Compare commits

..

6 commits
v3.0.1 ... main

9 changed files with 309 additions and 151 deletions

View file

@ -19,7 +19,7 @@
</p>
<p align="center">
<img alt="Version 3.0.1" src="https://img.shields.io/badge/version-3.0.1-blue" />
<img alt="Version 3.3.0" src="https://img.shields.io/badge/version-3.3.0-blue" />
</p>
## Introduction
@ -27,7 +27,7 @@
Sharkitek is a Javascript / TypeScript library designed to ease development of client-side models.
With Sharkitek, you define the architecture of your models by specifying their properties and their types.
Then, you can use the defined methods like `serialize`, `deserialize`, `save` or `serializeDiff`.
Then, you can use the defined methods like `serialize`, `deserialize`, `patch` or `serializeDiff`.
```typescript
class Example extends s.model({
@ -227,7 +227,7 @@ const result = model.serializeDiff();
// result = {}
```
#### `save()`
#### `patch()`
Get difference between original values and current ones, then reset it.
Similar to call `serializeDiff()` then `resetDiff()`.
@ -246,7 +246,7 @@ const model = (new TestModel()).deserialize({
model.title = "A new title for a new world";
const result = model.save();
const result = model.patch();
// if `id` is defined as the model identifier:
// result = { id: 5, title: "A new title for a new world" }
// if `id` is not defined as the model identifier:

View file

@ -1,6 +1,6 @@
{
"name": "@sharkitek/core",
"version": "3.0.1",
"version": "3.3.0",
"description": "TypeScript library for well-designed model architectures.",
"keywords": [
"deserialization",

View file

@ -34,26 +34,46 @@ export type SerializedModel<Shape extends ModelShape> = {
*/
export type Model<Shape extends ModelShape, IdentifierType = unknown> = ModelDefinition<Shape, IdentifierType> & PropertiesModel<Shape>;
/**
* Type of the extends function of model classes.
*/
export type ExtendsFunctionType<ModelType extends Model<Shape, IdentifierType<Shape, Identifier>>, Shape extends ModelShape, Identifier extends keyof Shape = any> =
<Extension extends object>(extension: ThisType<ModelType> & Extension) => ModelClass<ModelType & Extension, Shape, Identifier>;
/**
* Type of a model class.
*/
export type ModelClass<Shape extends ModelShape, Identifier extends keyof Shape = any> = ConstructorOf<Model<Shape, IdentifierType<Shape, Identifier>>>;
export type ModelClass<ModelType extends Model<Shape, IdentifierType<Shape, Identifier>>, Shape extends ModelShape, Identifier extends keyof Shape = any> = (
ConstructorOf<ModelType> & {
extends: ExtendsFunctionType<ModelType, Shape, Identifier>;
}
);
/**
* Identifier type.
*/
export type IdentifierType<Shape extends ModelShape, K extends keyof Shape> = Shape[K]["_sharkitek"];
/**
* Identifier name type.
*/
export type IdentifierNameType<Shape> = Shape extends ModelShape ? keyof Shape : unknown;
/**
* Interface of a Sharkitek model definition.
*/
export interface ModelDefinition<Shape extends ModelShape, IdentifierType>
export interface ModelDefinition<Shape extends ModelShape, IdentifierType, ModelType extends Model<Shape, IdentifierType> = Model<Shape, IdentifierType>>
{
/**
* Get model identifier.
*/
getIdentifier(): IdentifierType;
/**
* Get model identifier name.
*/
getIdentifierName(): IdentifierNameType<Shape>;
/**
* Serialize the model.
*/
@ -62,7 +82,7 @@ export interface ModelDefinition<Shape extends ModelShape, IdentifierType>
* Deserialize the model.
* @param obj Serialized object.
*/
deserialize(obj: SerializedModel<Shape>): Model<Shape, IdentifierType>;
deserialize(obj: SerializedModel<Shape>): ModelType;
/**
* Find out if the model is new (never deserialized) or not.
@ -85,7 +105,7 @@ export interface ModelDefinition<Shape extends ModelShape, IdentifierType>
* Get difference between original values and current ones, then reset it.
* Similar to call `serializeDiff()` then `resetDiff()`.
*/
save(): Partial<SerializedModel<Shape>>;
patch(): Partial<SerializedModel<Shape>>;
}
/**
@ -93,144 +113,184 @@ export interface ModelDefinition<Shape extends ModelShape, IdentifierType>
* @param shape Model shape definition.
* @param identifier Identifier property name.
*/
export function model<Shape extends ModelShape, Identifier extends keyof Shape = any>(
export function model<ModelType extends Model<Shape, IdentifierType<Shape, Identifier>>, Shape extends ModelShape, Identifier extends IdentifierNameType<Shape> = any>(
shape: Shape,
identifier?: Identifier,
): ModelClass<Shape, Identifier>
): ModelClass<ModelType, Shape, Identifier>
{
// Get shape entries.
const shapeEntries = Object.entries(shape) as [keyof Shape, UnknownDefinition][];
return class GenericModel implements ModelDefinition<Shape, IdentifierType<Shape, Identifier>>
{
constructor()
return withExtends(
// Initialize generic model class.
class GenericModel implements ModelDefinition<Shape, IdentifierType<Shape, Identifier>, ModelType>
{
// Initialize properties to undefined.
Object.assign(this,
// Build empty properties model from shape entries.
Object.fromEntries(shapeEntries.map(([key]) => [key, undefined])) as PropertiesModel<Shape>
);
}
constructor()
{
// Initialize properties to undefined.
Object.assign(this,
// Build empty properties model from shape entries.
Object.fromEntries(shapeEntries.map(([key]) => [key, undefined])) as PropertiesModel<Shape>
);
}
/**
* Calling a function for each defined property.
* @param callback - The function to call.
* @protected
*/
protected forEachModelProperty<ReturnType>(callback: (propertyName: keyof Shape, propertyDefinition: UnknownDefinition) => ReturnType): ReturnType
{
for (const [propertyName, propertyDefinition] of shapeEntries)
{ // For each property, checking that its type is defined and calling the callback with its type.
// If the property is defined, calling the function with the property name and definition.
const result = callback(propertyName, propertyDefinition);
// If there is a return value, returning it directly (loop is broken).
if (typeof result !== "undefined") return result;
/**
* Calling a function for each defined property.
* @param callback - The function to call.
* @protected
*/
protected forEachModelProperty<ReturnType>(callback: (propertyName: keyof Shape, propertyDefinition: UnknownDefinition) => ReturnType): ReturnType
{
for (const [propertyName, propertyDefinition] of shapeEntries)
{ // For each property, checking that its type is defined and calling the callback with its type.
// If the property is defined, calling the function with the property name and definition.
const result = callback(propertyName, propertyDefinition);
// If there is a return value, returning it directly (loop is broken).
if (typeof result !== "undefined") return result;
}
}
/**
* The original properties values.
* @protected
*/
protected _originalProperties: Partial<PropertiesModel<Shape>> = {};
/**
* The original (serialized) object.
* @protected
*/
protected _originalObject: SerializedModel<Shape>|null = null;
getIdentifier(): IdentifierType<Shape, Identifier>
{
return (this as PropertiesModel<Shape>)?.[identifier];
}
getIdentifierName(): IdentifierNameType<Shape>
{
return identifier;
}
serialize(): SerializedModel<Shape>
{
// Creating an empty (=> partial) serialized object.
const serializedObject: Partial<SerializedModel<Shape>> = {};
this.forEachModelProperty((propertyName, propertyDefinition) => {
// For each defined model property, adding it to the serialized object.
serializedObject[propertyName] = propertyDefinition.type.serialize((this as PropertiesModel<Shape>)?.[propertyName]);
});
return serializedObject as SerializedModel<Shape>; // Returning the serialized object.
}
deserialize(obj: SerializedModel<Shape>): ModelType
{
this.forEachModelProperty((propertyName, propertyDefinition) => {
// For each defined model property, assigning its deserialized value.
(this as PropertiesModel<Shape>)[propertyName] = propertyDefinition.type.deserialize(obj[propertyName]);
});
// Reset original property values.
this.resetDiff();
this._originalObject = obj; // The model is not a new one, but loaded from a deserialized one. Storing it.
return this as unknown as ModelType;
}
isNew(): boolean
{
return !this._originalObject;
}
isDirty(): boolean
{
return this.forEachModelProperty((propertyName, propertyDefinition) => (
// For each property, checking if it is different.
propertyDefinition.type.propertyHasChanged(this._originalProperties[propertyName], (this as PropertiesModel<Shape>)[propertyName])
// There is a difference, we should return false.
? true
// There is no difference, returning nothing.
: undefined
)) === true;
}
serializeDiff(): Partial<SerializedModel<Shape>>
{
// Creating an empty (=> partial) serialized object.
const serializedObject: Partial<SerializedModel<Shape>> = {};
this.forEachModelProperty((propertyName, propertyDefinition) => {
// For each defined model property, adding it to the serialized object if it has changed or if it is the identifier.
if (
identifier == propertyName ||
propertyDefinition.type.propertyHasChanged(this._originalProperties[propertyName], (this as PropertiesModel<Shape>)[propertyName])
) // Adding the current property to the serialized object if it is the identifier or its value has changed.
serializedObject[propertyName] = propertyDefinition.type.serializeDiff((this as PropertiesModel<Shape>)?.[propertyName]);
});
return serializedObject; // Returning the serialized object.
}
resetDiff(): void
{
this.forEachModelProperty((propertyName, propertyDefinition) => {
// For each property, set its original value to its current property value.
this._originalProperties[propertyName] = structuredClone(this as PropertiesModel<Shape>)[propertyName];
propertyDefinition.type.resetDiff((this as PropertiesModel<Shape>)[propertyName]);
});
}
patch(): Partial<SerializedModel<Shape>>
{
// Get the difference.
const diff = this.serializeDiff();
// Once the difference has been obtained, reset it.
this.resetDiff();
return diff; // Return the difference.
}
} as unknown as ConstructorOf<ModelType>
);
}
/**
* Any Sharkitek model.
*/
export type AnyModel = Model<any, any>;
/**
* Any Sharkitek model class.
*/
export type AnyModelClass = ModelClass<AnyModel, any>;
/**
* Add extends function to a model class.
* @param genericModel The model class on which to add the extends function.
*/
function withExtends<ModelType extends Model<Shape, IdentifierType<Shape, Identifier>>, Shape extends ModelShape, Identifier extends keyof Shape = any>(
genericModel: ConstructorOf<ModelType>
): ModelClass<ModelType, Shape, Identifier>
{
return Object.assign(
genericModel,
{ // Extends function definition.
extends<Extension extends object>(extension: Extension): ModelClass<ModelType & Extension, Shape, Identifier>
{
// Clone the model class and add extends function.
const classClone = withExtends(class extends (genericModel as AnyModelClass) {} as AnyModelClass as ConstructorOf<ModelType & Extension>);
// Add extension to the model class prototype.
Object.assign(classClone.prototype, extension);
return classClone;
}
}
/**
* The original properties values.
* @protected
*/
protected _originalProperties: Partial<PropertiesModel<Shape>> = {};
/**
* The original (serialized) object.
* @protected
*/
protected _originalObject: SerializedModel<Shape>|null = null;
getIdentifier(): IdentifierType<Shape, Identifier>
{
return (this as PropertiesModel<Shape>)?.[identifier];
}
serialize(): SerializedModel<Shape>
{
// Creating an empty (=> partial) serialized object.
const serializedObject: Partial<SerializedModel<Shape>> = {};
this.forEachModelProperty((propertyName, propertyDefinition) => {
// For each defined model property, adding it to the serialized object.
serializedObject[propertyName] = propertyDefinition.type.serialize((this as PropertiesModel<Shape>)?.[propertyName]);
});
return serializedObject as SerializedModel<Shape>; // Returning the serialized object.
}
deserialize(obj: SerializedModel<Shape>): Model<Shape, IdentifierType<Shape, Identifier>>
{
this.forEachModelProperty((propertyName, propertyDefinition) => {
// For each defined model property, assigning its deserialized value.
(this as PropertiesModel<Shape>)[propertyName] = propertyDefinition.type.deserialize(obj[propertyName]);
});
// Reset original property values.
this.resetDiff();
this._originalObject = obj; // The model is not a new one, but loaded from a deserialized one. Storing it.
return this as Model<Shape, IdentifierType<Shape, Identifier>>;
}
isNew(): boolean
{
return !this._originalObject;
}
isDirty(): boolean
{
return this.forEachModelProperty((propertyName, propertyDefinition) => (
// For each property, checking if it is different.
propertyDefinition.type.propertyHasChanged(this._originalProperties[propertyName], (this as PropertiesModel<Shape>)[propertyName])
// There is a difference, we should return false.
? true
// There is no difference, returning nothing.
: undefined
)) === true;
}
serializeDiff(): Partial<SerializedModel<Shape>>
{
// Creating an empty (=> partial) serialized object.
const serializedObject: Partial<SerializedModel<Shape>> = {};
this.forEachModelProperty((propertyName, propertyDefinition) => {
// For each defined model property, adding it to the serialized object if it has changed or if it is the identifier.
if (
identifier == propertyName ||
propertyDefinition.type.propertyHasChanged(this._originalProperties[propertyName], (this as PropertiesModel<Shape>)[propertyName])
) // Adding the current property to the serialized object if it is the identifier or its value has changed.
serializedObject[propertyName] = propertyDefinition.type.serializeDiff((this as PropertiesModel<Shape>)?.[propertyName]);
});
return serializedObject; // Returning the serialized object.
}
resetDiff(): void
{
this.forEachModelProperty((propertyName, propertyDefinition) => {
// For each property, set its original value to its current property value.
this._originalProperties[propertyName] = (this as PropertiesModel<Shape>)[propertyName];
propertyDefinition.type.resetDiff((this as PropertiesModel<Shape>)[propertyName]);
});
}
save(): Partial<SerializedModel<Shape>>
{
// Get the difference.
const diff = this.serializeDiff();
// Once the difference has been obtained, reset it.
this.resetDiff();
return diff; // Return the difference.
}
} as unknown as ModelClass<Shape, Identifier>;
) as AnyModelClass as ModelClass<ModelType, Shape, Identifier>;
}

View file

@ -54,6 +54,40 @@ export class ArrayType<SerializedValueType, SharkitekValueType> extends Type<Ser
// Reset diff of all elements.
value.forEach((value) => this.valueDefinition.type.resetDiff(value));
}
propertyHasChanged(originalValue: SharkitekValueType[]|null|undefined, currentValue: SharkitekValueType[]|null|undefined): boolean
{
// If any array length is different, arrays are different.
if (originalValue?.length != currentValue?.length) return true;
// If length is undefined, values are probably not arrays.
if (originalValue?.length == undefined) return false;
for (const key of originalValue.keys())
{ // Check for any change for each value in the array.
if (this.valueDefinition.type.propertyHasChanged(originalValue[key], currentValue[key]))
// The value has changed, the array is different.
return true;
}
return false; // No change detected.
}
serializedPropertyHasChanged(originalValue: SerializedValueType[] | null | undefined, currentValue: SerializedValueType[] | null | undefined): boolean
{
// If any array length is different, arrays are different.
if (originalValue?.length != currentValue?.length) return true;
// If length is undefined, values are probably not arrays.
if (originalValue?.length == undefined) return false;
for (const key of originalValue.keys())
{ // Check for any change for each value in the array.
if (this.valueDefinition.type.serializedPropertyHasChanged(originalValue[key], currentValue[key]))
// The value has changed, the array is different.
return true;
}
return false; // No change detected.
}
}
/**

View file

@ -21,6 +21,11 @@ export class DateType extends Type<string, Date>
return value?.toISOString();
}
propertyHasChanged(originalValue: Date|null|undefined, currentValue: Date|null|undefined): boolean
{
return originalValue?.toISOString() != currentValue?.toISOString();
}
}
/**

View file

@ -48,6 +48,15 @@ export class ModelType<Shape extends ModelShape> extends Type<SerializedModel<Sh
// Reset diff of the given model.
value?.resetDiff();
}
propertyHasChanged(originalValue: Model<Shape>|null|undefined, currentValue: Model<Shape>|null|undefined): boolean
{
if (originalValue === undefined) return currentValue !== undefined;
if (originalValue === null) return currentValue !== null;
// If the current value is dirty, property has changed.
return currentValue.isDirty();
}
}
/**

View file

@ -66,6 +66,46 @@ export class ObjectType<Shape extends ModelShape> extends Type<SerializedModel<S
fieldDefinition.type.resetDiff(value?.[fieldName]);
});
}
propertyHasChanged(originalValue: PropertiesModel<Shape>|null|undefined, currentValue: PropertiesModel<Shape>|null|undefined): boolean
{
// Get keys arrays.
const originalKeys = Object.keys(originalValue) as (keyof Shape)[];
const currentKeys = Object.keys(currentValue) as (keyof Shape)[];
if (originalKeys.join(",") != currentKeys.join(","))
// Keys have changed, objects are different.
return true;
for (const key of originalKeys)
{ // Check for any change for each value in the object.
if (this.shape[key].type.propertyHasChanged(originalValue[key], currentValue[key]))
// The value has changed, the object is different.
return true;
}
return false; // No change detected.
}
serializedPropertyHasChanged(originalValue: SerializedModel<Shape>|null|undefined, currentValue: SerializedModel<Shape>|null|undefined): boolean
{
// Get keys arrays.
const originalKeys = Object.keys(originalValue) as (keyof Shape)[];
const currentKeys = Object.keys(currentValue) as (keyof Shape)[];
if (originalKeys.join(",") != currentKeys.join(","))
// Keys have changed, objects are different.
return true;
for (const key of originalKeys)
{ // Check for any change for each value in the object.
if (this.shape[key].type.serializedPropertyHasChanged(originalValue[key], currentValue[key]))
// The value has changed, the object is different.
return true;
}
return false; // No change detected.
}
}
/**

View file

@ -9,6 +9,11 @@ class Author extends s.model({
email: s.property.string(),
createdAt: s.property.date(),
active: s.property.bool(),
}).extends({
extension(): string
{
return this.name;
}
})
{
active: boolean = true;
@ -104,7 +109,7 @@ it("create and check state then serialize", () => {
});
it("deserialize then save", () => {
it("deserialize then patch", () => {
const article = (new Article()).deserialize({
id: 1,
title: "this is a test",
@ -125,35 +130,39 @@ it("deserialize then save", () => {
expect(article.isDirty()).toBeTruthy();
expect(article.save()).toStrictEqual({
expect(article.patch()).toStrictEqual({
id: 1,
text: "Modified text.",
});
});
it("save with modified submodels", () => {
it("patch with modified submodels", () => {
const article = (new Article()).deserialize({
id: 1,
title: "this is a test",
authors: [
{ name: "DOE", firstName: "John", email: "test@test.test", createdAt: (new Date()).toISOString(), active: true, },
{ name: "TEST", firstName: "Another", email: "another@test.test", createdAt: (new Date()).toISOString(), active: false, },
{ name: "TEST", firstName: "Another", email: "another@test.test", createdAt: (new Date("1997-09-09")).toISOString(), active: false, },
],
text: "this is a long test.",
evaluation: "25.23",
tags: [ {name: "test"}, {name: "foo"} ],
});
article.authors = article.authors.map((author) => {
author.name = "TEST";
return author;
});
article.authors[0].name = "TEST";
article.authors[1].createdAt.setMonth(9);
expect(article.save()).toStrictEqual({
expect(article.patch()).toStrictEqual({
id: 1,
authors: [
{ name: "TEST", },
{}, //{ name: "TEST", firstName: "Another", email: "another@test.test" },
{ name: "TEST" },
{ createdAt: (new Date("1997-10-09")).toISOString() }, //{ name: "TEST", firstName: "Another", email: "another@test.test" },
],
});
});
it("test author extension", () => {
const author = new Author();
author.name = "test name";
expect(author.extension()).toStrictEqual("test name");
});

View file

@ -11,6 +11,7 @@
"incremental": true,
"sourceMap": true,
"noImplicitAny": true,
"noImplicitThis": true,
"esModuleInterop": true,
"allowSyntheticDefaultImports": true,
"resolveJsonModule": true,
@ -24,6 +25,6 @@
"lib": [
"ESNext",
"DOM"
],
]
}
}