/* 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 reads Jsonnet files and parses them into AST nodes. package parser import ( "fmt" "github.com/google/go-jsonnet/ast" "github.com/google/go-jsonnet/internal/errors" ) type precedence int const ( applyPrecedence precedence = 2 // ast.Function calls and indexing. unaryPrecedence precedence = 4 // Logical and bitwise negation, unary + - maxPrecedence precedence = 16 // ast.Local, If, ast.Import, ast.Function, Error ) var bopPrecedence = map[ast.BinaryOp]precedence{ ast.BopMult: 5, ast.BopDiv: 5, ast.BopPercent: 5, ast.BopPlus: 6, ast.BopMinus: 6, ast.BopShiftL: 7, ast.BopShiftR: 7, ast.BopGreater: 8, ast.BopGreaterEq: 8, ast.BopLess: 8, ast.BopLessEq: 8, ast.BopIn: 8, ast.BopManifestEqual: 9, ast.BopManifestUnequal: 9, ast.BopBitwiseAnd: 10, ast.BopBitwiseXor: 11, ast.BopBitwiseOr: 12, ast.BopAnd: 13, ast.BopOr: 14, } // --------------------------------------------------------------------------- func makeUnexpectedError(t *token, while string) errors.StaticError { return errors.MakeStaticError( fmt.Sprintf("Unexpected: %v", t), t.loc).WithContext(while) } func locFromTokens(begin, end *token) ast.LocationRange { return ast.LocationRangeBetween(&begin.loc, &end.loc) } func locFromTokenAST(begin *token, end ast.Node) ast.LocationRange { return ast.LocationRangeBetween(&begin.loc, end.Loc()) } // --------------------------------------------------------------------------- type parser struct { t Tokens currT int } func makeParser(t Tokens) *parser { return &parser{ t: t, } } func (p *parser) pop() *token { t := &p.t[p.currT] p.currT++ return t } func (p *parser) unexpectedTokenError(tk tokenKind, t *token) errors.StaticError { if tk == t.kind { panic("Unexpectedly expected token kind") } return errors.MakeStaticError(fmt.Sprintf("Expected token %v but got %v", tk, t), t.loc) } func (p *parser) popExpect(tk tokenKind) (*token, errors.StaticError) { t := p.pop() if t.kind != tk { return nil, p.unexpectedTokenError(tk, t) } return t, nil } func (p *parser) popExpectOp(op string) (*token, errors.StaticError) { t := p.pop() if t.kind != tokenOperator || t.data != op { return nil, errors.MakeStaticError( fmt.Sprintf("Expected operator %v but got %v", op, t), t.loc) } return t, nil } func (p *parser) peek() *token { return &p.t[p.currT] } func (p *parser) doublePeek() *token { return &p.t[p.currT+1] } // parseArgument parses either id = expr or just expr. // It returns either (, id, , expr) or (nil, nil, nil, expr) // respectively. func (p *parser) parseArgument() (ast.Fodder, *ast.Identifier, ast.Fodder, ast.Node, errors.StaticError) { var idFodder ast.Fodder var id *ast.Identifier var eqFodder ast.Fodder if p.peek().kind == tokenIdentifier && p.doublePeek().kind == tokenOperator && p.doublePeek().data == "=" { ident := p.pop() var tmpID = ast.Identifier(ident.data) id = &tmpID idFodder = ident.fodder eq := p.pop() eqFodder = eq.fodder } expr, err := p.parse(maxPrecedence) if err != nil { return nil, nil, nil, nil, err } return idFodder, id, eqFodder, expr, nil } // TODO(sbarzowski) - this returned bool is weird func (p *parser) parseArguments(elementKind string) (*token, *ast.Arguments, bool, errors.StaticError) { args := &ast.Arguments{} gotComma := false namedArgumentAdded := false first := true for { commaFodder := ast.Fodder{} next := p.peek() if next.kind == tokenParenR { // gotComma can be true or false here. return p.pop(), args, gotComma, nil } if !first && !gotComma { return nil, nil, false, errors.MakeStaticError(fmt.Sprintf("Expected a comma before next %s, got %s", elementKind, next), next.loc) } idFodder, id, eqFodder, expr, err := p.parseArgument() if err != nil { return nil, nil, false, err } if p.peek().kind == tokenComma { comma := p.pop() gotComma = true commaFodder = comma.fodder } else { gotComma = false } if id == nil { if namedArgumentAdded { return nil, nil, false, errors.MakeStaticError("Positional argument after a named argument is not allowed", next.loc) } el := ast.CommaSeparatedExpr{Expr: expr} if gotComma { el.CommaFodder = commaFodder } args.Positional = append(args.Positional, el) } else { namedArgumentAdded = true args.Named = append(args.Named, ast.NamedArgument{ NameFodder: idFodder, Name: *id, EqFodder: eqFodder, Arg: expr, CommaFodder: commaFodder, }) } first = false } } // parseParameter parses either id = expr or just id. // It returns either (, id, , expr) or (, id, nil, nil) // respectively. func (p *parser) parseParameter() (ast.Parameter, errors.StaticError) { ret := ast.Parameter{} ident, err := p.popExpect(tokenIdentifier) if err != nil { return ret, err.WithContext("parsing parameter") } ret.Name = ast.Identifier(ident.data) ret.NameFodder = ident.fodder ret.LocRange = ident.loc if p.peek().kind == tokenOperator && p.peek().data == "=" { eq := p.pop() ret.EqFodder = eq.fodder ret.DefaultArg, err = p.parse(maxPrecedence) if err != nil { return ret, err } ret.LocRange = locFromTokenAST(ident, ret.DefaultArg) } return ret, nil } // TODO(sbarzowski) - this returned bool is weird func (p *parser) parseParameters(elementKind string) (*token, []ast.Parameter, bool, errors.StaticError) { var parenR *token var params []ast.Parameter gotComma := false first := true for { next := p.peek() if next.kind == tokenParenR { // gotComma can be true or false here. parenR = p.pop() break } if !first && !gotComma { return nil, nil, false, errors.MakeStaticError(fmt.Sprintf("Expected a comma before next %s, got %s", elementKind, next), next.loc) } param, err := p.parseParameter() if err != nil { return nil, nil, false, err } if p.peek().kind == tokenComma { comma := p.pop() param.CommaFodder = comma.fodder gotComma = true } else { gotComma = false } params = append(params, param) first = false } return parenR, params, gotComma, nil } // TODO(sbarzowski) add location to all individual binds func (p *parser) parseBind(binds *ast.LocalBinds) (*token, errors.StaticError) { varID, popErr := p.popExpect(tokenIdentifier) if popErr != nil { return nil, popErr } for _, b := range *binds { if b.Variable == ast.Identifier(varID.data) { return nil, errors.MakeStaticError(fmt.Sprintf("Duplicate local var: %v", varID.data), varID.loc) } } var fun *ast.Function if p.peek().kind == tokenParenL { parenL := p.pop() parenR, params, gotComma, err := p.parseParameters("function parameter") if err != nil { return nil, err } fun = &ast.Function{ ParenLeftFodder: parenL.fodder, Parameters: params, TrailingComma: gotComma, ParenRightFodder: parenR.fodder, // Body gets filled in later. } } eqToken, popErr := p.popExpectOp("=") if popErr != nil { return nil, popErr } body, err := p.parse(maxPrecedence) if err != nil { return nil, err } delim := p.pop() if delim.kind != tokenSemicolon && delim.kind != tokenComma { return nil, errors.MakeStaticError(fmt.Sprintf("Expected , or ; but got %v", delim), delim.loc) } if fun != nil { fun.NodeBase = ast.NewNodeBaseLoc(locFromTokenAST(varID, body), nil) fun.Body = body *binds = append(*binds, ast.LocalBind{ VarFodder: varID.fodder, Variable: ast.Identifier(varID.data), EqFodder: eqToken.fodder, Body: body, Fun: fun, CloseFodder: delim.fodder, LocRange: locFromTokenAST(varID, body), }) } else { *binds = append(*binds, ast.LocalBind{ VarFodder: varID.fodder, Variable: ast.Identifier(varID.data), EqFodder: eqToken.fodder, Body: body, CloseFodder: delim.fodder, LocRange: locFromTokenAST(varID, body), }) } return delim, nil } func (p *parser) parseObjectAssignmentOp() (opFodder ast.Fodder, plusSugar bool, hide ast.ObjectFieldHide, err errors.StaticError) { op, err := p.popExpect(tokenOperator) if err != nil { return } opFodder = op.fodder opStr := op.data if opStr[0] == '+' { plusSugar = true opStr = opStr[1:] } numColons := 0 for len(opStr) > 0 { if opStr[0] != ':' { err = errors.MakeStaticError( fmt.Sprintf("Expected one of :, ::, :::, +:, +::, +:::, got: %v", op.data), op.loc) return } opStr = opStr[1:] numColons++ } switch numColons { case 1: hide = ast.ObjectFieldInherit case 2: hide = ast.ObjectFieldHidden case 3: hide = ast.ObjectFieldVisible default: err = errors.MakeStaticError( fmt.Sprintf("Expected one of :, ::, :::, +:, +::, +:::, got: %v", op.data), op.loc) return } return } // A LiteralField is a field of an object or object comprehension. // +gen set type LiteralField string func (p *parser) parseObjectRemainderComp(fields ast.ObjectFields, gotComma bool, tok *token, next *token) (ast.Node, *token, errors.StaticError) { numFields := 0 numAsserts := 0 var field ast.ObjectField for _, f := range fields { if f.Kind == ast.ObjectLocal { continue } if f.Kind == ast.ObjectAssert { numAsserts++ continue } numFields++ field = f } if numAsserts > 0 { return nil, nil, errors.MakeStaticError("Object comprehension cannot have asserts", next.loc) } if numFields != 1 { return nil, nil, errors.MakeStaticError("Object comprehension can only have one field", next.loc) } if field.Hide != ast.ObjectFieldInherit { return nil, nil, errors.MakeStaticError("Object comprehensions cannot have hidden fields", next.loc) } if field.Kind != ast.ObjectFieldExpr { return nil, nil, errors.MakeStaticError("Object comprehensions can only have [e] fields", next.loc) } spec, last, err := p.parseComprehensionSpecs(next, tokenBraceR) if err != nil { return nil, nil, err } return &ast.ObjectComp{ NodeBase: ast.NewNodeBaseLoc(locFromTokens(tok, last), tok.fodder), Fields: fields, TrailingComma: gotComma, Spec: *spec, CloseFodder: last.fodder, }, last, nil } func (p *parser) parseObjectRemainderField(literalFields *LiteralFieldSet, tok *token, next *token) (*ast.ObjectField, errors.StaticError) { var kind ast.ObjectFieldKind var fodder1 ast.Fodder var expr1 ast.Node var id *ast.Identifier var fodder2 ast.Fodder switch next.kind { case tokenIdentifier: kind = ast.ObjectFieldID id = (*ast.Identifier)(&next.data) fodder1 = next.fodder case tokenStringDouble, tokenStringSingle, tokenStringBlock, tokenVerbatimStringDouble, tokenVerbatimStringSingle: kind = ast.ObjectFieldStr expr1 = tokenStringToAst(next) default: fodder1 = next.fodder kind = ast.ObjectFieldExpr var err errors.StaticError expr1, err = p.parse(maxPrecedence) if err != nil { return nil, err } bracketR, err := p.popExpect(tokenBracketR) if err != nil { return nil, err } fodder2 = bracketR.fodder } isMethod := false methComma := false var parenL *token var parenR *token var params []ast.Parameter if p.peek().kind == tokenParenL { parenL = p.pop() var err errors.StaticError parenR, params, methComma, err = p.parseParameters("method parameter") if err != nil { return nil, err } isMethod = true } opFodder, plusSugar, hide, err := p.parseObjectAssignmentOp() if err != nil { return nil, err } if plusSugar && isMethod { return nil, errors.MakeStaticError( fmt.Sprintf("Cannot use +: syntax sugar in a method: %v", next.data), next.loc) } if kind != ast.ObjectFieldExpr { if !literalFields.Add(LiteralField(next.data)) { return nil, errors.MakeStaticError( fmt.Sprintf("Duplicate field: %v", next.data), next.loc) } } body, err := p.parse(maxPrecedence) if err != nil { return nil, err } var method *ast.Function if isMethod { method = &ast.Function{ ParenLeftFodder: parenL.fodder, Parameters: params, TrailingComma: methComma, ParenRightFodder: parenR.fodder, Body: body, } } var commaFodder ast.Fodder if p.peek().kind == tokenComma { commaFodder = p.peek().fodder } return &ast.ObjectField{ Kind: kind, Hide: hide, SuperSugar: plusSugar, Method: method, Fodder1: fodder1, Expr1: expr1, Id: id, Fodder2: fodder2, OpFodder: opFodder, Expr2: body, CommaFodder: commaFodder, LocRange: locFromTokenAST(next, body), }, nil } func (p *parser) parseObjectRemainderLocal(binds *ast.IdentifierSet, tok *token, next *token) (*ast.ObjectField, errors.StaticError) { varID, popErr := p.popExpect(tokenIdentifier) if popErr != nil { return nil, popErr } id := ast.Identifier(varID.data) if binds.Contains(id) { return nil, errors.MakeStaticError(fmt.Sprintf("Duplicate local var: %v", id), varID.loc) } // TODO(sbarzowski) Can we reuse regular local bind parsing here? isMethod := false funcComma := false var parenL *token var parenR *token var params []ast.Parameter if p.peek().kind == tokenParenL { parenL = p.pop() isMethod = true var err errors.StaticError parenR, params, funcComma, err = p.parseParameters("function parameter") if err != nil { return nil, err } } opToken, popErr := p.popExpectOp("=") if popErr != nil { return nil, popErr } body, err := p.parse(maxPrecedence) if err != nil { return nil, err } var method *ast.Function if isMethod { method = &ast.Function{ ParenLeftFodder: parenL.fodder, Parameters: params, ParenRightFodder: parenR.fodder, TrailingComma: funcComma, Body: body, } } binds.Add(id) var commaFodder ast.Fodder if p.peek().kind == tokenComma { commaFodder = p.peek().fodder } return &ast.ObjectField{ Kind: ast.ObjectLocal, Hide: ast.ObjectFieldVisible, SuperSugar: false, Method: method, Fodder1: next.fodder, Fodder2: varID.fodder, Id: &id, OpFodder: opToken.fodder, Expr2: body, CommaFodder: commaFodder, LocRange: locFromTokenAST(varID, body), }, nil } func (p *parser) parseObjectRemainderAssert(tok *token, next *token) (*ast.ObjectField, errors.StaticError) { cond, err := p.parse(maxPrecedence) if err != nil { return nil, err } lastAST := cond // for determining location var msg ast.Node var colonFodder ast.Fodder if p.peek().kind == tokenOperator && p.peek().data == ":" { colonToken := p.pop() colonFodder = colonToken.fodder msg, err = p.parse(maxPrecedence) if err != nil { return nil, err } lastAST = msg } var commaFodder ast.Fodder if p.peek().kind == tokenComma { commaFodder = p.peek().fodder } return &ast.ObjectField{ Kind: ast.ObjectAssert, Hide: ast.ObjectFieldVisible, Fodder1: next.fodder, Expr2: cond, OpFodder: colonFodder, Expr3: msg, CommaFodder: commaFodder, LocRange: locFromTokenAST(next, lastAST), }, nil } // Parse object or object comprehension without leading brace func (p *parser) parseObjectRemainder(tok *token) (ast.Node, *token, errors.StaticError) { var fields ast.ObjectFields literalFields := make(LiteralFieldSet) binds := make(ast.IdentifierSet) gotComma := false first := true next := p.pop() for { if next.kind == tokenBraceR { return &ast.Object{ NodeBase: ast.NewNodeBaseLoc(locFromTokens(tok, next), tok.fodder), Fields: fields, TrailingComma: gotComma, CloseFodder: next.fodder, }, next, nil } if next.kind == tokenFor { // It's a comprehension return p.parseObjectRemainderComp(fields, gotComma, tok, next) } if !gotComma && !first { return nil, nil, errors.MakeStaticError("Expected a comma before next field", next.loc) } var field *ast.ObjectField var err errors.StaticError switch next.kind { case tokenBracketL, tokenIdentifier, tokenStringDouble, tokenStringSingle, tokenStringBlock, tokenVerbatimStringDouble, tokenVerbatimStringSingle: field, err = p.parseObjectRemainderField(&literalFields, tok, next) if err != nil { return nil, nil, err } case tokenLocal: field, err = p.parseObjectRemainderLocal(&binds, tok, next) if err != nil { return nil, nil, err } case tokenAssert: field, err = p.parseObjectRemainderAssert(tok, next) if err != nil { return nil, nil, err } default: return nil, nil, makeUnexpectedError(next, "parsing field definition") } fields = append(fields, *field) next = p.pop() if next.kind == tokenComma { gotComma = true next = p.pop() } else { gotComma = false } first = false } } /* parses for x in expr for y in expr if expr for z in expr ... */ func (p *parser) parseComprehensionSpecs(forToken *token, end tokenKind) (*ast.ForSpec, *token, errors.StaticError) { var parseComprehensionSpecsHelper func(forToken *token, outer *ast.ForSpec) (*ast.ForSpec, *token, errors.StaticError) parseComprehensionSpecsHelper = func(forToken *token, outer *ast.ForSpec) (*ast.ForSpec, *token, errors.StaticError) { var ifSpecs []ast.IfSpec varID, popErr := p.popExpect(tokenIdentifier) if popErr != nil { return nil, nil, popErr } id := ast.Identifier(varID.data) inToken, err := p.popExpect(tokenIn) if err != nil { return nil, nil, err } arr, err := p.parse(maxPrecedence) if err != nil { return nil, nil, err } forSpec := &ast.ForSpec{ ForFodder: forToken.fodder, VarFodder: varID.fodder, VarName: id, InFodder: inToken.fodder, Expr: arr, Outer: outer, } maybeIf := p.pop() for ; maybeIf.kind == tokenIf; maybeIf = p.pop() { cond, err := p.parse(maxPrecedence) if err != nil { return nil, nil, err } ifSpecs = append(ifSpecs, ast.IfSpec{ IfFodder: maybeIf.fodder, Expr: cond, }) } forSpec.Conditions = ifSpecs if maybeIf.kind == end { return forSpec, maybeIf, nil } if maybeIf.kind != tokenFor { return nil, nil, errors.MakeStaticError( fmt.Sprintf("Expected for, if or %v after for clause, got: %v", end, maybeIf), maybeIf.loc) } return parseComprehensionSpecsHelper(maybeIf, forSpec) } return parseComprehensionSpecsHelper(forToken, nil) } // Assumes that the leading '[' has already been consumed and passed as tok. // Should read up to and consume the trailing ']' func (p *parser) parseArray(tok *token) (ast.Node, errors.StaticError) { if p.peek().kind == tokenBracketR { bracketR := p.pop() return &ast.Array{ NodeBase: ast.NewNodeBaseLoc(locFromTokens(tok, bracketR), tok.fodder), CloseFodder: bracketR.fodder, }, nil } first, err := p.parse(maxPrecedence) if err != nil { return nil, err } var gotComma bool var commaFodder ast.Fodder if p.peek().kind == tokenComma { comma := p.pop() gotComma = true commaFodder = comma.fodder } if p.peek().kind == tokenFor { // It's a comprehension forToken := p.pop() spec, last, err := p.parseComprehensionSpecs(forToken, tokenBracketR) if err != nil { return nil, err } return &ast.ArrayComp{ NodeBase: ast.NewNodeBaseLoc(locFromTokens(tok, last), tok.fodder), Body: first, TrailingComma: gotComma, TrailingCommaFodder: commaFodder, Spec: *spec, CloseFodder: last.fodder, }, nil } // Not a comprehension: It can have more elements. elements := []ast.CommaSeparatedExpr{{ Expr: first, CommaFodder: commaFodder, }} var bracketR *token for { next := p.peek() if next.kind == tokenBracketR { bracketR = p.pop() break } if !gotComma { return nil, errors.MakeStaticError("Expected a comma before next array element", next.loc) } nextElem, err := p.parse(maxPrecedence) if err != nil { return nil, err } element := ast.CommaSeparatedExpr{ Expr: nextElem, } if p.peek().kind == tokenComma { comma := p.pop() gotComma = true element.CommaFodder = comma.fodder } else { gotComma = false } elements = append(elements, element) } return &ast.Array{ NodeBase: ast.NewNodeBaseLoc(locFromTokens(tok, bracketR), tok.fodder), Elements: elements, TrailingComma: gotComma, CloseFodder: bracketR.fodder, }, nil } func tokenStringToAst(tok *token) *ast.LiteralString { switch tok.kind { case tokenStringSingle: return &ast.LiteralString{ NodeBase: ast.NewNodeBaseLoc(tok.loc, tok.fodder), Value: tok.data, Kind: ast.StringSingle, } case tokenStringDouble: return &ast.LiteralString{ NodeBase: ast.NewNodeBaseLoc(tok.loc, tok.fodder), Value: tok.data, Kind: ast.StringDouble, } case tokenStringBlock: return &ast.LiteralString{ NodeBase: ast.NewNodeBaseLoc(tok.loc, tok.fodder), Value: tok.data, Kind: ast.StringBlock, BlockIndent: tok.stringBlockIndent, BlockTermIndent: tok.stringBlockTermIndent, } case tokenVerbatimStringDouble: return &ast.LiteralString{ NodeBase: ast.NewNodeBaseLoc(tok.loc, tok.fodder), Value: tok.data, Kind: ast.VerbatimStringDouble, } case tokenVerbatimStringSingle: return &ast.LiteralString{ NodeBase: ast.NewNodeBaseLoc(tok.loc, tok.fodder), Value: tok.data, Kind: ast.VerbatimStringSingle, } default: panic(fmt.Sprintf("Not a string token %#+v", tok)) } } func (p *parser) parseTerminal() (ast.Node, errors.StaticError) { tok := p.pop() switch tok.kind { case tokenAssert, tokenBraceR, tokenBracketR, tokenComma, tokenDot, tokenElse, tokenError, tokenFor, tokenFunction, tokenIf, tokenIn, tokenImport, tokenImportStr, tokenImportBin, tokenLocal, tokenOperator, tokenParenR, tokenSemicolon, tokenTailStrict, tokenThen: return nil, makeUnexpectedError(tok, "parsing terminal") case tokenEndOfFile: return nil, errors.MakeStaticError("Unexpected end of file", tok.loc) case tokenBraceL: obj, _, err := p.parseObjectRemainder(tok) return obj, err case tokenBracketL: return p.parseArray(tok) case tokenParenL: inner, err := p.parse(maxPrecedence) if err != nil { return nil, err } tokRight, err := p.popExpect(tokenParenR) if err != nil { return nil, err } return &ast.Parens{ NodeBase: ast.NewNodeBaseLoc(locFromTokens(tok, tokRight), tok.fodder), Inner: inner, CloseFodder: tokRight.fodder, }, nil // Literals case tokenNumber: return &ast.LiteralNumber{ NodeBase: ast.NewNodeBaseLoc(tok.loc, tok.fodder), OriginalString: tok.data, }, nil case tokenStringDouble, tokenStringSingle, tokenStringBlock, tokenVerbatimStringDouble, tokenVerbatimStringSingle: return tokenStringToAst(tok), nil case tokenFalse: return &ast.LiteralBoolean{ NodeBase: ast.NewNodeBaseLoc(tok.loc, tok.fodder), Value: false, }, nil case tokenTrue: return &ast.LiteralBoolean{ NodeBase: ast.NewNodeBaseLoc(tok.loc, tok.fodder), Value: true, }, nil case tokenNullLit: return &ast.LiteralNull{ NodeBase: ast.NewNodeBaseLoc(tok.loc, tok.fodder), }, nil // Variables case tokenDollar: return &ast.Dollar{ NodeBase: ast.NewNodeBaseLoc(tok.loc, tok.fodder), }, nil case tokenIdentifier: return &ast.Var{ NodeBase: ast.NewNodeBaseLoc(tok.loc, tok.fodder), Id: ast.Identifier(tok.data), }, nil case tokenSelf: return &ast.Self{ NodeBase: ast.NewNodeBaseLoc(tok.loc, tok.fodder), }, nil case tokenSuper: next := p.pop() var index ast.Node var id *ast.Identifier var idFodder ast.Fodder switch next.kind { case tokenDot: fieldID, err := p.popExpect(tokenIdentifier) if err != nil { return nil, err } idFodder = fieldID.fodder id = (*ast.Identifier)(&fieldID.data) case tokenBracketL: var err errors.StaticError index, err = p.parse(maxPrecedence) if err != nil { return nil, err } bracketR, err := p.popExpect(tokenBracketR) if err != nil { return nil, err } idFodder = bracketR.fodder default: return nil, errors.MakeStaticError("Expected . or [ after super", tok.loc) } return &ast.SuperIndex{ NodeBase: ast.NewNodeBaseLoc(tok.loc, tok.fodder), DotFodder: next.fodder, Index: index, IDFodder: idFodder, Id: id, }, nil } return nil, errors.MakeStaticError(fmt.Sprintf("INTERNAL ERROR: Unknown tok kind: %v", tok.kind), tok.loc) } func (p *parser) parsingFailure(msg string, tok *token) (ast.Node, errors.StaticError) { return nil, errors.MakeStaticError(msg, tok.loc) } func (p *parser) parse(prec precedence) (ast.Node, errors.StaticError) { begin := p.peek() switch begin.kind { // These cases have effectively maxPrecedence as the first // call to parse will parse them. case tokenAssert: p.pop() cond, err := p.parse(maxPrecedence) if err != nil { return nil, err } var msg ast.Node var colonFodder ast.Fodder if p.peek().kind == tokenOperator && p.peek().data == ":" { colon := p.pop() colonFodder = colon.fodder msg, err = p.parse(maxPrecedence) if err != nil { return nil, err } } semicolon, err := p.popExpect(tokenSemicolon) if err != nil { return nil, err } rest, err := p.parse(maxPrecedence) if err != nil { return nil, err } return &ast.Assert{ NodeBase: ast.NewNodeBaseLoc(locFromTokenAST(begin, rest), begin.fodder), Cond: cond, ColonFodder: colonFodder, Message: msg, SemicolonFodder: semicolon.fodder, Rest: rest, }, nil case tokenError: p.pop() expr, err := p.parse(maxPrecedence) if err != nil { return nil, err } return &ast.Error{ NodeBase: ast.NewNodeBaseLoc(locFromTokenAST(begin, expr), begin.fodder), Expr: expr, }, nil case tokenIf: p.pop() cond, err := p.parse(maxPrecedence) if err != nil { return nil, err } thenToken, err := p.popExpect(tokenThen) if err != nil { return nil, err } branchTrue, err := p.parse(maxPrecedence) if err != nil { return nil, err } var branchFalse ast.Node var elseFodder ast.Fodder lr := locFromTokenAST(begin, branchTrue) if p.peek().kind == tokenElse { elseToken := p.pop() elseFodder = elseToken.fodder branchFalse, err = p.parse(maxPrecedence) if err != nil { return nil, err } lr = locFromTokenAST(begin, branchFalse) } return &ast.Conditional{ NodeBase: ast.NewNodeBaseLoc(lr, begin.fodder), Cond: cond, ThenFodder: thenToken.fodder, BranchTrue: branchTrue, ElseFodder: elseFodder, BranchFalse: branchFalse, }, nil case tokenFunction: p.pop() next := p.pop() if next.kind != tokenParenL { return nil, errors.MakeStaticError(fmt.Sprintf("Expected ( but got %v", next), next.loc) } parenR, params, gotComma, err := p.parseParameters("function parameter") if err != nil { return nil, err } body, err := p.parse(maxPrecedence) if err != nil { return nil, err } return &ast.Function{ NodeBase: ast.NewNodeBaseLoc(locFromTokenAST(begin, body), begin.fodder), ParenLeftFodder: next.fodder, Parameters: params, TrailingComma: gotComma, ParenRightFodder: parenR.fodder, Body: body, }, nil case tokenImport: p.pop() body, err := p.parse(maxPrecedence) if err != nil { return nil, err } if lit, ok := body.(*ast.LiteralString); ok { if lit.Kind == ast.StringBlock { return nil, errors.MakeStaticError("Block string literals not allowed in imports", *body.Loc()) } return &ast.Import{ NodeBase: ast.NewNodeBaseLoc(locFromTokenAST(begin, body), begin.fodder), File: lit, }, nil } return nil, errors.MakeStaticError("Computed imports are not allowed", *body.Loc()) case tokenImportStr: p.pop() body, err := p.parse(maxPrecedence) if err != nil { return nil, err } if lit, ok := body.(*ast.LiteralString); ok { if lit.Kind == ast.StringBlock { return nil, errors.MakeStaticError("Block string literals not allowed in imports", *body.Loc()) } return &ast.ImportStr{ NodeBase: ast.NewNodeBaseLoc(locFromTokenAST(begin, body), begin.fodder), File: lit, }, nil } return nil, errors.MakeStaticError("Computed imports are not allowed", *body.Loc()) case tokenImportBin: p.pop() body, err := p.parse(maxPrecedence) if err != nil { return nil, err } if lit, ok := body.(*ast.LiteralString); ok { if lit.Kind == ast.StringBlock { return nil, errors.MakeStaticError("Block string literals not allowed in imports", *body.Loc()) } return &ast.ImportBin{ NodeBase: ast.NewNodeBaseLoc(locFromTokenAST(begin, body), begin.fodder), File: lit, }, nil } return nil, errors.MakeStaticError("Computed imports are not allowed", *body.Loc()) case tokenLocal: p.pop() var binds ast.LocalBinds for { delim, err := p.parseBind(&binds) if err != nil { return nil, err } if delim.kind == tokenSemicolon { break } } body, err := p.parse(maxPrecedence) if err != nil { return nil, err } return &ast.Local{ NodeBase: ast.NewNodeBaseLoc(locFromTokenAST(begin, body), begin.fodder), Binds: binds, Body: body, }, nil default: // ast.Unary operator if begin.kind == tokenOperator { uop, ok := ast.UopMap[begin.data] if !ok { return nil, errors.MakeStaticError(fmt.Sprintf("Not a unary operator: %v", begin.data), begin.loc) } if prec == unaryPrecedence { op := p.pop() expr, err := p.parse(prec) if err != nil { return nil, err } return &ast.Unary{ NodeBase: ast.NewNodeBaseLoc(locFromTokenAST(op, expr), begin.fodder), Op: uop, Expr: expr, }, nil } } // Base case if prec == 0 { return p.parseTerminal() } lhs, err := p.parse(prec - 1) if err != nil { return nil, err } for { // Then next token must be a binary operator. var bop ast.BinaryOp // Check precedence is correct for this level. If we're parsing operators // with higher precedence, then return lhs and let lower levels deal with // the operator. switch p.peek().kind { case tokenIn: bop = ast.BopIn if bopPrecedence[bop] != prec { return lhs, nil } case tokenOperator: _ = "breakpoint" if p.peek().data == ":" { // Special case for the colons in assert. Since COLON is no-longer a // special token, we have to make sure it does not trip the // op_is_binary test below. It should terminate parsing of the // expression here, returning control to the parsing of the actual // assert AST. return lhs, nil } if p.peek().data == "::" { // Special case for [e::] // We need to stop parsing e when we see the :: and // avoid tripping the op_is_binary test below. return lhs, nil } var ok bool bop, ok = ast.BopMap[p.peek().data] if !ok { return nil, errors.MakeStaticError(fmt.Sprintf("Not a binary operator: %v", p.peek().data), p.peek().loc) } if bopPrecedence[bop] != prec { return lhs, nil } case tokenDot, tokenBracketL, tokenParenL, tokenBraceL: if applyPrecedence != prec { return lhs, nil } default: return lhs, nil } op := p.pop() switch op.kind { case tokenBracketL: // handle slice var indexes [3]ast.Node var fodders [3]ast.Fodder colonsConsumed := 0 var end *token readyForNextIndex := true var rightBracketFodder ast.Fodder for colonsConsumed < 3 { if p.peek().kind == tokenBracketR { end = p.pop() rightBracketFodder = end.fodder break } else if p.peek().data == ":" { end = p.pop() fodders[colonsConsumed] = end.fodder colonsConsumed++ readyForNextIndex = true } else if p.peek().data == "::" { end = p.pop() fodders[colonsConsumed] = end.fodder colonsConsumed += 2 readyForNextIndex = true } else if readyForNextIndex { indexes[colonsConsumed], err = p.parse(maxPrecedence) if err != nil { return nil, err } readyForNextIndex = false } else { return nil, p.unexpectedTokenError(tokenBracketR, p.peek()) } } if colonsConsumed > 2 { // example: target[42:42:42:42] return p.parsingFailure("Invalid slice: too many colons", end) } if colonsConsumed == 0 && readyForNextIndex { // example: target[] return p.parsingFailure("ast.Index requires an expression", end) } isSlice := colonsConsumed > 0 if isSlice { lhs = &ast.Slice{ NodeBase: ast.NewNodeBaseLoc(locFromTokens(begin, end), ast.Fodder{}), Target: lhs, LeftBracketFodder: op.fodder, BeginIndex: indexes[0], EndColonFodder: fodders[0], EndIndex: indexes[1], StepColonFodder: fodders[1], Step: indexes[2], RightBracketFodder: rightBracketFodder, } } else { lhs = &ast.Index{ NodeBase: ast.NewNodeBaseLoc(locFromTokens(begin, end), ast.Fodder{}), Target: lhs, LeftBracketFodder: op.fodder, Index: indexes[0], RightBracketFodder: rightBracketFodder, } } case tokenDot: fieldID, err := p.popExpect(tokenIdentifier) if err != nil { return nil, err } id := ast.Identifier(fieldID.data) lhs = &ast.Index{ NodeBase: ast.NewNodeBaseLoc(locFromTokens(begin, fieldID), ast.Fodder{}), Target: lhs, LeftBracketFodder: op.fodder, Id: &id, RightBracketFodder: fieldID.fodder, } case tokenParenL: end, args, gotComma, err := p.parseArguments("function argument") if err != nil { return nil, err } tailStrict := false var tailStrictFodder ast.Fodder if p.peek().kind == tokenTailStrict { tailStrictTok := p.pop() tailStrictFodder = tailStrictTok.fodder tailStrict = true } lhs = &ast.Apply{ NodeBase: ast.NewNodeBaseLoc(locFromTokens(begin, end), ast.Fodder{}), Target: lhs, FodderLeft: op.fodder, Arguments: *args, TrailingComma: gotComma, FodderRight: end.fodder, TailStrict: tailStrict, TailStrictFodder: tailStrictFodder, } case tokenBraceL: obj, end, err := p.parseObjectRemainder(op) if err != nil { return nil, err } lhs = &ast.ApplyBrace{ NodeBase: ast.NewNodeBaseLoc(locFromTokens(begin, end), ast.Fodder{}), Left: lhs, Right: obj, } default: if op.kind == tokenIn && p.peek().kind == tokenSuper { super := p.pop() lhs = &ast.InSuper{ NodeBase: ast.NewNodeBaseLoc(locFromTokens(begin, super), ast.Fodder{}), Index: lhs, InFodder: op.fodder, SuperFodder: super.fodder, } } else { rhs, err := p.parse(prec - 1) if err != nil { return nil, err } lhs = &ast.Binary{ NodeBase: ast.NewNodeBaseLoc(locFromTokenAST(begin, rhs), ast.Fodder{}), Left: lhs, OpFodder: op.fodder, Op: bop, Right: rhs, } } } } } } // --------------------------------------------------------------------------- // Parse parses a slice of tokens into a parse tree. Any fodder after the final token is // returned as well. func Parse(t Tokens) (ast.Node, ast.Fodder, errors.StaticError) { p := makeParser(t) expr, err := p.parse(maxPrecedence) if err != nil { return nil, nil, err } eof := p.peek() if eof.kind != tokenEndOfFile { return nil, nil, errors.MakeStaticError(fmt.Sprintf("Did not expect: %v", eof), eof.loc) } addContext(expr, &topLevelContext, anonymous) return expr, eof.fodder, nil } // SnippetToRawAST converts a Jsonnet code snippet to an AST (without any transformations). // Any fodder after the final token is returned as well. func SnippetToRawAST(diagnosticFilename ast.DiagnosticFileName, importedFilename, snippet string) (ast.Node, ast.Fodder, error) { tokens, err := Lex(diagnosticFilename, importedFilename, snippet) if err != nil { return nil, nil, err } return Parse(tokens) }