Specify explicit API visbility, minor refactoring (error handling, etc.)

examples/build.gradle.kts

@@ -20,7 +20,7 @@ repositories {
 sourceSets.register("benchmarks")
 
 dependencies {
-    implementation(project(":kmath-ast"))
+//    implementation(project(":kmath-ast"))
     implementation(project(":kmath-core"))
     implementation(project(":kmath-coroutines"))
     implementation(project(":kmath-commons"))

kmath-core/src/commonMain/kotlin/scientifik/kmath/operations/NumberAlgebra.kt

@@ -1,6 +1,5 @@
 package scientifik.kmath.operations
 
-import scientifik.kmath.operations.RealField.pow
 import kotlin.math.abs
 import kotlin.math.pow as kpow
 
@@ -13,11 +12,10 @@ public interface ExtendedFieldOperations<T> :
     HyperbolicOperations<T>,
     PowerOperations<T>,
     ExponentialOperations<T> {
+    public override fun tan(arg: T): T = sin(arg) / cos(arg)
+    public override fun tanh(arg: T): T = sinh(arg) / cosh(arg)
 
-    override fun tan(arg: T): T = sin(arg) / cos(arg)
+    public override fun unaryOperation(operation: String, arg: T): T = when (operation) {
-    override fun tanh(arg: T): T = sinh(arg) / cosh(arg)
-
-    override fun unaryOperation(operation: String, arg: T): T = when (operation) {
         TrigonometricOperations.COS_OPERATION -> cos(arg)
         TrigonometricOperations.SIN_OPERATION -> sin(arg)
         TrigonometricOperations.TAN_OPERATION -> tan(arg)
@@ -37,19 +35,18 @@ public interface ExtendedFieldOperations<T> :
     }
 }
 
-
 /**
  * Advanced Number-like field that implements basic operations.
  */
 public interface ExtendedField<T> : ExtendedFieldOperations<T>, Field<T> {
-    override fun sinh(arg: T): T = (exp(arg) - exp(-arg)) / 2
+    public override fun sinh(arg: T): T = (exp(arg) - exp(-arg)) / 2
-    override fun cosh(arg: T): T = (exp(arg) + exp(-arg)) / 2
+    public override fun cosh(arg: T): T = (exp(arg) + exp(-arg)) / 2
-    override fun tanh(arg: T): T = (exp(arg) - exp(-arg)) / (exp(-arg) + exp(arg))
+    public override fun tanh(arg: T): T = (exp(arg) - exp(-arg)) / (exp(-arg) + exp(arg))
-    override fun asinh(arg: T): T = ln(sqrt(arg * arg + one) + arg)
+    public override fun asinh(arg: T): T = ln(sqrt(arg * arg + one) + arg)
-    override fun acosh(arg: T): T = ln(arg + sqrt((arg - one) * (arg + one)))
+    public override fun acosh(arg: T): T = ln(arg + sqrt((arg - one) * (arg + one)))
-    override fun atanh(arg: T): T = (ln(arg + one) - ln(one - arg)) / 2
+    public override fun atanh(arg: T): T = (ln(arg + one) - ln(one - arg)) / 2
 
-    override fun rightSideNumberOperation(operation: String, left: T, right: Number): T = when (operation) {
+    public override fun rightSideNumberOperation(operation: String, left: T, right: Number): T = when (operation) {
         PowerOperations.POW_OPERATION -> power(left, right)
         else -> super.rightSideNumberOperation(operation, left, right)
     }
@@ -63,12 +60,11 @@ public interface ExtendedField<T> : ExtendedFieldOperations<T>, Field<T> {
  * TODO inline does not work due to compiler bug. Waiting for fix for KT-27586
  */
 public inline class Real(public val value: Double) : FieldElement<Double, Real, RealField> {
-    override val context: RealField
+    public override val context: RealField
         get() = RealField
 
-    override fun unwrap(): Double = value
+    public override fun unwrap(): Double = value
-
+    public override fun Double.wrap(): Real = Real(value)
-    override fun Double.wrap(): Real = Real(value)
 
     public companion object
 }
@@ -78,49 +74,49 @@ public inline class Real(public val value: Double) : FieldElement<Double, Real,
  */
 @Suppress("EXTENSION_SHADOWED_BY_MEMBER", "OVERRIDE_BY_INLINE", "NOTHING_TO_INLINE")
 public object RealField : ExtendedField<Double>, Norm<Double, Double> {
-    override val zero: Double
+    public override val zero: Double
         get() = 0.0
 
-    override val one: Double
+    public override val one: Double
         get() = 1.0
 
-    override fun binaryOperation(operation: String, left: Double, right: Double): Double = when (operation) {
+    public override fun binaryOperation(operation: String, left: Double, right: Double): Double = when (operation) {
         PowerOperations.POW_OPERATION -> left pow right
         else -> super.binaryOperation(operation, left, right)
     }
 
-    override inline fun add(a: Double, b: Double): Double = a + b
+    public override inline fun add(a: Double, b: Double): Double = a + b
-    override inline fun multiply(a: Double, k: Number): Double = a * k.toDouble()
+    public override inline fun multiply(a: Double, k: Number): Double = a * k.toDouble()
 
-    override inline fun multiply(a: Double, b: Double): Double = a * b
+    public override inline fun multiply(a: Double, b: Double): Double = a * b
 
-    override inline fun divide(a: Double, b: Double): Double = a / b
+    public override inline fun divide(a: Double, b: Double): Double = a / b
 
-    override inline fun sin(arg: Double): Double = kotlin.math.sin(arg)
+    public override inline fun sin(arg: Double): Double = kotlin.math.sin(arg)
-    override inline fun cos(arg: Double): Double = kotlin.math.cos(arg)
+    public override inline fun cos(arg: Double): Double = kotlin.math.cos(arg)
-    override inline fun tan(arg: Double): Double = kotlin.math.tan(arg)
+    public override inline fun tan(arg: Double): Double = kotlin.math.tan(arg)
-    override inline fun acos(arg: Double): Double = kotlin.math.acos(arg)
+    public override inline fun acos(arg: Double): Double = kotlin.math.acos(arg)
-    override inline fun asin(arg: Double): Double = kotlin.math.asin(arg)
+    public override inline fun asin(arg: Double): Double = kotlin.math.asin(arg)
-    override inline fun atan(arg: Double): Double = kotlin.math.atan(arg)
+    public override inline fun atan(arg: Double): Double = kotlin.math.atan(arg)
 
-    override inline fun sinh(arg: Double): Double = kotlin.math.sinh(arg)
+    public override inline fun sinh(arg: Double): Double = kotlin.math.sinh(arg)
-    override inline fun cosh(arg: Double): Double = kotlin.math.cosh(arg)
+    public override inline fun cosh(arg: Double): Double = kotlin.math.cosh(arg)
-    override inline fun tanh(arg: Double): Double = kotlin.math.tanh(arg)
+    public override inline fun tanh(arg: Double): Double = kotlin.math.tanh(arg)
-    override inline fun asinh(arg: Double): Double = kotlin.math.asinh(arg)
+    public override inline fun asinh(arg: Double): Double = kotlin.math.asinh(arg)
-    override inline fun acosh(arg: Double): Double = kotlin.math.acosh(arg)
+    public override inline fun acosh(arg: Double): Double = kotlin.math.acosh(arg)
-    override inline fun atanh(arg: Double): Double = kotlin.math.atanh(arg)
+    public override inline fun atanh(arg: Double): Double = kotlin.math.atanh(arg)
 
-    override inline fun power(arg: Double, pow: Number): Double = arg.kpow(pow.toDouble())
+    public override inline fun power(arg: Double, pow: Number): Double = arg.kpow(pow.toDouble())
-    override inline fun exp(arg: Double): Double = kotlin.math.exp(arg)
+    public override inline fun exp(arg: Double): Double = kotlin.math.exp(arg)
-    override inline fun ln(arg: Double): Double = kotlin.math.ln(arg)
+    public override inline fun ln(arg: Double): Double = kotlin.math.ln(arg)
 
-    override inline fun norm(arg: Double): Double = abs(arg)
+    public override inline fun norm(arg: Double): Double = abs(arg)
 
-    override inline fun Double.unaryMinus(): Double = -this
+    public override inline fun Double.unaryMinus(): Double = -this
-    override inline fun Double.plus(b: Double): Double = this + b
+    public override inline fun Double.plus(b: Double): Double = this + b
-    override inline fun Double.minus(b: Double): Double = this - b
+    public override inline fun Double.minus(b: Double): Double = this - b
-    override inline fun Double.times(b: Double): Double = this * b
+    public override inline fun Double.times(b: Double): Double = this * b
-    override inline fun Double.div(b: Double): Double = this / b
+    public override inline fun Double.div(b: Double): Double = this / b
 }
 
 /**
@@ -128,49 +124,49 @@ public object RealField : ExtendedField<Double>, Norm<Double, Double> {
  */
 @Suppress("EXTENSION_SHADOWED_BY_MEMBER", "OVERRIDE_BY_INLINE", "NOTHING_TO_INLINE")
 public object FloatField : ExtendedField<Float>, Norm<Float, Float> {
-    override val zero: Float
+    public override val zero: Float
         get() = 0.0f
 
-    override val one: Float
+    public override val one: Float
         get() = 1.0f
 
-    override fun binaryOperation(operation: String, left: Float, right: Float): Float = when (operation) {
+    public override fun binaryOperation(operation: String, left: Float, right: Float): Float = when (operation) {
         PowerOperations.POW_OPERATION -> left pow right
         else -> super.binaryOperation(operation, left, right)
     }
 
-    override inline fun add(a: Float, b: Float): Float = a + b
+    public override inline fun add(a: Float, b: Float): Float = a + b
-    override inline fun multiply(a: Float, k: Number): Float = a * k.toFloat()
+    public override inline fun multiply(a: Float, k: Number): Float = a * k.toFloat()
 
-    override inline fun multiply(a: Float, b: Float): Float = a * b
+    public override inline fun multiply(a: Float, b: Float): Float = a * b
 
-    override inline fun divide(a: Float, b: Float): Float = a / b
+    public override inline fun divide(a: Float, b: Float): Float = a / b
 
-    override inline fun sin(arg: Float): Float = kotlin.math.sin(arg)
+    public override inline fun sin(arg: Float): Float = kotlin.math.sin(arg)
-    override inline fun cos(arg: Float): Float = kotlin.math.cos(arg)
+    public override inline fun cos(arg: Float): Float = kotlin.math.cos(arg)
-    override inline fun tan(arg: Float): Float = kotlin.math.tan(arg)
+    public override inline fun tan(arg: Float): Float = kotlin.math.tan(arg)
-    override inline fun acos(arg: Float): Float = kotlin.math.acos(arg)
+    public override inline fun acos(arg: Float): Float = kotlin.math.acos(arg)
-    override inline fun asin(arg: Float): Float = kotlin.math.asin(arg)
+    public override inline fun asin(arg: Float): Float = kotlin.math.asin(arg)
-    override inline fun atan(arg: Float): Float = kotlin.math.atan(arg)
+    public override inline fun atan(arg: Float): Float = kotlin.math.atan(arg)
 
-    override inline fun sinh(arg: Float): Float = kotlin.math.sinh(arg)
+    public override inline fun sinh(arg: Float): Float = kotlin.math.sinh(arg)
-    override inline fun cosh(arg: Float): Float = kotlin.math.cosh(arg)
+    public override inline fun cosh(arg: Float): Float = kotlin.math.cosh(arg)
-    override inline fun tanh(arg: Float): Float = kotlin.math.tanh(arg)
+    public override inline fun tanh(arg: Float): Float = kotlin.math.tanh(arg)
-    override inline fun asinh(arg: Float): Float = kotlin.math.asinh(arg)
+    public override inline fun asinh(arg: Float): Float = kotlin.math.asinh(arg)
-    override inline fun acosh(arg: Float): Float = kotlin.math.acosh(arg)
+    public override inline fun acosh(arg: Float): Float = kotlin.math.acosh(arg)
-    override inline fun atanh(arg: Float): Float = kotlin.math.atanh(arg)
+    public override inline fun atanh(arg: Float): Float = kotlin.math.atanh(arg)
 
-    override inline fun power(arg: Float, pow: Number): Float = arg.kpow(pow.toFloat())
+    public override inline fun power(arg: Float, pow: Number): Float = arg.kpow(pow.toFloat())
-    override inline fun exp(arg: Float): Float = kotlin.math.exp(arg)
+    public override inline fun exp(arg: Float): Float = kotlin.math.exp(arg)
-    override inline fun ln(arg: Float): Float = kotlin.math.ln(arg)
+    public override inline fun ln(arg: Float): Float = kotlin.math.ln(arg)
 
-    override inline fun norm(arg: Float): Float = abs(arg)
+    public override inline fun norm(arg: Float): Float = abs(arg)
 
-    override inline fun Float.unaryMinus(): Float = -this
+    public override inline fun Float.unaryMinus(): Float = -this
-    override inline fun Float.plus(b: Float): Float = this + b
+    public override inline fun Float.plus(b: Float): Float = this + b
-    override inline fun Float.minus(b: Float): Float = this - b
+    public override inline fun Float.minus(b: Float): Float = this - b
-    override inline fun Float.times(b: Float): Float = this * b
+    public override inline fun Float.times(b: Float): Float = this * b
-    override inline fun Float.div(b: Float): Float = this / b
+    public override inline fun Float.div(b: Float): Float = this / b
 }
 
 /**
@@ -178,23 +174,23 @@ public object FloatField : ExtendedField<Float>, Norm<Float, Float> {
  */
 @Suppress("EXTENSION_SHADOWED_BY_MEMBER", "OVERRIDE_BY_INLINE", "NOTHING_TO_INLINE")
 public object IntRing : Ring<Int>, Norm<Int, Int> {
-    override val zero: Int
+    public override val zero: Int
         get() = 0
 
-    override val one: Int
+    public override val one: Int
         get() = 1
 
-    override inline fun add(a: Int, b: Int): Int = a + b
+    public override inline fun add(a: Int, b: Int): Int = a + b
-    override inline fun multiply(a: Int, k: Number): Int = k.toInt() * a
+    public override inline fun multiply(a: Int, k: Number): Int = k.toInt() * a
 
-    override inline fun multiply(a: Int, b: Int): Int = a * b
+    public override inline fun multiply(a: Int, b: Int): Int = a * b
 
-    override inline fun norm(arg: Int): Int = abs(arg)
+    public override inline fun norm(arg: Int): Int = abs(arg)
 
-    override inline fun Int.unaryMinus(): Int = -this
+    public override inline fun Int.unaryMinus(): Int = -this
-    override inline fun Int.plus(b: Int): Int = this + b
+    public override inline fun Int.plus(b: Int): Int = this + b
-    override inline fun Int.minus(b: Int): Int = this - b
+    public override inline fun Int.minus(b: Int): Int = this - b
-    override inline fun Int.times(b: Int): Int = this * b
+    public override inline fun Int.times(b: Int): Int = this * b
 }
 
 /**
@@ -202,23 +198,23 @@ public object IntRing : Ring<Int>, Norm<Int, Int> {
  */
 @Suppress("EXTENSION_SHADOWED_BY_MEMBER", "OVERRIDE_BY_INLINE", "NOTHING_TO_INLINE")
 public object ShortRing : Ring<Short>, Norm<Short, Short> {
-    override val zero: Short
+    public override val zero: Short
         get() = 0
 
-    override val one: Short
+    public override val one: Short
         get() = 1
 
-    override inline fun add(a: Short, b: Short): Short = (a + b).toShort()
+    public override inline fun add(a: Short, b: Short): Short = (a + b).toShort()
-    override inline fun multiply(a: Short, k: Number): Short = (a * k.toShort()).toShort()
+    public override inline fun multiply(a: Short, k: Number): Short = (a * k.toShort()).toShort()
 
-    override inline fun multiply(a: Short, b: Short): Short = (a * b).toShort()
+    public override inline fun multiply(a: Short, b: Short): Short = (a * b).toShort()
 
-    override fun norm(arg: Short): Short = if (arg > 0) arg else (-arg).toShort()
+    public override fun norm(arg: Short): Short = if (arg > 0) arg else (-arg).toShort()
 
-    override inline fun Short.unaryMinus(): Short = (-this).toShort()
+    public override inline fun Short.unaryMinus(): Short = (-this).toShort()
-    override inline fun Short.plus(b: Short): Short = (this + b).toShort()
+    public override inline fun Short.plus(b: Short): Short = (this + b).toShort()
-    override inline fun Short.minus(b: Short): Short = (this - b).toShort()
+    public override inline fun Short.minus(b: Short): Short = (this - b).toShort()
-    override inline fun Short.times(b: Short): Short = (this * b).toShort()
+    public override inline fun Short.times(b: Short): Short = (this * b).toShort()
 }
 
 /**
@@ -226,23 +222,23 @@ public object ShortRing : Ring<Short>, Norm<Short, Short> {
  */
 @Suppress("EXTENSION_SHADOWED_BY_MEMBER", "OVERRIDE_BY_INLINE", "NOTHING_TO_INLINE")
 public object ByteRing : Ring<Byte>, Norm<Byte, Byte> {
-    override val zero: Byte
+    public override val zero: Byte
         get() = 0
 
-    override val one: Byte
+    public override val one: Byte
         get() = 1
 
-    override inline fun add(a: Byte, b: Byte): Byte = (a + b).toByte()
+    public override inline fun add(a: Byte, b: Byte): Byte = (a + b).toByte()
-    override inline fun multiply(a: Byte, k: Number): Byte = (a * k.toByte()).toByte()
+    public override inline fun multiply(a: Byte, k: Number): Byte = (a * k.toByte()).toByte()
 
-    override inline fun multiply(a: Byte, b: Byte): Byte = (a * b).toByte()
+    public override inline fun multiply(a: Byte, b: Byte): Byte = (a * b).toByte()
 
-    override fun norm(arg: Byte): Byte = if (arg > 0) arg else (-arg).toByte()
+    public override fun norm(arg: Byte): Byte = if (arg > 0) arg else (-arg).toByte()
 
-    override inline fun Byte.unaryMinus(): Byte = (-this).toByte()
+    public override inline fun Byte.unaryMinus(): Byte = (-this).toByte()
-    override inline fun Byte.plus(b: Byte): Byte = (this + b).toByte()
+    public override inline fun Byte.plus(b: Byte): Byte = (this + b).toByte()
-    override inline fun Byte.minus(b: Byte): Byte = (this - b).toByte()
+    public override inline fun Byte.minus(b: Byte): Byte = (this - b).toByte()
-    override inline fun Byte.times(b: Byte): Byte = (this * b).toByte()
+    public override inline fun Byte.times(b: Byte): Byte = (this * b).toByte()
 }
 
 /**
@@ -250,21 +246,21 @@ public object ByteRing : Ring<Byte>, Norm<Byte, Byte> {
  */
 @Suppress("EXTENSION_SHADOWED_BY_MEMBER", "OVERRIDE_BY_INLINE", "NOTHING_TO_INLINE")
 public object LongRing : Ring<Long>, Norm<Long, Long> {
-    override val zero: Long
+    public override val zero: Long
         get() = 0
 
-    override val one: Long
+    public override val one: Long
         get() = 1
 
-    override inline fun add(a: Long, b: Long): Long = a + b
+    public override inline fun add(a: Long, b: Long): Long = a + b
-    override inline fun multiply(a: Long, k: Number): Long = a * k.toLong()
+    public override inline fun multiply(a: Long, k: Number): Long = a * k.toLong()
 
-    override inline fun multiply(a: Long, b: Long): Long = a * b
+    public override inline fun multiply(a: Long, b: Long): Long = a * b
 
-    override fun norm(arg: Long): Long = abs(arg)
+    public override fun norm(arg: Long): Long = abs(arg)
 
-    override inline fun Long.unaryMinus(): Long = (-this)
+    public override inline fun Long.unaryMinus(): Long = (-this)
-    override inline fun Long.plus(b: Long): Long = (this + b)
+    public override inline fun Long.plus(b: Long): Long = (this + b)
-    override inline fun Long.minus(b: Long): Long = (this - b)
+    public override inline fun Long.minus(b: Long): Long = (this - b)
-    override inline fun Long.times(b: Long): Long = (this * b)
+    public override inline fun Long.times(b: Long): Long = (this * b)
 }

kmath-core/src/commonMain/kotlin/scientifik/kmath/structures/BoxingNDField.kt

@@ -4,27 +4,27 @@ import scientifik.kmath.operations.Field
 import scientifik.kmath.operations.FieldElement
 
 public class BoxingNDField<T, F : Field<T>>(
-    override val shape: IntArray,
+    public override val shape: IntArray,
-    override val elementContext: F,
+    public override val elementContext: F,
     public val bufferFactory: BufferFactory<T>
 ) : BufferedNDField<T, F> {
-    override val zero: BufferedNDFieldElement<T, F> by lazy { produce { zero } }
+    public override val zero: BufferedNDFieldElement<T, F> by lazy { produce { zero } }
-    override val one: BufferedNDFieldElement<T, F> by lazy { produce { one } }
+    public override val one: BufferedNDFieldElement<T, F> by lazy { produce { one } }
-    override val strides: Strides = DefaultStrides(shape)
+    public override val strides: Strides = DefaultStrides(shape)
 
     public fun buildBuffer(size: Int, initializer: (Int) -> T): Buffer<T> =
         bufferFactory(size, initializer)
 
-    override fun check(vararg elements: NDBuffer<T>) {
+    public override fun check(vararg elements: NDBuffer<T>) {
         check(elements.all { it.strides == strides }) { "Element strides are not the same as context strides" }
     }
 
-    override fun produce(initializer: F.(IntArray) -> T): BufferedNDFieldElement<T, F> =
+    public override fun produce(initializer: F.(IntArray) -> T): BufferedNDFieldElement<T, F> =
         BufferedNDFieldElement(
             this,
             buildBuffer(strides.linearSize) { offset -> elementContext.initializer(strides.index(offset)) })
 
-    override fun map(arg: NDBuffer<T>, transform: F.(T) -> T): BufferedNDFieldElement<T, F> {
+    public override fun map(arg: NDBuffer<T>, transform: F.(T) -> T): BufferedNDFieldElement<T, F> {
         check(arg)
 
         return BufferedNDFieldElement(
@@ -36,7 +36,7 @@ public class BoxingNDField<T, F : Field<T>>(
 
     }
 
-    override fun mapIndexed(
+    public override fun mapIndexed(
         arg: NDBuffer<T>,
         transform: F.(index: IntArray, T) -> T
     ): BufferedNDFieldElement<T, F> {
@@ -55,7 +55,7 @@ public class BoxingNDField<T, F : Field<T>>(
 //        return BufferedNDFieldElement(this, buffer)
     }
 
-    override fun combine(
+    public override fun combine(
         a: NDBuffer<T>,
         b: NDBuffer<T>,
         transform: F.(T, T) -> T
@@ -66,7 +66,7 @@ public class BoxingNDField<T, F : Field<T>>(
             buildBuffer(strides.linearSize) { offset -> elementContext.transform(a.buffer[offset], b.buffer[offset]) })
     }
 
-    override fun NDBuffer<T>.toElement(): FieldElement<NDBuffer<T>, *, out BufferedNDField<T, F>> =
+    public override fun NDBuffer<T>.toElement(): FieldElement<NDBuffer<T>, *, out BufferedNDField<T, F>> =
         BufferedNDFieldElement(this@BoxingNDField, buffer)
 }
 

kmath-core/src/commonMain/kotlin/scientifik/kmath/structures/LongBuffer.kt

@@ -21,7 +21,6 @@ public inline class LongBuffer(public val array: LongArray) : MutableBuffer<Long
 
     override fun copy(): MutableBuffer<Long> =
         LongBuffer(array.copyOf())
-
 }
 
 /**

kmath-core/src/commonMain/kotlin/scientifik/kmath/structures/RealBufferField.kt

@@ -8,7 +8,7 @@ import kotlin.math.*
  * [ExtendedFieldOperations] over [RealBuffer].
  */
 public object RealBufferFieldOperations : ExtendedFieldOperations<Buffer<Double>> {
-    override fun add(a: Buffer<Double>, b: Buffer<Double>): RealBuffer {
+    public override fun add(a: Buffer<Double>, b: Buffer<Double>): RealBuffer {
         require(b.size == a.size) {
             "The size of the first buffer ${a.size} should be the same as for second one: ${b.size} "
         }
@@ -20,7 +20,7 @@ public object RealBufferFieldOperations : ExtendedFieldOperations<Buffer<Double>
         } else RealBuffer(DoubleArray(a.size) { a[it] + b[it] })
     }
 
-    override fun multiply(a: Buffer<Double>, k: Number): RealBuffer {
+    public override fun multiply(a: Buffer<Double>, k: Number): RealBuffer {
         val kValue = k.toDouble()
 
         return if (a is RealBuffer) {
@@ -29,7 +29,7 @@ public object RealBufferFieldOperations : ExtendedFieldOperations<Buffer<Double>
         } else RealBuffer(DoubleArray(a.size) { a[it] * kValue })
     }
 
-    override fun multiply(a: Buffer<Double>, b: Buffer<Double>): RealBuffer {
+    public override fun multiply(a: Buffer<Double>, b: Buffer<Double>): RealBuffer {
         require(b.size == a.size) {
             "The size of the first buffer ${a.size} should be the same as for second one: ${b.size} "
         }
@@ -42,7 +42,7 @@ public object RealBufferFieldOperations : ExtendedFieldOperations<Buffer<Double>
             RealBuffer(DoubleArray(a.size) { a[it] * b[it] })
     }
 
-    override fun divide(a: Buffer<Double>, b: Buffer<Double>): RealBuffer {
+    public override fun divide(a: Buffer<Double>, b: Buffer<Double>): RealBuffer {
         require(b.size == a.size) {
             "The size of the first buffer ${a.size} should be the same as for second one: ${b.size} "
         }
@@ -54,87 +54,87 @@ public object RealBufferFieldOperations : ExtendedFieldOperations<Buffer<Double>
         } else RealBuffer(DoubleArray(a.size) { a[it] / b[it] })
     }
 
-    override fun sin(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
+    public override fun sin(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
         val array = arg.array
         RealBuffer(DoubleArray(arg.size) { sin(array[it]) })
     } else RealBuffer(DoubleArray(arg.size) { sin(arg[it]) })
 
-    override fun cos(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
+    public override fun cos(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
         val array = arg.array
         RealBuffer(DoubleArray(arg.size) { cos(array[it]) })
     } else RealBuffer(DoubleArray(arg.size) { cos(arg[it]) })
 
-    override fun tan(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
+    public override fun tan(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
         val array = arg.array
         RealBuffer(DoubleArray(arg.size) { tan(array[it]) })
     } else RealBuffer(DoubleArray(arg.size) { tan(arg[it]) })
 
-    override fun asin(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
+    public override fun asin(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
         val array = arg.array
         RealBuffer(DoubleArray(arg.size) { asin(array[it]) })
     } else
         RealBuffer(DoubleArray(arg.size) { asin(arg[it]) })
 
-    override fun acos(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
+    public override fun acos(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
         val array = arg.array
         RealBuffer(DoubleArray(arg.size) { acos(array[it]) })
     } else
         RealBuffer(DoubleArray(arg.size) { acos(arg[it]) })
 
-    override fun atan(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
+    public override fun atan(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
         val array = arg.array
         RealBuffer(DoubleArray(arg.size) { atan(array[it]) })
     } else
         RealBuffer(DoubleArray(arg.size) { atan(arg[it]) })
 
-    override fun sinh(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
+    public override fun sinh(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
         val array = arg.array
         RealBuffer(DoubleArray(arg.size) { sinh(array[it]) })
     } else
         RealBuffer(DoubleArray(arg.size) { sinh(arg[it]) })
 
-    override fun cosh(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
+    public override fun cosh(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
         val array = arg.array
         RealBuffer(DoubleArray(arg.size) { cosh(array[it]) })
     } else
         RealBuffer(DoubleArray(arg.size) { cosh(arg[it]) })
 
-    override fun tanh(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
+    public override fun tanh(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
         val array = arg.array
         RealBuffer(DoubleArray(arg.size) { tanh(array[it]) })
     } else
         RealBuffer(DoubleArray(arg.size) { tanh(arg[it]) })
 
-    override fun asinh(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
+    public override fun asinh(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
         val array = arg.array
         RealBuffer(DoubleArray(arg.size) { asinh(array[it]) })
     } else
         RealBuffer(DoubleArray(arg.size) { asinh(arg[it]) })
 
-    override fun acosh(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
+    public override fun acosh(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
         val array = arg.array
         RealBuffer(DoubleArray(arg.size) { acosh(array[it]) })
     } else
         RealBuffer(DoubleArray(arg.size) { acosh(arg[it]) })
 
-    override fun atanh(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
+    public override fun atanh(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
         val array = arg.array
         RealBuffer(DoubleArray(arg.size) { atanh(array[it]) })
     } else
         RealBuffer(DoubleArray(arg.size) { atanh(arg[it]) })
 
-    override fun power(arg: Buffer<Double>, pow: Number): RealBuffer = if (arg is RealBuffer) {
+    public override fun power(arg: Buffer<Double>, pow: Number): RealBuffer = if (arg is RealBuffer) {
         val array = arg.array
         RealBuffer(DoubleArray(arg.size) { array[it].pow(pow.toDouble()) })
     } else
         RealBuffer(DoubleArray(arg.size) { arg[it].pow(pow.toDouble()) })
 
-    override fun exp(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
+    public override fun exp(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
         val array = arg.array
         RealBuffer(DoubleArray(arg.size) { exp(array[it]) })
     } else RealBuffer(DoubleArray(arg.size) { exp(arg[it]) })
 
-    override fun ln(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
+    public override fun ln(arg: Buffer<Double>): RealBuffer = if (arg is RealBuffer) {
         val array = arg.array
         RealBuffer(DoubleArray(arg.size) { ln(array[it]) })
     } else
@@ -147,100 +147,100 @@ public object RealBufferFieldOperations : ExtendedFieldOperations<Buffer<Double>
  * @property size the size of buffers to operate on.
  */
 public class RealBufferField(public val size: Int) : ExtendedField<Buffer<Double>> {
-    override val zero: Buffer<Double> by lazy { RealBuffer(size) { 0.0 } }
+    public override val zero: Buffer<Double> by lazy { RealBuffer(size) { 0.0 } }
-    override val one: Buffer<Double> by lazy { RealBuffer(size) { 1.0 } }
+    public override val one: Buffer<Double> by lazy { RealBuffer(size) { 1.0 } }
 
-    override fun add(a: Buffer<Double>, b: Buffer<Double>): RealBuffer {
+    public override fun add(a: Buffer<Double>, b: Buffer<Double>): RealBuffer {
         require(a.size == size) { "The buffer size ${a.size} does not match context size $size" }
         return RealBufferFieldOperations.add(a, b)
     }
 
-    override fun multiply(a: Buffer<Double>, k: Number): RealBuffer {
+    public override fun multiply(a: Buffer<Double>, k: Number): RealBuffer {
         require(a.size == size) { "The buffer size ${a.size} does not match context size $size" }
         return RealBufferFieldOperations.multiply(a, k)
     }
 
-    override fun multiply(a: Buffer<Double>, b: Buffer<Double>): RealBuffer {
+    public override fun multiply(a: Buffer<Double>, b: Buffer<Double>): RealBuffer {
         require(a.size == size) { "The buffer size ${a.size} does not match context size $size" }
         return RealBufferFieldOperations.multiply(a, b)
     }
 
-    override fun divide(a: Buffer<Double>, b: Buffer<Double>): RealBuffer {
+    public override fun divide(a: Buffer<Double>, b: Buffer<Double>): RealBuffer {
         require(a.size == size) { "The buffer size ${a.size} does not match context size $size" }
         return RealBufferFieldOperations.divide(a, b)
     }
 
-    override fun sin(arg: Buffer<Double>): RealBuffer {
+    public override fun sin(arg: Buffer<Double>): RealBuffer {
         require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
         return RealBufferFieldOperations.sin(arg)
     }
 
-    override fun cos(arg: Buffer<Double>): RealBuffer {
+    public override fun cos(arg: Buffer<Double>): RealBuffer {
         require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
         return RealBufferFieldOperations.cos(arg)
     }
 
-    override fun tan(arg: Buffer<Double>): RealBuffer {
+    public override fun tan(arg: Buffer<Double>): RealBuffer {
         require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
         return RealBufferFieldOperations.tan(arg)
     }
 
-    override fun asin(arg: Buffer<Double>): RealBuffer {
+    public override fun asin(arg: Buffer<Double>): RealBuffer {
         require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
         return RealBufferFieldOperations.asin(arg)
     }
 
-    override fun acos(arg: Buffer<Double>): RealBuffer {
+    public override fun acos(arg: Buffer<Double>): RealBuffer {
         require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
         return RealBufferFieldOperations.acos(arg)
     }
 
-    override fun atan(arg: Buffer<Double>): RealBuffer {
+    public override fun atan(arg: Buffer<Double>): RealBuffer {
         require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
         return RealBufferFieldOperations.atan(arg)
     }
 
-    override fun sinh(arg: Buffer<Double>): RealBuffer {
+    public override fun sinh(arg: Buffer<Double>): RealBuffer {
         require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
         return RealBufferFieldOperations.sinh(arg)
     }
 
-    override fun cosh(arg: Buffer<Double>): RealBuffer {
+    public override fun cosh(arg: Buffer<Double>): RealBuffer {
         require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
         return RealBufferFieldOperations.cosh(arg)
     }
 
-    override fun tanh(arg: Buffer<Double>): RealBuffer {
+    public override fun tanh(arg: Buffer<Double>): RealBuffer {
         require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
         return RealBufferFieldOperations.tanh(arg)
     }
 
-    override fun asinh(arg: Buffer<Double>): RealBuffer {
+    public override fun asinh(arg: Buffer<Double>): RealBuffer {
         require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
         return RealBufferFieldOperations.asinh(arg)
     }
 
-    override fun acosh(arg: Buffer<Double>): RealBuffer {
+    public override fun acosh(arg: Buffer<Double>): RealBuffer {
         require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
         return RealBufferFieldOperations.acosh(arg)
     }
 
-    override fun atanh(arg: Buffer<Double>): RealBuffer {
+    public override fun atanh(arg: Buffer<Double>): RealBuffer {
         require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
         return RealBufferFieldOperations.atanh(arg)
     }
 
-    override fun power(arg: Buffer<Double>, pow: Number): RealBuffer {
+    public override fun power(arg: Buffer<Double>, pow: Number): RealBuffer {
         require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
         return RealBufferFieldOperations.power(arg, pow)
     }
 
-    override fun exp(arg: Buffer<Double>): RealBuffer {
+    public override fun exp(arg: Buffer<Double>): RealBuffer {
         require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
         return RealBufferFieldOperations.exp(arg)
     }
 
-    override fun ln(arg: Buffer<Double>): RealBuffer {
+    public override fun ln(arg: Buffer<Double>): RealBuffer {
         require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
         return RealBufferFieldOperations.ln(arg)
     }

kmath-core/src/commonMain/kotlin/scientifik/kmath/structures/ShortBuffer.kt

@@ -1,25 +1,21 @@
 package scientifik.kmath.structures
 
-import kotlin.contracts.contract
-
 /**
  * Specialized [MutableBuffer] implementation over [ShortArray].
  *
  * @property array the underlying array.
  */
 public inline class ShortBuffer(public val array: ShortArray) : MutableBuffer<Short> {
-    override val size: Int get() = array.size
+    public override val size: Int get() = array.size
 
-    override operator fun get(index: Int): Short = array[index]
+    public override operator fun get(index: Int): Short = array[index]
 
-    override operator fun set(index: Int, value: Short) {
+    public override operator fun set(index: Int, value: Short) {
         array[index] = value
     }
 
-    override operator fun iterator(): ShortIterator = array.iterator()
+    public override operator fun iterator(): ShortIterator = array.iterator()
-
+    public override fun copy(): MutableBuffer<Short> = ShortBuffer(array.copyOf())
-    override fun copy(): MutableBuffer<Short> =
-        ShortBuffer(array.copyOf())
 }
 
 /**

kmath-core/src/commonMain/kotlin/scientifik/kmath/structures/Structure1D.kt

@@ -4,25 +4,24 @@ package scientifik.kmath.structures
  * A structure that is guaranteed to be one-dimensional
  */
 public interface Structure1D<T> : NDStructure<T>, Buffer<T> {
-    override val dimension: Int get() = 1
+    public override val dimension: Int get() = 1
 
-    override operator fun get(index: IntArray): T {
+    public override operator fun get(index: IntArray): T {
         require(index.size == 1) { "Index dimension mismatch. Expected 1 but found ${index.size}" }
         return get(index[0])
     }
 
-    override operator fun iterator(): Iterator<T> = (0 until size).asSequence().map(::get).iterator()
+    public override operator fun iterator(): Iterator<T> = (0 until size).asSequence().map(::get).iterator()
 }
 
 /**
  * A 1D wrapper for nd-structure
  */
-private inline class Structure1DWrapper<T>(val structure: NDStructure<T>) : Structure1D<T> {
+private inline class Structure1DWrapper<T>(public val structure: NDStructure<T>) : Structure1D<T> {
     override val shape: IntArray get() = structure.shape
     override val size: Int get() = structure.shape[0]
 
     override operator fun get(index: Int): T = structure[index]
-
     override fun elements(): Sequence<Pair<IntArray, T>> = structure.elements()
 }
 
@@ -32,7 +31,6 @@ private inline class Structure1DWrapper<T>(val structure: NDStructure<T>) : Stru
  */
 private inline class Buffer1DWrapper<T>(val buffer: Buffer<T>) : Structure1D<T> {
     override val shape: IntArray get() = intArrayOf(buffer.size)
-
     override val size: Int get() = buffer.size
 
     override fun elements(): Sequence<Pair<IntArray, T>> =

kmath-core/src/jvmMain/kotlin/scientifik/kmath/operations/BigNumbers.kt

@@ -8,19 +8,19 @@ import java.math.MathContext
  * A field over [BigInteger].
  */
 public object JBigIntegerField : Field<BigInteger> {
-    override val zero: BigInteger
+    public override val zero: BigInteger
         get() = BigInteger.ZERO
 
-    override val one: BigInteger
+    public override val one: BigInteger
         get() = BigInteger.ONE
 
-    override fun number(value: Number): BigInteger = BigInteger.valueOf(value.toLong())
+    public override fun number(value: Number): BigInteger = BigInteger.valueOf(value.toLong())
-    override fun divide(a: BigInteger, b: BigInteger): BigInteger = a.div(b)
+    public override fun divide(a: BigInteger, b: BigInteger): BigInteger = a.div(b)
-    override fun add(a: BigInteger, b: BigInteger): BigInteger = a.add(b)
+    public override fun add(a: BigInteger, b: BigInteger): BigInteger = a.add(b)
-    override operator fun BigInteger.minus(b: BigInteger): BigInteger = subtract(b)
+    public override operator fun BigInteger.minus(b: BigInteger): BigInteger = subtract(b)
-    override fun multiply(a: BigInteger, k: Number): BigInteger = a.multiply(k.toInt().toBigInteger())
+    public override fun multiply(a: BigInteger, k: Number): BigInteger = a.multiply(k.toInt().toBigInteger())
-    override fun multiply(a: BigInteger, b: BigInteger): BigInteger = a.multiply(b)
+    public override fun multiply(a: BigInteger, b: BigInteger): BigInteger = a.multiply(b)
-    override operator fun BigInteger.unaryMinus(): BigInteger = negate()
+    public override operator fun BigInteger.unaryMinus(): BigInteger = negate()
 }
 
 /**
@@ -31,24 +31,24 @@ public object JBigIntegerField : Field<BigInteger> {
 public abstract class JBigDecimalFieldBase internal constructor(public val mathContext: MathContext = MathContext.DECIMAL64) :
     Field<BigDecimal>,
     PowerOperations<BigDecimal> {
-    override val zero: BigDecimal
+    public override val zero: BigDecimal
         get() = BigDecimal.ZERO
 
-    override val one: BigDecimal
+    public override val one: BigDecimal
         get() = BigDecimal.ONE
 
-    override fun add(a: BigDecimal, b: BigDecimal): BigDecimal = a.add(b)
+    public override fun add(a: BigDecimal, b: BigDecimal): BigDecimal = a.add(b)
-    override operator fun BigDecimal.minus(b: BigDecimal): BigDecimal = subtract(b)
+    public override operator fun BigDecimal.minus(b: BigDecimal): BigDecimal = subtract(b)
-    override fun number(value: Number): BigDecimal = BigDecimal.valueOf(value.toDouble())
+    public override fun number(value: Number): BigDecimal = BigDecimal.valueOf(value.toDouble())
 
-    override fun multiply(a: BigDecimal, k: Number): BigDecimal =
+    public override fun multiply(a: BigDecimal, k: Number): BigDecimal =
         a.multiply(k.toDouble().toBigDecimal(mathContext), mathContext)
 
-    override fun multiply(a: BigDecimal, b: BigDecimal): BigDecimal = a.multiply(b, mathContext)
+    public override fun multiply(a: BigDecimal, b: BigDecimal): BigDecimal = a.multiply(b, mathContext)
-    override fun divide(a: BigDecimal, b: BigDecimal): BigDecimal = a.divide(b, mathContext)
+    public override fun divide(a: BigDecimal, b: BigDecimal): BigDecimal = a.divide(b, mathContext)
-    override fun power(arg: BigDecimal, pow: Number): BigDecimal = arg.pow(pow.toInt(), mathContext)
+    public override fun power(arg: BigDecimal, pow: Number): BigDecimal = arg.pow(pow.toInt(), mathContext)
-    override fun sqrt(arg: BigDecimal): BigDecimal = arg.sqrt(mathContext)
+    public override fun sqrt(arg: BigDecimal): BigDecimal = arg.sqrt(mathContext)
-    override operator fun BigDecimal.unaryMinus(): BigDecimal = negate(mathContext)
+    public override operator fun BigDecimal.unaryMinus(): BigDecimal = negate(mathContext)
 }
 
 /**

kmath-coroutines/src/commonMain/kotlin/scientifik/kmath/chains/BlockingIntChain.kt

@@ -3,10 +3,10 @@ package scientifik.kmath.chains
 /**
  * Performance optimized chain for integer values
  */
-abstract class BlockingIntChain : Chain<Int> {
+public abstract class BlockingIntChain : Chain<Int> {
-    abstract fun nextInt(): Int
+    public abstract fun nextInt(): Int
 
     override suspend fun next(): Int = nextInt()
 
-    fun nextBlock(size: Int): IntArray = IntArray(size) { nextInt() }
+    public fun nextBlock(size: Int): IntArray = IntArray(size) { nextInt() }
 }

kmath-coroutines/src/commonMain/kotlin/scientifik/kmath/chains/BlockingRealChain.kt

@@ -3,10 +3,10 @@ package scientifik.kmath.chains
 /**
  * Performance optimized chain for real values
  */
-abstract class BlockingRealChain : Chain<Double> {
+public abstract class BlockingRealChain : Chain<Double> {
-    abstract fun nextDouble(): Double
+    public abstract fun nextDouble(): Double
 
     override suspend fun next(): Double = nextDouble()
 
-    fun nextBlock(size: Int): DoubleArray = DoubleArray(size) { nextDouble() }
+    public fun nextBlock(size: Int): DoubleArray = DoubleArray(size) { nextDouble() }
 }

kmath-coroutines/src/commonMain/kotlin/scientifik/kmath/chains/flowExtra.kt

@@ -3,20 +3,19 @@ package scientifik.kmath.chains
 import kotlinx.coroutines.ExperimentalCoroutinesApi
 import kotlinx.coroutines.flow.Flow
 import kotlinx.coroutines.flow.map
+import kotlinx.coroutines.flow.runningReduce
 import kotlinx.coroutines.flow.scan
-import kotlinx.coroutines.flow.scanReduce
 import scientifik.kmath.operations.Space
 import scientifik.kmath.operations.SpaceOperations
 import scientifik.kmath.operations.invoke
 
 @ExperimentalCoroutinesApi
-fun <T> Flow<T>.cumulativeSum(space: SpaceOperations<T>): Flow<T> = space {
+public fun <T> Flow<T>.cumulativeSum(space: SpaceOperations<T>): Flow<T> =
-    scanReduce { sum: T, element: T -> sum + element }
+    space { runningReduce { sum, element -> sum + element } }
-}
 
 @ExperimentalCoroutinesApi
-fun <T> Flow<T>.mean(space: Space<T>): Flow<T> = space {
+public fun <T> Flow<T>.mean(space: Space<T>): Flow<T> = space {
-    class Accumulator(var sum: T, var num: Int)
+    data class Accumulator(var sum: T, var num: Int)
 
     scan(Accumulator(zero, 0)) { sum, element ->
         sum.apply {

kmath-coroutines/src/commonMain/kotlin/scientifik/kmath/streaming/BufferFlow.kt

@@ -11,18 +11,18 @@ import scientifik.kmath.structures.asBuffer
 /**
  * Create a [Flow] from buffer
  */
-fun <T> Buffer<T>.asFlow(): Flow<T> = iterator().asFlow()
+public fun <T> Buffer<T>.asFlow(): Flow<T> = iterator().asFlow()
 
 /**
  * Flat map a [Flow] of [Buffer] into continuous [Flow] of elements
  */
 @FlowPreview
-fun <T> Flow<Buffer<out T>>.spread(): Flow<T> = flatMapConcat { it.asFlow() }
+public fun <T> Flow<Buffer<out T>>.spread(): Flow<T> = flatMapConcat { it.asFlow() }
 
 /**
  * Collect incoming flow into fixed size chunks
  */
-fun <T> Flow<T>.chunked(bufferSize: Int, bufferFactory: BufferFactory<T>): Flow<Buffer<T>> = flow {
+public fun <T> Flow<T>.chunked(bufferSize: Int, bufferFactory: BufferFactory<T>): Flow<Buffer<T>> = flow {
     require(bufferSize > 0) { "Resulting chunk size must be more than zero" }
     val list = ArrayList<T>(bufferSize)
     var counter = 0
@@ -30,6 +30,7 @@ fun <T> Flow<T>.chunked(bufferSize: Int, bufferFactory: BufferFactory<T>): Flow<
     this@chunked.collect { element ->
         list.add(element)
         counter++
+
         if (counter == bufferSize) {
             val buffer = bufferFactory(bufferSize) { list[it] }
             emit(buffer)
@@ -37,15 +38,14 @@ fun <T> Flow<T>.chunked(bufferSize: Int, bufferFactory: BufferFactory<T>): Flow<
             counter = 0
         }
     }
-    if (counter > 0) {
+
-        emit(bufferFactory(counter) { list[it] })
+    if (counter > 0) emit(bufferFactory(counter) { list[it] })
-    }
 }
 
 /**
  * Specialized flow chunker for real buffer
  */
-fun Flow<Double>.chunked(bufferSize: Int): Flow<RealBuffer> = flow {
+public fun Flow<Double>.chunked(bufferSize: Int): Flow<RealBuffer> = flow {
     require(bufferSize > 0) { "Resulting chunk size must be more than zero" }
 
     if (this@chunked is BlockingRealChain) {
@@ -66,9 +66,8 @@ fun Flow<Double>.chunked(bufferSize: Int): Flow<RealBuffer> = flow {
                 counter = 0
             }
         }
-        if (counter > 0) {
+
-            emit(RealBuffer(counter) { array[it] })
+        if (counter > 0) emit(RealBuffer(counter) { array[it] })
-        }
     }
 }
 
@@ -76,9 +75,10 @@ fun Flow<Double>.chunked(bufferSize: Int): Flow<RealBuffer> = flow {
  * Map a flow to a moving window buffer. The window step is one.
  * In order to get different steps, one could use skip operation.
  */
-fun <T> Flow<T>.windowed(window: Int): Flow<Buffer<T>> = flow {
+public fun <T> Flow<T>.windowed(window: Int): Flow<Buffer<T>> = flow {
     require(window > 1) { "Window size must be more than one" }
     val ringBuffer = RingBuffer.boxing<T>(window)
+
     this@windowed.collect { element ->
         ringBuffer.push(element)
         emit(ringBuffer.snapshot())

kmath-coroutines/src/commonMain/kotlin/scientifik/kmath/streaming/RingBuffer.kt

@@ -10,28 +10,28 @@ import scientifik.kmath.structures.VirtualBuffer
  * Thread-safe ring buffer
  */
 @Suppress("UNCHECKED_CAST")
-class RingBuffer<T>(
+public class RingBuffer<T>(
     private val buffer: MutableBuffer<T?>,
     private var startIndex: Int = 0,
     size: Int = 0
 ) : Buffer<T> {
     private val mutex: Mutex = Mutex()
 
-    override var size: Int = size
+    public override var size: Int = size
         private set
 
-    override operator fun get(index: Int): T {
+    public override operator fun get(index: Int): T {
         require(index >= 0) { "Index must be positive" }
         require(index < size) { "Index $index is out of circular buffer size $size" }
         return buffer[startIndex.forward(index)] as T
     }
 
-    fun isFull(): Boolean = size == buffer.size
+    public fun isFull(): Boolean = size == buffer.size
 
     /**
      * Iterator could provide wrong results if buffer is changed in initialization (iteration is safe)
      */
-    override operator fun iterator(): Iterator<T> = object : AbstractIterator<T>() {
+    public override operator fun iterator(): Iterator<T> = object : AbstractIterator<T>() {
         private var count = size
         private var index = startIndex
         val copy = buffer.copy()
@@ -48,23 +48,17 @@ class RingBuffer<T>(
     /**
      * A safe snapshot operation
      */
-    suspend fun snapshot(): Buffer<T> {
+    public suspend fun snapshot(): Buffer<T> {
         mutex.withLock {
             val copy = buffer.copy()
-            return VirtualBuffer(size) { i ->
+            return VirtualBuffer(size) { i -> copy[startIndex.forward(i)] as T }
-                copy[startIndex.forward(i)] as T
-            }
         }
     }
 
-    suspend fun push(element: T) {
+    public suspend fun push(element: T) {
         mutex.withLock {
             buffer[startIndex.forward(size)] = element
-            if (isFull()) {
+            if (isFull()) startIndex++ else size++
-                startIndex++
-            } else {
-                size++
-            }
         }
     }
 
@@ -72,8 +66,8 @@ class RingBuffer<T>(
     @Suppress("NOTHING_TO_INLINE")
     private inline fun Int.forward(n: Int): Int = (this + n) % (buffer.size)
 
-    companion object {
+    public companion object {
-        inline fun <reified T : Any> build(size: Int, empty: T): RingBuffer<T> {
+        public inline fun <reified T : Any> build(size: Int, empty: T): RingBuffer<T> {
             val buffer = MutableBuffer.auto(size) { empty } as MutableBuffer<T?>
             return RingBuffer(buffer)
         }
@@ -81,7 +75,7 @@ class RingBuffer<T>(
         /**
          * Slow yet universal buffer
          */
-        fun <T> boxing(size: Int): RingBuffer<T> {
+        public fun <T> boxing(size: Int): RingBuffer<T> {
             val buffer: MutableBuffer<T?> = MutableBuffer.boxing(size) { null }
             return RingBuffer(buffer)
         }

kmath-dimensions/src/commonMain/kotlin/scientifik/kmath/dimensions/Wrappers.kt

@@ -118,39 +118,39 @@ public inline class DMatrixContext<T : Any, Ri : Ring<T>>(public val context: Ge
         other: DMatrix<T, C1, C2>
     ): DMatrix<T, R1, C2> = context { this@dot dot other }.coerce()
 
-    inline infix fun <reified R : Dimension, reified C : Dimension> DMatrix<T, R, C>.dot(vector: DPoint<T, C>): DPoint<T, R> =
+    public inline infix fun <reified R : Dimension, reified C : Dimension> DMatrix<T, R, C>.dot(vector: DPoint<T, C>): DPoint<T, R> =
         DPoint.coerceUnsafe(context { this@dot dot vector })
 
-    inline operator fun <reified R : Dimension, reified C : Dimension> DMatrix<T, R, C>.times(value: T): DMatrix<T, R, C> =
+    public inline operator fun <reified R : Dimension, reified C : Dimension> DMatrix<T, R, C>.times(value: T): DMatrix<T, R, C> =
         context { this@times.times(value) }.coerce()
 
-    inline operator fun <reified R : Dimension, reified C : Dimension> T.times(m: DMatrix<T, R, C>): DMatrix<T, R, C> =
+    public inline operator fun <reified R : Dimension, reified C : Dimension> T.times(m: DMatrix<T, R, C>): DMatrix<T, R, C> =
         m * this
 
-    inline operator fun <reified R : Dimension, reified C : Dimension> DMatrix<T, C, R>.plus(other: DMatrix<T, C, R>): DMatrix<T, C, R> =
+    public inline operator fun <reified R : Dimension, reified C : Dimension> DMatrix<T, C, R>.plus(other: DMatrix<T, C, R>): DMatrix<T, C, R> =
         context { this@plus + other }.coerce()
 
-    inline operator fun <reified R : Dimension, reified C : Dimension> DMatrix<T, C, R>.minus(other: DMatrix<T, C, R>): DMatrix<T, C, R> =
+    public inline operator fun <reified R : Dimension, reified C : Dimension> DMatrix<T, C, R>.minus(other: DMatrix<T, C, R>): DMatrix<T, C, R> =
         context { this@minus + other }.coerce()
 
-    inline operator fun <reified R : Dimension, reified C : Dimension> DMatrix<T, C, R>.unaryMinus(): DMatrix<T, C, R> =
+    public inline operator fun <reified R : Dimension, reified C : Dimension> DMatrix<T, C, R>.unaryMinus(): DMatrix<T, C, R> =
         context { this@unaryMinus.unaryMinus() }.coerce()
 
-    inline fun <reified R : Dimension, reified C : Dimension> DMatrix<T, C, R>.transpose(): DMatrix<T, R, C> =
+    public inline fun <reified R : Dimension, reified C : Dimension> DMatrix<T, C, R>.transpose(): DMatrix<T, R, C> =
         context { (this@transpose as Matrix<T>).transpose() }.coerce()
 
     /**
      * A square unit matrix
      */
-    inline fun <reified D : Dimension> one(): DMatrix<T, D, D> = produce { i, j ->
+    public inline fun <reified D : Dimension> one(): DMatrix<T, D, D> = produce { i, j ->
         if (i == j) context.elementContext.one else context.elementContext.zero
     }
 
-    inline fun <reified R : Dimension, reified C : Dimension> zero(): DMatrix<T, R, C> = produce { _, _ ->
+    public inline fun <reified R : Dimension, reified C : Dimension> zero(): DMatrix<T, R, C> = produce { _, _ ->
         context.elementContext.zero
     }
 
-    companion object {
+    public companion object {
-        val real: DMatrixContext<Double, RealField> = DMatrixContext(MatrixContext.real)
+        public val real: DMatrixContext<Double, RealField> = DMatrixContext(MatrixContext.real)
     }
 }

kmath-for-real/src/commonMain/kotlin/scientifik/kmath/real/RealVector.kt

@@ -12,39 +12,38 @@ import scientifik.kmath.structures.asBuffer
 import scientifik.kmath.structures.asIterable
 import kotlin.math.sqrt
 
-typealias RealPoint = Point<Double>
+public typealias RealPoint = Point<Double>
 
-fun DoubleArray.asVector(): RealVector = RealVector(this.asBuffer())
+public fun DoubleArray.asVector(): RealVector = RealVector(this.asBuffer())
-fun List<Double>.asVector(): RealVector = RealVector(this.asBuffer())
+public fun List<Double>.asVector(): RealVector = RealVector(this.asBuffer())
 
-object VectorL2Norm : Norm<Point<out Number>, Double> {
+public object VectorL2Norm : Norm<Point<out Number>, Double> {
     override fun norm(arg: Point<out Number>): Double = sqrt(arg.asIterable().sumByDouble { it.toDouble() })
 }
 
-inline class RealVector(private val point: Point<Double>) :
+public inline class RealVector(private val point: Point<Double>) :
     SpaceElement<RealPoint, RealVector, VectorSpace<Double, RealField>>, RealPoint {
+    public override val size: Int get() = point.size
+    public override val context: VectorSpace<Double, RealField> get() = space(point.size)
 
-    override val context: VectorSpace<Double, RealField> get() = space(point.size)
+    public override fun unwrap(): RealPoint = point
 
-    override fun unwrap(): RealPoint = point
+    public override fun RealPoint.wrap(): RealVector = RealVector(this)
 
-    override fun RealPoint.wrap(): RealVector = RealVector(this)
-
-    override val size: Int get() = point.size
 
     override operator fun get(index: Int): Double = point[index]
 
     override operator fun iterator(): Iterator<Double> = point.iterator()
 
-    companion object {
+    public companion object {
         private val spaceCache: MutableMap<Int, BufferVectorSpace<Double, RealField>> = hashMapOf()
 
-        inline operator fun invoke(dim: Int, initializer: (Int) -> Double): RealVector =
+        public inline operator fun invoke(dim: Int, initializer: (Int) -> Double): RealVector =
             RealVector(RealBuffer(dim, initializer))
 
-        operator fun invoke(vararg values: Double): RealVector = values.asVector()
+        public operator fun invoke(vararg values: Double): RealVector = values.asVector()
 
-        fun space(dim: Int): BufferVectorSpace<Double, RealField> = spaceCache.getOrPut(dim) {
+        public fun space(dim: Int): BufferVectorSpace<Double, RealField> = spaceCache.getOrPut(dim) {
             BufferVectorSpace(dim, RealField) { size, init -> Buffer.real(size, init) }
         }
     }

kmath-for-real/src/commonMain/kotlin/scientifik/kmath/real/realBuffer.kt

@@ -5,4 +5,4 @@ import scientifik.kmath.structures.RealBuffer
 /**
  * Simplified [RealBuffer] to array comparison
  */
-fun RealBuffer.contentEquals(vararg doubles: Double) = array.contentEquals(doubles)
+public fun RealBuffer.contentEquals(vararg doubles: Double): Boolean = array.contentEquals(doubles)

kmath-for-real/src/commonMain/kotlin/scientifik/kmath/real/realMatrix.kt

@@ -138,11 +138,11 @@ public fun Matrix<Double>.sumByColumn(): RealBuffer = RealBuffer(colNum) { j ->
 }
 
 public fun Matrix<Double>.minByColumn(): RealBuffer = RealBuffer(colNum) { j ->
-    columns[j].asIterable().min() ?: error("Cannot produce min on empty column")
+    columns[j].asIterable().minOrNull() ?: error("Cannot produce min on empty column")
 }
 
 public fun Matrix<Double>.maxByColumn(): RealBuffer = RealBuffer(colNum) { j ->
-    columns[j].asIterable().max() ?: error("Cannot produce min on empty column")
+    columns[j].asIterable().maxOrNull() ?: error("Cannot produce min on empty column")
 }
 
 public fun Matrix<Double>.averageByColumn(): RealBuffer = RealBuffer(colNum) { j ->
@@ -154,6 +154,6 @@ public fun Matrix<Double>.averageByColumn(): RealBuffer = RealBuffer(colNum) { j
  */
 
 public fun Matrix<Double>.sum(): Double = elements().map { (_, value) -> value }.sum()
-public fun Matrix<Double>.min(): Double? = elements().map { (_, value) -> value }.min()
+public fun Matrix<Double>.min(): Double? = elements().map { (_, value) -> value }.minOrNull()
-public fun Matrix<Double>.max(): Double? = elements().map { (_, value) -> value }.max()
+public fun Matrix<Double>.max(): Double? = elements().map { (_, value) -> value }.maxOrNull()
 public fun Matrix<Double>.average(): Double = elements().map { (_, value) -> value }.average()

kmath-functions/src/commonMain/kotlin/scientifik/kmath/functions/Polynomial.kt

@@ -36,8 +36,10 @@ public fun <T : Any, C : Ring<T>> Polynomial<T>.value(ring: C, arg: T): T = ring
 /**
  * Represent a polynomial as a context-dependent function
  */
-public fun <T : Any, C : Ring<T>> Polynomial<T>.asMathFunction(): MathFunction<T, out C, T> =
+public fun <T : Any, C : Ring<T>> Polynomial<T>.asMathFunction(): MathFunction<T, C, T> =
-    MathFunction { arg -> value(this, arg) }
+    object : MathFunction<T, C, T> {
+        override fun C.invoke(arg: T): T = value(this, arg)
+    }
 
 /**
  * Represent the polynomial as a regular context-less function

kmath-functions/src/commonMain/kotlin/scientifik/kmath/functions/functions.kt

@@ -3,13 +3,14 @@ package scientifik.kmath.functions
 import scientifik.kmath.operations.Algebra
 import scientifik.kmath.operations.RealField
 
+// TODO make fun interface when KT-41770 is fixed
 /**
  * A regular function that could be called only inside specific algebra context
  * @param T source type
  * @param C source algebra constraint
  * @param R result type
  */
-public fun interface MathFunction<T, C : Algebra<T>, R> {
+public /*fun*/ interface MathFunction<T, C : Algebra<T>, R> {
     public operator fun C.invoke(arg: T): R
 }
 

kmath-functions/src/commonMain/kotlin/scientifik/kmath/interpolation/SplineInterpolator.kt

@@ -15,15 +15,11 @@ public class SplineInterpolator<T : Comparable<T>>(
     public override val algebra: Field<T>,
     public val bufferFactory: MutableBufferFactory<T>
 ) : PolynomialInterpolator<T> {
-
     //TODO possibly optimize zeroed buffers
 
     public override fun interpolatePolynomials(points: XYPointSet<T, T>): PiecewisePolynomial<T> = algebra {
-        if (points.size < 3) {
+        require(points.size >= 3) { "Can't use spline interpolator with less than 3 points" }
-            error("Can't use spline interpolator with less than 3 points")
-        }
         insureSorted(points)
-
         // Number of intervals.  The number of data points is n + 1.
         val n = points.size - 1
         // Differences between knot points
@@ -34,6 +30,7 @@ public class SplineInterpolator<T : Comparable<T>>(
         for (i in 1 until n) {
             val g = 2.0 * (points.x[i + 1] - points.x[i - 1]) - h[i - 1] * mu[i - 1]
             mu[i] = h[i] / g
+
             z[i] =
                 (3.0 * (points.y[i + 1] * h[i - 1] - points.x[i] * (points.x[i + 1] - points.x[i - 1]) + points.y[i - 1] * h[i]) / (h[i - 1] * h[i])
                         - h[i - 1] * z[i - 1]) / g
@@ -54,7 +51,5 @@ public class SplineInterpolator<T : Comparable<T>>(
                 putLeft(points.x[j], polynomial)
             }
         }
-
     }
-
 }

kmath-histograms/src/commonMain/kotlin/scientifik/kmath/histogram/Counters.kt

@@ -5,16 +5,16 @@ package scientifik.kmath.histogram
  * TODO replace with atomics
  */
 
-expect class LongCounter() {
+public expect class LongCounter() {
-    fun decrement()
+    public fun decrement()
-    fun increment()
+    public fun increment()
-    fun reset()
+    public fun reset()
-    fun sum(): Long
+    public fun sum(): Long
-    fun add(l: Long)
+    public fun add(l: Long)
 }
 
-expect class DoubleCounter() {
+public expect class DoubleCounter() {
-    fun reset()
+    public fun reset()
-    fun sum(): Double
+    public fun sum(): Double
-    fun add(d: Double)
+    public fun add(d: Double)
 }

kmath-histograms/src/commonMain/kotlin/scientifik/kmath/histogram/Histogram.kt

@@ -11,49 +11,47 @@ import kotlin.contracts.contract
 /**
  * The bin in the histogram. The histogram is by definition always done in the real space
  */
-interface Bin<T : Any> : Domain<T> {
+public interface Bin<T : Any> : Domain<T> {
     /**
      * The value of this bin
      */
-    val value: Number
+    public val value: Number
-    val center: Point<T>
+    public val center: Point<T>
 }
 
-interface Histogram<T : Any, out B : Bin<T>> : Iterable<B> {
+public interface Histogram<T : Any, out B : Bin<T>> : Iterable<B> {
-
     /**
      * Find existing bin, corresponding to given coordinates
      */
-    operator fun get(point: Point<out T>): B?
+    public operator fun get(point: Point<out T>): B?
 
     /**
      * Dimension of the histogram
      */
-    val dimension: Int
+    public val dimension: Int
 
 }
 
-interface MutableHistogram<T : Any, out B : Bin<T>> : Histogram<T, B> {
+public interface MutableHistogram<T : Any, out B : Bin<T>> : Histogram<T, B> {
 
     /**
      * Increment appropriate bin
      */
-    fun putWithWeight(point: Point<out T>, weight: Double)
+    public fun putWithWeight(point: Point<out T>, weight: Double)
 
-    fun put(point: Point<out T>): Unit = putWithWeight(point, 1.0)
+    public fun put(point: Point<out T>): Unit = putWithWeight(point, 1.0)
 }
 
-fun <T : Any> MutableHistogram<T, *>.put(vararg point: T): Unit = put(ArrayBuffer(point))
+public fun <T : Any> MutableHistogram<T, *>.put(vararg point: T): Unit = put(ArrayBuffer(point))
 
-fun MutableHistogram<Double, *>.put(vararg point: Number): Unit =
+public fun MutableHistogram<Double, *>.put(vararg point: Number): Unit =
     put(RealBuffer(point.map { it.toDouble() }.toDoubleArray()))
 
-fun MutableHistogram<Double, *>.put(vararg point: Double): Unit = put(RealBuffer(point))
+public fun MutableHistogram<Double, *>.put(vararg point: Double): Unit = put(RealBuffer(point))
-
+public fun <T : Any> MutableHistogram<T, *>.fill(sequence: Iterable<Point<T>>): Unit = sequence.forEach { put(it) }
-fun <T : Any> MutableHistogram<T, *>.fill(sequence: Iterable<Point<T>>): Unit = sequence.forEach { put(it) }
 
 /**
  * Pass a sequence builder into histogram
  */
-fun <T : Any> MutableHistogram<T, *>.fill(block: suspend SequenceScope<Point<T>>.() -> Unit): Unit =
+public fun <T : Any> MutableHistogram<T, *>.fill(block: suspend SequenceScope<Point<T>>.() -> Unit): Unit =
     fill(sequence(block).asIterable())

kmath-histograms/src/commonMain/kotlin/scientifik/kmath/histogram/RealHistogram.kt

@@ -7,9 +7,12 @@ import scientifik.kmath.real.asVector
 import scientifik.kmath.structures.*
 import kotlin.math.floor
 
-
+public data class BinDef<T : Comparable<T>>(
-data class BinDef<T : Comparable<T>>(val space: SpaceOperations<Point<T>>, val center: Point<T>, val sizes: Point<T>) {
+    public val space: SpaceOperations<Point<T>>,
-    fun contains(vector: Point<out T>): Boolean {
+    public val center: Point<T>,
+    public val sizes: Point<T>
+) {
+    public fun contains(vector: Point<out T>): Boolean {
         require(vector.size == center.size) { "Dimension mismatch for input vector. Expected ${center.size}, but found ${vector.size}" }
         val upper = space { center + sizes / 2.0 }
         val lower = space { center - sizes / 2.0 }
@@ -18,21 +21,20 @@ data class BinDef<T : Comparable<T>>(val space: SpaceOperations<Point<T>>, val c
 }
 
 
-class MultivariateBin<T : Comparable<T>>(val def: BinDef<T>, override val value: Number) : Bin<T> {
+public class MultivariateBin<T : Comparable<T>>(public val def: BinDef<T>, public override val value: Number) : Bin<T> {
-    override operator fun contains(point: Point<T>): Boolean = def.contains(point)
+    public override val dimension: Int
-
-    override val dimension: Int
         get() = def.center.size
 
-    override val center: Point<T>
+    public override val center: Point<T>
         get() = def.center
 
+    public override operator fun contains(point: Point<T>): Boolean = def.contains(point)
 }
 
 /**
  * Uniform multivariate histogram with fixed borders. Based on NDStructure implementation with complexity of m for bin search, where m is the number of dimensions.
  */
-class RealHistogram(
+public class RealHistogram(
     private val lower: Buffer<Double>,
     private val upper: Buffer<Double>,
     private val binNums: IntArray = IntArray(lower.size) { 20 }
@@ -40,7 +42,7 @@ class RealHistogram(
     private val strides = DefaultStrides(IntArray(binNums.size) { binNums[it] + 2 })
     private val values: NDStructure<LongCounter> = NDStructure.auto(strides) { LongCounter() }
     private val weights: NDStructure<DoubleCounter> = NDStructure.auto(strides) { DoubleCounter() }
-    override val dimension: Int get() = lower.size
+    public override val dimension: Int get() = lower.size
     private val binSize = RealBuffer(dimension) { (upper[it] - lower[it]) / binNums[it] }
 
     init {
@@ -64,7 +66,7 @@ class RealHistogram(
 
     private fun getValue(index: IntArray): Long = values[index].sum()
 
-    fun getValue(point: Buffer<out Double>): Long = getValue(getIndex(point))
+    public fun getValue(point: Buffer<out Double>): Long = getValue(getIndex(point))
 
     private fun getDef(index: IntArray): BinDef<Double> {
         val center = index.mapIndexed { axis, i ->
@@ -78,9 +80,9 @@ class RealHistogram(
         return BinDef(RealBufferFieldOperations, center, binSize)
     }
 
-    fun getDef(point: Buffer<out Double>): BinDef<Double> = getDef(getIndex(point))
+    public fun getDef(point: Buffer<out Double>): BinDef<Double> = getDef(getIndex(point))
 
-    override operator fun get(point: Buffer<out Double>): MultivariateBin<Double>? {
+    public override operator fun get(point: Buffer<out Double>): MultivariateBin<Double>? {
         val index = getIndex(point)
         return MultivariateBin(getDef(index), getValue(index))
     }
@@ -90,27 +92,27 @@ class RealHistogram(
 //        values[index].increment()
 //    }
 
-    override fun putWithWeight(point: Buffer<out Double>, weight: Double) {
+    public override fun putWithWeight(point: Buffer<out Double>, weight: Double) {
         val index = getIndex(point)
         values[index].increment()
         weights[index].add(weight)
     }
 
-    override operator fun iterator(): Iterator<MultivariateBin<Double>> = weights.elements().map { (index, value) ->
+    public override operator fun iterator(): Iterator<MultivariateBin<Double>> =
-        MultivariateBin(getDef(index), value.sum())
+        weights.elements().map { (index, value) -> MultivariateBin(getDef(index), value.sum()) }
-    }.iterator()
+            .iterator()
 
     /**
      * Convert this histogram into NDStructure containing bin values but not bin descriptions
      */
-    fun values(): NDStructure<Number> = NDStructure.auto(values.shape) { values[it].sum() }
+    public fun values(): NDStructure<Number> = NDStructure.auto(values.shape) { values[it].sum() }
 
     /**
      * Sum of weights
      */
-    fun weights(): NDStructure<Double> = NDStructure.auto(weights.shape) { weights[it].sum() }
+    public fun weights(): NDStructure<Double> = NDStructure.auto(weights.shape) { weights[it].sum() }
 
-    companion object {
+    public companion object {
         /**
          * Use it like
          * ```
@@ -120,9 +122,9 @@ class RealHistogram(
          *)
          *```
          */
-        fun fromRanges(vararg ranges: ClosedFloatingPointRange<Double>): RealHistogram = RealHistogram(
+        public fun fromRanges(vararg ranges: ClosedFloatingPointRange<Double>): RealHistogram = RealHistogram(
-            ranges.map { it.start }.asVector(),
+            ranges.map(ClosedFloatingPointRange<Double>::start).asVector(),
-            ranges.map { it.endInclusive }.asVector()
+            ranges.map(ClosedFloatingPointRange<Double>::endInclusive).asVector()
         )
 
         /**
@@ -134,10 +136,21 @@ class RealHistogram(
          *)
          *```
          */
-        fun fromRanges(vararg ranges: Pair<ClosedFloatingPointRange<Double>, Int>): RealHistogram = RealHistogram(
+        public fun fromRanges(vararg ranges: Pair<ClosedFloatingPointRange<Double>, Int>): RealHistogram =
-            ListBuffer(ranges.map { it.first.start }),
+            RealHistogram(
-            ListBuffer(ranges.map { it.first.endInclusive }),
+                ListBuffer(
-            ranges.map { it.second }.toIntArray()
+                    ranges
-        )
+                        .map(Pair<ClosedFloatingPointRange<Double>, Int>::first)
+                        .map(ClosedFloatingPointRange<Double>::start)
+                ),
+
+                ListBuffer(
+                    ranges
+                        .map(Pair<ClosedFloatingPointRange<Double>, Int>::first)
+                        .map(ClosedFloatingPointRange<Double>::endInclusive)
+                ),
+
+                ranges.map(Pair<ClosedFloatingPointRange<Double>, Int>::second).toIntArray()
+            )
     }
 }

kmath-histograms/src/commonTest/kotlin/scietifik/kmath/histogram/MultivariateHistogramTest.kt

@@ -10,7 +10,7 @@ import kotlin.test.assertEquals
 import kotlin.test.assertFalse
 import kotlin.test.assertTrue
 
-class MultivariateHistogramTest {
+internal class MultivariateHistogramTest {
     @Test
     fun testSinglePutHistogram() {
         val histogram = RealHistogram.fromRanges(

kmath-histograms/src/jsMain/kotlin/scientifik/kmath/histogram/Counters.kt

@@ -1,33 +1,37 @@
 package scientifik.kmath.histogram
 
-actual class LongCounter {
+public actual class LongCounter {
-    private var sum: Long = 0
+    private var sum: Long = 0L
-    actual fun decrement() {
+
+    public actual fun decrement() {
         sum--
     }
 
-    actual fun increment() {
+    public actual fun increment() {
         sum++
     }
 
-    actual fun reset() {
+    public actual fun reset() {
         sum = 0
     }
 
-    actual fun sum(): Long = sum
+    public actual fun sum(): Long = sum
-    actual fun add(l: Long) {
+
+    public actual fun add(l: Long) {
         sum += l
     }
 }
 
-actual class DoubleCounter {
+public actual class DoubleCounter {
     private var sum: Double = 0.0
-    actual fun reset() {
+
+    public actual fun reset() {
         sum = 0.0
     }
 
-    actual fun sum(): Double = sum
+    public actual fun sum(): Double = sum
-    actual fun add(d: Double) {
+
+    public actual fun add(d: Double) {
         sum += d
     }
 }

kmath-histograms/src/jvmMain/kotlin/scientifik/kmath/histogram/Counters.kt

@@ -3,5 +3,5 @@ package scientifik.kmath.histogram
 import java.util.concurrent.atomic.DoubleAdder
 import java.util.concurrent.atomic.LongAdder
 
-actual typealias LongCounter = LongAdder
+public actual typealias LongCounter = LongAdder
-actual typealias DoubleCounter = DoubleAdder
+public actual typealias DoubleCounter = DoubleAdder

kmath-histograms/src/jvmMain/kotlin/scientifik/kmath/histogram/UnivariateHistogram.kt

@@ -8,25 +8,26 @@ import kotlin.math.floor
 
 //TODO move to common
 
-class UnivariateBin(val position: Double, val size: Double, val counter: LongCounter = LongCounter()) : Bin<Double> {
+public class UnivariateBin(
+    public val position: Double,
+    public val size: Double,
+    public val counter: LongCounter = LongCounter()
+) : Bin<Double> {
     //TODO add weighting
-    override val value: Number get() = counter.sum()
+    public override val value: Number get() = counter.sum()
 
-    override val center: RealVector get() = doubleArrayOf(position).asVector()
+    public override val center: RealVector get() = doubleArrayOf(position).asVector()
+    public override val dimension: Int get() = 1
 
-    operator fun contains(value: Double): Boolean = value in (position - size / 2)..(position + size / 2)
+    public operator fun contains(value: Double): Boolean = value in (position - size / 2)..(position + size / 2)
-
+    public override fun contains(point: Buffer<Double>): Boolean = contains(point[0])
-    override fun contains(point: Buffer<Double>): Boolean = contains(point[0])
+    internal operator fun inc(): UnivariateBin = this.also { counter.increment() }
-
-    internal operator fun inc() = this.also { counter.increment() }
-
-    override val dimension: Int get() = 1
 }
 
 /**
  * Univariate histogram with log(n) bin search speed
  */
-class UnivariateHistogram private constructor(private val factory: (Double) -> UnivariateBin) :
+public class UnivariateHistogram private constructor(private val factory: (Double) -> UnivariateBin) :
     MutableHistogram<Double, UnivariateBin> {
 
     private val bins: TreeMap<Double, UnivariateBin> = TreeMap()
@@ -46,16 +47,16 @@ class UnivariateHistogram private constructor(private val factory: (Double) -> U
         synchronized(this) { bins.put(it.position, it) }
     }
 
-    override operator fun get(point: Buffer<out Double>): UnivariateBin? = get(point[0])
+    public override operator fun get(point: Buffer<out Double>): UnivariateBin? = get(point[0])
 
-    override val dimension: Int get() = 1
+    public override val dimension: Int get() = 1
 
-    override operator fun iterator(): Iterator<UnivariateBin> = bins.values.iterator()
+    public override operator fun iterator(): Iterator<UnivariateBin> = bins.values.iterator()
 
     /**
      * Thread safe put operation
      */
-    fun put(value: Double) {
+    public fun put(value: Double) {
         (get(value) ?: createBin(value)).inc()
     }
 
@@ -64,13 +65,13 @@ class UnivariateHistogram private constructor(private val factory: (Double) -> U
         put(point[0])
     }
 
-    companion object {
+    public companion object {
-        fun uniform(binSize: Double, start: Double = 0.0): UnivariateHistogram = UnivariateHistogram { value ->
+        public fun uniform(binSize: Double, start: Double = 0.0): UnivariateHistogram = UnivariateHistogram { value ->
             val center = start + binSize * floor((value - start) / binSize + 0.5)
             UnivariateBin(center, binSize)
         }
 
-        fun custom(borders: DoubleArray): UnivariateHistogram {
+        public fun custom(borders: DoubleArray): UnivariateHistogram {
             val sorted = borders.sortedArray()
 
             return UnivariateHistogram { value ->
@@ -79,10 +80,12 @@ class UnivariateHistogram private constructor(private val factory: (Double) -> U
                         Double.NEGATIVE_INFINITY,
                         Double.MAX_VALUE
                     )
+
                     value > sorted.last() -> UnivariateBin(
                         Double.POSITIVE_INFINITY,
                         Double.MAX_VALUE
                     )
+
                     else -> {
                         val index = (0 until sorted.size).first { value > sorted[it] }
                         val left = sorted[index]
@@ -95,4 +98,4 @@ class UnivariateHistogram private constructor(private val factory: (Double) -> U
     }
 }
 
-fun UnivariateHistogram.fill(sequence: Iterable<Double>) = sequence.forEach { put(it) }
+public fun UnivariateHistogram.fill(sequence: Iterable<Double>): Unit = sequence.forEach(::put)

kmath-prob/src/commonMain/kotlin/scientifik/kmath/prob/Distribution.kt

@@ -5,19 +5,19 @@ import scientifik.kmath.chains.collect
 import scientifik.kmath.structures.Buffer
 import scientifik.kmath.structures.BufferFactory
 
-interface Sampler<T : Any> {
+public interface Sampler<T : Any> {
-    fun sample(generator: RandomGenerator): Chain<T>
+    public fun sample(generator: RandomGenerator): Chain<T>
 }
 
 /**
  * A distribution of typed objects
  */
-interface Distribution<T : Any> : Sampler<T> {
+public interface Distribution<T : Any> : Sampler<T> {
     /**
      * A probability value for given argument [arg].
      * For continuous distributions returns PDF
      */
-    fun probability(arg: T): Double
+    public fun probability(arg: T): Double
 
     /**
      * Create a chain of samples from this distribution.
@@ -28,20 +28,20 @@ interface Distribution<T : Any> : Sampler<T> {
     /**
      * An empty companion. Distribution factories should be written as its extensions
      */
-    companion object
+    public companion object
 }
 
-interface UnivariateDistribution<T : Comparable<T>> : Distribution<T> {
+public interface UnivariateDistribution<T : Comparable<T>> : Distribution<T> {
     /**
      * Cumulative distribution for ordered parameter (CDF)
      */
-    fun cumulative(arg: T): Double
+    public fun cumulative(arg: T): Double
 }
 
 /**
  * Compute probability integral in an interval
  */
-fun <T : Comparable<T>> UnivariateDistribution<T>.integral(from: T, to: T): Double {
+public fun <T : Comparable<T>> UnivariateDistribution<T>.integral(from: T, to: T): Double {
     require(to > from)
     return cumulative(to) - cumulative(from)
 }
@@ -49,7 +49,7 @@ fun <T : Comparable<T>> UnivariateDistribution<T>.integral(from: T, to: T): Doub
 /**
  * Sample a bunch of values
  */
-fun <T : Any> Sampler<T>.sampleBuffer(
+public fun <T : Any> Sampler<T>.sampleBuffer(
     generator: RandomGenerator,
     size: Int,
     bufferFactory: BufferFactory<T> = Buffer.Companion::boxing
@@ -57,6 +57,7 @@ fun <T : Any> Sampler<T>.sampleBuffer(
     require(size > 1)
     //creating temporary storage once
     val tmp = ArrayList<T>(size)
+
     return sample(generator).collect { chain ->
         //clear list from previous run
         tmp.clear()
@@ -72,5 +73,5 @@ fun <T : Any> Sampler<T>.sampleBuffer(
 /**
  * Generate a bunch of samples from real distributions
  */
-fun Sampler<Double>.sampleBuffer(generator: RandomGenerator, size: Int) =
+public fun Sampler<Double>.sampleBuffer(generator: RandomGenerator, size: Int) =
     sampleBuffer(generator, size, Buffer.Companion::real)

kmath-prob/src/jvmMain/kotlin/scientifik/kmath/prob/distributions.kt

@@ -12,33 +12,29 @@ import kotlin.math.pow
 import kotlin.math.sqrt
 
 public abstract class ContinuousSamplerDistribution : Distribution<Double> {
-
     private inner class ContinuousSamplerChain(val generator: RandomGenerator) : BlockingRealChain() {
         private val sampler = buildCMSampler(generator)
 
-        override fun nextDouble(): Double = sampler.sample()
+        public override fun nextDouble(): Double = sampler.sample()
-
+        public override fun fork(): Chain<Double> = ContinuousSamplerChain(generator.fork())
-        override fun fork(): Chain<Double> = ContinuousSamplerChain(generator.fork())
     }
 
     protected abstract fun buildCMSampler(generator: RandomGenerator): ContinuousSampler
 
-    override fun sample(generator: RandomGenerator): BlockingRealChain = ContinuousSamplerChain(generator)
+    public override fun sample(generator: RandomGenerator): BlockingRealChain = ContinuousSamplerChain(generator)
 }
 
 public abstract class DiscreteSamplerDistribution : Distribution<Int> {
-
     private inner class ContinuousSamplerChain(val generator: RandomGenerator) : BlockingIntChain() {
         private val sampler = buildSampler(generator)
 
-        override fun nextInt(): Int = sampler.sample()
+        public override fun nextInt(): Int = sampler.sample()
-
+        public override fun fork(): Chain<Int> = ContinuousSamplerChain(generator.fork())
-        override fun fork(): Chain<Int> = ContinuousSamplerChain(generator.fork())
     }
 
     protected abstract fun buildSampler(generator: RandomGenerator): DiscreteSampler
 
-    override fun sample(generator: RandomGenerator): BlockingIntChain = ContinuousSamplerChain(generator)
+    public override fun sample(generator: RandomGenerator): BlockingIntChain = ContinuousSamplerChain(generator)
 }
 
 public enum class NormalSamplerMethod {
@@ -58,7 +54,7 @@ public fun Distribution.Companion.normal(
     method: NormalSamplerMethod = NormalSamplerMethod.Ziggurat
 ): Distribution<Double> = object : ContinuousSamplerDistribution() {
     override fun buildCMSampler(generator: RandomGenerator): ContinuousSampler {
-        val provider: UniformRandomProvider = generator.asUniformRandomProvider()
+        val provider = generator.asUniformRandomProvider()
         return normalSampler(method, provider)
     }
 
@@ -76,34 +72,27 @@ public fun Distribution.Companion.normal(
     private val norm = sigma * sqrt(PI * 2)
 
     override fun buildCMSampler(generator: RandomGenerator): ContinuousSampler {
-        val provider: UniformRandomProvider = generator.asUniformRandomProvider()
+        val provider = generator.asUniformRandomProvider()
         val normalizedSampler = normalSampler(method, provider)
         return GaussianSampler(normalizedSampler, mean, sigma)
     }
 
-    override fun probability(arg: Double): Double {
+    override fun probability(arg: Double): Double = exp(-(arg - mean).pow(2) / 2 / sigma2) / norm
-        return exp(-(arg - mean).pow(2) / 2 / sigma2) / norm
-    }
 }
 
-public fun Distribution.Companion.poisson(
+public fun Distribution.Companion.poisson(lambda: Double): DiscreteSamplerDistribution =
-    lambda: Double
+    object : DiscreteSamplerDistribution() {
-): DiscreteSamplerDistribution = object : DiscreteSamplerDistribution() {
+        private val computedProb: MutableMap<Int, Double> = hashMapOf(0 to exp(-lambda))
 
-    override fun buildSampler(generator: RandomGenerator): DiscreteSampler {
+        override fun buildSampler(generator: RandomGenerator): DiscreteSampler =
-        return PoissonSampler.of(generator.asUniformRandomProvider(), lambda)
+            PoissonSampler.of(generator.asUniformRandomProvider(), lambda)
-    }
 
-    private val computedProb: HashMap<Int, Double> = hashMapOf(0 to exp(-lambda))
+        override fun probability(arg: Int): Double {
+            require(arg >= 0) { "The argument must be >= 0" }
 
-    override fun probability(arg: Int): Double {
+            return if (arg > 40)
-        require(arg >= 0) { "The argument must be >= 0" }
+                exp(-(arg - lambda).pow(2) / 2 / lambda) / sqrt(2 * PI * lambda)
-        return if (arg > 40) {
+            else
-            exp(-(arg - lambda).pow(2) / 2 / lambda) / sqrt(2 * PI * lambda)
+                computedProb.getOrPut(arg) { probability(arg - 1) * lambda / arg }
-        } else {
-            computedProb.getOrPut(arg) {
-                probability(arg - 1) * lambda / arg
-            }
         }
     }
-}

settings.gradle.kts

@@ -27,7 +27,6 @@ include(
     ":kmath-memory",
     ":kmath-core",
     ":kmath-functions",
-//    ":kmath-io",
     ":kmath-coroutines",
     ":kmath-histograms",
     ":kmath-commons",
@@ -38,6 +37,6 @@ include(
     ":kmath-dimensions",
     ":kmath-for-real",
     ":kmath-geometry",
-    ":kmath-ast",
+//    ":kmath-ast",
     ":examples"
 )