18 KiB
theme, background, title, class, drawings, transition, mdc
| theme | background | title | class | drawings | transition | mdc | ||
|---|---|---|---|---|---|---|---|---|
| default | assets/galaxy.jpg | Datastar | text-center |
|
slide-left | true |
To The Stars with Datastar
An interstellar journey
background: assets/galaxy.jpg
Drake Formular
$$ {1|2|3|4|5|6|7|all} \begin{aligned} N &= R_* \cdot f_p \cdot n_e \cdot f_l \cdot f_i \cdot f_c \cdot L \ R_* &= \text{rate of star formation} \ f_p &= \text{fraction of stars with planets} \ n_e &= \text{number of habitable planets per star} \ f_l &= \text{fraction where life develops} \ f_i &= \text{fraction where intelligent life evolves} \ f_c &= \text{fraction that develops detectable technology} \ L &= \text{length of time civilizations are detectable} \end{aligned}
</div>
---
class: text-center
---
<h2 v-click class="absolute top-4 left-1/2 -translate-x-1/2">The "Drake" Formular of Webtechnologies</h2>
<div class="mt-20">
$$ {1|all}
\begin{aligned}
N_w &= D_b \cdot L_b \cdot F_b \cdot P_t \cdot F_f \cdot S_m \cdot C_{ss} \cdot C_l \cdot H_p \\
\\
N_w &= \text{Total Possible Tech Stacks} \\
D_b &= \text{databases (PostgreSQL, MongoDB, MySQL...)} \\
L_b &= \text{backend languages (Javascript, Python, Go...)} \\
F_b &= \text{backend frameworks (Express, Django, FastAPI...)} \\
P_t &= \text{transport protocols (REST, GraphQL, gRPC...)} \\
F_f &= \text{frontend frameworks (React, Vue, Svelte...)} \\
S_m &= \text{state management (Redux, Zustand, Pinia...)} \\
C_{ss} &= \text{CSS frameworks (Tailwind, UnoCSS, Bootstrap...)} \\
C_l &= \text{component libraries (shadcn, MUI, Ant Design...)} \\
H_p &= \text{hosting platforms (Vercel, AWS, VPS...)} \\
\end{aligned}
The Space of Webtechnologies
\begin{aligned}
N_w &= ( D_b , L_b , F_b , P_t , F_f , S_m , C_{ss} , C_l , H_p ) \\
\\
\end{aligned}
- Every website or web application is one star in this space.
- There are many combinations that work well. While others no so much.
- We all plot our path in this space. And have our current home there.
- There are clusters in this space, i.e. the React-Cluster, oder Angular or Vue.
- My current home is in the L-O-B with Go and Vue vicinity.
- There is an old Cluster called Hypermedia. Where all Webapps once lived.
- Hypermedia has developed a new bulge called HTMX.
- Next to it is a new tiny blob, called Datastar.
class: text-center
My name is
Thomas Hedeler
A holistic developer
class: default transition: fade-out
How did I find Datastar? What is my motivation?
Finding my combination of web technologies for a minimal viable web application.
- Part 1: The Database: SQLite
- Part 2: The No-ORM ORM - A very simple Data Abstraction Layer.
- Part 3: Developing a Web Server Application in Go.
- Part 4: Datastar - a lightweight framework for real-time collaborative web apps.
- Part 5: Modern CSS.
- Part 6: Web components.
- Part 7: Simple Deployments with a VPS, Nginx, Certbot and a single binary file.
class: default transition: fade-out
Part 1: SQLite:
It is fast, feature complete* and rock solid.
It is not SQ-Lite, it is SQL-ite
Since everybody knows SQLite, today just a few highlights:
- It has JSON and JSONB as built-in data types.
- It has 29 new functions to extract from JSON or to create JSON objects.
- It's CTEs make SQL Turing complete.
- The SQLite CLI can be used to execute "SQL-scripts". See demo.
Part 2: A very simple Data Abstraction Layer:
Features:
- Simplified Database Lifecycle Management.
- Generic Data Handling.
- High-Level CRUD Operations.
- Fluent Transaction API.
- Database Introspection.
- Abstraction and Safety.
- Utility Functions.
Part 3: Developing a Web Server Application in Go.
Why Go?
- Go is a compiled language that generates native machine code.
- Generic Data Handling.
- High-Level CRUD Operations.
- Fluent Transaction API.
- Database Introspection.
- Abstraction and Safety.
- Utility Functions.
class: default
Slidev is a slides maker and presenter designed for developers, consist of the following features
- 📝 Text-based - focus on the content with Markdown, and then style them later
- 🎨 Themable - themes can be shared and re-used as npm packages
- 🧑💻 Developer Friendly - code highlighting, live coding with autocompletion
- 🤹 Interactive - embed Vue components to enhance your expressions
- 🎥 Recording - built-in recording and camera view
- 📤 Portable - export to PDF, PPTX, PNGs, or even a hostable SPA
- 🛠 Hackable - virtually anything that's possible on a webpage is possible in Slidev
Read more about Why Slidev?
transition: slide-up level: 2
Navigation
Hover on the bottom-left corner to see the navigation's controls panel, learn more
Keyboard Shortcuts
| right / space | next animation or slide |
| left / shiftspace | previous animation or slide |
| up | previous slide |
| down | next slide |
Here!
layout: two-cols layoutClass: gap-16
Table of contents
You can use the Toc component to generate a table of contents for your slides:
<Toc minDepth="1" maxDepth="1" />
The title will be inferred from your slide content, or you can override it with title and level in your frontmatter.
::right::
layout: image-right image: https://cover.sli.dev
Code
Use code snippets and get the highlighting directly, and even types hover!
// TwoSlash enables TypeScript hover information
// and errors in markdown code blocks
// More at https://shiki.style/packages/twoslash
import { computed, ref } from 'vue'
const count = ref(0)
const doubled = computed(() => count.value * 2)
doubled.value = 2
<<< @/snippets/external.ts#snippet
level: 2
Shiki Magic Move
Powered by shiki-magic-move, Slidev supports animations across multiple code snippets.
Add multiple code blocks and wrap them with ````md magic-move (four backticks) to enable the magic move. For example:
```ts {*|2|*}
// step 1
const author = reactive({
name: 'John Doe',
books: [
'Vue 2 - Advanced Guide',
'Vue 3 - Basic Guide',
'Vue 4 - The Mystery'
]
})
```
```ts {*|1-2|3-4|3-4,8}
// step 2
export default {
data() {
return {
author: {
name: 'John Doe',
books: [
'Vue 2 - Advanced Guide',
'Vue 3 - Basic Guide',
'Vue 4 - The Mystery'
]
}
}
}
}
```
```ts
// step 3
export default {
data: () => ({
author: {
name: 'John Doe',
books: [
'Vue 2 - Advanced Guide',
'Vue 3 - Basic Guide',
'Vue 4 - The Mystery'
]
}
})
}
```
Non-code blocks are ignored.
```vue
<!-- step 4 -->
<script setup>
const author = {
name: 'John Doe',
books: [
'Vue 2 - Advanced Guide',
'Vue 3 - Basic Guide',
'Vue 4 - The Mystery'
]
}
</script>
```
Components
You can use Vue components directly inside your slides.
We have provided a few built-in components like <Tweet/> and <Youtube/> that you can use directly. And adding your custom components is also super easy.
<Counter :count="10" />
Check out the guides for more.
<Tweet id="1390115482657726468" />
class: px-20
Themes
Slidev comes with powerful theming support. Themes can provide styles, layouts, components, or even configurations for tools. Switching between themes by just one edit in your frontmatter:
---
theme: default
---
---
theme: seriph
---
Read more about How to use a theme and check out the Awesome Themes Gallery.
Clicks Animations
You can add v-click to elements to add a click animation.
This shows up when you click the slide:
<div v-click>This shows up when you click the slide.</div>
The v-mark directive
also allows you to add
inline marks
, powered by Rough Notation:
<span v-mark.underline.orange>inline markers</span>
HTTP - Protocol
Reducing the Network to a Remote Procedure Call
{
const { data, error } = await to(fetch("https://api.example.com/api/users/11"));
if (error) {
// handle error
return;
}
// handle data
}
// the function that "unwraps" the promise:
export function to(promise: Promise<Response>) {
return promise
.then((response) => response.json())
.then((data) => ({ data, error: null }))
.catch((error) => ({ data: null, error }));
}
LaTeX
LaTeX is supported out-of-box. Powered by KaTeX.
Inline \sqrt{3x-1}+(1+x)^2
Block $$ {1|3|all} \begin{aligned} \nabla \cdot \vec{E} &= \frac{\rho}{\varepsilon_0} \ \nabla \cdot \vec{B} &= 0 \ \nabla \times \vec{E} &= -\frac{\partial\vec{B}}{\partial t} \ \nabla \times \vec{B} &= \mu_0\vec{J} + \mu_0\varepsilon_0\frac{\partial\vec{E}}{\partial t} \end{aligned}
---
$$ {1|2|3|4|5|6|7|all}
\begin{aligned}
N &= R_* \cdot f_p \cdot n_e \cdot f_l \cdot f_i \cdot f_c \cdot L \\
R_* &= \text{rate of star formation} \\
f_p &= \text{fraction of stars with planets} \\
n_e &= \text{number of habitable planets per star} \\
f_l &= \text{fraction where life develops} \\
f_i &= \text{fraction where intelligent life evolves} \\
f_c &= \text{fraction that develops detectable technology} \\
L &= \text{length of time civilizations are detectable}
\end{aligned}
Drake Formular
Drake Formular
$$ {1|2|3|4|5|6|7|all} \begin{aligned} N &= R_* \cdot f_p \cdot n_e \cdot f_l \cdot f_i \cdot f_c \cdot L \ R_* &= \text{rate of star formation} \ f_p &= \text{fraction of stars with planets} \ n_e &= \text{number of habitable planets per star} \ f_l &= \text{fraction where life develops} \ f_i &= \text{fraction where intelligent life evolves} \ f_c &= \text{fraction that develops detectable technology} \ L &= \text{length of time civilizations are detectable} \end{aligned}
</div>
---
class: text-center
---
## The "Drake" Formular of Webtechnologies
$$ {1|all|1}
\begin{aligned}
N_w &= D_b \cdot L_b \cdot F_b \cdot P_t \cdot F_f \cdot S_m \cdot C_{ss} \cdot C_l \cdot H_p \\
\\
N_w &= \text{Total Possible Tech Stacks} \\
D_b &= \text{databases (PostgreSQL, MongoDB, MySQL...)} \\
L_b &= \text{backend languages (Javascript, Python, Go...)} \\
F_b &= \text{backend frameworks (Express, Django, FastAPI...)} \\
P_t &= \text{transport protocols (REST, GraphQL, gRPC...)} \\
F_f &= \text{frontend frameworks (React, Vue, Svelte...)} \\
S_m &= \text{state management (Redux, Zustand, Pinia...)} \\
C_{ss} &= \text{CSS frameworks (Tailwind, UnoCSS, Bootstrap...)} \\
C_l &= \text{component libraries (shadcn, MUI, Ant Design...)} \\
H_p &= \text{hosting platforms (Vercel, AWS, VPS...)} \\
\end{aligned}
Diagrams
You can create diagrams / graphs from textual descriptions, directly in your Markdown.
sequenceDiagram
Alice->John: Hello John, how are you?
Note over Alice,John: A typical interaction
graph TD
B[Text] --> C{Decision}
C -->|One| D[Result 1]
C -->|Two| E[Result 2]
mindmap
root((mindmap))
Origins
Long history
::icon(fa fa-book)
Popularisation
British popular psychology author Tony Buzan
Research
On effectiveness<br/>and features
On Automatic creation
Uses
Creative techniques
Strategic planning
Argument mapping
Tools
Pen and paper
Mermaid
@startuml
package "Some Group" {
HTTP - [First Component]
[Another Component]
}
node "Other Groups" {
FTP - [Second Component]
[First Component] --> FTP
}
cloud {
[Example 1]
}
database "MySql" {
folder "This is my folder" {
[Folder 3]
}
frame "Foo" {
[Frame 4]
}
}
[Another Component] --> [Example 1]
[Example 1] --> [Folder 3]
[Folder 3] --> [Frame 4]
@enduml
Learn more: Mermaid Diagrams and PlantUML Diagrams
class: text-center
The Journey
In the beginning, there was chaos...
But then a hero emerged!
And everything changed.
foo: bar dragPos: square: 691,32,167,_,-16
Draggable Elements
Double-click on the draggable elements to edit their positions.
Directive Usage
<img v-drag="'square'" src="https://sli.dev/logo.png">
Component Usage
<v-drag text-3xl>
<div class="i-carbon:arrow-up" />
Use the `v-drag` component to have a draggable container!
</v-drag>
Draggable Arrow
<v-drag-arrow two-way />
src: ./pages/imported-slides.md hide: false
Monaco Editor
Slidev provides built-in Monaco Editor support.
Add {monaco} to the code block to turn it into an editor:
import { ref } from 'vue'
import { emptyArray } from './external'
const arr = ref(emptyArray(10))
Use {monaco-run} to create an editor that can execute the code directly in the slide:
import { version } from 'vue'
import { emptyArray, sayHello } from './external'
sayHello()
console.log(`vue ${version}`)
console.log(emptyArray<number>(10).reduce(fib => [...fib, fib.at(-1)! + fib.at(-2)!], [1, 1]))