d8cc48b09b
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.
168 строки
6,1 КиБ
Go
168 строки
6,1 КиБ
Go
package compiler
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// This file implements function values and closures. It may need some lowering
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// in a later step, see func-lowering.go.
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import (
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"go/types"
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"github.com/tinygo-org/tinygo/compileopts"
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"golang.org/x/tools/go/ssa"
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"tinygo.org/x/go-llvm"
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)
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// createFuncValue creates a function value from a raw function pointer with no
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// context.
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func (b *builder) createFuncValue(funcPtr, context llvm.Value, sig *types.Signature) llvm.Value {
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return b.compilerContext.createFuncValue(b.Builder, funcPtr, context, sig)
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}
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// createFuncValue creates a function value from a raw function pointer with no
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// context.
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func (c *compilerContext) createFuncValue(builder llvm.Builder, funcPtr, context llvm.Value, sig *types.Signature) llvm.Value {
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var funcValueScalar llvm.Value
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switch c.FuncImplementation() {
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case compileopts.FuncValueDoubleword:
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// Closure is: {context, function pointer}
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funcValueScalar = funcPtr
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case compileopts.FuncValueSwitch:
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sigGlobal := c.getTypeCode(sig)
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funcValueWithSignatureGlobalName := funcPtr.Name() + "$withSignature"
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funcValueWithSignatureGlobal := c.mod.NamedGlobal(funcValueWithSignatureGlobalName)
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if funcValueWithSignatureGlobal.IsNil() {
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funcValueWithSignatureType := c.getLLVMRuntimeType("funcValueWithSignature")
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funcValueWithSignature := llvm.ConstNamedStruct(funcValueWithSignatureType, []llvm.Value{
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llvm.ConstPtrToInt(funcPtr, c.uintptrType),
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sigGlobal,
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})
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funcValueWithSignatureGlobal = llvm.AddGlobal(c.mod, funcValueWithSignatureType, funcValueWithSignatureGlobalName)
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funcValueWithSignatureGlobal.SetInitializer(funcValueWithSignature)
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funcValueWithSignatureGlobal.SetGlobalConstant(true)
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funcValueWithSignatureGlobal.SetLinkage(llvm.InternalLinkage)
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}
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funcValueScalar = llvm.ConstPtrToInt(funcValueWithSignatureGlobal, c.uintptrType)
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default:
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panic("unimplemented func value variant")
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}
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funcValueType := c.getFuncType(sig)
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funcValue := llvm.Undef(funcValueType)
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funcValue = builder.CreateInsertValue(funcValue, context, 0, "")
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funcValue = builder.CreateInsertValue(funcValue, funcValueScalar, 1, "")
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return funcValue
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}
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// extractFuncScalar returns some scalar that can be used in comparisons. It is
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// a cheap operation.
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func (b *builder) extractFuncScalar(funcValue llvm.Value) llvm.Value {
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return b.CreateExtractValue(funcValue, 1, "")
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}
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// extractFuncContext extracts the context pointer from this function value. It
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// is a cheap operation.
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func (b *builder) extractFuncContext(funcValue llvm.Value) llvm.Value {
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return b.CreateExtractValue(funcValue, 0, "")
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}
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// decodeFuncValue extracts the context and the function pointer from this func
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// value. This may be an expensive operation.
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func (b *builder) decodeFuncValue(funcValue llvm.Value, sig *types.Signature) (funcPtr, context llvm.Value) {
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context = b.CreateExtractValue(funcValue, 0, "")
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switch b.FuncImplementation() {
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case compileopts.FuncValueDoubleword:
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funcPtr = b.CreateExtractValue(funcValue, 1, "")
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case compileopts.FuncValueSwitch:
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llvmSig := b.getRawFuncType(sig)
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sigGlobal := b.getTypeCode(sig)
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funcPtr = b.createRuntimeCall("getFuncPtr", []llvm.Value{funcValue, sigGlobal}, "")
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funcPtr = b.CreateIntToPtr(funcPtr, llvmSig, "")
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default:
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panic("unimplemented func value variant")
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}
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return
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}
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// getFuncType returns the type of a func value given a signature.
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func (c *compilerContext) getFuncType(typ *types.Signature) llvm.Type {
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switch c.FuncImplementation() {
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case compileopts.FuncValueDoubleword:
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rawPtr := c.getRawFuncType(typ)
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return c.ctx.StructType([]llvm.Type{c.i8ptrType, rawPtr}, false)
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case compileopts.FuncValueSwitch:
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return c.getLLVMRuntimeType("funcValue")
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default:
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panic("unimplemented func value variant")
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}
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}
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// getRawFuncType returns a LLVM function pointer type for a given signature.
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func (c *compilerContext) getRawFuncType(typ *types.Signature) llvm.Type {
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// Get the return type.
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var returnType llvm.Type
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switch typ.Results().Len() {
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case 0:
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// No return values.
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returnType = c.ctx.VoidType()
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case 1:
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// Just one return value.
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returnType = c.getLLVMType(typ.Results().At(0).Type())
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default:
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// Multiple return values. Put them together in a struct.
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// This appears to be the common way to handle multiple return values in
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// LLVM.
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members := make([]llvm.Type, typ.Results().Len())
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for i := 0; i < typ.Results().Len(); i++ {
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members[i] = c.getLLVMType(typ.Results().At(i).Type())
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}
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returnType = c.ctx.StructType(members, false)
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}
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// Get the parameter types.
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var paramTypes []llvm.Type
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if typ.Recv() != nil {
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recv := c.getLLVMType(typ.Recv().Type())
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if recv.StructName() == "runtime._interface" {
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// This is a call on an interface, not a concrete type.
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// The receiver is not an interface, but a i8* type.
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recv = c.i8ptrType
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}
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for _, info := range expandFormalParamType(recv, "", nil) {
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paramTypes = append(paramTypes, info.llvmType)
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}
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}
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for i := 0; i < typ.Params().Len(); i++ {
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subType := c.getLLVMType(typ.Params().At(i).Type())
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for _, info := range expandFormalParamType(subType, "", nil) {
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paramTypes = append(paramTypes, info.llvmType)
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}
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}
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// All functions take these parameters at the end.
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paramTypes = append(paramTypes, c.i8ptrType) // context
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paramTypes = append(paramTypes, c.i8ptrType) // parent coroutine
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// Make a func type out of the signature.
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return llvm.PointerType(llvm.FunctionType(returnType, paramTypes, false), c.funcPtrAddrSpace)
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}
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// parseMakeClosure makes a function value (with context) from the given
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// closure expression.
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func (b *builder) parseMakeClosure(expr *ssa.MakeClosure) (llvm.Value, error) {
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if len(expr.Bindings) == 0 {
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panic("unexpected: MakeClosure without bound variables")
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}
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f := expr.Fn.(*ssa.Function)
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// Collect all bound variables.
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boundVars := make([]llvm.Value, len(expr.Bindings))
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for i, binding := range expr.Bindings {
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// The context stores the bound variables.
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llvmBoundVar := b.getValue(binding)
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boundVars[i] = llvmBoundVar
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}
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// Store the bound variables in a single object, allocating it on the heap
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// if necessary.
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context := b.emitPointerPack(boundVars)
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// Create the closure.
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return b.createFuncValue(b.getFunction(f), context, f.Signature), nil
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}
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