mythz / Kotlin Linq Examples
C#'s 101 LINQ Samples translated to Kotlin
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101 C# LINQ Samples in Kotlin
This project contains the C# 101 LINQ Samples rewritten to Kotlin. Like the existing Java LINQ Examples, Kotlin examples run and have their results displayed inside an Android App courtesy of the rich support for Kotlin in Android Studio.
Compare Kotlin to other LINQ examples written in:
Comparing against Java examples showcases the power and expressiveness of both languages ability for developing native Android Apps where Java 7 is by far the worst language for functional/LINQ-style programming vs Kotlin which is one of the best - resulting in a much more readable and maintainable code-base that's less than 1/2 the size.
Kotlin Android Resources
To help getting started with Kotlin, we'll maintain links to useful resources helping to develop Android Apps with Kotlin below:
- Getting started with Android and Kotlin (kotlinlang.org)
- Kotlin for Android Developers (javaadvent.com)
- Android Development with Kotlin - Jake Wharton (youtube.com)
Call .NET Web Services from Kotlin
If you're looking to create an effortles typed API for consuming .NET Web Services in JVM or Kotlin Android Apps checkout ServiceStack's Kotlin Add ServiceStack Reference.
Running the examples
Each of the LINQ Examples can be run from the included Android App with its results logged to the screen:
Run the included Android Studio project to execute all the examples. You can also choose to only run specific examples by commenting out any of the sections you're not interested in MainActivity.kt.
A copy of the LINQ examples output is also available in linq-log.txt.
Contents
The samples below mirrors the C# LINQ samples layout with the names of the top-level Java methods matching their corresponding C# examples.
LINQ - Restriction Operators / MSDN C#
LINQ - Projection Operators / MSDN C#
LINQ - Partitioning Operators / MSDN C#
LINQ - Ordering Operators / MSDN C#
LINQ - Grouping Operators / MSDN C#
LINQ - Set Operators / MSDN C#
LINQ - Conversion Operators / MSDN C#
LINQ - Element Operators / MSDN C#
LINQ - Generation Operators / MSDN C#
LINQ - Quantifiers / MSDN C#
LINQ - Aggregate Operators / MSDN C#
LINQ - Miscellaneous Operators / MSDN C#
LINQ - Query Execution / MSDN C#
LINQ - Join Operators / MSDN C#
Kotlin Functional Utils
Kotlin has great language and built-in library support to simplify programming in a functional-style where most of the LINQ examples are able to use Kotlins built-in utils. Some of the more advanced LINQ examples like JOIN's were missing in Kotlins standard library, for this we leverage the existing implementations in ServiceStack's Java and Android Client Library: net.servicestack:android.
Install
To include it in your Android Studio project, add it to your build.gradle dependency, e.g:
dependencies {
compile fileTree(dir: 'libs', include: ['*.jar'])
compile 'net.servicestack:android:1.0.31'
}
Pure Java projects should add the net.servicestack:client dependency instead:
dependencies {
compile 'net.servicestack:client:1.0.31'
}
Alternatively this library is also automatically added when Adding a Typed Remote Service Reference with ServiceStack IDE Plugins for Intellij IDEA and Eclipse Maven projects.
Kotlin Extensions
Only a 2 extensions
were required to cover Kotlin's missing difference API.
Side-by-side - C# LINQ vs Kotlin
For a side-by-side comparison, the original C# source code is displayed above the equivalent Kotlin translation.
- The Output shows the logging output of running the Kotlin Android App.
- Outputs ending with
...illustrates only a partial response is displayed. - The C# ObjectDumper util used is downloadable from MSDN - ObjectDumper.zip
LINQ - Restriction Operators
linq1: Where - Simple 1
//c#
public void Linq1()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
var lowNums =
from n in numbers
where n < 5
select n;
Console.WriteLine("Numbers < 5:");
foreach (var x in lowNums)
{
Console.WriteLine(x);
}
}
//kotlin
fun linq1() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val lowNums = numbers.filter { it < 5 }
Log.d("Numbers < 5:")
lowNums.forEach { Log.d(it) }
}
Output
Numbers < 5:
4
1
3
2
0
linq2: Where - Simple 2
//c#
public void Linq2()
{
List<Product> products = GetProductList();
var soldOutProducts =
from p in products
where p.UnitsInStock == 0
select p;
Console.WriteLine("Sold out products:");
foreach (var product in soldOutProducts)
{
Console.WriteLine("{0} is sold out!", product.ProductName);
}
}
//kotlin
fun linq2() {
val soldOutProducts = products.filter { it.unitsInStock == 0 }
Log.d("Sold out products:")
soldOutProducts.forEach { Log.d("${it.productName} is sold out!") }
}
Output
Sold out products:
Chef Anton's Gumbo Mix is sold out!
Alice Mutton is sold out!
Thüringer Rostbratwurst is sold out!
Gorgonzola Telino is sold out!
Perth Pasties is sold out!
linq3: Where - Simple 3
//c#
public void Linq3()
{
List<Product> products = GetProductList();
var expensiveInStockProducts =
from p in products
where p.UnitsInStock > 0 && p.UnitPrice > 3.00M
select p;
Console.WriteLine("In-stock products that cost more than 3.00:");
foreach (var product in expensiveInStockProducts)
{
Console.WriteLine("{0} is in stock and costs more than 3.00.", product.ProductName);
}
}
//kotlin
fun linq3() {
val expensiveInStockProducts = products.filter { it.unitsInStock > 0 && it.unitPrice > 3.00 }
Log.d("In-stock products that cost more than 3.00:")
expensiveInStockProducts.forEach { Log.d("${it.productName} is in stock and costs more than 3.00.") }
}
Output
In-stock products that cost more than 3.00:
Chai is in stock and costs more than 3.00.
Chang is in stock and costs more than 3.00.
Aniseed Syrup is in stock and costs more than 3.00.
...
linq4: Where - Drilldown
//c#
public void Linq4()
{
List<Customer> customers = GetCustomerList();
var waCustomers =
from c in customers
where c.Region == "WA"
select c;
Console.WriteLine("Customers from Washington and their orders:");
foreach (var customer in waCustomers)
{
Console.WriteLine("Customer {0}: {1}", customer.CustomerID, customer.CompanyName);
foreach (var order in customer.Orders)
{
Console.WriteLine(" Order {0}: {1}", order.OrderID, order.OrderDate);
}
}
}
//kotlin
fun linq4() {
val waCustomers = customers.filter { "WA" == it.region }
Log.d("Customers from Washington and their orders:")
waCustomers.forEach { c ->
Log.d("Customer ${c.customerId} ${c.companyName}")
c.orders.forEach { Log.d(" Order ${it.orderId}: ${dateFmt(it.orderDate)}") }
}
}
Output
Customers from Washington and their orders:
Customer LAZYK Lazy K Kountry Store
Order 10482: 1997/03/21
Order 10545: 1997/05/22
Customer TRAIH Trail's Head Gourmet Provisioners
Order 10574: 1997/06/19
Order 10577: 1997/06/23
Order 10822: 1998/01/08
...
linq5: Where - Indexed
//c#
public void Linq5()
{
string[] digits = { "zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine" };
var shortDigits = digits.Where((digit, index) => digit.Length < index);
Console.WriteLine("Short digits:");
foreach (var d in shortDigits)
{
Console.WriteLine("The word {0} is shorter than its value.", d);
}
}
//kotlin
fun linq5() {
val digits = arrayOf("zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine")
val shortDigits = digits.filterIndexed { i, it -> it.length < i }
Log.d("Short digits:")
shortDigits.forEach { Log.d("The word $it is shorter than its value.") }
}
Output
Short digits:
The word five is shorter than its value.
The word six is shorter than its value.
The word seven is shorter than its value.
The word eight is shorter than its value.
The word nine is shorter than its value.
LINQ - Projection Operators
linq6: Select - Simple 1
//c#
public void Linq6()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
var numsPlusOne =
from n in numbers
select n + 1;
Console.WriteLine("Numbers + 1:");
foreach (var i in numsPlusOne)
{
Console.WriteLine(i);
}
}
//kotlin
fun linq06() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val numsPlusOne = numbers.map { it + 1 }
Log.d("Numbers + 1:")
numsPlusOne.forEach { Log.d(it) }
}
Output
Numbers + 1:
6
5
2
4
10
9
7
8
3
1
linq7: Select - Simple 2
//c#
public void Linq7()
{
List<Product> products = GetProductList();
var productNames =
from p in products
select p.ProductName;
Console.WriteLine("Product Names:");
foreach (var productName in productNames)
{
Console.WriteLine(productName);
}
}
//kotlin
fun linq07() {
val productNames = products.map { it.productName }
Log.d("Product Names:")
productNames.forEach { Log.d(it) }
}
Output
Product Names:
Chai
Chang
Aniseed Syrup
Chef Anton's Cajun Seasoning
Chef Anton's Gumbo Mix
...
linq8: Select - Transformation
//c#
public void Linq8()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
string[] strings = { "zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine" };
var textNums =
from n in numbers
select strings[n];
Console.WriteLine("Number strings:");
foreach (var s in textNums)
{
Console.WriteLine(s);
}
}
//kotlin
fun linq08() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val strings = arrayOf("zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine")
val textNums = numbers.map { strings[it] }
Log.d("Number strings:")
textNums.forEach { Log.d(it) }
}
Output
Number strings:
five
four
one
three
nine
eight
six
seven
two
zero
linq9: Select - Anonymous Types 1
//c#
public void Linq9()
{
string[] words = { "aPPLE", "BlUeBeRrY", "cHeRry" };
var upperLowerWords =
from w in words
select new { Upper = w.ToUpper(), Lower = w.ToLower() };
foreach (var ul in upperLowerWords)
{
Console.WriteLine("Uppercase: {0}, Lowercase: {1}", ul.Upper, ul.Lower);
}
}
//kotlin
fun linq09() {
val words = arrayOf("aPPLE", "BlUeBeRrY", "cHeRry")
val upperLowerWords = words.map { w -> Pair(w.toUpperCase(), w.toLowerCase()) }
upperLowerWords.forEach { Log.d("Uppercase: ${it.first}, Lowercase: ${it.second}") }
}
Output
Uppercase: APPLE, Lowercase: apple
Uppercase: BLUEBERRY, Lowercase: blueberry
Uppercase: CHERRY, Lowercase: cherry
linq10: Select - Anonymous Types 2
//c#
public void Linq10()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
string[] strings = { "zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine" };
var digitOddEvens =
from n in numbers
select new { Digit = strings[n], Even = (n % 2 == 0) };
foreach (var d in digitOddEvens)
{
Console.WriteLine("The digit {0} is {1}.", d.Digit, d.Even ? "even" : "odd");
}
}
//kotlin
fun linq10() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val strings = arrayOf("zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine")
val digitOddEvens = numbers.map { Pair(strings[it], it % 2 == 0) }
digitOddEvens.forEach {
val (d,isEven) = it
Log.d("The digit $d is ${if (isEven) "even" else "odd"}.")
}
}
Output
The digit five is odd.
The digit four is even.
The digit one is odd.
The digit three is odd.
The digit nine is odd.
The digit eight is even.
The digit six is even.
The digit seven is odd.
The digit two is even.
The digit zero is even.
linq11: Select - Anonymous Types 3
//c#
public void Linq11()
{
List<Product> products = GetProductList();
var productInfos =
from p in products
select new { p.ProductName, p.Category, Price = p.UnitPrice };
Console.WriteLine("Product Info:");
foreach (var productInfo in productInfos)
{
Console.WriteLine("{0} is in the category {1} and costs {2} per unit.", productInfo.ProductName, productInfo.Category, productInfo.Price);
}
}
//kotlin
fun linq11() {
val productInfos = products.map { p -> Triple(p.productName, p.category, p.unitPrice) }
Log.d("Product Info:")
productInfos.forEach {
val (name,category,cost) = it
Log.d("$name is in the category $category and costs $cost per unit.")
}
}
Output
Product Info:
Chai is in the category Beverages and costs 18.0 per unit.
Chang is in the category Beverages and costs 19.0 per unit.
Aniseed Syrup is in the category Condiments and costs 10.0 per unit.
...
linq12: Select - Indexed
//c#
public void Linq12()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
var numsInPlace = numbers.Select((num, index) => new { Num = num, InPlace = (num == index) });
Console.WriteLine("Number: In-place?");
foreach (var n in numsInPlace)
{
Console.WriteLine("{0}: {1}", n.Num, n.InPlace);
}
}
//kotlin
fun linq12() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val numsInPlace = numbers.mapIndexed { index, n -> Pair(n, n == index) }
Log.d("Number: In-place?")
numsInPlace.forEach { Log.d("${it.first.toString()}: ${it.second}") }
}
Output
Number: In-place?
5: false
4: false
1: false
3: true
9: false
8: false
6: true
7: true
2: false
0: false
linq13: Select - Filtered
//c#
public void Linq13()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
string[] digits = { "zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine" };
var lowNums =
from n in numbers
where n < 5
select digits[n];
Console.WriteLine("Numbers < 5:");
foreach (var num in lowNums)
{
Console.WriteLine(num);
}
}
//kotlin
fun linq13() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val digits = arrayOf("zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine")
val lowNums = numbers.filter { it < 5 }.map { digits[it] }
Log.d("Numbers < 5:")
lowNums.forEach { Log.d(it) }
}
Output
Numbers < 5:
four
one
three
two
zero
linq14: SelectMany - Compound from 1
//c#
public void Linq14()
{
int[] numbersA = { 0, 2, 4, 5, 6, 8, 9 };
int[] numbersB = { 1, 3, 5, 7, 8 };
var pairs =
from a in numbersA
from b in numbersB
where a < b
select new { a, b };
Console.WriteLine("Pairs where a < b:");
foreach (var pair in pairs)
{
Console.WriteLine("{0} is less than {1}", pair.a, pair.b);
}
}
//kotlin
fun linq14() {
val numbersA = intArrayOf(0, 2, 4, 5, 6, 8, 9)
val numbersB = intArrayOf(1, 3, 5, 7, 8)
val pairs = numbersA.flatMap { a ->
numbersB.filter { b -> a < b }
.map { Pair(a, it) }
}
Log.d("Pairs where a < b:")
pairs.forEach { Log.d("${it.first.toString()} is less than ${it.second}") }
}
Output
Pairs where a < b:
0 is less than 1
0 is less than 3
0 is less than 5
0 is less than 7
0 is less than 8
2 is less than 3
2 is less than 5
2 is less than 7
2 is less than 8
4 is less than 5
4 is less than 7
4 is less than 8
5 is less than 7
5 is less than 8
6 is less than 7
6 is less than 8
linq15: SelectMany - Compound from 2
//c#
public void Linq15()
{
List<Customer> customers = GetCustomerList();
var orders =
from c in customers
from o in c.Orders
where o.Total < 500.00M
select new { c.CustomerID, o.OrderID, o.Total };
ObjectDumper.Write(orders);
}
//kotlin
fun linq15() {
val orders = customers.flatMap { c ->
c.orders.filter { it.total < 500 }
.map { o -> Triple(c.customerId, o.orderId, o.total) }
}
orders.forEach { Log.d(it) }
}
Output
(ALFKI, 10702, 330.0)
(ALFKI, 10952, 471.2)
(ANATR, 10308, 88.8)
(ANATR, 10625, 479.75)
...
linq16: SelectMany - Compound from 3
//c#
public void Linq16()
{
List<Customer> customers = GetCustomerList();
var orders =
from c in customers
from o in c.Orders
where o.OrderDate >= new DateTime(1998, 1, 1)
select new { c.CustomerID, o.OrderID, o.OrderDate };
ObjectDumper.Write(orders);
}
//kotlin
fun linq16() {
val date = Date(98, 0, 1) //= 1998-01-01
val orders = customers.flatMap { c ->
c.orders.filter { it.orderDate >= date }
.map { o -> Triple(c.customerId, o.orderId, o.orderDate) }
}
orders.forEach { Log.d(it) }
}
Output
(ALFKI, 10835, Thu Jan 15 00:00:00 PST 1998)
(ALFKI, 10952, Mon Mar 16 00:00:00 PST 1998)
(ALFKI, 11011, Thu Apr 09 00:00:00 PDT 1998)
(ANATR, 10926, Wed Mar 04 00:00:00 PST 1998)
(ANTON, 10856, Wed Jan 28 00:00:00 PST 1998)
...
linq17: SelectMany - from Assignment
//c#
public void Linq17()
{
List<Customer> customers = GetCustomerList();
var orders =
from c in customers
from o in c.Orders
where o.Total >= 2000.0M
select new { c.CustomerID, o.OrderID, o.Total };
ObjectDumper.Write(orders);
}
//kotlin
fun linq17() {
val orders = customers.flatMap { c ->
c.orders.filter { it.total >= 2000 }
.map { o -> Triple(c.customerId, o.orderId, o.total) }
}
orders.forEach { Log.d(it) }
}
Output
(ANTON, 10573, 2082.0)
(AROUT, 10558, 2142.9)
(AROUT, 10953, 4441.25)
(BERGS, 10384, 2222.4)
(BERGS, 10524, 3192.65)
...
linq18: SelectMany - Multiple from
//c#
public void Linq18()
{
List<Customer> customers = GetCustomerList();
DateTime cutoffDate = new DateTime(1997, 1, 1);
var orders =
from c in customers
where c.Region == "WA"
from o in c.Orders
where o.OrderDate >= cutoffDate
select new { c.CustomerID, o.OrderID };
ObjectDumper.Write(orders);
}
//kotlin
fun linq18() {
val cutoffDate = Date(97, 0, 1) //1997-01-01
val orders = customers
.filter { it.region == "WA" }.flatMap { c ->
c.orders.filter { it.orderDate > cutoffDate }
.map { o -> Pair(c.customerId, o.orderId) }
}
orders.forEach { Log.d(it) }
}
Output
(LAZYK, 10482)
(LAZYK, 10545)
(TRAIH, 10574)
(TRAIH, 10577)
(TRAIH, 10822)
(WHITC, 10469)
(WHITC, 10483)
(WHITC, 10504)
(WHITC, 10596)
(WHITC, 10693)
(WHITC, 10696)
(WHITC, 10723)
(WHITC, 10740)
(WHITC, 10861)
(WHITC, 10904)
(WHITC, 11032)
(WHITC, 11066)
linq19: SelectMany - Indexed
//c#
public void Linq19()
{
List<Customer> customers = GetCustomerList();
var customerOrders =
customers.SelectMany(
(cust, custIndex) =>
cust.Orders.Select(o => "Customer #" + (custIndex + 1) +
" has an order with OrderID " + o.OrderID));
ObjectDumper.Write(customerOrders);
}
//kotlin
fun linq19() {
var custIndex = 0
val customerOrders = customers.flatMap { c ->
c.orders.mapIndexed { index, o -> "Customer #$index has an order with OrderID ${o.orderId}" }
}
customerOrders.forEach { Log.d(it) }
}
Output
Customer #1 has an order with OrderID 10643
Customer #1 has an order with OrderID 10692
Customer #1 has an order with OrderID 10702
Customer #1 has an order with OrderID 10835
Customer #1 has an order with OrderID 10952
Customer #1 has an order with OrderID 11011
Customer #2 has an order with OrderID 10308
Customer #2 has an order with OrderID 10625
Customer #2 has an order with OrderID 10759
Customer #2 has an order with OrderID 10926
...
LINQ - Partitioning Operators
linq20: Take - Simple
//c#
public void Linq20()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
var first3Numbers = numbers.Take(3);
Console.WriteLine("First 3 numbers:");
foreach (var n in first3Numbers)
{
Console.WriteLine(n);
}
}
//kotlin
fun linq20() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val first3Numbers = numbers.take(3)
Log.d("First 3 numbers:")
first3Numbers.forEach { Log.d(it) }
}
Output
First 3 numbers:
5
4
1
linq21: Take - Nested
//c#
public void Linq21()
{
List<Customer> customers = GetCustomerList();
var first3WAOrders = (
from c in customers
from o in c.Orders
where c.Region == "WA"
select new { c.CustomerID, o.OrderID, o.OrderDate })
.Take(3);
Console.WriteLine("First 3 orders in WA:");
foreach (var order in first3WAOrders)
{
ObjectDumper.Write(order);
}
}
//kotlin
fun linq21() {
val first3WAOrders = customers
.filter { it.region == "WA" }
.flatMap { c ->
c.orders.map { o -> Triple(c.customerId, o.orderId, o.orderDate) }
}
.take(3)
Log.d("First 3 orders in WA:")
first3WAOrders.forEach { Log.d(it) }
}
Output
First 3 orders in WA:
(LAZYK, 10482, Fri Mar 21 00:00:00 PST 1997)
(LAZYK, 10545, Thu May 22 00:00:00 PDT 1997)
(TRAIH, 10574, Thu Jun 19 00:00:00 PDT 1997)
linq22: Skip - Simple
//c#
public void Linq22()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
var allButFirst4Numbers = numbers.Skip(4);
Console.WriteLine("All but first 4 numbers:");
foreach (var n in allButFirst4Numbers)
{
Console.WriteLine(n);
}
}
//kotlin
fun linq22() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val allButFirst4Numbers = numbers.drop(4)
Log.d("All but first 4 numbers:")
allButFirst4Numbers.forEach { Log.d(it) }
}
Output
All but first 4 numbers:
9
8
6
7
2
0
linq23: Skip - Nested
//c#
public void Linq23()
{
List<Customer> customers = GetCustomerList();
var waOrders =
from c in customers
from o in c.Orders
where c.Region == "WA"
select new { c.CustomerID, o.OrderID, o.OrderDate };
var allButFirst2Orders = waOrders.Skip(2);
Console.WriteLine("All but first 2 orders in WA:");
foreach (var order in allButFirst2Orders)
{
ObjectDumper.Write(order);
}
}
//kotlin
fun linq23() {
val waOrders = customers
.filter { it.region == "WA" }
.flatMap { c ->
c.orders.map { o -> Triple(c.customerId, o.orderId, o.orderDate) }
}
val allButFirst2Orders = waOrders.drop(2)
Log.d("All but first 2 orders in WA:")
allButFirst2Orders.forEach { Log.d(it) }
}
Output
All but first 2 orders in WA:
(TRAIH, 10574, Thu Jun 19 00:00:00 PDT 1997)
(TRAIH, 10577, Mon Jun 23 00:00:00 PDT 1997)
(TRAIH, 10822, Thu Jan 08 00:00:00 PST 1998)
(WHITC, 10269, Wed Jul 31 00:00:00 PDT 1996)
(WHITC, 10344, Fri Nov 01 00:00:00 PST 1996)
(WHITC, 10469, Mon Mar 10 00:00:00 PST 1997)
(WHITC, 10483, Mon Mar 24 00:00:00 PST 1997)
(WHITC, 10504, Fri Apr 11 00:00:00 PDT 1997)
(WHITC, 10596, Fri Jul 11 00:00:00 PDT 1997)
(WHITC, 10693, Mon Oct 06 00:00:00 PDT 1997)
(WHITC, 10696, Wed Oct 08 00:00:00 PDT 1997)
(WHITC, 10723, Thu Oct 30 00:00:00 PST 1997)
(WHITC, 10740, Thu Nov 13 00:00:00 PST 1997)
(WHITC, 10861, Fri Jan 30 00:00:00 PST 1998)
(WHITC, 10904, Tue Feb 24 00:00:00 PST 1998)
(WHITC, 11032, Fri Apr 17 00:00:00 PDT 1998)
(WHITC, 11066, Fri May 01 00:00:00 PDT 1998)
linq24: TakeWhile - Simple
//c#
public void Linq24()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
var firstNumbersLessThan6 = numbers.TakeWhile(n => n < 6);
Console.WriteLine("First numbers less than 6:");
foreach (var n in firstNumbersLessThan6)
{
Console.WriteLine(n);
}
}
//kotlin
fun linq24() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val firstNumbersLessThan6 = numbers.takeWhile { it < 6 }
Log.d("First numbers less than 6:")
firstNumbersLessThan6.forEach { Log.d(it) }
}
Output
First numbers less than 6:
5
4
1
3
linq25: TakeWhile - Indexed
//c#
public void Linq25()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
var firstSmallNumbers = numbers.TakeWhile((n, index) => n >= index);
Console.WriteLine("First numbers not less than their position:");
foreach (var n in firstSmallNumbers)
{
Console.WriteLine(n);
}
}
//kotlin
fun linq25() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
var index = 0
val firstSmallNumbers = numbers.takeWhile { it >= index++ }
Log.d("First numbers not less than their position:")
firstSmallNumbers.forEach { Log.d(it) }
}
Output
First numbers not less than their position:
5
4
linq26: SkipWhile - Simple
//c#
public void Linq26()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
var allButFirst3Numbers = numbers.SkipWhile(n => n % 3 != 0);
Console.WriteLine("All elements starting from first element divisible by 3:");
foreach (var n in allButFirst3Numbers)
{
Console.WriteLine(n);
}
}
//kotlin
fun linq26() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val allButFirst3Numbers = numbers.dropWhile { it % 3 != 0 }
Log.d("All elements starting from first element divisible by 3:")
allButFirst3Numbers.forEach { Log.d(it) }
}
Output
All elements starting from first element divisible by 3:
3
9
8
6
7
2
0
linq27: SkipWhile - Indexed
//c#
public void Linq27()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
var laterNumbers = numbers.SkipWhile((n, index) => n >= index);
Console.WriteLine("All elements starting from first element less than its position:");
foreach (var n in laterNumbers)
{
Console.WriteLine(n);
}
}
//kotlin
fun linq27() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
var index = 0
val laterNumbers = numbers.dropWhile { it >= index++ }
Log.d("All elements starting from first element less than its position:")
laterNumbers.forEach { Log.d(it) }
}
Output
All elements starting from first element less than its position:
1
3
9
8
6
7
2
0
LINQ - Ordering Operators
linq28: OrderBy - Simple 1
//c#
public void Linq28()
{
string[] words = { "cherry", "apple", "blueberry" };
var sortedWords =
from w in words
orderby w
select w;
Console.WriteLine("The sorted list of words:");
foreach (var w in sortedWords)
{
Console.WriteLine(w);
}
}
//kotlin
fun linq28() {
val words = arrayOf("cherry", "apple", "blueberry")
val sortedWords = words.sorted()
Log.d("The sorted list of words:")
sortedWords.forEach { Log.d(it) }
}
Output
The sorted list of words:
apple
blueberry
cherry
linq29: OrderBy - Simple 2
//c#
public void Linq29()
{
string[] words = { "cherry", "apple", "blueberry" };
var sortedWords =
from w in words
orderby w.Length
select w;
Console.WriteLine("The sorted list of words (by length):");
foreach (var w in sortedWords)
{
Console.WriteLine(w);
}
}
//kotlin
fun linq29() {
val words = arrayOf("cherry", "apple", "blueberry")
val sortedWords = words.sortedBy { s -> s.length }
Log.d("The sorted list of words (by length):")
sortedWords.forEach { Log.d(it) }
}
Output
The sorted list of words (by length):
apple
cherry
blueberry
linq30: OrderBy - Simple 3
//c#
public void Linq30()
{
List<Product> products = GetProductList();
var sortedProducts =
from p in products
orderby p.ProductName
select p;
ObjectDumper.Write(sortedProducts);
}
//kotlin
fun linq30() {
val sortedProducts = products.sortedBy { it.productName }
sortedProducts.forEach { Log.d(it) }
}
Output
(Product id=17, name=Alice Mutton, cat=Meat/Poultry, price=39.0, inStock=0)
(Product id=3, name=Aniseed Syrup, cat=Condiments, price=10.0, inStock=13)
(Product id=40, name=Boston Crab Meat, cat=Seafood, price=18.4, inStock=123)
(Product id=60, name=Camembert Pierrot, cat=Dairy Products, price=34.0, inStock=19)
(Product id=18, name=Carnarvon Tigers, cat=Seafood, price=62.5, inStock=42)
...
linq31: OrderBy - Comparer
//c#
public void Linq31()
{
string[] words = { "aPPLE", "AbAcUs", "bRaNcH", "BlUeBeRrY", "ClOvEr", "cHeRry" };
var sortedWords = words.OrderBy(a => a, new CaseInsensitiveComparer());
ObjectDumper.Write(sortedWords);
}
//kotlin
fun linq31() {
val words = arrayOf("aPPLE", "AbAcUs", "bRaNcH", "BlUeBeRrY", "ClOvEr", "cHeRry")
val sortedWords = words.sortedWith(String.CASE_INSENSITIVE_ORDER)
sortedWords.forEach { Log.d(it) }
}
Output
AbAcUs
aPPLE
BlUeBeRrY
bRaNcH
cHeRry
ClOvEr
linq32: OrderByDescending - Simple 1
//c#
public void Linq32()
{
double[] doubles = { 1.7, 2.3, 1.9, 4.1, 2.9 };
var sortedDoubles =
from d in doubles
orderby d descending
select d;
Console.WriteLine("The doubles from highest to lowest:");
foreach (var d in sortedDoubles)
{
Console.WriteLine(d);
}
}
//kotlin
fun linq32() {
val doubles = doubleArrayOf(1.7, 2.3, 1.9, 4.1, 2.9)
val sortedDoubles = doubles.sortedDescending()
Log.d("The doubles from highest to lowest:")
sortedDoubles.forEach { Log.d(it) }
}
Output
The doubles from highest to lowest:
4.1
2.9
2.3
1.9
1.7
linq33: OrderByDescending - Simple 2
//c#
public void Linq33()
{
List<Product> products = GetProductList();
var sortedProducts =
from p in products
orderby p.UnitsInStock descending
select p;
ObjectDumper.Write(sortedProducts);
}
//kotlin
fun linq33() {
val sortedProducts = products.sortedByDescending { it.unitsInStock }
sortedProducts.forEach { Log.d(it) }
}
Output
(Product id=75, name=Rhönbräu Klosterbier, cat=Beverages, price=7.75, inStock=125)
(Product id=40, name=Boston Crab Meat, cat=Seafood, price=18.4, inStock=123)
(Product id=6, name=Grandma's Boysenberry Spread, cat=Condiments, price=25.0, inStock=120)
(Product id=55, name=Pâté chinois, cat=Meat/Poultry, price=24.0, inStock=115)
(Product id=61, name=Sirop d'érable, cat=Condiments, price=28.5, inStock=113)
...
linq34: OrderByDescending - Comparer
//c#
public void Linq34()
{
string[] words = { "aPPLE", "AbAcUs", "bRaNcH", "BlUeBeRrY", "ClOvEr", "cHeRry" };
var sortedWords = words.OrderByDescending(a => a, new CaseInsensitiveComparer());
ObjectDumper.Write(sortedWords);
}
//kotlin
fun linq34() {
val words = arrayOf("aPPLE", "AbAcUs", "bRaNcH", "BlUeBeRrY", "ClOvEr", "cHeRry")
val sortedWords = words.sortedWith(String.CASE_INSENSITIVE_ORDER).reversed()
sortedWords.forEach { Log.d(it) }
}
Output
ClOvEr
cHeRry
bRaNcH
BlUeBeRrY
aPPLE
AbAcUs
linq35: ThenBy - Simple
//c#
public void Linq35()
{
string[] digits = { "zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine" };
var sortedDigits =
from d in digits
orderby d.Length, d
select d;
Console.WriteLine("Sorted digits:");
foreach (var d in sortedDigits)
{
Console.WriteLine(d);
}
}
//kotlin
fun linq35() {
val digits = arrayOf("zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine")
val sortedDigits = digits.sorted().sortedBy { it.length }
Log.d("Sorted digits:")
sortedDigits.forEach { Log.d(it) }
}
Output
Sorted digits:
one
six
two
five
four
nine
zero
eight
seven
three
linq36: ThenBy - Comparer
//c#
public void Linq36()
{
string[] words = { "aPPLE", "AbAcUs", "bRaNcH", "BlUeBeRrY", "ClOvEr", "cHeRry" };
var sortedWords =
words.OrderBy(a => a.Length)
.ThenBy(a => a, new CaseInsensitiveComparer());
ObjectDumper.Write(sortedWords);
}
//kotlin
fun linq36() {
val words = arrayOf("aPPLE", "AbAcUs", "bRaNcH", "BlUeBeRrY", "ClOvEr", "cHeRry")
val sortedWords = words.sortedWith(String.CASE_INSENSITIVE_ORDER).sortedBy { it.length }
sortedWords.forEach { Log.d(it) }
}
Output
aPPLE
AbAcUs
bRaNcH
cHeRry
ClOvEr
BlUeBeRrY
linq37: ThenByDescending - Simple
//c#
public void Linq37()
{
List<Product> products = GetProductList();
var sortedProducts =
from p in products
orderby p.Category, p.UnitPrice descending
select p;
ObjectDumper.Write(sortedProducts);
}
//kotlin
fun linq37() {
val sortedProducts = orderByAll(products,
Comparator<Product> { a, b -> a.category.compareTo(b.category) },
Comparator<Product> { a, b -> b.unitPrice.compareTo(a.unitPrice) })
sortedProducts.forEach { Log.d(it) }
}
Output
(Product id=38, name=Côte de Blaye, cat=Beverages, price=263.5, inStock=17)
(Product id=43, name=Ipoh Coffee, cat=Beverages, price=46.0, inStock=17)
(Product id=2, name=Chang, cat=Beverages, price=19.0, inStock=17)
(Product id=1, name=Chai, cat=Beverages, price=18.0, inStock=39)
(Product id=35, name=Steeleye Stout, cat=Beverages, price=18.0, inStock=20)
(Product id=39, name=Chartreuse verte, cat=Beverages, price=18.0, inStock=69)
(Product id=76, name=Lakkalikööri, cat=Beverages, price=18.0, inStock=57)
(Product id=70, name=Outback Lager, cat=Beverages, price=15.0, inStock=15)
(Product id=34, name=Sasquatch Ale, cat=Beverages, price=14.0, inStock=111)
...
linq38: ThenByDescending - Comparer
//c#
public void Linq38()
{
string[] words = { "aPPLE", "AbAcUs", "bRaNcH", "BlUeBeRrY", "ClOvEr", "cHeRry" };
var sortedWords =
words.OrderBy(a => a.Length)
.ThenByDescending(a => a, new CaseInsensitiveComparer());
ObjectDumper.Write(sortedWords);
}
//kotlin
fun linq38() {
val words = arrayOf("aPPLE", "AbAcUs", "bRaNcH", "BlUeBeRrY", "ClOvEr", "cHeRry")
val sortedWords = orderByAll(words,
Comparator<String> { a, b -> Integer.compare(a.length, b.length) },
Comparator<String> { a, b -> String.CASE_INSENSITIVE_ORDER.compare(b, a) })
sortedWords.forEach { Log.d(it) }
}
Output
aPPLE
ClOvEr
cHeRry
bRaNcH
AbAcUs
BlUeBeRrY
linq39: Reverse
//c#
public void Linq39()
{
string[] digits = { "zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine" };
var reversedIDigits = (
from d in digits
where d[1] == 'i'
select d)
.Reverse();
Console.WriteLine("A backwards list of the digits with a second character of 'i':");
foreach (var d in reversedIDigits)
{
Console.WriteLine(d);
}
}
//kotlin
fun linq39() {
val digits = arrayOf("zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine")
val reversedIDigits = digits.filter { it[1] == 'i' }.reversed()
Log.d("A backwards list of the digits with a second character of 'i':")
reversedIDigits.forEach { Log.d(it) }
}
Output
A backwards list of the digits with a second character of 'i':
nine
eight
six
five
LINQ - Grouping Operators
linq40: GroupBy - Simple 1
//c#
public void Linq40()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
var numberGroups =
from n in numbers
group n by n % 5 into g
select new { Remainder = g.Key, Numbers = g };
foreach (var g in numberGroups)
{
Console.WriteLine("Numbers with a remainder of {0} when divided by 5:", g.Remainder);
foreach (var n in g.Numbers)
{
Console.WriteLine(n);
}
}
}
//kotlin
fun linq40() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val numberGroups = numbers.groupBy { it % 5 }
.map { Pair(it.key, it) }
numberGroups.forEach { it ->
val (remainder, g) = it
Log.d("Numbers with a remainder of $remainder when divided by 5:")
g.value.forEach { Log.d(it) }
}
}
Output
Numbers with a remainder of 0 when divided by 5:
5
0
Numbers with a remainder of 4 when divided by 5:
4
9
Numbers with a remainder of 1 when divided by 5:
1
6
Numbers with a remainder of 3 when divided by 5:
3
8
Numbers with a remainder of 2 when divided by 5:
7
2
linq41: GroupBy - Simple 2
//c#
public void Linq41()
{
string[] words = { "blueberry", "chimpanzee", "abacus", "banana", "apple", "cheese" };
var wordGroups =
from w in words
group w by w[0] into g
select new { FirstLetter = g.Key, Words = g };
foreach (var g in wordGroups)
{
Console.WriteLine("Words that start with the letter '{0}':", g.FirstLetter);
foreach (var w in g.Words)
{
Console.WriteLine(w);
}
}
}
//kotlin
fun linq41() {
val words = arrayOf("blueberry", "chimpanzee", "abacus", "banana", "apple", "cheese")
val wordGroups = words.groupBy { it[0] }
.map { Pair(it.key, it) }
wordGroups.forEach {
val (firstLetter, g) = it
Log.d("Words that start with the letter '$firstLetter':")
g.value.forEach { Log.d(it) }
}
}
Output
Words that start with the letter 'b':
blueberry
banana
Words that start with the letter 'c':
chimpanzee
cheese
Words that start with the letter 'a':
abacus
apple
linq42: GroupBy - Simple 3
//c#
public void Linq42()
{
List<Product> products = GetProductList();
var orderGroups =
from p in products
group p by p.Category into g
select new { Category = g.Key, Products = g };
ObjectDumper.Write(orderGroups, 1);
}
//kotlin
fun linq42() {
val orderGroups = products.groupBy { it.category }
.map { Pair(it.key, it) }
orderGroups.forEach {
val (category,g) = it
Log.d("${category}:")
g.value.forEach { Log.d(it) }
}
}
Output
Beverages:
(Product id=1, name=Chai, cat=Beverages, price=18.0, inStock=39)
(Product id=2, name=Chang, cat=Beverages, price=19.0, inStock=17)
(Product id=24, name=Guaraná Fantástica, cat=Beverages, price=4.5, inStock=20)
(Product id=34, name=Sasquatch Ale, cat=Beverages, price=14.0, inStock=111)
(Product id=35, name=Steeleye Stout, cat=Beverages, price=18.0, inStock=20)
(Product id=38, name=Côte de Blaye, cat=Beverages, price=263.5, inStock=17)
(Product id=39, name=Chartreuse verte, cat=Beverages, price=18.0, inStock=69)
(Product id=43, name=Ipoh Coffee, cat=Beverages, price=46.0, inStock=17)
(Product id=67, name=Laughing Lumberjack Lager, cat=Beverages, price=14.0, inStock=52)
(Product id=70, name=Outback Lager, cat=Beverages, price=15.0, inStock=15)
(Product id=75, name=Rhönbräu Klosterbier, cat=Beverages, price=7.75, inStock=125)
(Product id=76, name=Lakkalikööri, cat=Beverages, price=18.0, inStock=57)
Condiments:
(Product id=3, name=Aniseed Syrup, cat=Condiments, price=10.0, inStock=13)
(Product id=4, name=Chef Anton's Cajun Seasoning, cat=Condiments, price=22.0, inStock=53)
linq43: GroupBy - Nested
//c#
public void Linq43()
{
List<Customer> customers = GetCustomerList();
var customerOrderGroups =
from c in customers
select
new
{
c.CompanyName,
YearGroups =
from o in c.Orders
group o by o.OrderDate.Year into yg
select
new
{
Year = yg.Key,
MonthGroups =
from o in yg
group o by o.OrderDate.Month into mg
select new { Month = mg.Key, Orders = mg }
}
};
ObjectDumper.Write(customerOrderGroups, 3);
}
//kotlin
fun linq43() {
val customerOrderGroups = customers.map { c ->
Pair(c.companyName,
c.orders.groupBy { it.orderDate.year + 1900 }
.map { Pair(it.key, it.value.groupBy { it.orderDate.month + 1 }) })
}
customerOrderGroups.forEach {
val (companyName, yearGroups) = it
Log.d("\n# $companyName")
yearGroups.forEach {
val (year,monthGroups) = it
Log.d("${year.toString()}: ")
monthGroups.forEach { Log.d(" $it") }
}
}
}
Output
# Alfreds Futterkiste
1997:
8=[(Order id=10643, total=814.5)]
10=[(Order id=10692, total=878.0), (Order id=10702, total=330.0)]
1998:
1=[(Order id=10835, total=845.8)]
3=[(Order id=10952, total=471.2)]
4=[(Order id=11011, total=933.5)]
linq44: GroupBy - Comparer
//c#
public void Linq44()
{
string[] anagrams = { "from ", " salt", " earn ", " last ", " near ", " form " };
var orderGroups = anagrams.GroupBy(w => w.Trim(), new AnagramEqualityComparer());
ObjectDumper.Write(orderGroups, 1);
}
//kotlin
fun linq44() {
val anagrams = listOf("from ", " salt", " earn ", " last ", " near ", " form ")
val orderGroups = groupBy(anagrams,
{ w -> w.trim { it <= ' ' } },
{ a, b ->
val aChars = a.toCharArray()
val bChars = b.toCharArray()
Arrays.sort(aChars)
Arrays.sort(bChars)
Arrays.equals(aChars, bChars)
})
orderGroups.forEach { g ->
val sb = StringBuilder()
g.forEach { w ->
if (sb.length > 0)
sb.append(", ")
sb.append("'").append(w).append("'")
}
Log.d("[ $sb ]")
}
}
Output
[ ' earn ', ' near ' ]
[ ' salt', ' last ' ]
[ 'from ', ' form ' ]
linq45: GroupBy - Comparer, Mapped
//c#
public void Linq45()
{
string[] anagrams = { "from ", " salt", " earn ", " last ", " near ", " form " };
var orderGroups = anagrams.GroupBy(
w => w.Trim(),
a => a.ToUpper(),
new AnagramEqualityComparer()
);
ObjectDumper.Write(orderGroups, 1);
}
//kotlin
fun linq45() {
val anagrams = listOf("from ", " salt", " earn ", " last ", " near ", " form ")
val orderGroups = groupBy(anagrams,
{ w -> w.trim { it <= ' ' } },
{ a, b ->
val aChars = a.toCharArray()
val bChars = b.toCharArray()
Arrays.sort(aChars)
Arrays.sort(bChars)
Arrays.equals(aChars, bChars)
},
{ it.toUpperCase() })
orderGroups.forEach { g ->
val sb = StringBuilder()
g.forEach {
if (sb.length > 0)
sb.append(", ")
sb.append("'").append(it).append("'")
}
Log.d("[ $sb ]")
}
}
Output
[ ' EARN ', ' NEAR ' ]
[ ' SALT', ' LAST ' ]
[ 'FROM ', ' FORM ' ]
LINQ - Set Operators
linq46: Distinct - 1
//c#
public void Linq46()
{
int[] factorsOf300 = { 2, 2, 3, 5, 5 };
var uniqueFactors = factorsOf300.Distinct();
Console.WriteLine("Prime factors of 300:");
foreach (var f in uniqueFactors)
{
Console.WriteLine(f);
}
}
//kotlin
fun linq46() {
val factorsOf300 = intArrayOf(2, 2, 3, 5, 5)
val uniqueFactors = factorsOf300.distinct()
Log.d("Prime factors of 300:")
uniqueFactors.forEach { Log.d(it) }
}
Output
Prime factors of 300:
2
3
5
linq47: Distinct - 2
//c#
public void Linq47()
{
List<Product> products = GetProductList();
var categoryNames = (
from p in products
select p.Category)
.Distinct();
Console.WriteLine("Category names:");
foreach (var n in categoryNames)
{
Console.WriteLine(n);
}
}
//kotlin
fun linq47() {
val categoryNames = products.map { it.category}.distinct()
Log.d("Category names:")
categoryNames.forEach { Log.d(it) }
}
Output
Category names:
Beverages
Condiments
Produce
Meat/Poultry
Seafood
Dairy Products
Confections
Grains/Cereals
linq48: Union - 1
//c#
public void Linq48()
{
int[] numbersA = { 0, 2, 4, 5, 6, 8, 9 };
int[] numbersB = { 1, 3, 5, 7, 8 };
var uniqueNumbers = numbersA.Union(numbersB);
Console.WriteLine("Unique numbers from both arrays:");
foreach (var n in uniqueNumbers)
{
Console.WriteLine(n);
}
}
//kotlin
fun linq48() {
val numbersA = listOf(0, 2, 4, 5, 6, 8, 9)
val numbersB = listOf(1, 3, 5, 7, 8)
val uniqueNumbers = numbersA.union(numbersB)
Log.d("Unique numbers from both arrays:")
uniqueNumbers.forEach { Log.d(it) }
}
Output
Unique numbers from both arrays:
0
2
4
5
6
8
9
1
3
7
linq49: Union - 2
//c#
public void Linq49()
{
List<Product> products = GetProductList();
List<Customer> customers = GetCustomerList();
var productFirstChars =
from p in products
select p.ProductName[0];
var customerFirstChars =
from c in customers
select c.CompanyName[0];
var uniqueFirstChars = productFirstChars.Union(customerFirstChars);
Console.WriteLine("Unique first letters from Product names and Customer names:");
foreach (var ch in uniqueFirstChars)
{
Console.WriteLine(ch);
}
}
//kotlin
fun linq49() {
val productFirstChars = products.map { it.productName[0] }
val customerFirstChars = customers.map { it.companyName[0] }
val uniqueFirstChars = productFirstChars.union(customerFirstChars)
Log.d("Unique first letters from Product names and Customer names:")
uniqueFirstChars.forEach { Log.d(it) }
}
Output
Unique first letters from Product names and Customer names:
C
A
G
U
N
M
I
Q
K
T
P
S
R
B
J
Z
V
F
E
W
L
O
D
H
linq50: Intersect - 1
//c#
public void Linq50()
{
int[] numbersA = { 0, 2, 4, 5, 6, 8, 9 };
int[] numbersB = { 1, 3, 5, 7, 8 };
var commonNumbers = numbersA.Intersect(numbersB);
Console.WriteLine("Common numbers shared by both arrays:");
foreach (var n in commonNumbers)
{
Console.WriteLine(n);
}
}
//kotlin
fun linq50() {
val numbersA = listOf(0, 2, 4, 5, 6, 8, 9)
val numbersB = listOf(1, 3, 5, 7, 8)
val commonNumbers = numbersA.intersect(numbersB)
Log.d("Common numbers shared by both arrays:")
commonNumbers.forEach { Log.d(it) }
}
Output
Common numbers shared by both arrays:
5
8
linq51: Intersect - 2
//c#
public void Linq51()
{
List<Product> products = GetProductList();
List<Customer> customers = GetCustomerList();
var productFirstChars =
from p in products
select p.ProductName[0];
var customerFirstChars =
from c in customers
select c.CompanyName[0];
var commonFirstChars = productFirstChars.Intersect(customerFirstChars);
Console.WriteLine("Common first letters from Product names and Customer names:");
foreach (var ch in commonFirstChars)
{
Console.WriteLine(ch);
}
}
//kotlin
fun linq51() {
val productFirstChars = products.map { it.productName[0] }
val customerFirstChars = customers.map { it.companyName[0] }
val commonFirstChars = productFirstChars.intersect(customerFirstChars)
Log.d("Common first letters from Product names and Customer names:")
commonFirstChars.forEach { Log.d(it) }
}
Output
Common first letters from Product names and Customer names:
C
A
G
N
M
I
Q
K
T
P
S
R
B
V
F
E
W
L
O
linq52: Except - 1
//c#
public void Linq52()
{
int[] numbersA = { 0, 2, 4, 5, 6, 8, 9 };
int[] numbersB = { 1, 3, 5, 7, 8 };
IEnumerable<int> aOnlyNumbers = numbersA.Except(numbersB);
Console.WriteLine("Numbers in first array but not second array:");
foreach (var n in aOnlyNumbers)
{
Console.WriteLine(n);
}
}
//kotlin
fun linq52() {
val numbersA = listOf(0, 2, 4, 5, 6, 8, 9)
val numbersB = listOf(1, 3, 5, 7, 8)
val aOnlyNumbers = numbersA.difference(numbersB)
Log.d("Numbers in first array but not second array:")
aOnlyNumbers.forEach { Log.d(it) }
}
Output
Numbers in first array but not second array:
0
2
4
6
9
linq53: Except - 2
//c#
public void Linq53()
{
List<Product> products = GetProductList();
List<Customer> customers = GetCustomerList();
var productFirstChars =
from p in products
select p.ProductName[0];
var customerFirstChars =
from c in customers
select c.CompanyName[0];
var productOnlyFirstChars = productFirstChars.Except(customerFirstChars);
Console.WriteLine("First letters from Product names, but not from Customer names:");
foreach (var ch in productOnlyFirstChars)
{
Console.WriteLine(ch);
}
}
//kotlin
fun linq53() {
val productFirstChars = products.map { it.productName[0] }
val customerFirstChars = customers.map { it.companyName[0] }
val productOnlyFirstChars = productFirstChars.difference(customerFirstChars)
Log.d("First letters from Product names, but not from Customer names:")
productOnlyFirstChars.forEach { Log.d(it) }
}
Output
First letters from Product names, but not from Customer names:
U
J
Z
LINQ - Conversion Operators
linq54: ToArray
//c#
public void Linq54()
{
double[] doubles = { 1.7, 2.3, 1.9, 4.1, 2.9 };
var sortedDoubles =
from d in doubles
orderby d descending
select d;
var doublesArray = sortedDoubles.ToArray();
Console.WriteLine("Every other double from highest to lowest:");
for (int d = 0; d < doublesArray.Length; d += 2)
{
Console.WriteLine(doublesArray[d]);
}
}
//kotlin
fun linq54() {
val doubles = doubleArrayOf(1.7, 2.3, 1.9, 4.1, 2.9)
val sortedDoubles = doubles.sortedDescending()
val doublesArray = sortedDoubles.toDoubleArray()
Log.d("Every other double from highest to lowest:")
var d = 0
while (d < doublesArray.size) {
Log.d(doublesArray[d])
d += 2
}
}
Output
Every other double from highest to lowest:
4.1
2.3
1.7
linq55: ToList
//c#
public void Linq55()
{
string[] words = { "cherry", "apple", "blueberry" };
var sortedWords =
from w in words
orderby w
select w;
var wordList = sortedWords.ToList();
Console.WriteLine("The sorted word list:");
foreach (var w in wordList)
{
Console.WriteLine(w);
}
}
//kotlin
fun linq55() {
val words = arrayOf("cherry", "apple", "blueberry")
val sortedWords = words.sorted()
val wordList = sortedWords.toList()
Log.d("The sorted word list:")
wordList.forEach { Log.d(it) }
}
Output
The sorted word list:
apple
blueberry
cherry
linq56: ToDictionary
//c#
public void Linq56()
{
var scoreRecords = new[] { new {Name = "Alice", Score = 50},
new {Name = "Bob" , Score = 40},
new {Name = "Cathy", Score = 45}
};
var scoreRecordsDict = scoreRecords.ToDictionary(sr => sr.Name);
Console.WriteLine("Bob's score: {0}", scoreRecordsDict["Bob"]);
}
//kotlin
fun linq56() {
val scoreRecords = listOf(
Pair("Alice", 50),
Pair("Bob", 40),
Pair("Cathy", 45)
)
val scoreRecordsDict = scoreRecords.toMap()
Log.d("Bob's score: ${scoreRecordsDict["Bob"]}")
}
Output
Bob's score: 40
linq57: OfType
//c#
public void Linq57()
{
object[] numbers = { null, 1.0, "two", 3, "four", 5, "six", 7.0 };
var doubles = numbers.OfType<double>();
Console.WriteLine("Numbers stored as doubles:");
foreach (var d in doubles)
{
Console.WriteLine(d);
}
}
//kotlin
fun linq57() {
val numbers = arrayOf(null, 1.0, "two", 3, "four", 5, "six", 7.0)
val doubles = numbers.filter { it is Double }
Log.d("Numbers stored as doubles:")
doubles.forEach { Log.d(it) }
}
Output
Numbers stored as doubles:
1.0
7.0
LINQ - Element Operators
linq58: First - Simple
//c#
public void Linq58()
{
List<Product> products = GetProductList();
Product product12 = (
from p in products
where p.ProductID == 12
select p)
.First();
ObjectDumper.Write(product12);
}
//kotlin
fun linq58() {
val product12 = products.filter { it.productId == 12 }.first()
Log.d(product12)
}
Output
(Product id=12, name=Queso Manchego La Pastora, cat=Dairy Products, price=38.0, inStock=86)
linq59: First - Condition
//c#
public void Linq59()
{
string[] strings = { "zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine" };
string startsWithO = strings.First(s => s[0] == 'o');
Console.WriteLine("A string starting with 'o': {0}", startsWithO);
}
//kotlin
fun linq59() {
val strings = arrayOf("zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine")
val startsWithO = strings.first { it[0] == 'o' }
Log.d("A string starting with 'o': $startsWithO")
}
Output
A string starting with 'o': one
linq61: FirstOrDefault - Simple
//c#
public void Linq61()
{
int[] numbers = { };
int firstNumOrDefault = numbers.FirstOrDefault();
Console.WriteLine(firstNumOrDefault);
}
//kotlin
fun linq61() {
val numbers = intArrayOf()
val firstNumOrDefault = numbers.firstOrNull() ?: 0
Log.d(firstNumOrDefault)
}
Output
0
linq62: FirstOrDefault - Condition
//c#
public void Linq62()
{
List<Product> products = GetProductList();
Product product789 = products.FirstOrDefault(p => p.ProductID == 789);
Console.WriteLine("Product 789 exists: {0}", product789 != null);
}
//kotlin
fun linq62() {
val product789 = products.firstOrNull { it.productId == 789 }
Log.d("Product 789 exists: ${product789 != null}")
}
Output
Product 789 exists: false
linq64: ElementAt
//c#
public void Linq64()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
int fourthLowNum = (
from n in numbers
where n > 5
select n)
.ElementAt(1); // second number is index 1 because sequences use 0-based indexing
Console.WriteLine("Second number > 5: {0}", fourthLowNum);
}
//kotlin
fun linq64() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val fourthLowNum = numbers.filter { it > 5 }[1]
Log.d("Second number > 5: $fourthLowNum")
}
Output
Second number > 5: 8
LINQ - Generation Operators
linq65: Range
//c#
public void Linq65()
{
var numbers =
from n in Enumerable.Range(100, 50)
select new { Number = n, OddEven = n % 2 == 1 ? "odd" : "even" };
foreach (var n in numbers)
{
Console.WriteLine("The number {0} is {1}.", n.Number, n.OddEven);
}
}
//kotlin
fun linq65() {
val numbers = (100..150).map { n -> Pair(n, if (n % 2 == 1) "odd" else "even") }
numbers.forEach { Log.d("The number ${it.first} is ${it.second}") }
}
Output
The number 100 is even
The number 101 is odd
The number 102 is even
The number 103 is odd
The number 104 is even
The number 105 is odd
The number 106 is even
The number 107 is odd
The number 108 is even
The number 109 is odd
The number 110 is even
...
linq66: Repeat
//c#
public void Linq66()
{
var numbers = Enumerable.Repeat(7, 10);
foreach (var n in numbers)
{
Console.WriteLine(n);
}
}
//kotlin
fun linq66() {
val numbers = "7".repeat(10)
numbers.forEach { Log.d(it) }
}
Output
7
7
7
7
7
7
7
7
7
7
LINQ - Quantifiers
linq67: Any - Simple
//c#
public void Linq67()
{
string[] words = { "believe", "relief", "receipt", "field" };
bool iAfterE = words.Any(w => w.Contains("ei"));
Console.WriteLine("There is a word that contains in the list that contains 'ei': {0}", iAfterE);
}
//kotlin
fun linq67() {
val words = arrayOf("believe", "relief", "receipt", "field")
val iAfterE = words.any { it.contains("ei") }
Log.d("There is a word that contains in the list that contains 'ei': $iAfterE")
}
Output
There is a word that contains in the list that contains 'ei': true
linq69: Any - Grouped
//c#
public void Linq69()
{
List<Product> products = GetProductList();
var productGroups =
from p in products
group p by p.Category into g
where g.Any(p => p.UnitsInStock == 0)
select new { Category = g.Key, Products = g };
ObjectDumper.Write(productGroups, 1);
}
//kotlin
fun linq69() {
val productGroups = products
.groupBy { it.category }
.filter { it.value.any { it.unitsInStock == 0 } }
.map { Pair(it.key, it) }
productGroups.forEach { Log.d(it.second) }
}
Output
Condiments=[(Product id=3, name=Aniseed Syrup, cat=Condiments, price=10.0, inStock=13), (Product id=4, name=Chef Anton's Cajun Seasoning, cat=Condiments, price=22.0, inStock=53), (Product id=5, name=Chef Anton's Gumbo Mix, cat=Condiments, price=21.35, inStock=0), (Product id=6, name=Grandma's Boysenberry Spread, cat=Condiments, price=25.0, inStock=120), (Product id=8, name=Northwoods Cranberry Sauce, cat=Condiments, price=40.0, inStock=6), (Product id=15, name=Genen Shouyu, cat=Condiments, price=15.5, inStock=39), (Product id=44, name=Gula Malacca, cat=Condiments, price=19.45, inStock=27), (Product id=61, name=Sirop d'érable, cat=Condiments, price=28.5, inStock=113), (Product id=63, name=Vegie-spread, cat=Condiments, price=43.9, inStock=24), (Product id=65, name=Louisiana Fiery Hot Pepper Sauce, cat=Condiments, price=21.05, inStock=76), (Product id=66, name=Louisiana Hot Spiced Okra, cat=Condiments, price=17.0, inStock=4), (Product id=77, name=Original Frankfurter grüne Soße, cat=Condiments, price=13.0, inStock=32)]
Meat/Poultry=[(Product id=9, name=Mishi Kobe Niku, cat=Meat/Poultry, price=97.0, inStock=29), (Product id=17, name=Alice Mutton, cat=Meat/Poultry, price=39.0, inStock=0), (Product id=29, name=Thüringer Rostbratwurst, cat=Meat/Poultry, price=123.79, inStock=0), (Product id=53, name=Perth Pasties, cat=Meat/Poultry, price=32.8, inStock=0), (Product id=54, name=Tourtière, cat=Meat/Poultry, price=7.45, inStock=21), (Product id=55, name=Pâté chinois, cat=Meat/Poultry, price=24.0, inStock=115)]
Dairy Products=[(Product id=11, name=Queso Cabrales, cat=Dairy Products, price=21.0, inStock=22), (Product id=12, name=Queso Manchego La Pastora, cat=Dairy Products, price=38.0, inStock=86), (Product id=31, name=Gorgonzola Telino, cat=Dairy Products, price=12.5, inStock=0), (Product id=32, name=Mascarpone Fabioli, cat=Dairy Products, price=32.0, inStock=9), (Product id=33, name=Geitost, cat=Dairy Products, price=2.5, inStock=112), (Product id=59, name=Raclette Courdavault, cat=Dairy Products, price=55.0, inStock=79), (Product id=60, name=Camembert Pierrot, cat=Dairy Products, price=34.0, inStock=19), (Product id=69, name=Gudbrandsdalsost, cat=Dairy Products, price=36.0, inStock=26), (Product id=71, name=Flotemysost, cat=Dairy Products, price=21.5, inStock=26), (Product id=72, name=Mozzarella di Giovanni, cat=Dairy Products, price=34.8, inStock=14)]
...
linq70: All - Simple
//c#
public void Linq70()
{
int[] numbers = { 1, 11, 3, 19, 41, 65, 19 };
bool onlyOdd = numbers.All(n => n % 2 == 1);
Console.WriteLine("The list contains only odd numbers: {0}", onlyOdd);
}
//kotlin
fun linq70() {
val numbers = intArrayOf(1, 11, 3, 19, 41, 65, 19)
val onlyOdd = numbers.all { it % 2 == 1 }
Log.d("The list contains only odd numbers: $onlyOdd")
}
Output
The list contains only odd numbers: true
linq72: All - Grouped
//c#
public void Linq72()
{
List<Product> products = GetProductList();
var productGroups =
from p in products
group p by p.Category into g
where g.All(p => p.UnitsInStock > 0)
select new { Category = g.Key, Products = g };
ObjectDumper.Write(productGroups, 1);
}
//kotlin
fun linq72() {
val productGroups = products
.groupBy { it.category }
.filter { it.value.all { it.unitsInStock > 0 } }
.map { Pair(it.key, it) }
productGroups.forEach { Log.d(it.second) }
}
Output
Beverages=[(Product id=1, name=Chai, cat=Beverages, price=18.0, inStock=39), (Product id=2, name=Chang, cat=Beverages, price=19.0, inStock=17), (Product id=24, name=Guaraná Fantástica, cat=Beverages, price=4.5, inStock=20), (Product id=34, name=Sasquatch Ale, cat=Beverages, price=14.0, inStock=111), (Product id=35, name=Steeleye Stout, cat=Beverages, price=18.0, inStock=20), (Product id=38, name=Côte de Blaye, cat=Beverages, price=263.5, inStock=17), (Product id=39, name=Chartreuse verte, cat=Beverages, price=18.0, inStock=69), (Product id=43, name=Ipoh Coffee, cat=Beverages, price=46.0, inStock=17), (Product id=67, name=Laughing Lumberjack Lager, cat=Beverages, price=14.0, inStock=52), (Product id=70, name=Outback Lager, cat=Beverages, price=15.0, inStock=15), (Product id=75, name=Rhönbräu Klosterbier, cat=Beverages, price=7.75, inStock=125), (Product id=76, name=Lakkalikööri, cat=Beverages, price=18.0, inStock=57)]
...
LINQ - Aggregate Operators
linq73: Count - Simple
//c#
public void Linq73()
{
int[] factorsOf300 = { 2, 2, 3, 5, 5 };
int uniqueFactors = factorsOf300.Distinct().Count();
Console.WriteLine("There are {0} unique factors of 300.", uniqueFactors);
}
//kotlin
fun linq73() {
val factorsOf300 = intArrayOf(2, 2, 3, 5, 5)
val uniqueFactors = factorsOf300.distinct().size
Log.d("There are $uniqueFactors unique factors of 300.")
}
Output
There are 3 unique factors of 300.
linq74: Count - Conditional
//c#
public void Linq74()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
int oddNumbers = numbers.Count(n => n % 2 == 1);
Console.WriteLine("There are {0} odd numbers in the list.", oddNumbers);
}
//kotlin
fun linq74() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val oddNumbers = numbers.count { it % 2 == 1 }
Log.d("There are $oddNumbers odd numbers in the list.")
}
Output
There are 5 odd numbers in the list.
linq76: Count - Nested
//c#
public void Linq76()
{
List<Customer> customers = GetCustomerList();
var orderCounts =
from c in customers
select new { c.CustomerID, OrderCount = c.Orders.Count() };
ObjectDumper.Write(orderCounts);
}
//kotlin
fun linq76() {
val orderCounts = customers.map { Pair(it.customerId, it.orders.size) }
orderCounts.forEach { Log.d(it) }
}
Output
(ALFKI, 6)
(ANATR, 4)
(ANTON, 7)
(AROUT, 13)
(BERGS, 18)
(BLAUS, 7)
(BLONP, 11)
...
linq77: Count - Grouped
//c#
public void Linq77()
{
List<Product> products = GetProductList();
var categoryCounts =
from p in products
group p by p.Category into g
select new { Category = g.Key, ProductCount = g.Count() };
ObjectDumper.Write(categoryCounts
}
//kotlin
fun linq77() {
val categoryCounts = products.groupBy { it.category }
.map { Pair(it.key, it.value.size) }
categoryCounts.forEach { Log.d(it) }
}
Output
(Beverages, 12)
(Condiments, 12)
(Produce, 5)
(Meat/Poultry, 6)
(Seafood, 12)
(Dairy Products, 10)
(Confections, 13)
(Grains/Cereals, 7)
linq78: Sum - Simple
//c#
public void Linq78()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
double numSum = numbers.Sum();
Console.WriteLine("The sum of the numbers is {0}.", numSum);
}
//kotlin
fun linq78() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val numSum = numbers.sum().toDouble()
Log.d("The sum of the numbers is $numSum")
}
Output
The sum of the numbers is 45.0
linq79: Sum - Projection
//c#
public void Linq79()
{
string[] words = { "cherry", "apple", "blueberry" };
double totalChars = words.Sum(w => w.Length);
Console.WriteLine("There are a total of {0} characters in these words.", totalChars);
}
//kotlin
fun linq79() {
val words = arrayOf("cherry", "apple", "blueberry")
val totalChars = words.sumBy { it.length }
Log.d("There are a total of $totalChars characters in these words.")
}
Output
There are a total of 20 characters in these words.
linq80: Sum - Grouped
//c#
public void Linq80()
{
List<Product> products = GetProductList();
var categories =
from p in products
group p by p.Category into g
select new { Category = g.Key, TotalUnitsInStock = g.Sum(p => p.UnitsInStock) };
ObjectDumper.Write(categories);
}
//kotlin
fun linq80() {
val categories = products.groupBy { it.category }
.map { Pair(it.key, it.value.sumBy { it.unitsInStock }) }
categories.forEach { Log.d(it) }
}
Output
(Beverages, 559)
(Condiments, 507)
(Produce, 100)
(Meat/Poultry, 165)
(Seafood, 701)
(Dairy Products, 393)
(Confections, 386)
(Grains/Cereals, 308)
linq81: Min - Simple
//c#
public void Linq81()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
int minNum = numbers.Min();
Console.WriteLine("The minimum number is {0}.", minNum);
}
//kotlin
fun linq81() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val minNum = numbers.min()
Log.d("The minimum number is $minNum")
}
Output
The minimum number is 0
linq82: Min - Projection
//c#
public void Linq82()
{
string[] words = { "cherry", "apple", "blueberry" };
int shortestWord = words.Min(w => w.Length);
Console.WriteLine("The shortest word is {0} characters long.", shortestWord);
}
//kotlin
fun linq82() {
val words = arrayOf("cherry", "apple", "blueberry")
val shortestWord = words.minBy { it.length }?.length
Log.d("The shortest word is $shortestWord characters long.")
}
Output
The shortest word is 5 characters long.
linq83: Min - Grouped
//c#
public void Linq83()
{
List<Product> products = GetProductList();
var categories =
from p in products
group p by p.Category into g
select new { Category = g.Key, CheapestPrice = g.Min(p => p.UnitPrice) };
ObjectDumper.Write(categories);
}
//kotlin
fun linq83() {
val categories = products.groupBy { it.category }
.map { Pair(it.key, it.value.minBy { it.unitPrice }?.unitPrice) }
categories.forEach { Log.d(it) }
}
Output
(Beverages, 4.5)
(Condiments, 10.0)
(Produce, 10.0)
(Meat/Poultry, 7.45)
(Seafood, 6.0)
(Dairy Products, 2.5)
(Confections, 9.2)
(Grains/Cereals, 7.0)
linq84: Min - Elements
//c#
public void Linq84()
{
List<Product> products = GetProductList();
var categories =
from p in products
group p by p.Category into g
let minPrice = g.Min(p => p.UnitPrice)
select new { Category = g.Key, CheapestProducts = g.Where(p => p.UnitPrice == minPrice) };
ObjectDumper.Write(categories, 1);
}
//kotlin
fun linq84() {
val categories = products.groupBy { it.category }
.map {
val minPrice = it.value.minBy { it.unitPrice }!!.unitPrice
Pair(it.key, it.value.filter { p -> p.unitPrice == minPrice })
}
categories.forEach {
val (category,cheapestProducts) = it
Log.d(category + ": ")
cheapestProducts.forEach { Log.d(it) }
}
}
Output
Beverages:
(Product id=24, name=Guaraná Fantástica, cat=Beverages, price=4.5, inStock=20)
Condiments:
(Product id=3, name=Aniseed Syrup, cat=Condiments, price=10.0, inStock=13)
Produce:
(Product id=74, name=Longlife Tofu, cat=Produce, price=10.0, inStock=4)
Meat/Poultry:
(Product id=54, name=Tourtière, cat=Meat/Poultry, price=7.45, inStock=21)
Seafood:
(Product id=13, name=Konbu, cat=Seafood, price=6.0, inStock=24)
Dairy Products:
(Product id=33, name=Geitost, cat=Dairy Products, price=2.5, inStock=112)
Confections:
(Product id=19, name=Teatime Chocolate Biscuits, cat=Confections, price=9.2, inStock=25)
Grains/Cereals:
(Product id=52, name=Filo Mix, cat=Grains/Cereals, price=7.0, inStock=38)
linq85: Max - Simple
//c#
public void Linq85()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
int maxNum = numbers.Max();
Console.WriteLine("The maximum number is {0}.", maxNum);
}
//kotlin
fun linq85() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val maxNum = numbers.max()
Log.d("The maximum number is $maxNum")
}
Output
The maximum number is 9
linq86: Max - Projection
//c#
public void Linq86()
{
string[] words = { "cherry", "apple", "blueberry" };
int longestLength = words.Max(w => w.Length);
Console.WriteLine("The longest word is {0} characters long.", longestLength);
}
//kotlin
fun linq86() {
val words = arrayOf("cherry", "apple", "blueberry")
val longestLength = words.maxBy { it.length }?.length
Log.d("The longest word is $longestLength characters long.")
}
Output
The longest word is 9 characters long.
linq87: Max - Grouped
//c#
public void Linq87()
{
List<Product> products = GetProductList();
var categories =
from p in products
group p by p.Category into g
select new { Category = g.Key, MostExpensivePrice = g.Max(p => p.UnitPrice) };
ObjectDumper.Write(categories);
}
//kotlin
fun linq87() {
val categories = products.groupBy { it.category }
.map { Pair(it.key, it.value.maxBy { it.unitPrice }?.unitPrice) }
categories.forEach { Log.d(it) }
}
Output
(Beverages, 263.5)
(Condiments, 43.9)
(Produce, 53.0)
(Meat/Poultry, 123.79)
(Seafood, 62.5)
(Dairy Products, 55.0)
(Confections, 81.0)
(Grains/Cereals, 38.0)
linq88: Max - Elements
//c#
public void Linq88()
{
List<Product> products = GetProductList();
var categories =
from p in products
group p by p.Category into g
let maxPrice = g.Max(p => p.UnitPrice)
select new { Category = g.Key, MostExpensiveProducts = g.Where(p => p.UnitPrice == maxPrice) };
ObjectDumper.Write(categories, 1);
}
//kotlin
fun linq88() {
val categories = products.groupBy { it.category }
.map {
val maxPrice = it.value.maxBy { p -> p.unitPrice }?.unitPrice
Pair(it.key, it.value.filter { p -> p.unitPrice == maxPrice })
}
categories.forEach {
val (category, mostExpensiveProducts) = it
Log.d("$category: ")
mostExpensiveProducts.forEach { Log.d(it) }
}
}
Output
Beverages:
(Product id=38, name=Côte de Blaye, cat=Beverages, price=263.5, inStock=17)
Condiments:
(Product id=63, name=Vegie-spread, cat=Condiments, price=43.9, inStock=24)
Produce:
(Product id=51, name=Manjimup Dried Apples, cat=Produce, price=53.0, inStock=20)
Meat/Poultry:
(Product id=29, name=Thüringer Rostbratwurst, cat=Meat/Poultry, price=123.79, inStock=0)
Seafood:
(Product id=18, name=Carnarvon Tigers, cat=Seafood, price=62.5, inStock=42)
Dairy Products:
(Product id=59, name=Raclette Courdavault, cat=Dairy Products, price=55.0, inStock=79)
Confections:
(Product id=20, name=Sir Rodney's Marmalade, cat=Confections, price=81.0, inStock=40)
Grains/Cereals:
(Product id=56, name=Gnocchi di nonna Alice, cat=Grains/Cereals, price=38.0, inStock=21)
linq89: Average - Simple
//c#
public void Linq89()
{
int[] numbers = { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
double averageNum = numbers.Average();
Console.WriteLine("The average number is {0}.", averageNum);
}
//kotlin
fun linq89() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val averageNum = numbers.average()
Log.d("The average number is $averageNum")
}
Output
The average number is 4.5
linq90: Average - Projection
//c#
public void Linq90()
{
string[] words = { "cherry", "apple", "blueberry" };
double averageLength = words.Average(w => w.Length);
Console.WriteLine("The average word length is {0} characters.", averageLength);
}
//kotlin
fun linq90() {
val words = arrayOf("cherry", "apple", "blueberry")
val averageLength = words.map { it.length }.average()
Log.d("The average word length is $averageLength characters.")
}
Output
The average word length is 6.666666666666667 characters.
linq91: Average - Grouped
//c#
public void Linq91()
{
List<Product> products = GetProductList();
var categories =
from p in products
group p by p.Category into g
select new { Category = g.Key, AveragePrice = g.Average(p => p.UnitPrice) };
ObjectDumper.Write(categories);
}
//kotlin
fun linq91() {
val categories = products.groupBy { it.category }
.map { Pair(it.key, it.value.map{it.unitPrice }.average() ) }
categories.forEach { Log.d("Category: ${it.first}, AveragePrice: ${it.second}") }
}
Output
Category: Beverages, AveragePrice: 37.979166666666664
Category: Condiments, AveragePrice: 23.0625
Category: Produce, AveragePrice: 32.37
Category: Meat/Poultry, AveragePrice: 54.00666666666667
Category: Seafood, AveragePrice: 20.6825
Category: Dairy Products, AveragePrice: 28.73
Category: Confections, AveragePrice: 25.16
Category: Grains/Cereals, AveragePrice: 20.25
linq92: Aggregate - Simple
//c#
public void Linq92()
{
double[] doubles = { 1.7, 2.3, 1.9, 4.1, 2.9 };
double product = doubles.Aggregate((runningProduct, nextFactor) => runningProduct * nextFactor);
Console.WriteLine("Total product of all numbers: {0}", product);
}
//kotlin
fun linq92() {
val doubles = doubleArrayOf(1.7, 2.3, 1.9, 4.1, 2.9)
val product = doubles.reduce { runningProduct, nextFactor -> runningProduct * nextFactor }
Log.d("Total product of all numbers: $product")
}
Output
Total product of all numbers: 88.33080999999999
linq93: Aggregate - Seed
//c#
public void Linq93()
{
double startBalance = 100.0;
int[] attemptedWithdrawals = { 20, 10, 40, 50, 10, 70, 30 };
double endBalance =
attemptedWithdrawals.Aggregate(startBalance,
(balance, nextWithdrawal) =>
((nextWithdrawal <= balance) ? (balance - nextWithdrawal) : balance));
Console.WriteLine("Ending balance: {0}", endBalance);
}
//kotlin
fun linq93() {
val startBalance = 100
val attemptedWithdrawals = intArrayOf(20, 10, 40, 50, 10, 70, 30)
var i = 0
val endBalance = attemptedWithdrawals.reduce { acc, nextWithdrawal ->
val balance = if (i++ == 0 && nextWithdrawal <= acc) startBalance - acc else acc
if (nextWithdrawal <= balance) balance - nextWithdrawal else balance
}
Log.d("Ending balance: $endBalance")
}
Output
Ending balance: 20
LINQ - Miscellaneous Operators
linq94: Concat - 1
//c#
public void Linq94()
{
int[] numbersA = { 0, 2, 4, 5, 6, 8, 9 };
int[] numbersB = { 1, 3, 5, 7, 8 };
var allNumbers = numbersA.Concat(numbersB);
Console.WriteLine("All numbers from both arrays:");
foreach (var n in allNumbers)
{
Console.WriteLine(n);
}
}
//kotlin
fun linq94() {
val numbersA = intArrayOf(0, 2, 4, 5, 6, 8, 9)
val numbersB = intArrayOf(1, 3, 5, 7, 8)
val allNumbers = numbersA + numbersB
Log.d("All numbers from both arrays:")
allNumbers.forEach { Log.d(it) }
}
Output
All numbers from both arrays:
0
2
4
5
6
8
9
1
3
5
7
8
linq95: Concat - 2
//c#
public void Linq95()
{
List<Customer> customers = GetCustomerList();
List<Product> products = GetProductList();
var customerNames =
from c in customers
select c.CompanyName;
var productNames =
from p in products
select p.ProductName;
var allNames = customerNames.Concat(productNames);
Console.WriteLine("Customer and product names:");
foreach (var n in allNames)
{
Console.WriteLine(n);
}
}
//kotlin
fun linq95() {
val customerNames = customers.map { it.companyName }
val productNames = products.map { it.productName }
val allNames = customerNames + productNames
Log.d("Customer and product names:")
allNames.forEach { Log.d(it) }
}
Output
Customer and product names:
Alfreds Futterkiste
Ana Trujillo Emparedados y helados
Antonio Moreno Taquería
Around the Horn
Berglunds snabbköp
Blauer See Delikatessen
...
linq96: EqualAll - 1
//c#
public void Linq96()
{
var wordsA = new string[] { "cherry", "apple", "blueberry" };
var wordsB = new string[] { "cherry", "apple", "blueberry" };
bool match = wordsA.SequenceEqual(wordsB);
Console.WriteLine("The sequences match: {0}", match);
}
//kotlin
fun linq96() {
val wordsA = arrayOf("cherry", "apple", "blueberry")
val wordsB = arrayOf("cherry", "apple", "blueberry")
val match = Arrays.equals(wordsA, wordsB)
Log.d("The sequences match: $match")
}
Output
The sequences match: true
linq97: EqualAll - 2
//c#
public void Linq97()
{
var wordsA = new string[] { "cherry", "apple", "blueberry" };
var wordsB = new string[] { "apple", "blueberry", "cherry" };
bool match = wordsA.SequenceEqual(wordsB);
Console.WriteLine("The sequences match: {0}", match);
}
//kotlin
fun linq97() {
val wordsA = arrayOf("cherry", "apple", "blueberry")
val wordsB = arrayOf("cherry", "blueberry", "cherry")
val match = Arrays.equals(wordsA, wordsB)
Log.d("The sequences match: $match")
}
Output
The sequences match: false
LINQ - Query Execution
linq99: Deferred Execution
//c#
public void Linq99()
{
// Sequence operators form first-class queries that
// are not executed until you enumerate over them.
int[] numbers = new int[] { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
int i = 0;
var q =
from n in numbers
select ++i;
// Note, the local variable 'i' is not incremented
// until each element is evaluated (as a side-effect):
foreach (var v in q)
{
Console.WriteLine("v = {0}, i = {1}", v, i);
}
}
//kotlin
fun linq099() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
var i = 0
val q = numbers.map { { ++i } }
for (f in q) {
val v = f()
Log.d("v = $v, i = $i")
}
}
Output
v = 1, i = 1
v = 2, i = 2
v = 3, i = 3
v = 4, i = 4
v = 5, i = 5
v = 6, i = 6
v = 7, i = 7
v = 8, i = 8
v = 9, i = 9
v = 10, i = 10
linq100: Immediate Execution
//c#
public void Linq100()
{
// Methods like ToList() cause the query to be
// executed immediately, caching the results.
int[] numbers = new int[] { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
int i = 0;
var q = (
from n in numbers
select ++i)
.ToList();
// The local variable i has already been fully
// incremented before we iterate the results:
foreach (var v in q)
{
Console.WriteLine("v = {0}, i = {1}", v, i);
}
}
//kotlin
fun linq100() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
var i = 0
val q = numbers.map { ++i }
q.forEach { v -> Log.d("v = $v, i = $i") }
}
Output
v = 1, i = 10
v = 2, i = 10
v = 3, i = 10
v = 4, i = 10
v = 5, i = 10
v = 6, i = 10
v = 7, i = 10
v = 8, i = 10
v = 9, i = 10
v = 10, i = 10
linq101: Query Reuse
//c#
public void Linq101()
{
// Deferred execution lets us define a query once
// and then reuse it later after data changes.
int[] numbers = new int[] { 5, 4, 1, 3, 9, 8, 6, 7, 2, 0 };
var lowNumbers =
from n in numbers
where n <= 3
select n;
Console.WriteLine("First run numbers <= 3:");
foreach (int n in lowNumbers)
{
Console.WriteLine(n);
}
for (int i = 0; i < 10; i++)
{
numbers[i] = -numbers[i];
}
// During this second run, the same query object,
// lowNumbers, will be iterating over the new state
// of numbers[], producing different results:
Console.WriteLine("Second run numbers <= 3:");
foreach (int n in lowNumbers)
{
Console.WriteLine(n);
}
}
//kotlin
fun linq101() {
val numbers = intArrayOf(5, 4, 1, 3, 9, 8, 6, 7, 2, 0)
val lowNumbers = { numbers.filter { n -> n <= 3 } }
Log.d("First run numbers <= 3:")
lowNumbers().forEach { Log.d(it) }
for (i in 0..9) {
numbers[i] = -numbers[i]
}
Log.d("Second run numbers <= 3:")
lowNumbers().forEach { Log.d(it) }
}
Output
First run numbers <= 3:
1
3
2
0
Second run numbers <= 3:
-5
-4
-1
-3
-9
-8
-6
-7
-2
0
LINQ - Join Operators
linq102: Cross Join
//c#
public void Linq102()
{
string[] categories = new string[]{
"Beverages",
"Condiments",
"Vegetables",
"Dairy Products",
"Seafood" };
List<Product> products = GetProductList();
var q =
from c in categories
join p in products on c equals p.Category
select new { Category = c, p.ProductName };
foreach (var v in q)
{
Console.WriteLine(v.ProductName + ": " + v.Category);
}
}
//kotlin
fun linq102() {
val categories = listOf("Beverages", "Condiments", "Vegetables", "Dairy Products", "Seafood")
val q = join(categories, products) { c, p -> c == p.category }
.map { Pair(it.A, it.B.productName) }
q.forEach { Log.d("${it.first}: ${it.second}") }
}
Output
Beverages: Chai
Beverages: Chang
Beverages: Guaraná Fantástica
Beverages: Sasquatch Ale
Beverages: Steeleye Stout
Beverages: Côte de Blaye
Beverages: Chartreuse verte
Beverages: Ipoh Coffee
...
linq103: Group Join
//c#
public void Linq103()
{
string[] categories = new string[]{
"Beverages",
"Condiments",
"Vegetables",
"Dairy Products",
"Seafood" };
List<Product> products = GetProductList();
var q =
from c in categories
join p in products on c equals p.Category into ps
select new { Category = c, Products = ps };
foreach (var v in q)
{
Console.WriteLine(v.Category + ":");
foreach (var p in v.Products)
{
Console.WriteLine(" " + p.ProductName);
}
}
}
//kotlin
fun linq103() {
val categories = listOf("Beverages", "Condiments", "Vegetables", "Dairy Products", "Seafood")
val q = joinGroup(categories, products) { c, p -> c == p.category }
.map { Pair(it.key, it.items.map { it.B }) }
q.forEach {
Log.d("${it.first}:")
it.second.forEach { p -> Log.d(" ${p.productName}") }
}
}
Output
Beverages:
Chai
Chang
Guaraná Fantástica
Sasquatch Ale
Steeleye Stout
Côte de Blaye
Chartreuse verte
Ipoh Coffee
Laughing Lumberjack Lager
Outback Lager
Rhönbräu Klosterbier
Lakkalikööri
Seafood:
Ikura
Konbu
Carnarvon Tigers
Nord-Ost Matjeshering
Inlagd Sill
Gravad lax
Boston Crab Meat
Jack's New England Clam Chowder
Rogede sild
Spegesild
Escargots de Bourgogne
Röd Kaviar
...
linq104: Cross Join with Group Join
//c#
public void Linq104()
{
string[] categories = new string[]{
"Beverages",
"Condiments",
"Vegetables",
"Dairy Products",
"Seafood" };
List<Product> products = GetProductList();
var q =
from c in categories
join p in products on c equals p.Category into ps
from p in ps
select new { Category = c, p.ProductName };
foreach (var v in q)
{
Console.WriteLine(v.ProductName + ": " + v.Category);
}
}
//kotlin
fun linq104() {
val categories = listOf("Beverages", "Condiments", "Vegetables", "Dairy Products", "Seafood")
val q = joinGroup(categories, products) { c, p -> c == p.category }
.flatMap { j -> j.items.map { it.B }.map { Pair(j.key, it.productName) } }
q.forEach { Log.d("${it.second}: ${it.first}") }
}
Output
Chai: Beverages
Chang: Beverages
Guaraná Fantástica: Beverages
Sasquatch Ale: Beverages
Steeleye Stout: Beverages
Côte de Blaye: Beverages
Chartreuse verte: Beverages
Ipoh Coffee: Beverages
Laughing Lumberjack Lager: Beverages
Outback Lager: Beverages
Rhönbräu Klosterbier: Beverages
Lakkalikööri: Beverages
Ikura: Seafood
Konbu: Seafood
Carnarvon Tigers: Seafood
...
linq105: Left Outer Join
//c#
public void Linq105()
{
string[] categories = new string[]{
"Beverages",
"Condiments",
"Vegetables",
"Dairy Products",
"Seafood" };
List<Product> products = GetProductList();
var q =
from c in categories
join p in products on c equals p.Category into ps
from p in ps.DefaultIfEmpty()
select new { Category = c, ProductName = p == null ? "(No products)" : p.ProductName };
foreach (var v in q)
{
Console.WriteLine(v.ProductName + ": " + v.Category);
}
}
//kotlin
fun linq105() {
val categories = listOf("Beverages", "Condiments", "Vegetables", "Dairy Products", "Seafood")
val q = categories.flatMap { c ->
val catProducts = products.filter { c == it.category }
if (catProducts.isEmpty())
listOf(Pair(c, "(No products)"))
else
catProducts.map { Pair(c, it.productName) }
}
q.forEach { Log.d("${it.second}: ${it.first}") }
}
Output
Chai: Beverages
Chang: Beverages
Guaraná Fantástica: Beverages
Sasquatch Ale: Beverages
Steeleye Stout: Beverages
Côte de Blaye: Beverages
Chartreuse verte: Beverages
Ipoh Coffee: Beverages
Laughing Lumberjack Lager: Beverages
Outback Lager: Beverages
Rhönbräu Klosterbier: Beverages
Lakkalikööri: Beverages
Aniseed Syrup: Condiments
Chef Anton's Cajun Seasoning: Condiments
Chef Anton's Gumbo Mix: Condiments
Grandma's Boysenberry Spread: Condiments
Northwoods Cranberry Sauce: Condiments
Genen Shouyu: Condiments
Gula Malacca: Condiments
Sirop d'érable: Condiments
Vegie-spread: Condiments
Louisiana Fiery Hot Pepper Sauce: Condiments
Louisiana Hot Spiced Okra: Condiments
Original Frankfurter grüne Soße: Condiments
(No products): Vegetables
...
Contributors
- mythz (Demis Bellot)
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