VictoriaMetrics/vendor/honnef.co/go/tools/pattern/parser.go
Aliaksandr Valialkin 8c2d396e8a make vendor-update
2020-02-26 20:46:24 +02:00

456 lines
14 KiB
Go

package pattern
import (
"fmt"
"go/ast"
"go/token"
"reflect"
)
type Pattern struct {
Root Node
// Relevant contains instances of ast.Node that could potentially
// initiate a successful match of the pattern.
Relevant []reflect.Type
}
func MustParse(s string) Pattern {
p := &Parser{AllowTypeInfo: true}
pat, err := p.Parse(s)
if err != nil {
panic(err)
}
return pat
}
func roots(node Node) []reflect.Type {
switch node := node.(type) {
case Or:
var out []reflect.Type
for _, el := range node.Nodes {
out = append(out, roots(el)...)
}
return out
case Not:
return roots(node.Node)
case Binding:
return roots(node.Node)
case Nil, nil:
// this branch is reached via bindings
return allTypes
default:
Ts, ok := nodeToASTTypes[reflect.TypeOf(node)]
if !ok {
panic(fmt.Sprintf("internal error: unhandled type %T", node))
}
return Ts
}
}
var allTypes = []reflect.Type{
reflect.TypeOf((*ast.RangeStmt)(nil)),
reflect.TypeOf((*ast.AssignStmt)(nil)),
reflect.TypeOf((*ast.IndexExpr)(nil)),
reflect.TypeOf((*ast.Ident)(nil)),
reflect.TypeOf((*ast.ValueSpec)(nil)),
reflect.TypeOf((*ast.GenDecl)(nil)),
reflect.TypeOf((*ast.BinaryExpr)(nil)),
reflect.TypeOf((*ast.ForStmt)(nil)),
reflect.TypeOf((*ast.ArrayType)(nil)),
reflect.TypeOf((*ast.DeferStmt)(nil)),
reflect.TypeOf((*ast.MapType)(nil)),
reflect.TypeOf((*ast.ReturnStmt)(nil)),
reflect.TypeOf((*ast.SliceExpr)(nil)),
reflect.TypeOf((*ast.StarExpr)(nil)),
reflect.TypeOf((*ast.UnaryExpr)(nil)),
reflect.TypeOf((*ast.SendStmt)(nil)),
reflect.TypeOf((*ast.SelectStmt)(nil)),
reflect.TypeOf((*ast.ImportSpec)(nil)),
reflect.TypeOf((*ast.IfStmt)(nil)),
reflect.TypeOf((*ast.GoStmt)(nil)),
reflect.TypeOf((*ast.Field)(nil)),
reflect.TypeOf((*ast.SelectorExpr)(nil)),
reflect.TypeOf((*ast.StructType)(nil)),
reflect.TypeOf((*ast.KeyValueExpr)(nil)),
reflect.TypeOf((*ast.FuncType)(nil)),
reflect.TypeOf((*ast.FuncLit)(nil)),
reflect.TypeOf((*ast.FuncDecl)(nil)),
reflect.TypeOf((*ast.ChanType)(nil)),
reflect.TypeOf((*ast.CallExpr)(nil)),
reflect.TypeOf((*ast.CaseClause)(nil)),
reflect.TypeOf((*ast.CommClause)(nil)),
reflect.TypeOf((*ast.CompositeLit)(nil)),
reflect.TypeOf((*ast.EmptyStmt)(nil)),
reflect.TypeOf((*ast.SwitchStmt)(nil)),
reflect.TypeOf((*ast.TypeSwitchStmt)(nil)),
reflect.TypeOf((*ast.TypeAssertExpr)(nil)),
reflect.TypeOf((*ast.TypeSpec)(nil)),
reflect.TypeOf((*ast.InterfaceType)(nil)),
reflect.TypeOf((*ast.BranchStmt)(nil)),
reflect.TypeOf((*ast.IncDecStmt)(nil)),
reflect.TypeOf((*ast.BasicLit)(nil)),
}
var nodeToASTTypes = map[reflect.Type][]reflect.Type{
reflect.TypeOf(String("")): nil,
reflect.TypeOf(Token(0)): nil,
reflect.TypeOf(List{}): {reflect.TypeOf((*ast.BlockStmt)(nil)), reflect.TypeOf((*ast.FieldList)(nil))},
reflect.TypeOf(Builtin{}): {reflect.TypeOf((*ast.Ident)(nil))},
reflect.TypeOf(Object{}): {reflect.TypeOf((*ast.Ident)(nil))},
reflect.TypeOf(Function{}): {reflect.TypeOf((*ast.Ident)(nil)), reflect.TypeOf((*ast.SelectorExpr)(nil))},
reflect.TypeOf(Any{}): allTypes,
reflect.TypeOf(RangeStmt{}): {reflect.TypeOf((*ast.RangeStmt)(nil))},
reflect.TypeOf(AssignStmt{}): {reflect.TypeOf((*ast.AssignStmt)(nil))},
reflect.TypeOf(IndexExpr{}): {reflect.TypeOf((*ast.IndexExpr)(nil))},
reflect.TypeOf(Ident{}): {reflect.TypeOf((*ast.Ident)(nil))},
reflect.TypeOf(ValueSpec{}): {reflect.TypeOf((*ast.ValueSpec)(nil))},
reflect.TypeOf(GenDecl{}): {reflect.TypeOf((*ast.GenDecl)(nil))},
reflect.TypeOf(BinaryExpr{}): {reflect.TypeOf((*ast.BinaryExpr)(nil))},
reflect.TypeOf(ForStmt{}): {reflect.TypeOf((*ast.ForStmt)(nil))},
reflect.TypeOf(ArrayType{}): {reflect.TypeOf((*ast.ArrayType)(nil))},
reflect.TypeOf(DeferStmt{}): {reflect.TypeOf((*ast.DeferStmt)(nil))},
reflect.TypeOf(MapType{}): {reflect.TypeOf((*ast.MapType)(nil))},
reflect.TypeOf(ReturnStmt{}): {reflect.TypeOf((*ast.ReturnStmt)(nil))},
reflect.TypeOf(SliceExpr{}): {reflect.TypeOf((*ast.SliceExpr)(nil))},
reflect.TypeOf(StarExpr{}): {reflect.TypeOf((*ast.StarExpr)(nil))},
reflect.TypeOf(UnaryExpr{}): {reflect.TypeOf((*ast.UnaryExpr)(nil))},
reflect.TypeOf(SendStmt{}): {reflect.TypeOf((*ast.SendStmt)(nil))},
reflect.TypeOf(SelectStmt{}): {reflect.TypeOf((*ast.SelectStmt)(nil))},
reflect.TypeOf(ImportSpec{}): {reflect.TypeOf((*ast.ImportSpec)(nil))},
reflect.TypeOf(IfStmt{}): {reflect.TypeOf((*ast.IfStmt)(nil))},
reflect.TypeOf(GoStmt{}): {reflect.TypeOf((*ast.GoStmt)(nil))},
reflect.TypeOf(Field{}): {reflect.TypeOf((*ast.Field)(nil))},
reflect.TypeOf(SelectorExpr{}): {reflect.TypeOf((*ast.SelectorExpr)(nil))},
reflect.TypeOf(StructType{}): {reflect.TypeOf((*ast.StructType)(nil))},
reflect.TypeOf(KeyValueExpr{}): {reflect.TypeOf((*ast.KeyValueExpr)(nil))},
reflect.TypeOf(FuncType{}): {reflect.TypeOf((*ast.FuncType)(nil))},
reflect.TypeOf(FuncLit{}): {reflect.TypeOf((*ast.FuncLit)(nil))},
reflect.TypeOf(FuncDecl{}): {reflect.TypeOf((*ast.FuncDecl)(nil))},
reflect.TypeOf(ChanType{}): {reflect.TypeOf((*ast.ChanType)(nil))},
reflect.TypeOf(CallExpr{}): {reflect.TypeOf((*ast.CallExpr)(nil))},
reflect.TypeOf(CaseClause{}): {reflect.TypeOf((*ast.CaseClause)(nil))},
reflect.TypeOf(CommClause{}): {reflect.TypeOf((*ast.CommClause)(nil))},
reflect.TypeOf(CompositeLit{}): {reflect.TypeOf((*ast.CompositeLit)(nil))},
reflect.TypeOf(EmptyStmt{}): {reflect.TypeOf((*ast.EmptyStmt)(nil))},
reflect.TypeOf(SwitchStmt{}): {reflect.TypeOf((*ast.SwitchStmt)(nil))},
reflect.TypeOf(TypeSwitchStmt{}): {reflect.TypeOf((*ast.TypeSwitchStmt)(nil))},
reflect.TypeOf(TypeAssertExpr{}): {reflect.TypeOf((*ast.TypeAssertExpr)(nil))},
reflect.TypeOf(TypeSpec{}): {reflect.TypeOf((*ast.TypeSpec)(nil))},
reflect.TypeOf(InterfaceType{}): {reflect.TypeOf((*ast.InterfaceType)(nil))},
reflect.TypeOf(BranchStmt{}): {reflect.TypeOf((*ast.BranchStmt)(nil))},
reflect.TypeOf(IncDecStmt{}): {reflect.TypeOf((*ast.IncDecStmt)(nil))},
reflect.TypeOf(BasicLit{}): {reflect.TypeOf((*ast.BasicLit)(nil))},
}
var requiresTypeInfo = map[string]bool{
"Function": true,
"Builtin": true,
"Object": true,
}
type Parser struct {
// Allow nodes that rely on type information
AllowTypeInfo bool
lex *lexer
cur item
last *item
items chan item
}
func (p *Parser) Parse(s string) (Pattern, error) {
p.cur = item{}
p.last = nil
p.items = nil
fset := token.NewFileSet()
p.lex = &lexer{
f: fset.AddFile("<input>", -1, len(s)),
input: s,
items: make(chan item),
}
go p.lex.run()
p.items = p.lex.items
root, err := p.node()
if err != nil {
// drain lexer if parsing failed
for range p.lex.items {
}
return Pattern{}, err
}
if item := <-p.lex.items; item.typ != itemEOF {
return Pattern{}, fmt.Errorf("unexpected token %s after end of pattern", item.typ)
}
return Pattern{
Root: root,
Relevant: roots(root),
}, nil
}
func (p *Parser) next() item {
if p.last != nil {
n := *p.last
p.last = nil
return n
}
var ok bool
p.cur, ok = <-p.items
if !ok {
p.cur = item{typ: eof}
}
return p.cur
}
func (p *Parser) rewind() {
p.last = &p.cur
}
func (p *Parser) peek() item {
n := p.next()
p.rewind()
return n
}
func (p *Parser) accept(typ itemType) (item, bool) {
n := p.next()
if n.typ == typ {
return n, true
}
p.rewind()
return item{}, false
}
func (p *Parser) unexpectedToken(valid string) error {
if p.cur.typ == itemError {
return fmt.Errorf("error lexing input: %s", p.cur.val)
}
var got string
switch p.cur.typ {
case itemTypeName, itemVariable, itemString:
got = p.cur.val
default:
got = "'" + p.cur.typ.String() + "'"
}
pos := p.lex.f.Position(token.Pos(p.cur.pos))
return fmt.Errorf("%s: expected %s, found %s", pos, valid, got)
}
func (p *Parser) node() (Node, error) {
if _, ok := p.accept(itemLeftParen); !ok {
return nil, p.unexpectedToken("'('")
}
typ, ok := p.accept(itemTypeName)
if !ok {
return nil, p.unexpectedToken("Node type")
}
var objs []Node
for {
if _, ok := p.accept(itemRightParen); ok {
break
} else {
p.rewind()
obj, err := p.object()
if err != nil {
return nil, err
}
objs = append(objs, obj)
}
}
return p.populateNode(typ.val, objs)
}
func populateNode(typ string, objs []Node, allowTypeInfo bool) (Node, error) {
T, ok := structNodes[typ]
if !ok {
return nil, fmt.Errorf("unknown node %s", typ)
}
if !allowTypeInfo && requiresTypeInfo[typ] {
return nil, fmt.Errorf("Node %s requires type information", typ)
}
pv := reflect.New(T)
v := pv.Elem()
if v.NumField() == 1 {
f := v.Field(0)
if f.Type().Kind() == reflect.Slice {
// Variadic node
f.Set(reflect.AppendSlice(f, reflect.ValueOf(objs)))
return v.Interface().(Node), nil
}
}
if len(objs) != v.NumField() {
return nil, fmt.Errorf("tried to initialize node %s with %d values, expected %d", typ, len(objs), v.NumField())
}
for i := 0; i < v.NumField(); i++ {
f := v.Field(i)
if f.Kind() == reflect.String {
if obj, ok := objs[i].(String); ok {
f.Set(reflect.ValueOf(string(obj)))
} else {
return nil, fmt.Errorf("first argument of (Binding name node) must be string, but got %s", objs[i])
}
} else {
f.Set(reflect.ValueOf(objs[i]))
}
}
return v.Interface().(Node), nil
}
func (p *Parser) populateNode(typ string, objs []Node) (Node, error) {
return populateNode(typ, objs, p.AllowTypeInfo)
}
var structNodes = map[string]reflect.Type{
"Any": reflect.TypeOf(Any{}),
"Ellipsis": reflect.TypeOf(Ellipsis{}),
"List": reflect.TypeOf(List{}),
"Binding": reflect.TypeOf(Binding{}),
"RangeStmt": reflect.TypeOf(RangeStmt{}),
"AssignStmt": reflect.TypeOf(AssignStmt{}),
"IndexExpr": reflect.TypeOf(IndexExpr{}),
"Ident": reflect.TypeOf(Ident{}),
"Builtin": reflect.TypeOf(Builtin{}),
"ValueSpec": reflect.TypeOf(ValueSpec{}),
"GenDecl": reflect.TypeOf(GenDecl{}),
"BinaryExpr": reflect.TypeOf(BinaryExpr{}),
"ForStmt": reflect.TypeOf(ForStmt{}),
"ArrayType": reflect.TypeOf(ArrayType{}),
"DeferStmt": reflect.TypeOf(DeferStmt{}),
"MapType": reflect.TypeOf(MapType{}),
"ReturnStmt": reflect.TypeOf(ReturnStmt{}),
"SliceExpr": reflect.TypeOf(SliceExpr{}),
"StarExpr": reflect.TypeOf(StarExpr{}),
"UnaryExpr": reflect.TypeOf(UnaryExpr{}),
"SendStmt": reflect.TypeOf(SendStmt{}),
"SelectStmt": reflect.TypeOf(SelectStmt{}),
"ImportSpec": reflect.TypeOf(ImportSpec{}),
"IfStmt": reflect.TypeOf(IfStmt{}),
"GoStmt": reflect.TypeOf(GoStmt{}),
"Field": reflect.TypeOf(Field{}),
"SelectorExpr": reflect.TypeOf(SelectorExpr{}),
"StructType": reflect.TypeOf(StructType{}),
"KeyValueExpr": reflect.TypeOf(KeyValueExpr{}),
"FuncType": reflect.TypeOf(FuncType{}),
"FuncLit": reflect.TypeOf(FuncLit{}),
"FuncDecl": reflect.TypeOf(FuncDecl{}),
"ChanType": reflect.TypeOf(ChanType{}),
"CallExpr": reflect.TypeOf(CallExpr{}),
"CaseClause": reflect.TypeOf(CaseClause{}),
"CommClause": reflect.TypeOf(CommClause{}),
"CompositeLit": reflect.TypeOf(CompositeLit{}),
"EmptyStmt": reflect.TypeOf(EmptyStmt{}),
"SwitchStmt": reflect.TypeOf(SwitchStmt{}),
"TypeSwitchStmt": reflect.TypeOf(TypeSwitchStmt{}),
"TypeAssertExpr": reflect.TypeOf(TypeAssertExpr{}),
"TypeSpec": reflect.TypeOf(TypeSpec{}),
"InterfaceType": reflect.TypeOf(InterfaceType{}),
"BranchStmt": reflect.TypeOf(BranchStmt{}),
"IncDecStmt": reflect.TypeOf(IncDecStmt{}),
"BasicLit": reflect.TypeOf(BasicLit{}),
"Object": reflect.TypeOf(Object{}),
"Function": reflect.TypeOf(Function{}),
"Or": reflect.TypeOf(Or{}),
"Not": reflect.TypeOf(Not{}),
}
func (p *Parser) object() (Node, error) {
n := p.next()
switch n.typ {
case itemLeftParen:
p.rewind()
node, err := p.node()
if err != nil {
return node, err
}
if p.peek().typ == itemColon {
p.next()
tail, err := p.object()
if err != nil {
return node, err
}
return List{Head: node, Tail: tail}, nil
}
return node, nil
case itemLeftBracket:
p.rewind()
return p.array()
case itemVariable:
v := n
if v.val == "nil" {
return Nil{}, nil
}
var b Binding
if _, ok := p.accept(itemAt); ok {
o, err := p.node()
if err != nil {
return nil, err
}
b = Binding{
Name: v.val,
Node: o,
}
} else {
p.rewind()
b = Binding{Name: v.val}
}
if p.peek().typ == itemColon {
p.next()
tail, err := p.object()
if err != nil {
return b, err
}
return List{Head: b, Tail: tail}, nil
}
return b, nil
case itemBlank:
return Any{}, nil
case itemString:
return String(n.val), nil
default:
return nil, p.unexpectedToken("object")
}
}
func (p *Parser) array() (Node, error) {
if _, ok := p.accept(itemLeftBracket); !ok {
return nil, p.unexpectedToken("'['")
}
var objs []Node
for {
if _, ok := p.accept(itemRightBracket); ok {
break
} else {
p.rewind()
obj, err := p.object()
if err != nil {
return nil, err
}
objs = append(objs, obj)
}
}
tail := List{}
for i := len(objs) - 1; i >= 0; i-- {
l := List{
Head: objs[i],
Tail: tail,
}
tail = l
}
return tail, nil
}
/*
Node ::= itemLeftParen itemTypeName Object* itemRightParen
Object ::= Node | Array | Binding | itemVariable | itemBlank | itemString
Array := itemLeftBracket Object* itemRightBracket
Array := Object itemColon Object
Binding ::= itemVariable itemAt Node
*/