import com.android.build.api.dsl.CommonExtension
import com.android.build.api.extension.impl.AndroidComponentsExtensionImpl
import com.slack.keeper.optInToKeeper
import org.gradle.api.tasks.testing.logging.TestExceptionFormat
import org.gradle.internal.jvm.Jvm
import org.jetbrains.kotlin.gradle.tasks.KotlinCompile
import java.io.ByteArrayOutputStream
import kotlin.math.max

// Top-level build file where you can add configuration options common to all sub-projects/modules.
plugins {
    alias(libs.plugins.android.application) apply false
    alias(libs.plugins.android.library) apply false
    alias(libs.plugins.kotlin.android) apply false
    alias(libs.plugins.kotlin.parcelize) apply false
    alias(libs.plugins.kotlin.jvm) apply false
    alias(libs.plugins.kotlin.serialization) apply false
    alias(libs.plugins.ktlint) apply false
    alias(libs.plugins.dokka) apply false
    alias(libs.plugins.keeper) apply false
}

val localProperties = java.util.Properties()
if (project.rootProject.file("local.properties").exists()) {
    localProperties.load(project.rootProject.file("local.properties").inputStream())
}
val fatalWarnings = !(localProperties["fatal_warnings"] == "false")

// Here we extract per-module "best practices" settings to a single top-level evaluation
subprojects {
    apply(plugin = "org.jlleitschuh.gradle.ktlint")

    afterEvaluate {
        if (hasProperty("android")) {
            val androidExtension =
                extensions.findByName("android") as CommonExtension<*, *, *, *, *, *>
            androidExtension.testOptions.unitTests {
                isIncludeAndroidResources = true
            }
            androidExtension.testOptions.unitTests.all {
                // tell backend to avoid rollover time, and disable interval fuzzing
                it.environment("ANKI_TEST_MODE", "1")

                it.useJUnitPlatform()
                it.testLogging {
                    events("failed", "skipped")
                    showStackTraces = true
                    exceptionFormat = TestExceptionFormat.FULL
                }

                it.maxParallelForks = gradleTestMaxParallelForks
                it.forkEvery = 40
                it.systemProperties["junit.jupiter.execution.parallel.enabled"] = true
                it.systemProperties["junit.jupiter.execution.parallel.mode.default"] = "concurrent"
            }

            val androidComponentsExtension =
                extensions.findByName("androidComponents") as AndroidComponentsExtensionImpl<*, *, *>
            androidComponentsExtension.beforeVariants { builder ->
                if (testReleaseBuild && builder.name == "playRelease")
                {
                    builder.optInToKeeper()
                }
            }
        }

        /**
        Kotlin allows concrete function implementations inside interfaces.
        For those to work when Kotlin compilation targets the JVM backend, you have to enable the interoperability via
        'freeCompilerArgs' in your gradle file, and you have to choose one of the appropriate '-Xjvm-default' modes.

        https://kotlinlang.org/docs/java-to-kotlin-interop.html#default-methods-in-interfaces

        and we used "all" because we don't have downstream consumers
        https://docs.gradle.org/current/userguide/task_configuration_avoidance.html

        Related to ExperimentalCoroutinesApi: this opt-in is added to enable usage of experimental
        coroutines API, this targets all project modules with the exception of the "api" module,
        which doesn't use coroutines so the annotation isn't not available. This would normally
        result in a warning but we treat warnings as errors.
        (see https://youtrack.jetbrains.com/issue/KT-28777/Using-experimental-coroutines-api-causes-unresolved-dependency)
         */
        tasks.withType(KotlinCompile::class.java).configureEach {
            compilerOptions {
                allWarningsAsErrors = fatalWarnings
                val compilerArgs = mutableListOf("-Xjvm-default=all")
                if (project.name != "api") {
                    compilerArgs += "-opt-in=kotlinx.coroutines.ExperimentalCoroutinesApi"
                }
                freeCompilerArgs = compilerArgs
            }
        }
    }
}

val jvmVersion = Jvm.current().javaVersion?.majorVersion
if (jvmVersion != "17" && jvmVersion != "21") {
    println("\n\n\n")
    println("**************************************************************************************************************")
    println("\n\n\n")
    println("ERROR: AnkiDroid builds with JVM version 17 or 21.")
    println("  Incompatible major version detected: '" + jvmVersion + "'")
    println("\n\n\n")
    println("  If you receive this error because you want to use a newer JDK, we may accept PRs to support new versions.")
    println("  Edit the main build.gradle file, find this message in the file, and add support for the new version.")
    println("  Please make sure the `jacocoTestReport` target works on an emulator with our minSdkVersion (currently 23).")
    println("\n\n\n")
    println("**************************************************************************************************************")
    println("\n\n\n")
    System.exit(1)
}

val ciBuild by extra(System.getenv("CI") == "true") // works for Travis CI or Github Actions
// allows for -Dpre-dex=false to be set
val preDexEnabled by extra("true" == System.getProperty("pre-dex", "true"))
// allows for universal APKs to be generated
val universalApkEnabled by extra("true" == System.getProperty("universal-apk", "false"))

val testReleaseBuild by extra(System.getenv("TEST_RELEASE_BUILD") == "true")
var androidTestName by extra(
    if (testReleaseBuild) "connectedPlayReleaseAndroidTest" else "connectedPlayDebugAndroidTest"
)

val gradleTestMaxParallelForks by extra(
    if (System.getProperty("os.name") == "Mac OS X") {
        // macOS reports hardware cores. This is accurate for CI, Intel (halved due to SMT) and Apple Silicon
        val outputStream = ByteArrayOutputStream()
        project.exec {
            commandLine("sysctl", "-n", "hw.physicalcpu")
            standardOutput = outputStream
        }
        outputStream.toString().trim().toInt()
    } else if (ciBuild) {
        // GitHub Actions run on Standard_D4ads_v5 Azure Compute Units with 4 vCPUs
        // They appear to be 2:1 vCPU to CPU on Linux/Windows with two vCPU cores but with performance 1:1-similar
        // Sources to determine the correct Azure Compute Unit (and get CPU count) to tune this:
        // Which Azure compute unit in use? https://github.com/github/docs/blob/a25a33bb6cbf86a629d0a0c7bef624743991f97e/content/actions/using-github-hosted-runners/about-github-hosted-runners/about-github-hosted-runners.md?plain=1#L176
        // What is that compute unit? https://learn.microsoft.com/en-us/azure/virtual-machines/dasv5-dadsv5-series#dadsv5-series
        // How does it perform? https://learn.microsoft.com/en-gb/azure/virtual-machines/linux/compute-benchmark-scores#dadsv5 (vs previous Standard_DS2_v2 https://learn.microsoft.com/en-gb/azure/virtual-machines/linux/compute-benchmark-scores#dv2---general-compute)
        4
    } else {
        // Use 50% of cores to account for SMT which doesn't help this workload
        max(1, Runtime.getRuntime().availableProcessors() / 2)
    }
)