コード例 #1
0
ファイル: typemap.go プロジェクト: quarnster/llgo
func (tm *TypeMap) makeAlgorithmTable(t types.Type) llvm.Value {
	// TODO set these to actual functions.
	hashAlg := llvm.ConstNull(llvm.PointerType(tm.hashAlgFunctionType, 0))
	printAlg := llvm.ConstNull(llvm.PointerType(tm.printAlgFunctionType, 0))
	copyAlg := llvm.ConstNull(llvm.PointerType(tm.copyAlgFunctionType, 0))

	const eqalgsig = "func(uintptr, unsafe.Pointer, unsafe.Pointer) bool"
	var equalAlg llvm.Value
	switch t := t.(type) {
	case *types.Basic:
		switch t.Kind() {
		case types.String:
			equalAlg = tm.functions.NamedFunction("runtime.streqalg", eqalgsig)
		case types.Float32:
			equalAlg = tm.functions.NamedFunction("runtime.f32eqalg", eqalgsig)
		case types.Float64:
			equalAlg = tm.functions.NamedFunction("runtime.f64eqalg", eqalgsig)
		case types.Complex64:
			equalAlg = tm.functions.NamedFunction("runtime.c64eqalg", eqalgsig)
		case types.Complex128:
			equalAlg = tm.functions.NamedFunction("runtime.c128eqalg", eqalgsig)
		}
	}
	if equalAlg.IsNil() {
		equalAlg = tm.functions.NamedFunction("runtime.memequal", eqalgsig)
	}
	elems := []llvm.Value{hashAlg, equalAlg, printAlg, copyAlg}
	return llvm.ConstStruct(elems, false)
}
コード例 #2
0
ファイル: decl.go プロジェクト: qioixiy/llgo
func (c *compiler) makeFunc(ident *ast.Ident, ftyp *types.Signature) *LLVMValue {
	fname := ident.String()
	if ftyp.Recv() == nil && fname == "init" {
		// Make "init" functions anonymous.
		fname = ""
	} else {
		var pkgname string
		if recv := ftyp.Recv(); recv != nil {
			var recvname string
			switch recvtyp := recv.Type().(type) {
			case *types.Pointer:
				if named, ok := recvtyp.Elem().(*types.Named); ok {
					obj := named.Obj()
					recvname = "*" + obj.Name()
					pkgname = obj.Pkg().Path()
				}
			case *types.Named:
				named := recvtyp
				obj := named.Obj()
				recvname = obj.Name()
				pkgname = obj.Pkg().Path()
			}

			if recvname != "" {
				fname = fmt.Sprintf("%s.%s", recvname, fname)
			} else {
				// If the receiver is an unnamed struct, we're
				// synthesising a method for an unnamed struct
				// type. There's no meaningful name to give the
				// function, so leave it up to LLVM.
				fname = ""
			}
		} else {
			obj := c.typeinfo.Objects[ident]
			pkgname = obj.Pkg().Path()
		}
		if fname != "" {
			fname = pkgname + "." + fname
		}
	}

	// gcimporter may produce multiple AST objects for the same function.
	llvmftyp := c.types.ToLLVM(ftyp)
	var fn llvm.Value
	if fname != "" {
		fn = c.module.Module.NamedFunction(fname)
	}
	if fn.IsNil() {
		llvmfptrtyp := llvmftyp.StructElementTypes()[0].ElementType()
		fn = llvm.AddFunction(c.module.Module, fname, llvmfptrtyp)
	}
	fn = llvm.ConstInsertValue(llvm.ConstNull(llvmftyp), fn, []uint32{0})
	return c.NewValue(fn, ftyp)
}
コード例 #3
0
ファイル: var.go プロジェクト: quarnster/llgo
func (c *compiler) newStackVarEx(argument int, stackf *LLVMValue, v types.Object, value llvm.Value, name string) (stackvalue llvm.Value, stackvar *LLVMValue) {
	typ := v.Type()

	// We need to put alloca instructions in the top block or the values
	// displayed when inspecting these variables in a debugger will be
	// completely messed up.
	curBlock := c.builder.GetInsertBlock()
	if p := curBlock.Parent(); !p.IsNil() {
		fb := p.FirstBasicBlock()
		fi := fb.FirstInstruction()
		if !fb.IsNil() && !fi.IsNil() {
			c.builder.SetInsertPointBefore(fi)
		}
	}
	old := c.builder.CurrentDebugLocation()
	c.builder.SetCurrentDebugLocation(llvm.Value{})
	stackvalue = c.builder.CreateAlloca(c.types.ToLLVM(typ), name)

	// For arguments we want to insert the store instruction
	// without debug information to ensure that they are executed
	// (and hence have proper values) before the debugger hits the
	// first line in a function.
	if argument == 0 {
		c.builder.SetCurrentDebugLocation(old)
		c.builder.SetInsertPointAtEnd(curBlock)
	}

	if !value.IsNil() {
		c.builder.CreateStore(value, stackvalue)
	}
	c.builder.SetCurrentDebugLocation(old)
	c.builder.SetInsertPointAtEnd(curBlock)

	ptrvalue := c.NewValue(stackvalue, types.NewPointer(typ))
	stackvar = ptrvalue.makePointee()
	stackvar.stack = stackf
	c.objectdata[v].Value = stackvar

	file := c.fileset.File(v.Pos())
	tag := llvm.DW_TAG_auto_variable
	if argument > 0 {
		tag = llvm.DW_TAG_arg_variable
	}
	ld := llvm.NewLocalVariableDescriptor(tag)
	ld.Argument = uint32(argument)
	ld.Line = uint32(file.Line(v.Pos()))
	ld.Name = name
	ld.File = &llvm.ContextDescriptor{llvm.FileDescriptor(file.Name())}
	ld.Type = c.tollvmDebugDescriptor(typ)
	ld.Context = c.currentDebugContext()
	c.builder.InsertDeclare(c.module.Module, llvm.MDNode([]llvm.Value{stackvalue}), c.debug_info.MDNode(ld))
	return stackvalue, stackvar
}
コード例 #4
0
ファイル: var.go プロジェクト: qioixiy/llgo
func (c *compiler) newStackVarEx(argument int, stackf *LLVMValue, v types.Object, value llvm.Value, name string) (stackvalue llvm.Value, stackvar *LLVMValue) {
	typ := v.Type()

	// We need to put alloca instructions in the top block or the values
	// displayed when inspecting these variables in a debugger will be
	// completely messed up.
	curBlock := c.builder.GetInsertBlock()
	if p := curBlock.Parent(); !p.IsNil() {
		fb := p.FirstBasicBlock()
		fi := fb.FirstInstruction()
		if !fb.IsNil() && !fi.IsNil() {
			c.builder.SetInsertPointBefore(fi)
		}
	}
	old := c.builder.CurrentDebugLocation()
	c.builder.SetCurrentDebugLocation(llvm.Value{})
	stackvalue = c.builder.CreateAlloca(c.types.ToLLVM(typ), name)

	// For arguments we want to insert the store instruction
	// without debug information to ensure that they are executed
	// (and hence have proper values) before the debugger hits the
	// first line in a function.
	if argument == 0 {
		c.builder.SetCurrentDebugLocation(old)
		c.builder.SetInsertPointAtEnd(curBlock)
	}

	if !value.IsNil() {
		c.builder.CreateStore(value, stackvalue)
	}
	c.builder.SetCurrentDebugLocation(old)
	c.builder.SetInsertPointAtEnd(curBlock)

	ptrvalue := c.NewValue(stackvalue, types.NewPointer(typ))
	stackvar = ptrvalue.makePointee()
	stackvar.stack = stackf
	c.objectdata[v].Value = stackvar

	// Generate debug metadata (will return nil
	// if debug-data generation is disabled).
	if descriptor := c.createLocalVariableMetadata(v, argument); descriptor != nil {
		c.builder.InsertDeclare(
			c.module.Module,
			llvm.MDNode([]llvm.Value{stackvalue}),
			c.debug_info.MDNode(descriptor),
		)
	}
	return stackvalue, stackvar
}
コード例 #5
0
ファイル: channels.go プロジェクト: kelsieflynn/llgo
func (v *LLVMValue) chanSend(value Value) {
	var ptr llvm.Value
	if value, ok := value.(*LLVMValue); ok && value.pointer != nil {
		ptr = value.pointer.LLVMValue()
	}
	elttyp := types.Underlying(v.typ).(*types.Chan).Elt
	c := v.compiler
	if ptr.IsNil() {
		ptr = c.builder.CreateAlloca(c.types.ToLLVM(elttyp), "")
		value := value.Convert(elttyp).LLVMValue()
		c.builder.CreateStore(value, ptr)
	}
	uintptr_ := c.builder.CreatePtrToInt(ptr, c.target.IntPtrType(), "")
	f := c.NamedFunction("runtime.chansend", "func f(c, ptr uintptr)")
	c.builder.CreateCall(f, []llvm.Value{v.LLVMValue(), uintptr_}, "")
}
コード例 #6
0
ファイル: channels.go プロジェクト: quarnster/llgo
func (v *LLVMValue) chanSend(value Value) {
	var ptr llvm.Value
	if value, ok := value.(*LLVMValue); ok && value.pointer != nil {
		ptr = value.pointer.LLVMValue()
	}
	elttyp := v.typ.Underlying().(*types.Chan).Elem()
	c := v.compiler
	if ptr.IsNil() {
		ptr = c.builder.CreateAlloca(c.types.ToLLVM(elttyp), "")
		value := value.Convert(elttyp).LLVMValue()
		c.builder.CreateStore(value, ptr)
	}
	uintptr_ := c.builder.CreatePtrToInt(ptr, c.target.IntPtrType(), "")
	nb := boolLLVMValue(false)
	f := c.NamedFunction("runtime.chansend", "func(t *chanType, c, ptr uintptr, nb bool) bool")
	chantyp := c.types.ToRuntime(v.typ.Underlying())
	chantyp = c.builder.CreateBitCast(chantyp, f.Type().ElementType().ParamTypes()[0], "")
	c.builder.CreateCall(f, []llvm.Value{chantyp, v.LLVMValue(), uintptr_, nb}, "")
	// Ignore result; only used in runtime.
}
コード例 #7
0
ファイル: channels.go プロジェクト: quarnster/llgo
func (c *compiler) VisitSelectStmt(stmt *ast.SelectStmt) {
	// TODO optimisations:
	//     1. No clauses: runtime.block.
	//     2. Single recv, and default clause: runtime.selectnbrecv
	//     2. Single send, and default clause: runtime.selectnbsend

	startBlock := c.builder.GetInsertBlock()
	function := startBlock.Parent()
	endBlock := llvm.AddBasicBlock(function, "end")
	endBlock.MoveAfter(startBlock)
	defer c.builder.SetInsertPointAtEnd(endBlock)

	// Cache runtime functions
	var selectrecv, selectsend llvm.Value
	getselectsend := func() llvm.Value {
		if selectsend.IsNil() {
			selectsend = c.NamedFunction("runtime.selectsend", "func(selectp, blockaddr, ch, elem unsafe.Pointer)")
		}
		return selectsend
	}
	getselectrecv := func() llvm.Value {
		if selectrecv.IsNil() {
			selectrecv = c.NamedFunction("runtime.selectrecv", "func(selectp, blockaddr, ch, elem unsafe.Pointer, received *bool)")
		}
		return selectrecv
	}

	// We create a pointer-pointer for each newly defined var on the
	// lhs of receive expressions, which will be assigned to when the
	// expressions are (conditionally) evaluated.
	lhsptrs := make([][]llvm.Value, len(stmt.Body.List))
	for i, stmt := range stmt.Body.List {
		clause := stmt.(*ast.CommClause)
		if stmt, ok := clause.Comm.(*ast.AssignStmt); ok && stmt.Tok == token.DEFINE {
			lhs := make([]llvm.Value, len(stmt.Lhs))
			for i, expr := range stmt.Lhs {
				ident := expr.(*ast.Ident)
				if !isBlank(ident.Name) {
					typ := c.target.IntPtrType()
					lhs[i] = c.builder.CreateAlloca(typ, "")
					c.builder.CreateStore(llvm.ConstNull(typ), lhs[i])
				}
			}
			lhsptrs[i] = lhs
		}
	}

	// Create clause basic blocks.
	blocks := make([]llvm.BasicBlock, len(stmt.Body.List))
	var basesize uint64
	for i, stmt := range stmt.Body.List {
		clause := stmt.(*ast.CommClause)
		if clause.Comm == nil {
			basesize++
		}
		currBlock := c.builder.GetInsertBlock()
		block := llvm.InsertBasicBlock(endBlock, "")
		c.builder.SetInsertPointAtEnd(block)
		blocks[i] = block
		lhs := lhsptrs[i]
		if stmt, ok := clause.Comm.(*ast.AssignStmt); ok {
			for i, expr := range stmt.Lhs {
				ident := expr.(*ast.Ident)
				if !isBlank(ident.Name) {
					ptr := c.builder.CreateLoad(lhs[i], "")
					obj := c.typeinfo.Objects[ident]
					ptrtyp := types.NewPointer(obj.Type())
					ptr = c.builder.CreateIntToPtr(ptr, c.types.ToLLVM(ptrtyp), "")
					value := c.NewValue(ptr, ptrtyp).makePointee()
					c.objectdata[obj].Value = value
				}
			}
		}
		for _, stmt := range clause.Body {
			c.VisitStmt(stmt)
		}
		c.maybeImplicitBranch(endBlock)
		c.builder.SetInsertPointAtEnd(currBlock)
	}

	// We need to make an initial pass through the cases,
	// discarding those where the channel is nil.
	size := llvm.ConstInt(llvm.Int32Type(), basesize, false)
	channels := make([]Value, len(stmt.Body.List))
	rhs := make([]*LLVMValue, len(stmt.Body.List))
	for i, stmt := range stmt.Body.List {
		clause := stmt.(*ast.CommClause)
		switch comm := clause.Comm.(type) {
		case nil:
		case *ast.SendStmt:
			channels[i] = c.VisitExpr(comm.Chan)
			rhs[i] = c.VisitExpr(comm.Value).(*LLVMValue)
		case *ast.ExprStmt:
			channels[i] = c.VisitExpr(comm.X.(*ast.UnaryExpr).X)
		case *ast.AssignStmt:
			channels[i] = c.VisitExpr(comm.Rhs[0].(*ast.UnaryExpr).X)
		default:
			panic(fmt.Errorf("unhandled: %T", comm))
		}
		if channels[i] != nil {
			nonnil := c.builder.CreateIsNotNull(channels[i].LLVMValue(), "")
			zero := llvm.ConstInt(llvm.Int32Type(), 0, false)
			one := llvm.ConstInt(llvm.Int32Type(), 1, false)
			addend := c.builder.CreateSelect(nonnil, one, zero, "")
			size = c.builder.CreateAdd(size, addend, "")
		}
	}

	f := c.NamedFunction("runtime.selectsize", "func(size int32) uintptr")
	selectsize := c.builder.CreateCall(f, []llvm.Value{size}, "")
	selectp := c.builder.CreateArrayAlloca(llvm.Int8Type(), selectsize, "selectp")
	c.memsetZero(selectp, selectsize)
	selectp = c.builder.CreatePtrToInt(selectp, c.target.IntPtrType(), "")
	f = c.NamedFunction("runtime.initselect", "func(size int32, ptr unsafe.Pointer)")
	c.builder.CreateCall(f, []llvm.Value{size, selectp}, "")

	for i, stmt := range stmt.Body.List {
		clause := stmt.(*ast.CommClause)
		blockaddr := llvm.BlockAddress(function, blocks[i])
		blockaddr = c.builder.CreatePtrToInt(blockaddr, c.target.IntPtrType(), "")
		if clause.Comm == nil {
			// default clause
			f := c.NamedFunction("runtime.selectdefault", "func(selectp, blockaddr unsafe.Pointer)")
			c.builder.CreateCall(f, []llvm.Value{selectp, blockaddr}, "")
			continue
		}

		currBlock := c.builder.GetInsertBlock()
		nextBlock := llvm.InsertBasicBlock(currBlock, "")
		nextBlock.MoveAfter(currBlock)
		block := llvm.InsertBasicBlock(endBlock, "")
		chanval := channels[i].LLVMValue()
		nonnilchan := c.builder.CreateIsNotNull(chanval, "")
		c.builder.CreateCondBr(nonnilchan, block, nextBlock)
		c.builder.SetInsertPointAtEnd(block)

		switch comm := clause.Comm.(type) {
		case *ast.SendStmt:
			// c <- val
			elem := rhs[i]
			var elemptr llvm.Value
			if elem.pointer == nil {
				value := elem.LLVMValue()
				elemptr = c.builder.CreateAlloca(value.Type(), "")
				c.builder.CreateStore(value, elemptr)
			} else {
				elemptr = elem.pointer.LLVMValue()
			}
			elemptr = c.builder.CreatePtrToInt(elemptr, c.target.IntPtrType(), "")
			f := getselectsend()
			c.builder.CreateCall(f, []llvm.Value{selectp, blockaddr, chanval, elemptr}, "")

		case *ast.ExprStmt:
			// <-c
			f := getselectrecv()
			paramtypes := f.Type().ElementType().ParamTypes()
			elem := llvm.ConstNull(paramtypes[3])
			received := llvm.ConstNull(paramtypes[4])
			c.builder.CreateCall(f, []llvm.Value{selectp, blockaddr, chanval, elem, received}, "")

		case *ast.AssignStmt:
			// val := <-c
			// val, ok = <-c
			f := getselectrecv()
			lhs := c.assignees(comm)
			paramtypes := f.Type().ElementType().ParamTypes()
			var elem llvm.Value
			if lhs[0] != nil {
				elem = lhs[0].pointer.LLVMValue()
				elem = c.builder.CreatePtrToInt(elem, paramtypes[3], "")
				if !lhsptrs[i][0].IsNil() {
					c.builder.CreateStore(elem, lhsptrs[i][0])
				}
			} else {
				elem = llvm.ConstNull(paramtypes[3])
			}
			var received llvm.Value
			if len(lhs) == 2 && lhs[1] != nil {
				received = lhs[1].pointer.LLVMValue()
				received = c.builder.CreatePtrToInt(received, paramtypes[4], "")
				if !lhsptrs[i][1].IsNil() {
					c.builder.CreateStore(received, lhsptrs[i][1])
				}
			} else {
				received = llvm.ConstNull(paramtypes[4])
			}
			c.builder.CreateCall(f, []llvm.Value{selectp, blockaddr, chanval, elem, received}, "")
		}

		c.builder.CreateBr(nextBlock)
		c.builder.SetInsertPointAtEnd(nextBlock)
	}

	f = c.NamedFunction("runtime.selectgo", "func(selectp unsafe.Pointer) unsafe.Pointer")
	blockaddr := c.builder.CreateCall(f, []llvm.Value{selectp}, "")
	blockaddr = c.builder.CreateIntToPtr(blockaddr, llvm.PointerType(llvm.Int8Type(), 0), "")
	ibr := c.builder.CreateIndirectBr(blockaddr, len(stmt.Body.List))
	for _, block := range blocks {
		ibr.AddDest(block)
	}
}
コード例 #8
0
ファイル: stmt.go プロジェクト: qioixiy/llgo
func (c *compiler) VisitRangeStmt(stmt *ast.RangeStmt) {
	currBlock := c.builder.GetInsertBlock()
	doneBlock := llvm.AddBasicBlock(currBlock.Parent(), "done")
	doneBlock.MoveAfter(currBlock)
	postBlock := llvm.InsertBasicBlock(doneBlock, "post")
	loopBlock := llvm.InsertBasicBlock(postBlock, "loop")
	condBlock := llvm.InsertBasicBlock(loopBlock, "cond")
	defer c.builder.SetInsertPointAtEnd(doneBlock)

	// Evaluate range expression first.
	x := c.VisitExpr(stmt.X)

	// If it's a pointer type, we'll first check that it's non-nil.
	typ := x.Type().Underlying()
	if _, ok := typ.(*types.Pointer); ok {
		ifBlock := llvm.InsertBasicBlock(doneBlock, "if")
		isnotnull := c.builder.CreateIsNotNull(x.LLVMValue(), "")
		c.builder.CreateCondBr(isnotnull, ifBlock, doneBlock)
		c.builder.SetInsertPointAtEnd(ifBlock)
	}

	// Is it a new var definition? Then allocate some memory on the stack.
	var keyPtr, valuePtr llvm.Value
	if stmt.Tok == token.DEFINE {
		if key := stmt.Key.(*ast.Ident); !isBlank(key.Name) {
			keyobj := c.typeinfo.Objects[key]
			keyPtr, _ = c.newStackVar(c.functions.top().LLVMValue, keyobj, llvm.Value{}, key.Name)
		}
		if stmt.Value != nil {
			if value := stmt.Value.(*ast.Ident); !isBlank(value.Name) {
				valueobj := c.typeinfo.Objects[value]
				valuePtr, _ = c.newStackVar(c.functions.top().LLVMValue, valueobj, llvm.Value{}, value.Name)
			}
		}
	} else {
		// Simple assignment, resolve the key/value pointers.
		if key := stmt.Key.(*ast.Ident); !isBlank(key.Name) {
			keyPtr = c.Resolve(key).(*LLVMValue).pointer.LLVMValue()
		}
		if stmt.Value != nil {
			if value := stmt.Value.(*ast.Ident); !isBlank(value.Name) {
				valuePtr = c.Resolve(value).(*LLVMValue).pointer.LLVMValue()
			}
		}
	}

	if c.lastlabel != nil {
		labelData := c.labelData(c.lastlabel)
		labelData.Break = doneBlock
		labelData.Continue = postBlock
		c.lastlabel = nil
	}

	c.breakblocks = append(c.breakblocks, doneBlock)
	c.continueblocks = append(c.continueblocks, postBlock)
	defer func() {
		c.breakblocks = c.breakblocks[:len(c.breakblocks)-1]
		c.continueblocks = c.continueblocks[:len(c.continueblocks)-1]
	}()

	isarray := false
	var base, length llvm.Value
	_, isptr := typ.(*types.Pointer)
	if isptr {
		typ = typ.(*types.Pointer).Elem()
	}
	switch typ := typ.Underlying().(type) {
	case *types.Map:
		goto maprange
	case *types.Chan:
		goto chanrange
	case *types.Basic:
		stringvalue := x.LLVMValue()
		length = c.builder.CreateExtractValue(stringvalue, 1, "")
		goto stringrange
	case *types.Array:
		isarray = true
		x := x
		if !isptr {
			if x_, ok := x.(*LLVMValue); ok && x_.pointer != nil {
				x = x_.pointer
			} else {
				ptr := c.builder.CreateAlloca(c.types.ToLLVM(x.Type()), "")
				c.builder.CreateStore(x.LLVMValue(), ptr)
				x = c.NewValue(ptr, types.NewPointer(x.Type()))
			}
		}
		base = x.LLVMValue()
		length = llvm.ConstInt(c.llvmtypes.inttype, uint64(typ.Len()), false)
		goto arrayrange
	case *types.Slice:
		slicevalue := x.LLVMValue()
		base = c.builder.CreateExtractValue(slicevalue, 0, "")
		length = c.builder.CreateExtractValue(slicevalue, 1, "")
		goto arrayrange
	}
	panic("unreachable")

maprange:
	{
		currBlock = c.builder.GetInsertBlock()
		c.builder.CreateBr(condBlock)
		c.builder.SetInsertPointAtEnd(condBlock)
		nextptrphi := c.builder.CreatePHI(c.target.IntPtrType(), "next")
		nextptr, pk, pv := c.mapNext(x.(*LLVMValue), nextptrphi)
		notnull := c.builder.CreateIsNotNull(nextptr, "")
		c.builder.CreateCondBr(notnull, loopBlock, doneBlock)
		c.builder.SetInsertPointAtEnd(loopBlock)
		if !keyPtr.IsNil() {
			keyval := c.builder.CreateLoad(pk, "")
			c.builder.CreateStore(keyval, keyPtr)
		}
		if !valuePtr.IsNil() {
			valval := c.builder.CreateLoad(pv, "")
			c.builder.CreateStore(valval, valuePtr)
		}
		c.VisitBlockStmt(stmt.Body, false)
		c.maybeImplicitBranch(postBlock)
		c.builder.SetInsertPointAtEnd(postBlock)
		c.builder.CreateBr(condBlock)
		nextptrphi.AddIncoming([]llvm.Value{llvm.ConstNull(c.target.IntPtrType()), nextptr}, []llvm.BasicBlock{currBlock, postBlock})
		return
	}

stringrange:
	{
		zero := llvm.ConstNull(c.types.inttype)
		currBlock = c.builder.GetInsertBlock()
		c.builder.CreateBr(condBlock)
		c.builder.SetInsertPointAtEnd(condBlock)
		index := c.builder.CreatePHI(c.types.inttype, "index")
		lessthan := c.builder.CreateICmp(llvm.IntULT, index, length, "")
		c.builder.CreateCondBr(lessthan, loopBlock, doneBlock)
		c.builder.SetInsertPointAtEnd(loopBlock)
		consumed, value := c.stringNext(x.LLVMValue(), index)
		if !keyPtr.IsNil() {
			c.builder.CreateStore(index, keyPtr)
		}
		if !valuePtr.IsNil() {
			c.builder.CreateStore(value, valuePtr)
		}
		c.VisitBlockStmt(stmt.Body, false)
		c.maybeImplicitBranch(postBlock)
		c.builder.SetInsertPointAtEnd(postBlock)
		newindex := c.builder.CreateAdd(index, consumed, "")
		c.builder.CreateBr(condBlock)
		index.AddIncoming([]llvm.Value{zero, newindex}, []llvm.BasicBlock{currBlock, postBlock})
		return
	}

arrayrange:
	{
		zero := llvm.ConstNull(c.types.inttype)
		currBlock = c.builder.GetInsertBlock()
		c.builder.CreateBr(condBlock)
		c.builder.SetInsertPointAtEnd(condBlock)
		index := c.builder.CreatePHI(c.types.inttype, "index")
		lessthan := c.builder.CreateICmp(llvm.IntULT, index, length, "")
		c.builder.CreateCondBr(lessthan, loopBlock, doneBlock)
		c.builder.SetInsertPointAtEnd(loopBlock)
		if !keyPtr.IsNil() {
			c.builder.CreateStore(index, keyPtr)
		}
		if !valuePtr.IsNil() {
			var indices []llvm.Value
			if isarray {
				indices = []llvm.Value{zero, index}
			} else {
				indices = []llvm.Value{index}
			}
			elementptr := c.builder.CreateGEP(base, indices, "")
			element := c.builder.CreateLoad(elementptr, "")
			c.builder.CreateStore(element, valuePtr)
		}
		c.VisitBlockStmt(stmt.Body, false)
		c.maybeImplicitBranch(postBlock)
		c.builder.SetInsertPointAtEnd(postBlock)
		newindex := c.builder.CreateAdd(index, llvm.ConstInt(c.types.inttype, 1, false), "")
		c.builder.CreateBr(condBlock)
		index.AddIncoming([]llvm.Value{zero, newindex}, []llvm.BasicBlock{currBlock, postBlock})
		return
	}

chanrange:
	{
		c.builder.CreateBr(condBlock)
		c.builder.SetInsertPointAtEnd(condBlock)
		value, received := x.(*LLVMValue).chanRecv(true)
		c.builder.CreateCondBr(received.LLVMValue(), loopBlock, doneBlock)
		c.builder.SetInsertPointAtEnd(loopBlock)
		if !keyPtr.IsNil() {
			c.builder.CreateStore(value.LLVMValue(), keyPtr)
		}
		c.VisitBlockStmt(stmt.Body, false)
		c.maybeImplicitBranch(postBlock)
		c.builder.SetInsertPointAtEnd(postBlock)
		c.builder.CreateBr(condBlock)
		return
	}
}
コード例 #9
0
ファイル: expr.go プロジェクト: quarnster/llgo
// createCall emits the code for a function call, taking into account
// variadic functions, receivers, and panic/defer.
//
// dotdotdot is true if the last argument is followed with "...".
func (c *compiler) createCall(fn *LLVMValue, argValues []Value, dotdotdot, invoke bool) *LLVMValue {
	fn_type := fn.Type().Underlying().(*types.Signature)
	var args []llvm.Value

	// TODO Move all of this to evalCallArgs?
	params := fn_type.Params()
	if nparams := int(params.Len()); nparams > 0 {
		if fn_type.IsVariadic() {
			nparams--
		}
		for i := 0; i < nparams; i++ {
			value := argValues[i]
			args = append(args, value.LLVMValue())
		}
		if fn_type.IsVariadic() {
			if dotdotdot {
				// Calling f(x...). Just pass the slice directly.
				slice_value := argValues[nparams].LLVMValue()
				args = append(args, slice_value)
			} else {
				varargs := make([]llvm.Value, len(argValues)-nparams)
				for i, value := range argValues[nparams:] {
					varargs[i] = value.LLVMValue()
				}
				param_type := params.At(nparams).Type().(*types.Slice).Elem()
				slice_value := c.makeLiteralSlice(varargs, param_type)
				args = append(args, slice_value)
			}
		}
	}

	var result_type types.Type
	switch results := fn_type.Results(); results.Len() {
	case 0: // no-op
	case 1:
		result_type = results.At(0).Type()
	default:
		result_type = results
	}

	// Depending on whether the function contains defer statements or not,
	// we'll generate either a "call" or an "invoke" instruction.
	var createCall = c.builder.CreateCall
	if invoke {
		f := c.functions.top()
		// TODO Create a method on compiler (avoid creating closures).
		createCall = func(fn llvm.Value, args []llvm.Value, name string) llvm.Value {
			currblock := c.builder.GetInsertBlock()
			returnblock := llvm.AddBasicBlock(currblock.Parent(), "")
			returnblock.MoveAfter(currblock)
			value := c.builder.CreateInvoke(fn, args, returnblock, f.unwindblock, "")
			c.builder.SetInsertPointAtEnd(returnblock)
			return value
		}
	}

	var fnptr llvm.Value
	fnval := fn.LLVMValue()
	if fnval.Type().TypeKind() == llvm.PointerTypeKind {
		fnptr = fnval
	} else {
		fnptr = c.builder.CreateExtractValue(fnval, 0, "")
		context := c.builder.CreateExtractValue(fnval, 1, "")
		fntyp := fnptr.Type().ElementType()
		paramTypes := fntyp.ParamTypes()

		// If the context is not a constant null, and we're not
		// dealing with a method (where we don't care about the value
		// of the receiver), then we must conditionally call the
		// function with the additional receiver/closure.
		if !context.IsNull() || fn_type.Recv() != nil {
			// Store the blocks for referencing in the Phi below;
			// note that we update the block after each createCall,
			// since createCall may create new blocks and we want
			// the predecessors to the Phi.
			var nullctxblock llvm.BasicBlock
			var nonnullctxblock llvm.BasicBlock
			var endblock llvm.BasicBlock
			var nullctxresult llvm.Value

			// len(paramTypes) == len(args) iff function is not a method.
			if !context.IsConstant() && len(paramTypes) == len(args) {
				currblock := c.builder.GetInsertBlock()
				endblock = llvm.AddBasicBlock(currblock.Parent(), "")
				endblock.MoveAfter(currblock)
				nonnullctxblock = llvm.InsertBasicBlock(endblock, "")
				nullctxblock = llvm.InsertBasicBlock(nonnullctxblock, "")
				nullctx := c.builder.CreateIsNull(context, "")
				c.builder.CreateCondBr(nullctx, nullctxblock, nonnullctxblock)

				// null context case.
				c.builder.SetInsertPointAtEnd(nullctxblock)
				nullctxresult = createCall(fnptr, args, "")
				nullctxblock = c.builder.GetInsertBlock()
				c.builder.CreateBr(endblock)
				c.builder.SetInsertPointAtEnd(nonnullctxblock)
			}

			// non-null context case.
			var result llvm.Value
			args := append([]llvm.Value{context}, args...)
			if len(paramTypes) < len(args) {
				returnType := fntyp.ReturnType()
				ctxType := context.Type()
				paramTypes := append([]llvm.Type{ctxType}, paramTypes...)
				vararg := fntyp.IsFunctionVarArg()
				fntyp := llvm.FunctionType(returnType, paramTypes, vararg)
				fnptrtyp := llvm.PointerType(fntyp, 0)
				fnptr = c.builder.CreateBitCast(fnptr, fnptrtyp, "")
			}
			result = createCall(fnptr, args, "")

			// If the return type is not void, create a
			// PHI node to select which value to return.
			if !nullctxresult.IsNil() {
				nonnullctxblock = c.builder.GetInsertBlock()
				c.builder.CreateBr(endblock)
				c.builder.SetInsertPointAtEnd(endblock)
				if result.Type().TypeKind() != llvm.VoidTypeKind {
					phiresult := c.builder.CreatePHI(result.Type(), "")
					values := []llvm.Value{nullctxresult, result}
					blocks := []llvm.BasicBlock{nullctxblock, nonnullctxblock}
					phiresult.AddIncoming(values, blocks)
					result = phiresult
				}
			}
			return c.NewValue(result, result_type)
		}
	}
	result := createCall(fnptr, args, "")
	return c.NewValue(result, result_type)
}
コード例 #10
0
ファイル: stmt.go プロジェクト: kisielk/llgo
func (c *compiler) VisitRangeStmt(stmt *ast.RangeStmt) {
	currBlock := c.builder.GetInsertBlock()
	doneBlock := llvm.AddBasicBlock(currBlock.Parent(), "done")
	doneBlock.MoveAfter(currBlock)
	postBlock := llvm.InsertBasicBlock(doneBlock, "post")
	loopBlock := llvm.InsertBasicBlock(postBlock, "loop")
	condBlock := llvm.InsertBasicBlock(loopBlock, "cond")
	defer c.builder.SetInsertPointAtEnd(doneBlock)

	// Evaluate range expression first.
	x := c.VisitExpr(stmt.X)

	// If it's a pointer type, we'll first check that it's non-nil.
	typ := types.Underlying(x.Type())
	if _, ok := typ.(*types.Pointer); ok {
		ifBlock := llvm.InsertBasicBlock(doneBlock, "if")
		isnotnull := c.builder.CreateIsNotNull(x.LLVMValue(), "")
		c.builder.CreateCondBr(isnotnull, ifBlock, doneBlock)
		c.builder.SetInsertPointAtEnd(ifBlock)
	}

	// Is it a new var definition? Then allocate some memory on the stack.
	var keyType, valueType types.Type
	var keyPtr, valuePtr llvm.Value
	if stmt.Tok == token.DEFINE {
		if key := stmt.Key.(*ast.Ident); key.Name != "_" {
			keyType = key.Obj.Type.(types.Type)
			keyPtr = c.builder.CreateAlloca(c.types.ToLLVM(keyType), "")
			key.Obj.Data = c.NewLLVMValue(keyPtr, &types.Pointer{Base: keyType}).makePointee()
		}
		if stmt.Value != nil {
			if value := stmt.Value.(*ast.Ident); value.Name != "_" {
				valueType = value.Obj.Type.(types.Type)
				valuePtr = c.builder.CreateAlloca(c.types.ToLLVM(valueType), "")
				value.Obj.Data = c.NewLLVMValue(valuePtr, &types.Pointer{Base: valueType}).makePointee()
			}
		}
	}

	c.breakblocks = append(c.breakblocks, doneBlock)
	c.continueblocks = append(c.continueblocks, postBlock)
	defer func() {
		c.breakblocks = c.breakblocks[:len(c.breakblocks)-1]
		c.continueblocks = c.continueblocks[:len(c.continueblocks)-1]
	}()

	isarray := false
	var base, length llvm.Value
	_, isptr := typ.(*types.Pointer)
	if isptr {
		typ = typ.(*types.Pointer).Base
	}
	switch typ := types.Underlying(typ).(type) {
	case *types.Map:
		goto maprange
	case *types.Name:
		stringvalue := x.LLVMValue()
		length = c.builder.CreateExtractValue(stringvalue, 1, "")
		goto stringrange
	case *types.Array:
		isarray = true
		x := x
		if !isptr {
			if x_, ok := x.(*LLVMValue); ok && x_.pointer != nil {
				x = x_.pointer
			} else {
				// TODO load value onto stack for indexing?
			}
		}
		base = x.LLVMValue()
		length = llvm.ConstInt(llvm.Int32Type(), typ.Len, false)
		goto arrayrange
	case *types.Slice:
		slicevalue := x.LLVMValue()
		base = c.builder.CreateExtractValue(slicevalue, 0, "")
		length = c.builder.CreateExtractValue(slicevalue, 1, "")
		goto arrayrange
	}

maprange:
	{
		currBlock = c.builder.GetInsertBlock()
		c.builder.CreateBr(condBlock)
		c.builder.SetInsertPointAtEnd(condBlock)
		nextptrphi := c.builder.CreatePHI(c.target.IntPtrType(), "next")
		nextptr, pk, pv := c.mapNext(x.(*LLVMValue), nextptrphi)
		notnull := c.builder.CreateIsNotNull(nextptr, "")
		c.builder.CreateCondBr(notnull, loopBlock, doneBlock)
		c.builder.SetInsertPointAtEnd(loopBlock)
		if !keyPtr.IsNil() {
			keyval := c.builder.CreateLoad(pk, "")
			c.builder.CreateStore(keyval, keyPtr)
		}
		if !valuePtr.IsNil() {
			valval := c.builder.CreateLoad(pv, "")
			c.builder.CreateStore(valval, valuePtr)
		}
		c.VisitBlockStmt(stmt.Body, false)
		c.maybeImplicitBranch(postBlock)
		c.builder.SetInsertPointAtEnd(postBlock)
		c.builder.CreateBr(condBlock)
		nextptrphi.AddIncoming([]llvm.Value{llvm.ConstNull(c.target.IntPtrType()), nextptr}, []llvm.BasicBlock{currBlock, postBlock})
		return
	}

stringrange:
	{
		zero := llvm.ConstNull(llvm.Int32Type())
		currBlock = c.builder.GetInsertBlock()
		c.builder.CreateBr(condBlock)
		c.builder.SetInsertPointAtEnd(condBlock)
		index := c.builder.CreatePHI(llvm.Int32Type(), "index")
		lessthan := c.builder.CreateICmp(llvm.IntULT, index, length, "")
		c.builder.CreateCondBr(lessthan, loopBlock, doneBlock)
		c.builder.SetInsertPointAtEnd(loopBlock)
		consumed, value := c.stringNext(x.LLVMValue(), index)
		if !keyPtr.IsNil() {
			c.builder.CreateStore(index, keyPtr)
		}
		if !valuePtr.IsNil() {
			c.builder.CreateStore(value, valuePtr)
		}
		c.VisitBlockStmt(stmt.Body, false)
		c.maybeImplicitBranch(postBlock)
		c.builder.SetInsertPointAtEnd(postBlock)
		newindex := c.builder.CreateAdd(index, consumed, "")
		c.builder.CreateBr(condBlock)
		index.AddIncoming([]llvm.Value{zero, newindex}, []llvm.BasicBlock{currBlock, postBlock})
		return
	}

arrayrange:
	{
		zero := llvm.ConstNull(llvm.Int32Type())
		currBlock = c.builder.GetInsertBlock()
		c.builder.CreateBr(condBlock)
		c.builder.SetInsertPointAtEnd(condBlock)
		index := c.builder.CreatePHI(llvm.Int32Type(), "index")
		lessthan := c.builder.CreateICmp(llvm.IntULT, index, length, "")
		c.builder.CreateCondBr(lessthan, loopBlock, doneBlock)
		c.builder.SetInsertPointAtEnd(loopBlock)
		if !keyPtr.IsNil() {
			c.builder.CreateStore(index, keyPtr)
		}
		if !valuePtr.IsNil() {
			var indices []llvm.Value
			if isarray {
				indices = []llvm.Value{zero, index}
			} else {
				indices = []llvm.Value{index}
			}
			elementptr := c.builder.CreateGEP(base, indices, "")
			element := c.builder.CreateLoad(elementptr, "")
			c.builder.CreateStore(element, valuePtr)
		}
		c.VisitBlockStmt(stmt.Body, false)
		c.maybeImplicitBranch(postBlock)
		c.builder.SetInsertPointAtEnd(postBlock)
		newindex := c.builder.CreateAdd(index, llvm.ConstInt(llvm.Int32Type(), 1, false), "")
		c.builder.CreateBr(condBlock)
		index.AddIncoming([]llvm.Value{zero, newindex}, []llvm.BasicBlock{currBlock, postBlock})
		return
	}
}