super-graph/qcode/qcode.go
2019-03-31 11:18:33 -04:00

703 lines
12 KiB
Go

package qcode
import (
"fmt"
"regexp"
"strings"
"github.com/dosco/super-graph/util"
"github.com/gobuffalo/flect"
)
type QCode struct {
Query *Query
}
type Query struct {
Select *Select
}
type Column struct {
Table string
Name string
FieldName string
}
type Select struct {
ID int32
AsList bool
Table string
Singular string
FieldName string
Cols []*Column
Where *Exp
OrderBy []*OrderBy
DistinctOn []string
Paging Paging
Joins []*Select
}
type Exp struct {
Op ExpOp
Col string
NestedCol bool
Type ValType
Val string
ListType ValType
ListVal []string
Children []*Exp
}
type OrderBy struct {
Col string
Order Order
}
type Paging struct {
Limit string
Offset string
}
type ExpOp int
const (
OpAnd ExpOp = iota + 1
OpOr
OpNot
OpEquals
OpNotEquals
OpGreaterOrEquals
OpLesserOrEquals
OpGreaterThan
OpLesserThan
OpIn
OpNotIn
OpLike
OpNotLike
OpILike
OpNotILike
OpSimilar
OpNotSimilar
OpContains
OpContainedIn
OpHasKey
OpHasKeyAny
OpHasKeyAll
OpIsNull
)
func (t ExpOp) String() string {
var v string
switch t {
case OpAnd:
v = "op-and"
case OpOr:
v = "op-or"
case OpNot:
v = "op-not"
case OpEquals:
v = "op-equals"
case OpNotEquals:
v = "op-not-equals"
case OpGreaterOrEquals:
v = "op-greater-or-equals"
case OpLesserOrEquals:
v = "op-lesser-or-equals"
case OpGreaterThan:
v = "op-greater-than"
case OpLesserThan:
v = "op-lesser-than"
case OpIn:
v = "op-in"
case OpNotIn:
v = "op-not-in"
case OpLike:
v = "op-like"
case OpNotLike:
v = "op-not-like"
case OpILike:
v = "op-i-like"
case OpNotILike:
v = "op-not-i-like"
case OpSimilar:
v = "op-similar"
case OpNotSimilar:
v = "op-not-similar"
case OpContains:
v = "op-contains"
case OpContainedIn:
v = "op-contained-in"
case OpHasKey:
v = "op-has-key"
case OpHasKeyAny:
v = "op-has-key-any"
case OpHasKeyAll:
v = "op-has-key-all"
case OpIsNull:
v = "op-is-null"
}
return fmt.Sprintf("<%s>", v)
}
type ValType int
const (
ValStr ValType = iota + 1
ValInt
ValFloat
ValBool
ValList
ValVar
ValNone
)
type AggregrateOp int
const (
AgCount AggregrateOp = iota + 1
AgSum
AgAvg
AgMax
AgMin
)
type Order int
const (
OrderAsc Order = iota + 1
OrderDesc
OrderAscNullsFirst
OrderAscNullsLast
OrderDescNullsFirst
OrderDescNullsLast
)
type FilterMap map[string]*Exp
type Blacklist *regexp.Regexp
func CompileFilter(filter string) (*Exp, error) {
node, err := ParseArgValue(filter)
if err != nil {
return nil, err
}
return (&Compiler{}).compileArgNode(node)
}
type Compiler struct {
fm FilterMap
bl *regexp.Regexp
}
func NewCompiler(fm FilterMap, bl Blacklist) *Compiler {
return &Compiler{fm, bl}
}
func (com *Compiler) CompileQuery(query string) (*QCode, error) {
var qc QCode
var err error
op, err := ParseQuery(query)
if err != nil {
return nil, err
}
switch op.Type {
case opQuery:
qc.Query, err = com.compileQuery(op)
case opMutate:
case opSub:
default:
err = fmt.Errorf("Unknown operation type %d", op.Type)
}
if err != nil {
return nil, err
}
return &qc, nil
}
func (com *Compiler) compileQuery(op *Operation) (*Query, error) {
var selRoot *Select
st := util.NewStack()
id := int32(0)
fmap := make(map[*Field]*Select)
for i := range op.Fields {
st.Push(op.Fields[i])
}
for {
if st.Len() == 0 {
break
}
intf := st.Pop()
field, ok := intf.(*Field)
if !ok || field == nil {
return nil, fmt.Errorf("unexpected value poped out %v", intf)
}
if com.bl != nil && com.bl.MatchString(field.Name) {
continue
}
fn := strings.ToLower(field.Name)
tn := flect.Pluralize(fn)
s := &Select{
ID: id,
Table: tn,
}
if fn == tn {
s.Singular = flect.Singularize(fn)
} else {
s.Singular = fn
}
if fn == s.Table {
s.AsList = true
} else {
s.Paging.Limit = "1"
}
if len(field.Alias) != 0 {
s.FieldName = field.Alias
} else if s.AsList {
s.FieldName = s.Table
} else {
s.FieldName = s.Singular
}
id++
fmap[field] = s
err := com.compileArgs(s, field.Args)
if err != nil {
return nil, err
}
for i := range field.Children {
f := field.Children[i]
fn := strings.ToLower(f.Name)
if com.bl != nil && com.bl.MatchString(fn) {
continue
}
if f.Children == nil {
col := &Column{Name: fn}
if len(f.Alias) != 0 {
col.FieldName = f.Alias
} else {
col.FieldName = f.Name
}
s.Cols = append(s.Cols, col)
} else {
st.Push(f)
}
}
if field.Parent == nil {
selRoot = s
} else if sp, ok := fmap[field.Parent]; ok {
sp.Joins = append(sp.Joins, s)
} else {
return nil, fmt.Errorf("no select found for parent %#v", field.Parent)
}
}
if fil, ok := com.fm[selRoot.Table]; ok {
if selRoot.Where != nil {
selRoot.Where = &Exp{Op: OpAnd, Children: []*Exp{fil, selRoot.Where}}
} else {
selRoot.Where = fil
}
}
return &Query{selRoot}, nil
}
func (com *Compiler) compileArgs(sel *Select, args []*Arg) error {
var err error
for i := range args {
if args[i] == nil {
return fmt.Errorf("[Args] unexpected nil argument found")
}
switch strings.ToLower(args[i].Name) {
case "where":
err = com.compileArgWhere(sel, args[i])
case "orderby", "order_by", "order":
err = com.compileArgOrderBy(sel, args[i])
case "distinct_on", "distinct":
err = com.compileArgDistinctOn(sel, args[i])
case "limit":
err = com.compileArgLimit(sel, args[i])
case "offset":
err = com.compileArgOffset(sel, args[i])
}
}
return err
}
type expT struct {
parent *Exp
node *Node
}
func (com *Compiler) compileArgObj(arg *Arg) (*Exp, error) {
if arg.Val.Type != nodeObj {
return nil, fmt.Errorf("[Where] expecting an object")
}
return com.compileArgNode(arg.Val)
}
func (com *Compiler) compileArgNode(val *Node) (*Exp, error) {
st := util.NewStack()
var root *Exp
st.Push(&expT{nil, val.Children[0]})
for {
if st.Len() == 0 {
break
}
intf := st.Pop()
eT, ok := intf.(*expT)
if !ok || eT == nil {
return nil, fmt.Errorf("[Where] unexpected value poped out %v", intf)
}
if len(eT.node.Name) != 0 &&
com.bl != nil && com.bl.MatchString(eT.node.Name) {
continue
}
ex, err := newExp(st, eT)
if err != nil {
return nil, err
}
if ex == nil {
continue
}
if eT.parent == nil {
root = ex
} else {
eT.parent.Children = append(eT.parent.Children, ex)
}
}
return root, nil
}
func (com *Compiler) compileArgWhere(sel *Select, arg *Arg) error {
var err error
sel.Where, err = com.compileArgObj(arg)
if err != nil {
return err
}
return nil
}
func (com *Compiler) compileArgOrderBy(sel *Select, arg *Arg) error {
if arg.Val.Type != nodeObj {
return fmt.Errorf("expecting an object")
}
st := util.NewStack()
for i := range arg.Val.Children {
st.Push(arg.Val.Children[i])
}
for {
if st.Len() == 0 {
break
}
intf := st.Pop()
node, ok := intf.(*Node)
if !ok || node == nil {
return fmt.Errorf("OrderBy: unexpected value poped out %v", intf)
}
if com.bl != nil && com.bl.MatchString(node.Name) {
continue
}
if node.Type == nodeObj {
for i := range node.Children {
st.Push(node.Children[i])
}
continue
}
ob := &OrderBy{}
val := strings.ToLower(node.Val)
switch val {
case "asc":
ob.Order = OrderAsc
case "desc":
ob.Order = OrderDesc
case "asc_nulls_first":
ob.Order = OrderAscNullsFirst
case "desc_nulls_first":
ob.Order = OrderDescNullsFirst
case "asc_nulls_last":
ob.Order = OrderAscNullsLast
case "desc_nulls_last":
ob.Order = OrderDescNullsLast
default:
return fmt.Errorf("valid values include asc, desc, asc_nulls_first and desc_nulls_first")
}
setOrderByColName(ob, node)
sel.OrderBy = append(sel.OrderBy, ob)
}
return nil
}
func (com *Compiler) compileArgDistinctOn(sel *Select, arg *Arg) error {
node := arg.Val
if com.bl != nil && com.bl.MatchString(node.Name) {
return nil
}
if node.Type != nodeList && node.Type != nodeStr {
return fmt.Errorf("expecting a list of strings or just a string")
}
if node.Type == nodeStr {
sel.DistinctOn = append(sel.DistinctOn, node.Val)
}
for i := range node.Children {
sel.DistinctOn = append(sel.DistinctOn, node.Children[i].Val)
}
return nil
}
func (com *Compiler) compileArgLimit(sel *Select, arg *Arg) error {
node := arg.Val
if node.Type != nodeInt {
return fmt.Errorf("expecting an integer")
}
sel.Paging.Limit = node.Val
return nil
}
func (com *Compiler) compileArgOffset(sel *Select, arg *Arg) error {
node := arg.Val
if node.Type != nodeInt {
return fmt.Errorf("expecting an integer")
}
sel.Paging.Offset = node.Val
return nil
}
func compileMutate() (*Query, error) {
return nil, nil
}
func compileSub() (*Query, error) {
return nil, nil
}
func newExp(st *util.Stack, eT *expT) (*Exp, error) {
ex := &Exp{}
node := eT.node
if len(node.Name) == 0 {
pushChildren(st, eT.parent, node)
return nil, nil
}
name := strings.ToLower(node.Name)
if name[0] == '_' {
name = name[1:]
}
switch name {
case "and":
ex.Op = OpAnd
pushChildren(st, ex, node)
case "or":
ex.Op = OpOr
pushChildren(st, ex, node)
case "not":
ex.Op = OpNot
st.Push(&expT{ex, node.Children[0]})
case "eq", "equals":
ex.Op = OpEquals
ex.Val = node.Val
case "neq", "not_equals":
ex.Op = OpNotEquals
ex.Val = node.Val
case "gt", "greater_than":
ex.Op = OpGreaterThan
ex.Val = node.Val
case "lt", "lesser_than":
ex.Op = OpLesserThan
ex.Val = node.Val
case "gte", "greater_or_equals":
ex.Op = OpGreaterOrEquals
ex.Val = node.Val
case "lte", "lesser_or_equals":
ex.Op = OpLesserOrEquals
ex.Val = node.Val
case "in":
ex.Op = OpIn
setListVal(ex, node)
case "nin", "not_in":
ex.Op = OpNotIn
setListVal(ex, node)
case "like":
ex.Op = OpLike
ex.Val = node.Val
case "nlike", "not_like":
ex.Op = OpNotLike
ex.Val = node.Val
case "ilike":
ex.Op = OpILike
ex.Val = node.Val
case "nilike", "not_ilike":
ex.Op = OpILike
ex.Val = node.Val
case "similar":
ex.Op = OpSimilar
ex.Val = node.Val
case "nsimilar", "not_similar":
ex.Op = OpNotSimilar
ex.Val = node.Val
case "contains":
ex.Op = OpContains
ex.Val = node.Val
case "contained_in":
ex.Op = OpContainedIn
ex.Val = node.Val
case "has_key":
ex.Op = OpHasKey
ex.Val = node.Val
case "has_key_any":
ex.Op = OpHasKeyAny
ex.Val = node.Val
case "has_key_all":
ex.Op = OpHasKeyAll
ex.Val = node.Val
case "is_null":
ex.Op = OpIsNull
ex.Val = node.Val
default:
pushChildren(st, eT.parent, node)
return nil, nil // skip node
}
if ex.Op != OpAnd && ex.Op != OpOr && ex.Op != OpNot {
switch node.Type {
case nodeStr:
ex.Type = ValStr
case nodeInt:
ex.Type = ValInt
case nodeBool:
ex.Type = ValBool
case nodeFloat:
ex.Type = ValFloat
case nodeList:
ex.Type = ValList
case nodeVar:
ex.Type = ValVar
default:
return nil, fmt.Errorf("[Where] valid values include string, int, float, boolean and list: %s", node.Type)
}
setWhereColName(ex, node)
}
return ex, nil
}
func setListVal(ex *Exp, node *Node) {
if len(node.Children) != 0 {
switch node.Children[0].Type {
case nodeStr:
ex.ListType = ValStr
case nodeInt:
ex.ListType = ValInt
case nodeBool:
ex.ListType = ValBool
case nodeFloat:
ex.ListType = ValFloat
}
}
for i := range node.Children {
ex.ListVal = append(ex.ListVal, node.Children[i].Val)
}
}
func setWhereColName(ex *Exp, node *Node) {
var list []string
for n := node.Parent; n != nil; n = n.Parent {
if n.Type != nodeObj {
continue
}
k := strings.ToLower(n.Name)
if k == "and" || k == "or" || k == "not" ||
k == "_and" || k == "_or" || k == "_not" {
continue
}
if len(k) != 0 {
list = append([]string{k}, list...)
}
}
if len(list) == 1 {
ex.Col = list[0]
} else if len(list) > 2 {
ex.Col = strings.Join(list, ".")
ex.NestedCol = true
}
}
func setOrderByColName(ob *OrderBy, node *Node) {
var list []string
for n := node; n != nil; n = n.Parent {
k := strings.ToLower(n.Name)
if len(k) != 0 {
list = append([]string{k}, list...)
}
}
if len(list) != 0 {
ob.Col = strings.Join(list, ".")
}
}
func pushChildren(st *util.Stack, ex *Exp, node *Node) {
for i := range node.Children {
st.Push(&expT{ex, node.Children[i]})
}
}