package qcode import ( "errors" "fmt" "sync" "github.com/dosco/super-graph/util" ) var ( errEOT = errors.New("end of tokens") ) type parserType int32 const ( maxFields = 100 maxArgs = 10 parserError parserType = iota parserEOF opQuery opMutate opSub nodeStr nodeInt nodeFloat nodeBool nodeObj nodeList nodeVar ) type Operation struct { Type parserType Name string Args []Arg argsA [10]Arg Fields []Field fieldsA [10]Field } var zeroOperation = Operation{} func (o *Operation) Reset() { *o = zeroOperation } type Field struct { ID int32 ParentID int32 Name string Alias string Args []Arg argsA [10]Arg Children []int32 childrenA [10]int32 } type Arg struct { Name string Val *Node } type Node struct { Type parserType Name string Val string Parent *Node Children []*Node } var zeroNode = Node{} func (n *Node) Reset() { *n = zeroNode } type Parser struct { pos int items []item depth int err error } var nodePool = sync.Pool{ New: func() interface{} { return new(Node) }, } var opPool = sync.Pool{ New: func() interface{} { return new(Operation) }, } var lexPool = sync.Pool{ New: func() interface{} { return new(lexer) }, } func Parse(gql string) (*Operation, error) { if len(gql) == 0 { return nil, errors.New("blank query") } l := lexPool.Get().(*lexer) l.Reset() if err := lex(l, gql); err != nil { return nil, err } p := &Parser{ pos: -1, items: l.items, } op, err := p.parseOp() lexPool.Put(l) return op, err } func ParseQuery(gql string) (*Operation, error) { return parseByType(gql, opQuery) } func ParseArgValue(argVal string) (*Node, error) { l := lexPool.Get().(*lexer) l.Reset() if err := lex(l, argVal); err != nil { return nil, err } p := &Parser{ pos: -1, items: l.items, } op, err := p.parseValue() lexPool.Put(l) return op, err } func parseByType(gql string, ty parserType) (*Operation, error) { l := lexPool.Get().(*lexer) l.Reset() if err := lex(l, gql); err != nil { return nil, err } p := &Parser{ pos: -1, items: l.items, } op, err := p.parseOpByType(ty) lexPool.Put(l) return op, err } func (p *Parser) next() item { n := p.pos + 1 if n >= len(p.items) { p.err = errEOT return item{typ: itemEOF} } p.pos = n return p.items[p.pos] } func (p *Parser) ignore() { n := p.pos + 1 if n >= len(p.items) { p.err = errEOT return } p.pos = n } func (p *Parser) current() item { return p.items[p.pos] } func (p *Parser) eof() bool { n := p.pos + 1 return p.items[n].typ == itemEOF } func (p *Parser) peek(types ...itemType) bool { n := p.pos + 1 if p.items[n].typ == itemEOF { return false } if n >= len(p.items) { return false } for i := 0; i < len(types); i++ { if p.items[n].typ == types[i] { return true } } return false } func (p *Parser) parseOpByType(ty parserType) (*Operation, error) { op := opPool.Get().(*Operation) op.Reset() op.Type = ty op.Fields = op.fieldsA[:0] op.Args = op.argsA[:0] var err error if p.peek(itemName) { op.Name = p.next().val } if p.peek(itemArgsOpen) { p.ignore() op.Args, err = p.parseArgs(op.Args) if err != nil { return nil, err } } if p.peek(itemObjOpen) { p.ignore() op.Fields, err = p.parseFields(op.Fields) if err != nil { return nil, err } } if p.peek(itemObjClose) { p.ignore() } return op, nil } func (p *Parser) parseOp() (*Operation, error) { if p.peek(itemQuery, itemMutation, itemSub) == false { err := fmt.Errorf("expecting a query, mutation or subscription (not '%s')", p.next().val) return nil, err } item := p.next() switch item.typ { case itemQuery: return p.parseOpByType(opQuery) case itemMutation: return p.parseOpByType(opMutate) case itemSub: return p.parseOpByType(opSub) } return nil, errors.New("unknown operation type") } func (p *Parser) parseFields(fields []Field) ([]Field, error) { st := util.NewStack() for { if len(fields) >= maxFields { return nil, fmt.Errorf("too many fields (max %d)", maxFields) } if p.peek(itemObjClose) { p.ignore() st.Pop() if st.Len() == 0 { break } continue } if p.peek(itemName) == false { return nil, errors.New("expecting an alias or field name") } fields = append(fields, Field{ID: int32(len(fields))}) f := &fields[(len(fields) - 1)] f.Args = f.argsA[:0] f.Children = f.childrenA[:0] if err := p.parseField(f); err != nil { return nil, err } if f.ID != 0 { intf := st.Peek() pid, ok := intf.(int32) if !ok { return nil, fmt.Errorf("14: unexpected value %v (%t)", intf, intf) } f.ParentID = pid fields[pid].Children = append(fields[pid].Children, f.ID) } if p.peek(itemObjOpen) { p.ignore() st.Push(f.ID) } } return fields, nil } func (p *Parser) parseField(f *Field) error { var err error f.Name = p.next().val if p.peek(itemColon) { p.ignore() if p.peek(itemName) { f.Alias = f.Name f.Name = p.next().val } else { return errors.New("expecting an aliased field name") } } if p.peek(itemArgsOpen) { p.ignore() if f.Args, err = p.parseArgs(f.Args); err != nil { return err } } return nil } func (p *Parser) parseArgs(args []Arg) ([]Arg, error) { var err error for { if len(args) >= maxArgs { return nil, fmt.Errorf("too many args (max %d)", maxArgs) } if p.peek(itemArgsClose) { p.ignore() break } if p.peek(itemName) == false { return nil, errors.New("expecting an argument name") } args = append(args, Arg{Name: p.next().val}) arg := &args[(len(args) - 1)] if p.peek(itemColon) == false { return nil, errors.New("missing ':' after argument name") } p.ignore() arg.Val, err = p.parseValue() if err != nil { return nil, err } } return args, nil } func (p *Parser) parseList() (*Node, error) { nodes := []*Node{} parent := nodePool.Get().(*Node) parent.Reset() var ty parserType for { if p.peek(itemListClose) { p.ignore() break } node, err := p.parseValue() if err != nil { return nil, err } if ty == 0 { ty = node.Type } else { if ty != node.Type { return nil, errors.New("All values in a list must be of the same type") } } node.Parent = parent nodes = append(nodes, node) } if len(nodes) == 0 { return nil, errors.New("List cannot be empty") } parent.Type = nodeList parent.Children = nodes return parent, nil } func (p *Parser) parseObj() (*Node, error) { nodes := []*Node{} parent := nodePool.Get().(*Node) parent.Reset() for { if p.peek(itemObjClose) { p.ignore() break } if p.peek(itemName) == false { return nil, errors.New("expecting an argument name") } nodeName := p.next().val if p.peek(itemColon) == false { return nil, errors.New("missing ':' after Field argument name") } p.ignore() node, err := p.parseValue() if err != nil { return nil, err } node.Name = nodeName node.Parent = parent nodes = append(nodes, node) } parent.Type = nodeObj parent.Children = nodes return parent, nil } func (p *Parser) parseValue() (*Node, error) { if p.peek(itemListOpen) { p.ignore() return p.parseList() } if p.peek(itemObjOpen) { p.ignore() return p.parseObj() } item := p.next() node := nodePool.Get().(*Node) node.Reset() switch item.typ { case itemIntVal: node.Type = nodeInt case itemFloatVal: node.Type = nodeFloat case itemStringVal: node.Type = nodeStr case itemBoolVal: node.Type = nodeBool case itemName: node.Type = nodeStr case itemVariable: node.Type = nodeVar default: return nil, fmt.Errorf("expecting a number, string, object, list or variable as an argument value (not %s)", p.next().val) } node.Val = item.val return node, nil } func (t parserType) String() string { var v string switch t { case parserEOF: v = "EOF" case parserError: v = "error" case opQuery: v = "query" case opMutate: v = "mutation" case opSub: v = "subscription" case nodeStr: v = "node-string" case nodeInt: v = "node-int" case nodeFloat: v = "node-float" case nodeBool: v = "node-bool" case nodeVar: v = "node-var" case nodeObj: v = "node-obj" case nodeList: v = "node-list" } return fmt.Sprintf("<%s>", v) } func PutNode(n *Node) { nodePool.Put(n) }