Refactored Expression tree API

This commit is contained in:
Alexander Nozik 2020-05-15 16:10:19 +03:00
parent 4a26c1080e
commit 1a869ace0e
4 changed files with 107 additions and 64 deletions

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@ -2,9 +2,8 @@ package scientifik.kmath.commons.expressions
import org.apache.commons.math3.analysis.differentiation.DerivativeStructure
import scientifik.kmath.expressions.Expression
import scientifik.kmath.expressions.ExpressionContext
import scientifik.kmath.expressions.ExpressionField
import scientifik.kmath.operations.ExtendedField
import scientifik.kmath.operations.Field
import kotlin.properties.ReadOnlyProperty
import kotlin.reflect.KProperty
@ -113,7 +112,7 @@ fun DiffExpression.derivative(name: String) = derivative(name to 1)
/**
* A context for [DiffExpression] (not to be confused with [DerivativeStructure])
*/
object DiffExpressionContext : ExpressionContext<Double>, Field<DiffExpression> {
object DiffExpressionContext : ExpressionField<Double, DiffExpression> {
override fun variable(name: String, default: Double?) =
DiffExpression { variable(name, default?.const()) }

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@ -1,5 +1,8 @@
package scientifik.kmath.expressions
import scientifik.kmath.operations.Field
import scientifik.kmath.operations.Space
/**
* An elementary function that could be invoked on a map of arguments
*/
@ -12,16 +15,97 @@ operator fun <T> Expression<T>.invoke(vararg pairs: Pair<String, T>): T = invoke
/**
* A context for expression construction
*/
interface ExpressionContext<T> {
interface ExpressionContext<T, E : Expression<T>> {
/**
* Introduce a variable into expression context
*/
fun variable(name: String, default: T? = null): Expression<T>
fun variable(name: String, default: T? = null): E
/**
* A constant expression which does not depend on arguments
*/
fun const(value: T): Expression<T>
fun const(value: T): E
fun produce(node: SyntaxTreeNode): E
}
interface ExpressionSpace<T, E : Expression<T>> : Space<E>, ExpressionContext<T, E> {
open fun produceSingular(value: String): E = variable(value)
open fun produceUnary(operation: String, value: E): E {
return when (operation) {
UnaryNode.PLUS_OPERATION -> value
UnaryNode.MINUS_OPERATION -> -value
else -> error("Unary operation $operation is not supported by $this")
}
}
open fun produceBinary(operation: String, left: E, right: E): E {
return when (operation) {
BinaryNode.PLUS_OPERATION -> left + right
BinaryNode.MINUS_OPERATION -> left - right
else -> error("Binary operation $operation is not supported by $this")
}
}
override fun produce(node: SyntaxTreeNode): E {
return when (node) {
is NumberNode -> error("Single number nodes are not supported")
is SingularNode -> produceSingular(node.value)
is UnaryNode -> produceUnary(node.operation, produce(node.value))
is BinaryNode -> {
when (node.operation) {
BinaryNode.TIMES_OPERATION -> {
if (node.left is NumberNode) {
return produce(node.right) * node.left.value
} else if (node.right is NumberNode) {
return produce(node.left) * node.right.value
}
}
BinaryNode.DIV_OPERATION -> {
if (node.right is NumberNode) {
return produce(node.left) / node.right.value
}
}
}
produceBinary(node.operation, produce(node.left), produce(node.right))
}
}
}
}
interface ExpressionField<T, E : Expression<T>> : Field<E>, ExpressionSpace<T, E> {
fun const(value: Double): E = one.times(value)
override fun produce(node: SyntaxTreeNode): E {
if (node is BinaryNode) {
when (node.operation) {
BinaryNode.PLUS_OPERATION -> {
if (node.left is NumberNode) {
return produce(node.right) + one * node.left.value
} else if (node.right is NumberNode) {
return produce(node.left) + one * node.right.value
}
}
BinaryNode.MINUS_OPERATION -> {
if (node.left is NumberNode) {
return one * node.left.value - produce(node.right)
} else if (node.right is NumberNode) {
return produce(node.left) - one * node.right.value
}
}
}
}
return super.produce(node)
}
override fun produceBinary(operation: String, left: E, right: E): E {
return when (operation) {
BinaryNode.TIMES_OPERATION -> left * right
BinaryNode.DIV_OPERATION -> left / right
else -> super.produceBinary(operation, left, right)
}
}
fun produce(node: SyntaxTreeNode): Expression<T>
}

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@ -4,20 +4,24 @@ sealed class SyntaxTreeNode
data class SingularNode(val value: String) : SyntaxTreeNode()
data class UnaryNode(val operation: String, val value: SyntaxTreeNode): SyntaxTreeNode(){
companion object{
data class NumberNode(val value: Number) : SyntaxTreeNode()
data class UnaryNode(val operation: String, val value: SyntaxTreeNode) : SyntaxTreeNode() {
companion object {
const val PLUS_OPERATION = "+"
const val MINUS_OPERATION = "-"
const val NOT_OPERATION = "!"
const val ABS_OPERATION = "abs"
const val SIN_OPERATION = "sin"
const val cos_OPERATION = "cos"
const val COS_OPERATION = "cos"
const val EXP_OPERATION = "exp"
const val LN_OPERATION = "ln"
//TODO add operations
}
}
data class BinaryNode(val operation: String, val left: SyntaxTreeNode, val right: SyntaxTreeNode): SyntaxTreeNode(){
companion object{
data class BinaryNode(val operation: String, val left: SyntaxTreeNode, val right: SyntaxTreeNode) : SyntaxTreeNode() {
companion object {
const val PLUS_OPERATION = "+"
const val MINUS_OPERATION = "-"
const val TIMES_OPERATION = "*"

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@ -40,12 +40,10 @@ internal class DivExpession<T>(val context: Field<T>, val expr: Expression<T>, v
open class FunctionalExpressionSpace<T>(
val space: Space<T>,
one: T
) : Space<Expression<T>>, ExpressionContext<T> {
) : Space<Expression<T>>, ExpressionSpace<T,Expression<T>> {
override val zero: Expression<T> = ConstantExpression(space.zero)
val one: Expression<T> = ConstantExpression(one)
override fun const(value: T): Expression<T> = ConstantExpression(value)
override fun variable(name: String, default: T?): Expression<T> = VariableExpression(name, default)
@ -60,46 +58,17 @@ open class FunctionalExpressionSpace<T>(
operator fun T.plus(arg: Expression<T>) = arg + this
operator fun T.minus(arg: Expression<T>) = arg - this
fun const(value: Double): Expression<T> = one.times(value)
open fun produceSingular(value: String): Expression<T> {
val numberValue = value.toDoubleOrNull()
return if (numberValue == null) {
variable(value)
} else {
const(numberValue)
}
}
open fun produceUnary(operation: String, value: Expression<T>): Expression<T> {
return when (operation) {
UnaryNode.PLUS_OPERATION -> value
UnaryNode.MINUS_OPERATION -> -value
else -> error("Unary operation $operation is not supported by $this")
}
}
open fun produceBinary(operation: String, left: Expression<T>, right: Expression<T>): Expression<T> {
return when (operation) {
BinaryNode.PLUS_OPERATION -> left + right
BinaryNode.MINUS_OPERATION -> left - right
else -> error("Binary operation $operation is not supported by $this")
}
}
override fun produce(node: SyntaxTreeNode): Expression<T> {
return when (node) {
is SingularNode -> produceSingular(node.value)
is UnaryNode -> produceUnary(node.operation, produce(node.value))
is BinaryNode -> produceBinary(node.operation, produce(node.left), produce(node.right))
}
}
}
open class FunctionalExpressionField<T>(
val field: Field<T>
) : Field<Expression<T>>, FunctionalExpressionSpace<T>(field, field.one) {
) : ExpressionField<T,Expression<T>>, FunctionalExpressionSpace<T>(field, field.one) {
override val one: Expression<T>
get() = const(this.field.one)
override fun const(value: Double): Expression<T> = const(field.run { one*value})
override fun multiply(a: Expression<T>, b: Expression<T>): Expression<T> = ProductExpression(field, a, b)
override fun divide(a: Expression<T>, b: Expression<T>): Expression<T> = DivExpession(field, a, b)
@ -109,17 +78,4 @@ open class FunctionalExpressionField<T>(
operator fun T.times(arg: Expression<T>) = arg * this
operator fun T.div(arg: Expression<T>) = arg / this
override fun produce(node: SyntaxTreeNode): Expression<T> {
//TODO bring together numeric and typed expressions
return super.produce(node)
}
override fun produceBinary(operation: String, left: Expression<T>, right: Expression<T>): Expression<T> {
return when (operation) {
BinaryNode.TIMES_OPERATION -> left * right
BinaryNode.DIV_OPERATION -> left / right
else -> super.produceBinary(operation, left, right)
}
}
}