239 lines
5.1 KiB
Markdown
239 lines
5.1 KiB
Markdown
# Sharkitek Core
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## Introduction
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Sharkitek is a Javascript / TypeScript library designed to ease development of client-side models.
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With Sharkitek, you define the architecture of your models by applying decorators (which define their type) on your class properties.
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Then, you can use the defined methods like `serialize`, `deserialize` or `serializeDiff`.
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Sharkitek makes use of decorators as defined in the [TypeScript Reference](https://www.typescriptlang.org/docs/handbook/decorators.html).
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Due to the way decorators work, you must always set a value to your properties when you declare them, even if this value is `undefined`.
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```typescript
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class Example extends Model
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{
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@Property(SNumeric)
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@Identifier
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id: number = undefined;
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@Property(SString)
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name: string = undefined;
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}
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```
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## Examples
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### Simple model definition
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```typescript
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/**
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* A person.
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*/
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class Person extends Model
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{
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@Property(SNumeric)
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@Identifier
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id: number = undefined;
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@Property(SString)
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name: string = undefined;
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@Property(SString)
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firstName: string = undefined;
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@Property(SString)
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email: string = undefined;
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}
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```
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**Important**: You _must_ set a value to all your defined properties. If there is no set value, the decorator will not
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be applied instantly on object initialization and the deserialization will not work properly.
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```typescript
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/**
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* An article.
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*/
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class Article extends Model
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{
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@Property(SNumeric)
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@Identifier
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id: number = undefined;
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@Property(SString)
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title: string = undefined;
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@Property(SArray(SModel(Author)))
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authors: Author[] = [];
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@Property(SString)
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text: string = undefined;
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@Property(SDecimal)
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evaluation: number = undefined;
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}
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```
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## API
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### Types
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Types are defined by a class extending `Type`.
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Sharkitek defines some basic types by default, in these classes:
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- `StringType`: string in the model, string in the serialized object.
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- `NumericType`: number in the model, number in the serialized object.
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- `DecimalType`: number in the model, formatted string in the serialized object.
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- `ArrayType`: array in the model, array in the serialized object.
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- `ModelType`: instance of a specific class in the model, object in the serialized object.
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When you are defining a Sharkitek property, you must provide its type by instantiating one of these classes.
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```typescript
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class Example extends Model
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{
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@Property(new StringType())
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foo: string = undefined;
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}
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```
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To ease the use of these classes and reduce read complexity, some constant variables and functions are defined in the library,
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following a certain naming convention: "S{type_name}".
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- `StringType` => `SString`
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- `NumericType` => `SNumeric`
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- `DecimalType` => `SDecimal`
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- `ArrayType` => `SArray`
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- `ModelType` => `SModel`
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When the types require parameters, the constant is defined as a function. If there is no parameter, then a simple
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variable is enough.
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Type implementers should provide a corresponding variable or function for each defined type. They can even provide
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multiple functions or constants when predefined parameters. (For example, we could define `SStringArray` which would
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be a variable similar to `SArray(SString)`.)
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```typescript
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class Example extends Model
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{
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@Property(SString)
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foo: string = undefined;
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}
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```
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### Models
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#### `serialize()`
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Serialize the model.
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Example:
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```typescript
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const serializedObject = model.serialize();
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```
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#### `deserialize(serializedObject)`
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Deserialize the model.
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Example:
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```typescript
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const model = (new TestModel()).deserialize({
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id: 5,
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title: "Hello World!",
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users: [
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{
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id: 6,
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name: "TEST",
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},
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],
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});
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```
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#### `serializeDiff()`
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Serialize the difference between current model state and original one.
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Example:
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```typescript
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const model = (new TestModel()).deserialize({
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id: 5,
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title: "Hello World!",
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users: [
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{
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id: 6,
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name: "TEST",
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},
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],
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});
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model.title = "A new title for a new world";
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const result = model.serializeDiff();
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// if `id` is defined as the model identifier:
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// result = { id: 5, title: "A new title for a new world" }
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// if `id` is not defined as the model identifier:
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// result = { title: "A new title for a new world" }
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```
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#### `resetDiff()`
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Set current properties values as original values.
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Example:
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```typescript
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const model = (new TestModel()).deserialize({
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id: 5,
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title: "Hello World!",
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users: [
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{
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id: 6,
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name: "TEST",
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},
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],
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});
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model.title = "A new title for a new world";
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model.resetDiff();
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const result = model.serializeDiff();
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// if `id` is defined as the model identifier:
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// result = { id: 5 }
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// if `id` is not defined as the model identifier:
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// result = {}
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```
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#### `save()`
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Get difference between original values and current ones, then reset it.
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Similar to call `serializeDiff()` then `resetDiff()`.
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```typescript
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const model = (new TestModel()).deserialize({
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id: 5,
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title: "Hello World!",
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users: [
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{
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id: 6,
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name: "TEST",
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},
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],
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});
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model.title = "A new title for a new world";
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const result = model.save();
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// if `id` is defined as the model identifier:
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// result = { id: 5, title: "A new title for a new world" }
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// if `id` is not defined as the model identifier:
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// result = { title: "A new title for a new world" }
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```
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