// Copyright 2016 Google Inc. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package parser import ( "fmt" "strings" "text/scanner" ) type Node interface { // Pos returns the position of the first token in the Node Pos() scanner.Position // End returns the position of the character after the last token in the Node End() scanner.Position } // Definition is an Assignment or a Module at the top level of a Blueprints file type Definition interface { Node String() string definitionTag() } // An Assignment is a variable assignment at the top level of a Blueprints file, scoped to the // file and and subdirs. type Assignment struct { Name string NamePos scanner.Position Value Expression OrigValue Expression EqualsPos scanner.Position Assigner string Referenced bool } func (a *Assignment) String() string { return fmt.Sprintf("%s@%s %s %s (%s) %t", a.Name, a.EqualsPos, a.Assigner, a.Value, a.OrigValue, a.Referenced) } func (a *Assignment) Pos() scanner.Position { return a.NamePos } func (a *Assignment) End() scanner.Position { return a.Value.End() } func (a *Assignment) definitionTag() {} // A Module is a module definition at the top level of a Blueprints file type Module struct { Type string TypePos scanner.Position Map } func (m *Module) Copy() *Module { ret := *m ret.Properties = make([]*Property, len(m.Properties)) for i := range m.Properties { ret.Properties[i] = m.Properties[i].Copy() } return &ret } func (m *Module) String() string { propertyStrings := make([]string, len(m.Properties)) for i, property := range m.Properties { propertyStrings[i] = property.String() } return fmt.Sprintf("%s@%s-%s{%s}", m.Type, m.LBracePos, m.RBracePos, strings.Join(propertyStrings, ", ")) } func (m *Module) definitionTag() {} func (m *Module) Pos() scanner.Position { return m.TypePos } func (m *Module) End() scanner.Position { return m.Map.End() } // A Property is a name: value pair within a Map, which may be a top level Module. type Property struct { Name string NamePos scanner.Position ColonPos scanner.Position Value Expression } func (p *Property) Copy() *Property { ret := *p ret.Value = p.Value.Copy() return &ret } func (p *Property) String() string { return fmt.Sprintf("%s@%s: %s", p.Name, p.ColonPos, p.Value) } func (p *Property) Pos() scanner.Position { return p.NamePos } func (p *Property) End() scanner.Position { return p.Value.End() } // An Expression is a Value in a Property or Assignment. It can be a literal (String or Bool), a // Map, a List, an Operator that combines two expressions of the same type, or a Variable that // references and Assignment. type Expression interface { Node // Copy returns a copy of the Expression that will not affect the original if mutated Copy() Expression String() string // Type returns the underlying Type enum of the Expression if it were to be evalutated Type() Type // Eval returns an expression that is fully evaluated to a simple type (List, Map, String, or // Bool). It will return the same object for every call to Eval(). Eval() Expression } // ExpressionsAreSame tells whether the two values are the same Expression. // This includes the symbolic representation of each Expression but not their positions in the original source tree. // This does not apply any simplification to the expressions before comparing them // (for example, "!!a" wouldn't be deemed equal to "a") func ExpressionsAreSame(a Expression, b Expression) (equal bool, err error) { return hackyExpressionsAreSame(a, b) } // TODO(jeffrygaston) once positions are removed from Expression structs, // remove this function and have callers use reflect.DeepEqual(a, b) func hackyExpressionsAreSame(a Expression, b Expression) (equal bool, err error) { if a.Type() != b.Type() { return false, nil } left, err := hackyFingerprint(a) if err != nil { return false, nil } right, err := hackyFingerprint(b) if err != nil { return false, nil } areEqual := string(left) == string(right) return areEqual, nil } func hackyFingerprint(expression Expression) (fingerprint []byte, err error) { assignment := &Assignment{"a", noPos, expression, expression, noPos, "=", false} module := &File{} module.Defs = append(module.Defs, assignment) p := newPrinter(module) return p.Print() } type Type int const ( BoolType Type = iota + 1 StringType Int64Type ListType MapType NotEvaluatedType ) func (t Type) String() string { switch t { case BoolType: return "bool" case StringType: return "string" case Int64Type: return "int64" case ListType: return "list" case MapType: return "map" case NotEvaluatedType: return "notevaluated" default: panic(fmt.Errorf("Unknown type %d", t)) } } type Operator struct { Args [2]Expression Operator rune OperatorPos scanner.Position Value Expression } func (x *Operator) Copy() Expression { ret := *x ret.Args[0] = x.Args[0].Copy() ret.Args[1] = x.Args[1].Copy() return &ret } func (x *Operator) Eval() Expression { return x.Value.Eval() } func (x *Operator) Type() Type { return x.Args[0].Type() } func (x *Operator) Pos() scanner.Position { return x.Args[0].Pos() } func (x *Operator) End() scanner.Position { return x.Args[1].End() } func (x *Operator) String() string { return fmt.Sprintf("(%s %c %s = %s)@%s", x.Args[0].String(), x.Operator, x.Args[1].String(), x.Value, x.OperatorPos) } type Variable struct { Name string NamePos scanner.Position Value Expression } func (x *Variable) Pos() scanner.Position { return x.NamePos } func (x *Variable) End() scanner.Position { return endPos(x.NamePos, len(x.Name)) } func (x *Variable) Copy() Expression { ret := *x return &ret } func (x *Variable) Eval() Expression { return x.Value.Eval() } func (x *Variable) String() string { return x.Name + " = " + x.Value.String() } func (x *Variable) Type() Type { return x.Value.Type() } type Map struct { LBracePos scanner.Position RBracePos scanner.Position Properties []*Property } func (x *Map) Pos() scanner.Position { return x.LBracePos } func (x *Map) End() scanner.Position { return endPos(x.RBracePos, 1) } func (x *Map) Copy() Expression { ret := *x ret.Properties = make([]*Property, len(x.Properties)) for i := range x.Properties { ret.Properties[i] = x.Properties[i].Copy() } return &ret } func (x *Map) Eval() Expression { return x } func (x *Map) String() string { propertyStrings := make([]string, len(x.Properties)) for i, property := range x.Properties { propertyStrings[i] = property.String() } return fmt.Sprintf("@%s-%s{%s}", x.LBracePos, x.RBracePos, strings.Join(propertyStrings, ", ")) } func (x *Map) Type() Type { return MapType } // GetProperty looks for a property with the given name. // It resembles the bracket operator of a built-in Golang map. func (x *Map) GetProperty(name string) (Property *Property, found bool) { prop, found, _ := x.getPropertyImpl(name) return prop, found // we don't currently expose the index to callers } func (x *Map) getPropertyImpl(name string) (Property *Property, found bool, index int) { for i, prop := range x.Properties { if prop.Name == name { return prop, true, i } } return nil, false, -1 } // GetProperty removes the property with the given name, if it exists. func (x *Map) RemoveProperty(propertyName string) (removed bool) { _, found, index := x.getPropertyImpl(propertyName) if found { x.Properties = append(x.Properties[:index], x.Properties[index+1:]...) } return found } type List struct { LBracePos scanner.Position RBracePos scanner.Position Values []Expression } func (x *List) Pos() scanner.Position { return x.LBracePos } func (x *List) End() scanner.Position { return endPos(x.RBracePos, 1) } func (x *List) Copy() Expression { ret := *x ret.Values = make([]Expression, len(x.Values)) for i := range ret.Values { ret.Values[i] = x.Values[i].Copy() } return &ret } func (x *List) Eval() Expression { return x } func (x *List) String() string { valueStrings := make([]string, len(x.Values)) for i, value := range x.Values { valueStrings[i] = value.String() } return fmt.Sprintf("@%s-%s[%s]", x.LBracePos, x.RBracePos, strings.Join(valueStrings, ", ")) } func (x *List) Type() Type { return ListType } type String struct { LiteralPos scanner.Position Value string } func (x *String) Pos() scanner.Position { return x.LiteralPos } func (x *String) End() scanner.Position { return endPos(x.LiteralPos, len(x.Value)+2) } func (x *String) Copy() Expression { ret := *x return &ret } func (x *String) Eval() Expression { return x } func (x *String) String() string { return fmt.Sprintf("%q@%s", x.Value, x.LiteralPos) } func (x *String) Type() Type { return StringType } type Int64 struct { LiteralPos scanner.Position Value int64 Token string } func (x *Int64) Pos() scanner.Position { return x.LiteralPos } func (x *Int64) End() scanner.Position { return endPos(x.LiteralPos, len(x.Token)) } func (x *Int64) Copy() Expression { ret := *x return &ret } func (x *Int64) Eval() Expression { return x } func (x *Int64) String() string { return fmt.Sprintf("%q@%s", x.Value, x.LiteralPos) } func (x *Int64) Type() Type { return Int64Type } type Bool struct { LiteralPos scanner.Position Value bool Token string } func (x *Bool) Pos() scanner.Position { return x.LiteralPos } func (x *Bool) End() scanner.Position { return endPos(x.LiteralPos, len(x.Token)) } func (x *Bool) Copy() Expression { ret := *x return &ret } func (x *Bool) Eval() Expression { return x } func (x *Bool) String() string { return fmt.Sprintf("%t@%s", x.Value, x.LiteralPos) } func (x *Bool) Type() Type { return BoolType } type CommentGroup struct { Comments []*Comment } func (x *CommentGroup) Pos() scanner.Position { return x.Comments[0].Pos() } func (x *CommentGroup) End() scanner.Position { return x.Comments[len(x.Comments)-1].End() } type Comment struct { Comment []string Slash scanner.Position } func (c Comment) Pos() scanner.Position { return c.Slash } func (c Comment) End() scanner.Position { pos := c.Slash for _, comment := range c.Comment { pos.Offset += len(comment) + 1 pos.Column = len(comment) + 1 } pos.Line += len(c.Comment) - 1 return pos } func (c Comment) String() string { l := 0 for _, comment := range c.Comment { l += len(comment) + 1 } buf := make([]byte, 0, l) for _, comment := range c.Comment { buf = append(buf, comment...) buf = append(buf, '\n') } return string(buf) + "@" + c.Slash.String() } // Return the text of the comment with // or /* and */ stripped func (c Comment) Text() string { l := 0 for _, comment := range c.Comment { l += len(comment) + 1 } buf := make([]byte, 0, l) blockComment := false if strings.HasPrefix(c.Comment[0], "/*") { blockComment = true } for i, comment := range c.Comment { if blockComment { if i == 0 { comment = strings.TrimPrefix(comment, "/*") } if i == len(c.Comment)-1 { comment = strings.TrimSuffix(comment, "*/") } } else { comment = strings.TrimPrefix(comment, "//") } buf = append(buf, comment...) buf = append(buf, '\n') } return string(buf) } type NotEvaluated struct { Position scanner.Position } func (n NotEvaluated) Copy() Expression { return NotEvaluated{Position: n.Position} } func (n NotEvaluated) String() string { return "Not Evaluated" } func (n NotEvaluated) Type() Type { return NotEvaluatedType } func (n NotEvaluated) Eval() Expression { return NotEvaluated{Position: n.Position} } func (n NotEvaluated) Pos() scanner.Position { return n.Position } func (n NotEvaluated) End() scanner.Position { return n.Position } func endPos(pos scanner.Position, n int) scanner.Position { pos.Offset += n pos.Column += n return pos }