths from $x_0$ to $x_0$), considered up to homotopy, with the group operations given by the identity path (standing still), path concatenation, and path reversal. For example, the fundamental group of the $2$-sphere is trivial, but the fundamental group of the torus is not, which shows that the sphere and the torus are not homotopy equivalent. The intuition is that every loop on the sphere is homotopic to the identity, because its inside can be filled in. In contrast, a loop on the torus that goes through the donut's hole is not homotopic to the identity, so there are non-trivial elements in the fundamental group.
- Lot of things.
Unordered list
- counting with very very long lines. Just to check that everything is all right regarding very long lines inside list, but also nested lists.
- foo
- bar
- baz
- counting
- up
- to
- a
- big
- number enough
- to have two
- digits
- The simplest example of a homotopy group is the fundamental group of a space, which is written $\pi_1(X,x_0)$: Given a space $X$ and a point $x_0$ in it, one can make a group whose elements are loops at $x_0$ (continuous paths from $x_0$ to $x_0$), considered up to homotopy, with the group operations given by the identity path (standing still), path concatenation, and path reversal. For example, the fundamental group of the $2$-sphere is trivial, but the fundamental group of the torus is not, which shows that the sphere and the torus are not homotopy equivalent. The intuition is that every loop on the sphere is homotopic to the identity, because its inside can be filled in. In contrast, a loop on the torus that goes through the donut's hole is not homotopic to the identity, so there are non-trivial elements in the fundamental group.
- Lot of things.
Nested
- counting with very very long lines. Just to check that everything is all right regarding very long lines inside list, but also nested lists.
-
foo
-
bar
-
baz
- quux
-
-
-
The simplest example of a homotopy group is the fundamental group of a space, which is written $\pi_1(X,x_0)$: Given a space $X$ and a point $x_0$ in it, one can make a group whose elements are loops at $x_0$ (continuous paths from $x_0$ to $x_0$), considered up to homotopy, with the group operations given by the identity path (standing still), path concatenation, and path reversal.
- counting with very very long lines. Just to check that everything is all right regarding very long lines inside list, but also nested lists.
-
foo
- Something else to nest.
- For example, the fundamental group of the $2$-sphere is trivial, but the fundamental group of the torus is not, which shows that the sphere and the torus are not homotopy equivalent. The intuition is that every loop on the sphere is homotopic to the identity, because its inside can be filled in. In contrast, a loop on the torus that goes through the donut's hole is not homotopic to the identity, so there are non-trivial elements in the fundamental group.
- The simplest example of a homotopy group is the fundamental group of a space, which is written $\pi_1(X,x_0)$: Given a space $X$ and a point $x_0$ in it, one can make a group whose elements are loops at $x_0$ (continuous paths from $x_0$ to $x_0$), considered up to homotopy, with the group operations given by the identity path (standing still), path concatenation, and path reversal.
- Lot of things.
- Lot of things.
Level 1
Level 2 - paragraph
There should be whitespace between paragraphs. GitHub is a code hosting platform for version control and collaboration. It lets you and others work together on projects from anywhere.
Level 3 - blockquote
This is a blockquote following a header.
When something is important enough, you do it even if the odds are not in your favor.
Level 4 - source code
// Javascript code with syntax highlighting.
var fun = function lang(l) {
dateformat.i18n = require('./lang/' + l)
return true;
}
# Ruby code with syntax highlighting
GitHubPages::Dependencies.gems.each do |gem, version|
s.add_dependency(gem, "= #{version}")
end
(defn clj-fn
"A clojure function with syntax highlighting"
[arg]
(clojure.pprint/pprint arg))
-- main hello world
main :: IO ()
main = do
putStrLn "What is your name?"
name <- getLine
putStrLn $ "Hello " <> name <> "!"
Level 5 - table and rules
head1 | head two |
---|---|
Sir Robin | the not so brave |
Lancelot | search the holy graal |
Galaad | the pure |
Zoot | Just Zoot |
Bad too wide table…
head1 | head two | head3 | head4 | head5 | head 6 | head7 |
---|---|---|---|---|---|---|
Sir Robin | the not so brave | very big content here | super long content | What could I say, I like trying to break things | n/a | superlongwordthatcouldnotfitcorrectly |
Lancelot | search the holy graal |
|||||
Galaad | the pure | |||||
Zoot | Just Zoot |
There's a horizontal rule below this
Image
an image:
We could try inline image just to check.
-
item with img
- item with img
TODOs
- State "HOLD" from "IN-REVIEW" [2019-07-09 Tue 13:44]
some reason
- State "WAITING" from [2019-07-09 Tue 13:44]
waiting for someone
CLOSED: [2019-07-09 Tue 13:45]
- State "CANCELED" from [2019-07-09 Tue 13:45] \\
cancel reason