1660443120
Show A Skeleton on A Loading Iframe to Smooth Over The UX for React
React Loading Iframe
Show a skeleton on a loading iframe to smooth over the UX. Iframes can take a while to respond, and until they do your users see a blank screen. Using react-loading-iframe you can set a nice skeleton until the src page responds.
Usage
Install with npm or yarn!
npm i react-loading-iframe
yarn add react-loading-iframe
Include in your project. Pass a skeleton as prop to LoadingIframe, and it will be rendered until the iframe is ready.
import LoadingIframe from 'react-loading-iframe';
const Skeleton = () => {
return <div>Cool loading screen</div>;
};
export const BasicExample = () => {
return (
<LoadingIframe
skeleton={<Skeleton />}
src="https://google.com"
className="your-class"
frameBorder={0}
/>
);
};
Props
LoadingIframe carries over all props from HTML iframes, except style as it is used internally. Additional props:
skeleton: ReactElement. When missing this will throw a console warning as you would be better off using a regular iframe.
Contributing & Roadmap
Contributions are open.
In the future I'd like to add a functionality where you can search the element tree of an iframe for an element and optionally show a different skeleton if an element is not found. This can be used to overwrite loading screens inside of an iframe. If you have any suggestions or possible implementations please share them!
Author: tea-lover-418
Source code: https://github.com/tea-lover-418/react-loading-iframe
License: MIT license
#react #typescript #javascript
What is GEEK
Buddha Community
1653465344
PySpark Cheat Sheet: Spark DataFrames in Python
This PySpark SQL cheat sheet is your handy companion to Apache Spark DataFrames in Python and includes code samples.
You'll probably already know about Apache Spark, the fast, general and open-source engine for big data processing; It has built-in modules for streaming, SQL, machine learning and graph processing. Spark allows you to speed analytic applications up to 100 times faster compared to other technologies on the market today. Interfacing Spark with Python is easy with PySpark: this Spark Python API exposes the Spark programming model to Python.
Now, it's time to tackle the Spark SQL module, which is meant for structured data processing, and the DataFrame API, which is not only available in Python, but also in Scala, Java, and R.
Without further ado, here's the cheat sheet:
This PySpark SQL cheat sheet covers the basics of working with the Apache Spark DataFrames in Python: from initializing the SparkSession to creating DataFrames, inspecting the data, handling duplicate values, querying, adding, updating or removing columns, grouping, filtering or sorting data. You'll also see that this cheat sheet also on how to run SQL Queries programmatically, how to save your data to parquet and JSON files, and how to stop your SparkSession.
Spark SGlL is Apache Spark's module for working with structured data.
Initializing SparkSession
A SparkSession can be used create DataFrame, register DataFrame as tables, execute SGL over tables, cache tables, and read parquet files.
>>> from pyspark.sql import SparkSession
>>> spark a SparkSession \
.builder\
.appName("Python Spark SQL basic example") \
.config("spark.some.config.option", "some-value") \
.getOrCreate()Creating DataFrames
Fromm RDDs
>>> from pyspark.sql.types import*Infer Schema
>>> sc = spark.sparkContext
>>> lines = sc.textFile(''people.txt'')
>>> parts = lines.map(lambda l: l.split(","))
>>> people = parts.map(lambda p: Row(nameap[0],ageaint(p[l])))
>>> peopledf = spark.createDataFrame(people)Specify Schema
>>> people = parts.map(lambda p: Row(name=p[0],
age=int(p[1].strip())))
>>> schemaString = "name age"
>>> fields = [StructField(field_name, StringType(), True) for field_name in schemaString.split()]
>>> schema = StructType(fields)
>>> spark.createDataFrame(people, schema).show()
From Spark Data Sources
JSON
>>> df = spark.read.json("customer.json")
>>> df.show()
>>> df2 = spark.read.load("people.json", format="json")Parquet files
>>> df3 = spark.read.load("users.parquet")TXT files
>>> df4 = spark.read.text("people.txt")Filter
#Filter entries of age, only keep those records of which the values are >24
>>> df.filter(df["age"]>24).show()
Duplicate Values
>>> df = df.dropDuplicates()Queries
>>> from pyspark.sql import functions as F
Select
>>> df.select("firstName").show() #Show all entries in firstName column
>>> df.select("firstName","lastName") \
.show()
>>> df.select("firstName", #Show all entries in firstName, age and type
"age",
explode("phoneNumber") \
.alias("contactInfo")) \
.select("contactInfo.type",
"firstName",
"age") \
.show()
>>> df.select(df["firstName"],df["age"]+ 1) #Show all entries in firstName and age, .show() add 1 to the entries of age
>>> df.select(df['age'] > 24).show() #Show all entries where age >24When
>>> df.select("firstName", #Show firstName and 0 or 1 depending on age >30
F.when(df.age > 30, 1) \
.otherwise(0)) \
.show()
>>> df[df.firstName.isin("Jane","Boris")] #Show firstName if in the given options
.collect()Like
>>> df.select("firstName", #Show firstName, and lastName is TRUE if lastName is like Smith
df.lastName.like("Smith")) \
.show()Startswith - Endswith
>>> df.select("firstName", #Show firstName, and TRUE if lastName starts with Sm
df.lastName \
.startswith("Sm")) \
.show()
>>> df.select(df.lastName.endswith("th"))\ #Show last names ending in th
.show()Substring
>>> df.select(df.firstName.substr(1, 3) \ #Return substrings of firstName
.alias("name")) \
.collect()Between
>>> df.select(df.age.between(22, 24)) \ #Show age: values are TRUE if between 22 and 24
.show()Add, Update & Remove Columns
Adding Columns
>>> df = df.withColumn('city',df.address.city) \
.withColumn('postalCode',df.address.postalCode) \
.withColumn('state',df.address.state) \
.withColumn('streetAddress',df.address.streetAddress) \
.withColumn('telePhoneNumber', explode(df.phoneNumber.number)) \
.withColumn('telePhoneType', explode(df.phoneNumber.type)) Updating Columns
>>> df = df.withColumnRenamed('telePhoneNumber', 'phoneNumber')Removing Columns
>>> df = df.drop("address", "phoneNumber")
>>> df = df.drop(df.address).drop(df.phoneNumber)
Missing & Replacing Values
>>> df.na.fill(50).show() #Replace null values
>>> df.na.drop().show() #Return new df omitting rows with null values
>>> df.na \ #Return new df replacing one value with another
.replace(10, 20) \
.show()GroupBy
>>> df.groupBy("age")\ #Group by age, count the members in the groups
.count() \
.show()Sort
>>> peopledf.sort(peopledf.age.desc()).collect()
>>> df.sort("age", ascending=False).collect()
>>> df.orderBy(["age","city"],ascending=[0,1])\
.collect()Repartitioning
>>> df.repartition(10)\ #df with 10 partitions
.rdd \
.getNumPartitions()
>>> df.coalesce(1).rdd.getNumPartitions() #df with 1 partition
Running Queries Programmatically
Registering DataFrames as Views
>>> peopledf.createGlobalTempView("people")
>>> df.createTempView("customer")
>>> df.createOrReplaceTempView("customer")Query Views
>>> df5 = spark.sql("SELECT * FROM customer").show()
>>> peopledf2 = spark.sql("SELECT * FROM global_temp.people")\
.show()Inspect Data
>>> df.dtypes #Return df column names and data types
>>> df.show() #Display the content of df
>>> df.head() #Return first n rows
>>> df.first() #Return first row
>>> df.take(2) #Return the first n rows >>> df.schema Return the schema of df
>>> df.describe().show() #Compute summary statistics >>> df.columns Return the columns of df
>>> df.count() #Count the number of rows in df
>>> df.distinct().count() #Count the number of distinct rows in df
>>> df.printSchema() #Print the schema of df
>>> df.explain() #Print the (logical and physical) plansOutput
Data Structures
>>> rdd1 = df.rdd #Convert df into an RDD
>>> df.toJSON().first() #Convert df into a RDD of string
>>> df.toPandas() #Return the contents of df as Pandas DataFrameWrite & Save to Files
>>> df.select("firstName", "city")\
.write \
.save("nameAndCity.parquet")
>>> df.select("firstName", "age") \
.write \
.save("namesAndAges.json",format="json")Stopping SparkSession
>>> spark.stop()Have this Cheat Sheet at your fingertips
Original article source at https://www.datacamp.com
#pyspark #cheatsheet #spark #dataframes #python #bigdata
1598839687
How native is React Native? | React Native vs Native App Development
If you are undertaking a mobile app development for your start-up or enterprise, you are likely wondering whether to use React Native. As a popular development framework, React Native helps you to develop near-native mobile apps. However, you are probably also wondering how close you can get to a native app by using React Native. How native is React Native?
In the article, we discuss the similarities between native mobile development and development using React Native. We also touch upon where they differ and how to bridge the gaps. Read on.
A brief introduction to React Native
Let’s briefly set the context first. We will briefly touch upon what React Native is and how it differs from earlier hybrid frameworks.
React Native is a popular JavaScript framework that Facebook has created. You can use this open-source framework to code natively rendering Android and iOS mobile apps. You can use it to develop web apps too.
Facebook has developed React Native based on React, its JavaScript library. The first release of React Native came in March 2015. At the time of writing this article, the latest stable release of React Native is 0.62.0, and it was released in March 2020.
Although relatively new, React Native has acquired a high degree of popularity. The “Stack Overflow Developer Survey 2019” report identifies it as the 8th most loved framework. Facebook, Walmart, and Bloomberg are some of the top companies that use React Native.
The popularity of React Native comes from its advantages. Some of its advantages are as follows:
- Performance: It delivers optimal performance.
- Cross-platform development: You can develop both Android and iOS apps with it. The reuse of code expedites development and reduces costs.
- UI design: React Native enables you to design simple and responsive UI for your mobile app.
- 3rd party plugins: This framework supports 3rd party plugins.
- Developer community: A vibrant community of developers support React Native.
Why React Native is fundamentally different from earlier hybrid frameworks
Are you wondering whether React Native is just another of those hybrid frameworks like Ionic or Cordova? It’s not! React Native is fundamentally different from these earlier hybrid frameworks.
React Native is very close to native. Consider the following aspects as described on the React Native website:
- Access to many native platforms features: The primitives of React Native render to native platform UI. This means that your React Native app will use many native platform APIs as native apps would do.
- Near-native user experience: React Native provides several native components, and these are platform agnostic.
- The ease of accessing native APIs: React Native uses a declarative UI paradigm. This enables React Native to interact easily with native platform APIs since React Native wraps existing native code.
Due to these factors, React Native offers many more advantages compared to those earlier hybrid frameworks. We now review them.
#android app #frontend #ios app #mobile app development #benefits of react native #is react native good for mobile app development #native vs #pros and cons of react native #react mobile development #react native development #react native experience #react native framework #react native ios vs android #react native pros and cons #react native vs android #react native vs native #react native vs native performance #react vs native #why react native #why use react native
1647064260
Dotnet Script: Run C# Scripts From The .NET CLI
dotnet script
Run C# scripts from the .NET CLI, define NuGet packages inline and edit/debug them in VS Code - all of that with full language services support from OmniSharp.
NuGet Packages
| Name | Version | Framework(s) |
|---|---|---|
dotnet-script (global tool) |  | net6.0, net5.0, netcoreapp3.1 |
Dotnet.Script (CLI as Nuget) |  | net6.0, net5.0, netcoreapp3.1 |
Dotnet.Script.Core |  | netcoreapp3.1 , netstandard2.0 |
Dotnet.Script.DependencyModel |  | netstandard2.0 |
Dotnet.Script.DependencyModel.Nuget |  | netstandard2.0 |
Installing
Prerequisites
The only thing we need to install is .NET Core 3.1 or .NET 5.0 SDK.
.NET Core Global Tool
.NET Core 2.1 introduced the concept of global tools meaning that you can install dotnet-script using nothing but the .NET CLI.
dotnet tool install -g dotnet-script
You can invoke the tool using the following command: dotnet-script
Tool 'dotnet-script' (version '0.22.0') was successfully installed.
The advantage of this approach is that you can use the same command for installation across all platforms. .NET Core SDK also supports viewing a list of installed tools and their uninstallation.
dotnet tool list -g
Package Id Version Commands
---------------------------------------------
dotnet-script 0.22.0 dotnet-script
dotnet tool uninstall dotnet-script -g
Tool 'dotnet-script' (version '0.22.0') was successfully uninstalled.
Windows
choco install dotnet.script
We also provide a PowerShell script for installation.
(new-object Net.WebClient).DownloadString("https://raw.githubusercontent.com/filipw/dotnet-script/master/install/install.ps1") | iex
Linux and Mac
curl -s https://raw.githubusercontent.com/filipw/dotnet-script/master/install/install.sh | bash
If permission is denied we can try with sudo
curl -s https://raw.githubusercontent.com/filipw/dotnet-script/master/install/install.sh | sudo bash
Docker
A Dockerfile for running dotnet-script in a Linux container is available. Build:
cd build
docker build -t dotnet-script -f Dockerfile ..
And run:
docker run -it dotnet-script --version
Github
You can manually download all the releases in zip format from the GitHub releases page.
Usage
Our typical helloworld.csx might look like this:
Console.WriteLine("Hello world!");
That is all it takes and we can execute the script. Args are accessible via the global Args array.
dotnet script helloworld.csx
Scaffolding
Simply create a folder somewhere on your system and issue the following command.
dotnet script init
This will create main.csx along with the launch configuration needed to debug the script in VS Code.
.
├── .vscode
│ └── launch.json
├── main.csx
└── omnisharp.json
We can also initialize a folder using a custom filename.
dotnet script init custom.csx
Instead of main.csx which is the default, we now have a file named custom.csx.
.
├── .vscode
│ └── launch.json
├── custom.csx
└── omnisharp.json
Note: Executing
dotnet script initinside a folder that already contains one or more script files will not create themain.csxfile.
Running scripts
Scripts can be executed directly from the shell as if they were executables.
foo.csx arg1 arg2 arg3
OSX/Linux
Just like all scripts, on OSX/Linux you need to have a
#!and mark the file as executable via chmod +x foo.csx. If you use dotnet script init to create your csx it will automatically have the#!directive and be marked as executable.
The OSX/Linux shebang directive should be #!/usr/bin/env dotnet-script
#!/usr/bin/env dotnet-script
Console.WriteLine("Hello world");
You can execute your script using dotnet script or dotnet-script, which allows you to pass arguments to control your script execution more.
foo.csx arg1 arg2 arg3
dotnet script foo.csx -- arg1 arg2 arg3
dotnet-script foo.csx -- arg1 arg2 arg3
Passing arguments to scripts
All arguments after -- are passed to the script in the following way:
dotnet script foo.csx -- arg1 arg2 arg3
Then you can access the arguments in the script context using the global Args collection:
foreach (var arg in Args)
{
Console.WriteLine(arg);
}
All arguments before -- are processed by dotnet script. For example, the following command-line
dotnet script -d foo.csx -- -d
will pass the -d before -- to dotnet script and enable the debug mode whereas the -d after -- is passed to script for its own interpretation of the argument.
NuGet Packages
dotnet script has built-in support for referencing NuGet packages directly from within the script.
#r "nuget: AutoMapper, 6.1.0"
Note: Omnisharp needs to be restarted after adding a new package reference
Package Sources
We can define package sources using a NuGet.Config file in the script root folder. In addition to being used during execution of the script, it will also be used by OmniSharp that provides language services for packages resolved from these package sources.
As an alternative to maintaining a local NuGet.Config file we can define these package sources globally either at the user level or at the computer level as described in Configuring NuGet Behaviour
It is also possible to specify packages sources when executing the script.
dotnet script foo.csx -s https://SomePackageSource
Multiple packages sources can be specified like this:
dotnet script foo.csx -s https://SomePackageSource -s https://AnotherPackageSource
Creating DLLs or Exes from a CSX file
Dotnet-Script can create a standalone executable or DLL for your script.
| Switch | Long switch | description |
|---|---|---|
| -o | --output | Directory where the published executable should be placed. Defaults to a 'publish' folder in the current directory. |
| -n | --name | The name for the generated DLL (executable not supported at this time). Defaults to the name of the script. |
| --dll | Publish to a .dll instead of an executable. | |
| -c | --configuration | Configuration to use for publishing the script [Release/Debug]. Default is "Debug" |
| -d | --debug | Enables debug output. |
| -r | --runtime | The runtime used when publishing the self contained executable. Defaults to your current runtime. |
The executable you can run directly independent of dotnet install, while the DLL can be run using the dotnet CLI like this:
dotnet script exec {path_to_dll} -- arg1 arg2
Caching
We provide two types of caching, the dependency cache and the execution cache which is explained in detail below. In order for any of these caches to be enabled, it is required that all NuGet package references are specified using an exact version number. The reason for this constraint is that we need to make sure that we don't execute a script with a stale dependency graph.
Dependency Cache
In order to resolve the dependencies for a script, a dotnet restore is executed under the hood to produce a project.assets.json file from which we can figure out all the dependencies we need to add to the compilation. This is an out-of-process operation and represents a significant overhead to the script execution. So this cache works by looking at all the dependencies specified in the script(s) either in the form of NuGet package references or assembly file references. If these dependencies matches the dependencies from the last script execution, we skip the restore and read the dependencies from the already generated project.assets.json file. If any of the dependencies has changed, we must restore again to obtain the new dependency graph.
Execution cache
In order to execute a script it needs to be compiled first and since that is a CPU and time consuming operation, we make sure that we only compile when the source code has changed. This works by creating a SHA256 hash from all the script files involved in the execution. This hash is written to a temporary location along with the DLL that represents the result of the script compilation. When a script is executed the hash is computed and compared with the hash from the previous compilation. If they match there is no need to recompile and we run from the already compiled DLL. If the hashes don't match, the cache is invalidated and we recompile.
You can override this automatic caching by passing --no-cache flag, which will bypass both caches and cause dependency resolution and script compilation to happen every time we execute the script.
Cache Location
The temporary location used for caches is a sub-directory named dotnet-script under (in order of priority):
- The path specified for the value of the environment variable named
DOTNET_SCRIPT_CACHE_LOCATION, if defined and value is not empty. - Linux distributions only:
$XDG_CACHE_HOMEif defined otherwise$HOME/.cache - macOS only:
~/Library/Caches - The value returned by
Path.GetTempPathfor the platform.
Debugging
The days of debugging scripts using Console.WriteLine are over. One major feature of dotnet script is the ability to debug scripts directly in VS Code. Just set a breakpoint anywhere in your script file(s) and hit F5(start debugging)
Script Packages
Script packages are a way of organizing reusable scripts into NuGet packages that can be consumed by other scripts. This means that we now can leverage scripting infrastructure without the need for any kind of bootstrapping.
Creating a script package
A script package is just a regular NuGet package that contains script files inside the content or contentFiles folder.
The following example shows how the scripts are laid out inside the NuGet package according to the standard convention .
└── contentFiles
└── csx
└── netstandard2.0
└── main.csx
This example contains just the main.csx file in the root folder, but packages may have multiple script files either in the root folder or in subfolders below the root folder.
When loading a script package we will look for an entry point script to be loaded. This entry point script is identified by one of the following.
- A script called
main.csxin the root folder - A single script file in the root folder
If the entry point script cannot be determined, we will simply load all the scripts files in the package.
The advantage with using an entry point script is that we can control loading other scripts from the package.
Consuming a script package
To consume a script package all we need to do specify the NuGet package in the #loaddirective.
The following example loads the simple-targets package that contains script files to be included in our script.
#load "nuget:simple-targets-csx, 6.0.0"
using static SimpleTargets;
var targets = new TargetDictionary();
targets.Add("default", () => Console.WriteLine("Hello, world!"));
Run(Args, targets);
Note: Debugging also works for script packages so that we can easily step into the scripts that are brought in using the
#loaddirective.
Remote Scripts
Scripts don't actually have to exist locally on the machine. We can also execute scripts that are made available on an http(s) endpoint.
This means that we can create a Gist on Github and execute it just by providing the URL to the Gist.
This Gist contains a script that prints out "Hello World"
We can execute the script like this
dotnet script https://gist.githubusercontent.com/seesharper/5d6859509ea8364a1fdf66bbf5b7923d/raw/0a32bac2c3ea807f9379a38e251d93e39c8131cb/HelloWorld.csx
That is a pretty long URL, so why don't make it a TinyURL like this:
dotnet script https://tinyurl.com/y8cda9zt
Script Location
A pretty common scenario is that we have logic that is relative to the script path. We don't want to require the user to be in a certain directory for these paths to resolve correctly so here is how to provide the script path and the script folder regardless of the current working directory.
public static string GetScriptPath([CallerFilePath] string path = null) => path;
public static string GetScriptFolder([CallerFilePath] string path = null) => Path.GetDirectoryName(path);
Tip: Put these methods as top level methods in a separate script file and
#loadthat file wherever access to the script path and/or folder is needed.
REPL
This release contains a C# REPL (Read-Evaluate-Print-Loop). The REPL mode ("interactive mode") is started by executing dotnet-script without any arguments.
The interactive mode allows you to supply individual C# code blocks and have them executed as soon as you press Enter. The REPL is configured with the same default set of assembly references and using statements as regular CSX script execution.
Basic usage
Once dotnet-script starts you will see a prompt for input. You can start typing C# code there.
~$ dotnet script
> var x = 1;
> x+x
2
If you submit an unterminated expression into the REPL (no ; at the end), it will be evaluated and the result will be serialized using a formatter and printed in the output. This is a bit more interesting than just calling ToString() on the object, because it attempts to capture the actual structure of the object. For example:
~$ dotnet script
> var x = new List<string>();
> x.Add("foo");
> x
List<string>(1) { "foo" }
> x.Add("bar");
> x
List<string>(2) { "foo", "bar" }
>
Inline Nuget packages
REPL also supports inline Nuget packages - meaning the Nuget packages can be installed into the REPL from within the REPL. This is done via our #r and #load from Nuget support and uses identical syntax.
~$ dotnet script
> #r "nuget: Automapper, 6.1.1"
> using AutoMapper;
> typeof(MapperConfiguration)
[AutoMapper.MapperConfiguration]
> #load "nuget: simple-targets-csx, 6.0.0";
> using static SimpleTargets;
> typeof(TargetDictionary)
[Submission#0+SimpleTargets+TargetDictionary]
Multiline mode
Using Roslyn syntax parsing, we also support multiline REPL mode. This means that if you have an uncompleted code block and press Enter, we will automatically enter the multiline mode. The mode is indicated by the * character. This is particularly useful for declaring classes and other more complex constructs.
~$ dotnet script
> class Foo {
* public string Bar {get; set;}
* }
> var foo = new Foo();
REPL commands
Aside from the regular C# script code, you can invoke the following commands (directives) from within the REPL:
| Command | Description |
|---|---|
#load | Load a script into the REPL (same as #load usage in CSX) |
#r | Load an assembly into the REPL (same as #r usage in CSX) |
#reset | Reset the REPL back to initial state (without restarting it) |
#cls | Clear the console screen without resetting the REPL state |
#exit | Exits the REPL |
Seeding REPL with a script
You can execute a CSX script and, at the end of it, drop yourself into the context of the REPL. This way, the REPL becomes "seeded" with your code - all the classes, methods or variables are available in the REPL context. This is achieved by running a script with an -i flag.
For example, given the following CSX script:
var msg = "Hello World";
Console.WriteLine(msg);
When you run this with the -i flag, Hello World is printed, REPL starts and msg variable is available in the REPL context.
~$ dotnet script foo.csx -i
Hello World
>
You can also seed the REPL from inside the REPL - at any point - by invoking a #load directive pointed at a specific file. For example:
~$ dotnet script
> #load "foo.csx"
Hello World
>
Piping
The following example shows how we can pipe data in and out of a script.
The UpperCase.csx script simply converts the standard input to upper case and writes it back out to standard output.
using (var streamReader = new StreamReader(Console.OpenStandardInput()))
{
Write(streamReader.ReadToEnd().ToUpper());
}
We can now simply pipe the output from one command into our script like this.
echo "This is some text" | dotnet script UpperCase.csx
THIS IS SOME TEXT
Debugging
The first thing we need to do add the following to the launch.config file that allows VS Code to debug a running process.
{
"name": ".NET Core Attach",
"type": "coreclr",
"request": "attach",
"processId": "${command:pickProcess}"
}
To debug this script we need a way to attach the debugger in VS Code and the simplest thing we can do here is to wait for the debugger to attach by adding this method somewhere.
public static void WaitForDebugger()
{
Console.WriteLine("Attach Debugger (VS Code)");
while(!Debugger.IsAttached)
{
}
}
To debug the script when executing it from the command line we can do something like
WaitForDebugger();
using (var streamReader = new StreamReader(Console.OpenStandardInput()))
{
Write(streamReader.ReadToEnd().ToUpper()); // <- SET BREAKPOINT HERE
}
Now when we run the script from the command line we will get
$ echo "This is some text" | dotnet script UpperCase.csx
Attach Debugger (VS Code)
This now gives us a chance to attach the debugger before stepping into the script and from VS Code, select the .NET Core Attach debugger and pick the process that represents the executing script.
Once that is done we should see our breakpoint being hit.
Configuration(Debug/Release)
By default, scripts will be compiled using the debug configuration. This is to ensure that we can debug a script in VS Code as well as attaching a debugger for long running scripts.
There are however situations where we might need to execute a script that is compiled with the release configuration. For instance, running benchmarks using BenchmarkDotNet is not possible unless the script is compiled with the release configuration.
We can specify this when executing the script.
dotnet script foo.csx -c release
Nullable reference types
Starting from version 0.50.0, dotnet-script supports .Net Core 3.0 and all the C# 8 features. The way we deal with nullable references types in dotnet-script is that we turn every warning related to nullable reference types into compiler errors. This means every warning between CS8600 and CS8655 are treated as an error when compiling the script.
Nullable references types are turned off by default and the way we enable it is using the #nullable enable compiler directive. This means that existing scripts will continue to work, but we can now opt-in on this new feature.
#!/usr/bin/env dotnet-script
#nullable enable
string name = null;
Trying to execute the script will result in the following error
main.csx(5,15): error CS8625: Cannot convert null literal to non-nullable reference type.
We will also see this when working with scripts in VS Code under the problems panel.
Download Details:
Author: filipw
Source Code: https://github.com/filipw/dotnet-script
License: MIT License
1642496884
How to Create a Responsive Dropdown Menu Bar with Search Field using HTML & CSS
In this guide you’ll learn how to create a Responsive Dropdown Menu Bar with Search Field using only HTML & CSS.
To create a responsive dropdown menu bar with search field using only HTML & CSS . First, you need to create two Files one HTML File and another one is CSS File.
1: First, create an HTML file with the name of index.html
<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<meta http-equiv="X-UA-Compatible" content="ie=edge">
<title>Dropdown Menu with Search Box | Codequs</title>
<link rel="stylesheet" href="style.css">
<link rel="stylesheet" href="https://cdnjs.cloudflare.com/ajax/libs/font-awesome/5.15.3/css/all.min.css"/>
</head>
<body>
<div class="wrapper">
<nav>
<input type="checkbox" id="show-search">
<input type="checkbox" id="show-menu">
<label for="show-menu" class="menu-icon"><i class="fas fa-bars"></i></label>
<div class="content">
<div class="logo"><a href="#">CodingNepal</a></div>
<ul class="links">
<li><a href="#">Home</a></li>
<li><a href="#">About</a></li>
<li>
<a href="#" class="desktop-link">Features</a>
<input type="checkbox" id="show-features">
<label for="show-features">Features</label>
<ul>
<li><a href="#">Drop Menu 1</a></li>
<li><a href="#">Drop Menu 2</a></li>
<li><a href="#">Drop Menu 3</a></li>
<li><a href="#">Drop Menu 4</a></li>
</ul>
</li>
<li>
<a href="#" class="desktop-link">Services</a>
<input type="checkbox" id="show-services">
<label for="show-services">Services</label>
<ul>
<li><a href="#">Drop Menu 1</a></li>
<li><a href="#">Drop Menu 2</a></li>
<li><a href="#">Drop Menu 3</a></li>
<li>
<a href="#" class="desktop-link">More Items</a>
<input type="checkbox" id="show-items">
<label for="show-items">More Items</label>
<ul>
<li><a href="#">Sub Menu 1</a></li>
<li><a href="#">Sub Menu 2</a></li>
<li><a href="#">Sub Menu 3</a></li>
</ul>
</li>
</ul>
</li>
<li><a href="#">Feedback</a></li>
</ul>
</div>
<label for="show-search" class="search-icon"><i class="fas fa-search"></i></label>
<form action="#" class="search-box">
<input type="text" placeholder="Type Something to Search..." required>
<button type="submit" class="go-icon"><i class="fas fa-long-arrow-alt-right"></i></button>
</form>
</nav>
</div>
<div class="dummy-text">
<h2>Responsive Dropdown Menu Bar with Searchbox</h2>
<h2>using only HTML & CSS - Flexbox</h2>
</div>
</body>
</html>2: Second, create a CSS file with the name of style.css
@import url('https://fonts.googleapis.com/css2?family=Poppins:wght@200;300;400;500;600;700&display=swap');
*{
margin: 0;
padding: 0;
box-sizing: border-box;
text-decoration: none;
font-family: 'Poppins', sans-serif;
}
.wrapper{
background: #171c24;
position: fixed;
width: 100%;
}
.wrapper nav{
position: relative;
display: flex;
max-width: calc(100% - 200px);
margin: 0 auto;
height: 70px;
align-items: center;
justify-content: space-between;
}
nav .content{
display: flex;
align-items: center;
}
nav .content .links{
margin-left: 80px;
display: flex;
}
.content .logo a{
color: #fff;
font-size: 30px;
font-weight: 600;
}
.content .links li{
list-style: none;
line-height: 70px;
}
.content .links li a,
.content .links li label{
color: #fff;
font-size: 18px;
font-weight: 500;
padding: 9px 17px;
border-radius: 5px;
transition: all 0.3s ease;
}
.content .links li label{
display: none;
}
.content .links li a:hover,
.content .links li label:hover{
background: #323c4e;
}
.wrapper .search-icon,
.wrapper .menu-icon{
color: #fff;
font-size: 18px;
cursor: pointer;
line-height: 70px;
width: 70px;
text-align: center;
}
.wrapper .menu-icon{
display: none;
}
.wrapper #show-search:checked ~ .search-icon i::before{
content: "\f00d";
}
.wrapper .search-box{
position: absolute;
height: 100%;
max-width: calc(100% - 50px);
width: 100%;
opacity: 0;
pointer-events: none;
transition: all 0.3s ease;
}
.wrapper #show-search:checked ~ .search-box{
opacity: 1;
pointer-events: auto;
}
.search-box input{
width: 100%;
height: 100%;
border: none;
outline: none;
font-size: 17px;
color: #fff;
background: #171c24;
padding: 0 100px 0 15px;
}
.search-box input::placeholder{
color: #f2f2f2;
}
.search-box .go-icon{
position: absolute;
right: 10px;
top: 50%;
transform: translateY(-50%);
line-height: 60px;
width: 70px;
background: #171c24;
border: none;
outline: none;
color: #fff;
font-size: 20px;
cursor: pointer;
}
.wrapper input[type="checkbox"]{
display: none;
}
/* Dropdown Menu code start */
.content .links ul{
position: absolute;
background: #171c24;
top: 80px;
z-index: -1;
opacity: 0;
visibility: hidden;
}
.content .links li:hover > ul{
top: 70px;
opacity: 1;
visibility: visible;
transition: all 0.3s ease;
}
.content .links ul li a{
display: block;
width: 100%;
line-height: 30px;
border-radius: 0px!important;
}
.content .links ul ul{
position: absolute;
top: 0;
right: calc(-100% + 8px);
}
.content .links ul li{
position: relative;
}
.content .links ul li:hover ul{
top: 0;
}
/* Responsive code start */
@media screen and (max-width: 1250px){
.wrapper nav{
max-width: 100%;
padding: 0 20px;
}
nav .content .links{
margin-left: 30px;
}
.content .links li a{
padding: 8px 13px;
}
.wrapper .search-box{
max-width: calc(100% - 100px);
}
.wrapper .search-box input{
padding: 0 100px 0 15px;
}
}
@media screen and (max-width: 900px){
.wrapper .menu-icon{
display: block;
}
.wrapper #show-menu:checked ~ .menu-icon i::before{
content: "\f00d";
}
nav .content .links{
display: block;
position: fixed;
background: #14181f;
height: 100%;
width: 100%;
top: 70px;
left: -100%;
margin-left: 0;
max-width: 350px;
overflow-y: auto;
padding-bottom: 100px;
transition: all 0.3s ease;
}
nav #show-menu:checked ~ .content .links{
left: 0%;
}
.content .links li{
margin: 15px 20px;
}
.content .links li a,
.content .links li label{
line-height: 40px;
font-size: 20px;
display: block;
padding: 8px 18px;
cursor: pointer;
}
.content .links li a.desktop-link{
display: none;
}
/* dropdown responsive code start */
.content .links ul,
.content .links ul ul{
position: static;
opacity: 1;
visibility: visible;
background: none;
max-height: 0px;
overflow: hidden;
}
.content .links #show-features:checked ~ ul,
.content .links #show-services:checked ~ ul,
.content .links #show-items:checked ~ ul{
max-height: 100vh;
}
.content .links ul li{
margin: 7px 20px;
}
.content .links ul li a{
font-size: 18px;
line-height: 30px;
border-radius: 5px!important;
}
}
@media screen and (max-width: 400px){
.wrapper nav{
padding: 0 10px;
}
.content .logo a{
font-size: 27px;
}
.wrapper .search-box{
max-width: calc(100% - 70px);
}
.wrapper .search-box .go-icon{
width: 30px;
right: 0;
}
.wrapper .search-box input{
padding-right: 30px;
}
}
.dummy-text{
position: absolute;
top: 50%;
left: 50%;
width: 100%;
z-index: -1;
padding: 0 20px;
text-align: center;
transform: translate(-50%, -50%);
}
.dummy-text h2{
font-size: 45px;
margin: 5px 0;
}Now you’ve successfully created a Responsive Dropdown Menu Bar with Search Field using only HTML & CSS.
1577975746
10 Best React Loading Component for Your App
While instant feedback from an app or website is best, sometimes your product won’t be able to adhere to speed guidelines. The slow response may be due to poor internet connection or the operation process may take a long time. For such cases, the designer must reassure the user that:
The application is working according to their requirements and the actual process is still active.
If you are unable to shorten the process, you should at least try to make the wait pleasant for your users. Here are 10 react loading components for your react.js application
1. Create React Content Loader
Have you heard about react-content-loader? It’s a SVG component to create placeholder loading, like Facebook cards loading or also known as skeleton UI. So now you can use this online tool to create your own loader easily. You just need to draw using the canvas or code using the live editing!
View Demo: https://danilowoz.com/create-content-loader/
Github: https://github.com/danilowoz/create-content-loader
Download Link: https://github.com/danilowoz/create-content-loader/archive/master.zip
2. react-loading
React-Loading is a React-based Loading animation component library includes many exquisite and beautiful loading components. It will effectively relieve the user’s anxiety when you give loading dynamics tips at the appropriate place and moment in your project. This component library supports on-demand loading, so pick a favorite Loading component now to enrich your project
View Demo: http://139.196.82.33:8080/iframe.html?id=demo–demo
Github: https://github.com/sixiaodong123/react-loading
Download Link: https://github.com/sixiaodong123/react-loading/archive/master.zip
3. react-simple-infinite-loading
Someone pointed out the React implementation of the list was a bit complex. I figure out it was possible to write an abstraction for this particular case. Here it is!
This component aims to stay easy to use. If your use case needs more options I recommend using directly awesome libraries from Brian Vaughn listed in dependencies section.
View Demo: https://codesandbox.io/s/magical-shockley-vhkz8
Github: https://github.com/frinyvonnick/react-simple-infinite-loading
Download Link: https://github.com/frinyvonnick/react-simple-infinite-loading/archive/master.zip
4. react-pure-loaders
React Pure Loaders is a package that disponibilizes loaders for your Project. Those loaders are used as components, using color and a loading variables as properties.
The component expects the to receive the color as a string with the hexadecimal code and the loading as a boolean, that is true by default.
View Demo: https://reactpureloaders.io/
Github: https://github.com/jameswlane/react-pure-loaders
Download Link: https://github.com/jameswlane/react-pure-loaders
5. react-loadcon
React component to manipulate the favicon, as a loading or progress indicator, for now. The idea of “Favicon as DOM” is under construction.
View Demo: https://foreseaz.github.io/react-loadcon/
Github: https://github.com/foreseaz/react-loadcon
Download Link: https://github.com/foreseaz/react-loadcon/archive/master.zip
6. React Nested Loader
The easiest way to manage loaders/errors inside a button. NOT an UI lib.
- Manage loading/error state of nested views/buttons triggering async actions
- Not an UI lib, you provide the UI. Works with ReactNative.
- No boilerplate at all, no need to use setState/Redux
View Demo: https://codesandbox.io/s/w640yv5p9w
Github: https://github.com/slorber/react-nested-loader
Download Link: https://github.com/slorber/react-nested-loader/archive/master.zip
7. react-wait
react-wait is a React Hook helps to manage multiple loading states on the page without any conflict. It’s based on a very simple idea that manages an Array of multiple loading states. The built-in loader component listens its registered loader and immediately become loading state.
View Demo: https://codesandbox.io/s/y3w5v5lk0j
Github: http://github.com/f/react-wait
Download Link: https://reactjsexample.com/complex-loader-management-hook-for-react/
8. React Redux Loading Bar
A React component that provides Loading Bar (aka Progress Bar) for long running tasks.
Consists of:
- React component — displays loading bar and simulates progress
- Redux reducer — manages loading bar’s part of the store
- (optional) Redux middleware — automatically shows and hides Loading Bar for actions with promises
View Demo: https://mironov.github.io/react-redux-loading-bar/
Github: http://github.com/mironov/react-redux-loading-bar
Download Link: https://github.com/mironov/react-redux-loading-bar/archive/master.zip
9. Material UI Image
Images are ugly until they’re loaded. Materialize it with material image! It will fade in like the material image loading pattern suggests.
View Demo: https://mui.wertarbyte.com/#material-ui-image
Github: http://github.com/TeamWertarbyte/material-ui-image
Download Link: https://github.com/TeamWertarbyte/material-ui-image/archive/master.zip
10. React Lazy Load Image Component
React Component to lazy load images and other components/elements. Includes a HOC to track window scroll position to improve performance.
React Component to lazy load images and components using a HOC to track window scroll position.
View Demo: https://www.albertjuhe.com/react-lazy-load-image-component/
Github: http://github.com/Aljullu/react-lazy-load-image-component
Download Link: https://github.com/Aljullu/react-lazy-load-image-component/archive/master.zip
#loading #react-loading #react-loading-component #react #react-js