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tinygo/compiler/func.go

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compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
package compiler
compiler: lower func values to switch + direct call This has several advantages, among them: - Many passes (heap-to-stack, dead arg elimination, inlining) do not work with function pointer calls. Making them normal function calls improves their effectiveness. - Goroutine lowering to LLVM coroutines does not currently support function pointers. By eliminating function pointers, coroutine lowering gets support for them for free. This is especially useful for WebAssembly. Because of the second point, this work is currently only enabled for the WebAssembly target.
6 years ago
// This file implements function values and closures. It may need some lowering
// in a later step, see func-lowering.go.
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
import (
"go/types"
"golang.org/x/tools/go/ssa"
"tinygo.org/x/go-llvm"
)
compiler: rename Compiler.getValue -> builder.getValue This is a fairly big commit, but it actually changes very little. getValue should really be a property of the builder (or frame), where the previously created instructions are kept.
5 years ago
// createFuncValue creates a function value from a raw function pointer with no
// context.
func (b *builder) createFuncValue(funcPtr, context llvm.Value, sig *types.Signature) llvm.Value {
return b.compilerContext.createFuncValue(b.Builder, funcPtr, context, sig)
}
// createFuncValue creates a function value from a raw function pointer with no
// context.
func (c *compilerContext) createFuncValue(builder llvm.Builder, funcPtr, context llvm.Value, sig *types.Signature) llvm.Value {
compiler: lower func values to switch + direct call This has several advantages, among them: - Many passes (heap-to-stack, dead arg elimination, inlining) do not work with function pointer calls. Making them normal function calls improves their effectiveness. - Goroutine lowering to LLVM coroutines does not currently support function pointers. By eliminating function pointers, coroutine lowering gets support for them for free. This is especially useful for WebAssembly. Because of the second point, this work is currently only enabled for the WebAssembly target.
6 years ago
var funcValueScalar llvm.Value
compiler: move settings to a separate Config struct Moving settings to a separate config struct has two benefits: - It decouples the compiler a bit from other packages, most importantly the compileopts package. Decoupling is generally a good thing. - Perhaps more importantly, it precisely specifies which settings are used while compiling and affect the resulting LLVM module. This will be necessary for caching the LLVM module. While it would have been possible to cache without this refactor, it would have been very easy to miss a setting and thus let the compiler work with invalid/stale data.
4 years ago
switch c.FuncImplementation {
case "doubleword":
compiler: lower func values to switch + direct call This has several advantages, among them: - Many passes (heap-to-stack, dead arg elimination, inlining) do not work with function pointer calls. Making them normal function calls improves their effectiveness. - Goroutine lowering to LLVM coroutines does not currently support function pointers. By eliminating function pointers, coroutine lowering gets support for them for free. This is especially useful for WebAssembly. Because of the second point, this work is currently only enabled for the WebAssembly target.
6 years ago
// Closure is: {context, function pointer}
funcValueScalar = funcPtr
compiler: move settings to a separate Config struct Moving settings to a separate config struct has two benefits: - It decouples the compiler a bit from other packages, most importantly the compileopts package. Decoupling is generally a good thing. - Perhaps more importantly, it precisely specifies which settings are used while compiling and affect the resulting LLVM module. This will be necessary for caching the LLVM module. While it would have been possible to cache without this refactor, it would have been very easy to miss a setting and thus let the compiler work with invalid/stale data.
4 years ago
case "switch":
compiler: fix crash with linked lists in interfaces This commit fixes the following issue: https://github.com/tinygo-org/tinygo/issues/309 Also, it prepares for some other reflect-related changes that should make it easier to add support for named types (etc.) in the future.
5 years ago
sigGlobal := c.getTypeCode(sig)
compiler: lower func values to switch + direct call This has several advantages, among them: - Many passes (heap-to-stack, dead arg elimination, inlining) do not work with function pointer calls. Making them normal function calls improves their effectiveness. - Goroutine lowering to LLVM coroutines does not currently support function pointers. By eliminating function pointers, coroutine lowering gets support for them for free. This is especially useful for WebAssembly. Because of the second point, this work is currently only enabled for the WebAssembly target.
6 years ago
funcValueWithSignatureGlobalName := funcPtr.Name() + "$withSignature"
funcValueWithSignatureGlobal := c.mod.NamedGlobal(funcValueWithSignatureGlobalName)
if funcValueWithSignatureGlobal.IsNil() {
compiler: refactor named types to create them lazily This commit refactors named types to be created lazily. Instead of defining all types in advance, do it only when necessary.
5 years ago
funcValueWithSignatureType := c.getLLVMRuntimeType("funcValueWithSignature")
compiler: lower func values to switch + direct call This has several advantages, among them: - Many passes (heap-to-stack, dead arg elimination, inlining) do not work with function pointer calls. Making them normal function calls improves their effectiveness. - Goroutine lowering to LLVM coroutines does not currently support function pointers. By eliminating function pointers, coroutine lowering gets support for them for free. This is especially useful for WebAssembly. Because of the second point, this work is currently only enabled for the WebAssembly target.
6 years ago
funcValueWithSignature := llvm.ConstNamedStruct(funcValueWithSignatureType, []llvm.Value{
llvm.ConstPtrToInt(funcPtr, c.uintptrType),
sigGlobal,
})
funcValueWithSignatureGlobal = llvm.AddGlobal(c.mod, funcValueWithSignatureType, funcValueWithSignatureGlobalName)
funcValueWithSignatureGlobal.SetInitializer(funcValueWithSignature)
funcValueWithSignatureGlobal.SetGlobalConstant(true)
builder, compiler: compile and cache packages in parallel This commit switches from the previous behavior of compiling the whole program at once, to compiling every package in parallel and linking the LLVM bitcode files together for further whole-program optimization. This is a small performance win, but it has several advantages in the future: - There are many more things that can be done per package in parallel, avoiding the bottleneck at the end of the compiler phase. This should speed up the compiler futher. - This change is a necessary step towards a non-LTO build mode for fast incremental builds that only rebuild the changed package, when compiler speed is more important than binary size. - This change refactors the compiler in such a way that it will be easier to inspect the IR for one package only. Inspecting this IR will be very helpful for compiler developers.
4 years ago
funcValueWithSignatureGlobal.SetLinkage(llvm.LinkOnceODRLinkage)
compiler: lower func values to switch + direct call This has several advantages, among them: - Many passes (heap-to-stack, dead arg elimination, inlining) do not work with function pointer calls. Making them normal function calls improves their effectiveness. - Goroutine lowering to LLVM coroutines does not currently support function pointers. By eliminating function pointers, coroutine lowering gets support for them for free. This is especially useful for WebAssembly. Because of the second point, this work is currently only enabled for the WebAssembly target.
6 years ago
}
funcValueScalar = llvm.ConstPtrToInt(funcValueWithSignatureGlobal, c.uintptrType)
default:
panic("unimplemented func value variant")
}
compiler: do not return an error from getLLVMType This commit replaces "unknown type" errors in getLLVMType with panics. The main reason this is done is that it simplifies the code *a lot*. Many `if err != nil` lines were there just because of type information. Additionally, simply panicking is probably a better approach as the only way this error can be produced is either with big new language features or a serious compiler bug. Panicking is probably a better way to handle this error anyway.
6 years ago
funcValueType := c.getFuncType(sig)
compiler: lower func values to switch + direct call This has several advantages, among them: - Many passes (heap-to-stack, dead arg elimination, inlining) do not work with function pointer calls. Making them normal function calls improves their effectiveness. - Goroutine lowering to LLVM coroutines does not currently support function pointers. By eliminating function pointers, coroutine lowering gets support for them for free. This is especially useful for WebAssembly. Because of the second point, this work is currently only enabled for the WebAssembly target.
6 years ago
funcValue := llvm.Undef(funcValueType)
compiler: rename Compiler.getValue -> builder.getValue This is a fairly big commit, but it actually changes very little. getValue should really be a property of the builder (or frame), where the previously created instructions are kept.
5 years ago
funcValue = builder.CreateInsertValue(funcValue, context, 0, "")
funcValue = builder.CreateInsertValue(funcValue, funcValueScalar, 1, "")
compiler: do not return an error from getLLVMType This commit replaces "unknown type" errors in getLLVMType with panics. The main reason this is done is that it simplifies the code *a lot*. Many `if err != nil` lines were there just because of type information. Additionally, simply panicking is probably a better approach as the only way this error can be produced is either with big new language features or a serious compiler bug. Panicking is probably a better way to handle this error anyway.
6 years ago
return funcValue
compiler: lower func values to switch + direct call This has several advantages, among them: - Many passes (heap-to-stack, dead arg elimination, inlining) do not work with function pointer calls. Making them normal function calls improves their effectiveness. - Goroutine lowering to LLVM coroutines does not currently support function pointers. By eliminating function pointers, coroutine lowering gets support for them for free. This is especially useful for WebAssembly. Because of the second point, this work is currently only enabled for the WebAssembly target.
6 years ago
}
compiler: refactor createBinOp This commit unfortunately introduces a significant amount of code duplication. However, all that duplicate code should be removed once this refactor is done.
5 years ago
// extractFuncScalar returns some scalar that can be used in comparisons. It is
// a cheap operation.
func (b *builder) extractFuncScalar(funcValue llvm.Value) llvm.Value {
return b.CreateExtractValue(funcValue, 1, "")
}
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
// extractFuncContext extracts the context pointer from this function value. It
// is a cheap operation.
compiler: refactor function calling
5 years ago
func (b *builder) extractFuncContext(funcValue llvm.Value) llvm.Value {
return b.CreateExtractValue(funcValue, 0, "")
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
}
// decodeFuncValue extracts the context and the function pointer from this func
// value. This may be an expensive operation.
compiler: refactor function calling
5 years ago
func (b *builder) decodeFuncValue(funcValue llvm.Value, sig *types.Signature) (funcPtr, context llvm.Value) {
context = b.CreateExtractValue(funcValue, 0, "")
compiler: move settings to a separate Config struct Moving settings to a separate config struct has two benefits: - It decouples the compiler a bit from other packages, most importantly the compileopts package. Decoupling is generally a good thing. - Perhaps more importantly, it precisely specifies which settings are used while compiling and affect the resulting LLVM module. This will be necessary for caching the LLVM module. While it would have been possible to cache without this refactor, it would have been very easy to miss a setting and thus let the compiler work with invalid/stale data.
4 years ago
switch b.FuncImplementation {
case "doubleword":
compiler: refactor function calling
5 years ago
funcPtr = b.CreateExtractValue(funcValue, 1, "")
compiler: move settings to a separate Config struct Moving settings to a separate config struct has two benefits: - It decouples the compiler a bit from other packages, most importantly the compileopts package. Decoupling is generally a good thing. - Perhaps more importantly, it precisely specifies which settings are used while compiling and affect the resulting LLVM module. This will be necessary for caching the LLVM module. While it would have been possible to cache without this refactor, it would have been very easy to miss a setting and thus let the compiler work with invalid/stale data.
4 years ago
case "switch":
compiler: refactor function calling
5 years ago
llvmSig := b.getRawFuncType(sig)
sigGlobal := b.getTypeCode(sig)
funcPtr = b.createRuntimeCall("getFuncPtr", []llvm.Value{funcValue, sigGlobal}, "")
funcPtr = b.CreateIntToPtr(funcPtr, llvmSig, "")
compiler: lower func values to switch + direct call This has several advantages, among them: - Many passes (heap-to-stack, dead arg elimination, inlining) do not work with function pointer calls. Making them normal function calls improves their effectiveness. - Goroutine lowering to LLVM coroutines does not currently support function pointers. By eliminating function pointers, coroutine lowering gets support for them for free. This is especially useful for WebAssembly. Because of the second point, this work is currently only enabled for the WebAssembly target.
6 years ago
default:
panic("unimplemented func value variant")
}
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
return
}
// getFuncType returns the type of a func value given a signature.
compiler: refactor IR generation This is the first commit in a series to refactor the compiler. The intention is to make sure every function to be compiled eventually has its own IR builder. This will make it much easier to do other refactorings in the future: * Most code won't depend (directly) on the central Compiler object, perhaps making it possible to eliminate it in the future. Right now it's embedded in the `builder` struct but individual fields from the `Compiler` can easily be moved into the `builder` object. * Some functions are not directly exposed in Go SSA, they are wrapper functions for something. At the moment they are included in the list of functions to be compiled with the reachability analysis (SimpleDCE) in the ir package, but eventually this reachability analys will be removed. At that point, it would be very convenient to be able to simply build a function with a new IR builder. The `compilerContext` struct makes sure that it is not possible for `builder` methods to accidentally use global state such as the global IR builder. It is a transitional mechanism and may be removed when finished.
5 years ago
func (c *compilerContext) getFuncType(typ *types.Signature) llvm.Type {
compiler: move settings to a separate Config struct Moving settings to a separate config struct has two benefits: - It decouples the compiler a bit from other packages, most importantly the compileopts package. Decoupling is generally a good thing. - Perhaps more importantly, it precisely specifies which settings are used while compiling and affect the resulting LLVM module. This will be necessary for caching the LLVM module. While it would have been possible to cache without this refactor, it would have been very easy to miss a setting and thus let the compiler work with invalid/stale data.
4 years ago
switch c.FuncImplementation {
case "doubleword":
compiler: do not return an error from getLLVMType This commit replaces "unknown type" errors in getLLVMType with panics. The main reason this is done is that it simplifies the code *a lot*. Many `if err != nil` lines were there just because of type information. Additionally, simply panicking is probably a better approach as the only way this error can be produced is either with big new language features or a serious compiler bug. Panicking is probably a better way to handle this error anyway.
6 years ago
rawPtr := c.getRawFuncType(typ)
return c.ctx.StructType([]llvm.Type{c.i8ptrType, rawPtr}, false)
compiler: move settings to a separate Config struct Moving settings to a separate config struct has two benefits: - It decouples the compiler a bit from other packages, most importantly the compileopts package. Decoupling is generally a good thing. - Perhaps more importantly, it precisely specifies which settings are used while compiling and affect the resulting LLVM module. This will be necessary for caching the LLVM module. While it would have been possible to cache without this refactor, it would have been very easy to miss a setting and thus let the compiler work with invalid/stale data.
4 years ago
case "switch":
compiler: refactor named types to create them lazily This commit refactors named types to be created lazily. Instead of defining all types in advance, do it only when necessary.
5 years ago
return c.getLLVMRuntimeType("funcValue")
compiler: lower func values to switch + direct call This has several advantages, among them: - Many passes (heap-to-stack, dead arg elimination, inlining) do not work with function pointer calls. Making them normal function calls improves their effectiveness. - Goroutine lowering to LLVM coroutines does not currently support function pointers. By eliminating function pointers, coroutine lowering gets support for them for free. This is especially useful for WebAssembly. Because of the second point, this work is currently only enabled for the WebAssembly target.
6 years ago
default:
panic("unimplemented func value variant")
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
}
}
// getRawFuncType returns a LLVM function pointer type for a given signature.
compiler: refactor IR generation This is the first commit in a series to refactor the compiler. The intention is to make sure every function to be compiled eventually has its own IR builder. This will make it much easier to do other refactorings in the future: * Most code won't depend (directly) on the central Compiler object, perhaps making it possible to eliminate it in the future. Right now it's embedded in the `builder` struct but individual fields from the `Compiler` can easily be moved into the `builder` object. * Some functions are not directly exposed in Go SSA, they are wrapper functions for something. At the moment they are included in the list of functions to be compiled with the reachability analysis (SimpleDCE) in the ir package, but eventually this reachability analys will be removed. At that point, it would be very convenient to be able to simply build a function with a new IR builder. The `compilerContext` struct makes sure that it is not possible for `builder` methods to accidentally use global state such as the global IR builder. It is a transitional mechanism and may be removed when finished.
5 years ago
func (c *compilerContext) getRawFuncType(typ *types.Signature) llvm.Type {
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
// Get the return type.
var returnType llvm.Type
switch typ.Results().Len() {
case 0:
// No return values.
returnType = c.ctx.VoidType()
case 1:
// Just one return value.
compiler: do not return an error from getLLVMType This commit replaces "unknown type" errors in getLLVMType with panics. The main reason this is done is that it simplifies the code *a lot*. Many `if err != nil` lines were there just because of type information. Additionally, simply panicking is probably a better approach as the only way this error can be produced is either with big new language features or a serious compiler bug. Panicking is probably a better way to handle this error anyway.
6 years ago
returnType = c.getLLVMType(typ.Results().At(0).Type())
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
default:
// Multiple return values. Put them together in a struct.
// This appears to be the common way to handle multiple return values in
// LLVM.
members := make([]llvm.Type, typ.Results().Len())
for i := 0; i < typ.Results().Len(); i++ {
compiler: do not return an error from getLLVMType This commit replaces &#34;unknown type&#34; errors in getLLVMType with panics. The main reason this is done is that it simplifies the code *a lot*. Many `if err != nil` lines were there just because of type information. Additionally, simply panicking is probably a better approach as the only way this error can be produced is either with big new language features or a serious compiler bug. Panicking is probably a better way to handle this error anyway.
6 years ago
members[i] = c.getLLVMType(typ.Results().At(i).Type())
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
}
returnType = c.ctx.StructType(members, false)
}
// Get the parameter types.
var paramTypes []llvm.Type
if typ.Recv() != nil {
compiler: do not return an error from getLLVMType This commit replaces &#34;unknown type&#34; errors in getLLVMType with panics. The main reason this is done is that it simplifies the code *a lot*. Many `if err != nil` lines were there just because of type information. Additionally, simply panicking is probably a better approach as the only way this error can be produced is either with big new language features or a serious compiler bug. Panicking is probably a better way to handle this error anyway.
6 years ago
recv := c.getLLVMType(typ.Recv().Type())
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
if recv.StructName() == "runtime._interface" {
// This is a call on an interface, not a concrete type.
// The receiver is not an interface, but a i8* type.
recv = c.i8ptrType
}
compiler: add parameter names to IR This makes viewing the IR easier because parameters have readable names. This also makes it easier to write compiler tests (still a work in progress), that work in LLVM 9 and LLVM 10, as LLVM 10 started printing value names for unnamed parameters.
5 years ago
for _, info := range expandFormalParamType(recv, "", nil) {
paramTypes = append(paramTypes, info.llvmType)
}
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
}
for i := 0; i < typ.Params().Len(); i++ {
compiler: do not return an error from getLLVMType This commit replaces &#34;unknown type&#34; errors in getLLVMType with panics. The main reason this is done is that it simplifies the code *a lot*. Many `if err != nil` lines were there just because of type information. Additionally, simply panicking is probably a better approach as the only way this error can be produced is either with big new language features or a serious compiler bug. Panicking is probably a better way to handle this error anyway.
6 years ago
subType := c.getLLVMType(typ.Params().At(i).Type())
compiler: add parameter names to IR This makes viewing the IR easier because parameters have readable names. This also makes it easier to write compiler tests (still a work in progress), that work in LLVM 9 and LLVM 10, as LLVM 10 started printing value names for unnamed parameters.
5 years ago
for _, info := range expandFormalParamType(subType, "", nil) {
paramTypes = append(paramTypes, info.llvmType)
}
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
}
// All functions take these parameters at the end.
paramTypes = append(paramTypes, c.i8ptrType) // context
paramTypes = append(paramTypes, c.i8ptrType) // parent coroutine
// Make a func type out of the signature.
compiler: do not return an error from getLLVMType This commit replaces &#34;unknown type&#34; errors in getLLVMType with panics. The main reason this is done is that it simplifies the code *a lot*. Many `if err != nil` lines were there just because of type information. Additionally, simply panicking is probably a better approach as the only way this error can be produced is either with big new language features or a serious compiler bug. Panicking is probably a better way to handle this error anyway.
6 years ago
return llvm.PointerType(llvm.FunctionType(returnType, paramTypes, false), c.funcPtrAddrSpace)
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
}
// parseMakeClosure makes a function value (with context) from the given
// closure expression.
compiler: refactor parseExpr parseExpr (now createExpr) and all callers (recursively) are switched over to the new builder object!
5 years ago
func (b *builder) parseMakeClosure(expr *ssa.MakeClosure) (llvm.Value, error) {
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
if len(expr.Bindings) == 0 {
panic("unexpected: MakeClosure without bound variables")
}
compiler: remove ir package This package was long making the design of the compiler more complicated than it needs to be. Previously this package implemented several optimization passes, but those passes have since moved to work directly with LLVM IR instead of Go SSA. The only remaining pass is the SimpleDCE pass. This commit removes the *ir.Function type that permeated the whole compiler and instead switches to use *ssa.Function directly. The SimpleDCE pass is kept but is far less tightly coupled to the rest of the compiler so that it can easily be removed once the switch to building and caching packages individually happens.
4 years ago
f := expr.Fn.(*ssa.Function)
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
// Collect all bound variables.
compiler: refactor packing of word-sized values in integers There are two places that try to store values directly in pointers, if possible: closures and interfaces. Use the same functions for both.
6 years ago
boundVars := make([]llvm.Value, len(expr.Bindings))
for i, binding := range expr.Bindings {
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
// The context stores the bound variables.
compiler: refactor parseExpr parseExpr (now createExpr) and all callers (recursively) are switched over to the new builder object!
5 years ago
llvmBoundVar := b.getValue(binding)
compiler: refactor packing of word-sized values in integers There are two places that try to store values directly in pointers, if possible: closures and interfaces. Use the same functions for both.
6 years ago
boundVars[i] = llvmBoundVar
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
}
compiler: refactor packing of word-sized values in integers There are two places that try to store values directly in pointers, if possible: closures and interfaces. Use the same functions for both.
6 years ago
// Store the bound variables in a single object, allocating it on the heap
// if necessary.
compiler: refactor parseExpr parseExpr (now createExpr) and all callers (recursively) are switched over to the new builder object!
5 years ago
context := b.emitPointerPack(boundVars)
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
compiler: lower func values to switch + direct call This has several advantages, among them: - Many passes (heap-to-stack, dead arg elimination, inlining) do not work with function pointer calls. Making them normal function calls improves their effectiveness. - Goroutine lowering to LLVM coroutines does not currently support function pointers. By eliminating function pointers, coroutine lowering gets support for them for free. This is especially useful for WebAssembly. Because of the second point, this work is currently only enabled for the WebAssembly target.
6 years ago
// Create the closure.
compiler: remove ir package This package was long making the design of the compiler more complicated than it needs to be. Previously this package implemented several optimization passes, but those passes have since moved to work directly with LLVM IR instead of Go SSA. The only remaining pass is the SimpleDCE pass. This commit removes the *ir.Function type that permeated the whole compiler and instead switches to use *ssa.Function directly. The SimpleDCE pass is kept but is far less tightly coupled to the rest of the compiler so that it can easily be removed once the switch to building and caching packages individually happens.
4 years ago
return b.createFuncValue(b.getFunction(f), context, f.Signature), nil
compiler: refactor func value handling This commit refactors all func value handling into a new file, which makes it easier to comprehend it and extend it later.
6 years ago
}