Merge pull request 'Fix #532 by making ShapeND a non-value class' (!522) from bug/defaultStridesCache into dev

Reviewed-on: kscience/kmath#522
Reviewed-by: Alexander Nozik <altavir@gmail.com>

.gitignore

@@ -5,6 +5,7 @@ out/
 .idea/
 .vscode/
 .fleet/
+.kotlin/
 
 
 # Avoid ignoring Gradle wrapper jar file (.jar files are usually ignored)

.space.kts

@@ -34,7 +34,7 @@ job("Publish") {
             api.space().projects.automation.deployments.start(
                 project = api.projectIdentifier(),
                 targetIdentifier = TargetIdentifier.Key(projectName),
-                version = version+revisionSuffix,
+                version = version + revisionSuffix,
                 // automatically update deployment status based on the status of a job
                 syncWithAutomationJob = true
             )

CHANGELOG.md

@@ -3,27 +3,62 @@
 ## Unreleased
 
 ### Added
-- Integer division algebras
-- Float32 geometries
 
 ### Changed
-- Default naming for algebra and buffers now uses IntXX/FloatXX notation instead of Java types.
-- Remove unnecessary inlines in basic algebras.
-- QuaternionField -> QuaternionAlgebra and does not implement `Field` anymore since it is non-commutative
-- kmath-geometry is split into `euclidean2d` and `euclidean3d`
 
 ### Deprecated
 
 ### Removed
 
 ### Fixed
-- Median statistics
 
 ### Security
 
+## 0.4.0-dev-3 - 2024-02-18
+
+### Added
+
+- Reification. Explicit `SafeType` for algebras.
+- Integer division algebras.
+- Float32 geometries.
+- New Attributes-kt module that could be used as stand-alone. It declares. type-safe attributes containers.
+- Explicit `mutableStructureND` builders for mutable structures.
+- `Buffer.asList()` zero-copy transformation.
+- Wasm support.
+- Parallel implementation of `LinearSpace` for Float64
+- Parallel buffer factories
+
+### Changed
+
+- Buffer copy removed from API (added as an extension).
+- Default naming for algebra and buffers now uses IntXX/FloatXX notation instead of Java types.
+- Remove unnecessary inlines in basic algebras.
+- QuaternionField -> QuaternionAlgebra and does not implement `Field` anymore since it is non-commutative
+- kmath-geometry is split into `euclidean2d` and `euclidean3d`
+- Features replaced with Attributes.
+- Transposed refactored.
+- Kmath-memory is moved on top of core.
+
+### Deprecated
+
+- ND4J engine
+
+### Removed
+
+- `asPolynomial` function due to scope pollution
+- Codegend for ejml (450 lines of codegen for 1000 lines of code is too much)
+
+### Fixed
+
+- Median statistics
+- Complex power of negative real numbers
+- Add proper mutability for MutableBufferND rows and columns
+- Generic Float32 and Float64 vectors are used in geometry algebras.
+
 ## 0.3.1 - 2023-04-09
 
 ### Added
+
 - Wasm support for `memory`, `core`, `complex` and `functions` modules.
 - Generic builders for `BufferND` and `MutableBufferND`
 - `NamedMatrix` - matrix with symbol-based indexing
@@ -33,6 +68,8 @@
 - Algebra now has an obligatory `bufferFactory` (#477).
 
 ### Changed
+
+- Removed marker `Vector` type for geometry
 - Geometry uses type-safe angles
 - Tensor operations switched to prefix notation
 - Row-wise and column-wise ND shapes in the core
@@ -40,16 +77,19 @@
 - Major refactor of tensors (only minor API changes)
 - Kotlin 1.8.20
 - `LazyStructure` `deffered` -> `async` to comply with coroutines code style
-- Default `dot` operation in tensor algebra no longer support broadcasting. Instead `matmul` operation is added to `DoubleTensorAlgebra`.
+- Default `dot` operation in tensor algebra no longer support broadcasting. Instead `matmul` operation is added
+  to `DoubleTensorAlgebra`.
 - Multik went MPP
 
 ### Removed
+
 - Trajectory moved to https://github.com/SciProgCentre/maps-kt
 - Polynomials moved to https://github.com/SciProgCentre/kmath-polynomial
 
 ## 0.3.0
 
 ### Added
+
 - `ScaleOperations` interface
 - `Field` extends `ScaleOperations`
 - Basic integration API
@@ -74,6 +114,7 @@
 - Compilation to TeX for MST: #254
 
 ### Changed
+
 - Annotations moved to `space.kscience.kmath`
 - Exponential operations merged with hyperbolic functions
 - Space is replaced by Group. Space is reserved for vector spaces.
@@ -107,9 +148,11 @@
 - `UnivariateFunction` -> `Function1D`, `MultivariateFunction` -> `FunctionND`
 
 ### Deprecated
+
 - Specialized `DoubleBufferAlgebra`
 
 ### Removed
+
 - Nearest in Domain. To be implemented in geometry package.
 - Number multiplication and division in main Algebra chain
 - `contentEquals` from Buffer. It moved to the companion.
@@ -120,12 +163,14 @@
 - Algebra elements are completely removed. Use algebra contexts instead.
 
 ### Fixed
+
 - Ring inherits RingOperations, not GroupOperations
 - Univariate histogram filling
 
 ## 0.2.0
 
 ### Added
+
 - `fun` annotation for SAM interfaces in library
 - Explicit `public` visibility for all public APIs
 - Better trigonometric and hyperbolic functions for `AutoDiffField` (https://github.com/mipt-npm/kmath/pull/140)
@@ -145,6 +190,7 @@
 - Basic Quaternion vector support in `kmath-complex`.
 
 ### Changed
+
 - Package changed from `scientifik` to `space.kscience`
 - Gradle version: 6.6 -> 6.8.2
 - Minor exceptions refactor (throwing `IllegalArgumentException` by argument checks instead of `IllegalStateException`)
@@ -169,6 +215,7 @@
 - Add `out` projection to `Buffer` generic
 
 ### Removed
+
 - `kmath-koma` module because it doesn't support Kotlin 1.4.
 - Support of `legacy` JS backend (we will support only IR)
 - `toGrid` method.
@@ -177,20 +224,24 @@
 - StructureND identity and equals
 
 ### Fixed
+
 - `symbol` method in `MstExtendedField` (https://github.com/mipt-npm/kmath/pull/140)
 
 ## 0.1.4
 
 ### Added
+
 - Functional Expressions API
 - Mathematical Syntax Tree, its interpreter and API
 - String to MST parser (https://github.com/mipt-npm/kmath/pull/120)
 - MST to JVM bytecode translator (https://github.com/mipt-npm/kmath/pull/94)
 - FloatBuffer (specialized MutableBuffer over FloatArray)
 - FlaggedBuffer to associate primitive numbers buffer with flags (to mark values infinite or missing, etc.)
-- Specialized builder functions for all primitive buffers like `IntBuffer(25) { it + 1 }` (https://github.com/mipt-npm/kmath/pull/125)
+- Specialized builder functions for all primitive buffers
+  like `IntBuffer(25) { it + 1 }` (https://github.com/mipt-npm/kmath/pull/125)
 - Interface `NumericAlgebra` where `number` operation is available to convert numbers to algebraic elements
-- Inverse trigonometric functions support in ExtendedField (`asin`, `acos`, `atan`) (https://github.com/mipt-npm/kmath/pull/114)
+- Inverse trigonometric functions support in
+  ExtendedField (`asin`, `acos`, `atan`) (https://github.com/mipt-npm/kmath/pull/114)
 - New space extensions: `average` and `averageWith`
 - Local coding conventions
 - Geometric Domains API in `kmath-core`
@@ -199,10 +250,12 @@
 - Norm support for `Complex`
 
 ### Changed
+
 - `readAsMemory` now has `throws IOException` in JVM signature.
 - Several functions taking functional types were made `inline`.
 - Several functions taking functional types now have `callsInPlace` contracts.
-- BigInteger and BigDecimal algebra: JBigDecimalField has companion object with default math context; minor optimizations
+- BigInteger and BigDecimal algebra: JBigDecimalField has companion object with default math context; minor
+  optimizations
 - `power(T, Int)` extension function has preconditions and supports `Field<T>`
 - Memory objects have more preconditions (overflow checking)
 - `tg` function is renamed to `tan` (https://github.com/mipt-npm/kmath/pull/114)
@@ -210,6 +263,7 @@
 - Moved probability distributions to commons-rng and to `kmath-prob`
 
 ### Fixed
+
 - Missing copy method in Memory implementation on JS (https://github.com/mipt-npm/kmath/pull/106)
 - D3.dim value in `kmath-dimensions`
 - Multiplication in integer rings in `kmath-core` (https://github.com/mipt-npm/kmath/pull/101)

README.md

@@ -2,7 +2,7 @@
 [![DOI](https://zenodo.org/badge/129486382.svg)](https://zenodo.org/badge/latestdoi/129486382)
 ![Gradle build](https://github.com/SciProgCentre/kmath/workflows/Gradle%20build/badge.svg)
 [![Maven Central](https://img.shields.io/maven-central/v/space.kscience/kmath-core.svg?label=Maven%20Central)](https://search.maven.org/search?q=g:%22space.kscience%22)
-[![Space](https://img.shields.io/badge/dynamic/xml?color=orange&label=Space&query=//metadata/versioning/latest&url=https%3A%2F%2Fmaven.pkg.jetbrains.space%2Fmipt-npm%2Fp%2Fsci%2Fmaven%2Fspace%2Fkscience%2Fkmath-core%2Fmaven-metadata.xml)](https://maven.pkg.jetbrains.space/spc/p/sci/maven/space/kscience/)
+[![Space](https://img.shields.io/badge/dynamic/xml?color=orange&label=Space&query=//metadata/versioning/latest&url=https%3A%2F%2Fmaven.pkg.jetbrains.space%2Fmipt-npm%2Fp%2Fsci%2Fmaven%2Fspace%2Fkscience%2Fkmath-core%2Fmaven-metadata.xml)](https://maven.pkg.jetbrains.space/mipt-npm/p/sci/maven/space/kscience/)
 
 # KMath
 
@@ -11,18 +11,22 @@ analog to Python's NumPy library. Later we found that kotlin is much more flexib
 architecture designs. In contrast to `numpy` and `scipy` it is modular and has a lightweight core. The `numpy`-like
 experience could be achieved with [kmath-for-real](/kmath-for-real) extension module.
 
-[Documentation site (**WIP**)](https://SciProgCentre.github.io/kmath/)
+[Documentation site](https://SciProgCentre.github.io/kmath/)
 
 ## Publications and talks
 
 * [A conceptual article about context-oriented design](https://proandroiddev.com/an-introduction-context-oriented-programming-in-kotlin-2e79d316b0a2)
 * [Another article about context-oriented design](https://proandroiddev.com/diving-deeper-into-context-oriented-programming-in-kotlin-3ecb4ec38814)
 * [ACAT 2019 conference paper](https://aip.scitation.org/doi/abs/10.1063/1.5130103)
+* [A talk at KotlinConf 2019 about using kotlin for science](https://youtu.be/LI_5TZ7tnOE?si=4LknX41gl_YeUbIe)
+* [A talk on architecture at Joker-2021 (in Russian)](https://youtu.be/1bZ2doHiRRM?si=9w953ro9yu98X_KJ)
+* [The same talk in English](https://youtu.be/yP5DIc2fVwQ?si=louZzQ1dcXV6gP10)
+* [A seminar on tensor API](https://youtu.be/0H99wUs0xTM?si=6c__04jrByFQtVpo)
 
 # Goal
 
-* Provide a flexible and powerful API to work with mathematics abstractions in Kotlin-multiplatform (JVM, JS and Native)
-  .
+* Provide a flexible and powerful API to work with mathematics abstractions in Kotlin-multiplatform (JVM, JS, Native and
+  Wasm).
 * Provide basic multiplatform implementations for those abstractions (without significant performance optimization).
 * Provide bindings and wrappers with those abstractions for popular optimized platform libraries.
 
@@ -53,19 +57,21 @@ module definitions below. The module stability could have the following levels:
 ## Modules
 
 
-### [benchmarks](benchmarks)
+### [attributes-kt](attributes-kt)
+> An API and basic implementation for arranging objects in a continuous memory block.
 >
+> **Maturity**: DEVELOPMENT
+
+### [benchmarks](benchmarks)
 >
 > **Maturity**: EXPERIMENTAL
 
 ### [examples](examples)
 >
->
 > **Maturity**: EXPERIMENTAL
 
 ### [kmath-ast](kmath-ast)
 >
->
 > **Maturity**: EXPERIMENTAL
 >
 > **Features:**
@@ -76,7 +82,7 @@ module definitions below. The module stability could have the following levels:
 
 
 ### [kmath-commons](kmath-commons)
-> 
+> Commons math binding for kmath
 >
 > **Maturity**: EXPERIMENTAL
 
@@ -105,21 +111,20 @@ objects to the expression by providing a context. Expressions can be used for a
 performance calculations to code generation.
 > - [domains](kmath-core/src/commonMain/kotlin/space/kscience/kmath/domains) : Domains
 > - [autodiff](kmath-core/src/commonMain/kotlin/space/kscience/kmath/expressions/SimpleAutoDiff.kt) : Automatic differentiation
+> - [Parallel linear algebra](kmath-core/#) : Parallel implementation for `LinearAlgebra`
 
 
 ### [kmath-coroutines](kmath-coroutines)
 >
->
 > **Maturity**: EXPERIMENTAL
 
 ### [kmath-dimensions](kmath-dimensions)
-> 
+> A proof of concept module for adding type-safe dimensions to structures
 >
 > **Maturity**: PROTOTYPE
 
 ### [kmath-ejml](kmath-ejml)
 >
->
 > **Maturity**: PROTOTYPE
 >
 > **Features:**
@@ -142,7 +147,7 @@ One can still use generic algebras though.
 
 
 ### [kmath-functions](kmath-functions)
-> 
+> Functions, integration and interpolation
 >
 > **Maturity**: EXPERIMENTAL
 >
@@ -156,18 +161,16 @@ One can still use generic algebras though.
 
 ### [kmath-geometry](kmath-geometry)
 >
->
 > **Maturity**: PROTOTYPE
 
 ### [kmath-histograms](kmath-histograms)
 >
->
 > **Maturity**: PROTOTYPE
 
 ### [kmath-jafama](kmath-jafama)
+> Jafama integration module
 >
->
-> **Maturity**: PROTOTYPE
+> **Maturity**: DEPRECATED
 >
 > **Features:**
 > - [jafama-double](kmath-jafama/src/main/kotlin/space/kscience/kmath/jafama/) : Double ExtendedField implementations based on Jafama
@@ -175,11 +178,10 @@ One can still use generic algebras though.
 
 ### [kmath-jupyter](kmath-jupyter)
 >
->
 > **Maturity**: PROTOTYPE
 
 ### [kmath-kotlingrad](kmath-kotlingrad)
-> 
+> Kotlin∇ integration module
 >
 > **Maturity**: EXPERIMENTAL
 >
@@ -194,14 +196,14 @@ One can still use generic algebras though.
 > **Maturity**: DEVELOPMENT
 
 ### [kmath-multik](kmath-multik)
-> 
+> JetBrains Multik connector
 >
 > **Maturity**: PROTOTYPE
 
 ### [kmath-nd4j](kmath-nd4j)
+> ND4J NDStructure implementation and according NDAlgebra classes
 >
->
-> **Maturity**: EXPERIMENTAL
+> **Maturity**: DEPRECATED
 >
 > **Features:**
 > - [nd4jarraystructure](kmath-nd4j/#) : NDStructure wrapper for INDArray
@@ -211,27 +213,24 @@ One can still use generic algebras though.
 
 ### [kmath-optimization](kmath-optimization)
 >
->
 > **Maturity**: EXPERIMENTAL
 
 ### [kmath-stat](kmath-stat)
 >
->
 > **Maturity**: EXPERIMENTAL
 
 ### [kmath-symja](kmath-symja)
-> 
+> Symja integration module
 >
 > **Maturity**: PROTOTYPE
 
 ### [kmath-tensorflow](kmath-tensorflow)
-> 
+> Google tensorflow connector
 >
 > **Maturity**: PROTOTYPE
 
 ### [kmath-tensors](kmath-tensors)
 >
->
 > **Maturity**: PROTOTYPE
 >
 > **Features:**
@@ -241,13 +240,12 @@ One can still use generic algebras though.
 
 
 ### [kmath-viktor](kmath-viktor)
+> Binding for https://github.com/JetBrains-Research/viktor
 >
->
-> **Maturity**: DEVELOPMENT
+> **Maturity**: DEPRECATED
 
 ### [test-utils](test-utils)
 >
->
 > **Maturity**: EXPERIMENTAL
 
 
@@ -256,22 +254,24 @@ One can still use generic algebras though.
 KMath is developed as a multi-platform library, which means that most of the interfaces are declared in the
 [common source sets](/kmath-core/src/commonMain) and implemented there wherever it is possible. In some cases, features
 are delegated to platform-specific implementations even if they could be provided in the common module for performance
-reasons. Currently, the Kotlin/JVM is the primary platform, however Kotlin/Native and Kotlin/JS contributions and
+reasons. Currently, Kotlin/JVM is the primary platform, however, Kotlin/Native and Kotlin/JS contributions and
 feedback are also welcome.
 
 ## Performance
 
-Calculation performance is one of major goals of KMath in the future, but in some cases it is impossible to achieve both
+Calculation of performance is one of the major goals of KMath in the future, but in some cases it is impossible to
+achieve both
 performance and flexibility.
 
-We expect to focus on creating convenient universal API first and then work on increasing performance for specific
+We expect to focus on creating a convenient universal API first and then work on increasing performance for specific
 cases. We expect the worst KMath benchmarks will perform better than native Python, but worse than optimized
-native/SciPy (mostly due to boxing operations on primitive numbers). The best performance of optimized parts could be better than SciPy.
+native/SciPy (mostly due to boxing operations on primitive numbers). The best performance of optimized parts could be
+better than SciPy.
 
 ## Requirements
 
-KMath currently relies on JDK 11 for compilation and execution of Kotlin-JVM part. We recommend to use GraalVM-CE 11 for
-execution to get better performance.
+KMath currently relies on JDK 11 for compilation and execution of Kotlin-JVM part. We recommend using GraalVM-CE or
+Oracle GraalVM for execution to get better performance.
 
 ### Repositories
 
@@ -291,10 +291,10 @@ dependencies {
 }
 ```
 
-Gradle `6.0+` is required for multiplatform artifacts.
-
 ## Contributing
 
-The project requires a lot of additional work. The most important thing we need is a feedback about what features are
+The project requires a lot of additional work. The most important thing we need is feedback about what features are
 required the most. Feel free to create feature requests. We are also welcome to code contributions, especially in issues
-marked with [waiting for a hero](https://github.com/SciProgCentre/kmath/labels/waiting%20for%20a%20hero) label.
+marked
+with [good first issue](hhttps://github.com/SciProgCentre/kmath/issues?q=is%3Aissue+is%3Aopen+label%3A%22good+first+issue%22)
+label.

attributes-kt/README.md

@@ -0,0 +1,21 @@
+# Module attributes-kt
+
+
+
+## Usage
+
+## Artifact:
+
+The Maven coordinates of this project are `space.kscience:attributes-kt:0.1.0`.
+
+**Gradle Kotlin DSL:**
+```kotlin
+repositories {
+    maven("https://repo.kotlin.link")
+    mavenCentral()
+}
+
+dependencies {
+    implementation("space.kscience:attributes-kt:0.1.0")
+}
+```

attributes-kt/api/attributes-kt.api

@@ -0,0 +1,104 @@
+public abstract interface class space/kscience/attributes/Attribute {
+}
+
+public abstract interface class space/kscience/attributes/AttributeContainer {
+	public abstract fun getAttributes ()Lspace/kscience/attributes/Attributes;
+}
+
+public abstract interface class space/kscience/attributes/AttributeScope {
+}
+
+public abstract interface class space/kscience/attributes/AttributeWithDefault : space/kscience/attributes/Attribute {
+	public abstract fun getDefault ()Ljava/lang/Object;
+}
+
+public abstract interface class space/kscience/attributes/Attributes {
+	public static final field Companion Lspace/kscience/attributes/Attributes$Companion;
+	public abstract fun equals (Ljava/lang/Object;)Z
+	public fun get (Lspace/kscience/attributes/Attribute;)Ljava/lang/Object;
+	public abstract fun getContent ()Ljava/util/Map;
+	public fun getKeys ()Ljava/util/Set;
+	public abstract fun hashCode ()I
+	public abstract fun toString ()Ljava/lang/String;
+}
+
+public final class space/kscience/attributes/Attributes$Companion {
+	public final fun equals (Lspace/kscience/attributes/Attributes;Lspace/kscience/attributes/Attributes;)Z
+	public final fun getEMPTY ()Lspace/kscience/attributes/Attributes;
+}
+
+public final class space/kscience/attributes/AttributesBuilder : space/kscience/attributes/Attributes {
+	public final fun add (Lspace/kscience/attributes/SetAttribute;Ljava/lang/Object;)V
+	public final fun build ()Lspace/kscience/attributes/Attributes;
+	public fun equals (Ljava/lang/Object;)Z
+	public fun getContent ()Ljava/util/Map;
+	public fun hashCode ()I
+	public final fun invoke (Lspace/kscience/attributes/Attribute;Ljava/lang/Object;)V
+	public final fun put (Lspace/kscience/attributes/Attribute;Ljava/lang/Object;)V
+	public final fun putAll (Lspace/kscience/attributes/Attributes;)V
+	public final fun remove (Lspace/kscience/attributes/SetAttribute;Ljava/lang/Object;)V
+	public final fun set (Lspace/kscience/attributes/Attribute;Ljava/lang/Object;)V
+	public fun toString ()Ljava/lang/String;
+}
+
+public final class space/kscience/attributes/AttributesBuilderKt {
+	public static final fun Attributes (Lkotlin/jvm/functions/Function1;)Lspace/kscience/attributes/Attributes;
+}
+
+public final class space/kscience/attributes/AttributesKt {
+	public static final fun Attributes (Lspace/kscience/attributes/Attribute;)Lspace/kscience/attributes/Attributes;
+	public static final fun Attributes (Lspace/kscience/attributes/Attribute;Ljava/lang/Object;)Lspace/kscience/attributes/Attributes;
+	public static final fun getOrDefault (Lspace/kscience/attributes/Attributes;Lspace/kscience/attributes/AttributeWithDefault;)Ljava/lang/Object;
+	public static final fun isEmpty (Lspace/kscience/attributes/Attributes;)Z
+	public static final fun modified (Lspace/kscience/attributes/Attributes;Lkotlin/jvm/functions/Function1;)Lspace/kscience/attributes/Attributes;
+	public static final fun plus (Lspace/kscience/attributes/Attributes;Lspace/kscience/attributes/Attributes;)Lspace/kscience/attributes/Attributes;
+	public static final fun withAttribute (Lspace/kscience/attributes/Attributes;Lspace/kscience/attributes/Attribute;)Lspace/kscience/attributes/Attributes;
+	public static final fun withAttribute (Lspace/kscience/attributes/Attributes;Lspace/kscience/attributes/Attribute;Ljava/lang/Object;)Lspace/kscience/attributes/Attributes;
+	public static final fun withAttributeElement (Lspace/kscience/attributes/Attributes;Lspace/kscience/attributes/SetAttribute;Ljava/lang/Object;)Lspace/kscience/attributes/Attributes;
+	public static final fun withoutAttribute (Lspace/kscience/attributes/Attributes;Lspace/kscience/attributes/Attribute;)Lspace/kscience/attributes/Attributes;
+	public static final fun withoutAttributeElement (Lspace/kscience/attributes/Attributes;Lspace/kscience/attributes/SetAttribute;Ljava/lang/Object;)Lspace/kscience/attributes/Attributes;
+}
+
+public abstract interface class space/kscience/attributes/FlagAttribute : space/kscience/attributes/Attribute {
+}
+
+public abstract class space/kscience/attributes/PolymorphicAttribute : space/kscience/attributes/Attribute {
+	public synthetic fun <init> (Lkotlin/reflect/KType;Lkotlin/jvm/internal/DefaultConstructorMarker;)V
+	public fun equals (Ljava/lang/Object;)Z
+	public final fun getType-V0oMfBY ()Lkotlin/reflect/KType;
+	public fun hashCode ()I
+}
+
+public final class space/kscience/attributes/PolymorphicAttributeKt {
+	public static final fun get (Lspace/kscience/attributes/Attributes;Lkotlin/jvm/functions/Function0;)Ljava/lang/Object;
+	public static final fun set (Lspace/kscience/attributes/AttributesBuilder;Lkotlin/jvm/functions/Function0;Ljava/lang/Object;)V
+}
+
+public final class space/kscience/attributes/SafeType {
+	public static final synthetic fun box-impl (Lkotlin/reflect/KType;)Lspace/kscience/attributes/SafeType;
+	public static fun constructor-impl (Lkotlin/reflect/KType;)Lkotlin/reflect/KType;
+	public fun equals (Ljava/lang/Object;)Z
+	public static fun equals-impl (Lkotlin/reflect/KType;Ljava/lang/Object;)Z
+	public static final fun equals-impl0 (Lkotlin/reflect/KType;Lkotlin/reflect/KType;)Z
+	public final fun getKType ()Lkotlin/reflect/KType;
+	public fun hashCode ()I
+	public static fun hashCode-impl (Lkotlin/reflect/KType;)I
+	public fun toString ()Ljava/lang/String;
+	public static fun toString-impl (Lkotlin/reflect/KType;)Ljava/lang/String;
+	public final synthetic fun unbox-impl ()Lkotlin/reflect/KType;
+}
+
+public final class space/kscience/attributes/SafeTypeKt {
+	public static final fun getKClass-X0YbwmU (Lkotlin/reflect/KType;)Lkotlin/reflect/KClass;
+}
+
+public abstract interface class space/kscience/attributes/SetAttribute : space/kscience/attributes/Attribute {
+}
+
+public abstract interface annotation class space/kscience/attributes/UnstableAttributesAPI : java/lang/annotation/Annotation {
+}
+
+public abstract interface class space/kscience/attributes/WithType {
+	public abstract fun getType-V0oMfBY ()Lkotlin/reflect/KType;
+}
+

attributes-kt/build.gradle.kts

@@ -0,0 +1,20 @@
+plugins {
+    id("space.kscience.gradle.mpp")
+    `maven-publish`
+}
+
+version = rootProject.extra.get("attributesVersion").toString()
+
+kscience {
+    jvm()
+    js()
+    native()
+    wasm()
+}
+
+readme {
+    maturity = space.kscience.gradle.Maturity.DEVELOPMENT
+    description = """
+        An API and basic implementation for arranging objects in a continuous memory block.
+    """.trimIndent()
+}

attributes-kt/src/commonMain/kotlin/space/kscience/attributes/Attribute.kt

@@ -0,0 +1,29 @@
+/*
+ * Copyright 2018-2023 KMath contributors.
+ * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
+ */
+
+package space.kscience.attributes
+
+/**
+ * A marker interface for an attribute. Attributes are used as keys to access contents of type [T] in the container.
+ */
+public interface Attribute<T>
+
+/**
+ * An attribute that could be either present or absent
+ */
+public interface FlagAttribute : Attribute<Unit>
+
+/**
+ * An attribute with a default value
+ */
+public interface AttributeWithDefault<T> : Attribute<T> {
+    public val default: T
+}
+
+/**
+ * Attribute containing a set of values
+ */
+public interface SetAttribute<V> : Attribute<Set<V>>
+

attributes-kt/src/commonMain/kotlin/space/kscience/attributes/AttributeContainer.kt

@@ -0,0 +1,20 @@
+/*
+ * Copyright 2018-2023 KMath contributors.
+ * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
+ */
+
+package space.kscience.attributes
+
+/**
+ * A container for [Attributes]
+ */
+public interface AttributeContainer {
+    public val attributes: Attributes
+}
+
+/**
+ * A scope, where attribute keys could be resolved.
+ * [O] is used only to resolve types in compile-time.
+ */
+public interface AttributeScope<O>
+

attributes-kt/src/commonMain/kotlin/space/kscience/attributes/Attributes.kt

@@ -0,0 +1,143 @@
+/*
+ * Copyright 2018-2023 KMath contributors.
+ * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
+ */
+
+package space.kscience.attributes
+
+/**
+ * A set of attributes. The implementation must guarantee that [content] keys correspond to their value types.
+ */
+public interface Attributes {
+    /**
+     * Raw content for this [Attributes]
+     */
+    public val content: Map<out Attribute<*>, Any?>
+
+    /**
+     * Attribute keys contained in this [Attributes]
+     */
+    public val keys: Set<Attribute<*>> get() = content.keys
+
+    /**
+     * Provide an attribute value. Return null if attribute is not present or if its value is null.
+     */
+    @Suppress("UNCHECKED_CAST")
+    public operator fun <T> get(attribute: Attribute<T>): T? = content[attribute] as? T
+
+    override fun toString(): String
+    override fun equals(other: Any?): Boolean
+    override fun hashCode(): Int
+
+    public companion object {
+        public val EMPTY: Attributes = object : Attributes {
+            override val content: Map<out Attribute<*>, Any?> get() = emptyMap()
+
+            override fun toString(): String = "Attributes.EMPTY"
+
+            override fun equals(other: Any?): Boolean = (other as? Attributes)?.isEmpty() ?: false
+
+            override fun hashCode(): Int = Unit.hashCode()
+        }
+
+        public fun equals(a1: Attributes, a2: Attributes): Boolean =
+            a1.keys == a2.keys && a1.keys.all { a1[it] == a2[it] }
+    }
+}
+
+internal class MapAttributes(override val content: Map<out Attribute<*>, Any?>) : Attributes {
+    override fun toString(): String = "Attributes(value=${content.entries})"
+    override fun equals(other: Any?): Boolean = other is Attributes && Attributes.equals(this, other)
+    override fun hashCode(): Int = content.hashCode()
+}
+
+public fun Attributes.isEmpty(): Boolean = keys.isEmpty()
+
+/**
+ * Get attribute value or default
+ */
+public fun <T> Attributes.getOrDefault(attribute: AttributeWithDefault<T>): T = get(attribute) ?: attribute.default
+
+/**
+ * Check if there is an attribute that matches given key by type and adheres to [predicate].
+ */
+@Suppress("UNCHECKED_CAST")
+public inline fun <T, reified A : Attribute<T>> Attributes.hasAny(predicate: (value: T) -> Boolean): Boolean =
+    content.any { (mapKey, mapValue) -> mapKey is A && predicate(mapValue as T) }
+
+/**
+ * Check if there is an attribute of given type (subtypes included)
+ */
+public inline fun <reified A : Attribute<*>> Attributes.hasAny(): Boolean =
+    content.any { (mapKey, _) -> mapKey is A }
+
+/**
+ * Check if [Attributes] contains a flag. Multiple keys that are instances of a flag could be present
+ */
+public inline fun <reified A : FlagAttribute> Attributes.hasFlag(): Boolean =
+    content.keys.any { it is A }
+
+/**
+ * Create [Attributes] with an added or replaced attribute key.
+ */
+public fun <T, A : Attribute<T>> Attributes.withAttribute(
+    attribute: A,
+    attrValue: T,
+): Attributes = MapAttributes(content + (attribute to attrValue))
+
+public fun <A : Attribute<Unit>> Attributes.withAttribute(attribute: A): Attributes =
+    withAttribute(attribute, Unit)
+
+/**
+ * Create a new [Attributes] by modifying the current one
+ */
+public fun <O> Attributes.modified(block: AttributesBuilder<O>.() -> Unit): Attributes = Attributes<O> {
+    putAll(this@modified)
+    block()
+}
+
+/**
+ * Create new [Attributes] by removing [attribute] key
+ */
+public fun Attributes.withoutAttribute(attribute: Attribute<*>): Attributes = MapAttributes(content.minus(attribute))
+
+/**
+ * Add an element to a [SetAttribute]
+ */
+public fun <T, A : SetAttribute<T>> Attributes.withAttributeElement(
+    attribute: A,
+    attrValue: T,
+): Attributes {
+    val currentSet: Set<T> = get(attribute) ?: emptySet()
+    return MapAttributes(
+        content + (attribute to (currentSet + attrValue))
+    )
+}
+
+/**
+ * Remove an element from [SetAttribute]
+ */
+public fun <T, A : SetAttribute<T>> Attributes.withoutAttributeElement(
+    attribute: A,
+    attrValue: T,
+): Attributes {
+    val currentSet: Set<T> = get(attribute) ?: emptySet()
+    return MapAttributes(content + (attribute to (currentSet - attrValue)))
+}
+
+/**
+ * Create [Attributes] with a single key
+ */
+public fun <T, A : Attribute<T>> Attributes(
+    attribute: A,
+    attrValue: T,
+): Attributes = MapAttributes(mapOf(attribute to attrValue))
+
+/**
+ * Create Attributes with a single [Unit] valued attribute
+ */
+public fun <A : Attribute<Unit>> Attributes(
+    attribute: A,
+): Attributes = MapAttributes(mapOf(attribute to Unit))
+
+public operator fun Attributes.plus(other: Attributes): Attributes = MapAttributes(content + other.content)

attributes-kt/src/commonMain/kotlin/space/kscience/attributes/AttributesBuilder.kt

@@ -0,0 +1,68 @@
+/*
+ * Copyright 2018-2023 KMath contributors.
+ * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
+ */
+
+package space.kscience.attributes
+
+/**
+ * A builder for [Attributes].
+ * The builder is not thread safe
+ *
+ * @param O type marker of an owner object, for which these attributes are made
+ */
+public class AttributesBuilder<out O> internal constructor() : Attributes {
+
+    private val map = mutableMapOf<Attribute<*>, Any?>()
+
+    override fun toString(): String = "Attributes(value=${map.entries})"
+    override fun equals(other: Any?): Boolean = other is Attributes && Attributes.equals(this, other)
+    override fun hashCode(): Int = map.hashCode()
+
+    override val content: Map<out Attribute<*>, Any?> get() = map
+
+    public operator fun <T> set(attribute: Attribute<T>, value: T?) {
+        if (value == null) {
+            map.remove(attribute)
+        } else {
+            map[attribute] = value
+        }
+    }
+
+    public operator fun <V> Attribute<V>.invoke(value: V?) {
+        set(this, value)
+    }
+
+    public infix fun <V> Attribute<V>.put(value: V?) {
+        set(this, value)
+    }
+
+    /**
+     * Put all attributes for given [attributes]
+     */
+    public fun putAll(attributes: Attributes) {
+        map.putAll(attributes.content)
+    }
+
+    public infix fun <V> SetAttribute<V>.add(attrValue: V) {
+        val currentSet: Set<V> = get(this) ?: emptySet()
+        map[this] = currentSet + attrValue
+    }
+
+    /**
+     * Remove an element from [SetAttribute]
+     */
+    public infix fun <V> SetAttribute<V>.remove(attrValue: V) {
+        val currentSet: Set<V> = get(this) ?: emptySet()
+        map[this] = currentSet - attrValue
+    }
+
+    public fun build(): Attributes = MapAttributes(map)
+}
+
+/**
+ * Create [Attributes] with a given [builder]
+ * @param O the type for which attributes are built. The type is used only during compilation phase for static extension dispatch
+ */
+public fun <O> Attributes(builder: AttributesBuilder<O>.() -> Unit): Attributes =
+    AttributesBuilder<O>().apply(builder).build()

attributes-kt/src/commonMain/kotlin/space/kscience/attributes/PolymorphicAttribute.kt

@@ -0,0 +1,34 @@
+/*
+ * Copyright 2018-2023 KMath contributors.
+ * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
+ */
+
+package space.kscience.attributes
+
+/**
+ * An attribute that has a type parameter for value
+ * @param type parameter-type
+ */
+public abstract class PolymorphicAttribute<T>(public val type: SafeType<T>) : Attribute<T> {
+    override fun equals(other: Any?): Boolean = other != null &&
+            (this::class == other::class) &&
+            (other as? PolymorphicAttribute<*>)?.type == this.type
+
+    override fun hashCode(): Int = this::class.hashCode() + type.hashCode()
+}
+
+
+/**
+ * Get a polymorphic attribute using attribute factory
+ */
+@UnstableAttributesAPI
+public operator fun <T> Attributes.get(attributeKeyBuilder: () -> PolymorphicAttribute<T>): T? =
+    get(attributeKeyBuilder())
+
+/**
+ * Set a polymorphic attribute using its factory
+ */
+@UnstableAttributesAPI
+public operator fun <O, T> AttributesBuilder<O>.set(attributeKeyBuilder: () -> PolymorphicAttribute<T>, value: T) {
+    set(attributeKeyBuilder(), value)
+}

attributes-kt/src/commonMain/kotlin/space/kscience/attributes/SafeType.kt

@@ -0,0 +1,35 @@
+/*
+ * Copyright 2018-2023 KMath contributors.
+ * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
+ */
+
+package space.kscience.attributes
+
+import kotlin.jvm.JvmInline
+import kotlin.reflect.KClass
+import kotlin.reflect.KType
+import kotlin.reflect.typeOf
+
+/**
+ * Safe variant ok Kotlin [KType] that ensures that the type parameter is of the same type as [kType]
+ *
+ * @param kType raw [KType]
+ */
+@JvmInline
+public value class SafeType<out T> @PublishedApi internal constructor(public val kType: KType)
+
+public inline fun <reified T> safeTypeOf(): SafeType<T> = SafeType(typeOf<T>())
+
+/**
+ * Derive Kotlin [KClass] from this type and fail if the type is not a class (should not happen)
+ */
+@Suppress("UNCHECKED_CAST")
+@UnstableAttributesAPI
+public val <T> SafeType<T>.kClass: KClass<T & Any> get() = kType.classifier as KClass<T & Any>
+
+/**
+ * An interface containing [type] for dynamic type checking.
+ */
+public interface WithType<out T> {
+    public val type: SafeType<T>
+}

attributes-kt/src/commonMain/kotlin/space/kscience/attributes/annotations.kt

@@ -0,0 +1,17 @@
+/*
+ * Copyright 2018-2023 KMath contributors.
+ * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
+ */
+
+package space.kscience.attributes
+
+/**
+ * Marks declarations that are still experimental in the Attributes-kt APIs, which means that the design of the corresponding
+ * declarations has open issues that may (or may not) lead to their changes in the future. Roughly speaking, there is
+ * a chance of those declarations will be deprecated in the future or the semantics of their behavior may change
+ * in some way that may break some code.
+ */
+@MustBeDocumented
+@Retention(value = AnnotationRetention.BINARY)
+@RequiresOptIn("This API is unstable and could change in future", RequiresOptIn.Level.WARNING)
+public annotation class UnstableAttributesAPI

benchmarks/src/jsMain/kotlin/space/kscience/kmath/benchmarks/ExpressionsInterpretersBenchmark.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -94,12 +94,13 @@ class ExpressionsInterpretersBenchmark {
         }
 
         private val mst = node.toExpression(Float64Field)
+
         @OptIn(UnstableKMathAPI::class)
         private val wasm = node.wasmCompileToExpression(Float64Field)
         private val estree = node.estreeCompileToExpression(Float64Field)
 
         private val raw = Expression<Double> { args ->
-            val x = args[x]!!
+            val x = args.getValue(x)
             x * 2.0 + 2.0 / x - 16.0 / sin(x)
         }
     }

benchmarks/src/jvmMain/kotlin/space/kscience/kmath/benchmarks/ArrayBenchmark.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

benchmarks/src/jvmMain/kotlin/space/kscience/kmath/benchmarks/BigIntBenchmark.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -67,7 +67,7 @@ internal class BigIntBenchmark {
 
     @Benchmark
     fun kmMultiplyLarge(blackhole: Blackhole) = BigIntField {
-        blackhole.consume(kmLargeNumber*kmLargeNumber)
+        blackhole.consume(kmLargeNumber * kmLargeNumber)
     }
 
     @Benchmark
@@ -77,7 +77,7 @@ internal class BigIntBenchmark {
 
     @Benchmark
     fun jvmMultiplyLarge(blackhole: Blackhole) = JBigIntegerField {
-        blackhole.consume(jvmLargeNumber*jvmLargeNumber)
+        blackhole.consume(jvmLargeNumber * jvmLargeNumber)
     }
 
     @Benchmark

benchmarks/src/jvmMain/kotlin/space/kscience/kmath/benchmarks/BufferBenchmark.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -75,6 +75,6 @@ internal class BufferBenchmark {
 
     private companion object {
         private const val size = 100
-        private val reversedIndices = IntArray(size){it}.apply { reverse() }
+        private val reversedIndices = IntArray(size) { it }.apply { reverse() }
     }
 }

benchmarks/src/jvmMain/kotlin/space/kscience/kmath/benchmarks/DotBenchmark.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -11,12 +11,11 @@ import kotlinx.benchmark.Scope
 import kotlinx.benchmark.State
 import space.kscience.kmath.commons.linear.CMLinearSpace
 import space.kscience.kmath.ejml.EjmlLinearSpaceDDRM
+import space.kscience.kmath.linear.Float64ParallelLinearSpace
 import space.kscience.kmath.linear.invoke
 import space.kscience.kmath.linear.linearSpace
 import space.kscience.kmath.operations.Float64Field
-import space.kscience.kmath.operations.invoke
 import space.kscience.kmath.tensorflow.produceWithTF
-import space.kscience.kmath.tensors.core.DoubleTensorAlgebra
 import space.kscience.kmath.tensors.core.tensorAlgebra
 import kotlin.random.Random
 
@@ -72,12 +71,12 @@ internal class DotBenchmark {
     }
 
     @Benchmark
-    fun tensorDot(blackhole: Blackhole) = with(Float64Field.tensorAlgebra) {
+    fun multikDot(blackhole: Blackhole) = with(multikAlgebra) {
         blackhole.consume(matrix1 dot matrix2)
     }
 
     @Benchmark
-    fun multikDot(blackhole: Blackhole) = with(multikAlgebra) {
+    fun tensorDot(blackhole: Blackhole) = with(Float64Field.tensorAlgebra) {
         blackhole.consume(matrix1 dot matrix2)
     }
 
@@ -87,12 +86,8 @@ internal class DotBenchmark {
     }
 
     @Benchmark
-    fun doubleDot(blackhole: Blackhole) = with(Float64Field.linearSpace) {
+    fun parallelDot(blackhole: Blackhole) = with(Float64ParallelLinearSpace) {
         blackhole.consume(matrix1 dot matrix2)
     }
 
-    @Benchmark
-    fun doubleTensorDot(blackhole: Blackhole) = DoubleTensorAlgebra.invoke {
-        blackhole.consume(matrix1 dot matrix2)
-    }
 }

benchmarks/src/jvmMain/kotlin/space/kscience/kmath/benchmarks/ExpressionsInterpretersBenchmark.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

benchmarks/src/jvmMain/kotlin/space/kscience/kmath/benchmarks/IntegrationBenchmark.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2023 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -24,7 +24,7 @@ internal class IntegrationBenchmark {
     fun doubleIntegration(blackhole: Blackhole) {
         val res = Double.algebra.gaussIntegrator.integrate(0.0..1.0, intervals = 1000) { x: Double ->
             //sin(1 / x)
-            1/x
+            1 / x
         }.value
         blackhole.consume(res)
     }
@@ -33,7 +33,7 @@ internal class IntegrationBenchmark {
     fun complexIntegration(blackhole: Blackhole) = with(Complex.algebra) {
         val res = gaussIntegrator.integrate(0.0..1.0, intervals = 1000) { x: Double ->
 //            sin(1 / x) + i * cos(1 / x)
-            1/x - i/x
+            1 / x - i / x
         }.value
         blackhole.consume(res)
     }

benchmarks/src/jvmMain/kotlin/space/kscience/kmath/benchmarks/JafamaBenchmark.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -13,8 +13,6 @@ import space.kscience.kmath.jafama.JafamaDoubleField
 import space.kscience.kmath.jafama.StrictJafamaDoubleField
 import space.kscience.kmath.operations.Float64Field
 import space.kscience.kmath.operations.invoke
-import kotlin.contracts.InvocationKind
-import kotlin.contracts.contract
 import kotlin.random.Random
 
 @State(Scope.Benchmark)
@@ -36,7 +34,6 @@ internal class JafamaBenchmark {
 }
 
 private inline fun invokeBenchmarks(blackhole: Blackhole, expr: (Double) -> Double) {
-    contract { callsInPlace(expr, InvocationKind.AT_LEAST_ONCE) }
     val rng = Random(0)
     repeat(1000000) { blackhole.consume(expr(rng.nextDouble())) }
 }

benchmarks/src/jvmMain/kotlin/space/kscience/kmath/benchmarks/MatrixInverseBenchmark.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -15,6 +15,7 @@ import space.kscience.kmath.ejml.EjmlLinearSpaceDDRM
 import space.kscience.kmath.linear.invoke
 import space.kscience.kmath.linear.linearSpace
 import space.kscience.kmath.linear.lupSolver
+import space.kscience.kmath.linear.parallel
 import space.kscience.kmath.operations.algebra
 import kotlin.random.Random
 
@@ -38,16 +39,19 @@ internal class MatrixInverseBenchmark {
     }
 
     @Benchmark
-    fun cmLUPInversion(blackhole: Blackhole) {
-        CMLinearSpace {
-            blackhole.consume(lupSolver().inverse(matrix))
-        }
+    fun kmathParallelLupInversion(blackhole: Blackhole) {
+        blackhole.consume(Double.algebra.linearSpace.parallel.lupSolver().inverse(matrix))
     }
 
     @Benchmark
-    fun ejmlInverse(blackhole: Blackhole) {
-        EjmlLinearSpaceDDRM {
-            blackhole.consume(matrix.toEjml().inverse())
+    fun cmLUPInversion(blackhole: Blackhole) = CMLinearSpace {
+        blackhole.consume(lupSolver().inverse(matrix))
     }
+
+
+    @Benchmark
+    fun ejmlInverse(blackhole: Blackhole) = EjmlLinearSpaceDDRM {
+        blackhole.consume(matrix.toEjml().inverted())
     }
+
 }

benchmarks/src/jvmMain/kotlin/space/kscience/kmath/benchmarks/NDFieldBenchmark.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -25,6 +25,16 @@ import space.kscience.kmath.viktor.viktorAlgebra
 @State(Scope.Benchmark)
 internal class NDFieldBenchmark {
 
+    private companion object {
+        private const val dim = 1000
+        private const val n = 100
+        private val shape = ShapeND(dim, dim)
+        private val specializedField = Float64Field.ndAlgebra
+        private val genericField = BufferedFieldOpsND(Float64Field)
+        private val nd4jField = Float64Field.nd4j
+        private val viktorField = Float64Field.viktorAlgebra
+    }
+
     @Benchmark
     fun specializedFieldAdd(blackhole: Blackhole) = with(specializedField) {
         var res: StructureND<Double> = one(shape)
@@ -82,13 +92,5 @@ internal class NDFieldBenchmark {
 //        blackhole.consume(res)
 //    }
 
-    private companion object {
-        private const val dim = 1000
-        private const val n = 100
-        private val shape = ShapeND(dim, dim)
-        private val specializedField = Float64Field.ndAlgebra
-        private val genericField = BufferedFieldOpsND(Float64Field)
-        private val nd4jField = Float64Field.nd4j
-        private val viktorField = Float64Field.viktorAlgebra
-    }
+
 }

benchmarks/src/jvmMain/kotlin/space/kscience/kmath/benchmarks/TensorAlgebraBenchmark.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

benchmarks/src/jvmMain/kotlin/space/kscience/kmath/benchmarks/ViktorBenchmark.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

benchmarks/src/jvmMain/kotlin/space/kscience/kmath/benchmarks/ViktorLogBenchmark.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

benchmarks/src/jvmMain/kotlin/space/kscience/kmath/benchmarks/globals.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

build.gradle.kts

@@ -1,12 +1,13 @@
-import space.kscience.gradle.isInDevelopment
 import space.kscience.gradle.useApache2Licence
 import space.kscience.gradle.useSPCTeam
 
 plugins {
     id("space.kscience.gradle.project")
-    id("org.jetbrains.kotlinx.kover") version "0.6.0"
+    id("org.jetbrains.kotlinx.kover") version "0.7.6"
 }
 
+val attributesVersion by extra("0.2.0")
+
 allprojects {
     repositories {
         maven("https://repo.kotlin.link")
@@ -15,7 +16,7 @@ allprojects {
     }
 
     group = "space.kscience"
-    version = "0.4.0-dev-2"
+    version = "0.4.0"
 }
 
 subprojects {
@@ -35,7 +36,7 @@ subprojects {
                     localDirectory.set(kotlinDir)
 
                     remoteUrl.set(
-                        java.net.URL("https://github.com/SciProgCentre/kmath/tree/master/${this@subprojects.name}/$kotlinDirPath")
+                        uri("https://github.com/SciProgCentre/kmath/tree/master/${this@subprojects.name}/$kotlinDirPath").toURL()
                     )
                 }
 
@@ -64,17 +65,10 @@ ksciencePublish {
         useApache2Licence()
         useSPCTeam()
     }
-    github("kmath", "SciProgCentre")
-    space(
-        if (isInDevelopment) {
-            "https://maven.pkg.jetbrains.space/spc/p/sci/dev"
-        } else {
-            "https://maven.pkg.jetbrains.space/spc/p/sci/maven"
-        }
-    )
+    repository("spc", "https://maven.sciprog.center/kscience")
     sonatype("https://oss.sonatype.org")
 }
 
 apiValidation.nonPublicMarkers.add("space.kscience.kmath.UnstableKMathAPI")
 
-val multikVersion by extra("0.2.0")
+val multikVersion by extra("0.2.3")

buildSrc/build.gradle.kts

@@ -17,15 +17,15 @@ val benchmarksVersion = spclibs.versions.kotlinx.benchmark.get()
 dependencies {
     api("space.kscience:gradle-tools:$toolsVersion")
     //plugins form benchmarks
-    api("org.jetbrains.kotlinx:kotlinx-benchmark-plugin:0.4.7")
+    api("org.jetbrains.kotlinx:kotlinx-benchmark-plugin:$benchmarksVersion")
     //api("org.jetbrains.kotlin:kotlin-allopen:$kotlinVersion")
     //to be used inside build-script only
     //implementation(spclibs.kotlinx.serialization.json)
     implementation("com.fasterxml.jackson.module:jackson-module-kotlin:2.14.+")
 }
 
-kotlin{
-    jvmToolchain{
+kotlin {
+    jvmToolchain {
         languageVersion.set(JavaLanguageVersion.of(11))
     }
     sourceSets.all {

buildSrc/settings.gradle.kts

@@ -2,10 +2,13 @@
  * Copyright 2018-2021 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
-rootProject.name = "kmath"
 
 enableFeaturePreview("TYPESAFE_PROJECT_ACCESSORS")
 
+plugins {
+    id("org.gradle.toolchains.foojay-resolver-convention") version "0.8.0"
+}
+
 dependencyResolutionManagement {
     val projectProperties = java.util.Properties()
     file("../gradle.properties").inputStream().use {
@@ -19,6 +22,7 @@ dependencyResolutionManagement {
 
     val toolsVersion: String = projectProperties["toolsVersion"].toString()
 
+    @Suppress("UnstableApiUsage")
     repositories {
         mavenLocal()
         maven("https://repo.kotlin.link")

buildSrc/src/main/kotlin/space/kscience/kmath/benchmarks/JmhReport.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

buildSrc/src/main/kotlin/space/kscience/kmath/benchmarks/addBenchmarkProperties.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -54,16 +54,17 @@ fun Project.addBenchmarkProperties() {
         p.extensions.findByType(KScienceReadmeExtension::class.java)?.run {
             benchmarksProject.extensions.findByType(BenchmarksExtension::class.java)?.configurations?.forEach { cfg ->
                 property("benchmark${cfg.name.replaceFirstChar { if (it.isLowerCase()) it.titlecase(Locale.getDefault()) else it.toString() }}") {
-                    val launches = benchmarksProject.buildDir.resolve("reports/benchmarks/${cfg.name}")
+                    val launches = benchmarksProject.layout.buildDirectory.dir("reports/benchmarks/${cfg.name}").get()
 
-                    val resDirectory = launches.listFiles()?.maxByOrNull {
+                    val resDirectory = launches.files().maxByOrNull {
                         LocalDateTime.parse(it.name, ISO_DATE_TIME).atZone(ZoneId.systemDefault()).toInstant()
                     }
 
                     if (resDirectory == null || !(resDirectory.resolve("jvm.json")).exists()) {
                         "> **Can't find appropriate benchmark data. Try generating readme files after running benchmarks**."
                     } else {
-                        val reports: List<JmhReport> = jsonMapper.readValue<List<JmhReport>>(resDirectory.resolve("jvm.json"))
+                        val reports: List<JmhReport> =
+                            jsonMapper.readValue<List<JmhReport>>(resDirectory.resolve("jvm.json"))
 
                         buildString {
                             appendLine("<details>")
@@ -76,16 +77,20 @@ fun Project.addBenchmarkProperties() {
                             appendLine("* Run on ${first.vmName} (build ${first.vmVersion}) with Java process:")
                             appendLine()
                             appendLine("```")
-                            appendLine("${first.jvm} ${
+                            appendLine(
+                                "${first.jvm} ${
                                     first.jvmArgs.joinToString(" ")
-                            }")
+                                }"
+                            )
                             appendLine("```")
 
-                            appendLine("* JMH ${first.jmhVersion} was used in `${first.mode}` mode with ${first.warmupIterations} warmup ${
+                            appendLine(
+                                "* JMH ${first.jmhVersion} was used in `${first.mode}` mode with ${first.warmupIterations} warmup ${
                                     noun(first.warmupIterations, "iteration", "iterations")
                                 } by ${first.warmupTime} and ${first.measurementIterations} measurement ${
                                     noun(first.measurementIterations, "iteration", "iterations")
-                            } by ${first.measurementTime}.")
+                                } by ${first.measurementTime}."
+                            )
 
                             appendLine()
                             appendLine("| Benchmark | Score |")

buildSrc/src/main/kotlin/space/kscience/kmath/ejml/codegen/ejmlCodegen.kt

@@ -1,433 +0,0 @@
-/*
- * Copyright 2018-2022 KMath contributors.
- * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
- */
-
-@file:Suppress("KDocUnresolvedReference")
-
-package space.kscience.kmath.ejml.codegen
-
-import org.intellij.lang.annotations.Language
-import java.io.File
-
-private fun Appendable.appendEjmlVector(type: String, ejmlMatrixType: String) {
-    @Language("kotlin") val text = """/**
- * [EjmlVector] specialization for [$type].
- */
-public class Ejml${type}Vector<out M : $ejmlMatrixType>(override val origin: M) : EjmlVector<$type, M>(origin) {
-    init {
-        require(origin.numRows == 1) { "The origin matrix must have only one row to form a vector" }
-    }
-
-    override operator fun get(index: Int): $type = origin[0, index]
-}"""
-    appendLine(text)
-    appendLine()
-}
-
-private fun Appendable.appendEjmlMatrix(type: String, ejmlMatrixType: String) {
-    val text = """/**
- * [EjmlMatrix] specialization for [$type].
- */
-public class Ejml${type}Matrix<out M : $ejmlMatrixType>(override val origin: M) : EjmlMatrix<$type, M>(origin) {
-    override operator fun get(i: Int, j: Int): $type = origin[i, j]
-}"""
-    appendLine(text)
-    appendLine()
-}
-
-private fun Appendable.appendEjmlLinearSpace(
-    type: String,
-    kmathAlgebra: String,
-    ejmlMatrixParentTypeMatrix: String,
-    ejmlMatrixType: String,
-    ejmlMatrixDenseType: String,
-    ops: String,
-    denseOps: String,
-    isDense: Boolean,
-) {
-    @Language("kotlin") val text = """/**
- * [EjmlLinearSpace] implementation based on [CommonOps_$ops], [DecompositionFactory_${ops}] operations and
- * [${ejmlMatrixType}] matrices.
- */
-public object EjmlLinearSpace${ops} : EjmlLinearSpace<${type}, ${kmathAlgebra}, $ejmlMatrixType>() {
-    /**
-     * The [${kmathAlgebra}] reference.
-     */
-    override val elementAlgebra: $kmathAlgebra get() = $kmathAlgebra
-
-    @Suppress("UNCHECKED_CAST")
-    override fun Matrix<${type}>.toEjml(): Ejml${type}Matrix<${ejmlMatrixType}> = when {
-        this is Ejml${type}Matrix<*> && origin is $ejmlMatrixType -> this as Ejml${type}Matrix<${ejmlMatrixType}>
-        else -> buildMatrix(rowNum, colNum) { i, j -> get(i, j) }
-    }
-
-    @Suppress("UNCHECKED_CAST")
-    override fun Point<${type}>.toEjml(): Ejml${type}Vector<${ejmlMatrixType}> = when {
-        this is Ejml${type}Vector<*> && origin is $ejmlMatrixType -> this as Ejml${type}Vector<${ejmlMatrixType}>
-        else -> Ejml${type}Vector(${ejmlMatrixType}(size, 1).also {
-            (0 until it.numRows).forEach { row -> it[row, 0] = get(row) }
-        })
-    }
-
-    override fun buildMatrix(
-        rows: Int,
-        columns: Int,
-        initializer: ${kmathAlgebra}.(i: Int, j: Int) -> ${type},
-    ): Ejml${type}Matrix<${ejmlMatrixType}> = ${ejmlMatrixType}(rows, columns).also {
-        (0 until rows).forEach { row ->
-            (0 until columns).forEach { col -> it[row, col] = elementAlgebra.initializer(row, col) }
-        }
-    }.wrapMatrix()
-
-    override fun buildVector(
-        size: Int,
-        initializer: ${kmathAlgebra}.(Int) -> ${type},
-    ): Ejml${type}Vector<${ejmlMatrixType}> = Ejml${type}Vector(${ejmlMatrixType}(size, 1).also {
-        (0 until it.numRows).forEach { row -> it[row, 0] = elementAlgebra.initializer(row) }
-    })
-
-    private fun <T : ${ejmlMatrixParentTypeMatrix}> T.wrapMatrix() = Ejml${type}Matrix(this)
-    private fun <T : ${ejmlMatrixParentTypeMatrix}> T.wrapVector() = Ejml${type}Vector(this)
-
-    override fun Matrix<${type}>.unaryMinus(): Matrix<${type}> = this * elementAlgebra { -one }
-
-    override fun Matrix<${type}>.dot(other: Matrix<${type}>): Ejml${type}Matrix<${ejmlMatrixType}> {
-        val out = ${ejmlMatrixType}(1, 1)
-        CommonOps_${ops}.mult(toEjml().origin, other.toEjml().origin, out)
-        return out.wrapMatrix()
-    }
-
-    override fun Matrix<${type}>.dot(vector: Point<${type}>): Ejml${type}Vector<${ejmlMatrixType}> {
-        val out = ${ejmlMatrixType}(1, 1)
-        CommonOps_${ops}.mult(toEjml().origin, vector.toEjml().origin, out)
-        return out.wrapVector()
-    }
-
-    override operator fun Matrix<${type}>.minus(other: Matrix<${type}>): Ejml${type}Matrix<${ejmlMatrixType}> {
-        val out = ${ejmlMatrixType}(1, 1)
-
-        CommonOps_${ops}.add(
-            elementAlgebra.one, 
-            toEjml().origin, 
-            elementAlgebra { -one },
-            other.toEjml().origin, 
-            out,${
-        if (isDense) "" else
-            """
-            null, 
-            null,"""
-    }
-        )
-
-        return out.wrapMatrix()
-    }
-
-    override operator fun Matrix<${type}>.times(value: ${type}): Ejml${type}Matrix<${ejmlMatrixType}> {
-        val res = ${ejmlMatrixType}(1, 1)
-        CommonOps_${ops}.scale(value, toEjml().origin, res)
-        return res.wrapMatrix()
-    }
-
-    override fun Point<${type}>.unaryMinus(): Ejml${type}Vector<${ejmlMatrixType}> {
-        val res = ${ejmlMatrixType}(1, 1)
-        CommonOps_${ops}.changeSign(toEjml().origin, res)
-        return res.wrapVector()
-    }
-
-    override fun Matrix<${type}>.plus(other: Matrix<${type}>): Ejml${type}Matrix<${ejmlMatrixType}> {
-        val out = ${ejmlMatrixType}(1, 1)
-        
-        CommonOps_${ops}.add(
-            elementAlgebra.one,
-            toEjml().origin,
-            elementAlgebra.one,
-            other.toEjml().origin, 
-            out,${
-        if (isDense) "" else
-            """
-            null, 
-            null,"""
-    }
-        )
-
-        return out.wrapMatrix()
-    }
-
-    override fun Point<${type}>.plus(other: Point<${type}>): Ejml${type}Vector<${ejmlMatrixType}> {
-        val out = ${ejmlMatrixType}(1, 1)
-
-        CommonOps_${ops}.add(
-            elementAlgebra.one,
-            toEjml().origin,
-            elementAlgebra.one,
-            other.toEjml().origin,
-            out,${
-        if (isDense) "" else
-            """
-            null, 
-            null,"""
-    }
-        )
-
-        return out.wrapVector()
-    }
-
-    override fun Point<${type}>.minus(other: Point<${type}>): Ejml${type}Vector<${ejmlMatrixType}> {
-        val out = ${ejmlMatrixType}(1, 1)
-
-        CommonOps_${ops}.add(
-            elementAlgebra.one,
-            toEjml().origin,
-            elementAlgebra { -one },
-            other.toEjml().origin,
-            out,${
-        if (isDense) "" else
-            """
-            null, 
-            null,"""
-    }
-        )
-
-        return out.wrapVector()
-    }
-
-    override fun ${type}.times(m: Matrix<${type}>): Ejml${type}Matrix<${ejmlMatrixType}> = m * this
-
-    override fun Point<${type}>.times(value: ${type}): Ejml${type}Vector<${ejmlMatrixType}> {
-        val res = ${ejmlMatrixType}(1, 1)
-        CommonOps_${ops}.scale(value, toEjml().origin, res)
-        return res.wrapVector()
-    }
-
-    override fun ${type}.times(v: Point<${type}>): Ejml${type}Vector<${ejmlMatrixType}> = v * this
-
-    @UnstableKMathAPI
-    override fun <F : StructureFeature> computeFeature(structure: Matrix<${type}>, type: KClass<out F>): F? {
-        structure.getFeature(type)?.let { return it }
-        val origin = structure.toEjml().origin
-
-        return when (type) {
-        ${
-        if (isDense)
-            """    InverseMatrixFeature::class -> object : InverseMatrixFeature<${type}> {
-                override val inverse: Matrix<${type}> by lazy {
-                    val res = origin.copy()
-                    CommonOps_${ops}.invert(res)
-                    res.wrapMatrix()
-                }
-            }
-
-            DeterminantFeature::class -> object : DeterminantFeature<${type}> {
-                override val determinant: $type by lazy { CommonOps_${ops}.det(origin) }
-            }
-
-            SingularValueDecompositionFeature::class -> object : SingularValueDecompositionFeature<${type}> {
-                private val svd by lazy {
-                    DecompositionFactory_${ops}.svd(origin.numRows, origin.numCols, true, true, false)
-                        .apply { decompose(origin.copy()) }
-                }
-
-                override val u: Matrix<${type}> by lazy { svd.getU(null, false).wrapMatrix() }
-                override val s: Matrix<${type}> by lazy { svd.getW(null).wrapMatrix() }
-                override val v: Matrix<${type}> by lazy { svd.getV(null, false).wrapMatrix() }
-                override val singularValues: Point<${type}> by lazy { ${type}Buffer(svd.singularValues) }
-            }
-
-            QRDecompositionFeature::class -> object : QRDecompositionFeature<${type}> {
-                private val qr by lazy {
-                    DecompositionFactory_${ops}.qr().apply { decompose(origin.copy()) }
-                }
-
-                override val q: Matrix<${type}> by lazy {
-                    qr.getQ(null, false).wrapMatrix().withFeature(OrthogonalFeature)
-                }
-
-                override val r: Matrix<${type}> by lazy { qr.getR(null, false).wrapMatrix().withFeature(UFeature) }
-            }
-
-            CholeskyDecompositionFeature::class -> object : CholeskyDecompositionFeature<${type}> {
-                override val l: Matrix<${type}> by lazy {
-                    val cholesky =
-                        DecompositionFactory_${ops}.chol(structure.rowNum, true).apply { decompose(origin.copy()) }
-
-                    cholesky.getT(null).wrapMatrix().withFeature(LFeature)
-                }
-            }
-
-            LupDecompositionFeature::class -> object : LupDecompositionFeature<${type}> {
-                private val lup by lazy {
-                    DecompositionFactory_${ops}.lu(origin.numRows, origin.numCols).apply { decompose(origin.copy()) }
-                }
-
-                override val l: Matrix<${type}> by lazy {
-                    lup.getLower(null).wrapMatrix().withFeature(LFeature)
-                }
-
-                override val u: Matrix<${type}> by lazy {
-                    lup.getUpper(null).wrapMatrix().withFeature(UFeature)
-                }
-
-                override val p: Matrix<${type}> by lazy { lup.getRowPivot(null).wrapMatrix() }
-            }""" else """    QRDecompositionFeature::class -> object : QRDecompositionFeature<$type> {
-                private val qr by lazy {
-                    DecompositionFactory_${ops}.qr(FillReducing.NONE).apply { decompose(origin.copy()) }
-                }
-
-                override val q: Matrix<${type}> by lazy {
-                    qr.getQ(null, false).wrapMatrix().withFeature(OrthogonalFeature)
-                }
-
-                override val r: Matrix<${type}> by lazy { qr.getR(null, false).wrapMatrix().withFeature(UFeature) }
-            }
-
-            CholeskyDecompositionFeature::class -> object : CholeskyDecompositionFeature<${type}> {
-                override val l: Matrix<${type}> by lazy {
-                    val cholesky =
-                        DecompositionFactory_${ops}.cholesky().apply { decompose(origin.copy()) }
-
-                    (cholesky.getT(null) as ${ejmlMatrixParentTypeMatrix}).wrapMatrix().withFeature(LFeature)
-                }
-            }
-
-            LUDecompositionFeature::class, DeterminantFeature::class, InverseMatrixFeature::class -> object :
-                LUDecompositionFeature<${type}>, DeterminantFeature<${type}>, InverseMatrixFeature<${type}> {
-                private val lu by lazy {
-                    DecompositionFactory_${ops}.lu(FillReducing.NONE).apply { decompose(origin.copy()) }
-                }
-
-                override val l: Matrix<${type}> by lazy {
-                    lu.getLower(null).wrapMatrix().withFeature(LFeature)
-                }
-
-                override val u: Matrix<${type}> by lazy {
-                    lu.getUpper(null).wrapMatrix().withFeature(UFeature)
-                }
-
-                override val inverse: Matrix<${type}> by lazy {
-                    var a = origin
-                    val inverse = ${ejmlMatrixDenseType}(1, 1)
-                    val solver = LinearSolverFactory_${ops}.lu(FillReducing.NONE)
-                    if (solver.modifiesA()) a = a.copy()
-                    val i = CommonOps_${denseOps}.identity(a.numRows)
-                    solver.solve(i, inverse)
-                    inverse.wrapMatrix()
-                }
-
-                override val determinant: $type by lazy { elementAlgebra.number(lu.computeDeterminant().real) }
-            }"""
-    }
-
-            else -> null
-        }?.let{
-            type.cast(it)
-        }
-    }
-
-    /**
-     * Solves for *x* in the following equation: *x = [a] <sup>-1</sup> &middot; [b]*.
-     *
-     * @param a the base matrix.
-     * @param b n by p matrix.
-     * @return the solution for *x* that is n by p.
-     */
-    public fun solve(a: Matrix<${type}>, b: Matrix<${type}>): Ejml${type}Matrix<${ejmlMatrixType}> {
-        val res = ${ejmlMatrixType}(1, 1)
-        CommonOps_${ops}.solve(${ejmlMatrixType}(a.toEjml().origin), ${ejmlMatrixType}(b.toEjml().origin), res)
-        return res.wrapMatrix()
-    }
-
-    /**
-     * Solves for *x* in the following equation: *x = [a] <sup>-1</sup> &middot; [b]*.
-     *
-     * @param a the base matrix.
-     * @param b n by p vector.
-     * @return the solution for *x* that is n by p.
-     */
-    public fun solve(a: Matrix<${type}>, b: Point<${type}>): Ejml${type}Vector<${ejmlMatrixType}> {
-        val res = ${ejmlMatrixType}(1, 1)
-        CommonOps_${ops}.solve(${ejmlMatrixType}(a.toEjml().origin), ${ejmlMatrixType}(b.toEjml().origin), res)
-        return Ejml${type}Vector(res)
-    }
-}"""
-    appendLine(text)
-    appendLine()
-}
-
-
-/**
- * Generates routine EJML classes.
- */
-fun ejmlCodegen(outputFile: String): Unit = File(outputFile).run {
-    parentFile.mkdirs()
-
-    writer().use {
-        it.appendLine("/*")
-        it.appendLine(" * Copyright 2018-2021 KMath contributors.")
-        it.appendLine(" * Use of this source code is governed by the Apache 2.0 license that can be found in the LICENSE file.")
-        it.appendLine(" */")
-        it.appendLine()
-        it.appendLine("/* This file is generated with buildSrc/src/main/kotlin/space/kscience/kmath/ejml/codegen/ejmlCodegen.kt */")
-        it.appendLine()
-        it.appendLine("package space.kscience.kmath.ejml")
-        it.appendLine()
-        it.appendLine("""import org.ejml.data.*
-import org.ejml.dense.row.CommonOps_DDRM
-import org.ejml.dense.row.CommonOps_FDRM
-import org.ejml.dense.row.factory.DecompositionFactory_DDRM
-import org.ejml.dense.row.factory.DecompositionFactory_FDRM
-import org.ejml.sparse.FillReducing
-import org.ejml.sparse.csc.CommonOps_DSCC
-import org.ejml.sparse.csc.CommonOps_FSCC
-import org.ejml.sparse.csc.factory.DecompositionFactory_DSCC
-import org.ejml.sparse.csc.factory.DecompositionFactory_FSCC
-import org.ejml.sparse.csc.factory.LinearSolverFactory_DSCC
-import org.ejml.sparse.csc.factory.LinearSolverFactory_FSCC
-import space.kscience.kmath.linear.*
-import space.kscience.kmath.linear.Matrix
-import space.kscience.kmath.UnstableKMathAPI
-import space.kscience.kmath.nd.StructureFeature
-import space.kscience.kmath.structures.Float64
-import space.kscience.kmath.structures.Float32
-import space.kscience.kmath.operations.Float64Field
-import space.kscience.kmath.operations.Float32Field
-import space.kscience.kmath.operations.DoubleField
-import space.kscience.kmath.operations.FloatField
-import space.kscience.kmath.operations.invoke
-import space.kscience.kmath.structures.Float64Buffer
-import space.kscience.kmath.structures.Float32Buffer
-import space.kscience.kmath.structures.DoubleBuffer
-import space.kscience.kmath.structures.FloatBuffer
-import kotlin.reflect.KClass
-import kotlin.reflect.cast""")
-        it.appendLine()
-        it.appendEjmlVector("Double", "DMatrix")
-        it.appendEjmlVector("Float", "FMatrix")
-        it.appendEjmlMatrix("Double", "DMatrix")
-        it.appendEjmlMatrix("Float", "FMatrix")
-        it.appendEjmlLinearSpace("Double", "Float64Field", "DMatrix", "DMatrixRMaj", "DMatrixRMaj", "DDRM", "DDRM", true)
-        it.appendEjmlLinearSpace("Float", "Float32Field", "FMatrix", "FMatrixRMaj", "FMatrixRMaj", "FDRM", "FDRM", true)
-
-        it.appendEjmlLinearSpace(
-            type = "Double",
-            kmathAlgebra = "Float64Field",
-            ejmlMatrixParentTypeMatrix = "DMatrix",
-            ejmlMatrixType = "DMatrixSparseCSC",
-            ejmlMatrixDenseType = "DMatrixRMaj",
-            ops = "DSCC",
-            denseOps = "DDRM",
-            isDense = false,
-        )
-
-        it.appendEjmlLinearSpace(
-            type = "Float",
-            kmathAlgebra = "Float32Field",
-            ejmlMatrixParentTypeMatrix = "FMatrix",
-            ejmlMatrixType = "FMatrixSparseCSC",
-            ejmlMatrixDenseType = "FMatrixRMaj",
-            ops = "FSCC",
-            denseOps = "FDRM",
-            isDense = false,
-        )
-    }
-}

docs/buffers.md

@@ -17,4 +17,4 @@ own `MemoryBuffer.create()` factory).
 ## Buffer performance
 
 One should avoid using default boxing buffer wherever it is possible. Try to use primitive buffers or memory buffers
-instead  .
+instead.

docs/codestyle.md

@@ -1,20 +1,27 @@
 # Coding Conventions
 
-Generally, KMath code follows general [Kotlin coding conventions](https://kotlinlang.org/docs/reference/coding-conventions.html), but with a number of small changes and clarifications.
+Generally, KMath code follows
+general [Kotlin coding conventions](https://kotlinlang.org/docs/reference/coding-conventions.html), but with a number of
+small changes and clarifications.
 
 ## Utility Class Naming
 
-Filename should coincide with a name of one of the classes contained in the file or start with small letter and describe its contents.
+Filename should coincide with a name of one of the classes contained in the file or start with small letter and describe
+its contents.
 
-The code convention [here](https://kotlinlang.org/docs/reference/coding-conventions.html#source-file-names) says that file names should start with a capital letter even if file does not contain classes. Yet starting utility classes and aggregators with a small letter seems to be a good way to visually separate those files.
+The code convention [here](https://kotlinlang.org/docs/reference/coding-conventions.html#source-file-names) says that
+file names should start with a capital letter even if file does not contain classes. Yet starting utility classes and
+aggregators with a small letter seems to be a good way to visually separate those files.
 
 This convention could be changed in future in a non-breaking way.
 
 ## Private Variable Naming
 
-Private variables' names may start with underscore `_` for of the private mutable variable is shadowed by the public read-only value with the same meaning.
+Private variables' names may start with underscore `_` for of the private mutable variable is shadowed by the public
+read-only value with the same meaning.
 
-This rule does not permit underscores in names, but it is sometimes useful to "underscore" the fact that public and private versions draw up the same entity. It is allowed only for private variables.
+This rule does not permit underscores in names, but it is sometimes useful to "underscore" the fact that public and
+private versions draw up the same entity. It is allowed only for private variables.
 
 This convention could be changed in future in a non-breaking way.
 
@@ -24,4 +31,5 @@ Use one-liners when they occupy single code window line both for functions and p
 `val b: String get() = "fff"`. The same should be performed with multiline expressions when they could be
 cleanly separated.
 
-There is no universal consensus whenever use `fun a() = ...` or `fun a() { return ... }`. Yet from reader outlook one-lines seem to better show that the property or function is easily calculated.
+There is no universal consensus whenever use `fun a() = ...` or `fun a() { return ... }`. Yet from reader outlook
+one-lines seem to better show that the property or function is easily calculated.

docs/expressions.md

@@ -1,16 +1,19 @@
 # Expressions
 
-Expressions is a feature, which allows constructing lazily or immediately calculated parametric mathematical expressions.
+Expressions is a feature, which allows constructing lazily or immediately calculated parametric mathematical
+expressions.
 
 The potential use-cases for it (so far) are following:
 
 * lazy evaluation (in general simple lambda is better, but there are some border cases);
 * automatic differentiation in single-dimension and in multiple dimensions;
 * generation of mathematical syntax trees with subsequent code generation for other languages;
-* symbolic computations, especially differentiation (and some other actions with `kmath-symja` integration with Symja's `IExpr`—integration, simplification, and more);
+* symbolic computations, especially differentiation (and some other actions with `kmath-symja` integration with
+  Symja's `IExpr`—integration, simplification, and more);
 * visualization with `kmath-jupyter`.
 
-The workhorse of this API is `Expression` interface, which exposes single `operator fun invoke(arguments: Map<Symbol, T>): T`
+The workhorse of this API is `Expression` interface, which exposes
+single `operator fun invoke(arguments: Map<Symbol, T>): T`
 method. `ExpressionAlgebra` is used to generate expressions and introduce variables.
 
 Currently there are two implementations:
@@ -18,4 +21,4 @@ Currently there are two implementations:
 * Generic `ExpressionField` in `kmath-core` which allows construction of custom lazy expressions
 
 * Auto-differentiation expression in `kmath-commons` module allows using full power of `DerivativeStructure`
-from commons-math. **TODO: add example**
+  from commons-math. **TODO: add example**

docs/images/KM.svg

@@ -1,6 +1,6 @@
 <?xml version="1.0" encoding="UTF-8" standalone="no"?>
 <!--
-  - Copyright 2018-2022 KMath contributors.
+  - Copyright 2018-2024 KMath contributors.
   - Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
   -->
 

docs/images/KM_mono.svg

@@ -1,6 +1,6 @@
 <?xml version="1.0" encoding="UTF-8" standalone="no"?>
 <!--
-  - Copyright 2018-2022 KMath contributors.
+  - Copyright 2018-2024 KMath contributors.
   - Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
   -->
 

docs/images/KMath.svg

@@ -1,6 +1,6 @@
 <?xml version="1.0" encoding="UTF-8" standalone="no"?>
 <!--
-  - Copyright 2018-2022 KMath contributors.
+  - Copyright 2018-2024 KMath contributors.
   - Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
   -->
 

docs/images/KMath_mono.svg

@@ -1,6 +1,6 @@
 <?xml version="1.0" encoding="UTF-8" standalone="no"?>
 <!--
-  - Copyright 2018-2022 KMath contributors.
+  - Copyright 2018-2024 KMath contributors.
   - Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
   -->
 

docs/linear.md

@@ -1,8 +1,12 @@
 ## Basic linear algebra layout
 
-KMath support for linear algebra organized in a context-oriented way, which means that operations are in most cases declared in context classes, and are not the members of classes that store data. This allows more flexible approach to maintain multiple back-ends. The new operations added as extensions to contexts instead of being member functions of data structures.
+KMath support for linear algebra organized in a context-oriented way, which means that operations are in most cases
+declared in context classes, and are not the members of classes that store data. This allows more flexible approach to
+maintain multiple back-ends. The new operations added as extensions to contexts instead of being member functions of
+data structures.
 
-The main context for linear algebra over matrices and vectors is `LinearSpace`, which defines addition and dot products of matrices and vectors:
+The main context for linear algebra over matrices and vectors is `LinearSpace`, which defines addition and dot products
+of matrices and vectors:
 
 ```kotlin
 import space.kscience.kmath.linear.*
@@ -28,4 +32,5 @@ LinearSpace.Companion.real {
 ## Backends overview
 
 ### EJML
+
 ### Commons Math

docs/nd-structure.md

@@ -8,6 +8,7 @@ One of the most sought after features of mathematical libraries is the high-perf
 structures. In `kmath` performance depends on which particular context was used for operation.
 
 Let us consider following contexts:
+
 ```kotlin
     // automatically build context most suited for given type.
     val autoField = NDField.auto(DoubleField, dim, dim)
@@ -16,6 +17,7 @@ Let us consider following contexts:
     //A generic boxing field. It should be used for objects, not primitives.
     val genericField = NDField.buffered(DoubleField, dim, dim)
 ```
+
 Now let us perform several tests and see, which implementation is best suited for each case:
 
 ## Test case
@@ -24,7 +26,9 @@ To test performance we will take 2d-structures with `dim = 1000` and add a struc
 to it `n = 1000` times.
 
 ## Specialized
+
 The code to run this looks like:
+
 ```kotlin
     specializedField.run {
         var res: NDBuffer<Double> = one
@@ -33,13 +37,16 @@ The code to run this looks like:
         }
     }
 ```
+
 The performance of this code is the best of all tests since it inlines all operations and is specialized for operation
 with doubles. We will measure everything else relative to this one, so time for this test will be `1x` (real time
 on my computer is about 4.5 seconds). The only problem with this approach is that it requires specifying type
 from the beginning. Everyone does so anyway, so it is the recommended approach.
 
 ## Automatic
+
 Let's do the same with automatic field inference:
+
 ```kotlin
     autoField.run {
         var res = one
@@ -48,13 +55,16 @@ Let's do the same with automatic field inference:
         }
     }
 ```
+
 Ths speed of this operation is approximately the same as for specialized case since `NDField.auto` just
 returns the same `RealNDField` in this case. Of course, it is usually better to use specialized method to be sure.
 
 ## Lazy
+
 Lazy field does not produce a structure when asked, instead it generates an empty structure and fills it on-demand
 using coroutines to parallelize computations.
 When one calls
+
 ```kotlin
     lazyField.run {
         var res = one
@@ -63,12 +73,14 @@ When one calls
         }
     }
 ```
+
 The result will be calculated almost immediately but the result will be empty. To get the full result
 structure one needs to call all its elements. In this case computation overhead will be huge. So this field never
 should be used if one expects to use the full result structure. Though if one wants only small fraction, it could
 save a lot of time.
 
 This field still could be used with reasonable performance if call code is changed:
+
 ```kotlin
     lazyField.run {
         val res = one.map {
@@ -82,10 +94,13 @@ This field still could be used with reasonable performance if call code is chang
         res.elements().forEach { it.second }
     }
 ```
+
 In this case it completes in about `4x-5x` time due to boxing.
 
 ## Boxing
+
 The boxing field produced by
+
 ```kotlin
     genericField.run {
         var res: NDBuffer<Double> = one
@@ -94,18 +109,22 @@ The boxing field produced by
         }
     }
 ```
+
 is the slowest one, because it requires boxing and unboxing the `double` on each operation. It takes about
 `15x` time (**TODO: there seems to be a problem here, it should be slow, but not that slow**). This field should
 never be used for primitives.
 
 ## Element operation
+
 Let us also check the speed for direct operations on elements:
+
 ```kotlin
     var res = genericField.one
     repeat(n) {
         res += 1.0
     }
 ```
+
 One would expect to be at least as slow as field operation, but in fact, this one takes only `2x` time to complete.
 It happens, because in this particular case it does not use actual `NDField` but instead calculated directly
 via extension function.
@@ -114,6 +133,7 @@ via extension function.
 
 Usually it is bad idea to compare the direct numerical operation performance in different languages, but it hard to
 work completely without frame of reference. In this case, simple numpy code:
+
 ```python
 import numpy as np
 
@@ -121,7 +141,9 @@ res = np.ones((1000,1000))
 for i in range(1000):
     res = res + 1.0
 ```
-gives the completion time of about `1.1x`, which means that specialized kotlin code in fact is working faster (I think it is
+
+gives the completion time of about `1.1x`, which means that specialized kotlin code in fact is working faster (I think
+it is
 because better memory management). Of course if one writes `res += 1.0`, the performance will be different,
 but it would be different case, because numpy overrides `+=` with in-place operations. In-place operations are
 available in `kmath` with `MutableNDStructure` but there is no field for it (one can still work with mapping

docs/polynomials.md

@@ -1,27 +1,54 @@
 # Polynomials and Rational Functions
 
-KMath provides a way to work with uni- and multivariate polynomials and rational functions. It includes full support of arithmetic operations of integers, **constants** (elements of ring polynomials are build over), variables (for certain multivariate implementations), polynomials and rational functions encapsulated in so-called **polynomial space** and **rational function space** and some other utilities such as algebraic differentiation and substitution.
+KMath provides a way to work with uni- and multivariate polynomials and rational functions. It includes full support of
+arithmetic operations of integers, **constants** (elements of ring polynomials are build over), variables (for certain
+multivariate implementations), polynomials and rational functions encapsulated in so-called **polynomial space** and *
+*rational function space** and some other utilities such as algebraic differentiation and substitution.
 
 ## Concrete realizations
 
 There are 3 approaches to represent polynomials:
-1. For univariate polynomials one can represent and store polynomial as a list of coefficients for each power of the variable. I.e. polynomial  $a_0 + \dots + a_n x^n $ can be represented as a finite sequence $(a_0; \dots; a_n)$. (Compare to sequential definition of polynomials.)
-2. For multivariate polynomials one can represent and store polynomial as a matching (in programming it is called "map" or "dictionary", in math it is called [functional relation](https://en.wikipedia.org/wiki/Binary_relation#Special_types_of_binary_relations)) of each "**term signature**" (that describes what variables and in what powers appear in the term) with corresponding coefficient of the term. But there are 2 possible approaches of term signature representation:
-   1. One can number all the variables, so term signature can be represented as a sequence describing powers of the variables. I.e. signature of term  $c \\; x_0^{d_0} \dots x_n^{d_n} $ (for natural or zero  $d_i $) can be represented as a finite sequence  $(d_0; \dots; d_n)$.
-   2. One can represent variables as objects ("**labels**"), so term signature can be also represented as a matching of each appeared variable with its power in the term. I.e. signature of term  $c \\; x_0^{d_0} \dots x_n^{d_n} $ (for natural non-zero  $d_i $) can be represented as a finite matching  $(x_0 \to d_1; \dots; x_n \to d_n)$.
 
-All that three approaches are implemented by "list", "numbered", and "labeled" versions of polynomials and polynomial spaces respectively. Whereas all rational functions are represented as fractions with corresponding polynomial numerator and denominator, and rational functions' spaces are implemented in the same way as usual field of rational numbers (or more precisely, as any field of fractions over integral domain) should be implemented.
+1. For univariate polynomials one can represent and store polynomial as a list of coefficients for each power of the
+   variable. I.e. polynomial $a_0 + \dots + a_n x^n $ can be represented as a finite sequence $(a_0; \dots; a_n)$. (
+   Compare to sequential definition of polynomials.)
+2. For multivariate polynomials one can represent and store polynomial as a matching (in programming it is called "map"
+   or "dictionary", in math it is
+   called [functional relation](https://en.wikipedia.org/wiki/Binary_relation#Special_types_of_binary_relations)) of
+   each "**term signature**" (that describes what variables and in what powers appear in the term) with corresponding
+   coefficient of the term. But there are 2 possible approaches of term signature representation:
+    1. One can number all the variables, so term signature can be represented as a sequence describing powers of the
+       variables. I.e. signature of term $c \\; x_0^{d_0} \dots x_n^{d_n} $ (for natural or zero $d_i $) can be
+       represented as a finite sequence $(d_0; \dots; d_n)$.
+    2. One can represent variables as objects ("**labels**"), so term signature can be also represented as a matching of
+       each appeared variable with its power in the term. I.e. signature of term $c \\; x_0^{d_0} \dots x_n^{d_n} $ (for
+       natural non-zero $d_i $) can be represented as a finite matching $(x_0 \to d_1; \dots; x_n \to d_n)$.
+
+All that three approaches are implemented by "list", "numbered", and "labeled" versions of polynomials and polynomial
+spaces respectively. Whereas all rational functions are represented as fractions with corresponding polynomial numerator
+and denominator, and rational functions' spaces are implemented in the same way as usual field of rational numbers (or
+more precisely, as any field of fractions over integral domain) should be implemented.
 
 So here are a bit of details. Let `C` by type of constants. Then:
-1. `ListPolynomial`, `ListPolynomialSpace`, `ListRationalFunction` and `ListRationalFunctionSpace` implement the first scenario. `ListPolynomial` stores polynomial  $a_0 + \dots + a_n x^n $ as a coefficients list `listOf(a_0, ..., a_n)` (of type `List<C>`).
 
-   They also have variation `ScalableListPolynomialSpace` that replaces former polynomials and implements `ScaleOperations`.
-2. `NumberedPolynomial`, `NumberedPolynomialSpace`, `NumberedRationalFunction` and `NumberedRationalFunctionSpace` implement second scenario. `NumberedPolynomial` stores polynomials as structures of type `Map<List<UInt>, C>`. Signatures are stored as `List<UInt>`. To prevent ambiguity signatures should not end with zeros.
-3. `LabeledPolynomial`, `LabeledPolynomialSpace`, `LabeledRationalFunction` and `LabeledRationalFunctionSpace` implement third scenario using common `Symbol` as variable type. `LabeledPolynomial` stores polynomials as structures of type `Map<Map<Symbol, UInt>, C>`. Signatures are stored as `Map<Symbol, UInt>`. To prevent ambiguity each signature should not map any variable to zero.
+1. `ListPolynomial`, `ListPolynomialSpace`, `ListRationalFunction` and `ListRationalFunctionSpace` implement the first
+   scenario. `ListPolynomial` stores polynomial $a_0 + \dots + a_n x^n $ as a coefficients
+   list `listOf(a_0, ..., a_n)` (of type `List<C>`).
+
+   They also have variation `ScalableListPolynomialSpace` that replaces former polynomials and
+   implements `ScaleOperations`.
+2. `NumberedPolynomial`, `NumberedPolynomialSpace`, `NumberedRationalFunction` and `NumberedRationalFunctionSpace`
+   implement second scenario. `NumberedPolynomial` stores polynomials as structures of type `Map<List<UInt>, C>`.
+   Signatures are stored as `List<UInt>`. To prevent ambiguity signatures should not end with zeros.
+3. `LabeledPolynomial`, `LabeledPolynomialSpace`, `LabeledRationalFunction` and `LabeledRationalFunctionSpace` implement
+   third scenario using common `Symbol` as variable type. `LabeledPolynomial` stores polynomials as structures of
+   type `Map<Map<Symbol, UInt>, C>`. Signatures are stored as `Map<Symbol, UInt>`. To prevent ambiguity each signature
+   should not map any variable to zero.
 
 ### Example: `ListPolynomial`
 
 For example, polynomial $2 - 3x + x^2 $ (with `Int` coefficients) is represented
+
 ```kotlin
 val polynomial: ListPolynomial<Int> = ListPolynomial(listOf(2, -3, 1))
 // or
@@ -29,6 +56,7 @@ val polynomial: ListPolynomial<Int> = ListPolynomial(2, -3, 1)
 ```
 
 All algebraic operations can be used in corresponding space:
+
 ```kotlin
 val computationResult = Int.algebra.listPolynomialSpace {
    ListPolynomial(2, -3, 1) + ListPolynomial(0, 6) == ListPolynomial(2, 3, 1)
@@ -42,6 +70,7 @@ For more see [examples](../examples/src/main/kotlin/space/kscience/kmath/functio
 ### Example: `NumberedPolynomial`
 
 For example, polynomial $3 + 5 x_1 - 7 x_0^2 x_2 $ (with `Int` coefficients) is represented
+
 ```kotlin
 val polynomial: NumberedPolynomial<Int> = NumberedPolynomial(
    mapOf(
@@ -59,6 +88,7 @@ val polynomial: NumberedPolynomial<Int> = NumberedPolynomial(
 ```
 
 All algebraic operations can be used in corresponding space:
+
 ```kotlin
 val computationResult = Int.algebra.numberedPolynomialSpace {
    NumberedPolynomial(
@@ -84,6 +114,7 @@ For more see [examples](../examples/src/main/kotlin/space/kscience/kmath/functio
 ### Example: `LabeledPolynomial`
 
 For example, polynomial $3 + 5 y - 7 x^2 z $ (with `Int` coefficients) is represented
+
 ```kotlin
 val polynomial: LabeledPolynomial<Int> = LabeledPolynomial(
    mapOf(
@@ -101,6 +132,7 @@ val polynomial: LabeledPolynomial<Int> = LabeledPolynomial(
 ```
 
 All algebraic operations can be used in corresponding space:
+
 ```kotlin
 val computationResult = Int.algebra.labeledPolynomialSpace {
    LabeledPolynomial(
@@ -150,23 +182,42 @@ classDiagram
    PolynomialSpaceOfFractions <|-- MultivariatePolynomialSpaceOfFractions
 ```
 
-There are implemented `Polynomial` and `RationalFunction` interfaces as abstractions of polynomials and rational functions respectively (although, there is not a lot of logic in them) and `PolynomialSpace` and `RationalFunctionSpace` (that implement `Ring` interface) as abstractions of polynomials' and rational functions' spaces respectively. More precisely, that means they allow to declare common logic of interaction with such objects and spaces:
+There are implemented `Polynomial` and `RationalFunction` interfaces as abstractions of polynomials and rational
+functions respectively (although, there is not a lot of logic in them) and `PolynomialSpace`
+and `RationalFunctionSpace` (that implement `Ring` interface) as abstractions of polynomials' and rational functions'
+spaces respectively. More precisely, that means they allow to declare common logic of interaction with such objects and
+spaces:
+
 - `Polynomial` does not provide any logic. It is marker interface.
 - `RationalFunction` provides numerator and denominator of rational function and destructuring declaration for them.
-- `PolynomialSpace` provides all possible arithmetic interactions of integers, constants (of type `C`), and polynomials (of type `P`) like addition, subtraction, multiplication, and some others and common properties like degree of polynomial.
-- `RationalFunctionSpace` provides the same as `PolynomialSpace` but also for rational functions: all possible arithmetic interactions of integers, constants (of type `C`), polynomials (of type `P`), and rational functions (of type `R`) like addition, subtraction, multiplication, division (in some cases), and some others and common properties like degree of polynomial.
+- `PolynomialSpace` provides all possible arithmetic interactions of integers, constants (of type `C`), and
+  polynomials (of type `P`) like addition, subtraction, multiplication, and some others and common properties like
+  degree of polynomial.
+- `RationalFunctionSpace` provides the same as `PolynomialSpace` but also for rational functions: all possible
+  arithmetic interactions of integers, constants (of type `C`), polynomials (of type `P`), and rational functions (of
+  type `R`) like addition, subtraction, multiplication, division (in some cases), and some others and common properties
+  like degree of polynomial.
 
-Then to add abstraction of similar behaviour with variables (in multivariate case) there are implemented `MultivariatePolynomialSpace` and `MultivariateRationalFunctionSpace`. They just include variables (of type `V`) in the interactions of the entities.
+Then to add abstraction of similar behaviour with variables (in multivariate case) there are
+implemented `MultivariatePolynomialSpace` and `MultivariateRationalFunctionSpace`. They just include variables (of
+type `V`) in the interactions of the entities.
 
 Also, to remove boilerplates there were provided helping subinterfaces and abstract subclasses:
-- `PolynomialSpaceOverRing` allows to replace implementation of interactions of integers and constants with implementations from provided ring over constants (of type `A: Ring<C>`).
+
+- `PolynomialSpaceOverRing` allows to replace implementation of interactions of integers and constants with
+  implementations from provided ring over constants (of type `A: Ring<C>`).
 - `RationalFunctionSpaceOverRing` &mdash; the same but for `RationalFunctionSpace`.
-- `RationalFunctionSpaceOverPolynomialSpace` &mdash; the same but "the inheritance" includes interactions with polynomials from provided `PolynomialSpace`.
-- `PolynomialSpaceOfFractions` is actually abstract subclass of `RationalFunctionSpace` that implements all fractions boilerplates with provided (`protected`) constructor of rational functions by polynomial numerator and denominator.
-- `MultivariateRationalFunctionSpaceOverMultivariatePolynomialSpace` and `MultivariatePolynomialSpaceOfFractions` &mdash; the same stories of operators inheritance and fractions boilerplates respectively but in multivariate case.
+- `RationalFunctionSpaceOverPolynomialSpace` &mdash; the same but "the inheritance" includes interactions with
+  polynomials from provided `PolynomialSpace`.
+- `PolynomialSpaceOfFractions` is actually abstract subclass of `RationalFunctionSpace` that implements all fractions
+  boilerplates with provided (`protected`) constructor of rational functions by polynomial numerator and denominator.
+- `MultivariateRationalFunctionSpaceOverMultivariatePolynomialSpace` and `MultivariatePolynomialSpaceOfFractions`
+  &mdash; the same stories of operators inheritance and fractions boilerplates respectively but in multivariate case.
 
 ## Utilities
 
-For all kinds of polynomials there are provided (implementation details depend on kind of polynomials) such common utilities as:
+For all kinds of polynomials there are provided (implementation details depend on kind of polynomials) such common
+utilities as:
+
 1. differentiation and anti-differentiation,
 2. substitution, invocation and functional representation.

docs/templates/ARTIFACT-TEMPLATE.md

@@ -3,25 +3,11 @@
 The Maven coordinates of this project are `${group}:${name}:${version}`.
 
 **Gradle:**
-```groovy
-repositories {
-    maven { url 'https://repo.kotlin.link' }
-    mavenCentral()
-    // development and snapshot versions
-    maven { url 'https://maven.pkg.jetbrains.space/spc/p/sci/dev' }
-}
 
-dependencies {
-    implementation '${group}:${name}:${version}'
-}
-```
-**Gradle Kotlin DSL:**
 ```kotlin
 repositories {
     maven("https://repo.kotlin.link")
     mavenCentral()
-    // development and snapshot versions
-    maven("https://maven.pkg.jetbrains.space/spc/p/sci/dev")
 }
 
 dependencies {

docs/templates/README-TEMPLATE.md

@@ -11,18 +11,22 @@ analog to Python's NumPy library. Later we found that kotlin is much more flexib
 architecture designs. In contrast to `numpy` and `scipy` it is modular and has a lightweight core. The `numpy`-like
 experience could be achieved with [kmath-for-real](/kmath-for-real) extension module.
 
-[Documentation site (**WIP**)](https://SciProgCentre.github.io/kmath/)
+[Documentation site](https://SciProgCentre.github.io/kmath/)
 
 ## Publications and talks
 
 * [A conceptual article about context-oriented design](https://proandroiddev.com/an-introduction-context-oriented-programming-in-kotlin-2e79d316b0a2)
 * [Another article about context-oriented design](https://proandroiddev.com/diving-deeper-into-context-oriented-programming-in-kotlin-3ecb4ec38814)
 * [ACAT 2019 conference paper](https://aip.scitation.org/doi/abs/10.1063/1.5130103)
+* [A talk at KotlinConf 2019 about using kotlin for science](https://youtu.be/LI_5TZ7tnOE?si=4LknX41gl_YeUbIe)
+* [A talk on architecture at Joker-2021 (in Russian)](https://youtu.be/1bZ2doHiRRM?si=9w953ro9yu98X_KJ)
+* [The same talk in English](https://youtu.be/yP5DIc2fVwQ?si=louZzQ1dcXV6gP10)
+* [A seminar on tensor API](https://youtu.be/0H99wUs0xTM?si=6c__04jrByFQtVpo)
 
 # Goal
 
-* Provide a flexible and powerful API to work with mathematics abstractions in Kotlin-multiplatform (JVM, JS and Native)
-  .
+* Provide a flexible and powerful API to work with mathematics abstractions in Kotlin-multiplatform (JVM, JS, Native and
+  Wasm).
 * Provide basic multiplatform implementations for those abstractions (without significant performance optimization).
 * Provide bindings and wrappers with those abstractions for popular optimized platform libraries.
 
@@ -59,22 +63,24 @@ ${modules}
 KMath is developed as a multi-platform library, which means that most of the interfaces are declared in the
 [common source sets](/kmath-core/src/commonMain) and implemented there wherever it is possible. In some cases, features
 are delegated to platform-specific implementations even if they could be provided in the common module for performance
-reasons. Currently, the Kotlin/JVM is the primary platform, however Kotlin/Native and Kotlin/JS contributions and
+reasons. Currently, Kotlin/JVM is the primary platform, however, Kotlin/Native and Kotlin/JS contributions and
 feedback are also welcome.
 
 ## Performance
 
-Calculation performance is one of major goals of KMath in the future, but in some cases it is impossible to achieve both
+Calculation of performance is one of the major goals of KMath in the future, but in some cases it is impossible to
+achieve both
 performance and flexibility.
 
-We expect to focus on creating convenient universal API first and then work on increasing performance for specific
+We expect to focus on creating a convenient universal API first and then work on increasing performance for specific
 cases. We expect the worst KMath benchmarks will perform better than native Python, but worse than optimized
-native/SciPy (mostly due to boxing operations on primitive numbers). The best performance of optimized parts could be better than SciPy.
+native/SciPy (mostly due to boxing operations on primitive numbers). The best performance of optimized parts could be
+better than SciPy.
 
 ## Requirements
 
-KMath currently relies on JDK 11 for compilation and execution of Kotlin-JVM part. We recommend to use GraalVM-CE 11 for
-execution to get better performance.
+KMath currently relies on JDK 11 for compilation and execution of Kotlin-JVM part. We recommend using GraalVM-CE or
+Oracle GraalVM for execution to get better performance.
 
 ### Repositories
 
@@ -94,11 +100,10 @@ dependencies {
 }
 ```
 
-Gradle `6.0+` is required for multiplatform artifacts.
-
 ## Contributing
 
-The project requires a lot of additional work. The most important thing we need is a feedback about what features are
+The project requires a lot of additional work. The most important thing we need is feedback about what features are
 required the most. Feel free to create feature requests. We are also welcome to code contributions, especially in issues
-marked with
-[waiting for a hero](https://github.com/mipt-npm/kmath/labels/waiting%20for%20a%20hero) label.
+marked
+with [good first issue](hhttps://github.com/SciProgCentre/kmath/issues?q=is%3Aissue+is%3Aopen+label%3A%22good+first+issue%22)
+label.

examples/build.gradle.kts

@@ -52,7 +52,7 @@ dependencies {
 
     implementation("org.slf4j:slf4j-simple:1.7.32")
     // plotting
-    implementation("space.kscience:plotlykt-server:0.5.0")
+    implementation("space.kscience:plotlykt-server:0.7.0")
 }
 
 kotlin {
@@ -67,8 +67,8 @@ kotlin {
 }
 
 tasks.withType<KotlinJvmCompile> {
-    kotlinOptions {
-        freeCompilerArgs = freeCompilerArgs + "-Xjvm-default=all" + "-Xopt-in=kotlin.RequiresOptIn" + "-Xlambdas=indy"
+    compilerOptions {
+        freeCompilerArgs.addAll("-Xjvm-default=all", "-Xopt-in=kotlin.RequiresOptIn", "-Xlambdas=indy")
     }
 }
 

examples/src/main/kotlin/space/kscience/kmath/ast/astRendering.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/ast/expressions.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/ast/kotlingradSupport.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/ast/symjaSupport.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/expressions/autodiff.kt

@@ -1,11 +1,12 @@
 /*
- * Copyright 2018-2023 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
 package space.kscience.kmath.expressions
 
 import space.kscience.kmath.UnstableKMathAPI
+
 // Only kmath-core is needed.
 
 // Let's declare some variables
@@ -51,7 +52,7 @@ fun main() {
     // >>> 0.0
 
     // But in case you forgot to specify bound symbol's value, exception is thrown:
-    println( runCatching { someExpression(z to 4.0) } )
+    println(runCatching { someExpression(z to 4.0) })
     // >>> Failure(java.lang.IllegalStateException: Symbol 'x' is not supported in ...)
 
     // The reason is that the expression is evaluated lazily,

examples/src/main/kotlin/space/kscience/kmath/fit/chiSquared.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -13,10 +13,7 @@ import space.kscience.kmath.expressions.autodiff
 import space.kscience.kmath.expressions.symbol
 import space.kscience.kmath.operations.asIterable
 import space.kscience.kmath.operations.toList
-import space.kscience.kmath.optimization.FunctionOptimizationTarget
-import space.kscience.kmath.optimization.optimizeWith
-import space.kscience.kmath.optimization.resultPoint
-import space.kscience.kmath.optimization.resultValue
+import space.kscience.kmath.optimization.*
 import space.kscience.kmath.random.RandomGenerator
 import space.kscience.kmath.real.DoubleVector
 import space.kscience.kmath.real.map
@@ -80,8 +77,9 @@ suspend fun main() {
     val result = chi2.optimizeWith(
         CMOptimizer,
         mapOf(a to 1.5, b to 0.9, c to 1.0),
-        FunctionOptimizationTarget.MINIMIZE
-    )
+    ) {
+        FunctionOptimizationTarget(OptimizationDirection.MINIMIZE)
+    }
 
     //display a page with plot and numerical results
     val page = Plotly.page {
@@ -98,7 +96,7 @@ suspend fun main() {
             scatter {
                 mode = ScatterMode.lines
                 x(x)
-                y(x.map { result.resultPoint[a]!! * it.pow(2) + result.resultPoint[b]!! * it + 1 })
+                y(x.map { result.result[a]!! * it.pow(2) + result.result[b]!! * it + 1 })
                 name = "fit"
             }
         }

examples/src/main/kotlin/space/kscience/kmath/fit/qowFit.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -7,6 +7,7 @@ package space.kscience.kmath.fit
 
 import kotlinx.html.br
 import kotlinx.html.h3
+import space.kscience.attributes.Attributes
 import space.kscience.kmath.data.XYErrorColumnarData
 import space.kscience.kmath.distributions.NormalDistribution
 import space.kscience.kmath.expressions.Symbol
@@ -64,7 +65,7 @@ suspend fun main() {
         QowOptimizer,
         Double.autodiff,
         mapOf(a to 0.9, b to 1.2, c to 2.0, e to 1.0, d to 1.0, e to 0.0),
-        OptimizationParameters(a, b, c, d)
+        attributes = Attributes(OptimizationParameters, listOf(a, b, c, d))
     ) { arg ->
         //bind variables to autodiff context
         val a by binding
@@ -94,13 +95,13 @@ suspend fun main() {
             scatter {
                 mode = ScatterMode.lines
                 x(x)
-                y(x.map { result.model(result.startPoint + result.resultPoint + (Symbol.x to it)) })
+                y(x.map { result.model(result.startPoint + result.result + (Symbol.x to it)) })
                 name = "fit"
             }
         }
         br()
         h3 {
-            +"Fit result: ${result.resultPoint}"
+            +"Fit result: ${result.result}"
         }
         h3 {
             +"Chi2/dof = ${result.chiSquaredOrNull!! / result.dof}"

examples/src/main/kotlin/space/kscience/kmath/functions/integrate.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/functions/interpolate.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -8,7 +8,6 @@ package space.kscience.kmath.functions
 import space.kscience.kmath.interpolation.SplineInterpolator
 import space.kscience.kmath.interpolation.interpolatePolynomials
 import space.kscience.kmath.operations.Float64Field
-import space.kscience.kmath.structures.Float64Buffer
 import space.kscience.plotly.Plotly
 import space.kscience.plotly.UnstablePlotlyAPI
 import space.kscience.plotly.makeFile
@@ -24,9 +23,7 @@ fun main() {
         x to sin(x)
     }
 
-    val polynomial: PiecewisePolynomial<Double> = SplineInterpolator(
-        Float64Field, ::Float64Buffer
-    ).interpolatePolynomials(data)
+    val polynomial: PiecewisePolynomial<Double> = SplineInterpolator(Float64Field).interpolatePolynomials(data)
 
     val function = polynomial.asFunction(Float64Field, 0.0)
 

examples/src/main/kotlin/space/kscience/kmath/functions/interpolateSquare.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/functions/matrixIntegration.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/jafama/JafamaDemo.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/linear/dotPerformance.kt

@@ -1,35 +1,30 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
 package space.kscience.kmath.linear
 
-import space.kscience.kmath.operations.algebra
 import kotlin.random.Random
-import kotlin.time.ExperimentalTime
 import kotlin.time.measureTime
 
-@OptIn(ExperimentalTime::class)
-fun main() {
+fun main() = with(Float64ParallelLinearSpace) {
     val random = Random(12224)
     val dim = 1000
 
     //creating invertible matrix
-    val matrix1 = Double.algebra.linearSpace.buildMatrix(dim, dim) { i, j ->
+    val matrix1 = buildMatrix(dim, dim) { i, j ->
         if (i <= j) random.nextDouble() else 0.0
     }
-    val matrix2 = Double.algebra.linearSpace.buildMatrix(dim, dim) { i, j ->
+    val matrix2 = buildMatrix(dim, dim) { i, j ->
         if (i <= j) random.nextDouble() else 0.0
     }
 
     val time = measureTime {
-        with(Double.algebra.linearSpace) {
-            repeat(10) {
+        repeat(30) {
             matrix1 dot matrix2
         }
     }
-    }
 
     println(time)
 

examples/src/main/kotlin/space/kscience/kmath/linear/gradient.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/linear/lupPerformance.kt

@@ -0,0 +1,27 @@
+/*
+ * Copyright 2018-2024 KMath contributors.
+ * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
+ */
+
+package space.kscience.kmath.linear
+
+import kotlin.random.Random
+import kotlin.time.measureTime
+
+fun main(): Unit = with(Float64LinearSpace) {
+    val random = Random(1224)
+    val dim = 500
+
+    //creating invertible matrix
+    val u = buildMatrix(dim, dim) { i, j -> if (i <= j) random.nextDouble() else 0.0 }
+    val l = buildMatrix(dim, dim) { i, j -> if (i >= j) random.nextDouble() else 0.0 }
+    val matrix = l dot u
+
+    val time = measureTime {
+        repeat(20) {
+            lupSolver().inverse(matrix)
+        }
+    }
+
+    println(time)
+}

examples/src/main/kotlin/space/kscience/kmath/operations/BigIntDemo.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/operations/complexDemo.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/operations/mixedNDOperations.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -8,14 +8,15 @@ package space.kscience.kmath.operations
 import space.kscience.kmath.commons.linear.CMLinearSpace
 import space.kscience.kmath.linear.matrix
 import space.kscience.kmath.nd.Float64BufferND
-import space.kscience.kmath.nd.ShapeND
 import space.kscience.kmath.nd.Structure2D
+import space.kscience.kmath.nd.mutableStructureND
 import space.kscience.kmath.nd.ndAlgebra
-import space.kscience.kmath.viktor.ViktorStructureND
 import space.kscience.kmath.viktor.viktorAlgebra
+import kotlin.collections.component1
+import kotlin.collections.component2
 
 fun main() {
-    val viktorStructure: ViktorStructureND = Float64Field.viktorAlgebra.structureND(ShapeND(2, 2)) { (i, j) ->
+    val viktorStructure = Float64Field.viktorAlgebra.mutableStructureND(2, 2) { (i, j) ->
         if (i == j) 2.0 else 0.0
     }
 

examples/src/main/kotlin/space/kscience/kmath/series/DateTimeSeries.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2023 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/series/analyzeDif.kt

@@ -1,3 +1,8 @@
+/*
+ * Copyright 2018-2024 KMath contributors.
+ * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
+ */
+
 package space.kscience.kmath.series
 
 
@@ -13,7 +18,10 @@ import space.kscience.kmath.structures.slice
 import space.kscience.plotly.*
 import kotlin.math.PI
 
-fun main() = with(Double.algebra.bufferAlgebra.seriesAlgebra()) {
+fun Double.Companion.seriesAlgebra() = Double.algebra.bufferAlgebra.seriesAlgebra()
+
+
+fun main() = with(Double.seriesAlgebra()) {
 
 
     fun Plot.plotSeries(name: String, buffer: Buffer<Double>) {
@@ -36,10 +44,10 @@ fun main() = with(Double.algebra.bufferAlgebra.seriesAlgebra()) {
 
     Plotly.page {
         h1 { +"This is my plot" }
-        p{
+        p {
             +"Kolmogorov-smirnov test for s1 and s2: ${kmTest.value}"
         }
-        plot{
+        plot {
             plotSeries("s1", s1)
             plotSeries("s2", s2)
             plotSeries("s3", s3)

examples/src/main/kotlin/space/kscience/kmath/series/seriesBuilder.kt

@@ -0,0 +1,50 @@
+/*
+ * Copyright 2018-2023 KMath contributors.
+ * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
+ */
+
+package space.kscience.kmath.series
+
+
+import space.kscience.kmath.structures.Buffer
+import space.kscience.kmath.structures.Float64Buffer
+import space.kscience.kmath.structures.asBuffer
+import space.kscience.kmath.structures.toDoubleArray
+import space.kscience.plotly.*
+import space.kscience.plotly.models.Scatter
+import space.kscience.plotly.models.ScatterMode
+import kotlin.random.Random
+
+fun main(): Unit = with(Double.seriesAlgebra()) {
+
+    val random = Random(1234)
+
+    val arrayOfRandoms = DoubleArray(20) { random.nextDouble() }
+
+    val series1: Float64Buffer = arrayOfRandoms.asBuffer()
+    val series2: Series<Double> = series1.moveBy(3)
+
+    val res = series2 - series1
+
+    println(res.size)
+
+    println(res)
+
+    fun Plot.series(name: String, buffer: Buffer<Double>, block: Scatter.() -> Unit = {}) {
+        scatter {
+            this.name = name
+            x.numbers = buffer.offsetIndices
+            y.doubles = buffer.toDoubleArray()
+            block()
+        }
+    }
+
+    Plotly.plot {
+        series("series1", series1)
+        series("series2", series2)
+        series("dif", res) {
+            mode = ScatterMode.lines
+            line.color("magenta")
+        }
+    }.makeFile(resourceLocation = ResourceLocation.REMOTE)
+}

examples/src/main/kotlin/space/kscience/kmath/stat/DistributionBenchmark.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/stat/DistributionDemo.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/structures/ComplexND.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -8,7 +8,7 @@
 package space.kscience.kmath.structures
 
 import space.kscience.kmath.complex.*
-import space.kscience.kmath.linear.transpose
+import space.kscience.kmath.linear.transposed
 import space.kscience.kmath.nd.StructureND
 import space.kscience.kmath.nd.as2D
 import space.kscience.kmath.nd.ndAlgebra
@@ -60,7 +60,7 @@ fun complexExample() {
             val sum = matrix + x + 1.0
 
             //Represent the sum as 2d-structure and transpose
-            sum.as2D().transpose()
+            sum.as2D().transposed()
         }
     }
 }

examples/src/main/kotlin/space/kscience/kmath/structures/NDField.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/structures/StreamDoubleFieldND.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -7,6 +7,7 @@ package space.kscience.kmath.structures
 
 import space.kscience.kmath.PerformancePitfall
 import space.kscience.kmath.nd.*
+import space.kscience.kmath.operations.DoubleField
 import space.kscience.kmath.operations.ExtendedField
 import space.kscience.kmath.operations.Float64Field
 import space.kscience.kmath.operations.NumbersAddOps
@@ -34,7 +35,7 @@ class StreamDoubleFieldND(override val shape: ShapeND) : FieldND<Double, Float64
     @OptIn(PerformancePitfall::class)
     private val StructureND<Double>.buffer: Float64Buffer
         get() = when {
-            !shape.contentEquals(this@StreamDoubleFieldND.shape) -> throw ShapeMismatchException(
+            shape != this@StreamDoubleFieldND.shape -> throw ShapeMismatchException(
                 this@StreamDoubleFieldND.shape,
                 shape
             )
@@ -52,6 +53,18 @@ class StreamDoubleFieldND(override val shape: ShapeND) : FieldND<Double, Float64
         return BufferND(strides, array.asBuffer())
     }
 
+    override fun mutableStructureND(
+        shape: ShapeND,
+        initializer: DoubleField.(IntArray) -> Double,
+    ): MutableBufferND<Double> {
+        val array = IntStream.range(0, strides.linearSize).parallel().mapToDouble { offset ->
+            val index = strides.index(offset)
+            DoubleField.initializer(index)
+        }.toArray()
+
+        return MutableBufferND(strides, array.asBuffer())
+    }
+
     @OptIn(PerformancePitfall::class)
     override fun StructureND<Double>.map(
         transform: Float64Field.(Double) -> Double,

examples/src/main/kotlin/space/kscience/kmath/structures/StructureReadBenchmark.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/structures/StructureWriteBenchmark.kt

@@ -1,25 +1,23 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
 package space.kscience.kmath.structures
 
 import space.kscience.kmath.nd.BufferND
-import space.kscience.kmath.nd.ShapeND
-import space.kscience.kmath.nd.StructureND
 import space.kscience.kmath.operations.mapToBuffer
 import kotlin.system.measureTimeMillis
 
 private inline fun <T, reified R : Any> BufferND<T>.mapToBufferND(
-    bufferFactory: BufferFactory<R> = BufferFactory.auto(),
+    bufferFactory: BufferFactory<R> = BufferFactory(),
     crossinline block: (T) -> R,
 ): BufferND<R> = BufferND(indices, buffer.mapToBuffer(bufferFactory, block))
 
 @Suppress("UNUSED_VARIABLE")
 fun main() {
     val n = 6000
-    val structure = StructureND.buffered(ShapeND(n, n), Buffer.Companion::auto) { 1.0 }
+    val structure = BufferND(n, n) { 1.0 }
     structure.mapToBufferND { it + 1 } // warm-up
     val time1 = measureTimeMillis { val res = structure.mapToBufferND { it + 1 } }
     println("Structure mapping finished in $time1 millis")

examples/src/main/kotlin/space/kscience/kmath/structures/buffers.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -12,8 +12,8 @@ import space.kscience.kmath.operations.withSize
 
 inline fun <reified R : Any> MutableBuffer.Companion.same(
     n: Int,
-    value: R
-): MutableBuffer<R> = auto(n) { value }
+    value: R,
+): MutableBuffer<R> = MutableBuffer(n) { value }
 
 
 fun main() {

examples/src/main/kotlin/space/kscience/kmath/structures/mutableNd.kt

@@ -0,0 +1,26 @@
+/*
+ * Copyright 2018-2023 KMath contributors.
+ * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
+ */
+
+package space.kscience.kmath.structures
+
+import space.kscience.kmath.PerformancePitfall
+import space.kscience.kmath.nd.*
+import space.kscience.kmath.operations.algebra
+
+@OptIn(PerformancePitfall::class)
+fun main(): Unit = with(Double.algebra.ndAlgebra) {
+    val structure: MutableStructure2D<Double> = mutableStructureND(ShapeND(2, 2)) { (i, j) ->
+        i.toDouble() + j.toDouble()
+    }.as2D()
+
+    structure[0, 1] = -2.0
+
+    val structure2 = mutableStructureND(2, 2) { (i, j) -> i.toDouble() + j.toDouble() }.as2D()
+
+    structure2[0, 1] = 2.0
+
+
+    println(structure + structure2)
+}

examples/src/main/kotlin/space/kscience/kmath/structures/typeSafeDimensions.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -15,7 +15,7 @@ private fun DMatrixContext<Double, *>.simple() {
     val m2 = produce<D3, D2> { i, j -> (i + j).toDouble() }
 
     //Dimension-safe addition
-    m1.transpose() + m2
+    m1.transposed() + m2
 }
 
 private object D5 : Dimension {

examples/src/main/kotlin/space/kscience/kmath/tensors/LevenbergMarquardt/StaticLm/staticDifficultTest.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2023 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -51,7 +51,8 @@ fun main() {
     val opts = doubleArrayOf(3.0, 10000.0, 1e-6, 1e-6, 1e-6, 1e-6, 1e-2, 11.0, 9.0, 1.0)
 //    val opts = doubleArrayOf(3.0, 10000.0, 1e-6, 1e-6, 1e-6, 1e-6, 1e-3, 11.0, 9.0, 1.0)
 
-    val inputData = LMInput(::funcDifficultForLm,
+    val inputData = LMInput(
+        ::funcDifficultForLm,
         p_init.as2D(),
         t,
         y_dat,
@@ -64,7 +65,8 @@ fun main() {
         doubleArrayOf(opts[6], opts[7], opts[8]),
         opts[9].toInt(),
         10,
-        1)
+        1
+    )
 
     val result = DoubleTensorAlgebra.levenbergMarquardt(inputData)
 

examples/src/main/kotlin/space/kscience/kmath/tensors/LevenbergMarquardt/StaticLm/staticEasyTest.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2023 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -18,7 +18,8 @@ import kotlin.math.roundToInt
 
 fun main() {
     val startedData = getStartDataForFuncEasy()
-    val inputData = LMInput(::funcEasyForLm,
+    val inputData = LMInput(
+        ::funcEasyForLm,
         DoubleTensorAlgebra.ones(ShapeND(intArrayOf(4, 1))).as2D(),
         startedData.t,
         startedData.y_dat,
@@ -31,7 +32,8 @@ fun main() {
         doubleArrayOf(startedData.opts[6], startedData.opts[7], startedData.opts[8]),
         startedData.opts[9].toInt(),
         10,
-        startedData.example_number)
+        startedData.example_number
+    )
 
     val result = DoubleTensorAlgebra.levenbergMarquardt(inputData)
 

examples/src/main/kotlin/space/kscience/kmath/tensors/LevenbergMarquardt/StaticLm/staticMiddleTest.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2023 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -15,6 +15,7 @@ import space.kscience.kmath.tensors.core.DoubleTensorAlgebra
 import space.kscience.kmath.tensors.core.LMInput
 import space.kscience.kmath.tensors.core.levenbergMarquardt
 import kotlin.math.roundToInt
+
 fun main() {
     val NData = 100
     var t_example = DoubleTensorAlgebra.ones(ShapeND(intArrayOf(NData, 1))).as2D()
@@ -49,7 +50,8 @@ fun main() {
     p_min = p_min.div(1.0 / 50.0)
     val opts = doubleArrayOf(3.0, 7000.0, 1e-5, 1e-5, 1e-5, 1e-5, 1e-5, 11.0, 9.0, 1.0)
 
-    val inputData = LMInput(::funcMiddleForLm,
+    val inputData = LMInput(
+        ::funcMiddleForLm,
         p_init.as2D(),
         t,
         y_dat,
@@ -62,7 +64,8 @@ fun main() {
         doubleArrayOf(opts[6], opts[7], opts[8]),
         opts[9].toInt(),
         10,
-        1)
+        1
+    )
 
     val result = DoubleTensorAlgebra.levenbergMarquardt(inputData)
 

examples/src/main/kotlin/space/kscience/kmath/tensors/LevenbergMarquardt/StreamingLm/streamLm.kt

@@ -1,23 +1,28 @@
 /*
- * Copyright 2018-2023 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
 package space.kscience.kmath.tensors.LevenbergMarquardt.StreamingLm
 
 import kotlinx.coroutines.delay
-import kotlinx.coroutines.flow.*
-import space.kscience.kmath.nd.*
+import kotlinx.coroutines.flow.Flow
+import kotlinx.coroutines.flow.flow
+import space.kscience.kmath.nd.MutableStructure2D
+import space.kscience.kmath.nd.ShapeND
+import space.kscience.kmath.nd.as2D
+import space.kscience.kmath.nd.component1
 import space.kscience.kmath.tensors.LevenbergMarquardt.StartDataLm
 import space.kscience.kmath.tensors.core.BroadcastDoubleTensorAlgebra.zeros
 import space.kscience.kmath.tensors.core.DoubleTensorAlgebra
 import space.kscience.kmath.tensors.core.LMInput
 import space.kscience.kmath.tensors.core.levenbergMarquardt
 import kotlin.random.Random
-import kotlin.reflect.KFunction3
 
-fun streamLm(lm_func: (MutableStructure2D<Double>, MutableStructure2D<Double>, Int) -> (MutableStructure2D<Double>),
-             startData: StartDataLm, launchFrequencyInMs: Long, numberOfLaunches: Int): Flow<MutableStructure2D<Double>> = flow{
+fun streamLm(
+    lm_func: (MutableStructure2D<Double>, MutableStructure2D<Double>, Int) -> (MutableStructure2D<Double>),
+    startData: StartDataLm, launchFrequencyInMs: Long, numberOfLaunches: Int,
+): Flow<MutableStructure2D<Double>> = flow {
 
     var example_number = startData.example_number
     var p_init = startData.p_init
@@ -32,7 +37,8 @@ fun streamLm(lm_func: (MutableStructure2D<Double>, MutableStructure2D<Double>, I
     var steps = numberOfLaunches
     val isEndless = (steps <= 0)
 
-    val inputData = LMInput(lm_func,
+    val inputData = LMInput(
+        lm_func,
         p_init,
         t,
         y_dat,
@@ -45,7 +51,8 @@ fun streamLm(lm_func: (MutableStructure2D<Double>, MutableStructure2D<Double>, I
         doubleArrayOf(opts[6], opts[7], opts[8]),
         opts[9].toInt(),
         10,
-        example_number)
+        example_number
+    )
 
     while (isEndless || steps > 0) {
         val result = DoubleTensorAlgebra.levenbergMarquardt(inputData)
@@ -57,7 +64,7 @@ fun streamLm(lm_func: (MutableStructure2D<Double>, MutableStructure2D<Double>, I
     }
 }
 
-fun generateNewYDat(y_dat: MutableStructure2D<Double>, delta: Double): MutableStructure2D<Double>{
+fun generateNewYDat(y_dat: MutableStructure2D<Double>, delta: Double): MutableStructure2D<Double> {
     val n = y_dat.shape.component1()
     val y_dat_new = zeros(ShapeND(intArrayOf(n, 1))).as2D()
     for (i in 0 until n) {

examples/src/main/kotlin/space/kscience/kmath/tensors/LevenbergMarquardt/StreamingLm/streamingLmTest.kt

@@ -1,15 +1,16 @@
 /*
- * Copyright 2018-2023 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
 package space.kscience.kmath.tensors.LevenbergMarquardt.StreamingLm
 
-import space.kscience.kmath.nd.*
-import space.kscience.kmath.tensors.LevenbergMarquardt.*
+import space.kscience.kmath.nd.component1
+import space.kscience.kmath.tensors.LevenbergMarquardt.funcDifficultForLm
+import space.kscience.kmath.tensors.LevenbergMarquardt.getStartDataForFuncDifficult
 import kotlin.math.roundToInt
 
-suspend fun main(){
+suspend fun main() {
     val startData = getStartDataForFuncDifficult()
     // Создание потока:
     val lmFlow = streamLm(::funcDifficultForLm, startData, 0, 100)

examples/src/main/kotlin/space/kscience/kmath/tensors/LevenbergMarquardt/functionsToOptimize.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2023 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -18,7 +18,7 @@ import space.kscience.kmath.tensors.core.DoubleTensorAlgebra.Companion.pow
 import space.kscience.kmath.tensors.core.DoubleTensorAlgebra.Companion.times
 import space.kscience.kmath.tensors.core.asDoubleTensor
 
-public data class StartDataLm (
+public data class StartDataLm(
     var lm_matx_y_dat: MutableStructure2D<Double>,
     var example_number: Int,
     var p_init: MutableStructure2D<Double>,
@@ -29,10 +29,14 @@ public data class StartDataLm (
     var p_min: MutableStructure2D<Double>,
     var p_max: MutableStructure2D<Double>,
     var consts: MutableStructure2D<Double>,
-    var opts: DoubleArray
+    var opts: DoubleArray,
 )
 
-fun funcEasyForLm(t: MutableStructure2D<Double>, p: MutableStructure2D<Double>, exampleNumber: Int): MutableStructure2D<Double> {
+fun funcEasyForLm(
+    t: MutableStructure2D<Double>,
+    p: MutableStructure2D<Double>,
+    exampleNumber: Int,
+): MutableStructure2D<Double> {
     val m = t.shape.component1()
     var y_hat = DoubleTensorAlgebra.zeros(ShapeND(intArrayOf(m, 1)))
 
@@ -40,15 +44,13 @@ fun funcEasyForLm(t: MutableStructure2D<Double>, p: MutableStructure2D<Double>,
         y_hat = DoubleTensorAlgebra.exp((t.times(-1.0 / p[1, 0]))).times(p[0, 0]) + t.times(p[2, 0]).times(
             DoubleTensorAlgebra.exp((t.times(-1.0 / p[3, 0])))
         )
-    }
-    else if (exampleNumber == 2) {
+    } else if (exampleNumber == 2) {
         val mt = t.max()
         y_hat = (t.times(1.0 / mt)).times(p[0, 0]) +
                 (t.times(1.0 / mt)).pow(2).times(p[1, 0]) +
                 (t.times(1.0 / mt)).pow(3).times(p[2, 0]) +
                 (t.times(1.0 / mt)).pow(4).times(p[3, 0])
-    }
-    else if (exampleNumber == 3) {
+    } else if (exampleNumber == 3) {
         y_hat = DoubleTensorAlgebra.exp((t.times(-1.0 / p[1, 0])))
             .times(p[0, 0]) + DoubleTensorAlgebra.sin((t.times(1.0 / p[3, 0]))).times(p[2, 0])
     }
@@ -56,32 +58,40 @@ fun funcEasyForLm(t: MutableStructure2D<Double>, p: MutableStructure2D<Double>,
     return y_hat.as2D()
 }
 
-fun funcMiddleForLm(t: MutableStructure2D<Double>, p: MutableStructure2D<Double>, exampleNumber: Int): MutableStructure2D<Double> {
+fun funcMiddleForLm(
+    t: MutableStructure2D<Double>,
+    p: MutableStructure2D<Double>,
+    exampleNumber: Int,
+): MutableStructure2D<Double> {
     val m = t.shape.component1()
-    var y_hat = DoubleTensorAlgebra.zeros(ShapeND(intArrayOf (m, 1)))
+    var y_hat = DoubleTensorAlgebra.zeros(ShapeND(intArrayOf(m, 1)))
 
     val mt = t.max()
-    for(i in 0 until p.shape.component1()){
+    for (i in 0 until p.shape.component1()) {
         y_hat += (t.times(1.0 / mt)).times(p[i, 0])
     }
 
-    for(i in 0 until 5){
+    for (i in 0 until 5) {
         y_hat = funcEasyForLm(y_hat.as2D(), p, exampleNumber).asDoubleTensor()
     }
 
     return y_hat.as2D()
 }
 
-fun funcDifficultForLm(t: MutableStructure2D<Double>, p: MutableStructure2D<Double>, exampleNumber: Int): MutableStructure2D<Double> {
+fun funcDifficultForLm(
+    t: MutableStructure2D<Double>,
+    p: MutableStructure2D<Double>,
+    exampleNumber: Int,
+): MutableStructure2D<Double> {
     val m = t.shape.component1()
-    var y_hat = DoubleTensorAlgebra.zeros(ShapeND(intArrayOf (m, 1)))
+    var y_hat = DoubleTensorAlgebra.zeros(ShapeND(intArrayOf(m, 1)))
 
     val mt = t.max()
-    for(i in 0 until p.shape.component1()){
-        y_hat = y_hat.plus( (t.times(1.0 / mt)).times(p[i, 0]) )
+    for (i in 0 until p.shape.component1()) {
+        y_hat = y_hat.plus((t.times(1.0 / mt)).times(p[i, 0]))
     }
 
-    for(i in 0 until 4){
+    for (i in 0 until 4) {
         y_hat = funcEasyForLm((y_hat.as2D() + t).as2D(), p, exampleNumber).asDoubleTensor()
     }
 

examples/src/main/kotlin/space/kscience/kmath/tensors/OLSWithSVD.kt

@@ -1,12 +1,11 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
 package space.kscience.kmath.tensors
 
 import space.kscience.kmath.nd.ShapeND
-import space.kscience.kmath.nd.contentEquals
 import space.kscience.kmath.operations.invoke
 import space.kscience.kmath.tensors.core.DoubleTensor
 import space.kscience.kmath.tensors.core.DoubleTensorAlgebra
@@ -62,7 +61,7 @@ fun main() {
         // figure out MSE of approximation
         fun mse(yTrue: DoubleTensor, yPred: DoubleTensor): Double {
             require(yTrue.shape.size == 1)
-            require(yTrue.shape contentEquals yPred.shape)
+            require(yTrue.shape == yPred.shape)
 
             val diff = yTrue - yPred
             return sqrt(diff.dot(diff)).value()

examples/src/main/kotlin/space/kscience/kmath/tensors/PCA.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/tensors/dataSetNormalization.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/tensors/linearSystemSolvingWithLUP.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/tensors/multik.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

examples/src/main/kotlin/space/kscience/kmath/tensors/neuralNetwork.kt

@@ -1,12 +1,11 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
 package space.kscience.kmath.tensors
 
 import space.kscience.kmath.nd.ShapeND
-import space.kscience.kmath.nd.contentEquals
 import space.kscience.kmath.operations.asIterable
 import space.kscience.kmath.operations.invoke
 import space.kscience.kmath.tensors.core.*
@@ -94,7 +93,7 @@ class Dense(
 
 // simple accuracy equal to the proportion of correct answers
 fun accuracy(yPred: DoubleTensor, yTrue: DoubleTensor): Double {
-    check(yPred.shape contentEquals yTrue.shape)
+    check(yPred.shape == yTrue.shape)
     val n = yPred.shape[0]
     var correctCnt = 0
     for (i in 0 until n) {

gradle.properties

@@ -5,12 +5,10 @@
 kotlin.code.style=official
 kotlin.mpp.stability.nowarn=true
 kotlin.native.ignoreDisabledTargets=true
-
 org.gradle.configureondemand=true
 org.gradle.jvmargs=-Xmx4096m
-
-toolsVersion=0.14.8-kotlin-1.8.20
-
-
 org.gradle.parallel=true
 org.gradle.workers.max=4
+toolsVersion=0.15.2-kotlin-1.9.22
+#kotlin.experimental.tryK2=true
+#kscience.wasm.disabled=true

gradle/wrapper/gradle-wrapper.properties

@@ -1,5 +1,5 @@
 distributionBase=GRADLE_USER_HOME
 distributionPath=wrapper/dists
-distributionUrl=https\://services.gradle.org/distributions/gradle-8.1.1-bin.zip
+distributionUrl=https\://services.gradle.org/distributions/gradle-8.7-bin.zip
 zipStoreBase=GRADLE_USER_HOME
 zipStorePath=wrapper/dists

kmath-ast/README.md

@@ -10,19 +10,8 @@ Extensions to MST API: transformations, dynamic compilation and visualization.
 
 ## Artifact:
 
-The Maven coordinates of this project are `space.kscience:kmath-ast:0.4.0-dev-1`.
+The Maven coordinates of this project are `space.kscience:kmath-ast:0.4.0`.
 
-**Gradle Groovy:**
-```groovy
-repositories {
-    maven { url 'https://repo.kotlin.link' }
-    mavenCentral()
-}
-
-dependencies {
-    implementation 'space.kscience:kmath-ast:0.4.0-dev-1'
-}
-```
 **Gradle Kotlin DSL:**
 ```kotlin
 repositories {
@@ -31,27 +20,33 @@ repositories {
 }
 
 dependencies {
-    implementation("space.kscience:kmath-ast:0.4.0-dev-1")
+    implementation("space.kscience:kmath-ast:0.4.0")
 }
 ```
 
 ## Parsing expressions
 
-In this module there is a parser from human-readable strings like `"x^3-x+3"` (in the more specific [grammar](reference/ArithmeticsEvaluator.g4)) to MST instances.
+In this module there is a parser from human-readable strings like `"x^3-x+3"` (in the more
+specific [grammar](reference/ArithmeticsEvaluator.g4)) to MST instances.
 
 Supported literals:
+
 1. Constants and variables (consist of latin letters, digits and underscores, can't start with digit): `x`, `_Abc2`.
 2. Numbers: `123`, `1.02`, `1e10`, `1e-10`, `1.0e+3`—all parsed either as `kotlin.Long` or `kotlin.Double`.
 
 Supported binary operators (from the highest precedence to the lowest one):
+
 1. `^`
 2. `*`, `/`
 3. `+`, `-`
 
 Supported unary operator:
+
 1. `-`, e. g. `-x`
 
-Arbitrary unary and binary functions are also supported: names consist of latin letters, digits and underscores, can't start with digit. Examples:
+Arbitrary unary and binary functions are also supported: names consist of latin letters, digits and underscores, can't
+start with digit. Examples:
+
 1. `sin(x)`
 2. `add(x, y)`
 
@@ -116,12 +111,15 @@ public final class CompiledExpression_-386104628_0 implements DoubleExpression {
 }
 ```
 
-Setting JVM system property `space.kscience.kmath.ast.dump.generated.classes` to `1` makes the translator dump class files to program's working directory, so they can be reviewed manually.
+Setting JVM system property `space.kscience.kmath.ast.dump.generated.classes` to `1` makes the translator dump class
+files to program's working directory, so they can be reviewed manually.
 
 #### Limitations
 
-- The same classes may be generated and loaded twice, so it is recommended to cache compiled expressions to avoid class loading overhead.
-- This API is not supported by non-dynamic JVM implementations like TeaVM or GraalVM Native Image because they may not support class loaders.
+- The same classes may be generated and loaded twice, so it is recommended to cache compiled expressions to avoid class
+  loading overhead.
+- This API is not supported by non-dynamic JVM implementations like TeaVM or GraalVM Native Image because they may not
+  support class loaders.
 
 ### On JS
 
@@ -199,7 +197,8 @@ public fun main() {
 
 Result LaTeX:
 
-$$\operatorname{exp}\\,\left(\sqrt{x}\right)-\frac{\frac{\operatorname{arcsin}\\,\left(2\\,x\right)}{2\times10^{10}+x^{3}}}{12}+x^{2/3}$$
+$$\operatorname{exp}\\,\left(\sqrt{x}\right)-\frac{\frac{\operatorname{arcsin}\\,\left(2\\,x\right)
+}{2\times10^{10}+x^{3}}}{12}+x^{2/3}$$
 
 Result MathML (can be used with MathJax or other renderers):
 

kmath-ast/build.gradle.kts

@@ -2,7 +2,7 @@ plugins {
     id("space.kscience.gradle.mpp")
 }
 
-kscience{
+kscience {
     jvm()
     js()
     native()
@@ -22,7 +22,7 @@ kscience{
         implementation(npm("js-base64", "3.6.1"))
     }
 
-    dependencies(jvmMain){
+    dependencies(jvmMain) {
         implementation("org.ow2.asm:asm-commons:9.2")
     }
 

kmath-ast/docs/README-TEMPLATE.md

@@ -8,21 +8,27 @@ ${artifact}
 
 ## Parsing expressions
 
-In this module there is a parser from human-readable strings like `"x^3-x+3"` (in the more specific [grammar](reference/ArithmeticsEvaluator.g4)) to MST instances.
+In this module there is a parser from human-readable strings like `"x^3-x+3"` (in the more
+specific [grammar](reference/ArithmeticsEvaluator.g4)) to MST instances.
 
 Supported literals:
+
 1. Constants and variables (consist of latin letters, digits and underscores, can't start with digit): `x`, `_Abc2`.
 2. Numbers: `123`, `1.02`, `1e10`, `1e-10`, `1.0e+3`—all parsed either as `kotlin.Long` or `kotlin.Double`.
 
 Supported binary operators (from the highest precedence to the lowest one):
+
 1. `^`
 2. `*`, `/`
 3. `+`, `-`
 
 Supported unary operator:
+
 1. `-`, e. g. `-x`
 
-Arbitrary unary and binary functions are also supported: names consist of latin letters, digits and underscores, can't start with digit. Examples:
+Arbitrary unary and binary functions are also supported: names consist of latin letters, digits and underscores, can't
+start with digit. Examples:
+
 1. `sin(x)`
 2. `add(x, y)`
 
@@ -87,12 +93,15 @@ public final class CompiledExpression_-386104628_0 implements DoubleExpression {
 }
 ```
 
-Setting JVM system property `space.kscience.kmath.ast.dump.generated.classes` to `1` makes the translator dump class files to program's working directory, so they can be reviewed manually.
+Setting JVM system property `space.kscience.kmath.ast.dump.generated.classes` to `1` makes the translator dump class
+files to program's working directory, so they can be reviewed manually.
 
 #### Limitations
 
-- The same classes may be generated and loaded twice, so it is recommended to cache compiled expressions to avoid class loading overhead.
-- This API is not supported by non-dynamic JVM implementations like TeaVM or GraalVM Native Image because they may not support class loaders.
+- The same classes may be generated and loaded twice, so it is recommended to cache compiled expressions to avoid class
+  loading overhead.
+- This API is not supported by non-dynamic JVM implementations like TeaVM or GraalVM Native Image because they may not
+  support class loaders.
 
 ### On JS
 
@@ -170,7 +179,8 @@ public fun main() {
 
 Result LaTeX:
 
-$$\operatorname{exp}\\,\left(\sqrt{x}\right)-\frac{\frac{\operatorname{arcsin}\\,\left(2\\,x\right)}{2\times10^{10}+x^{3}}}{12}+x^{2/3}$$
+$$\operatorname{exp}\\,\left(\sqrt{x}\right)-\frac{\frac{\operatorname{arcsin}\\,\left(2\\,x\right)
+}{2\times10^{10}+x^{3}}}{12}+x^{2/3}$$
 
 Result MathML (can be used with MathJax or other renderers):
 

kmath-ast/src/commonMain/kotlin/space/kscience/kmath/ast/TypedMst.kt

@@ -1,10 +1,12 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
 package space.kscience.kmath.ast
 
+import space.kscience.attributes.SafeType
+import space.kscience.attributes.WithType
 import space.kscience.kmath.expressions.Expression
 import space.kscience.kmath.expressions.Symbol
 import space.kscience.kmath.operations.Algebra
@@ -15,7 +17,7 @@ import space.kscience.kmath.operations.NumericAlgebra
  *
  * @param T the type.
  */
-public sealed interface TypedMst<T> {
+public sealed interface TypedMst<T> : WithType<T> {
     /**
      * A node containing a unary operation.
      *
@@ -24,8 +26,13 @@ public sealed interface TypedMst<T> {
      * @property function The function implementing this operation.
      * @property value The argument of this operation.
      */
-    public class Unary<T>(public val operation: String, public val function: (T) -> T, public val value: TypedMst<T>) :
-        TypedMst<T> {
+    public class Unary<T>(
+        public val operation: String,
+        public val function: (T) -> T,
+        public val value: TypedMst<T>,
+    ) : TypedMst<T> {
+        override val type: SafeType<T> get() = value.type
+
         override fun equals(other: Any?): Boolean {
             if (this === other) return true
             if (other == null || this::class != other::class) return false
@@ -59,6 +66,13 @@ public sealed interface TypedMst<T> {
         public val left: TypedMst<T>,
         public val right: TypedMst<T>,
     ) : TypedMst<T> {
+
+        init {
+            require(left.type == right.type) { "Left and right expressions must be of the same type" }
+        }
+
+        override val type: SafeType<T> get() = left.type
+
         override fun equals(other: Any?): Boolean {
             if (this === other) return true
             if (other == null || this::class != other::class) return false
@@ -89,7 +103,12 @@ public sealed interface TypedMst<T> {
      * @property value The held value.
      * @property number The number this value corresponds.
      */
-    public class Constant<T>(public val value: T, public val number: Number?) : TypedMst<T> {
+    public class Constant<T>(
+        override val type: SafeType<T>,
+        public val value: T,
+        public val number: Number?,
+    ) : TypedMst<T> {
+
         override fun equals(other: Any?): Boolean {
             if (this === other) return true
             if (other == null || this::class != other::class) return false
@@ -114,7 +133,7 @@ public sealed interface TypedMst<T> {
      * @param T the type.
      * @property symbol The symbol of the variable.
      */
-    public class Variable<T>(public val symbol: Symbol) : TypedMst<T> {
+    public class Variable<T>(override val type: SafeType<T>, public val symbol: Symbol) : TypedMst<T> {
         override fun equals(other: Any?): Boolean {
             if (this === other) return true
             if (other == null || this::class != other::class) return false
@@ -167,6 +186,7 @@ public fun <T> TypedMst<T>.interpret(algebra: Algebra<T>, vararg arguments: Pair
 /**
  * Interpret this [TypedMst] node as expression.
  */
-public fun <T : Any> TypedMst<T>.toExpression(algebra: Algebra<T>): Expression<T> = Expression { arguments ->
+public fun <T : Any> TypedMst<T>.toExpression(algebra: Algebra<T>): Expression<T> =
+    Expression(algebra.type) { arguments ->
         interpret(algebra, arguments)
-}
+    }

kmath-ast/src/commonMain/kotlin/space/kscience/kmath/ast/evaluateConstants.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 
@@ -16,6 +16,7 @@ import space.kscience.kmath.operations.bindSymbolOrNull
  */
 public fun <T> MST.evaluateConstants(algebra: Algebra<T>): TypedMst<T> = when (this) {
     is MST.Numeric -> TypedMst.Constant(
+        algebra.type,
         (algebra as? NumericAlgebra<T>)?.number(value) ?: error("Numeric nodes are not supported by $algebra"),
         value,
     )
@@ -27,7 +28,7 @@ public fun <T> MST.evaluateConstants(algebra: Algebra<T>): TypedMst<T> = when (t
                 arg.value,
             )
 
-            TypedMst.Constant(value, if (value is Number) value else null)
+            TypedMst.Constant(algebra.type, value, if (value is Number) value else null)
         }
 
         else -> TypedMst.Unary(operation, algebra.unaryOperationFunction(operation), arg)
@@ -59,7 +60,7 @@ public fun <T> MST.evaluateConstants(algebra: Algebra<T>): TypedMst<T> = when (t
                     )
                 }
 
-                TypedMst.Constant(value, if (value is Number) value else null)
+                TypedMst.Constant(algebra.type, value, if (value is Number) value else null)
             }
 
             algebra is NumericAlgebra && left is TypedMst.Constant && left.number != null -> TypedMst.Binary(
@@ -84,8 +85,8 @@ public fun <T> MST.evaluateConstants(algebra: Algebra<T>): TypedMst<T> = when (t
         val boundSymbol = algebra.bindSymbolOrNull(this)
 
         if (boundSymbol != null)
-            TypedMst.Constant(boundSymbol, if (boundSymbol is Number) boundSymbol else null)
+            TypedMst.Constant(algebra.type, boundSymbol, if (boundSymbol is Number) boundSymbol else null)
         else
-            TypedMst.Variable(this)
+            TypedMst.Variable(algebra.type, this)
     }
 }

kmath-ast/src/commonMain/kotlin/space/kscience/kmath/ast/parser.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

kmath-ast/src/commonMain/kotlin/space/kscience/kmath/ast/rendering/LatexSyntaxRenderer.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */
 

kmath-ast/src/commonMain/kotlin/space/kscience/kmath/ast/rendering/MathMLSyntaxRenderer.kt

@@ -1,5 +1,5 @@
 /*
- * Copyright 2018-2022 KMath contributors.
+ * Copyright 2018-2024 KMath contributors.
  * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
  */