A general idea of context-oriented approach in doc

2018-12-26 12:56:43 +03:00 · 2018-12-26 12:56:43 +03:00 · db37c19ed0
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-# Context-oriented programming
+# Context-oriented mathematics

-One of problems   
+## The problem
+A known problem for implementing mathematics in statically-typed languages (and not only in them) is that different 
+sets of mathematical operation could be defined on the same mathematical objects. Sometimes there is not single way to
+treat some operations like basic arithmetic operations on Java/Kotlin `Number`. Sometimes there are different ways to do
+the same thing like Euclidean and elliptic geometry vector spaces defined over real vectors. Another problem arises when 
+one wants to add some kind of behavior to existing entity. In dynamic languages those problems are usually solved
+by adding dynamic context-specific behaviors in runtime, but this solution has a lot of drawbacks.
+
+## Context-oriented approach
+One of possible solutions to those problems is to completely separate object numerical representations from behaviors.
+In terms of kotlin it means to have separate class to represent some entity without any operations, 
+for example a complex number:
+
+```kotlin
+data class Complex(val re: Double, val im: Double)
+```
+And a separate class or singleton, representing operation on those complex numbers:
+```kotlin
+object: ComplexOperations{
+    operator fun Complex.plus(other: Complex) = Complex(re + other.re, im + other.im)
+    operator fun Complex.minus(other: Complex) = Complex(re - other.re, im - other.im)
+}
+```
+
+In Java, application of such external operations could be very cumbersome, but Kotlin has a unique feature which allows
+to treat this situation: blocks with receivers. So in kotlin, operation on complex number could beimplemented as:
+```kotlin
+with(ComplexOperations){c1 + c2 - c3}
+```
+Kotlin also allows to create functions with receivers:
+```kotlin
+fun ComplexOperations.doSomethingWithComplex(c1: Complex, c2: Complex, c3: Complex) = c1 + c2 - c3
+
+ComplexOperations.doComethingWithComplex(c1,c2,c3)
+```
+
+In fact, whole parts of proram could run in a mathematical context or even multiple nested contexts. 
+
+In `kmath` contexts are responsible not only for operations, but also for raw object creation and advanced features.
+
+## Other possibilities
+
+An obvious candidate to get more or less the same functionality is type-class feature. It allows to bind a behavior to
+a specific type without modifying the type itself. On a plus side, type-classes do not require explicit context 
+declaration, so the code looks cleaner. On the minus side, if there are different sets of behaviors for the same types,
+it is impossible to combine them in the single module. Also, unlike type-classes, context could have parameters or even
+state. For example in `kmath`, sizes and strides for `NDElement` or `Matrix` could be moved to context to optimize 
+performance in case of large amount of structures.