Dev #194

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altavir merged 266 commits from dev into master 2021-01-20 17:32:32 +03:00
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@ -13,21 +13,79 @@ public annotation class KMathContext
*/ */
public interface Algebra<T> { public interface Algebra<T> {
/** /**
* Wraps raw string or variable. * Wraps a raw string to [T] object. This method is designed for three purposes:
*
* 1. Mathematical constants (`e`, `pi`).
* 2. Variables for expression-like contexts (`a`, `b`, `c`...).
* 3. Literals (`{1, 2}`, (`(3; 4)`)).
*
* In case if algebra can't parse the string, this method must throw [kotlin.IllegalStateException].
*
* @param value the raw string.
* @return an object.
*/ */
public fun symbol(value: String): T = error("Wrapping of '$value' is not supported in $this") public fun symbol(value: String): T = error("Wrapping of '$value' is not supported in $this")
/** /**
* Dynamically dispatches an unary operation with name [operation]. * Dynamically dispatches an unary operation with the certain name.
*
* This function must follow two properties:
*
* 1. In case if operation is not defined in the structure, the function throws [kotlin.IllegalStateException].
* 2. This function is symmetric with second `unaryOperation` overload:
* i.e. `unaryOperation(a)(b) == unaryOperation(a, b)`.
*
* @param operation the name of operation.
* @return an operation.
*/ */
public fun unaryOperation(operation: String): (arg: T) -> T = public fun unaryOperation(operation: String): (arg: T) -> T =
error("Unary operation $operation not defined in $this") error("Unary operation $operation not defined in $this")
/** /**
* Dynamically dispatches a binary operation with name [operation]. * Dynamically invokes an unary operation with the certain name.
*
* This function must follow two properties:
*
* 1. In case if operation is not defined in the structure, the function throws [kotlin.IllegalStateException].
* 2. This function is symmetric with second [unaryOperation] overload:
* i.e. `unaryOperation(a)(b) == unaryOperation(a, b)`.
*
* @param operation the name of operation.
* @param arg the argument of operation.
* @return a result of operation.
*/
public fun unaryOperation(operation: String, arg: T): T = unaryOperation(operation)(arg)
/**
* Dynamically dispatches a binary operation with the certain name.
*
* This function must follow two properties:
*
* 1. In case if operation is not defined in the structure, the function throws [kotlin.IllegalStateException].
* 2. This function is symmetric with second [binaryOperation] overload:
* i.e. `binaryOperation(a)(b, c) == binaryOperation(a, b, c)`.
*
* @param operation the name of operation.
* @return an operation.
*/ */
public fun binaryOperation(operation: String): (left: T, right: T) -> T = public fun binaryOperation(operation: String): (left: T, right: T) -> T =
error("Binary operation $operation not defined in $this") error("Binary operation $operation not defined in $this")
/**
* Dynamically invokes a binary operation with the certain name.
*
* This function must follow two properties:
*
* 1. In case if operation is not defined in the structure, the function throws [kotlin.IllegalStateException].
* 2. This function is symmetric with second [binaryOperation] overload:
* i.e. `binaryOperation(a)(b, c) == binaryOperation(a, b, c)`.
*
* @param operation the name of operation.
* @param left the first argument of operation.
* @param right the second argument of operation.
* @return a result of operation.
*/
public fun binaryOperation(operation: String, left: T, right: T): T = binaryOperation(operation)(left, right)
} }
/** /**
@ -37,33 +95,76 @@ public interface Algebra<T> {
*/ */
public interface NumericAlgebra<T> : Algebra<T> { public interface NumericAlgebra<T> : Algebra<T> {
/** /**
* Wraps a number. * Wraps a number to [T] object.
*
* @param value the number to wrap.
* @return an object.
*/ */
public fun number(value: Number): T public fun number(value: Number): T
/** /**
* Dynamically dispatches a binary operation with name [operation] where the left argument is [Number]. * Dynamically dispatches a binary operation with the certain name with numeric first argument.
*
* This function must follow two properties:
*
* 1. In case if operation is not defined in the structure, the function throws [kotlin.IllegalStateException].
* 2. This function is symmetric with the other [leftSideNumberOperation] overload:
* i.e. `leftSideNumberOperation(a)(b, c) == leftSideNumberOperation(a, b)`.
*
* @param operation the name of operation.
* @return an operation.
*/ */
public fun leftSideNumberOperation(operation: String): (left: Number, right: T) -> T = public fun leftSideNumberOperation(operation: String): (left: Number, right: T) -> T =
{ l, r -> binaryOperation(operation)(number(l), r) } { l, r -> binaryOperation(operation)(number(l), r) }
// /** /**
// * Dynamically calls a binary operation with name [operation] where the left argument is [Number]. * Dynamically invokes a binary operation with the certain name with numeric first argument.
// */ *
// public fun leftSideNumberOperation(operation: String, left: Number, right: T): T = * This function must follow two properties:
// leftSideNumberOperation(operation)(left, right) *
* 1. In case if operation is not defined in the structure, the function throws [kotlin.IllegalStateException].
* 2. This function is symmetric with second [leftSideNumberOperation] overload:
* i.e. `leftSideNumberOperation(a)(b, c) == leftSideNumberOperation(a, b, c)`.
*
* @param operation the name of operation.
* @param left the first argument of operation.
* @param right the second argument of operation.
* @return a result of operation.
*/
public fun leftSideNumberOperation(operation: String, left: Number, right: T): T =
leftSideNumberOperation(operation)(left, right)
/** /**
* Dynamically dispatches a binary operation with name [operation] where the right argument is [Number]. * Dynamically dispatches a binary operation with the certain name with numeric first argument.
*
* This function must follow two properties:
*
* 1. In case if operation is not defined in the structure, the function throws [kotlin.IllegalStateException].
* 2. This function is symmetric with the other [rightSideNumberOperation] overload:
* i.e. `rightSideNumberOperation(a)(b, c) == leftSideNumberOperation(a, b, c)`.
*
* @param operation the name of operation.
* @return an operation.
*/ */
public fun rightSideNumberOperation(operation: String): (left: T, right: Number) -> T = public fun rightSideNumberOperation(operation: String): (left: T, right: Number) -> T =
{ l, r -> binaryOperation(operation)(l, number(r)) } { l, r -> binaryOperation(operation)(l, number(r)) }
// /** /**
// * Dynamically calls a binary operation with name [operation] where the right argument is [Number]. * Dynamically invokes a binary operation with the certain name with numeric second argument.
// */ *
// public fun rightSideNumberOperation(operation: String, left: T, right: Number): T = * This function must follow two properties:
// rightSideNumberOperation(operation)(left, right) *
* 1. In case if operation is not defined in the structure, the function throws [kotlin.IllegalStateException].
* 2. This function is symmetric with the other [rightSideNumberOperation] overload:
* i.e. `rightSideNumberOperation(a)(b, c) == rightSideNumberOperation(a, b, c)`.
*
* @param operation the name of operation.
* @param left the first argument of operation.
* @param right the second argument of operation.
* @return a result of operation.
*/
public fun rightSideNumberOperation(operation: String, left: T, right: Number): T =
rightSideNumberOperation(operation)(left, right)
} }
/** /**
@ -160,13 +261,13 @@ public interface SpaceOperations<T> : Algebra<T> {
*/ */
public operator fun Number.times(b: T): T = b * this public operator fun Number.times(b: T): T = b * this
override fun unaryOperation(operation: String): (arg: T) -> T = when (operation) { public override fun unaryOperation(operation: String): (arg: T) -> T = when (operation) {
PLUS_OPERATION -> { arg -> arg } PLUS_OPERATION -> { arg -> arg }
MINUS_OPERATION -> { arg -> -arg } MINUS_OPERATION -> { arg -> -arg }
else -> super.unaryOperation(operation) else -> super.unaryOperation(operation)
} }
override fun binaryOperation(operation: String): (left: T, right: T) -> T = when (operation) { public override fun binaryOperation(operation: String): (left: T, right: T) -> T = when (operation) {
PLUS_OPERATION -> ::add PLUS_OPERATION -> ::add
MINUS_OPERATION -> { left, right -> left - right } MINUS_OPERATION -> { left, right -> left - right }
else -> super.binaryOperation(operation) else -> super.binaryOperation(operation)
@ -196,6 +297,11 @@ public interface Space<T> : SpaceOperations<T> {
* The neutral element of addition. * The neutral element of addition.
*/ */
public val zero: T public val zero: T
public override fun symbol(value: String): T = when (value) {
"zero" -> zero
else -> super.symbol(value)
}
} }
/** /**
@ -221,7 +327,7 @@ public interface RingOperations<T> : SpaceOperations<T> {
*/ */
public operator fun T.times(b: T): T = multiply(this, b) public operator fun T.times(b: T): T = multiply(this, b)
override fun binaryOperation(operation: String): (left: T, right: T) -> T = when (operation) { public override fun binaryOperation(operation: String): (left: T, right: T) -> T = when (operation) {
TIMES_OPERATION -> ::multiply TIMES_OPERATION -> ::multiply
else -> super.binaryOperation(operation) else -> super.binaryOperation(operation)
} }
@ -246,7 +352,12 @@ public interface Ring<T> : Space<T>, RingOperations<T>, NumericAlgebra<T> {
*/ */
public val one: T public val one: T
override fun number(value: Number): T = one * value.toDouble() public override fun number(value: Number): T = one * value.toDouble()
public override fun symbol(value: String): T = when (value) {
"one" -> one
else -> super<Space>.symbol(value)
}
/** /**
* Addition of element and scalar. * Addition of element and scalar.
@ -308,7 +419,7 @@ public interface FieldOperations<T> : RingOperations<T> {
*/ */
public operator fun T.div(b: T): T = divide(this, b) public operator fun T.div(b: T): T = divide(this, b)
override fun binaryOperation(operation: String): (left: T, right: T) -> T = when (operation) { public override fun binaryOperation(operation: String): (left: T, right: T) -> T = when (operation) {
DIV_OPERATION -> ::divide DIV_OPERATION -> ::divide
else -> super.binaryOperation(operation) else -> super.binaryOperation(operation)
} }