Results for fetch-to-node

Node.js-compatible request and response objects for WinterTC runtimes

A light-weight module that brings Fetch API to node.js

better fetch for Node.js. Works on any JavaScript runtime!

An implementation of window.fetch in Node.js using Minipass streams

Blob & File implementation in Node.js, originally from node-fetch.

Cross Platform Smart Fetch Ponyfill

Provides a way to make requests

HTML5 `FormData` for Browsers and Node.

TypeScript definitions for node-fetch

Web API compatible fetch implementation

Universal WHATWG Fetch API for Node, Browsers and React Native

AbortController for Node based on EventEmitter

Implementation of window.fetch which can use http2 seamlessly

Minimal web-style fetch TypeScript typings

A light-weight module that brings window.fetch to node.js

Web API compatible Blob implementation

Decorator for a `fetch` function to support automatic cookies.

OpenTelemetry instrumentation for `undici` http client and Node.js fetch()

A light-weight module that brings Fetch API to node.js

Fetches the contents of a file accross node and browsers.

digest auth request plugin for fetch/node-fetch also support http basic auth authentication

An HTTP/1.1 client, written from scratch for Node.js

Mock http requests made using fetch

A light-weight module that brings Fetch API to node.js

Fluentd Input plugin to fetch munin-node metrics data with custom intervals. It supports all of munin plugins.

This gem provides an interface for fetching cluster information from an AWS ElastiCache AutoDiscovery server and configuring a Dalli client to connect to all nodes in the cache cluster.

DeepTree simplifies fetching deeply nested nodes in Ruby hashes.

Fetch Druid info using Druid API. You can fetch all data related to your nodes, data sources, segments...

This gem provides an interface for fetching cluster information from an AWS ElastiCache AutoDiscovery server and configuring a Dalli client to connect to all nodes in the cache cluster.

This Gem eagerly loads trees by indexing the nodes of the tree. The number of queries needed for loading a tree is N, Where N is the number of different models(ActiveRecords) in the tree. Each inner object in the tree have an index node instance that is connecting it to the root. When the root of the tree is loaded, only the objects that are in the tree are fetched(Pruning). The index nodes are created when the root element is saved and stored in the IndexNode model.

Implement orderable trees in ActiveRecord using the nested set model, with multiple roots and scoping, and most importantly user-defined ordering of subtrees. Fetches preordered trees in one go, updates are write-heavy. This is a substantially butchered-up version/offspring of acts_as_threaded. The main additional perk is the ability to reorder nodes, which are always fetched ordered. Example: root = Folder.create! :name => "Main folder" subfolder_1 = Folder.create! :name => "Subfolder", :parent_id => root.id subfolder_2 = Folder.create! :name => "Another subfolder", :parent_id => root.id subfolder_2.move_to_top # just like acts_as_list but nestedly awesome root.all_children # => [subfolder_2, subfolder_1] See the rdocs for examples the method names. It also inherits the awesome properties of acts_as_threaded, namely materialized depth, root_id and parent_id values on each object which are updated when nodes get moved. Thanks to the authors of acts_as_threaded, awesome_nested_set, better_nested_set and all the others for inspiration.

Implement orderable trees in ActiveRecord using the nested set model, with multiple roots and scoping, and most importantly user-defined ordering of subtrees. Fetches preordered trees in one go, updates are write-heavy. This is a substantially butchered-up version/offspring of acts_as_threaded. The main additional perk is the ability to reorder nodes, which are always fetched ordered. Example: root = Folder.create! :name => "Main folder" subfolder_1 = Folder.create! :name => "Subfolder", :parent_id => root.id subfolder_2 = Folder.create! :name => "Another subfolder", :parent_id => root.id subfolder_2.move_to_top # just like acts_as_list but nestedly awesome root.all_children # => [subfolder_2, subfolder_1] See the rdocs for examples the method names. It also inherits the awesome properties of acts_as_threaded, namely materialized depth, root_id and parent_id values on each object which are updated when nodes get moved. Thanks to the authors of acts_as_threaded, awesome_nested_set, better_nested_set and all the others for inspiration.

Easy to use DSL that helps scraping data from websites. Thanks to it, writing web crawlers would be very fast and intuitive. Traversing through html nodes and fetching all of the HTML attributes, would be possible. Just like in jQuery - you will find methods like parent, children, first, find, siblings etc. Furthermore, you are able to download images, web pages, and store all content in the database. Please visit my Github account for more details.

Diggr is a ruby wrapper for the Digg API. Diggr strives to remain consistent with the Digg API endpoints listed here: http://apidoc.digg.com/CompleteList. Endpoints are created in Diggr with method calls. Each node in an endpoint becomes a method call and each node which is an argument becomes an argument to the previous method. As an example, the following endpoint /user/{user name} in which the user name is "johndoe" would be created with this Diggr call: diggr.user("johndoe") To send the request to the Digg API and retrieve the results of the call, Diggr requests are terminated in one of two ways. 1. Using the fetch method. By ending your request with the fetch method, your result will be returned to you. If the request is singular, you will receive a single object as a response. If the request is plural, you will receive a collection of objects stored in an array. 2. Using any Enumerable method. In this case, it is unnecessary to use the fetch method. See the synopsis for examples of each of these types of calls. Options such as count or offset can be set using the options method and providing a hash of arguments. See synopsis for more information. Note: In an effort to remain consistent with the Digg API, some method names do not follow the ruby idiom of underscores. Although somewhat ugly, this allows a user to read the Digg API and understand the exact methods to call in Diggr to achieve their desired results.

Diggr is a ruby wrapper for the Digg API. Diggr strives to remain consistent with the Digg API endpoints listed here: http://apidoc.digg.com/CompleteList. Endpoints are created in Diggr with method calls. Each node in an endpoint becomes a method call and each node which is an argument becomes an argument to the previous method. As an example, the following endpoint /user/{user name} in which the user name is "johndoe" would be created with this Diggr call: diggr.user("johndoe") To send the request to the Digg API and retrieve the results of the call, Diggr requests are terminated in one of two ways. 1. Using the fetch method. By ending your request with the fetch method, your result will be returned to you. If the request is singular, you will receive a single object as a response. If the request is plural, you will receive a collection of objects stored in an array. 2. Using any Enumerable method. This works only on plural requests. In this case, it is unnecessary to use the fetch method. See the synopsis for examples of each of these types of calls. Options such as count or offset can be set using the options method and providing a hash of arguments. See synopsis for more information. Note: In an effort to remain consistent with the Digg API, some method names do not follow the ruby idiom of underscores. Although somewhat ugly, this allows a user to read the Digg API and understand the exact methods to call in Diggr to achieve their desired results.

Diggr is a ruby wrapper for the Digg API. Diggr strives to remain consistent with the Digg API endpoints listed here: http://apidoc.digg.com/CompleteList. Endpoints are created in Diggr with method calls. Each node in an endpoint becomes a method call and each node which is an argument becomes an argument to the previous method. As an example, the following endpoint /user/{user name} in which the user name is "johndoe" would be created with this Diggr call: diggr.user("johndoe") To send the request to the Digg API and retrieve the results of the call, Diggr requests are terminated in one of two ways. 1. Using the fetch method. By ending your request with the fetch method, your result will be returned to you. If the request is singular, you will receive a single object as a response. If the request is plural, you will receive a collection of objects stored in an array. 2. Using any Enumerable method. In this case, it is unnecessary to use the fetch method. See the synopsis for examples of each of these types of calls. Options such as count or offset can be set using the options method and providing a hash of arguments. See synopsis for more information. Note: In an effort to remain consistent with the Digg API, some method names do not follow the ruby idiom of underscores. Although somewhat ugly, this allows a user to read the Digg API and understand the exact methods to call in Diggr to achieve their desired results.