Programming Language Origins and Paradigms

The following charts (1) outline the origins of some of the most well known languages from the outset of computing up to 2001 and (2) illustrate the primary motivations and programmatic structure of several languages.

A brief history of computing languages up to 2001

Many languages, many different ways of creating software suited for various purposes

Small Multiples (are awesome)

To keep it short and sweet let's go with the definition:

"A small multiple (sometimes called trellis chart, lattice chart, grid chart, or panel chart) is a series of similar graphs or charts using the same scale and axes, allowing them to be easily compared. It uses multiple views to show different partitions of a dataset."

Read any serious visual communication guide and it will invariably highlight this powerful tool we have at our disposal when we have the data (we almost always have the data).

A pair of Small Multiples example quite pertinent to the current times followed by some other good ones:

This CNN.com graphic captures a running snapshot of the "new case/spread" curve trajectory of individual states

This clearly communicates how each state unemployment picture fared from 1976-2009

This SM visual shows population change over time by country (look at Mexico's growth since 1960)

Reference: https://www.edwardtufte.com/tufte/

Locations - Google Maps API, ASP.NET Core and SQL Server

This app's function/purpose is to use Google Maps API to get geographic data and render locations on maps with editable pins (much like... many apps these days- it is kind of becoming an expectation for any application/service involving a location street address).

In this way you can record or plan the state(s) of an event or location at some particular street address. Or just have a geographic representation of some important locations that you can then print and have a custom map for.

This is a proof-of-concept app illustrating what you can do with a little JavaScript, a web app and the Google Maps API

The code below takes locations records (containing the lat/long of the geographic coordinate) from a database and then initializes the Google Map with some options (I omitted many for brevity). The main interesting thing the code does below, is when it renders the pins (addMarker() function) it adds an event listener to delegate the task of popping up an ASP.NET Core-bound edit modal when a user clicks the pin.

On the Add and Update side as far as mapping Lat/Long from Street, City, State- that is all handled by the incredibly useful GoogleLocationService provided as a Nuget package for .NET Core apps.

Other than that it is just standard JavaScript- Google Maps API does virtually all of the geocoding and map visualization heavy lifting.

The crux of the utilization of the API code (callback and map rendering) is this:

 <script>  
     function initMap() {  
       var map = new google.maps.Map(  
         document.getElementById('map'),  
         {  
           center: new google.maps.LatLng(@Model.CenterLat, @Model.CenterLong),  
           zoom: 8  
         }  
       );  
       var pins = @Html.Raw(Json.Serialize(@Model.Locations));  
       for (var i = 0; i < pins.length; i++) {  
         var myLatLng = {  
           lat: pins[i].lat,  
           lng: pins[i].long  
         };  
         addMarker(myLatLng, map, pins[i]);  
       }  
     }  
     function addMarkerAsync(location, map) {  
       new google.maps.Marker({  
         position: location,  
         title: 'Home Center',  
       });  
       marker.setMap(map);  
     }  
     function addMarker(location, map, pin) {  
       var marker = new google.maps.Marker({  
         position: location,  
         title: '...something dyanmic...',  
       });  
       var infowindow = new google.maps.InfoWindow({  
         content: ''  
       });  
       function AsyncDisplayString() {  
         $.ajax({  
           type: 'GET',  
           url: '/Home/GetLocationModalInfo',  
           dataType: "HTML",  
           contentType: 'application/json',  
           traditional: true,  
           data: pin,  
           success: function (result) {  
             debugger;  
             infowindow.setContent('<div style="background-color:#000000;">' + result + '</div>');  
             infowindow.open(map, marker);  
           },  
           error: function (arg) {  
             alert('Error');  
           }  
         });  
       }  
       google.maps.event.addListener(marker, 'click', function () {  
         AsyncDisplayString(map, marker)  
       });  
       marker.setMap(map);  
     }  
   </script>  

And then this Controller Action that uses GoogleLocationService to get coordinates by address:

 [HttpPost]  
     public IActionResult AddLocation(LocationModel location)  
     {  
       string address = location.StreetAddress1.Replace(" ", "+") + "," + location.City.Replace(" ", "+") + "," + location.State.Replace(" ", "+");  
       MapPoint coords = _locationService.GetLatLongFromAddress(address);  
       location.Lat = (decimal)coords.Latitude;  
       location.Long = (decimal)coords.Longitude;  
       using (var db = new SqlConnection(_configuration.GetConnectionString("DefaultConnection")))  
       {  
         db.Open();  
         string sql = @"INSERT INTO [Locations].[dbo].[Locations] ([Name], [Contact], [Email], [Website], [Phone], [StreetAddress1], [StreetAddress2], [City]"  
           + ",[State], [Zip], [LocationContact], [PrimaryContact], [Notes], [Type], [Lat], [Long], [Petitions], [Flyers], [Posters], [LastPickUpDateTime], [LastOutOfStockDateTime], LastDropoffDateTime"  
           + ",[AllTimeOutofStock],[Unsupportive],[VolunteerInterest])"  
           + " VALUES ('" + location.Name + "','" + location.Contact + "','" + location.Email + "','" + location.Website + "','" + location.Phone + "','" + location.StreetAddress1 + "','" + location.StreetAddress1 + "','" + location.City + "'"  
           + ",'" + location.State + "','" + location.Zip + "', -1, -1,'" + location.Notes + "', 1, " + location.Lat + "," + location.Long + "," + location.Petitions + "," + location.Flyers + "," + location.Posters + ",'" + location.LastPickUpDateTime + "','" + location.LastOutOfStockDateTime + "','" + location.LastDropoffDateTime + "', 0, 0, 1) " + ";";  
         db.Execute(sql);  
       }  
       var model = GetDefaultMapView();  
       model.KeyString = _configuration["MapsAPIKey"].ToString();  
       return View("Map", model);  
     }  

This is a proof-of-concept app illustrating what you can do with a little JavaScript, a web app and the Google Maps API

As you can see the Google Maps API provides a lot of opportunity for your application- don't underestimate the power of location-based data. With the tools at our disposal today the functionality of applications is being limited less by available algorithms/frameworks/tools- but rather, our imagination.

I strongly suggest you look into the ways you can integrate geographic/mapped data with Google Maps API; very powerful API

GitHub: https://github.com/cfitzg/LocationTracks

ChartJS for Data Vizualiizations

I came across ChartJS about 2 years ago while debugging code from another, similar data visualization technology inside an AngularJS app.

ChartJS is a flexible JavaScript data visualization framework which allows for some pretty powerful integrations and customizations

The concept is you have a "<canvas>" DOM element, which you transform into a ChartJS chart via some JavaScript initialization. After that your tasks are simply finding the data you want to render and deciding the options of exactly how you want the chart visual to appear.

You can do some really neat and dynamic stuff with ChartJS.

I have used a lot of charting frameworks, and it does not get more flexible or simple than this:

 <html>  
 <head>  
 <script src="https://cdn.jsdelivr.net/npm/chart.js@2.8.0"></script>  
 </head>  
 <body>  
 <div>  
 <canvas id="myChart" style='background-color:darkgray; width:100%; height:100%;'></canvas>  
 </div>  
 <script>  
 var ctx = document.getElementById('myChart').getContext('2d');;  
 var chart = new Chart(ctx, {  
   type: 'line',  
   data: {  
     labels: ['16_Qtr1', '16_Qtr2', '16_Qtr3', '16_Qtr4', '17_Qtr1', '17_Qtr2', '17_Qtr3', '17_Qtr4', '18_Qtr1', '18_Qtr2', '18_Qtr3', '18_Qtr4', '19_Qtr1', '19_Qtr2', '19_Qtr3', '19_Qtr4', '20_Qtr1', '20_Qtr2', '20_tr3', '20_Qtr4', '21_Qtr1', '21_Qtr2', '21_Qtr3', '21_Qtr4','22_Qtr1', '22_Qtr2', '22_Qtr3', '22_Qtr4', '23_Qtr1', '23_Qtr2', '23_tr3', '23_Qtr4'],  
     datasets: [{  
       label: 'Some random quartley demo data..',  
       backgroundColor: 'black',  
       borderColor: 'lime',  
       data: [40.2, 72.88, 47.1, 22, 54.43, 52.18, 17.1, 52, 67.2, 54.88, 64.1, 78, 67.2, 55.88, 58.1, 57, 50.2, 52.88, 57.1, 62, 74.43, 62.18, 67.1, 72, 77.2, 74.88, 74.1, 78, 77.2, 75.88, 78.1, 77, 70.2, 72.88, 77.1, 62, 64.43, 62.18, 67.1, 72, 67.2, 54.88, 44.1, 28, 27.2, 25.88, 38.1, 37, 40.2, 42.88, 44.1, 52, 54.43, 52.18, 67.1, 82, 87.2, 84.88, 84.1, 88, 87.2, 95.88, 108.1, 127]  
     }]  
   },  
    "options": {  
       "legend": {"position": "bottom"}      
     }  
 });  
 </script>  
 </body>  
 </html>  

Reference: https://www.chartjs.org/

SSRS REST API v2

Here is a response from the SSSR REST API in action.. (you can access a lot more SSRS item properties and customize at will once you know the API)

The SSRS API v2 has far more functionality than v1, but they essentially work the same. You must be authenticated to the SSRS report server you are targeting (localhost in this case) to make web GET/POST requests to the API.

Once auth'd you can push and pull any useful SSRS data pretty easily to make SSRS do some pretty cool things it can't do out of the box..

This is the SSRS API as accessed through a web browser; simply give your .NET app an HttpClient and you can make use of all these responses; it's just JSON...

You can get a collection of SSRS catalog items as in the example above (folders, reports, KPIs) by just specifying the action name, or you can select an individual item by putting the item GUID in parenthesis in the API request URL:

You can access individual items in the API via GUID in parens after the API action name.

Common Useful SSRS API v2 Actions:

• Reports

• Datasets

• Data Sources

• Folders

• Schedules

• Subscriptions

• Comments

• KPIs

• CatalogItems (everything)

Example of a .NET Standard library with an HttpService abstacting the SSRS API calls:

 namespace ExtRS  
 {  
   public class SSRSHttpService  
   {  
     const string ssrsApiURI = "https://localhost/reports/api/v2.0";  
     HttpClient client = new HttpClient(new HttpClientHandler() { UseDefaultCredentials = true });  
         public async Task<GenericItem> GetReportAsync(Guid id)  
     {  
       client.BaseAddress = new Uri(ssrsApiURI + string.Format("/reports({0})", id));  
       var response = await client.GetAsync(client.BaseAddress);  
       var odata = response.Content.ReadAsStringAsync().Result;  
       return JsonConvert.DeserializeObject<GenericItem>(odata);  
     }  
   }  
 }  

This is verbose to better break down the steps of what is happening on the ExtRS service end

A very basic class designed to demonstrate using SSRS API Response to create a .NET object:

 using Newtonsoft.Json;  
 using System.Collections.Generic;  
 namespace ExtRS  
 {  
   public class GenericItem  
   {  
     [JsonProperty("@odata.context")]  
     public string ODataContext { get; set; }  
     [JsonProperty("Id")]  
     public string Id { get; set; }  
     [JsonProperty("Name")]  
     public string Name { get; set; }  
     [JsonProperty("Path")]  
     public string Path { get; set; }  
   }  
 }  

The power of the SSRS API is limited primarily your imagination- lots of customization can be made

And finally, called from a Controller Action in an MVC app:

 using System;  
 using System.Web.Mvc;  
 using System.Threading.Tasks;  
 using ExtRS;  
 namespace Daylite.Controllers  
 {  
   public class ReportsController : Controller  
   {  
     public SSRSHttpService service = new SSRSHttpService();  
     public async Task<ViewResult> GetReportsAsync()  
     {  
       return View("Index", await service.GetReportsAsync());  
     }  
     public async Task<ViewResult> GetFoldersAsync()  
     {  
       APIGenericItemsResponse result = await service.GetFoldersAsync();  
       return View("Index", result);  
     }  
     public async Task<ViewResult> GetReportAsync(Guid id)  
     {  
       GenericItem result = await service.GetReportAsync(id);  
       return View("Index", result);  
     }  
   }  
 }  

Reference: https://github.com/Microsoft/Reporting-Services/tree/master/APISamples

Over-engineering in Software

TL; DR; - build the app; not your imagined future state of the app

Implementing what you know you will absolutely need before all else is the best course of action for development

This is a great brief guide on how it happens and how to prevent or at least diminish the phenomena that is borne out of a desire to do things exact and right- but ignores that fact that some things never are evaluated and time is.... finite. (in (virtually) every project, we only have so much time to get the bells to ring and the whistles to whistle...

That interface to allow for a potential future Python SDK, putting a small proprietary API on Swagger with loads of documentation and test calls just "because" might not be a road you want to go down yet..

Creating a .NET Standard portable class library of the core functionality with a full suite of tests because you think it may be Nugetized in the future... is not something you should do until the app is already engineered and built well, out the door and humming along swimmingly!

Over-engineering is essentially development of designs and/or writing code that solves problems that do not currently exist.

BugZilla learned the hard way that "Future-Proofing" taking too literally can become over-engineering and waste lots of time for stuff never to be used/needed

Bugzilla has dealt with it and a former developer left a very concise and telling quote from their experience:

Some people think design means, “Write down exactly how you’re going to implement an entire project, from here until 2050.” That won’t work, brother. That design is too rigid–it doesn’t allow your requirements to change. And believe me, your requirements are going to change. 

Planning is good. I should probably do more planning myself, when it comes to writing code. 

But even if you don’t write out detailed plans, you’ll be fine as long as your changes are always small and easily extendable for that unknown future. 

-Max

TAKEAWAY:

• "Business requirements never converge. They always diverge."

• "At the beginning, it’s best to stick to the KISS principle over DRY."

• Favor less abstraction for things that are currently 100% exactly known

Long ago one of my software engineering colleagues at a large Milwaukee-based industrial company (thanks John Ignasiak!) taught me a way to use what is known as "soft coding" in relational SQL to use data abstraction tables in order to abstract data types until run-time and multi-purpose data types and relations whilst keeping all values in the same table.

Just never enough generalizations and assumptions to make in software development... lol

I am not a big fan of multi-purposing things. But sometimes it is the only way and in this case of a legacy system with an old reporting db, it was the only way for time we had available.

Use the tools for the task they were made for.

Use the data type (VARCHAR for instance) for the data it was made for, not for dynamic SQL and hard-coded but dynamically inferred data types. The latter usages are almost always symptomatic of a terrible, terrible database design or something that your design just cannot accommodate without major restructuring of relational hierarchy and dependencies.

That all being said, SQL soft-coding (and dynamic SQL) is awesome and has some really powerful use cases where it is the perfect approach for the task at hand.

Build the app by the requirements as they currently exist, not by your imagination of how the future may or may not affect the app.

Two principals that have helped many a developer over the years are the acronyms:

• KISS (Keep It Simple)

• YAGNI (You Ain’t Gonna Need It)

Reference: https://www.codesimplicity.com/post/designing-too-far-into-the-future/

Dapper for .NET Data Access

Jeff Atwood described the phrase coined by Ted Neward that "Object-Relational Mapping is the Vietnam of Computer Science".

I agree with everything except Atwood's (huh? 😨- keep in mind this is 2006) conclusion that we should do one or the other: objects or relational data records. Develop apps as a series of SQL data access statements assigning values to arbitrary pieces of monolith application code.. or exclusively object-oriented with everything saved to blob storage... Or something awkward like that.

That, he says (in the 2006 article*), removes the O (object) - R (relational data) mapping problem entirely. It sure does; but how can we develop apps like that?

(fast-forward 6yrs, and.... Dapper to the rescue!)

Dapper is an awesome (IMO) alternative that allows developers to retain SOLID reuse and extensibility in their .NET data access code while still accessing complex relational data- and fast.

Dapper has the best of both worlds in terms of what you look for in a data access framework - speed and clean, easy SQL-to-typed object mapping facilitation

I highly recommend the brief peruse; it is a very interesting article. It essentially describes the pitfalls that ADO.NET, Hibernate and Entity SQL (EF for MSSQL) and so many of the other approaches to modeling relational data as .NET objects that have, if not failed completely- severely been lacking especially in terms of speed and control over the actual SQL that you instruct the SQL engine to execute.

Dapper aims to bridge the eternal gap between application and relational database code in a pretty elegant way for .NET development. So long as your database records (whether from a complex JOIN'd SP or wherever in your db)- can return data with types and field/alias names that match your "query-return-target-type" class' properties' names and data types, you are set for all the kinds of data access you like and are off and running without all the headaches normally associated with ORMs (magic config strings, mappings in separate files out of sync with class or db changes, etc.).

"there is no good solution to the object/relational mapping problem. There are solutions, sure, but they all involve serious, painful tradeoffs. And the worst part is that you can't usually see the consequences of these tradeoffs until much later in the development cycle." -Jeff Atwood on ORMs

I guess you could say that the SQL itself in the queries you tell Dapper to issue to MSSQL are "magic strings" insofar as VS doesn't compile them.. But if you don't use SSMS to parse and execute tests of your queries before using them in application code then you aren't really doing real data development- you are just shooting in the dark.

You should have unit tests for this very purpose. Unit tests of your Dapper calls will catch any db changes in the tests ("hey why did nobody tell me about this schema change in the Archives table?"); regardless- if your SQL field names don't match the class prop names of the object you are trying to "Dapperize"- you will find out at run-time. The exception messages are very "straight to the point of exactly what is off".

Dapper works the same in all versions of .NET; it is currently based on .NET Standard for that very reason, but you will need to bring in more dependency depending on what type of data source you are trying to access (SQL Server, MySQL, Oracle, DB2, Terradata, etc.).

Consider giving Dapper a try - it is very useful and illuminating, and it really shines in the very areas where EF falls short.



Dapper accessing 'UserReport' records from SQL db and returning the dynamic, typed object:

     SqlConnection db = new SqlConnection(WebConfigurationManager.AppSettings["DefaultSQLConnection"]);  
     public List<UserReport> ReadAllSavedUserReports()  
     {  
       using (db)  
       {  
         return db.Query<Report>("SELECT * FROM CLARO.dbo.UserReport").ToList();  
       }  
     }  
     public UserReport FindSavedUserReport(int id)  
     {  
       using (db)  
       {  
         return db.Query<Report>("SELECT * FROM CLARO.dbo.UserReport WHERE Id = @Id", new { id }).SingleOrDefault();  
       }  
     }  

Forgive the "SELECT *.... this is just a demonstration..

These methods can then easily be called in controller or other code like so:

     public ViewResult Index()  
     {  
       string nowTime = DateTime.Now.ToShortDateString();  
       ReportDAL dal = new ReportDAL();  
       Demo model = BuildModel(BuildSQLStatement(nowTime, ReportDrafts.BaseballDemo), nowTime);  
       model.Reports = dal.ReadAllSavedUserReports();  
       return View(model);  
     }  

Dapper is not a company trying to sell anything- it is just a really useful micro-ORM for those who prefer to work more hands-on with the SQL in data access code (and like to be able to more granularily control optimization for speedier queries).

*Atwood helped contribute (with SO) to the development of Dapper, so... I think he and that team kinda nailed the removal and easing of the very same limitations he bemoaned in the article I reference at the beginning: https://stackoverflow.blog/2012/02/18/stack-exchange-open-source-projects/


References: 

https://elanderson.net/2019/02/asp-net-core-with-dapper/

https://dapper-tutorial.net/

NPV, IRR and Project Viability Evaluation

Net Present Value (NPV) and Internal Rate of Rerturn (IRR) are quite similar financial expressions.

In fact the two share the same formula (same variables being measured), but use it to describe the present value of something from 2 different perspectives - (1) what is this project's expected future cashflow currently worth is today's dollars? vs. (2) how profitable (%-wise) will the return on project investment be based on (1)?

NPV = Net present value is today’s value of the expected future cash flows.

If NPV is positive, the project is estimated to be profitable

IRR = The expected rate of return from the proejct.

If the IRR of a project is higher than the WACC, the project is estimated to be profitable

The below simple spreadsheet area explains both concepts nicely. This project would generate a $3.7k profit (NPV) over 5yrs and have a significantly profitable 15.64% IRR, higher than the 8% WACC of the 20k invested.

 The project's estimated cash inflows over 5 years would add value, on paper at least

References:

https://www.investopedia.com/ask/answers/032615/what-formula-calculating-net-present-value-npv.asp 

https://www.youtube.com/watch?v=Fw5-wccViOM

https://www.youtube.com/watch?v=cSAfp6D28RM

Social Authentication in ASP.NET Core MVC

A common modern convenience for apps is the ability to choose to authenticate and create an account based on credentials from an existing service that most people have (ie. Google, Twitter, LinkedIn, GitHub, etc.). in this post I will walk through the configuration of social authentication for Google and LinkedIn accounts.

Setting up social authentication in ASP.NET Core is a lot easier than you might think...

Before implementing this feature you will need to register for a Google and a LinkedIn developer account which will then give you access to the 2 values that make the magic of this built-in authentication possible: clientKey and clientSecret.

Important(!): you will also want to register the Callback/Redirect URLs for each social authentication as shown below. This redirect URL below is for my project running on localhost:44396 obviously ("/signin-google" is the path you want to append to your app root for Google and "/signin-linkedin" for LinkedIn):

Once you have this setup, you will be able to wire them up in the Startup.cs ConfigureServices() method of an ASP.NET Core 3 MVC Web Application ie:

  public void ConfigureServices(IServiceCollection services)  
     {  
       services.AddDbContext<ApplicationDbContext>(options =>  
         options.UseSqlServer(  
           Configuration.GetConnectionString("DefaultConnection")));  
       services.AddDefaultIdentity<IdentityUser>(options => options.SignIn.RequireConfirmedAccount = true)  
         .AddEntityFrameworkStores<ApplicationDbContext>();  
       services.AddControllersWithViews();  
       services.AddRazorPages();  
       services.AddAuthentication()  
       .AddGoogle(o =>  
       {  
         o.ClientId = "[YourGoogleClientId]";  
         o.ClientSecret = "[YourGoogleClientSecret]";  
       })  
       .AddLinkedIn(o =>  
       {  
         o.ClientId = "[YourLinkedInClientId]";  
         o.ClientSecret = "[YourLinkedInClientSecret]";  
       });  
       // Add application services.   
       services.AddMvc();  
     }  

Now you just have to:

• Create your ASP.NET Core 3 MVC Web Application project with Identity options as below

• Install a couple Nuget packages for Google OAuth2 and Linked OAuth respectively

• Call "Update-Database" from Nuget Package Manager Console

• Modify Startup.cs

To implement this feature for your users you only need follow a couple steps when setting up the project (whether ASP.NET MVC or the newer ASP.NET Core MVC) to enable some builtin identify and authentication handling after which you can configure and customize to fit your app's particular custom authentication needs. Follow the images below for proper installation of the required 2 Nuget packages, the db command, etc.

First, make sure you create your ASP.NET Core MVC project with "Individual User Accounts" radio button selection and "Store user accounts in app" dropdown selection as follows:

Change Authentication to use Individual User Accounts- this sets up the required boilerplate template code

You will add this Nuget package for LinkedIn authentication

You will add this Nuget package for Google authentication

Next you will need to create the database objects (ASPNET app auth db and tables) via "Update-Database" Package Manager Console command

Finally, modify Startup.cs ConfigureServices() method as shown in the snippet above. Compile and give it a whirl.

And that is all there is to it. Strangely there is not a lot of documentation on exactly how to do this and what can cause it to not work; I spent over an hour debugging what turned out to be a not-so-obvious issue (in my case I was following instructions that erroneously suggested I inject unneeded services to the services.AddAuthentication() instantiation in the snippet of Startup.cs above).

If your keys and Callback URLs are correct you will be able to authenticate to Google and LinkedIn

Once you have registered your social account, you can then log in with it and you will see the following (notice "Hello!...." and "Logout")

If you are like me and do not want to keep to adding yet more and more credentials to LastPass, your users probably don't either. Implementing Social Authentication is a powerful tool that you can leverage with relative ease in ASP.NET Core 3 MVC Web apps.

If you have questions on implementing this or just need some help and general guidance, feel free to comment or drop me an email at colin@sonrai.io


GitHub: https://github.com/cfitzg/DotNetSocialAuth


References:

http://codereform.com/blog/post/asp-net-core-2-1-authentication-with-social-logins/

https://docs.microsoft.com/en-us/aspnet/mvc/overview/security/create-an-aspnet-mvc-5-app-with-facebook-and-google-oauth2-and-openid-sign-on

https://ankitsharmablogs.com/authentication-using-linkedin-asp-net-core-2-0/  

https://stackoverflow.com/questions/53654020/how-to-implement-google-login-in-net-core-without-an-entityframework-provider

Compound Interest

Ultimately the two most important factors in growing money is the size (%) of growth (rate of return or ROR) and the rate of growth (or the number of times the investment earns interest on a certain balance total, that interest is added to the balance, and then the investor begins earning interest on this new, higher amount).

This is why investing in something that will return 5% in 1 year is much worse than an investment that will return 5% quarterly or 4 times a year as illustrated below:

Year 1: $1,000 (5%) == $1,050

-vs- 

Quarter 1: $1,000 (5%) == $1,050.00

Quarter 2: $1,050 (5%) == 1,103

Quarter 3: 1,103 (5%) == $1,158

Quarter 4: $1,158 (5%) == $1,216

Would you rather receive $1,050 or $1,216 dollars after one year of making a $1,000 dollar loan? 🤔

The power of compound interest is even better illustrated in a chart of growth over a period of several years. The below chart illustrates earning 10% per year on a $1,000 investment for 10 consecutive years.

An example with more money and more growth shows more clearly the power of compound interest

The below graphic shows clearly how important it is to save early. In it, Amy is able to earn enough in 10 years of savings, to earn more over the course of 34 years by simply earning interest off the savings of her initial 10 years of investing. No more contributions- just by earning interest she will have earned more than someone else who skipped those first 10 years and began investing later in their career.

In fact, Ethan contributes $100/month for 24 years and is not able to earn as much as Amy did contributing $100/month for just 10 years because Amy began putting her money to work much earlier than Ethan.

So 10 years go by, Amy consistently saving, Ethan consistently not saving anything. Now(?) Ethan, deciding he needs to begin saving for retirement is starting out with a much lower investment ($1,239.72) than Amy is already at by year 10 ($17,485.70).

The true power of compound interest is in the utilization of time and the time value of money. Because money that is invested wisely (presumably) always has a positive return, if you forgo savings (as I and many of my generation have) earlier on in your career you are incurring a huge opportunity cost; that opportunity being 10 years of 10% growth on $100/month investment with compounding interest.

Ethan chose to decline that opportunity and paid for it by losing out on all of that investment + compounded interest he could have received in the first 10 years of his career ($17,485.70), like Amy did.

Simply put, if you plan to invest (in safe, sound investments), the earlier you start the better off you will be. You cannot buy back time and time is a key ingredient to the growth of money.

Amy (wisely) began investing much earlier than Ethan and because of it, she is able to invest far less and still earn more.

Neat UI Effects with jQueryUI and Animate.CSS

So you want neat animation effects on your UI? Seems like it might be a tricky implementation, right?

Animate.css makes it easy to implement modern UI animation effects that make for better user experience/cues

It could not be simpler with jQuery UI and other open source options. Here is an easy sample to pick up and run with from jQuery.com:

jQuery UI Effects

 <!doctype html>  
 <html lang="en">  
 <head>  
   <meta charset="utf-8">  
   <meta name="viewport" content="width=device-width, initial-scale=1">  
   <title>jQuery UI Effects - Effect demo</title>  
   <link rel="stylesheet" href="//code.jquery.com/ui/1.12.1/themes/base/jquery-ui.css">  
   <link rel="stylesheet" href="/resources/demos/style.css">  
   <style>  
     .toggler {  
       width: 500px;  
       height: 200px;  
       position: relative;  
     }  
     #button {  
       padding: .5em 1em;  
       text-decoration: none;  
     }  
     #effect {  
       width: 240px;  
       height: 170px;  
       padding: 0.4em;  
       position: relative;  
     }  
       #effect h3 {  
         margin: 0;  
         padding: 0.4em;  
         text-align: center;  
       }  
     .ui-effects-transfer {  
       border: 2px dotted gray;  
     }  
   </style>  
   <script src="https://code.jquery.com/jquery-1.12.4.js"></script>  
   <script src="https://code.jquery.com/ui/1.12.1/jquery-ui.js"></script>  
   <script>  
     $(function () {  
       // run the currently selected effect  
       function runEffect() {  
         // get effect type from  
         var selectedEffect = $("#effectTypes").val();  
         // Most effect types need no options passed by default  
         var options = {};  
         // some effects have required parameters  
         if (selectedEffect === "scale") {  
           options = { percent: 50 };  
         } else if (selectedEffect === "transfer") {  
           options = { to: "#button", className: "ui-effects-transfer" };  
         } else if (selectedEffect === "size") {  
           options = { to: { width: 200, height: 60 } };  
         }  
         // Run the effect  
         $("#effect").effect(selectedEffect, options, 500, callback);  
       };  
       // Callback function to bring a hidden box back  
       function callback() {  
         setTimeout(function () {  
           $("#effect").removeAttr("style").hide().fadeIn();  
         }, 1000);  
       };  
       // Set effect from select menu value  
       $("#button").on("click", function () {  
         runEffect();  
         return false;  
       });  
     });  
   </script>  
 </head>  
 <body>  
   <div class="toggler" style="margin-top:200px;">  
     <div id="effect" class="ui-widget-content ui-corner-all">  
       <h3 class="ui-widget-header ui-corner-all">Effect</h3>  
       <p>  
         Etiam libero neque, luctus a, eleifend nec, semper at, lorem. Sed pede. Nulla lorem metus, adipiscing ut, luctus sed, hendrerit vitae, mi.  
       </p>  
     </div>  
   </div>  
   <select name="effects" id="effectTypes">  
     <option value="blind">Blind</option>  
     <option value="bounce">Bounce</option>  
     <option value="clip">Clip</option>  
     <option value="drop">Drop</option>  
     <option value="explode">Explode</option>  
     <option value="fade">Fade</option>  
     <option value="fold">Fold</option>  
     <option value="highlight">Highlight</option>  
     <option value="puff">Puff</option>  
     <option value="pulsate">Pulsate</option>  
     <option value="scale">Scale</option>  
     <option value="shake">Shake</option>  
     <option value="size">Size</option>  
     <option value="slide">Slide</option>  
     <option value="transfer">Transfer</option>  
   </select>  
   <button id="button" class="ui-state-default ui-corner-all">Run Effect</button>  
 </body>  
 </html>  

And one I whipped up from Animate.css...:

 <html>  
 <head>  
  <script src="https://code.jquery.com/jquery-3.4.1.min.js" integrity="sha256-CSXorXvZcTkaix6Yvo6HppcZGetbYMGWSFlBw8HfCJo=" crossorigin="anonymous"></script>  
  <link rel="stylesheet" href="https://cdnjs.cloudflare.com/ajax/libs/animate.css/3.7.2/animate.min.css">  
  <script>                 
      $( document ).ready(function() {  
           myDiv = document.querySelector('#myDiv')       
           $("#buttonBounce").on("click", function () {  
                removeAllClasses();  
                myDiv.classList.add('animated', 'bounce')  
           });  
           $("#buttonSwing").on("click", function () {  
                removeAllClasses();  
                myDiv.classList.add('animated', 'swing')  
           });            
           $("#buttonWobble").on("click", function () {  
                removeAllClasses();  
                myDiv.classList.add('animated', 'wobble')            
           });            
           $("#buttonTada").on("click", function () {  
                removeAllClasses();  
                myDiv.classList.add('animated', 'tada')  
           });       
           $("#buttonBounceOut").on("click", function () {  
                removeAllClasses();  
                myDiv.classList.add('animated', 'bounceOutLeft')  
           });            
           function removeAllClasses(){  
                myDiv.classList.remove('animated', 'bounce', 'wobble', 'bounceOutLeft', 'tada', 'swing');  
           }  
      });       
  </script>  
 </head>  
 <body style="background:#000000;">  
 <div id="myDiv" style="margin-top:100px; margin-left:300px; width:250px; background:aqua; font-weight:bold; font-family:Arial; border: 2px solid lime; padding: 10px; border-radius: 25px;">~Something to animate~</h1>  
 <br/><br/>  
 &nbsp;&nbsp;<input type="button" id="buttonBounce" class="ui-state-default ui-corner-all" value="Bounce" />  
 </br><br/>  
 &nbsp;&nbsp;<input type="button" id="buttonTada" class="ui-state-default ui-corner-all" value="Tada" />  
 </br><br/>  
 &nbsp;&nbsp;<input type="button" id="buttonSwing" class="ui-state-default ui-corner-all" value="Swing" />  
 </br><br/>  
 &nbsp;&nbsp;<input type="button" id="buttonWobble" class="ui-state-default ui-corner-all" value="Wobble" />  
 </br><br/>  
 &nbsp;&nbsp;<input type="button" id="buttonBounceOut" class="ui-state-default ui-corner-all" value="Bounce Out" />  
 </br><br/>  
 </body>  
 </html>  

This is what the Animate.css code above will look like..

Happy coding!


Codepens: 

https://codepen.io/radagast27/pen/pooavXd

https://codepen.io/radagast27/pen/xxxYboM



References:

https://jqueryui.com/effect

https://github.com/daneden/animate.css

ASCII Art with Python

Have you ever wanted to convert an icon or photo to ASCII art? Fortunately there are lots of tools to do this out there. I looked around for one that works with Python 3+ and found a succinct, modular script that can output ASCII art from image files like the following:

Source code can also be found here: https://github.com/cfitzg/UsefulSnippets/blob/master/ascii.py

The script is from Paul Bourke. There is very clear commenting on each step. Essentially, an image loaded from the "--file" argument is divided into a grid and each position of the grid is assigned certain ASCII character whose gray scale level most closely matches the average for that area of the image. I simply modified line 146 and 150 to demonstrate on console vs. the outfile.txt default.

Save the following as ascii.py:

 #Python code to convert an image to ASCII image.  
 import sys, random, argparse  
 import numpy as np  
 import math  
 from PIL import Image  
 # gray scale level values from:  
 # http://paulbourke.net/dataformats/asciiart/  
 # 70 levels of gray  
 gscale1 = "$@B%8&WM#*oahkbdpqwmZO0QLCJUYXzcvunxrjft/\|()1{}[]?-_+~<>i!lI;:,\"^`'. "   
 # 10 levels of gray  
 gscale2 = '@%#*+=-:. '   
 def getAverageL(image):  
      # get image as numpy array  
      im = np.array(image)  
      # get shape  
      w,h = im.shape  
      # get average  
      return np.average(im.reshape(w*h))  
 def covertImageToAscii(fileName, cols, scale, moreLevels):  
      # declare globals  
      global gscale1, gscale2  
      # open image and convert to grayscale  
      image = Image.open(fileName).convert('L')  
      # store dimensions  
      W, H = image.size[0], image.size[1]  
      print("input image dims: %d x %d" % (W, H))  
      # compute width of tile  
      w = W/cols  
      # compute tile height based on aspect ratio and scale  
      h = w/scale  
      # compute number of rows  
      rows = int(H/h)  
      print("cols: %d, rows: %d" % (cols, rows))  
      print("tile dims: %d x %d" % (w, h))  
      # check if image size is too small  
      if cols > W or rows > H:  
           print("Image too small for specified cols!")  
           exit(0)  
      # ascii image is a list of character strings  
      aimg = []  
      # generate list of dimensions  
      for j in range(rows):  
           y1 = int(j*h)  
           y2 = int((j+1)*h)  
           # correct last tile  
           if j == rows-1:  
                y2 = H  
           # append an empty string  
           aimg.append("")  
           for i in range(cols):  
                # crop image to tile  
                x1 = int(i*w)  
                x2 = int((i+1)*w)  
                # correct last tile  
                if i == cols-1:  
                     x2 = W  
                # crop image to extract tile  
                img = image.crop((x1, y1, x2, y2))  
                # get average luminance  
                avg = int(getAverageL(img))  
                # look up ascii char  
                if moreLevels:  
                     gsval = gscale1[int((avg*69)/255)]  
                else:  
                     gsval = gscale2[int((avg*9)/255)]  
                # append ascii char to string  
                aimg[j] += gsval  
      # return txt image  
      return aimg  
 # main() function  
 def main():  
      # create parser  
      descStr = "This program converts an image into ASCII art."   
      parser = argparse.ArgumentParser(description=descStr)  
      # add expected arguments  
      parser.add_argument('--file', dest='imgFile', required=True)  
      parser.add_argument('--scale', dest='scale', required=False)  
      parser.add_argument('--out', dest='outFile', required=False)  
      parser.add_argument('--cols', dest='cols', required=False)  
      parser.add_argument('--morelevels',dest='moreLevels',action='store_true')  
      # parse args  
      args = parser.parse_args()  
      imgFile = args.imgFile  
      # set output file  
      outFile = 'out.txt'   
      if args.outFile:  
           outFile = args.outFile  
      # set scale default as 0.43 which suits  
      # a Courier font  
      scale = 0.43   
      if args.scale:  
           scale = float(args.scale)  
      # set cols  
      cols = 80   
      if args.cols:  
           cols = int(args.cols)  
      print('generating ASCII art...')  
      # convert image to ascii txt  
      aimg = covertImageToAscii(imgFile, cols, scale, args.moreLevels)  
      # open file  
      f = open(outFile, 'w')  
      # write to <console or> file ..f.write(row + '\n')  
      for row in aimg:  
           print(row + '\n')   
      # cleanup  
      f.close()  
      print("ASCII art written to console...") # %s" % outFile)  
 # call main  
 if __name__ == '__main__':  
      main()  

Using Windows CMD, navigate to the directory where your ascii.py script is located. Then execute the following:

ascii.py --file C:\somedir\logo.jpg --cols 150


Reference: http://paulbourke.net/dataformats/asciiart/

DevOps as Culture

DevOps is an emerging IT role but also a culture; and changing culture does not happen overnight

• Elevate empowerment and give courage to people to "raise hand" and volunteer to fix things. Even if they are wrong- interest in areas outside one's primary role is good for the entire DevOps culture.

• Shared accountability - no blame game between developers, PMs, testers, QA, etc.

• Do not want to have to be dependent on "lone genius" or "firefighter"- need to share and transfer knowledge.

• Offer time to learn. Encourage hacking for new features and for hardening security and find bugs.

• Embrace failures in retrospectives to prevent repeated mistakes on future work.

• Provide the right incentives to motivatve the values you want to reward: reward delivery of quality vs. fire fighting.

• Understand "value streams" (esp. value stream bottleneck and how can we optimize all constraints) to know where to spend time accordingly.

• Focus on CONSTRAINTS.

• Avoid Configuration Drift- Config changes should cascade to all environments (QA, DEV, TEST, STAGE, PROD).

• Automate the Path to Production.

• Use pull-based systems so that people integrate each others changes and learn how everything works in unison/concert.

• People should not fear for their jobs- Systems Admin becomes more important not less so, in DevOps

• DevOps is how you work not just what you buy or what tech you are using.

• Total adoption happens in stages/iterations.

• Traditional Project and Documentation mindset is outmoded, outdated, and disconnected from a living IT mission.

• Lack of DevOps leads to waste and waiting (waiting for ppl with the right skills to work on things vs. having team that can easily shift contexts or frameworks/languages).

• SHARE KNOWLEDGE AND EMPOWER COLLEAGUES TO DO MULTIPLE TASKS AND UNDERSTAND SOME OR ALL ASPECTS OF MULTIPLE RESPONSIBILITIES OF THE SOFTWARE PROCESS CHAIN.

Reference: https://app.pluralsight.com/library/courses/devops-big-picture/table-of-contents (Richard Seroter)