Dev #127

Merged
altavir merged 214 commits from dev into master 2020-08-11 08:33:21 +03:00
6 changed files with 108 additions and 154 deletions
Showing only changes of commit 521ea8bddc - Show all commits

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@ -1,52 +0,0 @@
package scientifik.kmath.asm
import scientifik.kmath.asm.internal.AsmGenerator
import scientifik.kmath.ast.MST
import scientifik.kmath.ast.evaluate
import scientifik.kmath.expressions.Expression
import scientifik.kmath.operations.*
@PublishedApi
internal fun buildName(expression: AsmNode<*>, collision: Int = 0): String {
val name = "scientifik.kmath.expressions.generated.AsmCompiledExpression_${expression.hashCode()}_$collision"
try {
Class.forName(name)
} catch (ignored: ClassNotFoundException) {
return name
}
return buildName(expression, collision + 1)
}
@PublishedApi
internal inline fun <reified T> AsmNode<T>.compile(algebra: Algebra<T>): Expression<T> =
AsmGenerator(T::class.java, algebra, buildName(this), this).getInstance()
inline fun <reified T, A : NumericAlgebra<T>, E : AsmExpressionAlgebra<T, A>> A.asm(
expressionAlgebra: E,
block: E.() -> AsmNode<T>
): Expression<T> = expressionAlgebra.block().compile(expressionAlgebra.algebra)
inline fun <reified T, A : NumericAlgebra<T>, E : AsmExpressionAlgebra<T, A>> A.asm(
expressionAlgebra: E,
ast: MST
): Expression<T> = asm(expressionAlgebra) { evaluate(ast) }
inline fun <reified T, A> A.asmSpace(block: AsmExpressionSpace<T, A>.() -> AsmNode<T>): Expression<T> where A : NumericAlgebra<T>, A : Space<T> =
AsmExpressionSpace(this).let { it.block().compile(it.algebra) }
inline fun <reified T, A> A.asmSpace(ast: MST): Expression<T> where A : NumericAlgebra<T>, A : Space<T> =
asmSpace { evaluate(ast) }
inline fun <reified T, A> A.asmRing(block: AsmExpressionRing<T, A>.() -> AsmNode<T>): Expression<T> where A : NumericAlgebra<T>, A : Ring<T> =
AsmExpressionRing(this).let { it.block().compile(it.algebra) }
inline fun <reified T, A> A.asmRing(ast: MST): Expression<T> where A : NumericAlgebra<T>, A : Ring<T> =
asmRing { evaluate(ast) }
inline fun <reified T, A> A.asmField(block: AsmExpressionField<T, A>.() -> AsmNode<T>): Expression<T> where A : NumericAlgebra<T>, A : Field<T> =
AsmExpressionField(this).let { it.block().compile(it.algebra) }
inline fun <reified T, A> A.asmField(ast: MST): Expression<T> where A : NumericAlgebra<T>, A : Field<T> =
asmRing { evaluate(ast) }

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@ -1,6 +1,6 @@
package scientifik.kmath.asm
import scientifik.kmath.asm.internal.AsmGenerator
import scientifik.kmath.asm.internal.AsmBuilder
import scientifik.kmath.asm.internal.hasSpecific
import scientifik.kmath.asm.internal.optimize
import scientifik.kmath.asm.internal.tryInvokeSpecific
@ -9,11 +9,11 @@ import scientifik.kmath.expressions.ExpressionAlgebra
import scientifik.kmath.operations.*
/**
* A function declaration that could be compiled to [AsmGenerator].
* A function declaration that could be compiled to [AsmBuilder].
*
* @param T the type the stored function returns.
*/
abstract class AsmNode<T> internal constructor() {
abstract class AsmExpression<T> internal constructor() {
/**
* Tries to evaluate this function without its variables. This method is intended for optimization.
*
@ -24,18 +24,18 @@ abstract class AsmNode<T> internal constructor() {
/**
* Compiles this declaration.
*
* @param gen the target [AsmGenerator].
* @param gen the target [AsmBuilder].
*/
@PublishedApi
internal abstract fun compile(gen: AsmGenerator<T>)
internal abstract fun compile(gen: AsmBuilder<T>)
}
internal class AsmUnaryOperation<T>(private val context: Algebra<T>, private val name: String, expr: AsmNode<T>) :
AsmNode<T>() {
private val expr: AsmNode<T> = expr.optimize()
internal class AsmUnaryOperation<T>(private val context: Algebra<T>, private val name: String, expr: AsmExpression<T>) :
AsmExpression<T>() {
private val expr: AsmExpression<T> = expr.optimize()
override fun tryEvaluate(): T? = context { unaryOperation(name, expr.tryEvaluate() ?: return@context null) }
override fun compile(gen: AsmGenerator<T>) {
override fun compile(gen: AsmBuilder<T>) {
gen.loadAlgebra()
if (!hasSpecific(context, name, 1))
@ -47,11 +47,11 @@ internal class AsmUnaryOperation<T>(private val context: Algebra<T>, private val
return
gen.invokeAlgebraOperation(
owner = AsmGenerator.ALGEBRA_CLASS,
owner = AsmBuilder.ALGEBRA_CLASS,
method = "unaryOperation",
descriptor = "(L${AsmGenerator.STRING_CLASS};" +
"L${AsmGenerator.OBJECT_CLASS};)" +
"L${AsmGenerator.OBJECT_CLASS};"
descriptor = "(L${AsmBuilder.STRING_CLASS};" +
"L${AsmBuilder.OBJECT_CLASS};)" +
"L${AsmBuilder.OBJECT_CLASS};"
)
}
}
@ -59,11 +59,11 @@ internal class AsmUnaryOperation<T>(private val context: Algebra<T>, private val
internal class AsmBinaryOperation<T>(
private val context: Algebra<T>,
private val name: String,
first: AsmNode<T>,
second: AsmNode<T>
) : AsmNode<T>() {
private val first: AsmNode<T> = first.optimize()
private val second: AsmNode<T> = second.optimize()
first: AsmExpression<T>,
second: AsmExpression<T>
) : AsmExpression<T>() {
private val first: AsmExpression<T> = first.optimize()
private val second: AsmExpression<T> = second.optimize()
override fun tryEvaluate(): T? = context {
binaryOperation(
@ -73,7 +73,7 @@ internal class AsmBinaryOperation<T>(
)
}
override fun compile(gen: AsmGenerator<T>) {
override fun compile(gen: AsmBuilder<T>) {
gen.loadAlgebra()
if (!hasSpecific(context, name, 2))
@ -86,56 +86,56 @@ internal class AsmBinaryOperation<T>(
return
gen.invokeAlgebraOperation(
owner = AsmGenerator.ALGEBRA_CLASS,
owner = AsmBuilder.ALGEBRA_CLASS,
method = "binaryOperation",
descriptor = "(L${AsmGenerator.STRING_CLASS};" +
"L${AsmGenerator.OBJECT_CLASS};" +
"L${AsmGenerator.OBJECT_CLASS};)" +
"L${AsmGenerator.OBJECT_CLASS};"
descriptor = "(L${AsmBuilder.STRING_CLASS};" +
"L${AsmBuilder.OBJECT_CLASS};" +
"L${AsmBuilder.OBJECT_CLASS};)" +
"L${AsmBuilder.OBJECT_CLASS};"
)
}
}
internal class AsmVariableExpression<T>(private val name: String, private val default: T? = null) :
AsmNode<T>() {
override fun compile(gen: AsmGenerator<T>): Unit = gen.loadVariable(name, default)
AsmExpression<T>() {
override fun compile(gen: AsmBuilder<T>): Unit = gen.loadVariable(name, default)
}
internal class AsmConstantExpression<T>(private val value: T) :
AsmNode<T>() {
AsmExpression<T>() {
override fun tryEvaluate(): T = value
override fun compile(gen: AsmGenerator<T>): Unit = gen.loadTConstant(value)
override fun compile(gen: AsmBuilder<T>): Unit = gen.loadTConstant(value)
}
internal class AsmConstProductExpression<T>(
private val context: Space<T>,
expr: AsmNode<T>,
expr: AsmExpression<T>,
private val const: Number
) : AsmNode<T>() {
private val expr: AsmNode<T> = expr.optimize()
) : AsmExpression<T>() {
private val expr: AsmExpression<T> = expr.optimize()
override fun tryEvaluate(): T? = context { (expr.tryEvaluate() ?: return@context null) * const }
override fun compile(gen: AsmGenerator<T>) {
override fun compile(gen: AsmBuilder<T>) {
gen.loadAlgebra()
gen.loadNumberConstant(const)
expr.compile(gen)
gen.invokeAlgebraOperation(
owner = AsmGenerator.SPACE_OPERATIONS_CLASS,
owner = AsmBuilder.SPACE_OPERATIONS_CLASS,
method = "multiply",
descriptor = "(L${AsmGenerator.OBJECT_CLASS};" +
"L${AsmGenerator.NUMBER_CLASS};)" +
"L${AsmGenerator.OBJECT_CLASS};"
descriptor = "(L${AsmBuilder.OBJECT_CLASS};" +
"L${AsmBuilder.NUMBER_CLASS};)" +
"L${AsmBuilder.OBJECT_CLASS};"
)
}
}
internal class AsmNumberExpression<T>(private val context: NumericAlgebra<T>, private val value: Number) :
AsmNode<T>() {
AsmExpression<T>() {
override fun tryEvaluate(): T? = context.number(value)
override fun compile(gen: AsmGenerator<T>): Unit = gen.loadNumberConstant(value)
override fun compile(gen: AsmBuilder<T>): Unit = gen.loadNumberConstant(value)
}
internal abstract class FunctionalCompiledExpression<T> internal constructor(
@ -146,10 +146,10 @@ internal abstract class FunctionalCompiledExpression<T> internal constructor(
}
/**
* A context class for [AsmNode] construction.
* A context class for [AsmExpression] construction.
*/
interface AsmExpressionAlgebra<T, A : NumericAlgebra<T>> : NumericAlgebra<AsmNode<T>>,
ExpressionAlgebra<T, AsmNode<T>> {
interface AsmExpressionAlgebra<T, A : NumericAlgebra<T>> : NumericAlgebra<AsmExpression<T>>,
ExpressionAlgebra<T, AsmExpression<T>> {
/**
* The algebra to provide for AsmExpressions built.
*/
@ -158,108 +158,108 @@ interface AsmExpressionAlgebra<T, A : NumericAlgebra<T>> : NumericAlgebra<AsmNod
/**
* Builds an AsmExpression to wrap a number.
*/
override fun number(value: Number): AsmNode<T> = AsmNumberExpression(algebra, value)
override fun number(value: Number): AsmExpression<T> = AsmNumberExpression(algebra, value)
/**
* Builds an AsmExpression of constant expression which does not depend on arguments.
*/
override fun const(value: T): AsmNode<T> = AsmConstantExpression(value)
override fun const(value: T): AsmExpression<T> = AsmConstantExpression(value)
/**
* Builds an AsmExpression to access a variable.
*/
override fun variable(name: String, default: T?): AsmNode<T> = AsmVariableExpression(name, default)
override fun variable(name: String, default: T?): AsmExpression<T> = AsmVariableExpression(name, default)
/**
* Builds an AsmExpression of dynamic call of binary operation [operation] on [left] and [right].
*/
override fun binaryOperation(operation: String, left: AsmNode<T>, right: AsmNode<T>): AsmNode<T> =
override fun binaryOperation(operation: String, left: AsmExpression<T>, right: AsmExpression<T>): AsmExpression<T> =
AsmBinaryOperation(algebra, operation, left, right)
/**
* Builds an AsmExpression of dynamic call of unary operation with name [operation] on [arg].
*/
override fun unaryOperation(operation: String, arg: AsmNode<T>): AsmNode<T> =
override fun unaryOperation(operation: String, arg: AsmExpression<T>): AsmExpression<T> =
AsmUnaryOperation(algebra, operation, arg)
}
/**
* A context class for [AsmNode] construction for [Space] algebras.
* A context class for [AsmExpression] construction for [Space] algebras.
*/
open class AsmExpressionSpace<T, A>(override val algebra: A) : AsmExpressionAlgebra<T, A>,
Space<AsmNode<T>> where A : Space<T>, A : NumericAlgebra<T> {
override val zero: AsmNode<T>
Space<AsmExpression<T>> where A : Space<T>, A : NumericAlgebra<T> {
override val zero: AsmExpression<T>
get() = const(algebra.zero)
/**
* Builds an AsmExpression of addition of two another expressions.
*/
override fun add(a: AsmNode<T>, b: AsmNode<T>): AsmNode<T> =
override fun add(a: AsmExpression<T>, b: AsmExpression<T>): AsmExpression<T> =
AsmBinaryOperation(algebra, SpaceOperations.PLUS_OPERATION, a, b)
/**
* Builds an AsmExpression of multiplication of expression by number.
*/
override fun multiply(a: AsmNode<T>, k: Number): AsmNode<T> = AsmConstProductExpression(algebra, a, k)
override fun multiply(a: AsmExpression<T>, k: Number): AsmExpression<T> = AsmConstProductExpression(algebra, a, k)
operator fun AsmNode<T>.plus(arg: T): AsmNode<T> = this + const(arg)
operator fun AsmNode<T>.minus(arg: T): AsmNode<T> = this - const(arg)
operator fun T.plus(arg: AsmNode<T>): AsmNode<T> = arg + this
operator fun T.minus(arg: AsmNode<T>): AsmNode<T> = arg - this
operator fun AsmExpression<T>.plus(arg: T): AsmExpression<T> = this + const(arg)
operator fun AsmExpression<T>.minus(arg: T): AsmExpression<T> = this - const(arg)
operator fun T.plus(arg: AsmExpression<T>): AsmExpression<T> = arg + this
operator fun T.minus(arg: AsmExpression<T>): AsmExpression<T> = arg - this
override fun unaryOperation(operation: String, arg: AsmNode<T>): AsmNode<T> =
override fun unaryOperation(operation: String, arg: AsmExpression<T>): AsmExpression<T> =
super<AsmExpressionAlgebra>.unaryOperation(operation, arg)
override fun binaryOperation(operation: String, left: AsmNode<T>, right: AsmNode<T>): AsmNode<T> =
override fun binaryOperation(operation: String, left: AsmExpression<T>, right: AsmExpression<T>): AsmExpression<T> =
super<AsmExpressionAlgebra>.binaryOperation(operation, left, right)
}
/**
* A context class for [AsmNode] construction for [Ring] algebras.
* A context class for [AsmExpression] construction for [Ring] algebras.
*/
open class AsmExpressionRing<T, A>(override val algebra: A) : AsmExpressionSpace<T, A>(algebra),
Ring<AsmNode<T>> where A : Ring<T>, A : NumericAlgebra<T> {
override val one: AsmNode<T>
Ring<AsmExpression<T>> where A : Ring<T>, A : NumericAlgebra<T> {
override val one: AsmExpression<T>
get() = const(algebra.one)
/**
* Builds an AsmExpression of multiplication of two expressions.
*/
override fun multiply(a: AsmNode<T>, b: AsmNode<T>): AsmNode<T> =
override fun multiply(a: AsmExpression<T>, b: AsmExpression<T>): AsmExpression<T> =
AsmBinaryOperation(algebra, RingOperations.TIMES_OPERATION, a, b)
operator fun AsmNode<T>.times(arg: T): AsmNode<T> = this * const(arg)
operator fun T.times(arg: AsmNode<T>): AsmNode<T> = arg * this
operator fun AsmExpression<T>.times(arg: T): AsmExpression<T> = this * const(arg)
operator fun T.times(arg: AsmExpression<T>): AsmExpression<T> = arg * this
override fun unaryOperation(operation: String, arg: AsmNode<T>): AsmNode<T> =
override fun unaryOperation(operation: String, arg: AsmExpression<T>): AsmExpression<T> =
super<AsmExpressionSpace>.unaryOperation(operation, arg)
override fun binaryOperation(operation: String, left: AsmNode<T>, right: AsmNode<T>): AsmNode<T> =
override fun binaryOperation(operation: String, left: AsmExpression<T>, right: AsmExpression<T>): AsmExpression<T> =
super<AsmExpressionSpace>.binaryOperation(operation, left, right)
override fun number(value: Number): AsmNode<T> = super<AsmExpressionSpace>.number(value)
override fun number(value: Number): AsmExpression<T> = super<AsmExpressionSpace>.number(value)
}
/**
* A context class for [AsmNode] construction for [Field] algebras.
* A context class for [AsmExpression] construction for [Field] algebras.
*/
open class AsmExpressionField<T, A>(override val algebra: A) :
AsmExpressionRing<T, A>(algebra),
Field<AsmNode<T>> where A : Field<T>, A : NumericAlgebra<T> {
Field<AsmExpression<T>> where A : Field<T>, A : NumericAlgebra<T> {
/**
* Builds an AsmExpression of division an expression by another one.
*/
override fun divide(a: AsmNode<T>, b: AsmNode<T>): AsmNode<T> =
override fun divide(a: AsmExpression<T>, b: AsmExpression<T>): AsmExpression<T> =
AsmBinaryOperation(algebra, FieldOperations.DIV_OPERATION, a, b)
operator fun AsmNode<T>.div(arg: T): AsmNode<T> = this / const(arg)
operator fun T.div(arg: AsmNode<T>): AsmNode<T> = arg / this
operator fun AsmExpression<T>.div(arg: T): AsmExpression<T> = this / const(arg)
operator fun T.div(arg: AsmExpression<T>): AsmExpression<T> = arg / this
override fun unaryOperation(operation: String, arg: AsmNode<T>): AsmNode<T> =
override fun unaryOperation(operation: String, arg: AsmExpression<T>): AsmExpression<T> =
super<AsmExpressionRing>.unaryOperation(operation, arg)
override fun binaryOperation(operation: String, left: AsmNode<T>, right: AsmNode<T>): AsmNode<T> =
override fun binaryOperation(operation: String, left: AsmExpression<T>, right: AsmExpression<T>): AsmExpression<T> =
super<AsmExpressionRing>.binaryOperation(operation, left, right)
override fun number(value: Number): AsmNode<T> = super<AsmExpressionRing>.number(value)
override fun number(value: Number): AsmExpression<T> = super<AsmExpressionRing>.number(value)
}

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@ -1,13 +1,12 @@
package scientifik.kmath.asm
import scientifik.kmath.asm.internal.AsmBuilder
import scientifik.kmath.ast.MST
import scientifik.kmath.ast.evaluate
import scientifik.kmath.expressions.Expression
import scientifik.kmath.operations.Field
import scientifik.kmath.operations.NumericAlgebra
import scientifik.kmath.operations.Ring
import scientifik.kmath.operations.Space
import scientifik.kmath.operations.*
@PublishedApi
internal fun buildName(expression: AsmExpression<*>, collision: Int = 0): String {
val name = "scientifik.kmath.expressions.generated.AsmCompiledExpression_${expression.hashCode()}_$collision"
@ -20,28 +19,35 @@ internal fun buildName(expression: AsmExpression<*>, collision: Int = 0): String
return buildName(expression, collision + 1)
}
inline fun <reified T : Any, A : NumericAlgebra<T>, E : AsmExpressionAlgebra<T, A>> A.asm(
@PublishedApi
internal inline fun <reified T> AsmExpression<T>.compile(algebra: Algebra<T>): Expression<T> =
AsmBuilder(T::class.java, algebra, buildName(this), this).getInstance()
inline fun <reified T, A : NumericAlgebra<T>, E : AsmExpressionAlgebra<T, A>> A.asm(
expressionAlgebra: E,
block: E.() -> AsmExpression<T>
): Expression<T> = expressionAlgebra.block()
): Expression<T> = expressionAlgebra.block().compile(expressionAlgebra.algebra)
inline fun <reified T : Any> NumericAlgebra<T>.asm(ast: MST): Expression<T> =
AsmExpressionAlgebra(T::class, this).evaluate(ast)
inline fun <reified T, A : NumericAlgebra<T>, E : AsmExpressionAlgebra<T, A>> A.asm(
expressionAlgebra: E,
ast: MST
): Expression<T> = asm(expressionAlgebra) { evaluate(ast) }
inline fun <reified T : Any, A> A.asmSpace(block: AsmExpressionSpace<T, A>.() -> AsmExpression<T>): Expression<T> where A : NumericAlgebra<T>, A : Space<T> =
AsmExpressionSpace<T, A>(T::class, this).block()
inline fun <reified T, A> A.asmSpace(block: AsmExpressionSpace<T, A>.() -> AsmExpression<T>): Expression<T> where A : NumericAlgebra<T>, A : Space<T> =
AsmExpressionSpace(this).let { it.block().compile(it.algebra) }
inline fun <reified T : Any, A> A.asmSpace(ast: MST): Expression<T> where A : NumericAlgebra<T>, A : Space<T> =
inline fun <reified T, A> A.asmSpace(ast: MST): Expression<T> where A : NumericAlgebra<T>, A : Space<T> =
asmSpace { evaluate(ast) }
inline fun <reified T : Any, A> A.asmRing(block: AsmExpressionRing<T, A>.() -> AsmExpression<T>): Expression<T> where A : NumericAlgebra<T>, A : Ring<T> =
AsmExpressionRing(T::class, this).block()
inline fun <reified T, A> A.asmRing(block: AsmExpressionRing<T, A>.() -> AsmExpression<T>): Expression<T> where A : NumericAlgebra<T>, A : Ring<T> =
AsmExpressionRing(this).let { it.block().compile(it.algebra) }
inline fun <reified T : Any, A> A.asmRing(ast: MST): Expression<T> where A : NumericAlgebra<T>, A : Ring<T> =
inline fun <reified T, A> A.asmRing(ast: MST): Expression<T> where A : NumericAlgebra<T>, A : Ring<T> =
asmRing { evaluate(ast) }
inline fun <reified T : Any, A> A.asmField(block: AsmExpressionField<T, A>.() -> AsmExpression<T>): Expression<T> where A : NumericAlgebra<T>, A : Field<T> =
AsmExpressionField(T::class, this).block()
inline fun <reified T, A> A.asmField(block: AsmExpressionField<T, A>.() -> AsmExpression<T>): Expression<T> where A : NumericAlgebra<T>, A : Field<T> =
AsmExpressionField(this).let { it.block().compile(it.algebra) }
inline fun <reified T : Any, A> A.asmField(ast: MST): Expression<T> where A : NumericAlgebra<T>, A : Field<T> =
inline fun <reified T, A> A.asmField(ast: MST): Expression<T> where A : NumericAlgebra<T>, A : Field<T> =
asmRing { evaluate(ast) }

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@ -4,13 +4,13 @@ import org.objectweb.asm.ClassWriter
import org.objectweb.asm.Label
import org.objectweb.asm.MethodVisitor
import org.objectweb.asm.Opcodes
import scientifik.kmath.asm.AsmNode
import scientifik.kmath.asm.AsmExpression
import scientifik.kmath.asm.FunctionalCompiledExpression
import scientifik.kmath.asm.internal.AsmGenerator.ClassLoader
import scientifik.kmath.asm.internal.AsmBuilder.ClassLoader
import scientifik.kmath.operations.Algebra
/**
* ASM Generator is a structure that abstracts building a class that unwraps [AsmNode] to plain Java expression.
* ASM Builder is a structure that abstracts building a class that unwraps [AsmExpression] to plain Java expression.
* This class uses [ClassLoader] for loading the generated class, then it is able to instantiate the new class.
*
* @param T the type of AsmExpression to unwrap.
@ -18,11 +18,11 @@ import scientifik.kmath.operations.Algebra
* @param className the unique class name of new loaded class.
*/
@PublishedApi
internal class AsmGenerator<T> @PublishedApi internal constructor(
internal class AsmBuilder<T> @PublishedApi internal constructor(
private val classOfT: Class<*>,
private val algebra: Algebra<T>,
private val className: String,
private val root: AsmNode<T>
private val root: AsmExpression<T>
) {
private class ClassLoader(parent: java.lang.ClassLoader) : java.lang.ClassLoader(parent) {
internal fun defineClass(name: String?, b: ByteArray): Class<*> = defineClass(name, b, 0, b.size)
@ -112,7 +112,7 @@ internal class AsmGenerator<T> @PublishedApi internal constructor(
visitCode()
val l0 = Label()
visitLabel(l0)
root.compile(this@AsmGenerator)
root.compile(this@AsmBuilder)
visitReturnObject()
val l1 = Label()
visitLabel(l1)

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@ -2,7 +2,7 @@ package scientifik.kmath.asm.internal
import org.objectweb.asm.Opcodes
import scientifik.kmath.asm.AsmConstantExpression
import scientifik.kmath.asm.AsmNode
import scientifik.kmath.asm.AsmExpression
import scientifik.kmath.operations.Algebra
private val methodNameAdapters: Map<String, String> = mapOf("+" to "add", "*" to "multiply", "/" to "divide")
@ -16,7 +16,7 @@ internal fun <T> hasSpecific(context: Algebra<T>, name: String, arity: Int): Boo
return true
}
internal fun <T> AsmGenerator<T>.tryInvokeSpecific(context: Algebra<T>, name: String, arity: Int): Boolean {
internal fun <T> AsmBuilder<T>.tryInvokeSpecific(context: Algebra<T>, name: String, arity: Int): Boolean {
val aName = methodNameAdapters[name] ?: name
context::class.java.methods.find { it.name == aName && it.parameters.size == arity }
@ -26,9 +26,9 @@ internal fun <T> AsmGenerator<T>.tryInvokeSpecific(context: Algebra<T>, name: St
val sig = buildString {
append('(')
repeat(arity) { append("L${AsmGenerator.OBJECT_CLASS};") }
repeat(arity) { append("L${AsmBuilder.OBJECT_CLASS};") }
append(')')
append("L${AsmGenerator.OBJECT_CLASS};")
append("L${AsmBuilder.OBJECT_CLASS};")
}
invokeAlgebraOperation(
@ -43,7 +43,7 @@ internal fun <T> AsmGenerator<T>.tryInvokeSpecific(context: Algebra<T>, name: St
}
@PublishedApi
internal fun <T> AsmNode<T>.optimize(): AsmNode<T> {
internal fun <T> AsmExpression<T>.optimize(): AsmExpression<T> {
val a = tryEvaluate()
return if (a == null) this else AsmConstantExpression(a)
}