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frontend-zackeneule/lib/plankton/plankton.d.ts
Christian Fraß 76a2d7dff4 [task-193] [int]
2025-04-12 10:19:59 +00:00

3030 lines
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TypeScript
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/**
* @author fenris
*/
type int = number;
/**
* @author fenris
*/
type float = number;
declare class Buffer {
constructor(x: string, modifier?: string);
toString(modifier?: string): string;
}
declare namespace lib_plankton.base {
/**
* @author fenris
*/
function environment(): string;
}
/**
* @author fenris
*/
type type_pseudopointer<type_value> = {
value: type_value;
};
/**
* @author fenris
*/
declare function pseudopointer_null<type_value>(): type_pseudopointer<type_value>;
/**
* @author fenris
*/
declare function pseudopointer_make<type_value>(value: type_value): type_pseudopointer<type_value>;
/**
* @author fenris
*/
declare function pseudopointer_isset<type_value>(pseudopointer: type_pseudopointer<type_value>): boolean;
/**
* @author fenris
*/
declare function pseudopointer_read<type_value>(pseudopointer: type_pseudopointer<type_value>): type_value;
/**
* @author fenris
*/
declare function pseudopointer_write<type_value>(pseudopointer: type_pseudopointer<type_value>, value: type_value): void;
/**
* @author fenris
*/
declare var instance_verbosity: int;
/**
* @desc the ability to check for equality with another element of the same domain
* @author fenris
*/
interface interface_collatable<type_value> {
/**
* @author fenris
*/
_collate(value: type_value): boolean;
}
/**
* @author fenris
*/
declare function instance_collate<type_value>(value1: (type_value & {
_collate?: ((value: type_value) => boolean);
}), value2: type_value): boolean;
/**
* @desc the ability to compare with another element of the same domain for determining if the first is "smaller than or equal to" the latter
* @author fenris
*/
interface interface_comparable<type_value> {
/**
* @author fenris
*/
_compare(value: type_value): boolean;
}
/**
* @author fenris
*/
declare function instance_compare<type_value>(value1: (type_value & {
_compare: ((value: type_value) => boolean);
}), value2: type_value): boolean;
/**
* @desc the ability to create an exact copy
* @author fenris
*/
interface interface_cloneable<type_value> {
/**
* @author fenris
*/
_clone(): type_value;
}
/**
* @author fenris
*/
declare function instance_clone<type_value>(value: (type_value & {
_clone?: (() => type_value);
})): type_value;
/**
* @author fenris
*/
interface interface_hashable {
/**
* @author fenris
*/
_hash(): string;
}
/**
* @desc the ability to generate a string out of the element, which identifies it to a high degree
* @author fenris
*/
declare function instance_hash<type_value>(value: (type_value & {
_hash?: (() => string);
})): string;
/**
* @author fenris
*/
interface interface_showable {
/**
* @author fenris
*/
_show(): string;
}
/**
* @desc the ability to map the element to a textual representation (most likely not injective)
* @author fenris
*/
declare function instance_show<type_value>(value: (type_value & {
_show?: (() => string);
})): string;
/**
* @author frac
*/
interface interface_decorator<type_core> {
/**
* @author frac
*/
core: type_core;
}
/**
* @author frac
*/
declare class class_observer {
/**
* @author frac
*/
protected counter: int;
/**
* @author frac
*/
protected actions: {
[id: string]: (information: Object) => void;
};
/**
* @author frac
*/
protected buffer: Array<Object>;
/**
* @author frac
*/
constructor();
/**
* @author frac
*/
empty(): boolean;
/**
* @author frac
*/
flush(): void;
/**
* @author frac
*/
set(id: string, action: (information: Object) => void): void;
/**
* @author frac
*/
del(id: string): void;
/**
* @author frac
*/
add(action: (information: Object) => void): void;
/**
* @author frac
*/
notify(information?: Object, delayed?: boolean): void;
/**
* @author frac
*/
rollout(): void;
}
/**
* @author frac
*/
/**
* @author frac
*/
/**
* @author frac
*/
declare class class_error extends Error {
/**
* @author frac
*/
protected suberrors: Array<Error>;
/**
* @author frac
*/
protected mess: string;
/**
* @author frac
*/
constructor(message: string, suberrors?: Array<Error>);
/**
* @override
* @author frac
*/
toString(): string;
}
declare namespace lib_plankton.base {
/**
* returns the current UNIX timestamp
*
* @author fenris
*/
function get_current_timestamp(rounded?: boolean): float;
/**
*/
function object_merge(core: Record<string, any>, mantle: Record<string, any>): Record<string, any>;
/**
*/
function buffer_show(buffer: Buffer, { "block_size": option_block_size, "break_char": option_break_char, }?: {
block_size?: int;
break_char?: string;
}): string;
}
declare module lib_plankton.pod {
/**
* @author fenris
*/
type type_pod<type_value> = {
kind: ("empty" | "filled");
value?: type_value;
};
/**
* @author fenris
*/
function make_empty<type_value>(): type_pod<type_value>;
/**
* @author fenris
*/
function make_filled<type_value>(value: type_value): type_pod<type_value>;
/**
* whether the pod is filled
*
* @author fenris
*/
function is_filled<type_value>(pod: type_pod<type_value>): boolean;
/**
* return the value, stored in the pod-wrapper
*
* @author fenris
*/
function cull<type_value>(pod: type_pod<type_value>): type_value;
/**
* to pass on a empty-pod or to use a filled-pod
*
* @author fenris
*/
function propagate<type_value, type_value_>(pod: type_pod<type_value>, function_: ((value: type_value) => type_value_)): type_pod<type_value_>;
/**
* @author fenris
*/
function distinguish<type_value, type_result>(pod: type_pod<type_value>, function_empty: (() => type_result), function_filled: ((value: type_value) => type_result)): type_result;
/**
*/
function show<type_value>(pod: type_pod<type_value>, options?: {
show_value?: ((value: type_value) => string);
}): string;
}
declare module lib_plankton.pod {
/**
*/
class class_pod<type_value> {
private subject;
constructor(subject: type_pod<type_value>);
tear(): type_pod<type_value>;
static empty<type_value>(): class_pod<type_value>;
static filled<type_value>(value: type_value): class_pod<type_value>;
is_empty(): boolean;
is_filled(): boolean;
cull(): type_value;
show(show_value?: any): string;
toString(): string;
propagate<type_value_>(function_: ((value: type_value) => type_value_)): class_pod<type_value_>;
distinguish<type_result>(function_empty: (() => type_result), function_filled: ((value: type_value) => type_result)): type_result;
}
}
/**
* might be completely obsolete
*/
declare namespace lib_plankton.call {
/**
* @author fenris
*/
type type_promise<type_result, type_reason> = Promise<type_result>;
/**
* @author fenris
*/
function promise_reject<type_result, type_reason>(reason: type_reason): type_promise<type_result, type_reason>;
/**
* @author fenris
*/
function promise_resolve<type_result, type_reason>(result: type_result): type_promise<type_result, type_reason>;
/**
* @author fenris
*/
function promise_make<type_result, type_reason>(executor: (resolve: ((result?: type_result) => void), reject: ((reason?: type_reason) => void)) => void): type_promise<type_result, type_reason>;
/**
* @author fenris
*/
function promise_then_close<type_result, type_reason>(promise: type_promise<type_result, type_reason>, resolver: ((result: type_result) => void), rejector: ((reason: type_reason) => void)): void;
/**
* @author fenris
*/
function promise_then_append<type_result, type_reason, type_result_>(promise: type_promise<type_result, type_reason>, resolver: ((result: type_result) => type_promise<type_result_, type_reason>), rejector?: ((reason: type_reason) => type_promise<type_result_, type_reason>)): type_promise<type_result_, type_result>;
/**
* @author fenris
*/
function promise_all<type_result, type_reason>(promises: Array<type_promise<type_result, type_reason>>): type_promise<Array<type_result>, type_reason>;
/**
* @author fenris
*/
function promise_chain<type_result, type_reason>(promises: (Array<(input: type_result) => type_promise<type_result, type_reason>>), start?: type_result): type_promise<type_result, type_reason>;
/**
* @author fenris
*/
function promise_condense<type_element, type_reason>(promises: Array<() => type_promise<type_element, type_reason>>): type_promise<Array<type_element>, type_reason>;
/**
* @author fenris
*/
function promise_group<type_reason>(promises: Record<string, (() => type_promise<any, type_reason>)>, options?: {
serial?: boolean;
}): type_promise<Record<string, any>, type_reason>;
/**
* @author fenris
*/
function promise_wrap<type_result_inner, type_result_outer, type_reason>(promise: type_promise<type_result_inner, type_reason>, transformator_result: ((reason: type_result_inner) => type_result_outer), transformator_reason?: ((reason: type_reason) => type_reason)): type_promise<type_result_outer, type_reason>;
/**
* @author fenris
*/
/**
* @author fenris
*/
/**
* @author fenris
*/
function promise_attach<type_reason>(state: Record<string, any>, promise: type_promise<any, type_reason>, name: string): type_promise<Record<string, any>, type_reason>;
/**
* @author fenris
*/
function promise_delay<type_result, type_reason>(promise: type_promise<type_result, type_reason>, delay: int): type_promise<type_result, type_reason>;
}
/**
* initializer might be obsolete, since promises are reusable after having been resolved or rejected
*/
declare namespace lib_plankton.call {
/**
* @author fenris
*/
enum enum_initializer_state {
initial = 0,
waiting = 1,
successful = 2,
failed = 3
}
/**
* @author fenris
*/
type type_initializer<type_result, type_reason> = {
fetcher: (() => type_promise<type_result, type_reason>);
state?: enum_initializer_state;
queue: Array<{
resolve: ((result?: type_result) => void);
reject: ((reason?: type_reason) => void);
}>;
result?: type_result;
reason?: type_reason;
};
/**
* @author fenris
*/
function initializer_make<type_result, type_reason>(fetcher: (() => type_promise<type_result, type_reason>)): type_initializer<type_result, type_reason>;
/**
* @author fenris
*/
function initializer_reset<type_result, type_reason>(subject: type_initializer<type_result, type_reason>): void;
/**
* @author fenris
*/
function initializer_state<type_result, type_reason>(subject: type_initializer<type_result, type_reason>): enum_initializer_state;
/**
* @author fenris
*/
function initializer_get<type_result, type_reason>(subject: type_initializer<type_result, type_reason>): type_promise<type_result, type_reason>;
}
declare namespace lib_plankton.call {
/**
* @author fenris
*/
type type_deferral<type_input, type_output> = {
representation: (input: type_input) => Promise<type_output>;
};
/**
* @author fenris
* @desc activates the deferral and handles its output according to a given procedure
* @param {(value : type_value)=>void} procedure a function which receives the output of the deferral as argument
*/
function deferral_use<type_input, type_output>(deferral: type_deferral<type_input, type_output>, input: type_input, procedure: (output: type_output) => void): void;
/**
* @author fenris
* @desc creates a deferral-subject (similar to "new Promise", where "convey" reflects "resolve"/"reject")
*/
function deferral_make<type_input, type_output>(handler: (input: type_input, convey: (output: type_output) => void) => void): type_deferral<type_input, type_output>;
/**
* @author fenris
* @desc wraps a simple function into a deferral (similar to "Promise.resolve"/"Promise.reject")
*/
function deferral_wrap<type_input, type_output>(function_: (input: type_input) => type_output): type_deferral<type_input, type_output>;
/**
* @author fenris
*/
function deferral_id<type_value>(): type_deferral<type_value, type_value>;
/**
* @author fenris
*/
function deferral_const<type_value>(value: type_value): type_deferral<type_value, type_value>;
/**
* @author fenris
*/
function deferral_delay<type_output>(output: type_output, delay: int): type_deferral<any, type_output>;
/**
* @author fenris
* @desc connects two deferrals to form a new one; the output of the first is taken as input for the second
* (similar to "Promise.then" when passing a function which returns a new promise)
* @param {type_deferral<type_value1>} first a simple deferral
* @param {(value1 : type_value1)=>type_deferral<type_value2>} second a function depending from a value returning a deferral
*/
function deferral_compose_serial<type_input, type_between, type_output>(first: type_deferral<type_input, type_between>, second: type_deferral<type_between, type_output>): type_deferral<type_input, type_output>;
/**
* @author fenris
*/
function deferral_compose_parallel<type_input, type_output_left, type_output_right>({ "left": deferral_left, "right": deferral_right, }: {
left: type_deferral<type_input, type_output_left>;
right: type_deferral<type_input, type_output_right>;
}): type_deferral<type_input, {
left: type_output_left;
right: type_output_right;
}>;
/**
* @author fenris
* @desc repeatedly applied serial composition
*/
function deferral_chain<type_value>(members: Array<type_deferral<type_value, type_value>>): type_deferral<type_value, type_value>;
/**
* @author fenris
*/
}
declare namespace lib_plankton.call {
/**
* @author fenris
*/
class class_deferral<type_input, type_output> {
/**
* @author fenris
*/
private subject;
/**
* @author fenris
*/
private constructor();
/**
* @author fenris
*/
private static _cram;
/**
* @author fenris
*/
private static _tear;
/**
* @author fenris
*/
static make<type_input, type_output>(handler: (input: type_input, convey: (value: type_output) => void) => void): class_deferral<type_input, type_output>;
/**
* @author fenris
*/
use(input: type_input, procedure: (value: type_output) => void): void;
/**
* @author fenris
*/
compose_serial<type_output_>(second: class_deferral<type_output, type_output_>): class_deferral<type_input, type_output_>;
/**
* @author fenris
*/
static chain<type_value>(members: Array<class_deferral<type_value, type_value>>): class_deferral<type_value, type_value>;
/**
* @author fenris
*/
static wrap<type_input, type_output>(function_: (input: type_input) => type_output): class_deferral<type_input, type_output>;
/**
* @author fenris
*/
static const_<type_value>(value: type_value): class_deferral<type_value, type_value>;
/**
* @author fenris
*/
static delay<type_output>(output: type_output, delay: int): class_deferral<any, type_output>;
}
}
declare namespace lib_plankton.call {
/**
* converts the "arguments"-map into an array
*
* @param {Object} args
* @author fenris
*/
export function args2list(args: any): Array<any>;
/**
* just the empty function; useful for some callbacks etc.
*
* @author fenris
*/
export function nothing(): void;
/**
* just the identity; useful for some callbacks etc.; defined as function instead of const for using type parameters
*
* @author fenris
*/
export function id<type_value>(x: type_value): type_value;
/**
* just the identity; useful for some callbacks etc.
*
* @author fenris
*/
export function const_<type_value>(x: type_value): ((y: any) => type_value);
/**
* composes two functions (i.e. returns a function that return the result of the successive execution of both input-functions)
*
* @param {function} function_f
* @param {function} function_g
* @author fenris
*/
export function compose<type_x, type_y, type_z>(function_f: ((type_x: any) => type_y), function_g: ((type_y: any) => type_z)): ((value: type_x) => type_z);
/**
* transforms a function with sequential input to a function with leveled input; example: add(2,3) = curryfy(add)(2)(3)
*
* @param {function} f
* @return {function} the currified version of the in put function
* @author fenris
*/
export function curryfy(f: Function): Function;
/**
* @author fenris
*/
export function convey(value: any, functions: Array<Function>): any;
/**
*/
class class_value_wrapper<type_value> {
/**
*/
private value;
/**
*/
constructor(value: type_value);
/**
*/
convey<type_value_result>(function_: ((value: type_value) => type_value_result)): class_value_wrapper<type_value_result>;
/**
*/
cull(): type_value;
}
/**
*/
export function wrap<type_value>(value: type_value): class_value_wrapper<type_value>;
/**
* @author fenris
*/
export function timeout(procedure: (() => void), delay_in_seconds: float): int;
/**
* Promise version of "setTimeout"
*
* @author fenris
*/
export function defer<type_result>(seconds: float, action: (() => type_result)): Promise<type_result>;
/**
* a definition for a value being "defined"
*
* @author neuc
*/
export function is_def<type_value>(obj: type_value, options?: {
null_is_valid?: boolean;
}): boolean;
/**
* returns the value if set and, when a type is specified, if the type is correct, if not return default_value
*
* @author neuc
*/
export function def_val(value: any, default_value: any, options?: {
type?: (null | string);
null_is_valid?: boolean;
}): any;
/**
* provides the call for an attribute of a class as a regular function; useful for processing lists of objects
*
* @param {string} name the name of the attribute
* @return {function}
* @author fenris
*/
export function attribute<type_object, type_attribute>(name: string): ((object: type_object) => type_attribute);
/**
* provides a method of a class as a regular function; useful for processing lists of objects
*
* @param {string} name the name of the method
* @return {function}
* @author fenris
*/
export function method<type_object, type_output>(name: string): ((object: type_object) => type_output);
/**
* @author fenris
*/
export type type_coproduct = {
kind: string;
data?: any;
};
/**
* @author fenris
*/
export function distinguish<type_output>(coproduct: type_coproduct, handlers: Record<string, ((data?: any) => type_output)>, options?: {
fallback?: (null | ((coproduct?: type_coproduct) => type_output));
}): type_output;
/**
*/
export function try_catch_wrap<type_value>(get_value: (() => type_value)): {
value: (null | type_value);
error: (null | any);
};
/**
*/
export function try_catch_wrap_async<type_value>(get_value: (() => Promise<type_value>)): Promise<{
value: (null | type_value);
error: (null | any);
}>;
export {};
}
declare namespace lib_plankton.file {
/**
* @author fenris
*/
function read(path: string): Promise<string>;
/**
* @author fenris
*/
function write(path: string, content: string): Promise<void>;
/**
* @author fenris
*/
function blob_read_text(blob: Blob): lib_plankton.call.type_promise<string, Error>;
/**
* @author fenris
*/
function blob_read_arraybuffer(blob: Blob): lib_plankton.call.type_promise<ArrayBuffer, Error>;
/**
* @author fenris
*/
function blob_read_dataurl(blob: Blob): lib_plankton.call.type_promise<string, Error>;
/**
* @author fenris
*/
function blob_write_text(text: string): lib_plankton.call.type_promise<Blob, Error>;
}
declare namespace lib_plankton.code {
/**
* @author fenris
*/
interface interface_code<type_from, type_to> {
/**
* @author fenris
*/
encode(x: type_from): type_to;
/**
* @author fenris
*/
decode(x: type_to): type_from;
}
}
declare namespace lib_plankton.code {
/**
* @author fenris
*/
type type_code<type_from, type_to> = {
/**
* @author fenris
*/
encode: (x: type_from) => type_to;
/**
* @author fenris
*/
decode: (x: type_to) => type_from;
};
}
declare namespace lib_plankton.code {
/**
* @author fenris
*/
function inverse_encode<type_from, type_to>(decode: (to: type_to) => type_from, to: type_to): type_from;
/**
* @author fenris
*/
function inverse_decode<type_from, type_to>(encode: (from: type_from) => type_to, from: type_from): type_to;
}
declare namespace lib_plankton.code {
/**
* @author fenris
*/
class class_code_inverse<type_from, type_to> implements interface_code<type_to, type_from> {
/**
* @author fenris
*/
protected subject: interface_code<type_from, type_to>;
/**
* @author fenris
*/
constructor(subject: interface_code<type_from, type_to>);
/**
* @implementation
* @author fenris
*/
encode(to: type_to): type_from;
/**
* @implementation
* @author fenris
*/
decode(from: type_from): type_to;
}
}
declare namespace lib_plankton.code {
/**
* @author fenris
*/
function pair_encode<type_from, type_between, type_to>(encode_first: (from: type_from) => type_between, encode_second: (between: type_between) => type_to, from: type_from): type_to;
/**
* @author fenris
*/
function pair_decode<type_from, type_between, type_to>(decode_first: (between: type_between) => type_from, decode_second: (to: type_to) => type_between, to: type_to): type_from;
}
declare namespace lib_plankton.code {
/**
* @author fenris
*/
class class_code_pair<type_from, type_between, type_to> implements interface_code<type_from, type_to> {
/**
* @author fenris
*/
protected first: interface_code<type_from, type_between>;
/**
* @author fenris
*/
protected second: interface_code<type_between, type_to>;
/**
* @author fenris
*/
constructor(first: interface_code<type_from, type_between>, second: interface_code<type_between, type_to>);
/**
* @implementation
* @author fenris
*/
encode(from: type_from): type_to;
/**
* @implementation
* @author fenris
*/
decode(to: type_to): type_from;
}
}
declare namespace lib_plankton.code {
/**
* @author fenris
*/
function chain_encode(encode_links: Array<(from: any) => any>, from: any): any;
/**
* @author fenris
*/
function chain_decode(decode_links: Array<(to: any) => any>, to: any): any;
}
declare namespace lib_plankton.code {
/**
* @author fenris
*/
class class_code_chain implements interface_code<any, any> {
/**
* @author fenris
*/
protected links: Array<interface_code<any, any>>;
/**
* @author fenris
*/
constructor(links: Array<interface_code<any, any>>);
/**
* @implementation
* @author fenris
*/
encode(from: any): any;
/**
* @implementation
* @author fenris
*/
decode(to: any): any;
}
}
declare namespace lib_plankton.code {
/**
* @author Christian Fraß <frass@greenscale.de>
*/
type type_flatten_from = Array<{
[name: string]: any;
}>;
/**
* @author Christian Fraß <frass@greenscale.de>
*/
type type_flatten_to = {
keys: Array<string>;
data: Array<Array<any>>;
};
/**
* @author Christian Fraß <frass@greenscale.de>
*/
function flatten_encode(from: type_flatten_from, keys?: Array<string>): type_flatten_to;
/**
* @author Christian Fraß <frass@greenscale.de>
*/
function flatten_decode(to: type_flatten_to): type_flatten_from;
}
declare namespace lib_plankton.code {
/**
* @author fenris
*/
class class_code_flatten implements interface_code<type_flatten_from, type_flatten_to> {
/**
* @author fenris
*/
constructor();
/**
* @implementation
* @author fenris
*/
encode(x: type_flatten_from): type_flatten_to;
/**
* @implementation
* @author fenris
*/
decode(x: type_flatten_to): type_flatten_from;
}
}
declare namespace lib_plankton.json {
/**
*/
type type_source = any;
/**
*/
type type_target = string;
/**
* @author fenris
*/
export function encode(source: type_source, options?: {
formatted?: boolean;
}): type_target;
/**
* @author fenris
*/
export function decode(target: type_target): type_source;
/**
* @author fenris
*/
export function implementation_code(): lib_plankton.code.type_code<type_source, type_target>;
export {};
}
declare namespace lib_plankton.json {
/**
* @author fenris
*/
class class_json implements lib_plankton.code.interface_code<any, string> {
/**
* @author fenris
*/
constructor();
/**
* @implementation
* @author fenris
*/
encode(x: any): string;
/**
* @implementation
* @author fenris
*/
decode(x: string): any;
}
}
declare namespace lib_plankton.base64 {
/**
* @author fenris
*/
function encode(x: string): string;
/**
* @author fenris
*/
function decode(x: string): string;
}
declare namespace lib_plankton.base64 {
/**
* @author fenris
*/
class class_base64 implements lib_plankton.code.interface_code<string, string> {
/**
* @author fenris
*/
constructor();
/**
* @implementation
* @author fenris
*/
encode(x: string): string;
/**
* @implementation
* @author fenris
*/
decode(x: string): string;
}
}
declare namespace lib_plankton.email {
/**
*/
function send(smtp_credentials: {
host: string;
port: int;
username: string;
password: string;
}, sender: string, receivers: Array<string>, subject: string, content: string): Promise<void>;
}
declare namespace lib_plankton.log {
/**
*/
enum enum_level {
debug = 0,
info = 1,
notice = 2,
warning = 3,
error = 4
}
/**
*/
type type_entry = {
level: enum_level;
incident: string;
tags: Array<string>;
details: any;
};
/**
*/
type type_channel_description = lib_plankton.call.type_coproduct;
/**
*/
type type_channel_logic = {
send: ((entry: type_entry) => void);
};
/**
*/
type type_logger_data = Array<type_channel_description>;
/**
*/
type type_logger_logic = Array<type_channel_logic>;
/**
*/
type type_format_definition = ({
kind: "jsonl";
data: {
structured: boolean;
};
} | {
kind: "human_readable";
data: {};
});
}
declare namespace lib_plankton.log {
/**
*/
function level_order(level1: enum_level, level2: enum_level): boolean;
/**
*/
function level_show(level: enum_level, { "abbreviated": option_abbreviated, }?: {
abbreviated?: boolean;
}): string;
/**
*/
function level_decode(level_string: string): enum_level;
}
declare namespace lib_plankton.log {
/**
* @todo use label
*/
function get_logger_logic(logger_data: type_logger_data): type_logger_logic;
/**
*/
function format_entry(format_definition: type_format_definition, entry: type_entry): string;
/**
*/
function parse_format_definition(format_definition_raw: any): type_format_definition;
}
declare namespace lib_plankton.log.channel.filtered {
/**
*/
type type_predicate = ((entry: type_entry) => boolean);
/**
*/
type type_subject = {
/**
* @todo check if it has to be logic
*/
core: type_channel_logic;
predicate: type_predicate;
};
/**
*/
function predicate_incident(substring: string): type_predicate;
/**
*/
function predicate_level(threshold: enum_level): type_predicate;
/**
*/
function predicate_tag(tag: string): type_predicate;
/**
* combines other predicates in disjunctive normal form
*/
function predicate_complex(definition: Array<Array<{
mode: boolean;
item: type_predicate;
}>>): type_predicate;
/**
*/
function send(subject: type_subject, entry: type_entry): void;
/**
*/
function logic(subject: type_subject): type_channel_logic;
}
declare namespace lib_plankton.log.channel.minlevel {
/**
*/
type type_subject = {
/**
* @todo check if it has to be logic
*/
core: type_channel_logic;
threshold: enum_level;
};
/**
*/
function send(subject: type_subject, entry: type_entry): void;
/**
*/
function logic(subject: type_subject): type_channel_logic;
}
/**
* output for writing log entries to web console
*/
declare namespace lib_plankton.log.channel.console_ {
/**
*/
type type_subject = {};
/**
* @todo tags
*/
function send(subject: type_subject, entry: type_entry): void;
/**
*/
function logic(subject: type_subject): type_channel_logic;
}
declare namespace lib_plankton.log {
/**
*/
function get_channel_logic(channel_description: type_channel_description): type_channel_logic;
}
declare namespace lib_plankton.log {
/**
*/
function default_logger(): type_logger_data;
}
declare namespace lib_plankton.log {
/**
*/
function set_main_logger(logger_data: type_logger_data): void;
/**
* consumes a log entry, i.e. sends it to all channels
*/
function send_(logger: type_logger_logic, entry: type_entry): void;
/**
* [convenience]
*
* @todo rename to "send"
*/
function debug_(logger: type_logger_logic, incident: string, { "tags": option_tags, "details": option_details, }?: {
tags?: Array<string>;
details?: any;
}): void;
/**
* [convenience]
*
* @todo rename to "info"
*/
function info_(logger: type_logger_logic, incident: string, { "tags": option_tags, "details": option_details, }?: {
tags?: Array<string>;
details?: any;
}): void;
/**
* [convenience]
*
* @todo rename to "notice"
*/
function notice_(logger: type_logger_logic, incident: string, { "tags": option_tags, "details": option_details, }?: {
tags?: Array<string>;
details?: any;
}): void;
/**
* [convenience]
*
* @todo rename to "warning"
*/
function warning_(logger: type_logger_logic, incident: string, { "tags": option_tags, "details": option_details, }?: {
tags?: Array<string>;
details?: any;
}): void;
/**
* [convenience]
*
* @todo rename to "error"
*/
function error_(logger: type_logger_logic, incident: string, { "tags": option_tags, "details": option_details, }?: {
tags?: Array<string>;
details?: any;
}): void;
/**
* [convenience]
*/
function _send(entry: type_entry): void;
/**
* [convenience]
*/
function _debug(incident: string, { "tags": option_tags, "details": option_details, }?: {
tags?: Array<string>;
details?: any;
}): void;
/**
* [convenience]
*/
function _info(incident: string, { "tags": option_tags, "details": option_details, }?: {
tags?: Array<string>;
details?: any;
}): void;
/**
* [convenience]
*/
function _notice(incident: string, { "tags": option_tags, "details": option_details, }?: {
tags?: Array<string>;
details?: any;
}): void;
/**
* [convenience]
*/
function _warning(incident: string, { "tags": option_tags, "details": option_details, }?: {
tags?: Array<string>;
details?: any;
}): void;
/**
* [convenience]
*/
function _error(incident: string, { "tags": option_tags, "details": option_details, }?: {
tags?: Array<string>;
details?: any;
}): void;
/**
* [convenience]
*
* @deprecated use ._debug instead!
*/
function debug(incident: string, details?: any, tags?: Array<string>): void;
/**
* [convenience]
*
* @deprecated use ._info instead!
*/
function info(incident: string, details?: any, tags?: Array<string>): void;
/**
* [convenience]
*
* @deprecated use ._notice instead!
*/
function notice(incident: string, details?: any, tags?: Array<string>): void;
/**
* [convenience]
*
* @deprecated use ._warning instead!
*/
function warning(incident: string, details?: any, tags?: Array<string>): void;
/**
* [convenience]
*
* @deprecated use ._error instead!
*/
function error(incident: string, details?: any, tags?: Array<string>): void;
}
declare var plain_text_to_html: (text: string) => string;
/**
* @desc makes a valid
*/
declare var format_sentence: (str: string, rtl?: boolean, caseSense?: boolean) => string;
declare var fill_string_template: (template_string: string, object: any, fabric: Function, delimiter: string, default_string: string, sloppy: boolean) => string;
declare var make_string_template: (_template: string, _fabrics?: Object) => (object: {
[key: string]: string;
}) => string;
declare var make_eml_header: (object: {
[key: string]: string;
}) => string;
declare var make_eml_body: Object;
declare namespace lib_plankton.string {
/**
* @author neuc,frac
*/
function empty(str: string): boolean;
/**
* @desc returns a unique string
* @param {string} prefix an optional prefix for the generated string
* @return {string}
* @author fenris
*/
function generate(prefix?: string): string;
/**
* @author fenris
*/
function join(parts: Array<string>, glue?: string): string;
/**
* @desc splits a string, but returns an empty list, if the string is empty
* @param {string} chain
* @param {string} separator
* @return {Array<string>}
* @author fenris
*/
function split(chain: string, separator: string): Array<string>;
/**
* @author neu3no
*/
function explode(str: string, needle: string, max: int): Array<string>;
/**
* @desc concats a given word with itself n times
* @param {string} word
* @param {int}
* @return {string}
* @author fenris
*/
function repeat(word: string, count: int): string;
/**
* @desc lengthens a string by repeatedly appending or prepending another string
* @param {string} word the string to pad
* @param {int} length the length, which the result shall have
* @param {string} symbol the string, which will be added (multiple times)
* @param {boolean} [prepend]; whether to prepend (~true) or append (~false); default: false
* @return {string} the padded string
* @author fenris
*/
function pad(word: string, length: int, symbol?: string, mode?: string): string;
/**
* @desc checks if a given string conttains a certain substring
* @param {string} string
* @param {string} part
* @return {boolean}
* @author fenris
*/
function contains(chain: string, part: string): boolean;
/**
* @desc checks if a given string starts with a certain substring
* @param {string} string
* @param {string} part
* @return {boolean}
* @author fenris
*/
function startsWith(chain: string, part: string): boolean;
/**
* @desc checks if a given string ends with a certain substring
* @param {string} string
* @param {string} part
* @return {boolean}
* @author fenris
*/
function endsWith(chain: string, part: string): boolean;
/**
* @desc count the occourrences of a string in a string
* @param string haystack_string the string wich should be examined
* @param string needle_string the string which should be counted
* @author neuc
*/
function count_occourrences(haystack_string: string, needle_string: string, check_escape: boolean): int;
/**
* @author fenris
*/
function replace(str: string, replacements: Array<{
from: string;
to: string;
}>, options?: {}): string;
/**
* @desc replaces occurences of "{{name}}" in a string by the corresponding values of an argument object
* @author fenris
*/
function coin(str: string, args: {
[id: string]: string;
}, options?: {
legacy?: boolean;
open?: string;
close?: string;
}): string;
/**
* @author fenris
* @deprecated use limit
*/
function cut(str: string, length: int, delimiter?: string): string;
/**
*/
function limit(str: string, options?: {
length?: int;
indicator?: string;
}): string;
/**
*/
function slice(str: string, size: int): Array<string>;
/**
*/
function capitalize(str: string): string;
}
/**
* @deprecated
*/
declare namespace lib_string {
const empty: typeof lib_plankton.string.empty;
const generate: typeof lib_plankton.string.generate;
const split: typeof lib_plankton.string.split;
const explode: typeof lib_plankton.string.repeat;
const repeat: typeof lib_plankton.string.repeat;
const pad: typeof lib_plankton.string.pad;
const contains: typeof lib_plankton.string.contains;
const startsWith: typeof lib_plankton.string.startsWith;
const endsWith: typeof lib_plankton.string.endsWith;
const count_occourrences: typeof lib_plankton.string.count_occourrences;
const coin: typeof lib_plankton.string.coin;
const stance: typeof lib_plankton.string.coin;
const cut: typeof lib_plankton.string.cut;
}
declare namespace lib_plankton.string {
/**
* an implementation of c sprintf
* @param {string} string format string
* @param {array} args arguments which should be filled into
* @returns {string}
*/
var sprintf: (input: string, args?: Array<any>, original?: any) => string;
/**
* an implementation of c printf
* @param {string} string format string
* @param {array} args arguments which should be filled into
* @returns {string}
*/
function printf(format: any, args: any): void;
}
declare var sprintf: (input: string, args?: Array<any>, original?: any) => string;
declare var printf: typeof lib_plankton.string.printf;
declare var eml_log: any;
declare var track_exports: any;
declare var make_logger: (prefix: any, current_loglevel: any) => (obj: any, lvl: any) => void;
declare namespace lib_plankton.object {
/**
* @author fenris
* @deprecated use the "??" operator instead
*/
function fetch<type_value>(object: Object, fieldname: string, options?: {
fallback?: type_value;
escalate?: boolean;
}): type_value;
/**
*/
function map<type_from, type_to>(object_from: Record<string, type_from>, transformator: ((value_from: type_from, key?: string) => type_to)): Record<string, type_to>;
/**
* gibt ein Objekt mit bestimmten Einträgen des Eingabe-Objekts zurück
*/
function filter<type_value>(object_from: Record<string, type_value>, predicate: ((value_from: type_value, key?: string) => boolean)): Record<string, type_value>;
/**
* wandelt ein Array mit Einträgen der Form {key,value} in ein entsprechendes Objekt um
*
* @deprecated use Object.fromEntries instead!
*/
function from_array<type_value>(array: Array<{
key: string;
value: type_value;
}>): Record<string, type_value>;
/**
* wandelt ein Objekt in ein entsprechendes Array mit Einträgen der Form {key,value} um
*
* @deprecated use Object.entries insetad!
*/
function to_array<type_value>(object: Record<string, type_value>): Array<{
key: string;
value: type_value;
}>;
/**
* gibt eine Liste von Schlüsseln eines Objekts zurück
*
* @deprecated use Object.keys instead!
*/
function keys(object: Record<string, any>): Array<string>;
/**
* gibt eine Liste von Werten eines Objekts zurück
*
* @deprecated use Object.values instead!
*/
function values<type_value>(object: Record<string, type_value>): Array<type_value>;
/**
* liest ein Baum-artiges Objekt an einer bestimmten Stelle aus
*/
function path_read<type_value>(object: Object, path: string, options?: {
fallback?: type_value;
escalate?: boolean;
}): type_value;
/**
* schreibt einen Wert an eine bestimmte Stelle in einem Baum-artigen Objekt
*/
function path_write<type_value>(object: Object, path: string, value: type_value, construct?: boolean): void;
/**
* prüft ob ein Objekt einem bestimmten Muster entspricht
*
* @deprecated not very useful
*/
function matches<type_value_object, type_value_pattern>(object: Record<string, type_value_object>, pattern: Record<string, type_value_pattern>, options?: {
collate?: ((value_pattern: type_value_pattern, value_object: type_value_object) => boolean);
}): boolean;
/**
* erzeugt eine Projektion eines Baum-artigen Objekts in ein Listen-artiges Objekt
*/
function flatten(value: any, options?: {
separator?: string;
key_for_array_element?: ((index: int) => string);
}): Record<string, any>;
/**
* @deprecated use Object.assign instead!
*/
function clash(x: Record<string, any>, y: Record<string, any>, options?: {
overwrite?: boolean;
hooks?: {
existing?: ((key?: string, value_old?: any, value_new?: any) => void);
};
}): Record<string, any>;
/**
* @deprecated use Object.assign instead!
*/
function patch(core: (null | Record<string, any>), mantle: (null | Record<string, any>), options?: {
deep?: boolean;
path?: (null | string);
}): void;
/**
* @deprecated use Object.assign instead!
*/
function patched(core: Record<string, any>, mantle: Record<string, any>, options?: {
deep?: boolean;
}): Record<string, any>;
/**
* @deprecated use Object.assign instead!
*/
function attached(object: Record<string, any>, key: string, value: any): Record<string, any>;
/**
* @author fenris
*/
function copy(object: Record<string, any>): Record<string, any>;
}
declare namespace lib_plankton.translate {
/**
* @author fenris
*/
type type_package_meta = {
identifier: string;
name?: string;
};
/**
* @author fenris
*/
type type_package = {
meta: type_package_meta;
tree: {
[id: string]: string;
};
};
/**
* @desc the level of verbosity, specifiying how much output the system shall provide about its actions
* @author fenris
*/
var _verbosity: int;
/**
* @desc moves a language to the top of the order, making it the primary one
* @author fenris
*/
function promote(identifier: string): void;
/**
* @desc adds a package to the sytem
* @author fenris
*/
function add(package_: type_package): void;
/**
* @desc integrates a package to the system, i.e. creates a new one if none existed so far or merges with an existing one
* @author fenris
*/
function feed(package_: type_package): void;
/**
* @desc tries to retrieve a translation for a specific package identifier
* @author fenris
*/
function fetch(identifier: string, path: string, args?: {
[id: string]: string;
}): lib_plankton.pod.type_pod<string>;
/**
* @desc retrieves a string by going through the order and trying to fetch it for the current entry
* @author fenris
*/
function get(path: string, args?: {
[id: string]: string;
}, fallback?: string): string;
/**
* @author fenris
*/
function list(): Array<type_package_meta>;
/**
* @author fenris
* @todo get rid of this; it's currenly needed only for the cdh-internal lib_completion
*/
function paths(): Array<string>;
/**
* @author fenris
*/
function initialize({ "logprefix": logprefix, "verbosity": verbosity, "packages": packages, "order": order, "autopromote": autopromote, }?: {
logprefix?: string;
verbosity?: int;
packages?: Array<type_package>;
order?: Array<string>;
autopromote?: boolean;
}): Promise<void>;
}
declare namespace lib_plankton.translate {
/**
* @author fenris
*/
function iso_639_1_to_iso_639_2(iso6391: string): string;
/**
* @author fenris
*/
function stance(str: string): string;
}
declare namespace lib_plankton.database {
/**
*/
type type_query = {
template: string;
arguments: Record<string, any>;
};
/**
*/
enum enum_type {
boolean = "boolean",
integer = "integer",
string_short = "string_short",
string_medium = "string_medium",
string_long = "string_long",
float = "float"
}
/**
*/
type type_description_create_table = {
name: string;
key_field?: (null | {
name: string;
type?: enum_type;
comment?: (null | string);
auto_increment?: (null | boolean);
description?: (null | string);
});
data_fields?: Array<{
name: string;
nullable?: boolean;
type: enum_type;
default?: any;
description?: (null | string);
}>;
constraints?: Array<{
kind: string;
parameters?: Record<string, any>;
}>;
description?: (null | string);
};
/**
*/
type type_description_insert = {
table_name: string;
values: Record<string, any>;
returning?: (null | string);
};
/**
*/
type type_description_update = {
table_name: string;
values: Record<string, any>;
condition?: (null | string);
arguments?: (null | Record<string, any>);
};
/**
*/
type type_description_delete = {
table_name: string;
condition?: (null | string);
arguments?: (null | Record<string, any>);
};
/**
*/
type type_description_select = {
source: string;
fields?: (null | Array<string>);
condition?: (null | string);
group_by?: (null | string);
having?: (null | string);
order_by?: (null | string);
limit?: (null | int);
arguments?: (null | Record<string, any>);
};
/**
* rows
*/
type type_result_get = Array<Record<string, any>>;
/**
* auto insert id
*/
type type_result_put = (null | int);
/**
* number of affected rows
*/
type type_result_set = int;
/**
* @author fenris
*/
type type_database = {
wrap_name: ((name: string) => string);
query_free_get: ((query: type_query) => Promise<type_result_get>);
query_free_put: ((query: type_query) => Promise<type_result_put>);
query_free_set: ((query: type_query) => Promise<type_result_set>);
query_create_table: ((description_create_table: type_description_create_table) => Promise<void>);
query_insert: ((description_insert: type_description_insert) => Promise<type_result_put>);
query_update: ((description_update: type_description_update) => Promise<type_result_set>);
query_delete: ((description_delete: type_description_delete) => Promise<type_result_set>);
query_select: ((description_select: type_description_select) => Promise<type_result_get>);
};
/**
*/
type interface_database = database.type_database;
}
declare namespace lib_plankton.storage {
/**
* implements the idea of a database, which houses datasets (type_value) and manages their access by ids or sth. similar (type_key)
*
* @author fenris
*/
type type_store<type_key, type_value, type_setup_input, type_searchterm, type_preview> = {
/**
* shall prepare the storage instance for use
*
* @author fenris
*/
setup(input: type_setup_input): Promise<void>;
/**
* shall insert a new dataset and return its automatically assign key
*
* @author fenris
*/
create(value: type_value): Promise<type_key>;
/**
* shall modify an existing dataset
*
* @author fenris
*/
update(key: type_key, value: type_value): Promise<void>;
/**
* shall remove an existing dataset
*
* @author fenris
*/
delete(key: type_key): Promise<void>;
/**
* shall get an existing dataset by its key
*
* @author fenris
*/
read(key: type_key): Promise<type_value>;
/**
* shall list keys and previews of existing datasets, which match a certain search term
*
* @author fenris
*/
search(term?: (null | type_searchterm)): Promise<Array<{
key: type_key;
preview: type_preview;
}>>;
};
/**
* for class wrappers
*/
type interface_store<type_key, type_value, type_setup_input, type_searchterm, type_preview> = type_store<type_key, type_value, type_setup_input, type_searchterm, type_preview>;
}
declare namespace lib_plankton.storage {
/**
* implements the idea of a storage without managed keys
*
* @author fenris
*/
type type_chest<type_key, type_value, type_setup_input, type_searchterm, type_preview> = {
/**
* shall prepare the storage instance for use
*
* @author fenris
*/
setup(input: type_setup_input): Promise<void>;
/**
* shall remove all items
*/
clear(): Promise<void>;
/**
* shall insert a new or modify an existing dataset and return whether it is new
*
* @author fenris
*/
write(key: type_key, value: type_value): Promise<boolean>;
/**
* shall remove an existing dataset
*
* @author fenris
*/
delete(key: type_key): Promise<void>;
/**
* shall get an existing dataset by its key
*
* @author fenris
*/
read(key: type_key): Promise<type_value>;
/**
* shall list keys and previews of existing datasets, which match a certain search term
*
* @author fenris
*/
search(term?: (null | type_searchterm)): Promise<Array<{
key: type_key;
preview: type_preview;
}>>;
};
/**
* for class wrappers
*/
type interface_chest<type_key, type_value, type_setup_input, type_searchterm, type_preview> = type_chest<type_key, type_value, type_setup_input, type_searchterm, type_preview>;
}
declare namespace lib_plankton.storage.memory {
/**
* @author fenris
*/
type type_subject<type_value> = {
data: Record<string, type_value>;
};
/**
*/
type type_parameters<type_value> = {};
/**
* @author fenris
*/
function make<type_value>(parameters: type_parameters<type_value>): type_subject<type_value>;
/**
* @author fenris
*/
function clear<type_value>(subject: type_subject<type_value>): void;
/**
* @author fenris
*/
function write<type_value>(subject: type_subject<type_value>, key: string, value: type_value): boolean;
/**
* @author fenris
*/
function delete_<type_value>(subject: type_subject<type_value>, key: string): void;
/**
* @author fenris
*/
function read<type_value>(subject: type_subject<type_value>, key: string): type_value;
/**
* @author fenris
*/
function list<type_value>(subject: type_subject<type_value>): Array<string>;
/**
* @author fenris
*/
function search<type_value>(subject: type_subject<type_value>, term: (null | string)): Array<{
key: string;
preview: string;
}>;
/**
* @author fenris
*/
function implementation_chest<type_value>(parameters: type_parameters<type_value>): type_chest<string, type_value, void, string, string>;
}
declare namespace lib_plankton.storage.memory {
/**
* @author fenris
*/
class class_chest<type_item> implements type_chest<string, type_item, void, string, string> {
private subject;
constructor(parameters: type_parameters<type_item>);
setup(input: any): Promise<void>;
clear(): Promise<void>;
write(key: any, value: any): Promise<boolean>;
delete(key: any): Promise<void>;
read(key: any): Promise<type_item>;
search(term: any): Promise<{
key: string;
preview: string;
}[]>;
}
}
declare namespace lib_plankton.storage.localstorage {
/**
* @author fenris
*/
type type_subject = {
corner: string;
};
/**
* @author fenris
*/
type type_parameters = {
corner?: string;
};
/**
* @author fenris
*/
function make(parameters: type_parameters): type_subject;
/**
* @author fenris
*/
function clear(subject: type_subject): void;
/**
* @author fenris
*/
function write(subject: type_subject, key: string, item: string): boolean;
/**
* @author fenris
*/
function delete_(subject: type_subject, key: string): void;
/**
* @author fenris
*/
function read(subject: type_subject, key: string): string;
/**
* @author fenris
*/
function list(subject: type_subject): Array<string>;
/**
*/
function implementation_chest(parameters: type_parameters): type_chest<string, string, void, string, string>;
}
declare namespace lib_plankton.storage.localstorage {
/**
* uses the browsers localstorage as chest
*
* @author fenris
*/
class class_chest implements type_chest<string, string, string, string, any> {
private subject;
constructor(parameters: type_parameters);
setup(input: any): Promise<void>;
clear(): Promise<void>;
write(key: any, value: any): Promise<boolean>;
delete(key: any): Promise<void>;
read(key: any): Promise<string>;
search(term: any): Promise<{
key: string;
preview: string;
}[]>;
}
}
declare namespace lib_plankton.map {
/**
*/
type type_pair<type_key, type_value> = {
key: type_key;
value: type_value;
};
/**
* @author fenris
*/
type type_map<type_key, type_value> = {
size: (() => int);
has: ((key: type_key) => boolean);
get: ((key: type_key, fallback?: lib_plankton.pod.type_pod<type_value>) => type_value);
set: ((key: type_key, value: type_value) => void);
delete: ((key: type_key) => void);
iterate: ((procedure: ((value: type_value, key?: type_key) => void)) => void);
};
}
declare namespace lib_plankton.map {
/**
*/
function clear<type_key, type_value>(map: type_map<type_key, type_value>): void;
/**
*/
function keys<type_key, type_value>(map: type_map<type_key, type_value>): Array<type_key>;
/**
*/
function values<type_key, type_value>(map: type_map<type_key, type_value>): Array<type_value>;
/**
*/
function dump<type_key, type_value>(map: type_map<type_key, type_value>): Array<type_pair<type_key, type_value>>;
/**
*/
function show<type_key, type_value>(map: type_map<type_key, type_value>, options?: {
show_key?: ((key: type_key) => string);
show_value?: ((value: type_value) => string);
}): string;
}
declare namespace lib_plankton.map.simplemap {
/**
*/
type type_subject<type_value> = {
data: Record<string, type_value>;
};
/**
*/
function make<type_value>(options?: {
data?: Record<string, type_value>;
}): type_subject<type_value>;
/**
*/
function size<type_value>(subject: type_subject<type_value>): int;
/**
*/
function has<type_value>(subject: type_subject<type_value>, key: string): boolean;
/**
*/
function get_safe<type_value>(subject: type_subject<type_value>, key: string): lib_plankton.pod.type_pod<type_value>;
/**
*/
function get<type_value>(subject: type_subject<type_value>, key: string, fallback?: lib_plankton.pod.type_pod<type_value>): type_value;
/**
*/
function set<type_value>(subject: type_subject<type_value>, key: string, value: type_value): void;
/**
*/
function delete_<type_value>(subject: type_subject<type_value>, key: string): void;
/**
*/
function iterate<type_value>(subject: type_subject<type_value>, procedure: ((value?: type_value, key?: string) => void)): void;
/**
*/
function implementation_map<type_value>(subject: type_subject<type_value>): type_map<string, type_value>;
}
declare namespace lib_plankton.map.hashmap {
/**
* we base the hashmap on a simplemap, whos keys are the hashes and whos values are the key/value-pairs
*/
type type_subject<type_key, type_value> = {
hashing: ((key: type_key) => string);
core: lib_plankton.map.simplemap.type_subject<type_pair<type_key, type_value>>;
};
/**
*/
function make<type_key, type_value>(hashing: ((key: type_key) => string), options?: {
pairs?: Array<type_pair<type_key, type_value>>;
}): type_subject<type_key, type_value>;
/**
*/
function size<type_key, type_value>(subject: type_subject<type_key, type_value>): int;
/**
*/
function has<type_key, type_value>(subject: type_subject<type_key, type_value>, key: type_key): boolean;
/**
*/
function get<type_key, type_value>(subject: type_subject<type_key, type_value>, key: type_key, fallback?: lib_plankton.pod.type_pod<type_value>): type_value;
/**
*/
function set<type_key, type_value>(subject: type_subject<type_key, type_value>, key: type_key, value: type_value): void;
/**
*/
function delete_<type_key, type_value>(subject: type_subject<type_key, type_value>, key: type_key): void;
/**
*/
function iterate<type_key, type_value>(subject: type_subject<type_key, type_value>, procedure: ((value?: type_value, key?: type_key) => void)): void;
/**
*/
function implementation_map<type_key, type_value>(subject: type_subject<type_key, type_value>): type_map<type_key, type_value>;
}
declare namespace lib_plankton.map.collatemap {
/**
*/
type type_collation<type_key> = ((key1: type_key, key2: type_key) => boolean);
/**
*/
export type type_subject<type_key, type_value> = {
collation: type_collation<type_key>;
pairs: Array<type_pair<type_key, type_value>>;
};
/**
*/
export function make<type_key, type_value>(collation: type_collation<type_key>, options?: {
pairs?: Array<type_pair<type_key, type_value>>;
}): type_subject<type_key, type_value>;
/**
*/
export function size<type_key, type_value>(subject: type_subject<type_key, type_value>): int;
/**
*/
export function has<type_key, type_value>(subject: type_subject<type_key, type_value>, key: type_key): boolean;
/**
* @todo use .find
*/
export function get<type_key, type_value>(subject: type_subject<type_key, type_value>, key: type_key, fallback?: lib_plankton.pod.type_pod<type_value>): type_value;
/**
*/
export function set<type_key, type_value>(subject: type_subject<type_key, type_value>, key: type_key, value: type_value): void;
/**
*/
export function delete_<type_key, type_value>(subject: type_subject<type_key, type_value>, key: type_key): void;
/**
*/
export function iterate<type_key, type_value>(subject: type_subject<type_key, type_value>, function_: ((value?: type_value, key?: type_key) => void)): void;
/**
*/
export function implementation_map<type_key, type_value>(subject: type_subject<type_key, type_value>): type_map<type_key, type_value>;
export {};
}
declare namespace lib_plankton.pit {
/**
*/
type type_date = {
year: int;
month: int;
day: int;
};
/**
*/
type type_ywd = {
year: int;
week: int;
day: int;
};
/**
*/
type type_time = {
hour: int;
minute: int;
second: int;
};
/**
*/
type type_datetime = {
timezone_shift: int;
date: type_date;
time: (null | type_time);
};
/**
*/
type type_pit = int;
}
declare namespace lib_plankton.pit {
/**
* @todo complete
*/
function timezone_name_to_timezone_shift(timezone_name: string): int;
/**
*/
function date_object_get_week_of_year(date: Date): int;
/**
*/
function to_unix_timestamp(pit: type_pit): int;
/**
*/
function from_unix_timestamp(unix_timestamp: int): type_pit;
/**
*/
function to_date_object(pit: type_pit): Date;
/**
* @todo test
*/
function to_datetime(pit: type_pit, { "timezone_shift": option_timezone_shift, }?: {
timezone_shift?: int;
}): type_datetime;
/**
*/
function from_datetime(datetime: type_datetime): type_pit;
/**
*/
function is_before(pit: type_pit, reference: type_pit): boolean;
/**
*/
function is_between(pit: type_pit, reference_left: type_pit, reference_right: type_pit): boolean;
/**
*/
function shift_day(pit: type_pit, increment: int): type_pit;
/**
*/
function shift_week(pit: type_pit, increment: int): type_pit;
/**
*/
function trunc_week(pit: type_pit): type_pit;
/**
*/
function now(): type_pit;
/**
* @param year year according to specified timezone shift
* @param week week according to specified timezone shift
* @return the begin of the week (monday, 00:00)
*/
function from_ywd(ywd: type_ywd, { "timezone_shift": option_timezone_shift, }?: {
timezone_shift?: int;
}): type_pit;
/**
* @todo timezone
*/
function to_ywd(pit: type_pit, { "timezone_shift": option_timezone_shift, }?: {
timezone_shift?: int;
}): type_ywd;
/**
* computes the point in time for switching to central european summer time
*
* @todo write tests
*/
function cest_switch_on(year: int): type_pit;
/**
* computes the point in time for switching away from central european summer time
*
* @todo write tests
*/
function cest_switch_off(year: int): type_pit;
/**
*/
function timezone_shift_ce(pit: type_pit): int;
/**
* [convenience]
*/
function to_datetime_ce(pit: type_pit): type_datetime;
/**
*/
function datetime_translate(datetime: type_datetime, timezone_shift: int): type_datetime;
/**
* [convenience]
*/
function datetime_translate_ce(datetime: type_datetime): type_datetime;
/**
*/
function timezone_shift_format(timezone_shift: int): string;
/**
*/
function date_format(date: type_date): string;
/**
*/
function time_format(time: type_time, { "show_seconds": option_show_seconds, }?: {
show_seconds?: boolean;
}): string;
/**
* @todo show timezone
*/
function datetime_format(datetime: (null | type_datetime), { "timezone_indicator": option_timezone_indicator, "show_timezone": option_show_timezone, "adjust_to_ce": option_adjust_to_ce, "omit_date": option_omit_date, }?: {
timezone_indicator?: string;
show_timezone?: boolean;
adjust_to_ce?: boolean;
omit_date?: boolean;
}): string;
/**
*/
function timespan_format(from: type_datetime, to: (null | type_datetime), { "timezone_indicator": option_timezone_indicator, "show_timezone": option_show_timezone, "adjust_to_ce": option_adjust_to_ce, "omit_date": option_omit_date, }?: {
timezone_indicator?: string;
show_timezone?: boolean;
adjust_to_ce?: boolean;
omit_date?: boolean;
}): string;
}
declare namespace lib_plankton.zoo_input {
/**
* @author fenris
*/
interface interface_input<type_value> {
/**
*/
setup(parent: HTMLElement): Promise<void>;
/**
*/
read(): Promise<type_value>;
/**
*/
write(value: type_value): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
* @author fenris
*/
class class_input_wrapped<type_value_inner, type_value_outer> implements interface_input<type_value_outer> {
/**
*/
private core;
/**
*/
private wrap;
/**
*/
private unwrap;
/**
*/
constructor(core: interface_input<type_value_inner>, wrap: ((value_inner: type_value_inner) => type_value_outer), unwrap: ((value_outer: type_value_outer) => type_value_inner), options?: {});
/**
* [implementation]
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<type_value_outer>;
/**
* [implementation]
*/
write(value: type_value_outer): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
* @author fenris
*/
class class_input_soft<type_value_core> implements interface_input<(null | type_value_core)> {
/**
*/
private core;
/**
*/
private dom_set;
/**
*/
private dom_wrapper;
/**
*/
constructor(core: interface_input<type_value_core>, options?: {});
/**
*/
private toggle;
/**
* [implementation]
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<(null | type_value_core)>;
/**
* [implementation]
*/
write(value: (null | type_value_core)): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
* @author fenris
*/
class class_input_hidden implements interface_input<any> {
/**
*/
private dom_input;
/**
*/
private value;
/**
*/
constructor(options?: {
initial_value?: any;
});
/**
* [implementation]
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<any>;
/**
* [implementation]
*/
write(value: any): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
* @author fenris
* @todo abstract
*/
class class_input_text implements interface_input<string> {
/**
*/
private read_only;
/**
*/
private pattern;
/**
*/
/**
*/
private dom_input;
/**
*/
constructor(options?: {
read_only?: boolean;
pattern?: (null | string);
});
/**
* [implementation]
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<string>;
/**
* [implementation]
*/
write(value: string): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
* @author fenris
*/
class class_input_email implements interface_input<string> {
/**
*/
private dom_input;
/**
*/
constructor();
/**
* [implementation]
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<string>;
/**
* [implementation]
*/
write(value: string): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
* @author fenris
*/
class class_input_textarea implements interface_input<string> {
/**
*/
private dom_textarea;
/**
*/
constructor();
/**
* [implementation]
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<string>;
/**
* [implementation]
*/
write(value: string): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
* @author fenris
*/
class class_input_date implements interface_input<(null | lib_plankton.pit.type_date)> {
/**
*/
private required;
/**
*/
private dom_input;
/**
*/
constructor(options?: {
required?: boolean;
});
/**
* [implementation]
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<(null | lib_plankton.pit.type_date)>;
/**
* [implementation]
*/
write(value: (null | lib_plankton.pit.type_date)): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
* @author fenris
* @todo abstract
*/
class class_input_number implements interface_input<number> {
/**
*/
private read_only;
/**
*/
private step;
/**
*/
private dom_input;
/**
*/
constructor(options?: {
read_only?: boolean;
step?: (null | float);
});
/**
* [implementation]
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<number>;
/**
* [implementation]
*/
write(value: number): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
* @author fenris
*/
class class_input_checkbox implements interface_input<boolean> {
/**
*/
private read_only;
/**
*/
private dom_input;
/**
*/
private hooks_change;
/**
*/
constructor(options?: {
read_only?: boolean;
hooks_change?: Array<((value: boolean) => void)>;
});
/**
* [implementation]
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<boolean>;
/**
* [implementation]
*/
write(value: boolean): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
* @author fenris
*/
class class_input_selection implements interface_input<string> {
/**
*/
private options;
/**
*/
private dom_select;
/**
*/
constructor(options: Array<{
value: string;
label: string;
}>);
/**
* [implementation]
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<string>;
/**
* [implementation]
*/
write(value: string): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
* @author fenris
*/
class class_input_enumeration implements interface_input<string> {
/**
*/
private options;
/**
*/
private dom_inputs;
/**
*/
constructor(options: Array<{
value: string;
label: string;
}>);
/**
* [implementation]
* @todo unique name
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<string>;
/**
* [implementation]
*/
write(value: string): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
*/
type type_translations = {
add?: string;
remove?: string;
};
/**
* @author fenris
*/
export class class_input_list<type_element> implements interface_input<Array<type_element>> {
/**
*/
private read_only;
/**
*/
private element_input_factory;
/**
*/
private elements_container_dom;
/**
*/
private elements;
/**
*/
private translations;
/**
*/
constructor(element_input_factory: (() => interface_input<type_element>), options?: {
read_only?: boolean;
translations?: type_translations;
});
/**
*/
private clear;
/**
*/
private add;
/**
* [implementation]
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<Array<type_element>>;
/**
* [implementation]
*/
write(value: Array<type_element>): Promise<void>;
}
export {};
}
declare namespace lib_plankton.zoo_input {
/**
* @author fenris
*/
class class_input_password implements interface_input<string> {
/**
*/
private dom_input;
/**
*/
constructor();
/**
* [implementation]
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<string>;
/**
* [implementation]
*/
write(value: string): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
* @author fenris
*/
class class_input_switch implements interface_input<boolean> {
/**
*/
private dom_element;
/**
*/
private value;
/**
*/
constructor();
/**
* [implementation]
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<boolean>;
/**
* [implementation]
*/
write(value: boolean): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
* @author fenris
*/
class class_input_time implements interface_input<(null | lib_plankton.pit.type_time)> {
/**
*/
private dom_input;
/**
*/
constructor();
/**
* [implementation]
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<(null | lib_plankton.pit.type_time)>;
/**
* [implementation]
*/
write(value: (null | lib_plankton.pit.type_time)): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
* @author fenris
*/
class class_input_group<type_record> implements interface_input<type_record> {
/**
*/
private fields;
/**
*/
constructor(fields_raw: Array<{
name: string;
input: interface_input<any>;
label?: (null | string);
help?: (null | string);
}>);
/**
* [implementation]
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<type_record>;
/**
* [implementation]
*/
write(value: type_record): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
*/
class class_input_hashmap<type_key, type_value> implements lib_plankton.zoo_input.interface_input<lib_plankton.map.type_map<type_key, type_value>> {
/**
*/
private hash_key;
/**
*/
private core;
/**
*/
constructor(hash_key: ((key: type_key) => string), key_input_factory: (() => lib_plankton.zoo_input.interface_input<type_key>), value_input_factory: (() => lib_plankton.zoo_input.interface_input<type_value>));
/**
* [implementation]
*/
setup(parent: HTMLElement): Promise<void>;
/**
* [implementation]
*/
read(): Promise<lib_plankton.map.type_map<type_key, type_value>>;
/**
* [implementation]
*/
write(map: lib_plankton.map.type_map<type_key, type_value>): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
*/
class class_input_datetime implements interface_input<lib_plankton.pit.type_datetime> {
/**
*/
private core;
/**
*/
constructor(options?: {
label_timezone_shift?: string;
label_date?: string;
label_time?: string;
});
/**
*/
setup(parent: HTMLElement): Promise<void>;
/**
*/
read(): Promise<lib_plankton.pit.type_datetime>;
/**
*/
write(value: lib_plankton.pit.type_datetime): Promise<void>;
}
}
declare namespace lib_plankton.zoo_input {
/**
* for central europe with daylight saving time feature
*/
class class_input_datetime_central_europe implements interface_input<lib_plankton.pit.type_datetime> {
/**
*/
private core;
/**
*/
constructor(options?: {
label_date?: string;
label_time?: string;
});
/**
*/
setup(parent: HTMLElement): Promise<void>;
/**
*/
read(): Promise<lib_plankton.pit.type_datetime>;
/**
*/
write(value: lib_plankton.pit.type_datetime): Promise<void>;
}
}
declare namespace lib_plankton.zoo_form {
/**
*/
type type_field = {
name: string;
type: string;
label: (null | string);
};
/**
*/
export type type_form<type_value> = {
method: string;
fields: Array<type_field>;
encode: ((value: type_value) => Record<string, string>);
decode: ((raw: Record<string, string>) => type_value);
class_prefix: string;
root_element: (null | Element);
};
/**
*/
export function make<type_value>(method: string, fields: Array<{
name: string;
type: string;
label?: (null | string);
}>, encode: ((value: type_value) => Record<string, string>), decode: ((raw: Record<string, string>) => type_value), options?: {
class_prefix?: string;
}): type_form<type_value>;
/**
*/
export function make_simple(method: string, fields: Array<{
name: string;
type: string;
label?: (null | string);
}>, options?: {
class_prefix?: string;
}): type_form<Record<string, any>>;
/**
*/
export function clear<type_value>(subject: type_form<type_value>): void;
/**
*/
export function write<type_value>(subject: type_form<type_value>, value: type_value): void;
/**
*/
export function read<type_value>(subject: type_form<type_value>): type_value;
/**
*/
export function render<type_value>(subject: type_form<type_value>, target: Element): Promise<void>;
export {};
}
declare namespace lib_plankton.zoo_form {
/**
*/
type type_action<type_value, type_representation> = {
label: string;
target?: string;
procedure?: ((get_value?: (() => Promise<type_value>), get_representation?: (() => Promise<type_representation>)) => void);
};
/**
* @author fenris
*/
export class class_form<type_value, type_representation> {
/**
*/
private encode;
/**
*/
private decode;
/**
*/
private actions;
/**
*/
private input;
/**
*/
constructor(encode: ((value: type_value) => type_representation), decode: ((representation: type_representation) => type_value), input: lib_plankton.zoo_input.interface_input<type_representation>, actions: Array<type_action<type_value, type_representation>>);
/**
*/
setup(parent: HTMLElement): Promise<void>;
/**
*/
input_read_raw(): Promise<type_representation>;
/**
*/
input_read(): Promise<type_value>;
/**
*/
input_write(value: type_value): Promise<void>;
}
export {};
}
declare namespace lib_plankton.zoo_search {
/**
*/
type type_state = {
term: (null | string);
};
/**
*/
type type_search<type_item> = {
routine: ((term: string) => Promise<Array<type_item>>);
encode_item: ((item: type_item) => string);
hooks_select: Array<((item: type_item) => void)>;
hooks_begin: Array<((term?: string) => void)>;
hooks_end: Array<(() => void)>;
class_prefix: string;
root_element: (null | Element);
state: (null | type_state);
};
/**
*/
function make<type_item>(routine: ((term: string) => Promise<Array<type_item>>), options: {
encode_item?: ((item: type_item) => string);
hooks_select?: Array<((item: type_item) => void)>;
hooks_begin?: Array<((term?: string) => void)>;
hooks_end?: Array<(() => void)>;
class_prefix?: string;
}): type_search<type_item>;
/**
*/
function hook_begin<type_item>(subject: type_search<type_item>, action: ((term: string) => void)): void;
/**
*/
function hook_end<type_item>(subject: type_search<type_item>, action: (() => void)): void;
/**
*/
function hook_select<type_item>(subject: type_search<type_item>, action: ((item: type_item) => void)): void;
/**
*/
function set_state<type_item>(subject: type_search<type_item>, state: type_state): Promise<void>;
/**
*/
function render<type_item>(subject: type_search<type_item>, target: Element, options?: {
state?: type_state;
}): Promise<void>;
}
declare namespace lib_plankton.zoo_editor {
/**
*/
enum enum_mode {
find = "find",
view = "view",
make = "make"
}
/**
*/
enum enum_action {
keep = "keep",
save = "save",
delete = "delete",
find = "find",
make = "make"
}
/**
*/
enum enum_function {
seek = "seek",
read = "read",
create = "create",
update = "update",
delete = "delete"
}
/**
*/
type type_state<type_key, type_value> = {
mode: enum_mode;
key: (null | type_key);
search_state: lib_plankton.zoo_search.type_state;
};
/**
*/
type type_editor<type_key, type_value> = {
functions: Array<enum_function>;
store: lib_plankton.storage.type_store<type_key, type_value, void, string, any>;
search: lib_plankton.zoo_search.type_search<{
key: type_key;
preview: any;
}>;
form: lib_plankton.zoo_form.type_form<type_value>;
hook_switch: (null | ((state: type_state<type_key, type_value>) => void));
state: (null | type_state<type_key, type_value>);
class_prefix: string;
root_element: (null | Element);
};
/**
*/
function make<type_key, type_value>(store: lib_plankton.storage.type_store<type_key, type_value, void, string, any>, form: lib_plankton.zoo_form.type_form<type_value>, options?: {
functions?: Array<enum_function>;
encode_hit?: ((hit: {
key: type_key;
preview: any;
}) => string);
hook_switch?: (null | ((state: type_state<type_key, type_value>) => void));
class_prefix?: string;
}): type_editor<type_key, type_value>;
/**
*/
function render<type_key, type_value>(subject: type_editor<type_key, type_value>, target: Element, options?: {
state?: type_state<type_key, type_value>;
}): Promise<void>;
}
declare namespace lib_plankton.zoo_page {
/**
*/
export type type_location = {
name: string;
parameters: Record<string, any>;
};
/**
*/
type type_handler = ((parameters: Record<string, any>, target_element: Element) => void);
/**
*/
export let _pool: Record<string, type_handler>;
/**
*/
export function encode(location: type_location): string;
/**
*/
export function add_nav_entry(location: type_location, options?: {
label?: (null | string);
}): void;
/**
* encodes a location in the URL and loads it
*/
export function set(location: type_location): void;
/**
*/
export function register(location_name: string, handler: type_handler, options?: {}): void;
/**
*/
export function init(target_element: Element, options?: {
pool?: Record<string, type_handler>;
fallback?: (null | type_location);
}): void;
/**
*/
export function start(): void;
export {};
}
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