org.jetbrains.kotlin.codegen.inline.inlineArgumentsInPlace.kt Maven / Gradle / Ivy
/*
* Copyright 2010-2021 JetBrains s.r.o. and Kotlin Programming Language 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 org.jetbrains.kotlin.codegen.inline
import org.jetbrains.kotlin.codegen.optimization.nullCheck.isParameterCheckedForNull
import org.jetbrains.kotlin.resolve.jvm.AsmTypes
import org.jetbrains.org.objectweb.asm.Opcodes
import org.jetbrains.org.objectweb.asm.Type
import org.jetbrains.org.objectweb.asm.commons.InstructionAdapter
import org.jetbrains.org.objectweb.asm.tree.*
fun canInlineArgumentsInPlace(methodNode: MethodNode): Boolean {
// Usual inline functions are inlined in the following way:
//
//
// ...
//
//
//
// If an argument #k is already stored in a local variable W, this variable W is reused.
// When inlining arguments in-place, we instead replace corresponding variable load instructions in the inline function method body
// with bytecode for evaluating a given argument.
// We can do so if such transformation keeps the evaluation order intact, possibly disregarding class initialization.
val tcbStartLabels = methodNode.tryCatchBlocks.mapTo(HashSet()) { it.start }
val methodParameterTypes = Type.getArgumentTypes(methodNode.desc)
val jvmArgumentTypes = ArrayList(methodParameterTypes.size + 1)
if (methodNode.access and Opcodes.ACC_STATIC == 0) {
// Here we don't care much about the exact 'this' type,
// it's only important to remember that variable slot #0 holds an object reference.
jvmArgumentTypes.add(AsmTypes.OBJECT_TYPE)
}
jvmArgumentTypes.addAll(methodParameterTypes)
val argumentVarEnd = jvmArgumentTypes.sumOf { it.size }
var expectedArgumentVar = 0
var lastArgIndex = 0
var insn = methodNode.instructions.first
// During arguments evaluation, make sure that all arguments are loaded in expected order
// and there are no unexpected side effects in-between.
while (insn != null && expectedArgumentVar < argumentVarEnd) {
// Entering a try-catch block before all arguments are loaded breaks evaluation order.
if (insn in tcbStartLabels)
return false
// Some instructions break evaluation order.
if (insn.isProhibitedDuringArgumentsEvaluation())
return false
// Allow a limited list of 'GETSTATIC ' instructions.
if (insn.opcode == Opcodes.GETSTATIC) {
val fieldInsn = insn as FieldInsnNode
val fieldSignature = FieldSignature(fieldInsn.owner, fieldInsn.name, fieldInsn.desc)
if (fieldSignature !in whitelistedStaticFields)
return false
}
// Writing to or incrementing an argument variable forbids in-place argument inlining.
if (insn.opcode in Opcodes.ISTORE..Opcodes.ASTORE && (insn as VarInsnNode).`var` < argumentVarEnd)
return false
if (insn.opcode == Opcodes.IINC && (insn as IincInsnNode).`var` < argumentVarEnd)
return false
// Analyze variable loads.
if (insn.opcode in Opcodes.ILOAD..Opcodes.ALOAD) {
// Skip parameter null check: 'aload x; ldc "..."; invokestatic '
if (insn.opcode == Opcodes.ALOAD && insn.isParameterCheckedForNull()) {
// Go directly to the instruction after 'invokestatic '
insn = insn.next.next.next
continue
}
val varInsn = insn as VarInsnNode
val varIndex = (varInsn).`var`
if (varIndex == expectedArgumentVar) {
// Expected argument variable loaded.
expectedArgumentVar += jvmArgumentTypes[lastArgIndex].size
++lastArgIndex
// Skip a sequence of load instructions referring to the same argument variable
// (such sequence is present in functions like 'Array.copyOf' and can be replaced with DUP instructions).
do {
insn = insn.next
} while (insn != null && insn.opcode == varInsn.opcode && (insn as VarInsnNode).`var` == varIndex)
continue
} else if (varIndex < argumentVarEnd) {
// Loaded an argument variable, but not an expected one => broken evaluation order
return false
} else {
// It's OK to load any non-argument variable during argument evaluation.
insn = insn.next
continue
}
}
// Anything else is fine.
insn = insn.next
}
// Method body is over, but not all arguments were loaded on stack.
if (expectedArgumentVar < argumentVarEnd)
return false
// After arguments evaluation make sure that argument variables are no longer accessed
// (we are not going to store anything to those variables anyway).
while (insn != null) {
if (insn.opcode in Opcodes.ILOAD..Opcodes.ALOAD || insn.opcode in Opcodes.ISTORE..Opcodes.ASTORE) {
if ((insn as VarInsnNode).`var` < argumentVarEnd)
return false
} else if (insn.opcode == Opcodes.IINC) {
if ((insn as IincInsnNode).`var` < argumentVarEnd)
return false
}
insn = insn.next
}
// Didn't encounter anything suspicious.
return true
}
internal data class FieldSignature(
val owner: String,
val name: String,
val desc: String
)
private val whitelistedStaticFields: Set =
hashSetOf(
FieldSignature("kotlin/Result", "Companion", "Lkotlin/Result\$Companion;"),
FieldSignature("kotlin/_Assertions", "ENABLED", "Z")
)
private fun AbstractInsnNode.isProhibitedDuringArgumentsEvaluation() =
opcode in opcodeProhibitedDuringArgumentsEvaluation.indices &&
opcodeProhibitedDuringArgumentsEvaluation[opcode]
private val opcodeProhibitedDuringArgumentsEvaluation = BooleanArray(256).also { a ->
// Any kind of jump during arguments evaluation is a hazard.
// This includes all conditional jump instructions, switch instructions, return and throw instructions.
// Very conservative, but enough for practical cases.
for (i in Opcodes.IFEQ..Opcodes.RETURN) a[i] = true
a[Opcodes.IFNULL] = true
a[Opcodes.IFNONNULL] = true
a[Opcodes.ATHROW] = true
// Instruction with non-trivial side effects is a hazard.
// NB GETSTATIC is taken care of separately.
a[Opcodes.PUTSTATIC] = true
a[Opcodes.PUTFIELD] = true
a[Opcodes.INVOKEVIRTUAL] = true
a[Opcodes.INVOKESPECIAL] = true
a[Opcodes.INVOKESTATIC] = true
a[Opcodes.INVOKEINTERFACE] = true
a[Opcodes.INVOKEDYNAMIC] = true
a[Opcodes.MONITORENTER] = true
a[Opcodes.MONITOREXIT] = true
// Integer division instructions can throw exception
a[Opcodes.IDIV] = true
a[Opcodes.LDIV] = true
a[Opcodes.IREM] = true
a[Opcodes.LREM] = true
// CHECKCAST can throw exception
a[Opcodes.CHECKCAST] = true
// Array creation can throw exception (in case of negative array size)
a[Opcodes.NEWARRAY] = true
a[Opcodes.ANEWARRAY] = true
a[Opcodes.MULTIANEWARRAY] = true
// Array access instructions can throw exception
for (i in Opcodes.IALOAD..Opcodes.SALOAD) a[i] = true
for (i in Opcodes.IASTORE..Opcodes.SASTORE) a[i] = true
}
private const val MARKER_INPLACE_CALL_START = ""
private const val MARKER_INPLACE_ARGUMENT_START = ""
private const val MARKER_INPLACE_ARGUMENT_END = ""
private const val MARKER_INPLACE_CALL_END = ""
private fun InstructionAdapter.addMarker(name: String) {
visitMethodInsn(Opcodes.INVOKESTATIC, INLINE_MARKER_CLASS_NAME, name, "()V", false)
}
fun InstructionAdapter.addInplaceCallStartMarker() = addMarker(MARKER_INPLACE_CALL_START)
fun InstructionAdapter.addInplaceCallEndMarker() = addMarker(MARKER_INPLACE_CALL_END)
fun InstructionAdapter.addInplaceArgumentStartMarker() = addMarker(MARKER_INPLACE_ARGUMENT_START)
fun InstructionAdapter.addInplaceArgumentEndMarker() = addMarker(MARKER_INPLACE_ARGUMENT_END)
internal fun AbstractInsnNode.isInplaceCallStartMarker() = isInlineMarker(this, MARKER_INPLACE_CALL_START)
internal fun AbstractInsnNode.isInplaceCallEndMarker() = isInlineMarker(this, MARKER_INPLACE_CALL_END)
internal fun AbstractInsnNode.isInplaceArgumentStartMarker() = isInlineMarker(this, MARKER_INPLACE_ARGUMENT_START)
internal fun AbstractInsnNode.isInplaceArgumentEndMarker() = isInlineMarker(this, MARKER_INPLACE_ARGUMENT_END)
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