sntb.TestProvider.scala Maven / Gradle / Ivy
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package sntb
import language.experimental.macros
import language.implicitConversions
import reflect.ClassTag
import reflect.macros.blackbox.Context
import reflect.macros.{ParseException, TypecheckException}
import util.{Failure, Success, Try}
trait TestProvider {
private var runList: List[Block] = Nil
private val className = this.getClass.getSimpleName()
def assertCompiles(str: String): Unit = macro TestProvider.assertCompilesImpl
def assertTypeError(str: String): Unit = macro TestProvider.assertTypeErrorImpl
object it {
def should(name: String): BlockBuilder = BlockBuilder(name)
}
def intercept[T <: RuntimeException](arg: => Any)(implicit ct: ClassTag[T]): T =
try {
arg
throw new RuntimeException("Value was not an error")
} catch {
case x: T => x
case _: Throwable => throw new RuntimeException(s"Error was not an instance of the expected type")
}
def run: Unit = {
println(s"${Console.GREEN}$className: ${Console.RESET}")
runList.reverse foreach {
case Block(name, exec) =>
print(s"- $name...")
val initTime = System.currentTimeMillis
exec()
val endTime = System.currentTimeMillis
println(s"done (${TestProvider.formatTime(endTime - initTime)}) ")
}
}
case class BlockBuilder(name: String) {
def in(exec: => Unit): Unit = runList = new Block(name, () => exec) :: runList
}
private case class Block(name: String, exec: Function0[Unit])
final class TSEQ[T](lhs: T) {
def ===(rhs: T): Boolean = lhs == rhs
}
implicit def tseqBuilder[T](lhs: T): TSEQ[T] = new TSEQ(lhs)
}
object TestProvider {
private def formatTime(millis: Long): String = {
var result = ""
var opr = millis
val min = opr / 60000l
if (min > 0) {
if (min == 1) {
result = "1 minute"
} else {
result = s"$min minutes"
}
}
opr %= 60000
val sec = opr / 1000l
if (sec > 0) {
val spacer = if (result.isEmpty) "" else " "
if (sec == 1) {
result += s"${spacer}1 second"
} else {
result += s"$spacer$sec seconds"
}
}
opr %= 1000
val spacer = if (result.isEmpty) "" else " "
if (opr == 1) {
result + s"${spacer}1 millisecond"
} else {
result + s"${spacer}$opr milliseconds"
}
}
def assertCompilesImpl(c: Context)(str: c.Tree): c.Tree = {
import c.universe._
str match {
case q"${y: String}" =>
util.Try {
val parsed = c.parse(y)
val typechecked = c.typecheck(parsed)
true
} match {
case util.Success(_) => q"assert(true)"
case util.Failure(TypecheckException(_, msg)) => q"""assert(false, "typecheck failure: " + $msg)"""
case util.Failure(ParseException(_, msg)) => q"""assert(false, "parse failure: " + $msg)"""
case util.Failure(err) => q"assert(false, error: ${err.toString})"
}
case _ => c.abort(c.enclosingPosition, "Supplied Literal must be a string")
}
}
def assertTypeErrorImpl(c: Context)(str: c.Tree): c.Tree = {
import c.universe._
str match {
case q"${y: String}" =>
util.Try {
val parsed = c.parse(y)
val typechecked = c.typecheck(parsed)
} match {
case util.Failure(TypecheckException(_, _)) => q"assert(true)"
case util.Failure(ParseException(_, msg)) => q"""assert(false, "parse failure: " + $msg)"""
case util.Success(_) => q"""assert(false, "code compiles")"""
case util.Failure(err) => q"assert(false, error: ${err.toString})"
}
case _ => c.abort(c.enclosingPosition, "Supplied Literal must be a string")
}
}
}