25dac32a88
The constant propagation pass is removed in LLVM 12, so this pass needs to be replaced anyway. The direct replacement would be the SCCP (sparse conditional constant propagation) pass, but perhaps a better replacement is the IPSCCP pass, which is an interprocedural version of the SCCP pass and propagates constants across function calls if possible. This is not always a code size reduction, but it appears to reduce code size in a majority of cases. It certainly reduces code size in almost all WebAssembly tests I did.
222 строки
6,4 КиБ
Go
222 строки
6,4 КиБ
Go
package transform
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import (
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"errors"
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"fmt"
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"github.com/tinygo-org/tinygo/compileopts"
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"github.com/tinygo-org/tinygo/compiler/ircheck"
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"tinygo.org/x/go-llvm"
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)
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// Optimize runs a number of optimization and transformation passes over the
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// given module. Some passes are specific to TinyGo, others are generic LLVM
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// passes. You can set a preferred performance (0-3) and size (0-2) level and
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// control the limits of the inliner (higher numbers mean more inlining, set it
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// to 0 to disable entirely).
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//
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// Please note that some optimizations are not optional, thus Optimize must
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// alwasy be run before emitting machine code. Set all controls (optLevel,
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// sizeLevel, inlinerThreshold) to 0 to reduce the number of optimizations to a
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// minimum.
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func Optimize(mod llvm.Module, config *compileopts.Config, optLevel, sizeLevel int, inlinerThreshold uint) []error {
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builder := llvm.NewPassManagerBuilder()
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defer builder.Dispose()
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builder.SetOptLevel(optLevel)
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builder.SetSizeLevel(sizeLevel)
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if inlinerThreshold != 0 {
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builder.UseInlinerWithThreshold(inlinerThreshold)
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}
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builder.AddCoroutinePassesToExtensionPoints()
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// Make sure these functions are kept in tact during TinyGo transformation passes.
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for _, name := range getFunctionsUsedInTransforms(config) {
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fn := mod.NamedFunction(name)
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if fn.IsNil() {
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panic(fmt.Errorf("missing core function %q", name))
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}
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fn.SetLinkage(llvm.ExternalLinkage)
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}
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if config.PanicStrategy() == "trap" {
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ReplacePanicsWithTrap(mod) // -panic=trap
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}
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// run a check of all of our code
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if config.VerifyIR() {
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errs := ircheck.Module(mod)
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if errs != nil {
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return errs
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}
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}
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if optLevel > 0 {
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// Run some preparatory passes for the Go optimizer.
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goPasses := llvm.NewPassManager()
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defer goPasses.Dispose()
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goPasses.AddGlobalDCEPass()
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goPasses.AddGlobalOptimizerPass()
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goPasses.AddIPSCCPPass()
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goPasses.AddAggressiveDCEPass()
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goPasses.AddFunctionAttrsPass()
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goPasses.Run(mod)
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// Run Go-specific optimization passes.
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OptimizeMaps(mod)
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OptimizeStringToBytes(mod)
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OptimizeReflectImplements(mod)
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OptimizeAllocs(mod)
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err := LowerInterfaces(mod, sizeLevel)
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if err != nil {
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return []error{err}
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}
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errs := LowerInterrupts(mod, sizeLevel)
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if len(errs) > 0 {
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return errs
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}
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if config.FuncImplementation() == "switch" {
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LowerFuncValues(mod)
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}
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// After interfaces are lowered, there are many more opportunities for
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// interprocedural optimizations. To get them to work, function
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// attributes have to be updated first.
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goPasses.Run(mod)
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// Run TinyGo-specific interprocedural optimizations.
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OptimizeAllocs(mod)
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OptimizeStringToBytes(mod)
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OptimizeStringEqual(mod)
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} else {
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// Must be run at any optimization level.
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err := LowerInterfaces(mod, sizeLevel)
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if err != nil {
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return []error{err}
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}
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if config.FuncImplementation() == "switch" {
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LowerFuncValues(mod)
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}
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errs := LowerInterrupts(mod, sizeLevel)
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if len(errs) > 0 {
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return errs
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}
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// Clean up some leftover symbols of the previous transformations.
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goPasses := llvm.NewPassManager()
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defer goPasses.Dispose()
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goPasses.AddGlobalDCEPass()
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goPasses.Run(mod)
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}
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// Lower async implementations.
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switch config.Scheduler() {
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case "coroutines":
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// Lower async as coroutines.
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err := LowerCoroutines(mod, config.NeedsStackObjects())
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if err != nil {
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return []error{err}
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}
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case "tasks":
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// No transformations necessary.
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case "none":
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// Check for any goroutine starts.
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if start := mod.NamedFunction("internal/task.start"); !start.IsNil() && len(getUses(start)) > 0 {
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errs := []error{}
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for _, call := range getUses(start) {
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errs = append(errs, errorAt(call, "attempted to start a goroutine without a scheduler"))
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}
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return errs
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}
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default:
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return []error{errors.New("invalid scheduler")}
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}
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if config.VerifyIR() {
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if errs := ircheck.Module(mod); errs != nil {
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return errs
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}
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}
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if err := llvm.VerifyModule(mod, llvm.PrintMessageAction); err != nil {
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return []error{errors.New("optimizations caused a verification failure")}
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}
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// After TinyGo-specific transforms have finished, undo exporting these functions.
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for _, name := range getFunctionsUsedInTransforms(config) {
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fn := mod.NamedFunction(name)
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if fn.IsNil() || fn.IsDeclaration() {
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continue
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}
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fn.SetLinkage(llvm.InternalLinkage)
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}
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// Run function passes again, because without it, llvm.coro.size.i32()
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// doesn't get lowered.
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funcPasses := llvm.NewFunctionPassManagerForModule(mod)
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defer funcPasses.Dispose()
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builder.PopulateFunc(funcPasses)
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funcPasses.InitializeFunc()
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for fn := mod.FirstFunction(); !fn.IsNil(); fn = llvm.NextFunction(fn) {
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funcPasses.RunFunc(fn)
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}
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funcPasses.FinalizeFunc()
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// Run module passes.
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modPasses := llvm.NewPassManager()
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defer modPasses.Dispose()
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builder.Populate(modPasses)
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modPasses.Run(mod)
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hasGCPass := AddGlobalsBitmap(mod)
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hasGCPass = MakeGCStackSlots(mod) || hasGCPass
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if hasGCPass {
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if err := llvm.VerifyModule(mod, llvm.PrintMessageAction); err != nil {
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return []error{errors.New("GC pass caused a verification failure")}
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}
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}
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return nil
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}
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// functionsUsedInTransform is a list of function symbols that may be used
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// during TinyGo optimization passes so they have to be marked as external
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// linkage until all TinyGo passes have finished.
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var functionsUsedInTransforms = []string{
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"runtime.alloc",
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"runtime.free",
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"runtime.nilPanic",
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}
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var taskFunctionsUsedInTransforms = []string{}
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// These functions need to be preserved in the IR until after the coroutines
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// pass has run.
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var coroFunctionsUsedInTransforms = []string{
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"internal/task.start",
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"internal/task.Pause",
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"internal/task.fake",
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"internal/task.Current",
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"internal/task.createTask",
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"(*internal/task.Task).setState",
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"(*internal/task.Task).returnTo",
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"(*internal/task.Task).returnCurrent",
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"(*internal/task.Task).setReturnPtr",
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"(*internal/task.Task).getReturnPtr",
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}
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// getFunctionsUsedInTransforms gets a list of all special functions that should be preserved during transforms and optimization.
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func getFunctionsUsedInTransforms(config *compileopts.Config) []string {
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fnused := functionsUsedInTransforms
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switch config.Scheduler() {
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case "none":
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case "coroutines":
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fnused = append(append([]string{}, fnused...), coroFunctionsUsedInTransforms...)
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case "tasks":
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fnused = append(append([]string{}, fnused...), taskFunctionsUsedInTransforms...)
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default:
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panic(fmt.Errorf("invalid scheduler %q", config.Scheduler()))
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}
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return fnused
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}
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