tachybase_todo/docs/en-US/development/client/ui-schema-designer/what-is-ui-schema.md
2022-11-08 14:39:29 +08:00

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# What is UI Schema?
A protocol for describing front-end components, based on Formily Schema 2.0, JSON Schema-like style.
```ts
interface ISchema {
type: 'void' | 'string' | 'number' | 'object' | 'array';
name?: string;
title?: any;
// wrapper component
['x-decorator']? : string;
// Wrapper component properties
['x-decorator-props']? : any;
// component
['x-component']? : string;
// Component properties
['x-component-props']? : any;
// display state, default is 'visible'
['x-display']? : 'none' | 'hidden' | 'visible';
// child node of the component, simply use
['x-content']? : any;
// children node schema
properties?: Record<string, ISchema>;
// The following is used only for field components
// field linkage
['x-reactions']? : SchemaReactions;
// Field UI interaction mode, default is 'editable'
['x-pattern']? : 'editable' | 'disabled' | 'readPretty';
// Field validation
['x-validator']? : Validator;
// default data
default: ? :any;
// Designer related
// Designer component (toolbar), including: drag and drop to move, insert new nodes, modify parameters, remove, etc.
['x-designer']? : any;
// Initializer component (toolbar), determines what can be inserted inside the current schema
['x-initializer']? : any;
}
```
## The simplest component
All native html tags can be converted to schema writing. For example
```ts
{
type: 'void',
'x-component': 'h1',
'x-content': 'Hello, world!
}
```
JSX examples
```tsx | pure
<h1>Hello, world!</h1>
```
## children components can be written in properties
```ts
{
type: 'void',
'x-component': 'div',
'x-component-props': { className: 'form-item' },
properties: {
title: {
type: 'string',
'x-component': 'input',
},
},
}
```
JSX is equivalent to
```tsx | pure
<div className={'form-item'}>
<input name={'title'} />
</div>
```
## The clever use of Decorator
The combination of decorator + component allows you to put two components in a single schema node, reducing the complexity of the schema structure and increasing the reusability of the components.
For example, in a form scenario, you can combine a FormItem component with any field component, where the FormItem is the Decorator.
```ts
{
type: 'void',
['x-component']: 'div',
properties: {
title: {
type: 'string',
'x-decorator': 'FormItem',
'x-component': 'Input',
},
content: {
type: 'string',
'x-decorator': 'FormItem',
'x-component': 'Input.TextArea',
},
},
}
```
JSX is equivalent to
```tsx | pure
<div>
<FormItem>
<Input name={'title'} />
</FormItem>
<FormItem>
<Input.TextArea name={'content'} />
</FormItem>
</div>
```
It is also possible to provide a CardItem component that wraps all blocks, so that all blocks are Card wrapped.
```ts
{
type: 'void',
['x-component']: 'div',
properties: {
title: {
type: 'string',
'x-decorator': 'CardItem',
'x-component': 'Table',
},
content: {
type: 'string',
'x-decorator': 'CardItem',
'x-component': 'Kanban',
},
},
}
```
JSX is equivalent to
```tsx | pure
<div>
<CardItem>
<Table />
</CardItem>
<CardItem>
<Kanban />
</CardItem>
</div>
```
## Display state of the component
- `'x-display': 'visible'`: the component is displayed
- `'x-display': 'hidden'`: component is hidden, data is not hidden
- `'x-display': 'none'`: component is hidden, data is also hidden
### `'x-display': 'visible'`
```ts
{
type: 'void',
'x-component': 'div',
'x-component-props': { className: 'form-item' },
properties: {
title: {
type: 'string',
'x-component': 'input',
'x-display': 'visible'
},
},
}
```
JSX is equivalent to
```tsx | pure
<div className={'form-item'}>
<input name={'title'} />
</div>
```
### `'x-display': 'hidden'`
```ts
{
type: 'void',
'x-component': 'div',
'x-component-props': { className: 'form-item' },
properties: {
title: {
type: 'string',
'x-component': 'input',
'x-display': 'hidden'
},
},
}
```
JSX is equivalent to
```tsx | pure
<div className={'form-item'}>
{/* The input component is not output here, the corresponding field model with name=title still exists */}
</div>
```
### `'x-display': 'none'`
```ts
{
type: 'void',
'x-component': 'div',
'x-component-props': { className: 'form-item' },
properties: {
title: {
type: 'string',
'x-component': 'input',
'x-display': 'none'
},
},
}
```
JSX is equivalent to
```tsx | pure
<div className={'form-item'}>
{/* The input component is not output here, and the corresponding field model with name=title does not exist anymore */}
</div>
```
## Display modes for components
For field components, there are three display modes:
- `'x-pattern': 'editable'` Editable
- `'x-pattern': 'disabled'` Non-editable
- `'x-pattern': 'readPretty'` Friendly reading
As in the case of the `<SingleText />` component, the editable and disabled modes are `<input />` and the readPretty mode is `<div />`.
### `'x-pattern': 'editable'`
```ts
const schema = {
name: 'test',
type: 'void',
'x-component': 'div',
'x-component-props': { className: 'form-item' },
properties: {
title: {
type: 'string',
default: 'Hello',
'x-component': 'SingleText',
'x-pattern': 'editable'
},
},
};
```
JSX is equivalent to
```tsx | pure
<div className={'form-item'}>
<input name={'title'} value={'Hello'} />
</div>
```
### `'x-pattern': 'disabled'`
```ts
const schema = {
name: 'test',
type: 'void',
'x-component': 'div',
'x-component-props': { className: 'form-item' },
properties: {
title: {
type: 'string',
default: 'Hello',
'x-component': 'SingleText',
'x-pattern': 'disabled'
},
},
};
```
JSX is equivalent to
```tsx | pure
<div className={'form-item'}>
<input name={'title'} value={'Hello'} disabled />
</div>
```
### `'x-pattern': 'readPretty'`
```ts
const schema = {
name: 'test',
type: 'void',
'x-component': 'div',
'x-component-props': { className: 'form-item' },
properties: {
title: {
type: 'string',
default: 'Hello',
'x-component': 'SingleText',
'x-pattern': 'readPretty',
},
},
};
```
JSX is equivalent to
```tsx | pure
<div className={'form-item'}>
<div>Hello</div>
</div>
```