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swift-mirror/SwiftCompilerSources/Sources/Optimizer/Utilities/Test.swift
Daniil Kovalev 5528cf1cc4 [AutoDiff] Run AutoDiff closure spec pass for all VJPs (#81548) 
Previously, AutoDiff closure specialization pass was triggered only on
VJPs containing single basic block. However, the pass logic allows
running on arbitrary VJPs. This PR enables the pass for all VJPs
unconditionally. So, if the pullback corresponding to multiple-BB VJP
accepts some closures directly as arguments, these closures might become
specialized by the pass. Closures passed via payload of branch tracing
enum are not specialized - this is subject for future changes.

The PR contains several commits.
1. The thing named "call site" in the code is partial_apply of pullback
corresponding to the VJP. This might appear only once, so we drop
support for multiple "call sites".
2. Enhance existing SILOptimizer tests for the pass.
3. Add validation-tests for single basic block case.
4. The change itself - delete check against single basic block.
5. Add validation-tests for multiple basic block case.
6. Add SILOptimizer tests for multiple basic block case.
2025-07-07 13:00:14 +00:00

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//===----------- Test.swift - In-IR tests from Swift source ---------------===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2014 - 2023 Apple Inc. and the Swift project authors
// Licensed under Apache License v2.0 with Runtime Library Exception
//
// See https://swift.org/LICENSE.txt for license information
// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
//
//===----------------------------------------------------------------------===//
//
// TO ADD A NEW TEST, just add a new FunctionTest instance.
// - In the source file containing the functionality you want to test:
// let myNewTest =
// FunctionTest("my_new_test") { function, arguments, context in
// }
// - In SwiftCompilerSources/Sources/SIL/Test.swift's registerOptimizerTests
// function, add a new argument to the variadic function:
// registerFunctionTests(..., myNewTest)
//
//===----------------------------------------------------------------------===//
//
// TO TROUBLESHOOT A NEW TEST, consider the following scenarios:
// - PROBLEM: The test isn't running on PLATFORM and the failure says
//
// Found no test named my_new_test.
//
// SOLUTION: Is this a platform one that doesn't use SwiftCompilerSources
// (e.g. Windows)? Then add
//
// // REQUIRES: swift_in_compiler
//
// to the test file.
// EXPLANATION: The tests written within SwiftCompilerSources only get built
// and registered on platforms where the SwiftCompilerSources are
// built and used.
//
//===----------------------------------------------------------------------===//
//
// Provides a mechanism for writing tests against compiler code in the context
// of a function. The goal is to get the same effect as calling a function and
// checking its output.
//
// This is done via the specify_test instruction. Using one or more instances
// of it in your test case's SIL function, you can specify which test (instance
// of FunctionTest) should be run and what arguments should be provided to it.
// For full details of the specify_test instruction's grammar, see SIL.rst.
//
// The test grabs the arguments it expects out of the TestArguments instance
// it is provided. It calls some function or functions. It then prints out
// interesting results. These results can then be FileCheck'd.
//
// CASE STUDY:
// Here's an example of how it works:
// 0) A source file, NeatUtils.swift contains
//
// fileprivate func myNeatoUtility(int: Int, value: Value, function: Function) { ... }
//
// and
//
// let myNeatoUtilityTest =
// FunctionTest("my_neato_utility") { function, arguments, test in
// // The code here is described in detail below.
// // See 4).
// let count = arguments.takeInt()
// let target = arguments.takeValue()
// let callee = arguments.takeFunction()
// // See 5)
// myNeatoUtility(int: count, value: target, function: callee)
// // See 6)
// print(function)
// }
// 1) A test test/SILOptimizer/interesting_functionality_unit.sil runs the
// TestRunner pass:
// // RUN: %target-sil-opt -test-runner %s -o /dev/null 2>&1 | %FileCheck %s
// // REQUIRES: swift_in_compiler
// 2) A function in interesting_functionality_unit.sil contains the
// specify_test instruction.
// sil @f : $() -> () {
// ...
// specify_test "my_neato_utility 43 %2 @function[other_fun]"
// ...
// }
// 3) TestRunner finds the FunctionTest instance myNeatoUtilityTest registered
// under the name "my_neato_utility", and calls run() on it, passing the
// passing first the function, last the FunctionTest instance, AND in the
// middle, most importantly a TestArguments instance that contains
//
// (43 : Int, someValue : Value, other_fun : Function)
//
// 4) myNeatoUtilityTest calls takeUInt(), takeValue(), and takeFunction() on
// the test::Arguments instance.
// let count = arguments.takeInt()
// let target = arguments.takeValue()
// let callee = arguments.takeFunction()
// 5) myNeatoUtilityTest calls myNeatoUtility, passing these values along.
// myNeatoUtility(int: count, value: target, function: callee)
// 6) myNeatoUtilityTest then dumps out the current function, which was modified
// in the process.
// print(function)
// 7) The test file test/SILOptimizer/interesting_functionality_unit.sil matches
// the
// expected contents of the modified function:
// // CHECK-LABEL: sil @f
// // CHECK-NOT: function_ref @other_fun
//
//===----------------------------------------------------------------------===//
import Basic
import SIL
import SILBridging
import OptimizerBridging
/// The primary interface to in-IR tests.
struct FunctionTest {
let name: String
let invocation: FunctionTestInvocation
public init(_ name: String, invocation: @escaping FunctionTestInvocation) {
self.name = name
self.invocation = invocation
}
}
/// The type of the closure passed to a FunctionTest.
typealias FunctionTestInvocation = @convention(thin) (Function, TestArguments, FunctionPassContext) -> ()
/// Wraps the arguments specified in the specify_test instruction.
public struct TestArguments {
public var bridged: BridgedTestArguments
fileprivate init(bridged: BridgedTestArguments) {
self.bridged = bridged
}
public var hasUntaken: Bool { bridged.hasUntaken() }
public func takeString() -> StringRef { StringRef(bridged: bridged.takeString()) }
public func takeBool() -> Bool { bridged.takeBool() }
public func takeInt() -> Int { bridged.takeInt() }
public func takeOperand() -> Operand { Operand(bridged: bridged.takeOperand()) }
public func takeValue() -> Value { bridged.takeValue().value }
public func takeInstruction() -> Instruction { bridged.takeInstruction().instruction }
public func takeArgument() -> Argument { bridged.takeArgument().argument }
public func takeBlock() -> BasicBlock { bridged.takeBlock().block }
public func takeFunction() -> Function { bridged.takeFunction().function }
}
extension BridgedTestArguments {
public var native: TestArguments { TestArguments(bridged: self) }
}
/// Registration of each test in the SIL module.
public func registerOptimizerTests() {
// Register each test.
registerFunctionTests(
getAccessBaseTest,
addressOwnershipLiveRangeTest,
argumentConventionsTest,
borrowIntroducersTest,
enclosingValuesTest,
forwardingDefUseTest,
forwardingUseDefTest,
getPullbackClosureInfoTest,
interiorLivenessTest,
lifetimeDependenceRootTest,
lifetimeDependenceScopeTest,
lifetimeDependenceUseTest,
linearLivenessTest,
localVariableReachableUsesTest,
localVariableReachingAssignmentsTest,
parseTestSpecificationTest,
rangeOverlapsPathTest,
rewrittenCallerBodyTest,
specializedFunctionSignatureAndBodyTest,
variableIntroducerTest
)
// Finally register the thunk they all call through.
registerFunctionTestThunk(functionTestThunk)
}
private func registerFunctionTests(_ tests: FunctionTest...) {
tests.forEach { registerFunctionTest($0) }
}
private func registerFunctionTest(_ test: FunctionTest) {
test.name._withBridgedStringRef { ref in
registerFunctionTest(ref, castToOpaquePointer(fromInvocation: test.invocation))
}
}
/// The function called by the swift::test::FunctionTest which invokes the
/// actual test function.
///
/// This function is necessary because tests need to be written in terms of
/// native Swift types (Function, TestArguments, BridgedPassContext)
/// rather than their bridged variants, but such a function isn't representable
/// in C++. This thunk unwraps the bridged types and invokes the real
/// function.
private func functionTestThunk(
_ erasedInvocation: UnsafeMutableRawPointer,
_ function: BridgedFunction,
_ arguments: BridgedTestArguments,
_ passInvocation: BridgedSwiftPassInvocation) {
let invocation = castToInvocation(fromOpaquePointer: erasedInvocation)
let context = FunctionPassContext(_bridged: BridgedPassContext(invocation: passInvocation.invocation))
invocation(function.function, arguments.native, context)
}
/// Bitcast a thin test closure to void *.
///
/// Needed so that the closure can be represented in C++ for storage in the test
/// registry.
private func castToOpaquePointer(fromInvocation invocation: FunctionTestInvocation) -> UnsafeMutableRawPointer {
return unsafeBitCast(invocation, to: UnsafeMutableRawPointer.self)
}
/// Bitcast a void * to a thin test closure.
///
/// Needed so that the closure stored in the C++ test registry can be invoked
/// via the functionTestThunk.
private func castToInvocation(fromOpaquePointer erasedInvocation: UnsafeMutableRawPointer) -> FunctionTestInvocation {
return unsafeBitCast(erasedInvocation, to: FunctionTestInvocation.self)
}
// Arguments:
// - string: list of characters, each of which specifies subsequent arguments
// - A: (block) argument
// - F: function
// - B: block
// - I: instruction
// - V: value
// - O: operand
// - b: boolean
// - u: unsigned
// - s: string
// - ...
// - an argument of the type specified in the initial string
// - ...
// Dumps:
// - for each argument (after the initial string)
// - its type
// - something to identify the instance (mostly this means calling dump)
let parseTestSpecificationTest =
FunctionTest("test_specification_parsing") { function, arguments, context in
let expectedFields = arguments.takeString()
for expectedField in expectedFields.string {
switch expectedField {
case "A":
let argument = arguments.takeArgument()
print("argument:\n\(argument)")
case "F":
let function = arguments.takeFunction()
print("function: \(function.name)")
case "B":
let block = arguments.takeBlock()
print("block:\n\(block)")
case "I":
let instruction = arguments.takeInstruction()
print("instruction: \(instruction)")
case "V":
let value = arguments.takeValue()
print("value: \(value)")
case "O":
let operand = arguments.takeOperand()
print("operand: \(operand)")
case "u":
let u = arguments.takeInt()
print("uint: \(u)")
case "b":
let b = arguments.takeBool()
print("bool: \(b)")
case "s":
let s = arguments.takeString()
print("string: \(s)")
default:
fatalError("unknown field type was expected?!");
}
}
}
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