Move asm dependency to implementation configuration; rename many ASM API classes, make AsmCompiledExpression implement functional Expression, fix typos, encapsulate AsmGenerationContext

2020-06-07 19:04:39 +07:00 · 2020-06-07 19:04:39 +07:00 · 6ac0297530
commit 6ac0297530
parent a2e33bf6d8
5 changed files with 129 additions and 147 deletions
--- a/kmath-asm/build.gradle.kts
+++ b/kmath-asm/build.gradle.kts
@ -4,6 +4,6 @@ plugins {

 dependencies {
    api(project(path = ":kmath-core"))
-    api("org.ow2.asm:asm:8.0.1")
-    api("org.ow2.asm:asm-commons:8.0.1")
+    implementation("org.ow2.asm:asm:8.0.1")
+    implementation("org.ow2.asm:asm-commons:8.0.1")
 }
--- a/kmath-asm/src/main/kotlin/scientifik/kmath/expressions/AsmExpressions.kt
+++ b/kmath-asm/src/main/kotlin/scientifik/kmath/expressions/AsmExpressions.kt
@ -8,11 +8,30 @@ import scientifik.kmath.operations.Algebra
 import scientifik.kmath.operations.Field
 import scientifik.kmath.operations.Space

-abstract class AsmCompiled<T>(@JvmField val algebra: Algebra<T>, @JvmField val constants: MutableList<out Any>) {
-    abstract fun evaluate(arguments: Map<String, T>): T
+abstract class AsmCompiledExpression<T> internal constructor(
+    @JvmField val algebra: Algebra<T>,
+    @JvmField val constants: MutableList<out Any>
+) : Expression<T> {
+    abstract override fun invoke(arguments: Map<String, T>): T
 }

-class AsmGenerationContext<T>(classOfT: Class<*>, private val algebra: Algebra<T>, private val className: String) {
+internal fun buildName(expression: AsmExpression<*>, 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)
+}
+
+class AsmGenerationContext<T>(
+    classOfT: Class<*>,
+    private val algebra: Algebra<T>,
+    private val className: String
+) {
    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)
    }
@ -26,30 +45,23 @@ class AsmGenerationContext<T>(classOfT: Class<*>, private val algebra: Algebra<T
    private val T_CLASS: String = classOfT.name.replace('.', '/')

    private val slashesClassName: String = className.replace(oldChar = '.', newChar = '/')
-    private val evaluateThisVar: Int = 0
-    private val evaluateArgumentsVar: Int = 1
+    private val invokeThisVar: Int = 0
+    private val invokeArgumentsVar: Int = 1
    private var maxStack: Int = 0
-    private lateinit var constants: MutableList<Any>
-    private lateinit var asmCompiledClassWriter: ClassWriter
-    private lateinit var evaluateMethodVisitor: MethodVisitor
-    private lateinit var evaluateL0: Label
-    private lateinit var evaluateL1: Label
+    private val constants: MutableList<Any> = mutableListOf()
+    private val asmCompiledClassWriter: ClassWriter = ClassWriter(0)
+    private val invokeMethodVisitor: MethodVisitor
+    private val invokeL0: Label
+    private lateinit var invokeL1: Label
+    private var generatedInstance: AsmCompiledExpression<T>? = null

    init {
-        start()
-    }
-
-    fun start() {
-        constants = mutableListOf()
-        asmCompiledClassWriter = ClassWriter(0)
-        maxStack = 0
-
        asmCompiledClassWriter.visit(
            V1_8,
            ACC_PUBLIC or ACC_FINAL or ACC_SUPER,
            slashesClassName,
-            "L$ASM_COMPILED_CLASS<L$T_CLASS;>;",
-            ASM_COMPILED_CLASS,
+            "L$ASM_COMPILED_EXPRESSION_CLASS<L$T_CLASS;>;",
+            ASM_COMPILED_EXPRESSION_CLASS,
            arrayOf()
        )

@ -66,7 +78,7 @@ class AsmGenerationContext<T>(classOfT: Class<*>, private val algebra: Algebra<T

                visitMethodInsn(
                    INVOKESPECIAL,
-                    ASM_COMPILED_CLASS,
+                    ASM_COMPILED_EXPRESSION_CLASS,
                    "<init>",
                    "(L$ALGEBRA_CLASS;L$LIST_CLASS;)V",
                    false
@ -93,45 +105,48 @@ class AsmGenerationContext<T>(classOfT: Class<*>, private val algebra: Algebra<T
                visitEnd()
            }

-            evaluateMethodVisitor = visitMethod(
+            invokeMethodVisitor = visitMethod(
                ACC_PUBLIC or ACC_FINAL,
-                "evaluate",
+                "invoke",
                "(L$MAP_CLASS;)L$T_CLASS;",
                "(L$MAP_CLASS<L$STRING_CLASS;+L$T_CLASS;>;)L$T_CLASS;",
                null
            )

-            evaluateMethodVisitor.run {
+            invokeMethodVisitor.run {
                visitCode()
-                evaluateL0 = Label()
-                visitLabel(evaluateL0)
+                invokeL0 = Label()
+                visitLabel(invokeL0)
            }
        }
    }

+    @PublishedApi
    @Suppress("UNCHECKED_CAST")
-    fun generate(): AsmCompiled<T> {
-        evaluateMethodVisitor.run {
+    internal fun generate(): AsmCompiledExpression<T> {
+        generatedInstance?.let { return it }
+
+        invokeMethodVisitor.run {
            visitInsn(ARETURN)
-            evaluateL1 = Label()
-            visitLabel(evaluateL1)
+            invokeL1 = Label()
+            visitLabel(invokeL1)

            visitLocalVariable(
                "this",
                "L$slashesClassName;",
                T_CLASS,
-                evaluateL0,
-                evaluateL1,
-                evaluateThisVar
+                invokeL0,
+                invokeL1,
+                invokeThisVar
            )

            visitLocalVariable(
                "arguments",
                "L$MAP_CLASS;",
                "L$MAP_CLASS<L$STRING_CLASS;+L$T_CLASS;>;",
-                evaluateL0,
-                evaluateL1,
-                evaluateArgumentsVar
+                invokeL0,
+                invokeL1,
+                invokeArgumentsVar
            )

            visitMaxs(maxStack + 1, 2)
@ -140,7 +155,7 @@ class AsmGenerationContext<T>(classOfT: Class<*>, private val algebra: Algebra<T

        asmCompiledClassWriter.visitMethod(
            ACC_PUBLIC or ACC_FINAL or ACC_BRIDGE or ACC_SYNTHETIC,
-            "evaluate",
+            "invoke",
            "(L$MAP_CLASS;)L$OBJECT_CLASS;",
            null,
            null
@ -151,7 +166,7 @@ class AsmGenerationContext<T>(classOfT: Class<*>, private val algebra: Algebra<T
            visitLabel(l0)
            visitVarInsn(ALOAD, 0)
            visitVarInsn(ALOAD, 1)
-            visitMethodInsn(INVOKEVIRTUAL, slashesClassName, "evaluate", "(L$MAP_CLASS;)L$T_CLASS;", false)
+            visitMethodInsn(INVOKEVIRTUAL, slashesClassName, "invoke", "(L$MAP_CLASS;)L$T_CLASS;", false)
            visitInsn(ARETURN)
            val l1 = Label()
            visitLabel(l1)
@ -171,31 +186,34 @@ class AsmGenerationContext<T>(classOfT: Class<*>, private val algebra: Algebra<T

        asmCompiledClassWriter.visitEnd()

-        return classLoader
+        val new = classLoader
            .defineClass(className, asmCompiledClassWriter.toByteArray())
            .constructors
            .first()
-            .newInstance(algebra, constants) as AsmCompiled<T>
+            .newInstance(algebra, constants) as AsmCompiledExpression<T>
+
+        generatedInstance = new
+        return new
    }

-    fun visitLoadFromConstants(value: T) = visitLoadAnyFromConstants(value as Any, T_CLASS)
+    internal fun visitLoadFromConstants(value: T) = visitLoadAnyFromConstants(value as Any, T_CLASS)

-    fun visitLoadAnyFromConstants(value: Any, type: String) {
+    private fun visitLoadAnyFromConstants(value: Any, type: String) {
        val idx = if (value in constants) constants.indexOf(value) else constants.apply { add(value) }.lastIndex
        maxStack++

-        evaluateMethodVisitor.run {
+        invokeMethodVisitor.run {
            visitLoadThis()
            visitFieldInsn(GETFIELD, slashesClassName, "constants", "L$LIST_CLASS;")
            visitLdcOrIConstInsn(idx)
            visitMethodInsn(INVOKEINTERFACE, LIST_CLASS, "get", "(I)L$OBJECT_CLASS;", true)
-            evaluateMethodVisitor.visitTypeInsn(CHECKCAST, type)
+            invokeMethodVisitor.visitTypeInsn(CHECKCAST, type)
        }
    }

-    private fun visitLoadThis(): Unit = evaluateMethodVisitor.visitVarInsn(ALOAD, evaluateThisVar)
+    private fun visitLoadThis(): Unit = invokeMethodVisitor.visitVarInsn(ALOAD, invokeThisVar)

-    fun visitNumberConstant(value: Number) {
+    internal fun visitNumberConstant(value: Number) {
        maxStack++
        val clazz = value.javaClass
        val c = clazz.name.replace('.', '/')
@ -204,22 +222,22 @@ class AsmGenerationContext<T>(classOfT: Class<*>, private val algebra: Algebra<T

        if (sigLetter != null) {
            when (value) {
-                is Int -> evaluateMethodVisitor.visitLdcOrIConstInsn(value)
-                is Double -> evaluateMethodVisitor.visitLdcOrDConstInsn(value)
-                is Float -> evaluateMethodVisitor.visitLdcOrFConstInsn(value)
-                else -> evaluateMethodVisitor.visitLdcInsn(value)
+                is Int -> invokeMethodVisitor.visitLdcOrIConstInsn(value)
+                is Double -> invokeMethodVisitor.visitLdcOrDConstInsn(value)
+                is Float -> invokeMethodVisitor.visitLdcOrFConstInsn(value)
+                else -> invokeMethodVisitor.visitLdcInsn(value)
            }

-            evaluateMethodVisitor.visitMethodInsn(INVOKESTATIC, c, "valueOf", "($sigLetter)L${c};", false)
+            invokeMethodVisitor.visitMethodInsn(INVOKESTATIC, c, "valueOf", "($sigLetter)L${c};", false)
            return
        }

        visitLoadAnyFromConstants(value, c)
    }

-    fun visitLoadFromVariables(name: String, defaultValue: T? = null) = evaluateMethodVisitor.run {
+    internal fun visitLoadFromVariables(name: String, defaultValue: T? = null) = invokeMethodVisitor.run {
        maxStack += 2
-        visitVarInsn(ALOAD, evaluateArgumentsVar)
+        visitVarInsn(ALOAD, invokeArgumentsVar)

        if (defaultValue != null) {
            visitLdcInsn(name)
@ -242,26 +260,26 @@ class AsmGenerationContext<T>(classOfT: Class<*>, private val algebra: Algebra<T
        visitCastToT()
    }

-    fun visitLoadAlgebra() {
-        evaluateMethodVisitor.visitVarInsn(ALOAD, evaluateThisVar)
+    internal fun visitLoadAlgebra() {
+        invokeMethodVisitor.visitVarInsn(ALOAD, invokeThisVar)

-        evaluateMethodVisitor.visitFieldInsn(
+        invokeMethodVisitor.visitFieldInsn(
            GETFIELD,
-            ASM_COMPILED_CLASS, "algebra", "L$ALGEBRA_CLASS;"
+            ASM_COMPILED_EXPRESSION_CLASS, "algebra", "L$ALGEBRA_CLASS;"
        )

-        evaluateMethodVisitor.visitTypeInsn(CHECKCAST, T_ALGEBRA_CLASS)
+        invokeMethodVisitor.visitTypeInsn(CHECKCAST, T_ALGEBRA_CLASS)
    }

-    fun visitAlgebraOperation(owner: String, method: String, descriptor: String) {
+    internal fun visitAlgebraOperation(owner: String, method: String, descriptor: String) {
        maxStack++
-        evaluateMethodVisitor.visitMethodInsn(INVOKEINTERFACE, owner, method, descriptor, true)
+        invokeMethodVisitor.visitMethodInsn(INVOKEINTERFACE, owner, method, descriptor, true)
        visitCastToT()
    }

-    private fun visitCastToT(): Unit = evaluateMethodVisitor.visitTypeInsn(CHECKCAST, T_CLASS)
+    private fun visitCastToT(): Unit = invokeMethodVisitor.visitTypeInsn(CHECKCAST, T_CLASS)

-    companion object {
+    internal companion object {
        private val SIGNATURE_LETTERS = mapOf(
            java.lang.Byte::class.java to "B",
            java.lang.Short::class.java to "S",
@ -271,16 +289,16 @@ class AsmGenerationContext<T>(classOfT: Class<*>, private val algebra: Algebra<T
            java.lang.Double::class.java to "D"
        )

-        const val ASM_COMPILED_CLASS = "scientifik/kmath/expressions/AsmCompiled"
-        const val LIST_CLASS = "java/util/List"
-        const val MAP_CLASS = "java/util/Map"
-        const val OBJECT_CLASS = "java/lang/Object"
-        const val ALGEBRA_CLASS = "scientifik/kmath/operations/Algebra"
-        const val SPACE_OPERATIONS_CLASS = "scientifik/kmath/operations/SpaceOperations"
-        const val STRING_CLASS = "java/lang/String"
-        const val FIELD_OPERATIONS_CLASS = "scientifik/kmath/operations/FieldOperations"
-        const val RING_OPERATIONS_CLASS = "scientifik/kmath/operations/RingOperations"
-        const val NUMBER_CLASS = "java/lang/Number"
+        internal const val ASM_COMPILED_EXPRESSION_CLASS = "scientifik/kmath/expressions/AsmCompiledExpression"
+        internal const val LIST_CLASS = "java/util/List"
+        internal const val MAP_CLASS = "java/util/Map"
+        internal const val OBJECT_CLASS = "java/lang/Object"
+        internal const val ALGEBRA_CLASS = "scientifik/kmath/operations/Algebra"
+        internal const val SPACE_OPERATIONS_CLASS = "scientifik/kmath/operations/SpaceOperations"
+        internal const val STRING_CLASS = "java/lang/String"
+        internal const val FIELD_OPERATIONS_CLASS = "scientifik/kmath/operations/FieldOperations"
+        internal const val RING_OPERATIONS_CLASS = "scientifik/kmath/operations/RingOperations"
+        internal const val NUMBER_CLASS = "java/lang/Number"
    }
 }

@ -366,43 +384,25 @@ internal class AsmDivExpression<T>(
    }
 }

-open class AsmFunctionalExpressionSpace<T>(
-    val space: Space<T>,
-    one: T
-) : Space<AsmExpression<T>>,
+open class AsmExpressionSpace<T>(space: Space<T>) : Space<AsmExpression<T>>,
    ExpressionSpace<T, AsmExpression<T>> {
-    override val zero: AsmExpression<T> =
-        AsmConstantExpression(space.zero)
-
-    override fun const(value: T): AsmExpression<T> =
-        AsmConstantExpression(value)
-
-    override fun variable(name: String, default: T?): AsmExpression<T> =
-        AsmVariableExpression(
-            name,
-            default
-        )
-
-    override fun add(a: AsmExpression<T>, b: AsmExpression<T>): AsmExpression<T> =
-        AsmSumExpression(a, b)
-
-    override fun multiply(a: AsmExpression<T>, k: Number): AsmExpression<T> =
-        AsmConstProductExpression(a, k)
-
-
+    override val zero: AsmExpression<T> = AsmConstantExpression(space.zero)
+    override fun const(value: T): AsmExpression<T> = AsmConstantExpression(value)
+    override fun variable(name: String, default: T?): AsmExpression<T> = AsmVariableExpression(name, default)
+    override fun add(a: AsmExpression<T>, b: AsmExpression<T>): AsmExpression<T> = AsmSumExpression(a, b)
+    override fun multiply(a: AsmExpression<T>, k: Number): AsmExpression<T> = AsmConstProductExpression(a, k)
    operator fun AsmExpression<T>.plus(arg: T) = this + const(arg)
    operator fun AsmExpression<T>.minus(arg: T) = this - const(arg)
-
    operator fun T.plus(arg: AsmExpression<T>) = arg + this
    operator fun T.minus(arg: AsmExpression<T>) = arg - this
 }

-class AsmFunctionalExpressionField<T>(val field: Field<T>) : ExpressionField<T, AsmExpression<T>>,
-    AsmFunctionalExpressionSpace<T>(field, field.one) {
+class AsmExpressionField<T>(private val field: Field<T>) : ExpressionField<T, AsmExpression<T>>,
+    AsmExpressionSpace<T>(field) {
    override val one: AsmExpression<T>
        get() = const(this.field.one)

-    override fun const(value: Double): AsmExpression<T> = const(field.run { one * value })
+    override fun number(value: Number): AsmExpression<T> = const(field.run { one * value })

    override fun multiply(a: AsmExpression<T>, b: AsmExpression<T>): AsmExpression<T> =
        AsmProductExpression(a, b)
@ -412,7 +412,6 @@ class AsmFunctionalExpressionField<T>(val field: Field<T>) : ExpressionField<T,

    operator fun AsmExpression<T>.times(arg: T) = this * const(arg)
    operator fun AsmExpression<T>.div(arg: T) = this / const(arg)
-
    operator fun T.times(arg: AsmExpression<T>) = arg * this
    operator fun T.div(arg: AsmExpression<T>) = arg / this
 }
--- a/kmath-asm/src/test/kotlin/scientifik/kmath/expressions/AsmTest.kt
+++ b/kmath-asm/src/test/kotlin/scientifik/kmath/expressions/AsmTest.kt
@ -12,15 +12,12 @@ class AsmTest {
        arguments: Map<String, T>,
        algebra: Algebra<T>,
        clazz: Class<*>
-    ) {
-        assertEquals(
-            expectedValue, AsmGenerationContext(
-                clazz,
-                algebra,
-                "TestAsmCompiled"
-            ).also(expr::invoke).generate().evaluate(arguments)
-        )
-    }
+    ): Unit = assertEquals(
+        expectedValue, AsmGenerationContext(clazz, algebra, "TestAsmCompiled")
+            .also(expr::invoke)
+            .generate()
+            .invoke(arguments)
+    )

    @Suppress("UNCHECKED_CAST")
    private fun testDoubleExpressionValue(
@ -29,7 +26,7 @@ class AsmTest {
        arguments: Map<String, Double>,
        algebra: Algebra<Double> = RealField,
        clazz: Class<Double> = java.lang.Double::class.java as Class<Double>
-    ) = testExpressionValue(expectedValue, expr, arguments, algebra, clazz)
+    ): Unit = testExpressionValue(expectedValue, expr, arguments, algebra, clazz)

    @Test
    fun testSum() = testDoubleExpressionValue(
@ -39,28 +36,28 @@ class AsmTest {
    )

    @Test
-    fun testConst() = testDoubleExpressionValue(
+    fun testConst(): Unit = testDoubleExpressionValue(
        123.0,
        AsmConstantExpression(123.0),
        mapOf()
    )

    @Test
-    fun testDiv() = testDoubleExpressionValue(
+    fun testDiv(): Unit = testDoubleExpressionValue(
        0.5,
        AsmDivExpression(AsmConstantExpression(1.0), AsmConstantExpression(2.0)),
        mapOf()
    )

    @Test
-    fun testProduct() = testDoubleExpressionValue(
+    fun testProduct(): Unit = testDoubleExpressionValue(
        25.0,
        AsmProductExpression(AsmVariableExpression("x"), AsmVariableExpression("x")),
        mapOf("x" to 5.0)
    )

    @Test
-    fun testCProduct() = testDoubleExpressionValue(
+    fun testCProduct(): Unit = testDoubleExpressionValue(
        25.0,
        AsmConstProductExpression(AsmVariableExpression("x"), 5.0),
        mapOf("x" to 5.0)
--- a/kmath-core/src/commonMain/kotlin/scientifik/kmath/expressions/Expression.kt
+++ b/kmath-core/src/commonMain/kotlin/scientifik/kmath/expressions/Expression.kt
@ -76,7 +76,7 @@ interface ExpressionSpace<T, E> : Space<E>, ExpressionContext<T, E> {
 }

 interface ExpressionField<T, E> : Field<E>, ExpressionSpace<T, E> {
-    fun const(value: Double): E = one.times(value)
+    fun number(value: Number): E = one * value

    override fun produce(node: SyntaxTreeNode): E {
        if (node is BinaryNode) {
--- a/kmath-core/src/commonMain/kotlin/scientifik/kmath/expressions/FunctionalExpressions.kt
+++ b/kmath-core/src/commonMain/kotlin/scientifik/kmath/expressions/FunctionalExpressions.kt
@ -27,55 +27,41 @@ internal class ProductExpression<T>(val context: Ring<T>, val first: Expression<
        context.multiply(first.invoke(arguments), second.invoke(arguments))
 }

-internal class ConstProductExpession<T>(val context: Space<T>, val expr: Expression<T>, val const: Number) :
+internal class ConstProductExpression<T>(val context: Space<T>, val expr: Expression<T>, val const: Number) :
    Expression<T> {
    override fun invoke(arguments: Map<String, T>): T = context.multiply(expr.invoke(arguments), const)
 }

-internal class DivExpession<T>(val context: Field<T>, val expr: Expression<T>, val second: Expression<T>) :
+internal class DivExpression<T>(val context: Field<T>, val expr: Expression<T>, val second: Expression<T>) :
    Expression<T> {
    override fun invoke(arguments: Map<String, T>): T = context.divide(expr.invoke(arguments), second.invoke(arguments))
 }

-open class FunctionalExpressionSpace<T>(
-    val space: Space<T>,
-    one: T
-) : Space<Expression<T>>, ExpressionSpace<T,Expression<T>> {
-
+open class FunctionalExpressionSpace<T>(val space: Space<T>) : Space<Expression<T>>, ExpressionSpace<T, Expression<T>> {
    override val zero: Expression<T> = ConstantExpression(space.zero)

    override fun const(value: T): Expression<T> = ConstantExpression(value)
-
    override fun variable(name: String, default: T?): Expression<T> = VariableExpression(name, default)
-
    override fun add(a: Expression<T>, b: Expression<T>): Expression<T> = SumExpression(space, a, b)
-
-    override fun multiply(a: Expression<T>, k: Number): Expression<T> = ConstProductExpession(space, a, k)
-
-
-    operator fun Expression<T>.plus(arg: T) = this + const(arg)
-    operator fun Expression<T>.minus(arg: T) = this - const(arg)
-
-    operator fun T.plus(arg: Expression<T>) = arg + this
-    operator fun T.minus(arg: Expression<T>) = arg - this
+    override fun multiply(a: Expression<T>, k: Number): Expression<T> = ConstProductExpression(space, a, k)
+    operator fun Expression<T>.plus(arg: T): Expression<T> = this + const(arg)
+    operator fun Expression<T>.minus(arg: T): Expression<T> = this - const(arg)
+    operator fun T.plus(arg: Expression<T>): Expression<T> = arg + this
+    operator fun T.minus(arg: Expression<T>): Expression<T> = arg - this
 }

 open class FunctionalExpressionField<T>(
    val field: Field<T>
-) : ExpressionField<T,Expression<T>>, FunctionalExpressionSpace<T>(field, field.one) {
+) : ExpressionField<T, Expression<T>>, FunctionalExpressionSpace<T>(field) {

    override val one: Expression<T>
        get() = const(this.field.one)

-    override fun const(value: Double): Expression<T> = const(field.run { one*value})
-
+    override fun number(value: Number): 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)
-
-    operator fun Expression<T>.times(arg: T) = this * const(arg)
-    operator fun Expression<T>.div(arg: T) = this / const(arg)
-
-    operator fun T.times(arg: Expression<T>) = arg * this
-    operator fun T.div(arg: Expression<T>) = arg / this
-}
+    override fun divide(a: Expression<T>, b: Expression<T>): Expression<T> = DivExpression(field, a, b)
+    operator fun Expression<T>.times(arg: T): Expression<T> = this * const(arg)
+    operator fun Expression<T>.div(arg: T): Expression<T> = this / const(arg)
+    operator fun T.times(arg: Expression<T>): Expression<T> = arg * this
+    operator fun T.div(arg: Expression<T>): Expression<T> = arg / this
+}