super-graph/psql/query.go

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//nolint:errcheck
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package psql
import (
"bytes"
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"encoding/json"
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"errors"
"fmt"
"io"
"strings"
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"github.com/dosco/super-graph/qcode"
"github.com/dosco/super-graph/util"
)
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const (
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empty = ""
closeBlock = 500
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)
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type Variables map[string]json.RawMessage
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type Config struct {
Schema *DBSchema
Vars map[string]string
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}
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type Compiler struct {
schema *DBSchema
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vars map[string]string
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}
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func NewCompiler(conf Config) *Compiler {
return &Compiler{conf.Schema, conf.Vars}
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}
func (c *Compiler) AddRelationship(child, parent string, rel *DBRel) error {
return c.schema.SetRel(child, parent, rel)
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}
func (c *Compiler) IDColumn(table string) (string, error) {
t, err := c.schema.GetTable(table)
if err != nil {
return empty, err
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}
return t.PrimaryCol, nil
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}
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type compilerContext struct {
w io.Writer
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s []qcode.Select
*Compiler
}
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func (co *Compiler) CompileEx(qc *qcode.QCode, vars Variables) (uint32, []byte, error) {
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w := &bytes.Buffer{}
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skipped, err := co.Compile(qc, w, vars)
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return skipped, w.Bytes(), err
}
func (co *Compiler) Compile(qc *qcode.QCode, w io.Writer, vars Variables) (uint32, error) {
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switch qc.Type {
case qcode.QTQuery:
return co.compileQuery(qc, w)
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case qcode.QTInsert, qcode.QTUpdate, qcode.QTDelete, qcode.QTUpsert:
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return co.compileMutation(qc, w, vars)
}
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return 0, fmt.Errorf("Unknown operation type %d", qc.Type)
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}
func (co *Compiler) compileQuery(qc *qcode.QCode, w io.Writer) (uint32, error) {
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if len(qc.Selects) == 0 {
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return 0, errors.New("empty query")
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}
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c := &compilerContext{w, qc.Selects, co}
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multiRoot := (len(qc.Roots) > 1)
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st := NewStack()
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if multiRoot {
io.WriteString(c.w, `SELECT row_to_json("json_root") FROM (SELECT `)
for i, id := range qc.Roots {
root := qc.Selects[id]
st.Push(root.ID + closeBlock)
st.Push(root.ID)
if i != 0 {
io.WriteString(c.w, `, `)
}
io.WriteString(c.w, `"sel_`)
int2string(c.w, root.ID)
io.WriteString(c.w, `"."json_`)
int2string(c.w, root.ID)
io.WriteString(c.w, `"`)
alias(c.w, root.FieldName)
}
io.WriteString(c.w, ` FROM `)
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} else {
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root := qc.Selects[0]
io.WriteString(c.w, `SELECT json_object_agg(`)
io.WriteString(c.w, `'`)
io.WriteString(c.w, root.FieldName)
io.WriteString(c.w, `', `)
io.WriteString(c.w, `json_`)
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int2string(c.w, root.ID)
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st.Push(root.ID + closeBlock)
st.Push(root.ID)
io.WriteString(c.w, `) FROM `)
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}
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var ignored uint32
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for {
if st.Len() == 0 {
break
}
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id := st.Pop()
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if id < closeBlock {
sel := &c.s[id]
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if sel.ParentID == -1 {
io.WriteString(c.w, `(`)
}
ti, err := c.schema.GetTable(sel.Name)
if err != nil {
return 0, err
}
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if sel.ParentID != -1 {
if err = c.renderLateralJoin(sel); err != nil {
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return 0, err
}
}
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skipped, err := c.renderSelect(sel, ti)
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if err != nil {
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return 0, err
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}
ignored |= skipped
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for _, cid := range sel.Children {
if hasBit(skipped, uint32(cid)) {
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continue
}
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child := &c.s[cid]
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st.Push(child.ID + closeBlock)
st.Push(child.ID)
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}
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} else {
sel := &c.s[(id - closeBlock)]
ti, err := c.schema.GetTable(sel.Name)
if err != nil {
return 0, err
}
err = c.renderSelectClose(sel, ti)
if err != nil {
return 0, err
}
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if sel.ParentID != -1 {
if err = c.renderLateralJoinClose(sel); err != nil {
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return 0, err
}
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} else {
io.WriteString(c.w, `)`)
aliasWithID(c.w, `sel`, sel.ID)
if st.Len() != 0 {
io.WriteString(c.w, `, `)
}
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}
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}
}
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if multiRoot {
io.WriteString(c.w, `) AS "json_root"`)
}
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return ignored, nil
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}
func (c *compilerContext) processChildren(sel *qcode.Select, ti *DBTableInfo) (uint32, []*qcode.Column) {
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var skipped uint32
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cols := make([]*qcode.Column, 0, len(sel.Cols))
colmap := make(map[string]struct{}, len(sel.Cols))
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for i := range sel.Cols {
colmap[sel.Cols[i].Name] = struct{}{}
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}
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for _, id := range sel.Children {
child := &c.s[id]
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rel, err := c.schema.GetRel(child.Name, ti.Name)
if err != nil {
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skipped |= (1 << uint(id))
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continue
}
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switch rel.Type {
case RelOneToMany:
fallthrough
case RelBelongTo:
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if _, ok := colmap[rel.Col2]; !ok {
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cols = append(cols, &qcode.Column{Table: ti.Name, Name: rel.Col2, FieldName: rel.Col2})
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}
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case RelOneToManyThrough:
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if _, ok := colmap[rel.Col1]; !ok {
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cols = append(cols, &qcode.Column{Table: ti.Name, Name: rel.Col1, FieldName: rel.Col1})
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}
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case RelRemote:
if _, ok := colmap[rel.Col1]; !ok {
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cols = append(cols, &qcode.Column{Table: ti.Name, Name: rel.Col1, FieldName: rel.Col2})
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}
skipped |= (1 << uint(id))
default:
skipped |= (1 << uint(id))
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}
}
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return skipped, cols
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}
func (c *compilerContext) renderSelect(sel *qcode.Select, ti *DBTableInfo) (uint32, error) {
skipped, childCols := c.processChildren(sel, ti)
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hasOrder := len(sel.OrderBy) != 0
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// SELECT
if !ti.Singular {
//fmt.Fprintf(w, `SELECT coalesce(json_agg("%s"`, c.sel.Name)
io.WriteString(c.w, `SELECT coalesce(json_agg("`)
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io.WriteString(c.w, "json_")
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int2string(c.w, sel.ID)
io.WriteString(c.w, `"`)
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if hasOrder {
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err := c.renderOrderBy(sel, ti)
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if err != nil {
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return skipped, err
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}
}
//fmt.Fprintf(w, `), '[]') AS "%s" FROM (`, c.sel.Name)
io.WriteString(c.w, `), '[]')`)
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aliasWithID(c.w, "json", sel.ID)
io.WriteString(c.w, ` FROM (`)
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}
// ROW-TO-JSON
io.WriteString(c.w, `SELECT `)
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if len(sel.DistinctOn) != 0 {
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c.renderDistinctOn(sel, ti)
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}
io.WriteString(c.w, `row_to_json((`)
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//fmt.Fprintf(w, `SELECT "%d" FROM (SELECT `, c.sel.ID)
io.WriteString(c.w, `SELECT "json_row_`)
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int2string(c.w, sel.ID)
io.WriteString(c.w, `" FROM (SELECT `)
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// Combined column names
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c.renderColumns(sel, ti)
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c.renderRemoteRelColumns(sel, ti)
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err := c.renderJoinedColumns(sel, ti, skipped)
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if err != nil {
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return skipped, err
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}
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//fmt.Fprintf(w, `) AS "%d"`, c.sel.ID)
io.WriteString(c.w, `)`)
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aliasWithID(c.w, "json_row", sel.ID)
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//fmt.Fprintf(w, `)) AS "%s"`, c.sel.Name)
io.WriteString(c.w, `))`)
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aliasWithID(c.w, "json", sel.ID)
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// END-ROW-TO-JSON
if hasOrder {
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c.renderOrderByColumns(sel, ti)
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}
// END-SELECT
// FROM (SELECT .... )
err = c.renderBaseSelect(sel, ti, childCols, skipped)
if err != nil {
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return skipped, err
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}
// END-FROM
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return skipped, nil
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}
func (c *compilerContext) renderSelectClose(sel *qcode.Select, ti *DBTableInfo) error {
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hasOrder := len(sel.OrderBy) != 0
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if hasOrder {
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err := c.renderOrderBy(sel, ti)
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if err != nil {
return err
}
}
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switch {
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case ti.Singular:
io.WriteString(c.w, ` LIMIT ('1') :: integer`)
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case len(sel.Paging.Limit) != 0:
//fmt.Fprintf(w, ` LIMIT ('%s') :: integer`, c.sel.Paging.Limit)
io.WriteString(c.w, ` LIMIT ('`)
io.WriteString(c.w, sel.Paging.Limit)
io.WriteString(c.w, `') :: integer`)
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case sel.Paging.NoLimit:
break
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default:
io.WriteString(c.w, ` LIMIT ('20') :: integer`)
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}
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if len(sel.Paging.Offset) != 0 {
//fmt.Fprintf(w, ` OFFSET ('%s') :: integer`, c.sel.Paging.Offset)
io.WriteString(c.w, `OFFSET ('`)
io.WriteString(c.w, sel.Paging.Offset)
io.WriteString(c.w, `') :: integer`)
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}
if !ti.Singular {
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//fmt.Fprintf(w, `) AS "json_agg_%d"`, c.sel.ID)
io.WriteString(c.w, `)`)
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aliasWithID(c.w, "json_agg", sel.ID)
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}
return nil
}
func (c *compilerContext) renderLateralJoin(sel *qcode.Select) error {
io.WriteString(c.w, ` LEFT OUTER JOIN LATERAL (`)
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return nil
}
func (c *compilerContext) renderLateralJoinClose(sel *qcode.Select) error {
//fmt.Fprintf(w, `) AS "%s_%d_join" ON ('true')`, c.sel.Name, c.sel.ID)
io.WriteString(c.w, `)`)
aliasWithIDSuffix(c.w, sel.Name, sel.ID, "_join")
io.WriteString(c.w, ` ON ('true')`)
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return nil
}
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func (c *compilerContext) renderJoin(sel *qcode.Select, ti *DBTableInfo) error {
parent := &c.s[sel.ParentID]
return c.renderJoinByName(ti.Name, parent.Name, parent.ID)
}
func (c *compilerContext) renderJoinByName(table, parent string, id int32) error {
rel, err := c.schema.GetRel(table, parent)
if err != nil {
return err
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}
// This join is only required for one-to-many relations since
// these make use of join tables that need to be pulled in.
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if rel.Type != RelOneToManyThrough {
return err
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}
pt, err := c.schema.GetTable(parent)
if err != nil {
return err
}
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//fmt.Fprintf(w, ` LEFT OUTER JOIN "%s" ON (("%s"."%s") = ("%s_%d"."%s"))`,
//rel.Through, rel.Through, rel.ColT, c.parent.Name, c.parent.ID, rel.Col1)
io.WriteString(c.w, ` LEFT OUTER JOIN "`)
io.WriteString(c.w, rel.Through)
io.WriteString(c.w, `" ON ((`)
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colWithTable(c.w, rel.Through, rel.ColT)
io.WriteString(c.w, `) = (`)
if id != -1 {
colWithTableID(c.w, pt.Name, id, rel.Col1)
} else {
colWithTable(c.w, pt.Name, rel.Col1)
}
io.WriteString(c.w, `))`)
return nil
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}
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func (c *compilerContext) renderColumns(sel *qcode.Select, ti *DBTableInfo) {
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i := 0
for _, col := range sel.Cols {
n := funcPrefixLen(col.Name)
if n != 0 {
if !sel.Functions {
continue
}
if len(sel.Allowed) != 0 {
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if _, ok := sel.Allowed[col.Name[n:]]; !ok {
continue
}
}
} else {
if len(sel.Allowed) != 0 {
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if _, ok := sel.Allowed[col.Name]; !ok {
continue
}
}
}
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if i != 0 {
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io.WriteString(c.w, ", ")
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}
//fmt.Fprintf(w, `"%s_%d"."%s" AS "%s"`,
//c.sel.Name, c.sel.ID, col.Name, col.FieldName)
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colWithTableIDAlias(c.w, ti.Name, sel.ID, col.Name, col.FieldName)
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i++
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}
}
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func (c *compilerContext) renderRemoteRelColumns(sel *qcode.Select, ti *DBTableInfo) {
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i := 0
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for _, id := range sel.Children {
child := &c.s[id]
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rel, err := c.schema.GetRel(child.Name, sel.Name)
if err != nil || rel.Type != RelRemote {
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continue
}
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if i != 0 || len(sel.Cols) != 0 {
io.WriteString(c.w, ", ")
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}
//fmt.Fprintf(w, `"%s_%d"."%s" AS "%s"`,
//c.sel.Name, c.sel.ID, rel.Col1, rel.Col2)
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colWithTableID(c.w, ti.Name, sel.ID, rel.Col1)
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alias(c.w, rel.Col2)
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i++
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}
}
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func (c *compilerContext) renderJoinedColumns(sel *qcode.Select, ti *DBTableInfo, skipped uint32) error {
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colsRendered := len(sel.Cols) != 0
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for _, id := range sel.Children {
skipThis := hasBit(skipped, uint32(id))
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if colsRendered && !skipThis {
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io.WriteString(c.w, ", ")
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}
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if skipThis {
continue
}
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childSel := &c.s[id]
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//fmt.Fprintf(w, `"%s_%d_join"."%s" AS "%s"`,
//s.Name, s.ID, s.Name, s.FieldName)
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//if cti.Singular {
io.WriteString(c.w, `"`)
io.WriteString(c.w, childSel.Name)
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io.WriteString(c.w, `_`)
int2string(c.w, childSel.ID)
io.WriteString(c.w, `_join"."json_`)
int2string(c.w, childSel.ID)
io.WriteString(c.w, `" AS "`)
io.WriteString(c.w, childSel.FieldName)
io.WriteString(c.w, `"`)
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}
return nil
}
func (c *compilerContext) renderBaseSelect(sel *qcode.Select, ti *DBTableInfo,
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childCols []*qcode.Column, skipped uint32) error {
var groupBy []int
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isRoot := sel.ParentID == -1
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isFil := (sel.Where != nil && sel.Where.Op != qcode.OpNop)
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isSearch := sel.Args["search"] != nil
isAgg := false
io.WriteString(c.w, ` FROM (SELECT `)
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i := 0
for n, col := range sel.Cols {
cn := col.Name
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_, isRealCol := ti.Columns[cn]
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if !isRealCol {
if isSearch {
switch {
case cn == "search_rank":
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cn = ti.TSVCol
arg := sel.Args["search"]
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if i != 0 {
io.WriteString(c.w, `, `)
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}
//fmt.Fprintf(w, `ts_rank("%s"."%s", to_tsquery('%s')) AS %s`,
//c.sel.Name, cn, arg.Val, col.Name)
io.WriteString(c.w, `ts_rank(`)
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colWithTable(c.w, ti.Name, cn)
io.WriteString(c.w, `, to_tsquery('`)
io.WriteString(c.w, arg.Val)
io.WriteString(c.w, `')`)
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alias(c.w, col.Name)
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i++
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case strings.HasPrefix(cn, "search_headline_"):
cn = cn[16:]
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arg := sel.Args["search"]
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if i != 0 {
io.WriteString(c.w, `, `)
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}
//fmt.Fprintf(w, `ts_headline("%s"."%s", to_tsquery('%s')) AS %s`,
//c.sel.Name, cn, arg.Val, col.Name)
io.WriteString(c.w, `ts_headlinek(`)
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colWithTable(c.w, ti.Name, cn)
io.WriteString(c.w, `, to_tsquery('`)
io.WriteString(c.w, arg.Val)
io.WriteString(c.w, `')`)
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alias(c.w, col.Name)
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i++
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}
} else {
pl := funcPrefixLen(cn)
if pl == 0 {
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if i != 0 {
io.WriteString(c.w, `, `)
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}
//fmt.Fprintf(w, `'%s not defined' AS %s`, cn, col.Name)
io.WriteString(c.w, `'`)
io.WriteString(c.w, cn)
io.WriteString(c.w, ` not defined'`)
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alias(c.w, col.Name)
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i++
} else if sel.Functions {
cn1 := cn[pl:]
if len(sel.Allowed) != 0 {
if _, ok := sel.Allowed[cn1]; !ok {
continue
}
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}
if i != 0 {
io.WriteString(c.w, `, `)
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}
fn := cn[0 : pl-1]
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isAgg = true
//fmt.Fprintf(w, `%s("%s"."%s") AS %s`, fn, c.sel.Name, cn, col.Name)
io.WriteString(c.w, fn)
io.WriteString(c.w, `(`)
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colWithTable(c.w, ti.Name, cn1)
io.WriteString(c.w, `)`)
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alias(c.w, col.Name)
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i++
}
}
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} else {
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groupBy = append(groupBy, n)
//fmt.Fprintf(w, `"%s"."%s"`, c.sel.Name, cn)
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if i != 0 {
io.WriteString(c.w, `, `)
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}
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colWithTable(c.w, ti.Name, cn)
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i++
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}
}
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for _, col := range childCols {
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if i != 0 {
io.WriteString(c.w, `, `)
}
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//fmt.Fprintf(w, `"%s"."%s"`, col.Table, col.Name)
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colWithTable(c.w, col.Table, col.Name)
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i++
}
io.WriteString(c.w, ` FROM `)
//fmt.Fprintf(w, ` FROM "%s"`, c.sel.Name)
io.WriteString(c.w, `"`)
io.WriteString(c.w, ti.Name)
io.WriteString(c.w, `"`)
// if tn, ok := c.tmap[sel.Name]; ok {
// //fmt.Fprintf(w, ` FROM "%s" AS "%s"`, tn, c.sel.Name)
// tableWithAlias(c.w, ti.Name, sel.Name)
// } else {
// //fmt.Fprintf(w, ` FROM "%s"`, c.sel.Name)
// io.WriteString(c.w, `"`)
// io.WriteString(c.w, sel.Name)
// io.WriteString(c.w, `"`)
// }
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if isRoot && isFil {
io.WriteString(c.w, ` WHERE (`)
if err := c.renderWhere(sel, ti); err != nil {
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return err
}
io.WriteString(c.w, `)`)
}
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if !isRoot {
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if err := c.renderJoin(sel, ti); err != nil {
return err
}
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io.WriteString(c.w, ` WHERE (`)
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if err := c.renderRelationship(sel, ti); err != nil {
return err
}
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if isFil {
io.WriteString(c.w, ` AND `)
if err := c.renderWhere(sel, ti); err != nil {
return err
}
}
io.WriteString(c.w, `)`)
}
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if isAgg {
if len(groupBy) != 0 {
io.WriteString(c.w, ` GROUP BY `)
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for i, id := range groupBy {
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if i != 0 {
io.WriteString(c.w, `, `)
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}
//fmt.Fprintf(w, `"%s"."%s"`, c.sel.Name, c.sel.Cols[id].Name)
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colWithTable(c.w, ti.Name, sel.Cols[id].Name)
}
}
}
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switch {
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case ti.Singular:
io.WriteString(c.w, ` LIMIT ('1') :: integer`)
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case len(sel.Paging.Limit) != 0:
//fmt.Fprintf(w, ` LIMIT ('%s') :: integer`, c.sel.Paging.Limit)
io.WriteString(c.w, ` LIMIT ('`)
io.WriteString(c.w, sel.Paging.Limit)
io.WriteString(c.w, `') :: integer`)
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case sel.Paging.NoLimit:
break
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default:
io.WriteString(c.w, ` LIMIT ('20') :: integer`)
}
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if len(sel.Paging.Offset) != 0 {
//fmt.Fprintf(w, ` OFFSET ('%s') :: integer`, c.sel.Paging.Offset)
io.WriteString(c.w, ` OFFSET ('`)
io.WriteString(c.w, sel.Paging.Offset)
io.WriteString(c.w, `') :: integer`)
}
//fmt.Fprintf(w, `) AS "%s_%d"`, c.sel.Name, c.sel.ID)
io.WriteString(c.w, `)`)
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aliasWithID(c.w, ti.Name, sel.ID)
return nil
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}
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func (c *compilerContext) renderOrderByColumns(sel *qcode.Select, ti *DBTableInfo) {
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colsRendered := len(sel.Cols) != 0
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for i := range sel.OrderBy {
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if colsRendered {
//io.WriteString(w, ", ")
io.WriteString(c.w, `, `)
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}
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col := sel.OrderBy[i].Col
//fmt.Fprintf(w, `"%s_%d"."%s" AS "%s_%d_%s_ob"`,
//c.sel.Name, c.sel.ID, c,
//c.sel.Name, c.sel.ID, c)
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colWithTableID(c.w, ti.Name, sel.ID, col)
io.WriteString(c.w, ` AS `)
tableIDColSuffix(c.w, sel.Name, sel.ID, col, "_ob")
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}
}
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func (c *compilerContext) renderRelationship(sel *qcode.Select, ti *DBTableInfo) error {
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parent := c.s[sel.ParentID]
return c.renderRelationshipByName(ti.Name, parent.Name, parent.ID)
}
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func (c *compilerContext) renderRelationshipByName(table, parent string, id int32) error {
rel, err := c.schema.GetRel(table, parent)
if err != nil {
return err
}
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switch rel.Type {
case RelBelongTo:
//fmt.Fprintf(w, `(("%s"."%s") = ("%s_%d"."%s"))`,
//c.sel.Name, rel.Col1, c.parent.Name, c.parent.ID, rel.Col2)
io.WriteString(c.w, `((`)
colWithTable(c.w, table, rel.Col1)
io.WriteString(c.w, `) = (`)
if id != -1 {
colWithTableID(c.w, parent, id, rel.Col2)
} else {
colWithTable(c.w, parent, rel.Col2)
}
io.WriteString(c.w, `))`)
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case RelOneToMany:
//fmt.Fprintf(w, `(("%s"."%s") = ("%s_%d"."%s"))`,
//c.sel.Name, rel.Col1, c.parent.Name, c.parent.ID, rel.Col2)
io.WriteString(c.w, `((`)
colWithTable(c.w, table, rel.Col1)
io.WriteString(c.w, `) = (`)
if id != -1 {
colWithTableID(c.w, parent, id, rel.Col2)
} else {
colWithTable(c.w, parent, rel.Col2)
}
io.WriteString(c.w, `))`)
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case RelOneToManyThrough:
// This requires the through table to be joined onto this select
//fmt.Fprintf(w, `(("%s"."%s") = ("%s"."%s"))`,
//c.sel.Name, rel.Col1, rel.Through, rel.Col2)
io.WriteString(c.w, `((`)
colWithTable(c.w, table, rel.Col1)
io.WriteString(c.w, `) = (`)
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colWithTable(c.w, rel.Through, rel.Col2)
io.WriteString(c.w, `))`)
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}
return nil
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}
func (c *compilerContext) renderWhere(sel *qcode.Select, ti *DBTableInfo) error {
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st := util.NewStack()
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if sel.Where != nil {
st.Push(sel.Where)
}
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for {
if st.Len() == 0 {
break
}
intf := st.Pop()
switch val := intf.(type) {
case qcode.ExpOp:
switch val {
case qcode.OpAnd:
io.WriteString(c.w, ` AND `)
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case qcode.OpOr:
io.WriteString(c.w, ` OR `)
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case qcode.OpNot:
io.WriteString(c.w, `NOT `)
case qcode.OpFalse:
io.WriteString(c.w, `false`)
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default:
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return fmt.Errorf("11: unexpected value %v (%t)", intf, intf)
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}
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case *qcode.Exp:
switch val.Op {
case qcode.OpFalse:
st.Push(val.Op)
qcode.FreeExp(val)
case qcode.OpAnd, qcode.OpOr:
for i := len(val.Children) - 1; i >= 0; i-- {
st.Push(val.Children[i])
if i > 0 {
st.Push(val.Op)
}
}
qcode.FreeExp(val)
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case qcode.OpNot:
st.Push(val.Children[0])
st.Push(qcode.OpNot)
qcode.FreeExp(val)
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default:
if len(val.NestedCols) != 0 {
io.WriteString(c.w, `EXISTS `)
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if err := c.renderNestedWhere(val, sel, ti); err != nil {
return err
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}
} else {
//fmt.Fprintf(w, `(("%s"."%s") `, c.sel.Name, val.Col)
if err := c.renderOp(val, sel, ti); err != nil {
return err
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}
qcode.FreeExp(val)
}
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}
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default:
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return fmt.Errorf("12: unexpected value %v (%t)", intf, intf)
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}
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}
return nil
}
func (c *compilerContext) renderNestedWhere(ex *qcode.Exp, sel *qcode.Select, ti *DBTableInfo) error {
for i := 0; i < len(ex.NestedCols)-1; i++ {
cti, err := c.schema.GetTable(ex.NestedCols[i])
if err != nil {
return err
}
if i != 0 {
io.WriteString(c.w, ` AND `)
}
io.WriteString(c.w, `(SELECT 1 FROM `)
io.WriteString(c.w, cti.Name)
if err := c.renderJoinByName(cti.Name, ti.Name, -1); err != nil {
return err
}
io.WriteString(c.w, ` WHERE `)
if err := c.renderRelationshipByName(cti.Name, ti.Name, -1); err != nil {
return err
}
}
for i := 0; i < len(ex.NestedCols)-1; i++ {
io.WriteString(c.w, `)`)
}
return nil
}
func (c *compilerContext) renderOp(ex *qcode.Exp, sel *qcode.Select, ti *DBTableInfo) error {
var col *DBColumn
var ok bool
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if ex.Op == qcode.OpNop {
return nil
}
if len(ex.Col) != 0 {
if col, ok = ti.Columns[ex.Col]; !ok {
return fmt.Errorf("no column '%s' found ", ex.Col)
}
io.WriteString(c.w, `((`)
colWithTable(c.w, ti.Name, ex.Col)
io.WriteString(c.w, `) `)
}
switch ex.Op {
case qcode.OpEquals:
io.WriteString(c.w, `=`)
case qcode.OpNotEquals:
io.WriteString(c.w, `!=`)
case qcode.OpGreaterOrEquals:
io.WriteString(c.w, `>=`)
case qcode.OpLesserOrEquals:
io.WriteString(c.w, `<=`)
case qcode.OpGreaterThan:
io.WriteString(c.w, `>`)
case qcode.OpLesserThan:
io.WriteString(c.w, `<`)
case qcode.OpIn:
io.WriteString(c.w, `IN`)
case qcode.OpNotIn:
io.WriteString(c.w, `NOT IN`)
case qcode.OpLike:
io.WriteString(c.w, `LIKE`)
case qcode.OpNotLike:
io.WriteString(c.w, `NOT LIKE`)
case qcode.OpILike:
io.WriteString(c.w, `ILIKE`)
case qcode.OpNotILike:
io.WriteString(c.w, `NOT ILIKE`)
case qcode.OpSimilar:
io.WriteString(c.w, `SIMILAR TO`)
case qcode.OpNotSimilar:
io.WriteString(c.w, `NOT SIMILAR TO`)
case qcode.OpContains:
io.WriteString(c.w, `@>`)
case qcode.OpContainedIn:
io.WriteString(c.w, `<@`)
case qcode.OpHasKey:
io.WriteString(c.w, `?`)
case qcode.OpHasKeyAny:
io.WriteString(c.w, `?|`)
case qcode.OpHasKeyAll:
io.WriteString(c.w, `?&`)
case qcode.OpIsNull:
if strings.EqualFold(ex.Val, "true") {
io.WriteString(c.w, `IS NULL)`)
} else {
io.WriteString(c.w, `IS NOT NULL)`)
}
return nil
case qcode.OpEqID:
if len(ti.PrimaryCol) == 0 {
return fmt.Errorf("no primary key column defined for %s", ti.Name)
}
if col, ok = ti.Columns[ti.PrimaryCol]; !ok {
return fmt.Errorf("no primary key column '%s' found ", ti.PrimaryCol)
}
//fmt.Fprintf(w, `(("%s") =`, c.ti.PrimaryCol)
io.WriteString(c.w, `((`)
colWithTable(c.w, ti.Name, ti.PrimaryCol)
//io.WriteString(c.w, ti.PrimaryCol)
io.WriteString(c.w, `) =`)
case qcode.OpTsQuery:
if len(ti.TSVCol) == 0 {
return fmt.Errorf("no tsv column defined for %s", ti.Name)
}
if _, ok = ti.Columns[ti.TSVCol]; !ok {
return fmt.Errorf("no tsv column '%s' found ", ti.TSVCol)
}
//fmt.Fprintf(w, `(("%s") @@ to_tsquery('%s'))`, c.ti.TSVCol, val.Val)
io.WriteString(c.w, `(("`)
io.WriteString(c.w, ti.TSVCol)
io.WriteString(c.w, `") @@ to_tsquery('`)
io.WriteString(c.w, ex.Val)
io.WriteString(c.w, `'))`)
return nil
default:
return fmt.Errorf("[Where] unexpected op code %d", ex.Op)
}
if ex.Type == qcode.ValList {
c.renderList(ex)
} else {
c.renderVal(ex, c.vars, col)
}
io.WriteString(c.w, `)`)
return nil
}
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func (c *compilerContext) renderOrderBy(sel *qcode.Select, ti *DBTableInfo) error {
io.WriteString(c.w, ` ORDER BY `)
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for i := range sel.OrderBy {
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if i != 0 {
io.WriteString(c.w, `, `)
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}
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ob := sel.OrderBy[i]
switch ob.Order {
case qcode.OrderAsc:
//fmt.Fprintf(w, `"%s_%d.ob.%s" ASC`, sel.Name, sel.ID, ob.Col)
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tableIDColSuffix(c.w, ti.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` ASC`)
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case qcode.OrderDesc:
//fmt.Fprintf(w, `"%s_%d.ob.%s" DESC`, sel.Name, sel.ID, ob.Col)
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tableIDColSuffix(c.w, ti.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` DESC`)
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case qcode.OrderAscNullsFirst:
//fmt.Fprintf(w, `"%s_%d.ob.%s" ASC NULLS FIRST`, sel.Name, sel.ID, ob.Col)
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tableIDColSuffix(c.w, ti.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` ASC NULLS FIRST`)
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case qcode.OrderDescNullsFirst:
//fmt.Fprintf(w, `%s_%d.ob.%s DESC NULLS FIRST`, sel.Name, sel.ID, ob.Col)
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tableIDColSuffix(c.w, ti.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` DESC NULLLS FIRST`)
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case qcode.OrderAscNullsLast:
//fmt.Fprintf(w, `"%s_%d.ob.%s ASC NULLS LAST`, sel.Name, sel.ID, ob.Col)
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tableIDColSuffix(c.w, ti.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` ASC NULLS LAST`)
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case qcode.OrderDescNullsLast:
//fmt.Fprintf(w, `%s_%d.ob.%s DESC NULLS LAST`, sel.Name, sel.ID, ob.Col)
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tableIDColSuffix(c.w, ti.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` DESC NULLS LAST`)
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default:
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return fmt.Errorf("13: unexpected value %v", ob.Order)
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}
}
return nil
}
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func (c *compilerContext) renderDistinctOn(sel *qcode.Select, ti *DBTableInfo) {
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io.WriteString(c.w, `DISTINCT ON (`)
for i := range sel.DistinctOn {
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if i != 0 {
io.WriteString(c.w, `, `)
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}
//fmt.Fprintf(w, `"%s_%d.ob.%s"`, c.sel.Name, c.sel.ID, c.sel.DistinctOn[i])
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tableIDColSuffix(c.w, ti.Name, sel.ID, sel.DistinctOn[i], "_ob")
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}
io.WriteString(c.w, `) `)
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}
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func (c *compilerContext) renderList(ex *qcode.Exp) {
io.WriteString(c.w, ` (`)
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for i := range ex.ListVal {
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if i != 0 {
io.WriteString(c.w, `, `)
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}
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switch ex.ListType {
case qcode.ValBool, qcode.ValInt, qcode.ValFloat:
io.WriteString(c.w, ex.ListVal[i])
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case qcode.ValStr:
io.WriteString(c.w, `'`)
io.WriteString(c.w, ex.ListVal[i])
io.WriteString(c.w, `'`)
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}
}
io.WriteString(c.w, `)`)
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}
func (c *compilerContext) renderVal(ex *qcode.Exp, vars map[string]string, col *DBColumn) {
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io.WriteString(c.w, ` `)
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switch ex.Type {
case qcode.ValBool, qcode.ValInt, qcode.ValFloat:
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if len(ex.Val) != 0 {
io.WriteString(c.w, ex.Val)
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} else {
io.WriteString(c.w, `''`)
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}
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case qcode.ValStr:
io.WriteString(c.w, `'`)
io.WriteString(c.w, ex.Val)
io.WriteString(c.w, `'`)
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case qcode.ValVar:
io.WriteString(c.w, `'`)
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if val, ok := vars[ex.Val]; ok {
io.WriteString(c.w, val)
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} else {
//fmt.Fprintf(w, `'{{%s}}'`, ex.Val)
io.WriteString(c.w, `{{`)
io.WriteString(c.w, ex.Val)
io.WriteString(c.w, `}}`)
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}
io.WriteString(c.w, `' :: `)
io.WriteString(c.w, col.Type)
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}
//io.WriteString(c.w, `)`)
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}
func funcPrefixLen(fn string) int {
switch {
case strings.HasPrefix(fn, "avg_"):
return 4
case strings.HasPrefix(fn, "count_"):
return 6
case strings.HasPrefix(fn, "max_"):
return 4
case strings.HasPrefix(fn, "min_"):
return 4
case strings.HasPrefix(fn, "sum_"):
return 4
case strings.HasPrefix(fn, "stddev_"):
return 7
case strings.HasPrefix(fn, "stddev_pop_"):
return 11
case strings.HasPrefix(fn, "stddev_samp_"):
return 12
case strings.HasPrefix(fn, "variance_"):
return 9
case strings.HasPrefix(fn, "var_pop_"):
return 8
case strings.HasPrefix(fn, "var_samp_"):
return 9
}
return 0
}
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func hasBit(n uint32, pos uint32) bool {
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val := n & (1 << pos)
return (val > 0)
}
func alias(w io.Writer, alias string) {
io.WriteString(w, ` AS "`)
io.WriteString(w, alias)
io.WriteString(w, `"`)
}
func aliasWithID(w io.Writer, alias string, id int32) {
io.WriteString(w, ` AS "`)
io.WriteString(w, alias)
io.WriteString(w, `_`)
int2string(w, id)
io.WriteString(w, `"`)
}
func aliasWithIDSuffix(w io.Writer, alias string, id int32, suffix string) {
io.WriteString(w, ` AS "`)
io.WriteString(w, alias)
io.WriteString(w, `_`)
int2string(w, id)
io.WriteString(w, suffix)
io.WriteString(w, `"`)
}
func colWithTable(w io.Writer, table, col string) {
io.WriteString(w, `"`)
io.WriteString(w, table)
io.WriteString(w, `"."`)
io.WriteString(w, col)
io.WriteString(w, `"`)
}
func colWithTableID(w io.Writer, table string, id int32, col string) {
io.WriteString(w, `"`)
io.WriteString(w, table)
io.WriteString(w, `_`)
int2string(w, id)
io.WriteString(w, `"."`)
io.WriteString(w, col)
io.WriteString(w, `"`)
}
func colWithTableIDAlias(w io.Writer, table string, id int32, col, alias string) {
io.WriteString(w, `"`)
io.WriteString(w, table)
io.WriteString(w, `_`)
int2string(w, id)
io.WriteString(w, `"."`)
io.WriteString(w, col)
io.WriteString(w, `" AS "`)
io.WriteString(w, alias)
io.WriteString(w, `"`)
}
func tableIDColSuffix(w io.Writer, table string, id int32, col, suffix string) {
io.WriteString(w, `"`)
io.WriteString(w, table)
io.WriteString(w, `_`)
int2string(w, id)
io.WriteString(w, `_`)
io.WriteString(w, col)
io.WriteString(w, suffix)
io.WriteString(w, `"`)
}
const charset = "0123456789"
func int2string(w io.Writer, val int32) {
if val < 10 {
w.Write([]byte{charset[val]})
return
}
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temp := int32(0)
val2 := val
for val2 > 0 {
temp *= 10
temp += val2 % 10
val2 = int32(float64(val2 / 10))
}
val3 := temp
for val3 > 0 {
d := val3 % 10
val3 /= 10
w.Write([]byte{charset[d]})
}
}