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antosdk-apps/SQLiteDB/build/debug/main.js

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var OS;
(function (OS) {
let application;
(function (application) {
/**
*
* @class SQLiteDB
* @extends {BaseApplication}
*/
class SQLiteDB extends application.BaseApplication {
constructor(args) {
super("SQLiteDB", args);
}
menu() {
return [
{
text: "__(File)",
nodes: [
{
text: "__(New)",
dataid: "new",
shortcut: 'A-N'
},
{
text: "__(Open)",
dataid: "open",
shortcut: 'A-O'
},
],
onchildselect: (e) => {
switch (e.data.item.data.dataid) {
case "new":
return this.newFile();
case "open":
return this.openFile();
}
}
}
];
}
list_tables() {
this.filehandle.read()
.then((data) => {
const list = [];
for (let k in data) {
list.push({
text: k,
name: k,
handle: data[k]
});
}
this.tbl_list.data = list;
if (list.length > 0) {
this.tbl_list.selected = 0;
}
});
}
openFile() {
return this.openDialog("FileDialog", {
title: __("Open file"),
mimes: this.meta().mimes
}).then(async (d) => {
this.filehandle = `sqlite://${d.file.path.asFileHandle().genealogy.join("/")}`.asFileHandle();
await this.filehandle.onready();
this.list_tables();
})
.catch((e) => {
this.error(__("Unable to open database file: {0}", e.toString()), e);
});
;
}
newFile() {
return this.openDialog("FileDialog", {
title: __("Save as"),
file: "Untitled.db"
}).then(async (f) => {
var d;
d = f.file.path.asFileHandle();
if (f.file.type === "file") {
d = d.parent();
}
const target = `${d.path}/${f.name}`.asFileHandle();
this.filehandle = `sqlite://${target.genealogy.join("/")}`.asFileHandle();
await this.filehandle.onready();
this.list_tables();
})
.catch((e) => {
this.error(__("Unable to init database file: {0}", e.toString()), e);
});
}
main() {
this.filehandle = undefined;
this.tbl_list = this.find("tbl-list");
this.find("bt-add-table").onbtclick = (e) => {
this.openDialog(new NewTableDialog(), {
title: __("Create new table")
});
};
}
}
application.SQLiteDB = SQLiteDB;
class NewTableDialog extends OS.GUI.BasicDialog {
/**
* Creates an instance of NewTableDialog.
* @memberof NewTableDialog
*/
constructor() {
super("NewTableDialog");
}
init() {
console.log(this.constructor.scheme);
}
/**
* Main entry point
*
* @memberof NewTableDialog
*/
main() {
super.main();
this.container = this.find("container");
this.find("btnCancel").onbtclick = (e) => this.quit();
this.find("btnAdd").onbtclick = (e) => this.addField("", "", true);
$(this.find("wrapper"));
$(this.container)
.css("overflow-y", "auto");
this.find("btnOk").onbtclick = (e) => {
const inputs = $("input", this.scheme);
let cdata = {};
for (let i = 0; i < inputs.length; i += 2) {
const key = inputs[i].value.trim();
if (key === "") {
return this.notify(__("Key cannot be empty"));
}
if (cdata[key]) {
return this.notify(__("Duplicate key: {0}", key));
}
cdata[key] = inputs[i + 1].value.trim();
}
if (this.handle)
this.handle(cdata);
this.quit();
};
}
/**
* Add new input key-value field to the dialog
*
* @private
* @memberof NewTableDialog
*/
addField(key, value, removable) {
const div = $("<div>")
.css("width", "100%")
.css("display", "flex")
.css("flex-direction", "row")
.appendTo(this.container);
$("<input>")
.attr("type", "text")
.css("width", "50%")
.css("height", "25px")
.val(key)
.appendTo(div);
$("<afx-list-view>")
.css("width", "50%")
.css("height", "25px")
.appendTo(div);
if (removable) {
const btn = $("<afx-button>");
btn[0].uify(undefined);
$("button", btn)
.css("width", "25px")
.css("height", "25px");
btn[0].iconclass = "fa fa-minus";
btn
.on("click", () => {
div.remove();
})
.appendTo(div);
}
else {
$("<div>")
.css("width", "25px")
.appendTo(div);
}
}
}
/**
* Scheme definition
*/
NewTableDialog.scheme = `\
<afx-app-window width='350' height='300'>
<afx-hbox>
<div data-width="10" ></div>
<afx-vbox>
<div data-height="5" ></div>
<afx-label text="__(Table layout)" data-height="30"></afx-label>
<div data-id="container"></div>
<afx-hbox data-height="30">
<afx-button data-id = "btnAdd" iconclass="fa fa-plus" data-width = "30" ></afx-button>
<div ></div>
<afx-button data-id = "btnOk" text = "__(Ok)" data-width = "40" ></afx-button>
<afx-button data-id = "btnCancel" text = "__(Cancel)" data-width = "50" ></afx-button>
</afx-hbox>
<div data-height="5" ></div>
</afx-vbox>
<div data-width="10" ></div>
</afx-hbox>
</afx-app-window>`;
})(application = OS.application || (OS.application = {}));
})(OS || (OS = {}));
var OS;
(function (OS) {
let API;
(function (API) {
/**
* Generate SQL expression from input object
*
* Example of input object
* ```ts
* {
* where: {
* id$gte: 10,
* user: "dany'",
* $or: {
* 'user.email': "test@mail.com",
* age$lte: 30,
* $and: {
* 'user.birth$ne': 1986,
* age$not_between: [20,30],
* name$not_like: "%LE"
* }
* }
* },
* fields: ['name as n', 'id', 'email'],
* order: ['user.name$asc', "id$desc"],
* joins: {
* cid: 'Category.id',
* did: 'Country.id'
* }
*}
* ```
* This will generate the followings expressions:
* - `( self.name as n,self.id,self.email )` for fields
* - condition:
* ```
* (
* ( self.id >= 10 ) AND
* ( self.user = 'dany''' ) AND
* (
* ( user.email = 'test@mail.com' ) OR
* ( self.age <= 30 ) OR
* (
* ( user.birth != 1986 ) AND
* ( self.age NOT BETWEEN 20 AND 30 ) AND
* ( self.name NOT LIKE '%LE' )
* )
* )
* )
* ```
* - order: `user.name ASC,self.id DESC`
* - joining:
* ```
* INNER JOIN Category ON self.cid = Category.id
* INNER JOIN Country ON self.did = Country.id
* ```
*
*/
class SQLiteQueryGenerator {
constructor(obj) {
this._where = undefined;
this._fields = undefined;
this._order = undefined;
this._joins = undefined;
this._is_joining = false;
if (obj.joins) {
this._is_joining = true;
this._joins = this.joins(obj.joins);
}
if (obj.where) {
this._where = this.where("$and", obj.where);
}
if (obj.fields) {
this._fields = `( ${obj.fields.map(v => this.infer_field(v)).join(",")} )`;
}
if (obj.order) {
this._order = this.order_by(obj.order);
}
}
infer_field(k) {
if (!this._is_joining || k.indexOf(".") > 0)
return k;
return `self.${k}`;
}
joins(data) {
let joins_arr = [];
for (let k in data) {
let v = data[k];
let arr = v.split('.');
if (arr.length != 2) {
throw new Error(__("Other table name parsing error: {0}", v).__());
}
joins_arr.push(`INNER JOIN ${arr[0]} ON ${this.infer_field(k)} = ${v}`);
}
return joins_arr.join(" ");
}
print() {
console.log(this._fields);
console.log(this._where);
console.log(this._order);
console.log(this._joins);
}
order_by(order) {
if (!Array.isArray(order)) {
throw new Error(__("Invalid type: expect array get {0}", typeof (order)).__());
}
return order.map((v, _) => {
const arr = v.split('$');
if (arr.length != 2) {
throw new Error(__("Invalid field order format {0}", v).__());
}
switch (arr[1]) {
case 'asc': return `${this.infer_field(arr[0])} ASC`;
case 'desc': return `${this.infer_field(arr[0])} DESC`;
default: throw new Error(__("Invalid field order type {0}", v).__());
}
}).join(",");
}
escape_string(s) {
let regex = /[']/g;
var chunkIndex = regex.lastIndex = 0;
var escapedVal = '';
var match;
while ((match = regex.exec(s))) {
escapedVal += s.slice(chunkIndex, match.index) + { '\'': '\'\'' }[match[0]];
chunkIndex = regex.lastIndex;
}
if (chunkIndex === 0) {
// Nothing was escaped
return "'" + s + "'";
}
if (chunkIndex < s.length) {
return "'" + escapedVal + s.slice(chunkIndex) + "'";
}
return "'" + escapedVal + "'";
}
parse_value(v, t) {
if (!t.includes(typeof (v))) {
throw new Error(__("Invalid type: expect [{0}] get {1}", t.join(","), typeof (v)).__());
}
switch (typeof (v)) {
case 'number': return JSON.stringify(v);
case 'string': return this.escape_string(v);
default: throw new Error(__("Un supported value {0} of type {1}", v, typeof (v)).__());
}
}
binary(k, v) {
const arr = k.split("$");
if (arr.length > 2) {
throw new Error(__("Invalid left hand side format: {0}", k).__());
}
if (arr.length == 2) {
switch (arr[1]) {
case "gt":
return `( ${this.infer_field(arr[0])} > ${this.parse_value(v, ['number'])} )`;
case "gte":
return `( ${this.infer_field(arr[0])} >= ${this.parse_value(v, ['number'])} )`;
case "lt":
return `( ${this.infer_field(arr[0])} < ${this.parse_value(v, ['number'])} )`;
case "lte":
return `( ${this.infer_field(arr[0])} <= ${this.parse_value(v, ['number'])} )`;
case "ne":
return `( ${this.infer_field(arr[0])} != ${this.parse_value(v, ['number', 'string'])} )`;
case "between":
return `( ${this.infer_field(arr[0])} BETWEEN ${this.parse_value(v[0], ['number'])} AND ${this.parse_value(v[1], ['number'])} )`;
case "not_between":
return `( ${this.infer_field(arr[0])} NOT BETWEEN ${this.parse_value(v[0], ['number'])} AND ${this.parse_value(v[1], ['number'])} )`;
case "in":
return `( ${this.infer_field(arr[0])} IN [${this.parse_value(v[0], ['number'])}, ${this.parse_value(v[1], ['number'])}] )`;
case "not_in":
return `( ${this.infer_field(arr[0])} NOT IN [${this.parse_value(v[0], ['number'])}, ${this.parse_value(v[1], ['number'])}] )`;
case "like":
return `( ${this.infer_field(arr[0])} LIKE ${this.parse_value(v, ['string'])} )`;
case "not_like":
return `( ${this.infer_field(arr[0])} NOT LIKE ${this.parse_value(v, ['string'])} )`;
default: throw new Error(__("Unsupported operator `{0}`", arr[1]).__());
}
}
else {
return `( ${this.infer_field(arr[0])} = ${this.parse_value(v, ['number', 'string'])} )`;
}
}
where(op, obj) {
let join_op = undefined;
switch (op) {
case "$and":
join_op = " AND ";
break;
case "$or":
join_op = " OR ";
break;
default:
throw new Error(__("Invalid operator {0}", op).__());
}
if (typeof obj !== "object") {
throw new Error(__("Invalid input data for operator {0}", op).__());
}
let arr = [];
for (let k in obj) {
if (k == "$and" || k == "$or") {
arr.push(this.where(k, obj[k]));
}
else {
arr.push(this.binary(k, obj[k]));
}
}
return `( ${arr.join(join_op)} )`;
}
}
class SQLiteDBCore {
constructor(path) {
if (!SQLiteDBCore.REGISTY) {
SQLiteDBCore.REGISTY = {};
}
this.db_file = path.asFileHandle();
if (SQLiteDBCore.REGISTY[this.db_file.path]) {
this.db_file = SQLiteDBCore.REGISTY[this.db_file.path];
}
else {
SQLiteDBCore.REGISTY[this.db_file.path] = this.db_file;
}
}
pwd() {
return "pkg://SQLiteDB/".asFileHandle();
}
fileinfo() {
return this.db_file.info;
}
/**
* init and create the db file if it does not exist
*/
init() {
return new Promise(async (ok, reject) => {
try {
if (this.db_file.ready) {
return ok(true);
}
let request = {
action: 'init',
args: {
db_source: this.db_file.path,
}
};
let _result = await this.call(request);
_result = await this.db_file.onready();
if (!this.db_file || !this.db_file.ready || this.db_file.info.type !== "file") {
throw __("DB file meta-data is invalid: {0}", this.db_file.path).__();
}
ok(true);
}
catch (e) {
reject(__e(e));
}
});
}
call(request) {
return new Promise(async (ok, reject) => {
request.args.db_source = this.db_file.path;
let cmd = {
path: this.pwd().path + "/api/api.lua",
parameters: request
};
let data = await API.apigateway(cmd, false);
if (!data.error) {
ok(data.result);
}
else {
reject(API.throwe(__("SQLiteDB server call error: {0}", data.error)));
}
});
}
request(rq) {
return new Promise(async (ok, reject) => {
try {
if (!this.db_file.ready) {
let _ = await this.init();
}
let result = await this.call(rq);
ok(result);
}
catch (e) {
reject(__e(e));
}
});
}
select(filter) {
let rq = {
action: 'select',
args: {
filter
}
};
return this.request(rq);
}
delete_records(filter) {
let rq = {
action: 'delete_records',
args: {
filter
}
};
return this.request(rq);
}
drop_table(table_name) {
let rq = {
action: 'drop_table',
args: { table_name }
};
return this.request(rq);
}
list_tables() {
let rq = {
action: 'list_table',
args: {}
};
return this.request(rq);
}
create_table(table, scheme) {
let rq = {
action: 'create_table',
args: {
table_name: table,
scheme
}
};
return this.request(rq);
}
get_table_scheme(table_name) {
let rq = {
action: 'table_scheme',
args: {
table_name
}
};
return this.request(rq);
}
insert(table_name, record) {
let rq = {
action: 'insert',
args: {
table_name,
record
}
};
return this.request(rq);
}
update(table_name, record) {
let rq = {
action: 'update',
args: {
table_name,
record
}
};
return this.request(rq);
}
last_insert_id() {
let rq = {
action: 'last_insert_id',
args: {}
};
return this.request(rq);
}
}
let VFS;
(function (VFS) {
/**
* SQLite VFS handle for database accessing
*
* A Sqlite file handle shall be in the following formats:
* * `sqlite://remote/path/to/file.db` refers to the entire databale (`remote/path/to/file.db` is relative to the home folder)
* - read operation, will list all available tables
* - write operations will create table
* - rm operation will delete table
* - meta operation will return file info
* - other operations are not supported
* * `sqlite://remote/path/to/file.db@table_name` refers to the table `table_name` in the database
* - meta operation will return fileinfo with table scheme information
* - read operation will read all records by filter defined by the filter operation
* - write operations will insert a new record
* - rm operation will delete records by filter defined by the filter operation
* - filter operation sets the filter for the table
* - other operations are not supported
* - `sqlite://remote/path/to/file.db@table_name@id` refers to a records in `table_name` with ID `id`
* - read operation will read the current record
* - write operation will update current record
* - rm operation will delete current record
* - other operations are not supported
*
* Some example of filters:
* ```ts
* handle.filter = (filter) => {
* filter.fields()
* }
* ```
*
* @class SqliteFileHandle
* @extends {BaseFileHandle}
*/
class SqliteFileHandle extends VFS.BaseFileHandle {
/**
* Set a file path to the current file handle
*
*
* @param {string} p
* @returns {void}
* @memberof SqliteFileHandle
*/
setPath(p) {
let arr = p.split("@");
super.setPath(arr[0]);
if (arr.length > 3) {
throw new Error(__("Invalid file path").__());
}
this.path = p;
this._table_name = arr[1];
this._id = arr[2] ? parseInt(arr[2]) : undefined;
this._handle = new SQLiteDBCore(`home://${this.genealogy.join("/")}`);
}
/**
* Read database file meta-data
*
* Return file info on the target database file, if the table_name is specified
* return also the table scheme
*
* @returns {Promise<RequestResult>}
* @memberof SqliteFileHandle
*/
meta() {
return new Promise(async (resolve, reject) => {
try {
await this._handle.init();
const d = { result: this._handle.fileinfo(), error: false };
if (this._table_name) {
const data = await this._handle.get_table_scheme(this._table_name);
if (data.length == 0) {
d.result.scheme = undefined;
}
else {
d.result.scheme = {};
for (let v of data) {
d.result.scheme[v.name] = v.type;
}
}
}
return resolve(d);
}
catch (e) {
return reject(__e(e));
}
});
}
/**
* Query the database based on the provided info
*
* If no table is provided, return list of tables in the
* data base.
* If the current table is specified:
* - if the record id is specfied return the record
* - otherwise, return the records in the table using the specified filter
*
* @protected
* @param {any} t filter type
* @returns {Promise<any>}
* @memberof SqliteFileHandle
*/
_rd(user_data) {
return new Promise(async (resolve, reject) => {
try {
if (this._table_name && !this.info.scheme) {
throw new Error(__("Table `{0}` does not exists in database: {1}", this._table_name, this.path).__());
}
if (!this._table_name) {
// return list of tables in form of data base file handles in ready mode
let list = await this._handle.list_tables();
const map = {};
for (let v of list) {
map[v.name] = `${this.path}@${v.name}`.asFileHandle();
}
this.cache = map;
resolve(map);
}
else {
// return all the data in the table set by the filter
// if this is a table, return the filtered records
// otherwise, it is a record, fetch only that record
let filter = user_data;
if (!filter || this._id) {
filter = {};
}
filter.table_name = this._table_name;
if (this._id) {
filter.where = { id: this._id };
}
let data = await this._handle.select(filter);
if (this._id) {
this.cache = data[0];
}
else {
this.cache = data;
}
resolve(this.cache);
}
}
catch (e) {
return reject(__e(e));
}
});
}
/**
* Write commit file cache to the remote database
*
* @protected
* @param {string} t is table name, used only when create table
* @returns {Promise<RequestResult>}
* @memberof SqliteFileHandle
*/
_wr(t) {
return new Promise(async (resolve, reject) => {
try {
if (!this.cache) {
throw new Error(__("No data to submit to remote database, please check the `cache` field").__());
}
if (this._id && this._table_name) {
this.cache.id = this._id;
const ret = await this._handle.update(this._table_name, this.cache);
resolve({ result: ret, error: false });
return;
}
if (this._table_name) {
const ret = await this._handle.insert(this._table_name, this.cache);
resolve({ result: ret, error: false });
return;
}
// create a new table with the scheme provided in the cache
let r = await this._handle.create_table(t, this.cache);
resolve({ result: r, error: false });
}
catch (e) {
return reject(__e(e));
}
});
}
/**
* Delete data from remote database
*
* @protected
* @param {any} user_data is table name, for delete table, otherwise, filter object for deleting records
* @returns {Promise<RequestResult>}
* @memberof SqliteFileHandle
*/
_rm(user_data) {
return new Promise(async (resolve, reject) => {
try {
if (this._table_name && !this.info.scheme) {
throw new Error(__("Table `{0}` does not exists in database: {1}", this._table_name, this.path).__());
}
if (!this._table_name) {
let table_name = user_data;
if (!table_name) {
throw new Error(__("No table specified for dropping").__());
}
let ret = await this._handle.drop_table(table_name);
resolve({ result: ret, error: false });
// delete the table
}
else {
let filter = user_data;
// delete the records in the table using the filter
if (!filter || this._id) {
filter = {};
}
filter.table_name = this._table_name;
if (this._id) {
filter.where = { id: this._id };
}
let ret = await this._handle.delete_records(filter);
resolve({ result: ret, error: false });
}
}
catch (e) {
return reject(__e(e));
}
});
}
}
VFS.register("^sqlite$", SqliteFileHandle);
})(VFS = API.VFS || (API.VFS = {}));
})(API = OS.API || (OS.API = {}));
})(OS || (OS = {}));
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