Exemplo n.º 1
0
func (tm *TypeMap) nameRuntimeType(n *types.Name) (global, ptr llvm.Value) {
	global, ptr = tm.makeRuntimeType(n.Underlying)
	globalInit := global.Initializer()

	// Locate the common type.
	underlyingRuntimeType := llvm.ConstExtractValue(globalInit, []uint32{1})
	commonType := underlyingRuntimeType
	if _, ok := n.Underlying.(*types.Basic); !ok {
		commonType = llvm.ConstExtractValue(commonType, []uint32{0})
	}

	// Insert the uncommon type.
	uncommonTypeInit := llvm.ConstNull(tm.runtimeUncommonType)
	uncommonType := llvm.AddGlobal(tm.module, uncommonTypeInit.Type(), "")
	uncommonType.SetInitializer(uncommonTypeInit)
	commonType = llvm.ConstInsertValue(commonType, uncommonType, []uint32{8})

	// Update the global's initialiser.
	if _, ok := n.Underlying.(*types.Basic); !ok {
		underlyingRuntimeType = llvm.ConstInsertValue(underlyingRuntimeType, commonType, []uint32{0})
	} else {
		underlyingRuntimeType = commonType
	}
	globalInit = llvm.ConstInsertValue(globalInit, underlyingRuntimeType, []uint32{1})
	global.SetName("__llgo.reflect." + n.Obj.Name)
	return global, ptr
}
Exemplo n.º 2
0
func reorderGlobalConstructors(m llvm.Module) error {
	ctors := m.NamedGlobal("llvm.global_ctors")
	if ctors.IsNil() {
		// No global constructors.
		return nil
	}

	init := ctors.Initializer()
	arraylength := init.Type().ArrayLength()
	zeroindex := []uint32{0}

	// The constructors are ordered within each package, but the packages
	// are in reverse order. We must go backwards through the constructors,
	// reassigning priorities.
	ceiling, npackagectors := -1, -1
	for i := arraylength - 1; i >= 0; i-- {
		indices := []uint32{uint32(i)}
		ctor := llvm.ConstExtractValue(init, indices)
		priority := int(llvm.ConstExtractValue(ctor, zeroindex).ZExtValue())
		if npackagectors == -1 {
			ceiling = arraylength - (i + 1) + priority
			npackagectors = priority
		}
		newpriority := ceiling - (npackagectors - priority)
		newpriorityvalue := llvm.ConstInt(llvm.Int32Type(), uint64(newpriority), false)
		ctor = llvm.ConstInsertValue(ctor, newpriorityvalue, zeroindex)
		if priority == 1 {
			npackagectors = -1
		}
		init = llvm.ConstInsertValue(init, ctor, indices)
	}
	ctors.SetInitializer(init)
	return nil
}
Exemplo n.º 3
0
func (tm *TypeMap) uncommonType(n *types.Named, ptr bool) llvm.Value {
	uncommonTypeInit := llvm.ConstNull(tm.runtimeUncommonType)
	namePtr := tm.globalStringPtr(n.Obj().Name())
	uncommonTypeInit = llvm.ConstInsertValue(uncommonTypeInit, namePtr, []uint32{0})

	_, path := tm.qualifiedName(n)
	pkgpathPtr := tm.globalStringPtr(path)
	uncommonTypeInit = llvm.ConstInsertValue(uncommonTypeInit, pkgpathPtr, []uint32{1})

	methodset := tm.functions.methods(n)
	methodfuncs := methodset.nonptr
	if ptr {
		methodfuncs = methodset.ptr
	}

	// Store methods.
	methods := make([]llvm.Value, len(methodfuncs))
	for i, mfunc := range methodfuncs {
		ftyp := mfunc.Type().(*types.Signature)

		method := llvm.ConstNull(tm.runtimeMethod)
		name := tm.globalStringPtr(mfunc.Name())
		name = llvm.ConstBitCast(name, tm.runtimeMethod.StructElementTypes()[0])
		// name
		method = llvm.ConstInsertValue(method, name, []uint32{0})
		// pkgPath
		method = llvm.ConstInsertValue(method, pkgpathPtr, []uint32{1})
		// mtyp (method type, no receiver)
		{
			ftyp := types.NewSignature(nil, nil, ftyp.Params(), ftyp.Results(), ftyp.IsVariadic())
			mtyp := tm.ToRuntime(ftyp)
			method = llvm.ConstInsertValue(method, mtyp, []uint32{2})
		}
		// typ (function type, with receiver)
		typ := tm.ToRuntime(ftyp)
		method = llvm.ConstInsertValue(method, typ, []uint32{3})

		// tfn (standard method/function pointer for plain method calls)
		tfn := tm.resolver.Resolve(tm.functions.objectdata[mfunc].Ident).LLVMValue()
		tfn = llvm.ConstExtractValue(tfn, []uint32{0})
		tfn = llvm.ConstPtrToInt(tfn, tm.target.IntPtrType())

		// ifn (single-word receiver function pointer for interface calls)
		ifn := tfn
		if !ptr && tm.Sizeof(ftyp.Recv().Type()) > int64(tm.target.PointerSize()) {
			mfunc := methodset.lookup(mfunc.Name(), true)
			ifn = tm.resolver.Resolve(tm.functions.objectdata[mfunc].Ident).LLVMValue()
			ifn = llvm.ConstExtractValue(ifn, []uint32{0})
			ifn = llvm.ConstPtrToInt(ifn, tm.target.IntPtrType())
		}

		method = llvm.ConstInsertValue(method, ifn, []uint32{4})
		method = llvm.ConstInsertValue(method, tfn, []uint32{5})
		methods[i] = method
	}
	methodsSliceType := tm.runtimeUncommonType.StructElementTypes()[2]
	methodsSlice := tm.makeSlice(methods, methodsSliceType)
	uncommonTypeInit = llvm.ConstInsertValue(uncommonTypeInit, methodsSlice, []uint32{2})
	return uncommonTypeInit
}
Exemplo n.º 4
0
func (tm *TypeMap) nameRuntimeType(n *types.Named) (global, ptr llvm.Value) {
	name := typeString(n)
	path := "runtime"
	if pkg := n.Obj().Pkg(); pkg != nil {
		path = pkg.Path()
	}
	if path != tm.pkgpath {
		// We're not compiling the package from whence the type came,
		// so we'll just create a pointer to it here.
		global := llvm.AddGlobal(tm.module, tm.runtime.rtype.llvm, typeSymbol(name))
		global.SetInitializer(llvm.ConstNull(tm.runtime.rtype.llvm))
		global.SetLinkage(llvm.CommonLinkage)
		return global, global
	}

	// If the underlying type is Basic, then we always create
	// a new global. Otherwise, we clone the value returned
	// from toRuntime in case it is cached and reused.
	underlying := n.Underlying()
	if basic, ok := underlying.(*types.Basic); ok {
		global, ptr = tm.basicRuntimeType(basic, true)
		global.SetName(typeSymbol(name))
	} else {
		global, ptr = tm.toRuntime(underlying)
		clone := llvm.AddGlobal(tm.module, global.Type().ElementType(), typeSymbol(name))
		clone.SetInitializer(global.Initializer())
		global = clone
		ptr = llvm.ConstBitCast(global, llvm.PointerType(tm.runtime.rtype.llvm, 0))
	}
	global.SetLinkage(llvm.ExternalLinkage)

	// Locate the rtype.
	underlyingRuntimeType := global.Initializer()
	rtype := underlyingRuntimeType
	if rtype.Type() != tm.runtime.rtype.llvm {
		rtype = llvm.ConstExtractValue(rtype, []uint32{0})
	}

	// Insert the uncommon type.
	uncommonTypeInit := tm.uncommonType(n, nil)
	uncommonType := llvm.AddGlobal(tm.module, uncommonTypeInit.Type(), "")
	uncommonType.SetInitializer(uncommonTypeInit)
	rtype = llvm.ConstInsertValue(rtype, uncommonType, []uint32{9})

	// Replace the rtype's string representation with the one from
	// uncommonType. XXX should we have the package name prepended? Probably.
	namePtr := llvm.ConstExtractValue(uncommonTypeInit, []uint32{0})
	rtype = llvm.ConstInsertValue(rtype, namePtr, []uint32{8})

	// Update the global's initialiser. Note that we take a copy
	// of the underlying type; we're not updating a shared type.
	if underlyingRuntimeType.Type() != tm.runtime.rtype.llvm {
		underlyingRuntimeType = llvm.ConstInsertValue(underlyingRuntimeType, rtype, []uint32{0})
	} else {
		underlyingRuntimeType = rtype
	}
	global.SetInitializer(underlyingRuntimeType)
	return global, ptr
}
Exemplo n.º 5
0
func (tm *TypeMap) nameRuntimeType(n *types.Named) (global, ptr llvm.Value) {
	var path string
	if data, ok := tm.functions.objectdata[n.Obj()]; ok {
		path = pkgpath(data.Package)
	}
	if path == "" {
		// Set to "runtime", so the builtin types have a home.
		path = "runtime"
	}
	globalname := "__llgo.type." + path + "." + n.Obj().Name()
	if path != tm.pkgpath {
		// We're not compiling the package from whence the type came,
		// so we'll just create a pointer to it here.
		global := llvm.AddGlobal(tm.module, tm.runtimeType, globalname)
		global.SetInitializer(llvm.ConstNull(tm.runtimeType))
		global.SetLinkage(llvm.CommonLinkage)
		return global, global
	}

	underlying := n.Underlying()
	if name, ok := underlying.(*types.Named); ok {
		underlying = name.Underlying()
	}

	global, ptr = tm.toRuntime(underlying)

	// Locate the rtype.
	underlyingRuntimeType := global.Initializer()
	rtype := underlyingRuntimeType
	if rtype.Type() != tm.runtimeType {
		rtype = llvm.ConstExtractValue(rtype, []uint32{0})
	}

	// Insert the uncommon type.
	uncommonTypeInit := tm.uncommonType(n, false)
	uncommonType := llvm.AddGlobal(tm.module, uncommonTypeInit.Type(), "")
	uncommonType.SetInitializer(uncommonTypeInit)
	rtype = llvm.ConstInsertValue(rtype, uncommonType, []uint32{9})

	// Replace the rtype's string representation with the one from
	// uncommonType. XXX should we have the package name prepended? Probably.
	namePtr := llvm.ConstExtractValue(uncommonTypeInit, []uint32{0})
	rtype = llvm.ConstInsertValue(rtype, namePtr, []uint32{8})

	// Update the global's initialiser. Note that we take a copy
	// of the underlying type; we're not updating a shared type.
	if underlyingRuntimeType.Type() != tm.runtimeType {
		underlyingRuntimeType = llvm.ConstInsertValue(underlyingRuntimeType, rtype, []uint32{0})
	} else {
		underlyingRuntimeType = rtype
	}
	global.SetName(globalname)
	global.SetInitializer(underlyingRuntimeType)
	return global, ptr
}
Exemplo n.º 6
0
func (tm *TypeMap) pointerRuntimeType(p *types.Pointer) (global, ptr llvm.Value) {
	// Is the base type a named type from another package? If so, we'll
	// create a reference to the externally defined symbol.
	var globalname string
	if n, ok := p.Base.(*types.Name); ok {
		pkgpath := n.Package
		if pkgpath == "" {
			pkgpath = "runtime"
		}
		globalname = "__llgo.type.*" + n.String()
		if pkgpath != tm.pkgpath {
			global := llvm.AddGlobal(tm.module, tm.runtimeType, globalname)
			global.SetInitializer(llvm.ConstNull(tm.runtimeType))
			global.SetLinkage(llvm.CommonLinkage)
			return global, global
		}
	}

	commonType := tm.makeCommonType(p, reflect.Ptr)
	if n, ok := p.Base.(*types.Name); ok {
		uncommonTypeInit := tm.uncommonType(n, true)
		uncommonType := llvm.AddGlobal(tm.module, uncommonTypeInit.Type(), "")
		uncommonType.SetInitializer(uncommonTypeInit)
		commonType = llvm.ConstInsertValue(commonType, uncommonType, []uint32{9})
	}

	baseTypeGlobal, baseTypePtr := tm.toRuntime(p.Base)
	ptrType := llvm.ConstNull(tm.runtimePtrType)
	ptrType = llvm.ConstInsertValue(ptrType, commonType, []uint32{0})
	ptrType = llvm.ConstInsertValue(ptrType, baseTypePtr, []uint32{1})
	global, ptr = tm.makeRuntimeTypeGlobal(ptrType)
	global.SetName(globalname)

	// Set ptrToThis in the base type's commonType.
	baseRuntimeType := baseTypeGlobal.Initializer()
	baseType := llvm.ConstExtractValue(baseRuntimeType, []uint32{1})
	if baseType.Type() == tm.runtimeCommonType {
		baseType = llvm.ConstInsertValue(baseType, ptr, []uint32{10})
	} else {
		commonType := llvm.ConstExtractValue(baseType, []uint32{0})
		commonType = llvm.ConstInsertValue(commonType, ptr, []uint32{10})
		baseType = llvm.ConstInsertValue(baseType, commonType, []uint32{0})
	}
	baseRuntimeType = llvm.ConstInsertValue(baseRuntimeType, baseType, []uint32{1})
	baseTypeGlobal.SetInitializer(baseRuntimeType)

	return global, ptr
}
Exemplo n.º 7
0
func (c *compiler) VisitFuncDecl(f *ast.FuncDecl) Value {
	fn := c.Resolve(f.Name).(*LLVMValue)
	attributes := parseAttributes(f.Doc)
	for _, attr := range attributes {
		attr.Apply(fn)
	}
	if f.Body == nil {
		return fn
	}

	var paramVars []*types.Var
	ftyp := fn.Type().(*types.Signature)
	if recv := ftyp.Recv(); recv != nil {
		paramVars = append(paramVars, recv)
	}
	if ftyp.Params != nil {
		ftyp.Params().ForEach(func(p *types.Var) {
			paramVars = append(paramVars, p)
		})
	}
	paramVarsTuple := types.NewTuple(paramVars...)
	c.buildFunction(fn, nil, paramVarsTuple, ftyp.Results(), f.Body, ftyp.IsVariadic())

	if f.Recv == nil && f.Name.Name == "init" {
		// Is it an 'init' function? Then record it.
		fnptr := llvm.ConstExtractValue(fn.value, []uint32{0})
		c.initfuncs = append(c.initfuncs, fnptr)
	}
	return fn
}
Exemplo n.º 8
0
func (a llvmAttribute) Apply(v Value) {
	if _, isfunc := v.Type().(*types.Signature); isfunc {
		fn := v.LLVMValue()
		fn = llvm.ConstExtractValue(fn, []uint32{0})
		fn.AddFunctionAttr(llvm.Attribute(a))
	} else {
		v.LLVMValue().AddAttribute(llvm.Attribute(a))
	}
}
Exemplo n.º 9
0
func (a nameAttribute) Apply(v Value) {
	if _, isfunc := v.Type().(*types.Signature); isfunc {
		fn := v.LLVMValue()
		fn = llvm.ConstExtractValue(fn, []uint32{0})
		fn.SetName(string(a))
	} else {
		global := v.(*LLVMValue).pointer.value
		global.SetName(string(a))
	}
}
Exemplo n.º 10
0
func (c *compiler) createFunctionMetadata(f *ast.FuncDecl, fn *LLVMValue) llvm.DebugDescriptor {
	if len(c.debug_context) == 0 {
		return nil
	}

	file := c.fileset.File(f.Pos())
	fnptr := fn.value
	fun := fnptr.IsAFunction()
	if fun.IsNil() {
		fnptr = llvm.ConstExtractValue(fn.value, []uint32{0})
	}
	meta := &llvm.SubprogramDescriptor{
		Name:        fnptr.Name(),
		DisplayName: f.Name.Name,
		Path:        llvm.FileDescriptor(file.Name()),
		Line:        uint32(file.Line(f.Pos())),
		ScopeLine:   uint32(file.Line(f.Body.Pos())),
		Context:     &llvm.ContextDescriptor{llvm.FileDescriptor(file.Name())},
		Function:    fnptr}

	var result types.Type
	var metaparams []llvm.DebugDescriptor
	if ftyp, ok := fn.Type().(*types.Signature); ok {
		if recv := ftyp.Recv(); recv != nil {
			metaparams = append(metaparams, c.tollvmDebugDescriptor(recv.Type()))
		}
		if ftyp.Params() != nil {
			for i := 0; i < ftyp.Params().Len(); i++ {
				p := ftyp.Params().At(i)
				metaparams = append(metaparams, c.tollvmDebugDescriptor(p.Type()))
			}
		}
		if ftyp.Results() != nil {
			result = ftyp.Results().At(0).Type()
			// TODO: what to do with multiple returns?
			for i := 1; i < ftyp.Results().Len(); i++ {
				p := ftyp.Results().At(i)
				metaparams = append(metaparams, c.tollvmDebugDescriptor(p.Type()))
			}
		}
	}

	meta.Type = llvm.NewSubroutineCompositeType(
		c.tollvmDebugDescriptor(result),
		metaparams,
	)

	// compile unit is the first context object pushed
	compileUnit := c.debug_context[0].(*llvm.CompileUnitDescriptor)
	compileUnit.Subprograms = append(compileUnit.Subprograms, meta)
	return meta
}
Exemplo n.º 11
0
func (c *FunctionCache) NamedFunction(name string, signature string) llvm.Value {
	f, _ := c.functions[name+":"+signature]
	if !f.IsNil() {
		return f
	}

	if strings.HasPrefix(name, c.module.Name+".") {
		obj := c.pkg.Scope().Lookup(name[len(c.module.Name)+1:])
		if obj == nil {
			panic("Missing function: " + name)
		}
		value := c.Resolve(c.objectdata[obj].Ident)
		f = llvm.ConstExtractValue(value.LLVMValue(), []uint32{0})
	} else {
		fset := token.NewFileSet()
		code := `package runtime;import("unsafe");` + signature + `{panic("")}`
		file, err := parser.ParseFile(fset, "", code, 0)
		if err != nil {
			panic(err)
		}

		// Parse the runtime package, since we may need to refer to
		// its types. Can't be cached, because type-checking can't
		// be done twice on the AST.
		buildpkg, err := build.Import("github.com/axw/llgo/pkg/runtime", "", 0)
		if err != nil {
			panic(err)
		}

		// All types visible to the compiler are in "types.go".
		runtimefiles := []string{path.Join(buildpkg.Dir, "types.go")}

		files, err := parseFiles(fset, runtimefiles)
		if err != nil {
			panic(err)
		}
		files = append(files, file)
		_, _, err = c.typecheck("runtime", fset, files)
		if err != nil {
			panic(err)
		}

		fdecl := file.Decls[len(file.Decls)-1].(*ast.FuncDecl)
		ftype := c.objects[fdecl.Name].Type().(*types.Signature)
		llvmfntyp := c.types.ToLLVM(ftype).StructElementTypes()[0].ElementType()
		f = llvm.AddFunction(c.module.Module, name, llvmfntyp)
	}
	c.functions[name+":"+signature] = f
	return f
}
Exemplo n.º 12
0
func (c *FunctionCache) NamedFunction(name string, signature string) llvm.Value {
	f, _ := c.functions[name+":"+signature]
	if !f.IsNil() {
		return f
	}

	if strings.HasPrefix(name, c.module.Name+".") {
		obj := c.pkg.Scope().Lookup(name[len(c.module.Name)+1:])
		if obj == nil {
			panic("Missing function: " + name)
		}
		value := c.Resolve(c.objectdata[obj].Ident)
		f = llvm.ConstExtractValue(value.LLVMValue(), []uint32{0})
	} else {
		if c.runtimetypespkg == nil {
			// Parse the runtime package, since we may need to refer to
			// its types.
			buildpkg, err := build.Import("github.com/axw/llgo/pkg/runtime", "", 0)
			if err != nil {
				panic(err)
			}

			// All types visible to the compiler are in "types.go".
			runtimefiles := []string{path.Join(buildpkg.Dir, "types.go")}

			fset := token.NewFileSet()
			files, err := parseFiles(fset, runtimefiles)
			if err != nil {
				panic(err)
			}
			c.runtimetypespkg, err = c.typecheck("runtime", fset, files)
			if err != nil {
				panic(err)
			}
		}

		pkg := c.runtimetypespkg
		scope := pkg.Scope().Child(0)
		ftype, _, err := types.Eval(signature+"{panic()}", pkg, scope)
		if err != nil {
			panic(err)
		}
		llvmfntyp := c.types.ToLLVM(ftype).StructElementTypes()[0].ElementType()
		f = llvm.AddFunction(c.module.Module, name, llvmfntyp)
	}
	c.functions[name+":"+signature] = f
	return f
}
Exemplo n.º 13
0
func (tm *TypeMap) makeRuntimeTypeGlobal(v llvm.Value) (global, ptr llvm.Value) {
	// Each runtime type is preceded by an interface{}.
	initType := llvm.StructType([]llvm.Type{tm.runtimeType, v.Type()}, false)
	global = llvm.AddGlobal(tm.module, initType, "")
	ptr = llvm.ConstBitCast(global, llvm.PointerType(tm.runtimeType, 0))

	// interface{} containing v's *commonType representation.
	runtimeTypeValue := llvm.Undef(tm.runtimeType)
	zero := llvm.ConstNull(llvm.Int32Type())
	one := llvm.ConstInt(llvm.Int32Type(), 1, false)
	i8ptr := llvm.PointerType(llvm.Int8Type(), 0)
	if tm.commonTypePtrRuntimeType.IsNil() {
		// Create a dummy pointer value, which we'll update straight after
		// defining the runtime type info for commonType.
		tm.commonTypePtrRuntimeType = llvm.Undef(i8ptr)
		commonTypePtr := &types.Pointer{Base: tm.commonType}
		commonTypeGlobal, commonTypeRuntimeType := tm.makeRuntimeType(tm.commonType)
		tm.types[tm.commonType.String()] = runtimeTypeInfo{commonTypeGlobal, commonTypeRuntimeType}
		commonTypePtrGlobal, commonTypePtrRuntimeType := tm.makeRuntimeType(commonTypePtr)
		tm.types[commonTypePtr.String()] = runtimeTypeInfo{commonTypePtrGlobal, commonTypePtrRuntimeType}
		tm.commonTypePtrRuntimeType = llvm.ConstBitCast(commonTypePtrRuntimeType, i8ptr)
		if tm.pkgpath == tm.commonType.Package {
			// Update the interace{} header of the commonType/*commonType
			// runtime types we just created.
			for _, g := range [...]llvm.Value{commonTypeGlobal, commonTypePtrGlobal} {
				init := g.Initializer()
				typptr := tm.commonTypePtrRuntimeType
				runtimeTypeValue := llvm.ConstExtractValue(init, []uint32{0})
				runtimeTypeValue = llvm.ConstInsertValue(runtimeTypeValue, typptr, []uint32{0})
				init = llvm.ConstInsertValue(init, runtimeTypeValue, []uint32{0})
				g.SetInitializer(init)
			}
		}
	}
	commonTypePtr := llvm.ConstGEP(global, []llvm.Value{zero, one})
	commonTypePtr = llvm.ConstBitCast(commonTypePtr, i8ptr)
	runtimeTypeValue = llvm.ConstInsertValue(runtimeTypeValue, tm.commonTypePtrRuntimeType, []uint32{0})
	runtimeTypeValue = llvm.ConstInsertValue(runtimeTypeValue, commonTypePtr, []uint32{1})

	init := llvm.Undef(initType)
	init = llvm.ConstInsertValue(init, runtimeTypeValue, []uint32{0})
	init = llvm.ConstInsertValue(init, v, []uint32{1})
	global.SetInitializer(init)

	return global, ptr
}
Exemplo n.º 14
0
func (a nameAttribute) Apply(v Value) {
	if _, isfunc := v.Type().(*types.Signature); isfunc {
		fn := v.LLVMValue()
		fn = llvm.ConstExtractValue(fn, []uint32{0})
		name := string(a)
		curr := fn.GlobalParent().NamedFunction(name)
		if !curr.IsNil() && curr != fn {
			if curr.BasicBlocksCount() != 0 {
				panic(fmt.Errorf("Want to take the name %s from a function that has a body!", name))
			}
			curr.SetName(name + "_llgo_replaced")
			curr.ReplaceAllUsesWith(fn)
		}
		fn.SetName(name)
	} else {
		global := v.(*LLVMValue).pointer.value
		global.SetName(string(a))
	}
}
Exemplo n.º 15
0
func (tm *TypeMap) makeRuntimeTypeGlobal(v llvm.Value) (global, ptr llvm.Value) {
	runtimeTypeValue := llvm.ConstNull(tm.runtimeType)
	initType := llvm.StructType([]llvm.Type{tm.runtimeType, v.Type()}, false)
	global = llvm.AddGlobal(tm.module, initType, "")
	ptr = llvm.ConstBitCast(global, llvm.PointerType(tm.runtimeType, 0))

	// Set ptrToThis in v's commonType.
	if v.Type() == tm.runtimeCommonType {
		v = llvm.ConstInsertValue(v, ptr, []uint32{9})
	} else {
		commonType := llvm.ConstExtractValue(v, []uint32{0})
		commonType = llvm.ConstInsertValue(commonType, ptr, []uint32{9})
		v = llvm.ConstInsertValue(v, commonType, []uint32{0})
	}

	init := llvm.Undef(initType)
	//runtimeTypeValue = llvm.ConstInsertValue() TODO
	init = llvm.ConstInsertValue(init, runtimeTypeValue, []uint32{0})
	init = llvm.ConstInsertValue(init, v, []uint32{1})
	global.SetInitializer(init)

	return
}
Exemplo n.º 16
0
Arquivo: decl.go Projeto: qioixiy/llgo
func (c *compiler) VisitFuncDecl(f *ast.FuncDecl) Value {
	fn := c.Resolve(f.Name).(*LLVMValue)
	attributes := parseAttributes(f.Doc)
	for _, attr := range attributes {
		attr.Apply(fn)
	}
	if f.Body == nil {
		return fn
	}

	var paramVars []*types.Var
	ftyp := fn.Type().(*types.Signature)
	if recv := ftyp.Recv(); recv != nil {
		paramVars = append(paramVars, recv)
	}
	if ftyp.Params() != nil {
		for i := 0; i < ftyp.Params().Len(); i++ {
			p := ftyp.Params().At(i)
			paramVars = append(paramVars, p)
		}
	}

	c.pushDebugContext(c.createFunctionMetadata(f, fn))
	defer c.popDebugContext()
	c.setDebugLine(f.Pos())

	paramVarsTuple := types.NewTuple(paramVars...)
	c.buildFunction(fn, nil, paramVarsTuple, ftyp.Results(), f.Body)

	if f.Recv == nil && f.Name.Name == "init" {
		// Is it an 'init' function? Then record it.
		fnptr := llvm.ConstExtractValue(fn.value, []uint32{0})
		c.initfuncs = append(c.initfuncs, fnptr)
	}
	return fn
}
Exemplo n.º 17
0
func (tm *TypeMap) pointerRuntimeType(p *types.Pointer) (global, ptr llvm.Value) {
	// Is the base type a named type from another package? If so, we'll
	// create a reference to the externally defined symbol.
	var globalname string
	switch elem := p.Elem().(type) {
	case *types.Basic:
		globalname = "__llgo.type.*runtime." + tm.TypeString(elem)
		if tm.pkgpath != "runtime" {
			global := llvm.AddGlobal(tm.module, tm.runtimeType, globalname)
			global.SetInitializer(llvm.ConstNull(tm.runtimeType))
			global.SetLinkage(llvm.CommonLinkage)
			return global, global
		}
	case *types.Named:
		qname, path := tm.qualifiedName(elem)
		globalname = "__llgo.type.*" + qname
		if path != tm.pkgpath {
			global := llvm.AddGlobal(tm.module, tm.runtimeType, globalname)
			global.SetInitializer(llvm.ConstNull(tm.runtimeType))
			global.SetLinkage(llvm.CommonLinkage)
			return global, global
		} else if !isGlobalObject(elem.Obj()) {
			globalname = ""
		}
	}

	rtype := tm.makeRtype(p, reflect.Ptr)
	if n, ok := p.Elem().(*types.Named); ok {
		uncommonTypeInit := tm.uncommonType(n, true)
		uncommonType := llvm.AddGlobal(tm.module, uncommonTypeInit.Type(), "")
		uncommonType.SetInitializer(uncommonTypeInit)
		rtype = llvm.ConstInsertValue(rtype, uncommonType, []uint32{9})
	}

	ptrType := llvm.ConstNull(tm.runtimePtrType)
	var baseTypeGlobal llvm.Value
	if p.Elem().Underlying() == p {
		// Recursive pointer.
		ptrType = llvm.ConstInsertValue(ptrType, rtype, []uint32{0})
		global, ptr = tm.makeRuntimeTypeGlobal(ptrType)
		baseTypeGlobal = global

		// Update the global with its own pointer in the elem field.
		ptrType = global.Initializer()
		ptrType = llvm.ConstInsertValue(ptrType, ptr, []uint32{1})
		global.SetInitializer(ptrType)
	} else {
		var baseTypePtr llvm.Value
		baseTypeGlobal, baseTypePtr = tm.toRuntime(p.Elem())
		ptrType = llvm.ConstInsertValue(ptrType, rtype, []uint32{0})
		ptrType = llvm.ConstInsertValue(ptrType, baseTypePtr, []uint32{1})
		global, ptr = tm.makeRuntimeTypeGlobal(ptrType)
	}
	global.SetName(globalname)

	// Set ptrToThis in the base type's rtype.
	baseType := baseTypeGlobal.Initializer()
	if baseType.Type() == tm.runtimeType {
		baseType = llvm.ConstInsertValue(baseType, ptr, []uint32{10})
	} else {
		rtype := llvm.ConstExtractValue(baseType, []uint32{0})
		rtype = llvm.ConstInsertValue(rtype, ptr, []uint32{10})
		baseType = llvm.ConstInsertValue(baseType, rtype, []uint32{0})
	}
	baseTypeGlobal.SetInitializer(baseType)

	return global, ptr
}
Exemplo n.º 18
0
func (tm *TypeMap) nameRuntimeType(n *types.Name) (global, ptr llvm.Value) {
	pkgpath := tm.pkgmap[n.Obj]
	if pkgpath == "" {
		// XXX "builtin"?
		pkgpath = "runtime"
	}
	globalname := "__llgo.type.name." + pkgpath + "." + n.Obj.Name
	if pkgpath != tm.pkgpath {
		// We're not compiling the package from whence the type came,
		// so we'll just create a pointer to it here.
		global := llvm.AddGlobal(tm.module, tm.runtimeType, globalname)
		global.SetInitializer(llvm.ConstNull(tm.runtimeType))
		global.SetLinkage(llvm.CommonLinkage)
		return global, global
	}

	underlying := n.Underlying
	if name, ok := underlying.(*types.Name); ok {
		underlying = name.Underlying
	}

	global, ptr = tm.makeRuntimeType(underlying)
	globalInit := global.Initializer()

	// Locate the common type.
	underlyingRuntimeType := llvm.ConstExtractValue(globalInit, []uint32{1})
	commonType := underlyingRuntimeType
	if underlyingRuntimeType.Type() != tm.runtimeCommonType {
		commonType = llvm.ConstExtractValue(commonType, []uint32{0})
	}

	// Insert the uncommon type.
	uncommonTypeInit := llvm.ConstNull(tm.runtimeUncommonType)
	namePtr := tm.globalStringPtr(n.Obj.Name)
	uncommonTypeInit = llvm.ConstInsertValue(uncommonTypeInit, namePtr, []uint32{0})
	pkgpathPtr := tm.globalStringPtr(pkgpath)
	uncommonTypeInit = llvm.ConstInsertValue(uncommonTypeInit, pkgpathPtr, []uint32{1})

	// Replace the commonType's string representation.
	commonType = llvm.ConstInsertValue(commonType, namePtr, []uint32{8})

	methods := make([]llvm.Value, len(n.Methods))
	for index, m := range n.Methods {
		method := llvm.ConstNull(tm.runtimeMethod)
		name := tm.globalStringPtr(m.Name)
		name = llvm.ConstBitCast(name, tm.runtimeMethod.StructElementTypes()[0])
		// name
		method = llvm.ConstInsertValue(method, name, []uint32{0})
		// pkgPath
		method = llvm.ConstInsertValue(method, pkgpathPtr, []uint32{1})
		// mtyp (method type, no receiver)
		ftyp := m.Type.(*types.Func)
		{
			recv := ftyp.Recv
			ftyp.Recv = nil
			mtyp := tm.ToRuntime(ftyp)
			method = llvm.ConstInsertValue(method, mtyp, []uint32{2})
			ftyp.Recv = recv
		}
		// typ (function type, with receiver)
		typ := tm.ToRuntime(ftyp)
		method = llvm.ConstInsertValue(method, typ, []uint32{3})
		// ifn (single-word receiver function pointer for interface calls)
		ifn := tm.resolver.Resolve(m).LLVMValue() // TODO generate trampoline as necessary.
		ifn = llvm.ConstPtrToInt(ifn, tm.target.IntPtrType())
		method = llvm.ConstInsertValue(method, ifn, []uint32{4})
		// tfn (standard method/function pointer for plain method calls)
		tfn := tm.resolver.Resolve(m).LLVMValue()
		tfn = llvm.ConstPtrToInt(tfn, tm.target.IntPtrType())
		method = llvm.ConstInsertValue(method, tfn, []uint32{5})
		methods[index] = method
	}

	var methodsGlobalPtr llvm.Value
	if len(methods) > 0 {
		methodsArray := llvm.ConstArray(tm.runtimeMethod, methods)
		methodsGlobalPtr = llvm.AddGlobal(tm.module, methodsArray.Type(), "")
		methodsGlobalPtr.SetInitializer(methodsArray)
		i32zero := llvm.ConstNull(llvm.Int32Type())
		methodsGlobalPtr = llvm.ConstGEP(methodsGlobalPtr, []llvm.Value{i32zero, i32zero})
	} else {
		methodsGlobalPtr = llvm.ConstNull(llvm.PointerType(tm.runtimeMethod, 0))
	}
	len_ := llvm.ConstInt(llvm.Int32Type(), uint64(len(methods)), false)
	methodsSliceType := tm.runtimeUncommonType.StructElementTypes()[2]
	methodsSlice := llvm.ConstNull(methodsSliceType)
	methodsSlice = llvm.ConstInsertValue(methodsSlice, methodsGlobalPtr, []uint32{0})
	methodsSlice = llvm.ConstInsertValue(methodsSlice, len_, []uint32{1})
	methodsSlice = llvm.ConstInsertValue(methodsSlice, len_, []uint32{2})
	uncommonTypeInit = llvm.ConstInsertValue(uncommonTypeInit, methodsSlice, []uint32{2})

	uncommonType := llvm.AddGlobal(tm.module, uncommonTypeInit.Type(), "")
	uncommonType.SetInitializer(uncommonTypeInit)
	commonType = llvm.ConstInsertValue(commonType, uncommonType, []uint32{9})

	// Update the global's initialiser. Note that we take a copy
	// of the underlying type; we're not updating a shared type.
	if underlyingRuntimeType.Type() != tm.runtimeCommonType {
		underlyingRuntimeType = llvm.ConstInsertValue(underlyingRuntimeType, commonType, []uint32{0})
	} else {
		underlyingRuntimeType = commonType
	}
	globalInit = llvm.ConstInsertValue(globalInit, underlyingRuntimeType, []uint32{1})
	global.SetName(globalname)
	global.SetInitializer(globalInit)
	return global, ptr
}
Exemplo n.º 19
0
func (tm *TypeMap) pointerRuntimeType(p *types.Pointer) (global, ptr llvm.Value) {
	// Is the base type a named type from another package? If so, we'll
	// create a reference to the externally defined symbol.
	linkage := llvm.LinkOnceAnyLinkage
	switch elem := p.Elem().(type) {
	case *types.Basic:
		if tm.pkgpath != "runtime" {
			global := llvm.AddGlobal(tm.module, tm.runtime.rtype.llvm, typeSymbol(typeString(p)))
			global.SetInitializer(llvm.ConstNull(tm.runtime.rtype.llvm))
			global.SetLinkage(llvm.CommonLinkage)
			return global, global
		}
		linkage = llvm.ExternalLinkage
	case *types.Named:
		path := "runtime"
		if pkg := elem.Obj().Pkg(); pkg != nil {
			path = pkg.Path()
		}
		if path != tm.pkgpath {
			global := llvm.AddGlobal(tm.module, tm.runtime.rtype.llvm, typeSymbol(typeString(p)))
			global.SetInitializer(llvm.ConstNull(tm.runtime.rtype.llvm))
			global.SetLinkage(llvm.CommonLinkage)
			return global, global
		}
		linkage = llvm.ExternalLinkage
	}

	rtype := tm.makeRtype(p, reflect.Ptr)
	if n, ok := p.Elem().(*types.Named); ok {
		uncommonTypeInit := tm.uncommonType(n, p)
		uncommonType := llvm.AddGlobal(tm.module, uncommonTypeInit.Type(), "")
		uncommonType.SetInitializer(uncommonTypeInit)
		rtype = llvm.ConstInsertValue(rtype, uncommonType, []uint32{9})
	}

	ptrType := llvm.ConstNull(tm.runtime.ptrType.llvm)
	var baseTypeGlobal llvm.Value
	if p.Elem().Underlying() == p {
		// Recursive pointer.
		ptrType = llvm.ConstInsertValue(ptrType, rtype, []uint32{0})
		global, ptr = tm.makeRuntimeTypeGlobal(ptrType, typeString(p))
		baseTypeGlobal = global
		// Update the global with its own pointer in the elem field.
		ptrType = global.Initializer()
		ptrType = llvm.ConstInsertValue(ptrType, ptr, []uint32{1})
		global.SetInitializer(ptrType)
	} else {
		var baseTypePtr llvm.Value
		baseTypeGlobal, baseTypePtr = tm.toRuntime(p.Elem())
		ptrType = llvm.ConstInsertValue(ptrType, rtype, []uint32{0})
		ptrType = llvm.ConstInsertValue(ptrType, baseTypePtr, []uint32{1})
		global, ptr = tm.makeRuntimeTypeGlobal(ptrType, typeString(p))
	}
	global.SetLinkage(linkage)

	// Set ptrToThis in the base type's rtype.
	baseType := baseTypeGlobal.Initializer()
	if !baseType.IsNull() {
		if baseType.Type() == tm.runtime.rtype.llvm {
			baseType = llvm.ConstInsertValue(baseType, ptr, []uint32{10})
		} else {
			rtype := llvm.ConstExtractValue(baseType, []uint32{0})
			rtype = llvm.ConstInsertValue(rtype, ptr, []uint32{10})
			baseType = llvm.ConstInsertValue(baseType, rtype, []uint32{0})
		}
		baseTypeGlobal.SetInitializer(baseType)
	}
	return global, ptr
}
Exemplo n.º 20
0
// indirectFunction creates an indirect function from a
// given function and arguments, suitable for use with
// "defer" and "go".
func (c *compiler) indirectFunction(fn *LLVMValue, args []*LLVMValue) *LLVMValue {
	nilarytyp := types.NewSignature(nil, nil, nil, nil, false)
	if len(args) == 0 {
		val := fn.LLVMValue()
		ptr := c.builder.CreateExtractValue(val, 0, "")
		ctx := c.builder.CreateExtractValue(val, 1, "")
		fnval := llvm.Undef(c.types.ToLLVM(nilarytyp))
		ptr = c.builder.CreateBitCast(ptr, fnval.Type().StructElementTypes()[0], "")
		ctx = c.builder.CreateBitCast(ctx, fnval.Type().StructElementTypes()[1], "")
		fnval = c.builder.CreateInsertValue(fnval, ptr, 0, "")
		fnval = c.builder.CreateInsertValue(fnval, ctx, 1, "")
		return c.NewValue(fnval, nilarytyp)
	}

	// Check if function pointer or context pointer is global/null.
	fnval := fn.LLVMValue()
	fnptr := fnval
	var nctx int
	var fnctx llvm.Value
	var fnctxindex uint64
	var globalfn bool
	if fnptr.Type().TypeKind() == llvm.StructTypeKind {
		fnptr = c.builder.CreateExtractValue(fnval, 0, "")
		fnctx = c.builder.CreateExtractValue(fnval, 1, "")
		globalfn = !fnptr.IsAFunction().IsNil()
		if !globalfn {
			nctx++
		}
		if !fnctx.IsNull() {
			fnctxindex = uint64(nctx)
			nctx++
		}
	} else {
		// We've got a raw global function pointer. Convert to <ptr,ctx>.
		fnval = llvm.ConstNull(c.types.ToLLVM(fn.Type()))
		fnval = llvm.ConstInsertValue(fnval, fnptr, []uint32{0})
		fn = c.NewValue(fnval, fn.Type())
		fnctx = llvm.ConstExtractValue(fnval, []uint32{1})
		globalfn = true
	}

	i8ptr := llvm.PointerType(llvm.Int8Type(), 0)
	llvmargs := make([]llvm.Value, len(args)+nctx)
	llvmargtypes := make([]llvm.Type, len(args)+nctx)
	for i, arg := range args {
		llvmargs[i+nctx] = arg.LLVMValue()
		llvmargtypes[i+nctx] = llvmargs[i+nctx].Type()
	}
	if !globalfn {
		llvmargtypes[0] = fnptr.Type()
		llvmargs[0] = fnptr
	}
	if !fnctx.IsNull() {
		llvmargtypes[fnctxindex] = fnctx.Type()
		llvmargs[fnctxindex] = fnctx
	}

	// TODO(axw) investigate an option for go statements
	// to allocate argument structure on the stack in the
	// initiator, and block until the spawned goroutine
	// has loaded the arguments from it.
	structtyp := llvm.StructType(llvmargtypes, false)
	argstruct := c.createTypeMalloc(structtyp)
	for i, llvmarg := range llvmargs {
		argptr := c.builder.CreateGEP(argstruct, []llvm.Value{
			llvm.ConstInt(llvm.Int32Type(), 0, false),
			llvm.ConstInt(llvm.Int32Type(), uint64(i), false)}, "")
		c.builder.CreateStore(llvmarg, argptr)
	}

	// Create a function that will take a pointer to a structure of the type
	// defined above, or no parameters if there are none to pass.
	fntype := llvm.FunctionType(llvm.VoidType(), []llvm.Type{argstruct.Type()}, false)
	indirectfn := llvm.AddFunction(c.module.Module, "", fntype)
	i8argstruct := c.builder.CreateBitCast(argstruct, i8ptr, "")
	currblock := c.builder.GetInsertBlock()
	c.builder.SetInsertPointAtEnd(llvm.AddBasicBlock(indirectfn, "entry"))
	argstruct = indirectfn.Param(0)
	newargs := make([]*LLVMValue, len(args))
	for i := range llvmargs[nctx:] {
		argptr := c.builder.CreateGEP(argstruct, []llvm.Value{
			llvm.ConstInt(llvm.Int32Type(), 0, false),
			llvm.ConstInt(llvm.Int32Type(), uint64(i+nctx), false)}, "")
		newargs[i] = c.NewValue(c.builder.CreateLoad(argptr, ""), args[i].Type())
	}

	// Unless we've got a global function, extract the
	// function pointer from the context.
	if !globalfn {
		fnval = llvm.Undef(fnval.Type())
		fnptrptr := c.builder.CreateGEP(argstruct, []llvm.Value{
			llvm.ConstInt(llvm.Int32Type(), 0, false),
			llvm.ConstInt(llvm.Int32Type(), 0, false)}, "")
		fnptr = c.builder.CreateLoad(fnptrptr, "")
		fnval = c.builder.CreateInsertValue(fnval, fnptr, 0, "")
	}
	if !fnctx.IsNull() {
		fnctxptr := c.builder.CreateGEP(argstruct, []llvm.Value{
			llvm.ConstInt(llvm.Int32Type(), 0, false),
			llvm.ConstInt(llvm.Int32Type(), fnctxindex, false)}, "")
		fnctx = c.builder.CreateLoad(fnctxptr, "")
		fnval = c.builder.CreateInsertValue(fnval, fnctx, 1, "")
		fn = c.NewValue(fnval, fn.Type())
	}
	c.createCall(fn, newargs)

	// Indirect function calls' return values are always ignored.
	c.builder.CreateRetVoid()
	c.builder.SetInsertPointAtEnd(currblock)

	fnval = llvm.Undef(c.types.ToLLVM(nilarytyp))
	indirectfn = c.builder.CreateBitCast(indirectfn, fnval.Type().StructElementTypes()[0], "")
	fnval = c.builder.CreateInsertValue(fnval, indirectfn, 0, "")
	fnval = c.builder.CreateInsertValue(fnval, i8argstruct, 1, "")
	fn = c.NewValue(fnval, nilarytyp)
	return fn
}
Exemplo n.º 21
0
func (tm *TypeMap) uncommonType(n *types.Named, ptr bool) llvm.Value {
	uncommonTypeInit := llvm.ConstNull(tm.runtimeUncommonType)
	namePtr := tm.globalStringPtr(n.Obj().Name())
	uncommonTypeInit = llvm.ConstInsertValue(uncommonTypeInit, namePtr, []uint32{0})

	// FIXME clean this up
	var pkgpathPtr llvm.Value
	var path string
	if data, ok := tm.functions.objectdata[n.Obj()]; ok {
		path = pkgpath(data.Package)
	}
	if path != "" {
		pkgpathPtr = tm.globalStringPtr(path)
		uncommonTypeInit = llvm.ConstInsertValue(uncommonTypeInit, pkgpathPtr, []uint32{1})
	}

	methodset := tm.functions.methods(n)
	methodfuncs := methodset.nonptr
	if ptr {
		methodfuncs = methodset.ptr
	}

	// Store methods.
	methods := make([]llvm.Value, len(methodfuncs))
	for i, mfunc := range methodfuncs {
		ftyp := mfunc.Type().(*types.Signature)

		method := llvm.ConstNull(tm.runtimeMethod)
		name := tm.globalStringPtr(mfunc.Name())
		name = llvm.ConstBitCast(name, tm.runtimeMethod.StructElementTypes()[0])
		// name
		method = llvm.ConstInsertValue(method, name, []uint32{0})
		// pkgPath
		method = llvm.ConstInsertValue(method, pkgpathPtr, []uint32{1})
		// mtyp (method type, no receiver)
		{
			ftyp := types.NewSignature(nil, ftyp.Params(), ftyp.Results(), ftyp.IsVariadic())
			mtyp := tm.ToRuntime(ftyp)
			method = llvm.ConstInsertValue(method, mtyp, []uint32{2})
		}
		// typ (function type, with receiver)
		typ := tm.ToRuntime(ftyp)
		method = llvm.ConstInsertValue(method, typ, []uint32{3})

		// tfn (standard method/function pointer for plain method calls)
		tfn := tm.resolver.Resolve(tm.functions.objectdata[mfunc].Ident).LLVMValue()
		tfn = llvm.ConstExtractValue(tfn, []uint32{0})
		tfn = llvm.ConstPtrToInt(tfn, tm.target.IntPtrType())

		// ifn (single-word receiver function pointer for interface calls)
		ifn := tfn
		if !ptr && tm.Sizeof(ftyp.Recv().Type()) > int64(tm.target.PointerSize()) {
			mfunc := methodset.lookup(mfunc.Name(), true)
			ifn = tm.resolver.Resolve(tm.functions.objectdata[mfunc].Ident).LLVMValue()
			ifn = llvm.ConstExtractValue(ifn, []uint32{0})
			ifn = llvm.ConstPtrToInt(ifn, tm.target.IntPtrType())
		}

		method = llvm.ConstInsertValue(method, ifn, []uint32{4})
		method = llvm.ConstInsertValue(method, tfn, []uint32{5})
		methods[i] = method
	}

	var methodsGlobalPtr llvm.Value
	if len(methods) > 0 {
		methodsArray := llvm.ConstArray(tm.runtimeMethod, methods)
		methodsGlobalPtr = llvm.AddGlobal(tm.module, methodsArray.Type(), "")
		methodsGlobalPtr.SetInitializer(methodsArray)
		i32zero := llvm.ConstNull(llvm.Int32Type())
		methodsGlobalPtr = llvm.ConstGEP(methodsGlobalPtr, []llvm.Value{i32zero, i32zero})
	} else {
		methodsGlobalPtr = llvm.ConstNull(llvm.PointerType(tm.runtimeMethod, 0))
	}
	len_ := llvm.ConstInt(tm.inttype, uint64(len(methods)), false)
	methodsSliceType := tm.runtimeUncommonType.StructElementTypes()[2]
	methodsSlice := llvm.ConstNull(methodsSliceType)
	methodsSlice = llvm.ConstInsertValue(methodsSlice, methodsGlobalPtr, []uint32{0})
	methodsSlice = llvm.ConstInsertValue(methodsSlice, len_, []uint32{1})
	methodsSlice = llvm.ConstInsertValue(methodsSlice, len_, []uint32{2})
	uncommonTypeInit = llvm.ConstInsertValue(uncommonTypeInit, methodsSlice, []uint32{2})
	return uncommonTypeInit
}
Exemplo n.º 22
0
func (tm *TypeMap) pointerRuntimeType(p *types.Pointer) (global, ptr llvm.Value) {
	// Is the base type a named type from another package? If so, we'll
	// create a reference to the externally defined symbol.
	var globalname string
	if n, ok := p.Elem().(*types.Named); ok {
		// FIXME horrible circular relationship
		var path string
		if data, ok := tm.functions.objectdata[n.Obj()]; ok {
			path = pkgpath(data.Package)
		}
		if path == "" {
			path = "runtime"
		}
		globalname = "__llgo.type.*" + path + "." + n.Obj().Name()
		if path != tm.pkgpath {
			global := llvm.AddGlobal(tm.module, tm.runtimeType, globalname)
			global.SetInitializer(llvm.ConstNull(tm.runtimeType))
			global.SetLinkage(llvm.CommonLinkage)
			return global, global
		}
	}

	rtype := tm.makeRtype(p, reflect.Ptr)
	if n, ok := p.Elem().(*types.Named); ok {
		uncommonTypeInit := tm.uncommonType(n, true)
		uncommonType := llvm.AddGlobal(tm.module, uncommonTypeInit.Type(), "")
		uncommonType.SetInitializer(uncommonTypeInit)
		rtype = llvm.ConstInsertValue(rtype, uncommonType, []uint32{9})
	}

	ptrType := llvm.ConstNull(tm.runtimePtrType)
	var baseTypeGlobal llvm.Value
	if p.Elem().Underlying() == p {
		// Recursive pointer.
		ptrType = llvm.ConstInsertValue(ptrType, rtype, []uint32{0})
		global, ptr = tm.makeRuntimeTypeGlobal(ptrType)
		baseTypeGlobal = global

		// Update the global with its own pointer in the elem field.
		ptrType = global.Initializer()
		ptrType = llvm.ConstInsertValue(ptrType, ptr, []uint32{1})
		global.SetInitializer(ptrType)
	} else {
		var baseTypePtr llvm.Value
		baseTypeGlobal, baseTypePtr = tm.toRuntime(p.Elem())
		ptrType = llvm.ConstInsertValue(ptrType, rtype, []uint32{0})
		ptrType = llvm.ConstInsertValue(ptrType, baseTypePtr, []uint32{1})
		global, ptr = tm.makeRuntimeTypeGlobal(ptrType)
	}
	global.SetName(globalname)

	// Set ptrToThis in the base type's rtype.
	baseType := baseTypeGlobal.Initializer()
	if baseType.Type() == tm.runtimeType {
		baseType = llvm.ConstInsertValue(baseType, ptr, []uint32{10})
	} else {
		rtype := llvm.ConstExtractValue(baseType, []uint32{0})
		rtype = llvm.ConstInsertValue(rtype, ptr, []uint32{10})
		baseType = llvm.ConstInsertValue(baseType, rtype, []uint32{0})
	}
	baseTypeGlobal.SetInitializer(baseType)

	return global, ptr
}
Exemplo n.º 23
0
Arquivo: decl.go Projeto: qioixiy/llgo
// buildFunction takes a function Value, a list of parameters, and a body,
// and generates code for the function.
func (c *compiler) buildFunction(f *LLVMValue, context, params, results *types.Tuple, body *ast.BlockStmt) {
	if currblock := c.builder.GetInsertBlock(); !currblock.IsNil() {
		defer c.builder.SetInsertPointAtEnd(currblock)
	}
	llvm_fn := llvm.ConstExtractValue(f.LLVMValue(), []uint32{0})
	entry := llvm.AddBasicBlock(llvm_fn, "entry")
	c.builder.SetInsertPointAtEnd(entry)

	// For closures, context is the captured context values.
	var paramoffset int
	if context != nil {
		paramoffset++

		// Store the existing values. We're going to temporarily
		// replace the values with offsets into the context param.
		oldvalues := make([]*LLVMValue, context.Len())
		for i := range oldvalues {
			v := context.At(i)
			oldvalues[i] = c.objectdata[v].Value
		}
		defer func() {
			for i := range oldvalues {
				v := context.At(i)
				c.objectdata[v].Value = oldvalues[i]
			}
		}()

		// The context parameter is a pointer to a struct
		// whose elements are pointers to captured values.
		arg0 := llvm_fn.Param(0)
		for i := range oldvalues {
			v := context.At(i)
			argptr := c.builder.CreateStructGEP(arg0, i, "")
			argptr = c.builder.CreateLoad(argptr, "")
			ptrtyp := oldvalues[i].pointer.Type()
			newvalue := c.NewValue(argptr, ptrtyp)
			c.objectdata[v].Value = newvalue.makePointee()
		}
	}

	// Bind receiver, arguments and return values to their
	// identifiers/objects. We'll store each parameter on the stack so
	// they're addressable.
	nparams := int(params.Len())
	for i := 0; i < nparams; i++ {
		v := params.At(i)
		name := v.Name()
		if !isBlank(name) {
			value := llvm_fn.Param(i + paramoffset)
			c.newArgStackVar(i+1, f, v, value, name)
		}
	}

	funcstate := &function{LLVMValue: f, results: results}
	c.functions.push(funcstate)
	hasdefer := hasDefer(funcstate, body)

	// Allocate space on the stack for named results.
	for i := 0; i < results.Len(); i++ {
		v := results.At(i)
		name := v.Name()
		allocstack := !isBlank(name)
		if !allocstack && hasdefer {
			c.objectdata[v] = &ObjectData{}
			allocstack = true
		}
		if allocstack {
			typ := v.Type()
			llvmtyp := c.types.ToLLVM(typ)
			c.newStackVar(f, v, llvm.ConstNull(llvmtyp), name)
		}
	}

	// Create the function body.
	if hasdefer {
		c.makeDeferBlock(funcstate, body)
	}
	c.VisitBlockStmt(body, false)
	c.functions.pop()

	c.setDebugLine(body.End())

	// If the last instruction in the function is not a terminator, then
	// we either have unreachable code or a missing optional return statement
	// (the latter case is allowable only for functions without results).
	//
	// Use GetInsertBlock rather than LastBasicBlock, since the
	// last basic block might actually be a "defer" block.
	last := c.builder.GetInsertBlock()
	if in := last.LastInstruction(); in.IsNil() || in.IsATerminatorInst().IsNil() {
		c.builder.SetInsertPointAtEnd(last)
		if results.Len() == 0 {
			if funcstate.deferblock.IsNil() {
				c.builder.CreateRetVoid()
			} else {
				c.builder.CreateBr(funcstate.deferblock)
			}
		} else {
			c.builder.CreateUnreachable()
		}
	}
}