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6ae1cb8
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develop-client_server
master
typescript
fs-words.git
client
lib
plankton
call
logic-decl.d.ts
[add] client
Christian Fraß
commited
6ae1cb8
at 2021-03-08 23:52:24
logic-decl.d.ts
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declare module lib_call { /** * @desc hacked class for postfix function application * @author fenris */ class class_valuewrapper<type_value> { /** * @author fenris */ protected value: type_value; /** * @desc [constructor] * @author fenris */ constructor(value: type_value); /** * @desc [accessor] applies a function and returns a new valuewrapper * @author fenris */ pass<type_value_>(function_: (value: type_value) => type_value_): class_valuewrapper<type_value_>; /** * @desc [accessor] gives the wrapped value * @author fenris */ extract(): type_value; } /** * @desc shortcut for constructing a valuewrapper-object * @author fenris */ function vw<type_value>(value: type_value): class_valuewrapper<type_value>; /** * @author fenris */ function use<type_input, type_output>(input: type_input, function_: (input: type_input) => type_output): type_output; /** * @desc just the identity; useful for some callbacks etc. * @author fenris */ function id<type_value>(x: type_value): type_value; /** * @desc 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 */ 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; /** * @desc transforms a function with sequential input into a function with leveled input; example: add(2,3) = curryfy(add)(2)(3) * @param {function} f * @param {int} n (don't set manually) * @return {function} the currified version of the in put function * @author fenris */ function curryfy(f: Function, n?: int): Function; } declare module lib_call { /** * @author fenris */ type type_executor<type_result, type_reason> = ((resolve: (result?: type_result) => any, reject?: (reason?: type_reason) => void) => void); /** * @author fenris */ function executor_resolve<type_result, type_reason>(result: type_result): type_executor<type_result, type_reason>; /** * @author fenris */ function executor_reject<type_result, type_reason>(reason: type_reason): type_executor<type_result, type_reason>; /** * @author fenris */ function executor_transform<type_result_from, type_error_from, type_result_to, type_error_to>(executor: type_executor<type_result_from, type_error_from>, transform_result: (result_from: type_result_from) => type_result_to, transform_reason: (error_from: type_error_from) => type_error_to): type_executor<type_result_to, type_error_to>; /** * @author fenris */ function executor_transform_default<type_result_from, type_result_to>(executor: type_executor<type_result_from, Error>, transform_result: (result_from: type_result_from) => type_result_to, wrap_string?: string): type_executor<type_result_to, Error>; /** * @author fenris */ function executor_compose_sequential<type_result_first, type_result_second, type_reason>(first: type_executor<type_result_first, type_reason>, second: (result: type_result_first) => type_executor<type_result_second, type_reason>): type_executor<type_result_second, type_reason>; /** * @author fenris */ function executor_chain<type_state, type_error>(state: type_state, executors: Array<(state: type_state) => type_executor<type_state, type_error>>): type_executor<type_state, type_error>; /** * @author fenris */ function executor_first<type_result, type_reason>(executors: Array<type_executor<type_result, type_reason>>): type_executor<type_result, Array<type_reason>>; /** * @author fenris */ function executor_condense<type_element>(executors: Array<type_executor<type_element, Error>>): type_executor<Array<type_element>, Error>; /** * @author fenris * @deprecated use condense */ function executor_filter<type_element>(executors: Array<type_executor<type_element, Error>>, predicate: (element: type_element) => boolean): type_executor<Array<type_element>, Error>; /** * @author fenris * @deprecated use condense */ function executor_map<type_element1, type_element2>(executors: Array<type_executor<type_element1, Error>>, transformator: (element1: type_element1) => type_element2): type_executor<Array<type_element2>, Error>; /** * @author fenris * @deprecated use condense */ function executor_reduce<type_element, type_result>(executors: Array<type_executor<type_element, Error>>, initial: type_result, accumulator: (result: type_result, element: type_element) => type_result): type_executor<type_result, Error>; } declare module lib_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: { [name: string]: () => type_promise<any, type_reason>; }, serial?: boolean): type_promise<{ [name: 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): Promise<type_result_outer>; /** * @author fenris */ function promise_show<type_result, type_reason>(label: string): (result: type_result) => type_promise<type_result, type_reason>; /** * @author fenris */ function promise_log<type_result, type_reason>(result: type_result): (result: type_result) => type_promise<type_result, type_reason>; /** * @author fenris */ function promise_attach<type_reason>(state: { [name: string]: any; }, promise: type_promise<any, type_reason>, name: string): type_promise<{ [name: string]: any; }, type_reason>; /** * @author fenris */ function promise_delay<type_result, type_reason>(promise: type_promise<type_result, type_reason>, delay: int): Promise<type_result>; /** * @author fenris */ function promise_to_executor<type_result, type_reason>(promise: type_promise<type_result, type_reason>): type_executor<type_result, type_reason>; } declare module lib_call { /** * @author fenris */ type type_initializer_state = int; const initializer_state_initial: type_initializer_state; const initializer_state_waiting: type_initializer_state; const initializer_state_successful: type_initializer_state; const initializer_state_failed: type_initializer_state; /** * @author fenris */ type type_initializer<type_result, type_reason> = { fetcher: () => type_promise<type_result, type_reason>; state?: type_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>): type_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 module lib_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 module lib_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 module lib_call { /** * @author fenris */ function timeout(function_: () => void, delay: int): int; /** * @desc a definition for a value being "defined" * @author neuc */ function is_def<type_value>(obj: type_value, null_is_valid?: boolean): boolean; /** * @desc returns the value if set and, when a type is specified, if the type is correct, if not return default_value * @author neuc */ function def_val(value: any, default_value: any, type?: string, null_is_valid?: boolean): any; /** * @desc just the empty function; useful for some callbacks etc. * @author fenris */ function nothing(): void; /** * @desc outputs * @author fenris */ function output(...args: Array<any>): void; /** * @desc converts the "arguments"-map into an array * @param {Object} args * @author fenris */ function args2list(args: any): Array<any>; /** * @desc provides the call for an attribute of a class as a regular function * @param {string} name the name of the attribute * @return {*} * @author fenris */ function attribute<type_object, type_attribute>(name: string): (object: type_object) => type_attribute; /** * @desc provides a method of a class as a regular function * @param {string} name the name of the method * @return {function} * @author fenris */ function method<type_object, type_output>(name: string): (object: type_object) => type_output; /** * @author fenris */ type type_unival = { kind: string; data?: any; }; /** * @author fenris */ function distinguish(unival: type_unival, handlers: { [kind: string]: (data?: any) => any; }, fallback?: (unival?: type_unival) => any): any; }