package scala.tools.nsc package backend.jvm package opt import org.junit.runner.RunWith import org.junit.runners.JUnit4 import org.junit.Test import scala.collection.generic.Clearable import scala.collection.mutable.ListBuffer import scala.reflect.internal.util.BatchSourceFile import scala.tools.asm.Opcodes._ import org.junit.Assert._ import scala.tools.asm.tree._ import scala.tools.asm.tree.analysis._ import scala.tools.nsc.backend.jvm.opt.BytecodeUtils.AsmAnalyzer import scala.tools.nsc.io._ import scala.tools.nsc.reporters.StoreReporter import scala.tools.testing.AssertUtil._ import CodeGenTools._ import scala.tools.partest.ASMConverters import ASMConverters._ import AsmUtils._ import BackendReporting._ import scala.collection.convert.decorateAsScala._ import scala.tools.testing.ClearAfterClass object InlineWarningTest extends ClearAfterClass.Clearable { val argsNoWarn = "-Ybackend:GenBCode -Yopt:l:classpath" val args = argsNoWarn + " -Yopt-warnings" var compiler = newCompiler(extraArgs = args) def clear(): Unit = { compiler = null } } @RunWith(classOf[JUnit4]) class InlineWarningTest extends ClearAfterClass { ClearAfterClass.stateToClear = InlineWarningTest val compiler = InlineWarningTest.compiler def compile(scalaCode: String, javaCode: List[(String, String)] = Nil, allowMessage: StoreReporter#Info => Boolean = _ => false): List[ClassNode] = { compileClasses(compiler)(scalaCode, javaCode, allowMessage) } @Test def nonFinal(): Unit = { val code = """class C { | @inline def m1 = 1 |} |trait T { | @inline def m2 = 1 |} |class D extends C with T | |class Test { | def t1(c: C, t: T, d: D) = c.m1 + t.m2 + d.m1 + d.m2 |} """.stripMargin var count = 0 val warns = Set( "C::m1()I is annotated @inline but cannot be inlined: the method is not final and may be overridden", "T::m2()I is annotated @inline but cannot be inlined: the method is not final and may be overridden", "D::m2()I is annotated @inline but cannot be inlined: the method is not final and may be overridden") compile(code, allowMessage = i => {count += 1; warns.exists(i.msg contains _)}) assert(count == 4, count) } @Test def traitMissingImplClass(): Unit = { val codeA = "trait T { @inline final def f = 1 }" val codeB = "class C { def t1(t: T) = t.f }" val removeImpl = (outDir: AbstractFile) => { val f = outDir.lookupName("T$class.class", directory = false) if (f != null) f.delete() } val warn = """T::f()I is annotated @inline but cannot be inlined: the trait method call could not be rewritten to the static implementation method. Possible reason: |The method f(LT;)I could not be found in the class T$class or any of its parents. |Note that the following parent classes could not be found on the classpath: T$class""".stripMargin var c = 0 compileSeparately(List(codeA, codeB), extraArgs = InlineWarningTest.args, afterEach = removeImpl, allowMessage = i => {c += 1; i.msg contains warn}) assert(c == 1, c) // only summary here compileSeparately(List(codeA, codeB), extraArgs = InlineWarningTest.argsNoWarn, afterEach = removeImpl, allowMessage = _.msg contains "there was one inliner warning") } @Test def handlerNonEmptyStack(): Unit = { val code = """class C { | @noinline def q = 0 | @inline final def foo = try { q } catch { case e: Exception => 2 } | def t1 = println(foo) // inline warning here: foo cannot be inlined on top of a non-empty stack |} """.stripMargin var c = 0 compile(code, allowMessage = i => {c += 1; i.msg contains "operand stack at the callsite in C::t1()V contains more values"}) assert(c == 1, c) } @Test def mixedWarnings(): Unit = { val javaCode = """public class A { | public static final int bar() { return 100; } |} """.stripMargin val scalaCode = """class B { | @inline final def flop = A.bar | def g = flop |} """.stripMargin val warns = List( """failed to determine if bar should be inlined: |The method bar()I could not be found in the class A or any of its parents. |Note that the following parent classes are defined in Java sources (mixed compilation), no bytecode is available: A""".stripMargin, """B::flop()I is annotated @inline but could not be inlined: |Failed to check if B::flop()I can be safely inlined to B without causing an IllegalAccessError. Checking instruction INVOKESTATIC A.bar ()I failed: |The method bar()I could not be found in the class A or any of its parents. |Note that the following parent classes are defined in Java sources (mixed compilation), no bytecode is available: A""".stripMargin) var c = 0 val List(b) = compile(scalaCode, List((javaCode, "A.java")), allowMessage = i => {c += 1; warns.tail.exists(i.msg contains _)}) assert(c == 1, c) // no warnings here compileClasses(newCompiler(extraArgs = InlineWarningTest.argsNoWarn + " -Yopt-warnings:none"))(scalaCode, List((javaCode, "A.java"))) c = 0 compileClasses(newCompiler(extraArgs = InlineWarningTest.argsNoWarn + " -Yopt-warnings:no-inline-mixed"))(scalaCode, List((javaCode, "A.java")), allowMessage = i => {c += 1; warns.exists(i.msg contains _)}) assert(c == 2, c) } @Test def cannotInlinePrivateCallIntoDifferentClass(): Unit = { val code = """class M { | @inline final def f = { | @noinline def nested = 0 | nested | } | | def t = f // ok |} | |class N { | def t(a: M) = a.f // not possible |} """.stripMargin val warn = """M::f()I is annotated @inline but could not be inlined: |The callee M::f()I contains the instruction INVOKESPECIAL M.nested$1 ()I |that would cause an IllegalAccessError when inlined into class N""".stripMargin var c = 0 compile(code, allowMessage = i => { c += 1; i.msg contains warn }) assert(c == 1, c) } @Test def cannotMixStrictfp(): Unit = { val code = """import annotation.strictfp |class C { | @strictfp @inline final def f = 0 | @strictfp def t1 = f | def t2 = f |} """.stripMargin val warn = """C::f()I is annotated @inline but could not be inlined: |The callsite method C::t2()I |does not have the same strictfp mode as the callee C::f()I.""".stripMargin var c = 0 compile(code, allowMessage = i => { c += 1; i.msg contains warn }) assert(c == 1, c) } }