@file:Suppress("UNUSED_VARIABLE") import space.kscience.kmath.benchmarks.addBenchmarkProperties plugins { kotlin("multiplatform") kotlin("plugin.allopen") id("org.jetbrains.kotlinx.benchmark") } allOpen.annotation("org.openjdk.jmh.annotations.State") sourceSets.register("benchmarks") repositories { mavenCentral() } kotlin { jvm() js(IR) { nodejs() } sourceSets { all { languageSettings { progressiveMode = true } } val commonMain by getting { dependencies { implementation(project(":kmath-ast")) implementation(project(":kmath-core")) implementation(project(":kmath-coroutines")) implementation(project(":kmath-complex")) implementation(project(":kmath-stat")) implementation(project(":kmath-dimensions")) implementation(project(":kmath-for-real")) implementation(project(":kmath-tensors")) implementation("org.jetbrains.kotlinx:kotlinx-benchmark-runtime:0.4.2") } } val jvmMain by getting { dependencies { implementation(project(":kmath-commons")) implementation(project(":kmath-ejml")) implementation(project(":kmath-nd4j")) implementation(project(":kmath-kotlingrad")) implementation(project(":kmath-viktor")) implementation(project(":kmath-jafama")) implementation(project(":kmath-multik")) implementation(projects.kmath.kmathTensorflow) implementation("org.tensorflow:tensorflow-core-platform:0.4.0") implementation("org.nd4j:nd4j-native:1.0.0-M1") // uncomment if your system supports AVX2 // val os = System.getProperty("os.name") // // if (System.getProperty("os.arch") in arrayOf("x86_64", "amd64")) when { // os.startsWith("Windows") -> implementation("org.nd4j:nd4j-native:1.0.0-beta7:windows-x86_64-avx2") // os == "Linux" -> implementation("org.nd4j:nd4j-native:1.0.0-beta7:linux-x86_64-avx2") // os == "Mac OS X" -> implementation("org.nd4j:nd4j-native:1.0.0-beta7:macosx-x86_64-avx2") // } else // implementation("org.nd4j:nd4j-native-platform:1.0.0-beta7") } } } } // Configure benchmark benchmark { // Setup configurations targets { register("jvm") register("js") } fun kotlinx.benchmark.gradle.BenchmarkConfiguration.commonConfiguration() { warmups = 2 iterations = 5 iterationTime = 2000 iterationTimeUnit = "ms" } configurations.register("buffer") { commonConfiguration() include("BufferBenchmark") } configurations.register("nd") { commonConfiguration() include("NDFieldBenchmark") } configurations.register("dot") { commonConfiguration() include("DotBenchmark") } configurations.register("expressions") { // Some extra precision warmups = 2 iterations = 10 iterationTime = 10 iterationTimeUnit = "s" outputTimeUnit = "s" include("ExpressionsInterpretersBenchmark") } configurations.register("matrixInverse") { commonConfiguration() include("MatrixInverseBenchmark") } configurations.register("bigInt") { commonConfiguration() include("BigIntBenchmark") } configurations.register("jafamaDouble") { commonConfiguration() include("JafamaBenchmark") } configurations.register("tensorAlgebra") { commonConfiguration() include("TensorAlgebraBenchmark") } configurations.register("viktor") { commonConfiguration() include("ViktorBenchmark") } configurations.register("viktorLog") { commonConfiguration() include("ViktorLogBenchmark") } } // Fix kotlinx-benchmarks bug afterEvaluate { val jvmBenchmarkJar by tasks.getting(org.gradle.jvm.tasks.Jar::class) { duplicatesStrategy = DuplicatesStrategy.EXCLUDE } } kotlin.sourceSets.all { with(languageSettings) { optIn("kotlin.contracts.ExperimentalContracts") optIn("kotlin.ExperimentalUnsignedTypes") optIn("space.kscience.kmath.misc.UnstableKMathAPI") } } tasks.withType { kotlinOptions { jvmTarget = "11" freeCompilerArgs = freeCompilerArgs + "-Xjvm-default=all" + "-Xlambdas=indy" } } readme { maturity = space.kscience.gradle.Maturity.EXPERIMENTAL } addBenchmarkProperties()