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Add pagination using opaque cursors

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This commit is contained in:
Vikram Rangnekar
2020-02-10 12:15:37 +05:30
parent 12007db76e
commit 7413813138
31 changed files with 1142 additions and 1048 deletions
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198
psql/columns.go Normal file
View File

@ -0,0 +1,198 @@
//nolint:errcheck
package psql
import (
"errors"
"io"
"strings"
"github.com/dosco/super-graph/qcode"
)
func (c *compilerContext) renderBaseColumns(
sel *qcode.Select,
ti *DBTableInfo,
childCols []*qcode.Column,
skipped uint32) ([]int, bool, error) {
var realColsRendered []int
colcount := (len(sel.Cols) + len(sel.OrderBy) + 1)
colmap := make(map[string]struct{}, colcount)
isSearch := sel.Args["search"] != nil
isCursorPaged := sel.Paging.Type != qcode.PtOffset
isAgg := false
i := 0
for n, col := range sel.Cols {
cn := col.Name
colmap[cn] = struct{}{}
_, isRealCol := ti.ColMap[cn]
if isRealCol {
c.renderComma(i)
realColsRendered = append(realColsRendered, n)
colWithTable(c.w, ti.Name, cn)
i++
continue
}
if isSearch && !isRealCol {
switch {
case cn == "search_rank":
if err := c.renderColumnSearchRank(sel, ti, col, i); err != nil {
return nil, false, err
}
i++
case strings.HasPrefix(cn, "search_headline_"):
if err := c.renderColumnSearchHeadline(sel, ti, col, i); err != nil {
return nil, false, err
}
i++
}
} else {
if err := c.renderColumnFunction(sel, ti, col, i); err != nil {
return nil, false, err
}
isAgg = true
i++
}
}
if isCursorPaged {
if _, ok := colmap[ti.PrimaryCol.Key]; !ok {
colmap[ti.PrimaryCol.Key] = struct{}{}
c.renderComma(i)
colWithTable(c.w, ti.Name, ti.PrimaryCol.Name)
}
i++
}
for _, ob := range sel.OrderBy {
if _, ok := colmap[ob.Col]; ok {
continue
}
colmap[ob.Col] = struct{}{}
c.renderComma(i)
colWithTable(c.w, ti.Name, ob.Col)
i++
}
for _, col := range childCols {
if _, ok := colmap[col.Name]; ok {
continue
}
c.renderComma(i)
colWithTable(c.w, col.Table, col.Name)
i++
}
return realColsRendered, isAgg, nil
}
func (c *compilerContext) renderColumnSearchRank(sel *qcode.Select, ti *DBTableInfo, col qcode.Column, columnsRendered int) error {
if isColumnBlocked(sel, col.Name) {
return nil
}
if ti.TSVCol == nil {
return errors.New("no ts_vector column found")
}
cn := ti.TSVCol.Name
arg := sel.Args["search"]
c.renderComma(columnsRendered)
//fmt.Fprintf(w, `ts_rank("%s"."%s", websearch_to_tsquery('%s')) AS %s`,
//c.sel.Name, cn, arg.Val, col.Name)
io.WriteString(c.w, `ts_rank(`)
colWithTable(c.w, ti.Name, cn)
if c.schema.ver >= 110000 {
io.WriteString(c.w, `, websearch_to_tsquery('`)
} else {
io.WriteString(c.w, `, to_tsquery('`)
}
io.WriteString(c.w, arg.Val)
io.WriteString(c.w, `'))`)
alias(c.w, col.Name)
return nil
}
func (c *compilerContext) renderColumnSearchHeadline(sel *qcode.Select, ti *DBTableInfo, col qcode.Column, columnsRendered int) error {
cn := col.Name[16:]
if isColumnBlocked(sel, cn) {
return nil
}
arg := sel.Args["search"]
c.renderComma(columnsRendered)
//fmt.Fprintf(w, `ts_headline("%s"."%s", websearch_to_tsquery('%s')) AS %s`,
//c.sel.Name, cn, arg.Val, col.Name)
io.WriteString(c.w, `ts_headline(`)
colWithTable(c.w, ti.Name, cn)
if c.schema.ver >= 110000 {
io.WriteString(c.w, `, websearch_to_tsquery('`)
} else {
io.WriteString(c.w, `, to_tsquery('`)
}
io.WriteString(c.w, arg.Val)
io.WriteString(c.w, `'))`)
alias(c.w, col.Name)
return nil
}
func (c *compilerContext) renderColumnFunction(sel *qcode.Select, ti *DBTableInfo, col qcode.Column, columnsRendered int) error {
pl := funcPrefixLen(col.Name)
// if pl == 0 {
// //fmt.Fprintf(w, `'%s not defined' AS %s`, cn, col.Name)
// io.WriteString(c.w, `'`)
// io.WriteString(c.w, col.Name)
// io.WriteString(c.w, ` not defined'`)
// alias(c.w, col.Name)
// }
if pl == 0 || !sel.Functions {
return nil
}
cn := col.Name[pl:]
if isColumnBlocked(sel, cn) {
return nil
}
fn := cn[0 : pl-1]
c.renderComma(columnsRendered)
//fmt.Fprintf(w, `%s("%s"."%s") AS %s`, fn, c.sel.Name, cn, col.Name)
io.WriteString(c.w, fn)
io.WriteString(c.w, `(`)
colWithTable(c.w, ti.Name, cn)
io.WriteString(c.w, `)`)
alias(c.w, col.Name)
return nil
}
func (c *compilerContext) renderComma(columnsRendered int) {
if columnsRendered != 0 {
io.WriteString(c.w, `, `)
}
}
func isColumnBlocked(sel *qcode.Select, name string) bool {
if len(sel.Allowed) != 0 {
if _, ok := sel.Allowed[name]; !ok {
return true
}
}
return false
}

115
psql/insert_test.go
View File

@ -12,20 +12,11 @@ func simpleInsert(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (INSERT INTO "users" ("full_name", "email") SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t RETURNING *) SELECT json_object_agg('user', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."id" AS "id") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."id" FROM "users" LIMIT ('1') :: integer) AS "users_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{"email": "reannagreenholt@orn.com", "full_name": "Flo Barton"}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "user")
}
func singleInsert(t *testing.T) {
@ -36,20 +27,11 @@ func singleInsert(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{insert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description", "price", "user_id") SELECT "t"."name", "t"."description", "t"."price", "t"."user_id" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"insert": json.RawMessage(` { "name": "my_name", "price": 6.95, "description": "my_desc", "user_id": 5 }`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "anon")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "anon")
}
func bulkInsert(t *testing.T) {
@ -60,20 +42,11 @@ func bulkInsert(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{insert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description") SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_recordset(NULL::products, i.j) t RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"insert": json.RawMessage(` [{ "name": "my_name", "description": "my_desc" }]`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "anon")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "anon")
}
func simpleInsertWithPresets(t *testing.T) {
@ -83,20 +56,11 @@ func simpleInsertWithPresets(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", 'now' :: timestamp without time zone, 'now' :: timestamp without time zone, '{{user_id}}' :: bigint FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{"name": "Tomato", "price": 5.76}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "user")
}
func nestedInsertManyToMany(t *testing.T) {
@ -118,10 +82,6 @@ func nestedInsertManyToMany(t *testing.T) {
}
}`
sql1 := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "customers" AS (INSERT INTO "customers" ("full_name", "email") SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::customers, i.j->'customer') t RETURNING *), "products" AS (INSERT INTO "products" ("name", "price") SELECT "t"."name", "t"."price" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t RETURNING *), "purchases" AS (INSERT INTO "purchases" ("sale_type", "quantity", "due_date", "product_id", "customer_id") SELECT "t"."sale_type", "t"."quantity", "t"."due_date", "products"."id", "customers"."id" FROM "_sg_input" i, "products", "customers", json_populate_record(NULL::purchases, i.j) t RETURNING *) SELECT json_object_agg('purchase', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "purchases_0"."sale_type" AS "sale_type", "purchases_0"."quantity" AS "quantity", "purchases_0"."due_date" AS "due_date", "product_1_join"."json_1" AS "product", "customer_2_join"."json_2" AS "customer") AS "json_row_0")) AS "json_0" FROM (SELECT "purchases"."sale_type", "purchases"."quantity", "purchases"."due_date", "purchases"."product_id", "purchases"."customer_id" FROM "purchases" LIMIT ('1') :: integer) AS "purchases_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_2" FROM (SELECT "customers_2"."id" AS "id", "customers_2"."full_name" AS "full_name", "customers_2"."email" AS "email") AS "json_row_2")) AS "json_2" FROM (SELECT "customers"."id", "customers"."full_name", "customers"."email" FROM "customers" WHERE ((("customers"."id") = ("purchases_0"."customer_id"))) LIMIT ('1') :: integer) AS "customers_2" LIMIT ('1') :: integer) AS "customer_2_join" ON ('true') LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."id" AS "id", "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."id") = ("purchases_0"."product_id"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
sql2 := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "price") SELECT "t"."name", "t"."price" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t RETURNING *), "customers" AS (INSERT INTO "customers" ("full_name", "email") SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::customers, i.j->'customer') t RETURNING *), "purchases" AS (INSERT INTO "purchases" ("sale_type", "quantity", "due_date", "customer_id", "product_id") SELECT "t"."sale_type", "t"."quantity", "t"."due_date", "customers"."id", "products"."id" FROM "_sg_input" i, "customers", "products", json_populate_record(NULL::purchases, i.j) t RETURNING *) SELECT json_object_agg('purchase', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "purchases_0"."sale_type" AS "sale_type", "purchases_0"."quantity" AS "quantity", "purchases_0"."due_date" AS "due_date", "product_1_join"."json_1" AS "product", "customer_2_join"."json_2" AS "customer") AS "json_row_0")) AS "json_0" FROM (SELECT "purchases"."sale_type", "purchases"."quantity", "purchases"."due_date", "purchases"."product_id", "purchases"."customer_id" FROM "purchases" LIMIT ('1') :: integer) AS "purchases_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_2" FROM (SELECT "customers_2"."id" AS "id", "customers_2"."full_name" AS "full_name", "customers_2"."email" AS "email") AS "json_row_2")) AS "json_2" FROM (SELECT "customers"."id", "customers"."full_name", "customers"."email" FROM "customers" WHERE ((("customers"."id") = ("purchases_0"."customer_id"))) LIMIT ('1') :: integer) AS "customers_2" LIMIT ('1') :: integer) AS "customer_2_join" ON ('true') LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."id" AS "id", "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."id") = ("purchases_0"."product_id"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(` {
"sale_type": "bought",
@ -139,16 +99,7 @@ func nestedInsertManyToMany(t *testing.T) {
`),
}
for i := 0; i < 1000; i++ {
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql1 && string(resSQL) != sql2 {
t.Fatal(errNotExpected)
}
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedInsertOneToMany(t *testing.T) {
@ -165,8 +116,6 @@ func nestedInsertOneToMany(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (INSERT INTO "users" ("full_name", "email", "created_at", "updated_at") SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t RETURNING *), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at", "users"."id" FROM "_sg_input" i, "users", json_populate_record(NULL::products, i.j->'product') t RETURNING *) SELECT json_object_agg('user', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."id" AS "id", "users_0"."full_name" AS "full_name", "users_0"."email" AS "email", "product_1_join"."json_1" AS "product") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."id" AS "id", "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"email": "thedude@rug.com",
@ -182,14 +131,7 @@ func nestedInsertOneToMany(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedInsertOneToOne(t *testing.T) {
@ -205,8 +147,6 @@ func nestedInsertOneToOne(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (INSERT INTO "users" ("full_name", "email", "created_at", "updated_at") SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j->'user') t RETURNING *), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at", "users"."id" FROM "_sg_input" i, "users", json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "user_1_join"."json_1" AS "user") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "users_1"."id" AS "id", "users_1"."full_name" AS "full_name", "users_1"."email" AS "email") AS "json_row_1")) AS "json_1" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1" LIMIT ('1') :: integer) AS "user_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"name": "Apple",
@ -225,14 +165,7 @@ func nestedInsertOneToOne(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedInsertOneToManyWithConnect(t *testing.T) {
@ -249,8 +182,6 @@ func nestedInsertOneToManyWithConnect(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (INSERT INTO "users" ("full_name", "email", "created_at", "updated_at") SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t RETURNING *), "products" AS ( UPDATE "products" SET "user_id" = "users"."id" FROM "users" WHERE ("products"."id"= ((i.j->'product'->'connect'->>'id'))::bigint) RETURNING "products".*) SELECT json_object_agg('user', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."id" AS "id", "users_0"."full_name" AS "full_name", "users_0"."email" AS "email", "product_1_join"."json_1" AS "product") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."id" AS "id", "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"email": "thedude@rug.com",
@ -263,14 +194,7 @@ func nestedInsertOneToManyWithConnect(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedInsertOneToOneWithConnect(t *testing.T) {
@ -290,8 +214,6 @@ func nestedInsertOneToOneWithConnect(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT "id" FROM "_sg_input" i,"users" WHERE "users"."id"= ((i.j->'user'->'connect'->>'id'))::bigint LIMIT 1), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "user_1_join"."json_1" AS "user", "tags_2_join"."json_2" AS "tags") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."user_id", "products"."tags" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("json_2"), '[]') AS "json_2" FROM (SELECT row_to_json((SELECT "json_row_2" FROM (SELECT "tags_2"."id" AS "id", "tags_2"."name" AS "name") AS "json_row_2")) AS "json_2" FROM (SELECT "tags"."id", "tags"."name" FROM "tags" WHERE ((("tags"."slug") = any ("products_0"."tags"))) LIMIT ('20') :: integer) AS "tags_2" LIMIT ('20') :: integer) AS "json_agg_2") AS "tags_2_join" ON ('true') LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "users_1"."id" AS "id", "users_1"."full_name" AS "full_name", "users_1"."email" AS "email") AS "json_row_1")) AS "json_1" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1" LIMIT ('1') :: integer) AS "user_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"name": "Apple",
@ -304,14 +226,7 @@ func nestedInsertOneToOneWithConnect(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedInsertOneToOneWithConnectArray(t *testing.T) {
@ -327,8 +242,6 @@ func nestedInsertOneToOneWithConnectArray(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT "id" FROM "_sg_input" i,"users" WHERE "users"."id" = ANY((select a::bigint AS list from json_array_elements_text((i.j->'user'->'connect'->>'id')::json) AS a)) LIMIT 1), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "user_1_join"."json_1" AS "user") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "users_1"."id" AS "id", "users_1"."full_name" AS "full_name", "users_1"."email" AS "email") AS "json_row_1")) AS "json_1" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1" LIMIT ('1') :: integer) AS "user_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"name": "Apple",
@ -341,14 +254,7 @@ func nestedInsertOneToOneWithConnectArray(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func TestCompileInsert(t *testing.T) {
@ -362,5 +268,4 @@ func TestCompileInsert(t *testing.T) {
t.Run("nestedInsertOneToManyWithConnect", nestedInsertOneToManyWithConnect)
t.Run("nestedInsertOneToOneWithConnect", nestedInsertOneToOneWithConnect)
t.Run("nestedInsertOneToOneWithConnectArray", nestedInsertOneToOneWithConnectArray)
}

6
psql/mutate.go
View File

@ -682,12 +682,6 @@ func renderCteNameWithSuffix(w io.Writer, item kvitem, suffix string) error {
return nil
}
func quoted(w io.Writer, identifier string) {
io.WriteString(w, `"`)
io.WriteString(w, identifier)
io.WriteString(w, `"`)
}
func joinPath(w io.Writer, path []string) {
for i := range path {
if i != 0 {

44
psql/mutate_test.go
View File

@ -13,20 +13,11 @@ func singleUpsert(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{upsert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description") SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t RETURNING *) ON CONFLICT (id) DO UPDATE SET name = EXCLUDED.name, description = EXCLUDED.description RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"upsert": json.RawMessage(` { "name": "my_name", "description": "my_desc" }`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "user")
}
func singleUpsertWhere(t *testing.T) {
@ -37,20 +28,11 @@ func singleUpsertWhere(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{upsert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description") SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t RETURNING *) ON CONFLICT (id) WHERE (("products"."price") > 3) DO UPDATE SET name = EXCLUDED.name, description = EXCLUDED.description RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"upsert": json.RawMessage(` { "name": "my_name", "description": "my_desc" }`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "user")
}
func bulkUpsert(t *testing.T) {
@ -61,20 +43,11 @@ func bulkUpsert(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{upsert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description") SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_recordset(NULL::products, i.j) t RETURNING *) ON CONFLICT (id) DO UPDATE SET name = EXCLUDED.name, description = EXCLUDED.description RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"upsert": json.RawMessage(` [{ "name": "my_name", "description": "my_desc" }]`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "user")
}
func delete(t *testing.T) {
@ -85,20 +58,11 @@ func delete(t *testing.T) {
}
}`
sql := `WITH "products" AS (DELETE FROM "products" WHERE (((("products"."price") > 0) AND (("products"."price") < 8)) AND (("products"."id") IS NOT DISTINCT FROM 1)) RETURNING "products".*)SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"update": json.RawMessage(` { "name": "my_name", "description": "my_desc" }`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "user")
}
// func blockedInsert(t *testing.T) {

101
psql/psql_test.go
View File

@ -1,8 +1,11 @@
package psql
import (
"fmt"
"io/ioutil"
"log"
"os"
"strings"
"testing"
"github.com/dosco/super-graph/qcode"
@ -10,11 +13,14 @@ import (
const (
errNotExpected = "Generated SQL did not match what was expected"
headerMarker = "=== RUN"
commentMarker = "---"
)
var (
qcompile *qcode.Compiler
pcompile *Compiler
expected map[string][]string
)
func TestMain(m *testing.M) {
@ -138,21 +144,94 @@ func TestMain(m *testing.M) {
Vars: vars,
})
expected = make(map[string][]string)
b, err := ioutil.ReadFile("tests.sql")
if err != nil {
log.Fatal(err)
}
text := string(b)
lines := strings.Split(text, "\n")
var h string
for _, v := range lines {
switch {
case strings.HasPrefix(v, headerMarker):
h = strings.TrimSpace(v[len(headerMarker):])
case strings.HasPrefix(v, commentMarker):
break
default:
v := strings.TrimSpace(v)
if len(v) != 0 {
expected[h] = append(expected[h], v)
}
}
}
os.Exit(m.Run())
}
func compileGQLToPSQL(gql string, vars Variables, role string) ([]byte, error) {
qc, err := qcompile.Compile([]byte(gql), role)
if err != nil {
return nil, err
func compileGQLToPSQL(t *testing.T, gql string, vars Variables, role string) {
generateTestFile := false
if generateTestFile {
var sqlStmts []string
for i := 0; i < 100; i++ {
qc, err := qcompile.Compile([]byte(gql), role)
if err != nil {
t.Fatal(err)
}
_, sqlB, err := pcompile.CompileEx(qc, vars)
if err != nil {
t.Fatal(err)
}
sql := string(sqlB)
match := false
for _, s := range sqlStmts {
if sql == s {
match = true
break
}
}
if !match {
s := string(sql)
sqlStmts = append(sqlStmts, s)
fmt.Println(s)
}
}
return
}
_, sqlStmt, err := pcompile.CompileEx(qc, vars)
if err != nil {
return nil, err
for i := 0; i < 200; i++ {
qc, err := qcompile.Compile([]byte(gql), role)
if err != nil {
t.Fatal(err)
}
_, sqlStmt, err := pcompile.CompileEx(qc, vars)
if err != nil {
t.Fatal(err)
}
failed := true
for _, sql := range expected[t.Name()] {
if string(sqlStmt) == sql {
failed = false
}
}
if failed {
fmt.Println(string(sqlStmt))
t.Fatal(errNotExpected)
}
}
//fmt.Println(string(sqlStmt))
return sqlStmt, nil
}

620
psql/query.go
View File

@ -20,17 +20,23 @@ const (
type Variables map[string]json.RawMessage
type Config struct {
Schema *DBSchema
Vars map[string]string
Schema *DBSchema
Decryptor func(string) ([]byte, error)
Vars map[string]string
}
type Compiler struct {
schema *DBSchema
vars map[string]string
schema *DBSchema
decryptor func(string) ([]byte, error)
vars map[string]string
}
func NewCompiler(conf Config) *Compiler {
return &Compiler{conf.Schema, conf.Vars}
return &Compiler{
schema: conf.Schema,
decryptor: conf.Decryptor,
vars: conf.Vars,
}
}
func (c *Compiler) AddRelationship(child, parent string, rel *DBRel) error {
@ -79,61 +85,45 @@ func (co *Compiler) compileQuery(qc *qcode.QCode, w io.Writer) (uint32, error) {
}
c := &compilerContext{w, qc.Selects, co}
multiRoot := (len(qc.Roots) > 1)
st := NewIntStack()
si := 0
i := 0
if multiRoot {
io.WriteString(c.w, `SELECT row_to_json("json_root") FROM (SELECT `)
for _, id := range qc.Roots {
root := qc.Selects[id]
if root.SkipRender {
continue
}
st.Push(root.ID + closeBlock)
st.Push(root.ID)
if si != 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)
si++
io.WriteString(c.w, `SELECT json_build_object(`)
for _, id := range qc.Roots {
root := qc.Selects[id]
if root.SkipRender {
continue
}
if si != 0 {
io.WriteString(c.w, ` FROM `)
st.Push(root.ID + closeBlock)
st.Push(root.ID)
if i != 0 {
io.WriteString(c.w, `, `)
}
} else {
root := qc.Selects[0]
if !root.SkipRender {
io.WriteString(c.w, `SELECT json_object_agg(`)
io.WriteString(c.w, `'`)
io.WriteString(c.w, `'`)
io.WriteString(c.w, root.FieldName)
io.WriteString(c.w, `', `)
io.WriteString(c.w, `"sel_`)
int2string(c.w, root.ID)
io.WriteString(c.w, `"."json"`)
if root.Paging.Type != qcode.PtOffset {
io.WriteString(c.w, `, '`)
io.WriteString(c.w, root.FieldName)
io.WriteString(c.w, `', `)
io.WriteString(c.w, `json_`)
io.WriteString(c.w, `_cursor', "sel_`)
int2string(c.w, root.ID)
st.Push(root.ID + closeBlock)
st.Push(root.ID)
io.WriteString(c.w, `) FROM `)
si++
io.WriteString(c.w, `"."__cursor"`)
}
i++
}
if si == 0 {
io.WriteString(c.w, `) as "__root" FROM `)
if i == 0 {
return 0, errors.New("all tables skipped. cannot render query")
}
@ -149,19 +139,15 @@ func (co *Compiler) compileQuery(qc *qcode.QCode, w io.Writer) (uint32, error) {
if id < closeBlock {
sel := &c.s[id]
if sel.ParentID == -1 {
io.WriteString(c.w, `(`)
}
ti, err := c.schema.GetTable(sel.Name)
if err != nil {
return 0, err
}
if sel.ParentID != -1 {
if err = c.renderLateralJoin(sel); err != nil {
return 0, err
}
if sel.ParentID == -1 {
io.WriteString(c.w, `(`)
} else {
c.renderLateralJoin(sel)
}
skipped, err := c.renderSelect(sel, ti)
@ -186,45 +172,31 @@ func (co *Compiler) compileQuery(qc *qcode.QCode, w io.Writer) (uint32, error) {
} 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
}
if sel.ParentID != -1 {
if err = c.renderLateralJoinClose(sel); err != nil {
return 0, err
}
} else {
if sel.ParentID == -1 {
io.WriteString(c.w, `)`)
aliasWithID(c.w, `sel`, sel.ID)
if st.Len() != 0 {
io.WriteString(c.w, `, `)
}
} else {
c.renderLateralJoinClose(sel)
}
if len(sel.Args) != 0 {
i := 0
for _, v := range sel.Args {
qcode.FreeNode(v)
qcode.FreeNode(v, 500)
i++
}
}
}
}
if multiRoot {
io.WriteString(c.w, `) AS "json_root"`)
}
return ignored, nil
}
func (c *compilerContext) processChildren(sel *qcode.Select, ti *DBTableInfo) (uint32, []*qcode.Column, error) {
func (c *compilerContext) initSelector(sel *qcode.Select, ti *DBTableInfo) (uint32, []*qcode.Column, error) {
var skipped uint32
cols := make([]*qcode.Column, 0, len(sel.Cols))
@ -238,6 +210,40 @@ func (c *compilerContext) processChildren(sel *qcode.Select, ti *DBTableInfo) (u
colmap[sel.OrderBy[i].Col] = struct{}{}
}
if sel.Paging.Type != qcode.PtOffset {
colmap[ti.PrimaryCol.Key] = struct{}{}
var filOrder qcode.Order
var filOp qcode.ExpOp
switch sel.Paging.Type {
case qcode.PtForward:
filOrder = qcode.OrderAsc
filOp = qcode.OpGreaterThan
case qcode.PtBackward:
filOrder = qcode.OrderDesc
filOp = qcode.OpLesserThan
}
sel.OrderBy = append(sel.OrderBy, &qcode.OrderBy{
Col: ti.PrimaryCol.Name,
Order: filOrder,
})
if len(sel.Paging.Cursor) != 0 {
v, err := c.decryptor(sel.Paging.Cursor)
if err != nil {
return 0, nil, err
}
fil := qcode.AddFilter(sel)
fil.Op = filOp
fil.Col = ti.PrimaryCol.Name
fil.Val = string(v)
}
}
for _, id := range sel.Children {
child := &c.s[id]
@ -296,131 +302,58 @@ func (c *compilerContext) renderSelect(sel *qcode.Select, ti *DBTableInfo) (uint
}
}
skipped, childCols, err := c.processChildren(sel, ti)
skipped, childCols, err := c.initSelector(sel, ti)
if err != nil {
return 0, err
}
hasOrder := len(sel.OrderBy) != 0
// SELECT
if !ti.Singular {
//fmt.Fprintf(w, `SELECT coalesce(json_agg("%s"`, c.sel.Name)
io.WriteString(c.w, `SELECT coalesce(json_agg("`)
io.WriteString(c.w, "json_")
int2string(c.w, sel.ID)
io.WriteString(c.w, `"`)
io.WriteString(c.w, `SELECT coalesce(json_agg(json_build_object(`)
if err := c.renderColumns(sel, ti, skipped); err != nil {
return 0, err
}
io.WriteString(c.w, `)), '[]') AS "json"`)
if hasOrder {
if err := c.renderOrderBy(sel, ti); err != nil {
return 0, err
}
if sel.Paging.Type != qcode.PtOffset {
io.WriteString(c.w, `, max(`)
colWithTableID(c.w, ti.Name, sel.ID, ti.PrimaryCol.Name)
io.WriteString(c.w, `) AS "__cursor"`)
}
//fmt.Fprintf(w, `), '[]') AS "%s" FROM (`, c.sel.Name)
io.WriteString(c.w, `), '[]')`)
aliasWithID(c.w, "json", sel.ID)
io.WriteString(c.w, ` FROM (`)
} else {
io.WriteString(c.w, `SELECT json_build_object(`)
if err := c.renderColumns(sel, ti, skipped); err != nil {
return 0, err
}
io.WriteString(c.w, `) AS "json"`)
}
// ROW-TO-JSON
io.WriteString(c.w, `SELECT `)
if len(sel.DistinctOn) != 0 {
c.renderDistinctOn(sel, ti)
}
io.WriteString(c.w, `row_to_json((`)
//fmt.Fprintf(w, `SELECT "%d" FROM (SELECT `, c.sel.ID)
io.WriteString(c.w, `SELECT "json_row_`)
int2string(c.w, sel.ID)
io.WriteString(c.w, `" FROM (SELECT `)
// Combined column names
c.renderColumns(sel, ti)
c.renderRemoteRelColumns(sel, ti)
if err = c.renderJoinedColumns(sel, ti, skipped); err != nil {
return skipped, err
}
//fmt.Fprintf(w, `) AS "%d"`, c.sel.ID)
io.WriteString(c.w, `)`)
aliasWithID(c.w, "json_row", sel.ID)
//fmt.Fprintf(w, `)) AS "%s"`, c.sel.Name)
io.WriteString(c.w, `))`)
aliasWithID(c.w, "json", sel.ID)
// END-ROW-TO-JSON
if hasOrder {
c.renderOrderByColumns(sel, ti)
}
// END-SELECT
io.WriteString(c.w, ` FROM (`)
// FROM (SELECT .... )
err = c.renderBaseSelect(sel, ti, rel, childCols, skipped)
if err != nil {
return skipped, err
}
//fmt.Fprintf(w, `) AS "%s_%d"`, c.sel.Name, c.sel.ID)
io.WriteString(c.w, `)`)
aliasWithID(c.w, ti.Name, sel.ID)
// END-FROM
return skipped, nil
}
func (c *compilerContext) renderSelectClose(sel *qcode.Select, ti *DBTableInfo) error {
hasOrder := len(sel.OrderBy) != 0
if hasOrder {
err := c.renderOrderBy(sel, ti)
if err != nil {
return err
}
}
switch {
case ti.Singular:
io.WriteString(c.w, ` LIMIT ('1') :: integer`)
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`)
case sel.Paging.NoLimit:
break
default:
io.WriteString(c.w, ` LIMIT ('20') :: integer`)
}
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`)
}
if !ti.Singular {
//fmt.Fprintf(w, `) AS "json_agg_%d"`, c.sel.ID)
io.WriteString(c.w, `)`)
aliasWithID(c.w, "json_agg", sel.ID)
}
return nil
}
func (c *compilerContext) renderLateralJoin(sel *qcode.Select) error {
io.WriteString(c.w, ` LEFT OUTER JOIN LATERAL (`)
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, `) `)
aliasWithID(c.w, "sel", sel.ID)
io.WriteString(c.w, ` ON ('true')`)
return nil
}
@ -460,7 +393,7 @@ func (c *compilerContext) renderJoinByName(table, parent string, id int32) error
return nil
}
func (c *compilerContext) renderColumns(sel *qcode.Select, ti *DBTableInfo) {
func (c *compilerContext) renderColumns(sel *qcode.Select, ti *DBTableInfo, skipped uint32) error {
i := 0
for _, col := range sel.Cols {
n := funcPrefixLen(col.Name)
@ -484,15 +417,21 @@ func (c *compilerContext) renderColumns(sel *qcode.Select, ti *DBTableInfo) {
if i != 0 {
io.WriteString(c.w, ", ")
}
//fmt.Fprintf(w, `"%s_%d"."%s" AS "%s"`,
//c.sel.Name, c.sel.ID, col.Name, col.FieldName)
colWithTableIDAlias(c.w, ti.Name, sel.ID, col.Name, col.FieldName)
squoted(c.w, col.FieldName)
io.WriteString(c.w, ", ")
colWithTableID(c.w, ti.Name, sel.ID, col.Name)
i++
}
i += c.renderRemoteRelColumns(sel, ti, i)
return c.renderJoinedColumns(sel, ti, skipped, i)
}
func (c *compilerContext) renderRemoteRelColumns(sel *qcode.Select, ti *DBTableInfo) {
i := 0
func (c *compilerContext) renderRemoteRelColumns(sel *qcode.Select, ti *DBTableInfo, colsRendered int) int {
i := colsRendered
for _, id := range sel.Children {
child := &c.s[id]
@ -504,18 +443,19 @@ func (c *compilerContext) renderRemoteRelColumns(sel *qcode.Select, ti *DBTableI
if i != 0 || len(sel.Cols) != 0 {
io.WriteString(c.w, ", ")
}
//fmt.Fprintf(w, `"%s_%d"."%s" AS "%s"`,
//c.sel.Name, c.sel.ID, rel.Left.Col, rel.Right.Col)
squoted(c.w, rel.Right.Col)
io.WriteString(c.w, ", ")
colWithTableID(c.w, ti.Name, sel.ID, rel.Left.Col)
alias(c.w, rel.Right.Col)
i++
}
return i
}
func (c *compilerContext) renderJoinedColumns(sel *qcode.Select, ti *DBTableInfo, skipped uint32) error {
func (c *compilerContext) renderJoinedColumns(sel *qcode.Select, ti *DBTableInfo, skipped uint32, colsRendered int) error {
// columns previously rendered
i := len(sel.Cols)
i := colsRendered
for _, id := range sel.Children {
if hasBit(skipped, uint32(id)) {
@ -530,18 +470,19 @@ func (c *compilerContext) renderJoinedColumns(sel *qcode.Select, ti *DBTableInfo
io.WriteString(c.w, ", ")
}
//fmt.Fprintf(w, `"%s_%d_join"."%s" AS "%s"`,
//s.Name, s.ID, s.Name, s.FieldName)
//if cti.Singular {
io.WriteString(c.w, `"`)
io.WriteString(c.w, childSel.Name)
io.WriteString(c.w, `_`)
squoted(c.w, childSel.FieldName)
io.WriteString(c.w, `, "sel_`)
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, `"`)
io.WriteString(c.w, `"."json"`)
if childSel.Paging.Type != qcode.PtOffset {
io.WriteString(c.w, `, '`)
io.WriteString(c.w, childSel.FieldName)
io.WriteString(c.w, `_cursor', "sel_`)
int2string(c.w, childSel.ID)
io.WriteString(c.w, `"."__cursor"`)
}
i++
}
@ -550,171 +491,25 @@ func (c *compilerContext) renderJoinedColumns(sel *qcode.Select, ti *DBTableInfo
func (c *compilerContext) renderBaseSelect(sel *qcode.Select, ti *DBTableInfo, rel *DBRel,
childCols []*qcode.Column, skipped uint32) error {
var groupBy []int
isRoot := (rel == nil)
isFil := (sel.Where != nil && sel.Where.Op != qcode.OpNop)
isSearch := sel.Args["search"] != nil
isAgg := false
hasOrder := len(sel.OrderBy) != 0
colmap := make(map[string]struct{}, (len(sel.Cols) + len(sel.OrderBy)))
io.WriteString(c.w, `SELECT `)
io.WriteString(c.w, ` FROM (SELECT `)
i := 0
for n, col := range sel.Cols {
cn := col.Name
colmap[cn] = struct{}{}
_, isRealCol := ti.ColMap[cn]
if !isRealCol {
if isSearch {
switch {
case cn == "search_rank":
if len(sel.Allowed) != 0 {
if _, ok := sel.Allowed[cn]; !ok {
continue
}
}
if ti.TSVCol == nil {
return errors.New("no ts_vector column found")
}
cn = ti.TSVCol.Name
arg := sel.Args["search"]
if i != 0 {
io.WriteString(c.w, `, `)
}
//fmt.Fprintf(w, `ts_rank("%s"."%s", websearch_to_tsquery('%s')) AS %s`,
//c.sel.Name, cn, arg.Val, col.Name)
io.WriteString(c.w, `ts_rank(`)
colWithTable(c.w, ti.Name, cn)
if c.schema.ver >= 110000 {
io.WriteString(c.w, `, websearch_to_tsquery('`)
} else {
io.WriteString(c.w, `, to_tsquery('`)
}
io.WriteString(c.w, arg.Val)
io.WriteString(c.w, `'))`)
alias(c.w, col.Name)
i++
case strings.HasPrefix(cn, "search_headline_"):
cn1 := cn[16:]
if len(sel.Allowed) != 0 {
if _, ok := sel.Allowed[cn1]; !ok {
continue
}
}
arg := sel.Args["search"]
if i != 0 {
io.WriteString(c.w, `, `)
}
//fmt.Fprintf(w, `ts_headline("%s"."%s", websearch_to_tsquery('%s')) AS %s`,
//c.sel.Name, cn, arg.Val, col.Name)
io.WriteString(c.w, `ts_headline(`)
colWithTable(c.w, ti.Name, cn1)
if c.schema.ver >= 110000 {
io.WriteString(c.w, `, websearch_to_tsquery('`)
} else {
io.WriteString(c.w, `, to_tsquery('`)
}
io.WriteString(c.w, arg.Val)
io.WriteString(c.w, `'))`)
alias(c.w, col.Name)
i++
}
} else {
pl := funcPrefixLen(cn)
if pl == 0 {
if i != 0 {
io.WriteString(c.w, `, `)
}
//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'`)
alias(c.w, col.Name)
i++
} else if sel.Functions {
cn1 := cn[pl:]
if len(sel.Allowed) != 0 {
if _, ok := sel.Allowed[cn1]; !ok {
continue
}
}
if i != 0 {
io.WriteString(c.w, `, `)
}
fn := cn[0 : pl-1]
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, `(`)
colWithTable(c.w, ti.Name, cn1)
io.WriteString(c.w, `)`)
alias(c.w, col.Name)
i++
}
}
} else {
groupBy = append(groupBy, n)
//fmt.Fprintf(w, `"%s"."%s"`, c.sel.Name, cn)
if i != 0 {
io.WriteString(c.w, `, `)
}
colWithTable(c.w, ti.Name, cn)
i++
}
if len(sel.DistinctOn) != 0 {
c.renderDistinctOn(sel, ti)
}
for _, ob := range sel.OrderBy {
if _, ok := colmap[ob.Col]; ok {
continue
}
colmap[ob.Col] = struct{}{}
if i != 0 {
io.WriteString(c.w, `, `)
}
colWithTable(c.w, ti.Name, ob.Col)
i++
}
for _, col := range childCols {
if _, ok := colmap[col.Name]; ok {
continue
}
if i != 0 {
io.WriteString(c.w, `, `)
}
//fmt.Fprintf(w, `"%s"."%s"`, col.Table, col.Name)
colWithTable(c.w, col.Table, col.Name)
i++
realColsRendered, isAgg, err := c.renderBaseColumns(sel, ti, childCols, skipped)
if err != nil {
return err
}
io.WriteString(c.w, ` FROM `)
c.renderFrom(sel, ti, rel)
// 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, `"`)
// }
if isRoot && isFil {
io.WriteString(c.w, ` WHERE (`)
if err := c.renderWhere(sel, ti); err != nil {
@ -741,17 +536,20 @@ func (c *compilerContext) renderBaseSelect(sel *qcode.Select, ti *DBTableInfo, r
io.WriteString(c.w, `)`)
}
if isAgg {
if len(groupBy) != 0 {
io.WriteString(c.w, ` GROUP BY `)
if isAgg && len(realColsRendered) != 0 {
io.WriteString(c.w, ` GROUP BY `)
for i, id := range groupBy {
if i != 0 {
io.WriteString(c.w, `, `)
}
//fmt.Fprintf(w, `"%s"."%s"`, c.sel.Name, c.sel.Cols[id].Name)
colWithTable(c.w, ti.Name, sel.Cols[id].Name)
}
for i, id := range realColsRendered {
c.renderComma(i)
//fmt.Fprintf(w, `"%s"."%s"`, c.sel.Name, c.sel.Cols[id].Name)
colWithTable(c.w, ti.Name, sel.Cols[id].Name)
}
}
if hasOrder {
err := c.renderOrderBy(sel, ti)
if err != nil {
return err
}
}
@ -779,10 +577,6 @@ func (c *compilerContext) renderBaseSelect(sel *qcode.Select, ti *DBTableInfo, r
io.WriteString(c.w, `') :: integer`)
}
//fmt.Fprintf(w, `) AS "%s_%d"`, c.sel.Name, c.sel.ID)
io.WriteString(c.w, `)`)
aliasWithID(c.w, ti.Name, sel.ID)
return nil
}
@ -824,23 +618,6 @@ func (c *compilerContext) renderFrom(sel *qcode.Select, ti *DBTableInfo, rel *DB
return nil
}
func (c *compilerContext) renderOrderByColumns(sel *qcode.Select, ti *DBTableInfo) {
//colsRendered := len(sel.Cols) != 0
for i := range sel.OrderBy {
//io.WriteString(w, ", ")
io.WriteString(c.w, `, `)
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)
colWithTableID(c.w, ti.Name, sel.ID, col)
io.WriteString(c.w, ` AS `)
tableIDColSuffix(c.w, sel.Name, sel.ID, col, "_ob")
}
}
func (c *compilerContext) renderRelationship(sel *qcode.Select, ti *DBTableInfo) error {
parent := c.s[sel.ParentID]
@ -961,7 +738,6 @@ func (c *compilerContext) renderExp(ex *qcode.Exp, ti *DBTableInfo, skipNested b
switch val.Op {
case qcode.OpFalse:
st.Push(val.Op)
qcode.FreeExp(val)
case qcode.OpAnd, qcode.OpOr:
st.Push(')')
@ -972,12 +748,12 @@ func (c *compilerContext) renderExp(ex *qcode.Exp, ti *DBTableInfo, skipNested b
}
}
st.Push('(')
qcode.FreeExp(val)
case qcode.OpNot:
//fmt.Printf("1> %s %d %s %s\n", val.Op, len(val.Children), val.Children[0].Op, val.Children[1].Op)
st.Push(val.Children[0])
st.Push(qcode.OpNot)
qcode.FreeExp(val)
default:
if !skipNested && len(val.NestedCols) != 0 {
@ -992,14 +768,13 @@ func (c *compilerContext) renderExp(ex *qcode.Exp, ti *DBTableInfo, skipNested b
if err := c.renderOp(val, ti); err != nil {
return err
}
qcode.FreeExp(val)
}
}
//qcode.FreeExp(val)
default:
return fmt.Errorf("12: unexpected value %v (%t)", intf, intf)
}
}
return nil
@ -1161,31 +936,20 @@ func (c *compilerContext) renderOrderBy(sel *qcode.Select, ti *DBTableInfo) erro
io.WriteString(c.w, `, `)
}
ob := sel.OrderBy[i]
colWithTable(c.w, ti.Name, ob.Col)
switch ob.Order {
case qcode.OrderAsc:
//fmt.Fprintf(w, `"%s_%d.ob.%s" ASC`, sel.Name, sel.ID, ob.Col)
tableIDColSuffix(c.w, sel.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` ASC`)
case qcode.OrderDesc:
//fmt.Fprintf(w, `"%s_%d.ob.%s" DESC`, sel.Name, sel.ID, ob.Col)
tableIDColSuffix(c.w, sel.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` DESC`)
case qcode.OrderAscNullsFirst:
//fmt.Fprintf(w, `"%s_%d.ob.%s" ASC NULLS FIRST`, sel.Name, sel.ID, ob.Col)
tableIDColSuffix(c.w, sel.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` ASC NULLS FIRST`)
case qcode.OrderDescNullsFirst:
//fmt.Fprintf(w, `%s_%d.ob.%s DESC NULLS FIRST`, sel.Name, sel.ID, ob.Col)
tableIDColSuffix(c.w, sel.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` DESC NULLLS FIRST`)
case qcode.OrderAscNullsLast:
//fmt.Fprintf(w, `"%s_%d.ob.%s ASC NULLS LAST`, sel.Name, sel.ID, ob.Col)
tableIDColSuffix(c.w, sel.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` ASC NULLS LAST`)
case qcode.OrderDescNullsLast:
//fmt.Fprintf(w, `%s_%d.ob.%s DESC NULLS LAST`, sel.Name, sel.ID, ob.Col)
tableIDColSuffix(c.w, sel.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` DESC NULLS LAST`)
default:
return fmt.Errorf("13: unexpected value %v", ob.Order)
@ -1200,8 +964,7 @@ func (c *compilerContext) renderDistinctOn(sel *qcode.Select, ti *DBTableInfo) {
if i != 0 {
io.WriteString(c.w, `, `)
}
//fmt.Fprintf(w, `"%s_%d.ob.%s"`, c.sel.Name, c.sel.ID, c.sel.DistinctOn[i])
tableIDColSuffix(c.w, ti.Name, sel.ID, sel.DistinctOn[i], "_ob")
colWithTable(c.w, ti.Name, sel.DistinctOn[i])
}
io.WriteString(c.w, `) `)
}
@ -1225,35 +988,22 @@ func (c *compilerContext) renderList(ex *qcode.Exp) {
}
func (c *compilerContext) renderVal(ex *qcode.Exp, vars map[string]string, col *DBColumn) {
io.WriteString(c.w, ` `)
io.WriteString(c.w, ` '`)
switch ex.Type {
case qcode.ValBool, qcode.ValInt, qcode.ValFloat:
if len(ex.Val) != 0 {
io.WriteString(c.w, ex.Val)
} else {
io.WriteString(c.w, `''`)
}
case qcode.ValStr:
io.WriteString(c.w, `'`)
io.WriteString(c.w, ex.Val)
io.WriteString(c.w, `'`)
case qcode.ValVar:
io.WriteString(c.w, `'`)
if ex.Type == qcode.ValVar {
if val, ok := vars[ex.Val]; ok {
io.WriteString(c.w, val)
} else {
//fmt.Fprintf(w, `'{{%s}}'`, ex.Val)
io.WriteString(c.w, `{{`)
io.WriteString(c.w, ex.Val)
io.WriteString(c.w, `}}`)
}
io.WriteString(c.w, `' :: `)
io.WriteString(c.w, col.Type)
} else {
io.WriteString(c.w, ex.Val)
}
//io.WriteString(c.w, `)`)
io.WriteString(c.w, `' :: `)
io.WriteString(c.w, col.Type)
}
func funcPrefixLen(fn string) int {
@ -1303,15 +1053,6 @@ func aliasWithID(w io.Writer, alias string, id int32) {
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)
@ -1332,27 +1073,16 @@ func colWithTableID(w io.Writer, table string, id int32, col string) {
io.WriteString(w, `"`)
}
func colWithTableIDAlias(w io.Writer, table string, id int32, col, alias string) {
func quoted(w io.Writer, identifier 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, identifier)
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, `"`)
func squoted(w io.Writer, identifier string) {
io.WriteString(w, `'`)
io.WriteString(w, identifier)
io.WriteString(w, `'`)
}
const charset = "0123456789"

321
psql/query_test.go
View File

@ -10,16 +10,16 @@ func withComplexArgs(t *testing.T) {
proDUcts(
# returns only 30 items
limit: 30,
# starts from item 10, commented out for now
# offset: 10,
# orders the response items by highest price
order_by: { price: desc },
# no duplicate prices returned
distinct: [ price ]
# only items with an id >= 20 and < 28 are returned
where: { id: { and: { greater_or_equals: 20, lt: 28 } } }) {
id
@ -28,16 +28,41 @@ func withComplexArgs(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0" ORDER BY "products_0_price_ob" DESC), '[]') AS "json_0" FROM (SELECT DISTINCT ON ("products_0_price_ob") row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "products_0"."price" AS "price") AS "json_row_0")) AS "json_0", "products_0"."price" AS "products_0_price_ob" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((((("products"."price") > 0) AND (("products"."price") < 8)) AND ((("products"."id") < 28) AND (("products"."id") >= 20)))) LIMIT ('30') :: integer) AS "products_0" ORDER BY "products_0_price_ob" DESC LIMIT ('30') :: integer) AS "json_agg_0") AS "sel_0"`
compileGQLToPSQL(t, gql, nil, "user")
}
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
func withWhereAndList(t *testing.T) {
gql := `query {
products(
where: {
and: [
{ not: { id: { is_null: true } } },
{ price: { gt: 10 } },
] } ) {
id
name
price
}
}`
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func withWhereIsNull(t *testing.T) {
gql := `query {
products(
where: {
and: {
not: { id: { is_null: true } },
price: { gt: 10 }
}}) {
id
name
price
}
}`
compileGQLToPSQL(t, gql, nil, "user")
}
func withWhereMultiOr(t *testing.T) {
@ -56,68 +81,7 @@ func withWhereMultiOr(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "products_0"."price" AS "price") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((((("products"."price") > 0) AND (("products"."price") < 8)) AND ((("products"."price") < 20) OR (("products"."price") > 10) OR NOT (("products"."id") IS NULL)))) LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
}
func withWhereIsNull(t *testing.T) {
gql := `query {
products(
where: {
and: {
not: { id: { is_null: true } },
price: { gt: 10 }
}}) {
id
name
price
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "products_0"."price" AS "price") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((((("products"."price") > 0) AND (("products"."price") < 8)) AND ((("products"."price") > 10) AND NOT (("products"."id") IS NULL)))) LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
}
func withWhereAndList(t *testing.T) {
gql := `query {
products(
where: {
and: [
{ not: { id: { is_null: true } } },
{ price: { gt: 10 } },
] } ) {
id
name
price
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "products_0"."price" AS "price") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((((("products"."price") > 0) AND (("products"."price") < 8)) AND ((("products"."price") > 10) AND NOT (("products"."id") IS NULL)))) LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func fetchByID(t *testing.T) {
@ -128,16 +92,7 @@ func fetchByID(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" WHERE ((((("products"."price") > 0) AND (("products"."price") < 8)) AND (("products"."id") = 15))) LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func searchQuery(t *testing.T) {
@ -150,16 +105,7 @@ func searchQuery(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "products_0"."search_rank" AS "search_rank", "products_0"."search_headline_description" AS "search_headline_description") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", ts_rank("products"."tsv", websearch_to_tsquery('ale')) AS "search_rank", ts_headline("products"."description", websearch_to_tsquery('ale')) AS "search_headline_description" FROM "products" WHERE ((("products"."tsv") @@ websearch_to_tsquery('ale'))) LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "admin")
}
func oneToMany(t *testing.T) {
@ -173,16 +119,7 @@ func oneToMany(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('users', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."email" AS "email", "products_1_join"."json_1" AS "products") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."email", "users"."id" FROM "users" LIMIT ('20') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("json_1"), '[]') AS "json_1" FROM (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id")) AND ((("products"."price") > 0) AND (("products"."price") < 8))) LIMIT ('20') :: integer) AS "products_1" LIMIT ('20') :: integer) AS "json_agg_1") AS "products_1_join" ON ('true') LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func oneToManyReverse(t *testing.T) {
@ -196,16 +133,7 @@ func oneToManyReverse(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."name" AS "name", "products_0"."price" AS "price", "users_1_join"."json_1" AS "users") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."name", "products"."price", "products"."user_id" FROM "products" WHERE (((("products"."price") > 0) AND (("products"."price") < 8))) LIMIT ('20') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("json_1"), '[]') AS "json_1" FROM (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "users_1"."email" AS "email") AS "json_row_1")) AS "json_1" FROM (SELECT "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('20') :: integer) AS "users_1" LIMIT ('20') :: integer) AS "json_agg_1") AS "users_1_join" ON ('true') LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func oneToManyArray(t *testing.T) {
@ -227,16 +155,7 @@ func oneToManyArray(t *testing.T) {
}
}`
sql := `SELECT row_to_json("json_root") FROM (SELECT "sel_0"."json_0" AS "tags", "sel_2"."json_2" AS "product" FROM (SELECT row_to_json((SELECT "json_row_2" FROM (SELECT "products_2"."name" AS "name", "products_2"."price" AS "price", "tags_3_join"."json_3" AS "tags") AS "json_row_2")) AS "json_2" FROM (SELECT "products"."name", "products"."price", "products"."tags" FROM "products" LIMIT ('1') :: integer) AS "products_2" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("json_3"), '[]') AS "json_3" FROM (SELECT row_to_json((SELECT "json_row_3" FROM (SELECT "tags_3"."id" AS "id", "tags_3"."name" AS "name") AS "json_row_3")) AS "json_3" FROM (SELECT "tags"."id", "tags"."name" FROM "tags" WHERE ((("tags"."slug") = any ("products_2"."tags"))) LIMIT ('20') :: integer) AS "tags_3" LIMIT ('20') :: integer) AS "json_agg_3") AS "tags_3_join" ON ('true') LIMIT ('1') :: integer) AS "sel_2", (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "tags_0"."name" AS "name", "product_1_join"."json_1" AS "product") AS "json_row_0")) AS "json_0" FROM (SELECT "tags"."name", "tags"."slug" FROM "tags" LIMIT ('20') :: integer) AS "tags_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."name" AS "name") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."name" FROM "products" WHERE ((("tags_0"."slug") = any ("products"."tags"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0") AS "json_root"`
resSQL, err := compileGQLToPSQL(gql, nil, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "admin")
}
func manyToMany(t *testing.T) {
@ -250,16 +169,7 @@ func manyToMany(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."name" AS "name", "customers_1_join"."json_1" AS "customers") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."name", "products"."id" FROM "products" WHERE (((("products"."price") > 0) AND (("products"."price") < 8))) LIMIT ('20') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("json_1"), '[]') AS "json_1" FROM (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "customers_1"."email" AS "email", "customers_1"."full_name" AS "full_name") AS "json_row_1")) AS "json_1" FROM (SELECT "customers"."email", "customers"."full_name" FROM "customers" LEFT OUTER JOIN "purchases" ON (("purchases"."product_id") = ("products_0"."id")) WHERE ((("customers"."id") = ("purchases"."customer_id"))) LIMIT ('20') :: integer) AS "customers_1" LIMIT ('20') :: integer) AS "json_agg_1") AS "customers_1_join" ON ('true') LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func manyToManyReverse(t *testing.T) {
@ -273,16 +183,7 @@ func manyToManyReverse(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('customers', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "customers_0"."email" AS "email", "customers_0"."full_name" AS "full_name", "products_1_join"."json_1" AS "products") AS "json_row_0")) AS "json_0" FROM (SELECT "customers"."email", "customers"."full_name", "customers"."id" FROM "customers" LIMIT ('20') :: integer) AS "customers_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("json_1"), '[]') AS "json_1" FROM (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."name" AS "name") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."name" FROM "products" LEFT OUTER JOIN "purchases" ON (("purchases"."customer_id") = ("customers_0"."id")) WHERE ((("products"."id") = ("purchases"."product_id")) AND ((("products"."price") > 0) AND (("products"."price") < 8))) LIMIT ('20') :: integer) AS "products_1" LIMIT ('20') :: integer) AS "json_agg_1") AS "products_1_join" ON ('true') LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func aggFunction(t *testing.T) {
@ -293,16 +194,7 @@ func aggFunction(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."name" AS "name", "products_0"."count_price" AS "count_price") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."name", count("products"."price") AS "count_price" FROM "products" WHERE (((("products"."price") > 0) AND (("products"."price") < 8))) GROUP BY "products"."name" LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func aggFunctionBlockedByCol(t *testing.T) {
@ -313,16 +205,7 @@ func aggFunctionBlockedByCol(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."name" FROM "products" LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "anon")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "anon")
}
func aggFunctionDisabled(t *testing.T) {
@ -333,16 +216,7 @@ func aggFunctionDisabled(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."name" FROM "products" LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "anon1")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "anon1")
}
func aggFunctionWithFilter(t *testing.T) {
@ -353,16 +227,7 @@ func aggFunctionWithFilter(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."max_price" AS "max_price") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", max("products"."price") AS "max_price" FROM "products" WHERE ((((("products"."price") > 0) AND (("products"."price") < 8)) AND (("products"."id") > 10))) GROUP BY "products"."id" LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func syntheticTables(t *testing.T) {
@ -372,16 +237,7 @@ func syntheticTables(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('me', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT ) AS "json_row_0")) AS "json_0" FROM (SELECT "users"."email" FROM "users" WHERE ((("users"."id") IS NOT DISTINCT FROM '{{user_id}}' :: bigint)) LIMIT ('1') :: integer) AS "users_0" LIMIT ('1') :: integer) AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func queryWithVariables(t *testing.T) {
@ -392,16 +248,7 @@ func queryWithVariables(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" WHERE ((((("products"."price") > 0) AND (("products"."price") < 8)) AND ((("products"."price") IS NOT DISTINCT FROM '{{product_price}}' :: numeric(7,2)) AND (("products"."id") = '{{product_id}}' :: bigint)))) LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func withWhereOnRelations(t *testing.T) {
@ -418,16 +265,7 @@ func withWhereOnRelations(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('users', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."id" AS "id", "users_0"."email" AS "email") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."id", "users"."email" FROM "users" WHERE (NOT EXISTS (SELECT 1 FROM products WHERE (("products"."user_id") = ("users"."id")) AND ((("products"."price") > 3)))) LIMIT ('20') :: integer) AS "users_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func multiRoot(t *testing.T) {
@ -451,16 +289,7 @@ func multiRoot(t *testing.T) {
}
}`
sql := `SELECT row_to_json("json_root") FROM (SELECT "sel_0"."json_0" AS "customer", "sel_1"."json_1" AS "user", "sel_2"."json_2" AS "product" FROM (SELECT row_to_json((SELECT "json_row_2" FROM (SELECT "products_2"."id" AS "id", "products_2"."name" AS "name", "customers_3_join"."json_3" AS "customers", "customer_4_join"."json_4" AS "customer") AS "json_row_2")) AS "json_2" FROM (SELECT "products"."id", "products"."name" FROM "products" WHERE (((("products"."price") > 0) AND (("products"."price") < 8))) LIMIT ('1') :: integer) AS "products_2" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_4" FROM (SELECT "customers_4"."email" AS "email") AS "json_row_4")) AS "json_4" FROM (SELECT "customers"."email" FROM "customers" LEFT OUTER JOIN "purchases" ON (("purchases"."product_id") = ("products_2"."id")) WHERE ((("customers"."id") = ("purchases"."customer_id"))) LIMIT ('1') :: integer) AS "customers_4" LIMIT ('1') :: integer) AS "customer_4_join" ON ('true') LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("json_3"), '[]') AS "json_3" FROM (SELECT row_to_json((SELECT "json_row_3" FROM (SELECT "customers_3"."email" AS "email") AS "json_row_3")) AS "json_3" FROM (SELECT "customers"."email" FROM "customers" LEFT OUTER JOIN "purchases" ON (("purchases"."product_id") = ("products_2"."id")) WHERE ((("customers"."id") = ("purchases"."customer_id"))) LIMIT ('20') :: integer) AS "customers_3" LIMIT ('20') :: integer) AS "json_agg_3") AS "customers_3_join" ON ('true') LIMIT ('1') :: integer) AS "sel_2", (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "users_1"."id" AS "id", "users_1"."email" AS "email") AS "json_row_1")) AS "json_1" FROM (SELECT "users"."id", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_1" LIMIT ('1') :: integer) AS "sel_1", (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "customers_0"."id" AS "id") AS "json_row_0")) AS "json_0" FROM (SELECT "customers"."id" FROM "customers" LIMIT ('1') :: integer) AS "customers_0" LIMIT ('1') :: integer) AS "sel_0") AS "json_root"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func jsonColumnAsTable(t *testing.T) {
@ -477,16 +306,7 @@ func jsonColumnAsTable(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "tag_count_1_join"."json_1" AS "tag_count") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('20') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "tag_count_1"."count" AS "count", "tags_2_join"."json_2" AS "tags") AS "json_row_1")) AS "json_1" FROM (SELECT "tag_count"."count", "tag_count"."tag_id" FROM "products", json_to_recordset("products"."tag_count") AS "tag_count"(tag_id bigint, count int) WHERE ((("products"."id") = ("products_0"."id"))) LIMIT ('1') :: integer) AS "tag_count_1" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("json_2"), '[]') AS "json_2" FROM (SELECT row_to_json((SELECT "json_row_2" FROM (SELECT "tags_2"."name" AS "name") AS "json_row_2")) AS "json_2" FROM (SELECT "tags"."name" FROM "tags" WHERE ((("tags"."id") = ("tag_count_1"."tag_id"))) LIMIT ('20') :: integer) AS "tags_2" LIMIT ('20') :: integer) AS "json_agg_2") AS "tags_2_join" ON ('true') LIMIT ('1') :: integer) AS "tag_count_1_join" ON ('true') LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "admin")
}
func skipUserIDForAnonRole(t *testing.T) {
@ -501,16 +321,7 @@ func skipUserIDForAnonRole(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "anon")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "anon")
}
func blockedQuery(t *testing.T) {
@ -522,16 +333,7 @@ func blockedQuery(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('user', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."id" AS "id", "users_0"."full_name" AS "full_name", "users_0"."email" AS "email") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE (false) LIMIT ('1') :: integer) AS "users_0" LIMIT ('1') :: integer) AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "bad_dude")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "bad_dude")
}
func blockedFunctions(t *testing.T) {
@ -542,16 +344,7 @@ func blockedFunctions(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('users', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."email" AS "email") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."email" FROM "users" WHERE (false) LIMIT ('20') :: integer) AS "users_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "bad_dude")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "bad_dude")
}
func TestCompileQuery(t *testing.T) {

10
psql/tables.go
View File

@ -244,3 +244,13 @@ ORDER BY id;`
return cols, nil
}
// func GetValType(type string) qcode.ValType {
// switch {
// case "bigint", "integer", "smallint", "numeric", "bigserial":
// return qcode.ValInt
// case "double precision", "real":
// return qcode.ValFloat
// case ""
// }
// }

148
psql/tests.sql Normal file
View File

@ -0,0 +1,148 @@
=== RUN TestCompileInsert
=== RUN TestCompileInsert/simpleInsert
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (INSERT INTO "users" ("full_name", "email") SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t RETURNING *) SELECT json_build_object('user', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "users_0"."id") AS "json" FROM (SELECT "users"."id" FROM "users" LIMIT ('1') :: integer) AS "users_0") AS "sel_0"
=== RUN TestCompileInsert/singleInsert
WITH "_sg_input" AS (SELECT '{{insert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description", "price", "user_id") SELECT "t"."name", "t"."description", "t"."price", "t"."user_id" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileInsert/bulkInsert
WITH "_sg_input" AS (SELECT '{{insert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description") SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_recordset(NULL::products, i.j) t RETURNING *) SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileInsert/simpleInsertWithPresets
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", 'now' :: timestamp without time zone, 'now' :: timestamp without time zone, '{{user_id}}' :: bigint FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id") AS "json" FROM (SELECT "products"."id" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileInsert/nestedInsertManyToMany
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "price") SELECT "t"."name", "t"."price" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t RETURNING *), "customers" AS (INSERT INTO "customers" ("full_name", "email") SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::customers, i.j->'customer') t RETURNING *), "purchases" AS (INSERT INTO "purchases" ("sale_type", "quantity", "due_date", "customer_id", "product_id") SELECT "t"."sale_type", "t"."quantity", "t"."due_date", "customers"."id", "products"."id" FROM "_sg_input" i, "customers", "products", json_populate_record(NULL::purchases, i.j) t RETURNING *) SELECT json_build_object('purchase', "sel_0"."json") as "__root" FROM (SELECT json_build_object('sale_type', "purchases_0"."sale_type", 'quantity', "purchases_0"."quantity", 'due_date', "purchases_0"."due_date", 'product', "sel_1"."json", 'customer', "sel_2"."json") AS "json" FROM (SELECT "purchases"."sale_type", "purchases"."quantity", "purchases"."due_date", "purchases"."product_id", "purchases"."customer_id" FROM "purchases" LIMIT ('1') :: integer) AS "purchases_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "customers_2"."id", 'full_name', "customers_2"."full_name", 'email', "customers_2"."email") AS "json" FROM (SELECT "customers"."id", "customers"."full_name", "customers"."email" FROM "customers" WHERE ((("customers"."id") = ("purchases_0"."customer_id"))) LIMIT ('1') :: integer) AS "customers_2") AS "sel_2" ON ('true') LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "products_1"."id", 'name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."id") = ("purchases_0"."product_id"))) LIMIT ('1') :: integer) AS "products_1") AS "sel_1" ON ('true')) AS "sel_0"
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "customers" AS (INSERT INTO "customers" ("full_name", "email") SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::customers, i.j->'customer') t RETURNING *), "products" AS (INSERT INTO "products" ("name", "price") SELECT "t"."name", "t"."price" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t RETURNING *), "purchases" AS (INSERT INTO "purchases" ("sale_type", "quantity", "due_date", "product_id", "customer_id") SELECT "t"."sale_type", "t"."quantity", "t"."due_date", "products"."id", "customers"."id" FROM "_sg_input" i, "products", "customers", json_populate_record(NULL::purchases, i.j) t RETURNING *) SELECT json_build_object('purchase', "sel_0"."json") as "__root" FROM (SELECT json_build_object('sale_type', "purchases_0"."sale_type", 'quantity', "purchases_0"."quantity", 'due_date', "purchases_0"."due_date", 'product', "sel_1"."json", 'customer', "sel_2"."json") AS "json" FROM (SELECT "purchases"."sale_type", "purchases"."quantity", "purchases"."due_date", "purchases"."product_id", "purchases"."customer_id" FROM "purchases" LIMIT ('1') :: integer) AS "purchases_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "customers_2"."id", 'full_name', "customers_2"."full_name", 'email', "customers_2"."email") AS "json" FROM (SELECT "customers"."id", "customers"."full_name", "customers"."email" FROM "customers" WHERE ((("customers"."id") = ("purchases_0"."customer_id"))) LIMIT ('1') :: integer) AS "customers_2") AS "sel_2" ON ('true') LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "products_1"."id", 'name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."id") = ("purchases_0"."product_id"))) LIMIT ('1') :: integer) AS "products_1") AS "sel_1" ON ('true')) AS "sel_0"
=== RUN TestCompileInsert/nestedInsertOneToMany
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (INSERT INTO "users" ("full_name", "email", "created_at", "updated_at") SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t RETURNING *), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at", "users"."id" FROM "_sg_input" i, "users", json_populate_record(NULL::products, i.j->'product') t RETURNING *) SELECT json_build_object('user', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "users_0"."id", 'full_name', "users_0"."full_name", 'email', "users_0"."email", 'product', "sel_1"."json") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "products_1"."id", 'name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id"))) LIMIT ('1') :: integer) AS "products_1") AS "sel_1" ON ('true')) AS "sel_0"
=== RUN TestCompileInsert/nestedInsertOneToOne
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (INSERT INTO "users" ("full_name", "email", "created_at", "updated_at") SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j->'user') t RETURNING *), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at", "users"."id" FROM "_sg_input" i, "users", json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'user', "sel_1"."json") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "users_1"."id", 'full_name', "users_1"."full_name", 'email', "users_1"."email") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1") AS "sel_1" ON ('true')) AS "sel_0"
=== RUN TestCompileInsert/nestedInsertOneToManyWithConnect
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (INSERT INTO "users" ("full_name", "email", "created_at", "updated_at") SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t RETURNING *), "products" AS ( UPDATE "products" SET "user_id" = "users"."id" FROM "users" WHERE ("products"."id"= ((i.j->'product'->'connect'->>'id'))::bigint) RETURNING "products".*) SELECT json_build_object('user', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "users_0"."id", 'full_name', "users_0"."full_name", 'email', "users_0"."email", 'product', "sel_1"."json") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "products_1"."id", 'name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id"))) LIMIT ('1') :: integer) AS "products_1") AS "sel_1" ON ('true')) AS "sel_0"
=== RUN TestCompileInsert/nestedInsertOneToOneWithConnect
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT "id" FROM "_sg_input" i,"users" WHERE "users"."id"= ((i.j->'user'->'connect'->>'id'))::bigint LIMIT 1), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'user', "sel_1"."json", 'tags', "sel_2"."json") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."user_id", "products"."tags" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg(json_build_object('id', "tags_2"."id", 'name', "tags_2"."name")), '[]') AS "json" FROM (SELECT "tags"."id", "tags"."name" FROM "tags" WHERE ((("tags"."slug") = any ("products_0"."tags"))) LIMIT ('20') :: integer) AS "tags_2") AS "sel_2" ON ('true') LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "users_1"."id", 'full_name', "users_1"."full_name", 'email', "users_1"."email") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1") AS "sel_1" ON ('true')) AS "sel_0"
=== RUN TestCompileInsert/nestedInsertOneToOneWithConnectArray
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT "id" FROM "_sg_input" i,"users" WHERE "users"."id" = ANY((select a::bigint AS list from json_array_elements_text((i.j->'user'->'connect'->>'id')::json) AS a)) LIMIT 1), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'user', "sel_1"."json") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "users_1"."id", 'full_name', "users_1"."full_name", 'email', "users_1"."email") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1") AS "sel_1" ON ('true')) AS "sel_0"
--- PASS: TestCompileInsert (0.02s)
--- PASS: TestCompileInsert/simpleInsert (0.00s)
--- PASS: TestCompileInsert/singleInsert (0.00s)
--- PASS: TestCompileInsert/bulkInsert (0.00s)
--- PASS: TestCompileInsert/simpleInsertWithPresets (0.00s)
--- PASS: TestCompileInsert/nestedInsertManyToMany (0.00s)
--- PASS: TestCompileInsert/nestedInsertOneToMany (0.00s)
--- PASS: TestCompileInsert/nestedInsertOneToOne (0.00s)
--- PASS: TestCompileInsert/nestedInsertOneToManyWithConnect (0.00s)
--- PASS: TestCompileInsert/nestedInsertOneToOneWithConnect (0.00s)
--- PASS: TestCompileInsert/nestedInsertOneToOneWithConnectArray (0.00s)
=== RUN TestCompileMutate
=== RUN TestCompileMutate/singleUpsert
WITH "_sg_input" AS (SELECT '{{upsert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description") SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t RETURNING *) ON CONFLICT (id) DO UPDATE SET name = EXCLUDED.name, description = EXCLUDED.description RETURNING *) SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileMutate/singleUpsertWhere
WITH "_sg_input" AS (SELECT '{{upsert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description") SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t RETURNING *) ON CONFLICT (id) WHERE (("products"."price") > '3' :: numeric(7,2)) DO UPDATE SET name = EXCLUDED.name, description = EXCLUDED.description RETURNING *) SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileMutate/bulkUpsert
WITH "_sg_input" AS (SELECT '{{upsert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description") SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_recordset(NULL::products, i.j) t RETURNING *) ON CONFLICT (id) DO UPDATE SET name = EXCLUDED.name, description = EXCLUDED.description RETURNING *) SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileMutate/delete
WITH "products" AS (DELETE FROM "products" WHERE (((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2))) AND (("products"."id") IS NOT DISTINCT FROM '1' :: bigint)) RETURNING "products".*)SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "sel_0"
--- PASS: TestCompileMutate (0.00s)
--- PASS: TestCompileMutate/singleUpsert (0.00s)
--- PASS: TestCompileMutate/singleUpsertWhere (0.00s)
--- PASS: TestCompileMutate/bulkUpsert (0.00s)
--- PASS: TestCompileMutate/delete (0.00s)
=== RUN TestCompileQuery
=== RUN TestCompileQuery/withComplexArgs
SELECT json_build_object('products', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'price', "products_0"."price")), '[]') AS "json" FROM (SELECT DISTINCT ON ("products"."price") "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2))) AND ((("products"."id") < '28' :: bigint) AND (("products"."id") >= '20' :: bigint)))) ORDER BY "products"."price" DESC LIMIT ('30') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileQuery/withWhereAndList
SELECT json_build_object('products', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'price', "products_0"."price")), '[]') AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2))) AND ((("products"."price") > '10' :: numeric(7,2)) AND NOT (("products"."id") IS NULL)))) LIMIT ('20') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileQuery/withWhereIsNull
SELECT json_build_object('products', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'price', "products_0"."price")), '[]') AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2))) AND ((("products"."price") > '10' :: numeric(7,2)) AND NOT (("products"."id") IS NULL)))) LIMIT ('20') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileQuery/withWhereMultiOr
SELECT json_build_object('products', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'price', "products_0"."price")), '[]') AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2))) AND ((("products"."price") < '20' :: numeric(7,2)) OR (("products"."price") > '10' :: numeric(7,2)) OR NOT (("products"."id") IS NULL)))) LIMIT ('20') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileQuery/fetchByID
SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" WHERE ((((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2))) AND (("products"."id") = '15' :: bigint))) LIMIT ('1') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileQuery/searchQuery
SELECT json_build_object('products', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'search_rank', "products_0"."search_rank", 'search_headline_description', "products_0"."search_headline_description")), '[]') AS "json" FROM (SELECT "products"."id", "products"."name", ts_rank("products"."tsv", websearch_to_tsquery('ale')) AS "search_rank", ts_headline("products"."description", websearch_to_tsquery('ale')) AS "search_headline_description" FROM "products" WHERE ((("products"."tsv") @@ websearch_to_tsquery('ale'))) LIMIT ('20') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileQuery/oneToMany
SELECT json_build_object('users', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('email', "users_0"."email", 'products', "sel_1"."json")), '[]') AS "json" FROM (SELECT "users"."email", "users"."id" FROM "users" LIMIT ('20') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg(json_build_object('name', "products_1"."name", 'price', "products_1"."price")), '[]') AS "json" FROM (SELECT "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id")) AND ((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2)))) LIMIT ('20') :: integer) AS "products_1") AS "sel_1" ON ('true')) AS "sel_0"
=== RUN TestCompileQuery/oneToManyReverse
SELECT json_build_object('products', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('name', "products_0"."name", 'price', "products_0"."price", 'users', "sel_1"."json")), '[]') AS "json" FROM (SELECT "products"."name", "products"."price", "products"."user_id" FROM "products" WHERE (((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2)))) LIMIT ('20') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg(json_build_object('email', "users_1"."email")), '[]') AS "json" FROM (SELECT "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('20') :: integer) AS "users_1") AS "sel_1" ON ('true')) AS "sel_0"
=== RUN TestCompileQuery/oneToManyArray
SELECT json_build_object('tags', "sel_0"."json", 'product', "sel_2"."json") as "__root" FROM (SELECT json_build_object('name', "products_2"."name", 'price', "products_2"."price", 'tags', "sel_3"."json") AS "json" FROM (SELECT "products"."name", "products"."price", "products"."tags" FROM "products" LIMIT ('1') :: integer) AS "products_2" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg(json_build_object('id', "tags_3"."id", 'name', "tags_3"."name")), '[]') AS "json" FROM (SELECT "tags"."id", "tags"."name" FROM "tags" WHERE ((("tags"."slug") = any ("products_2"."tags"))) LIMIT ('20') :: integer) AS "tags_3") AS "sel_3" ON ('true')) AS "sel_2", (SELECT coalesce(json_agg(json_build_object('name', "tags_0"."name", 'product', "sel_1"."json")), '[]') AS "json" FROM (SELECT "tags"."name", "tags"."slug" FROM "tags" LIMIT ('20') :: integer) AS "tags_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('name', "products_1"."name") AS "json" FROM (SELECT "products"."name" FROM "products" WHERE ((("tags_0"."slug") = any ("products"."tags"))) LIMIT ('1') :: integer) AS "products_1") AS "sel_1" ON ('true')) AS "sel_0"
=== RUN TestCompileQuery/manyToMany
SELECT json_build_object('products', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('name', "products_0"."name", 'customers', "sel_1"."json")), '[]') AS "json" FROM (SELECT "products"."name", "products"."id" FROM "products" WHERE (((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2)))) LIMIT ('20') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg(json_build_object('email', "customers_1"."email", 'full_name', "customers_1"."full_name")), '[]') AS "json" FROM (SELECT "customers"."email", "customers"."full_name" FROM "customers" LEFT OUTER JOIN "purchases" ON (("purchases"."product_id") = ("products_0"."id")) WHERE ((("customers"."id") = ("purchases"."customer_id"))) LIMIT ('20') :: integer) AS "customers_1") AS "sel_1" ON ('true')) AS "sel_0"
=== RUN TestCompileQuery/manyToManyReverse
SELECT json_build_object('customers', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('email', "customers_0"."email", 'full_name', "customers_0"."full_name", 'products', "sel_1"."json")), '[]') AS "json" FROM (SELECT "customers"."email", "customers"."full_name", "customers"."id" FROM "customers" LIMIT ('20') :: integer) AS "customers_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg(json_build_object('name', "products_1"."name")), '[]') AS "json" FROM (SELECT "products"."name" FROM "products" LEFT OUTER JOIN "purchases" ON (("purchases"."customer_id") = ("customers_0"."id")) WHERE ((("products"."id") = ("purchases"."product_id")) AND ((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2)))) LIMIT ('20') :: integer) AS "products_1") AS "sel_1" ON ('true')) AS "sel_0"
=== RUN TestCompileQuery/aggFunction
SELECT json_build_object('products', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('name', "products_0"."name", 'count_price', "products_0"."count_price")), '[]') AS "json" FROM (SELECT "products"."name", price("products"."price") AS "count_price" FROM "products" WHERE (((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2)))) GROUP BY "products"."name" LIMIT ('20') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileQuery/aggFunctionBlockedByCol
SELECT json_build_object('products', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('name', "products_0"."name")), '[]') AS "json" FROM (SELECT "products"."name" FROM "products" GROUP BY "products"."name" LIMIT ('20') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileQuery/aggFunctionDisabled
SELECT json_build_object('products', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('name', "products_0"."name")), '[]') AS "json" FROM (SELECT "products"."name" FROM "products" GROUP BY "products"."name" LIMIT ('20') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileQuery/aggFunctionWithFilter
SELECT json_build_object('products', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('id', "products_0"."id", 'max_price', "products_0"."max_price")), '[]') AS "json" FROM (SELECT "products"."id", pri("products"."price") AS "max_price" FROM "products" WHERE ((((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2))) AND (("products"."id") > '10' :: bigint))) GROUP BY "products"."id" LIMIT ('20') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileQuery/syntheticTables
SELECT json_build_object('me', "sel_0"."json") as "__root" FROM (SELECT json_build_object() AS "json" FROM (SELECT "users"."email" FROM "users" WHERE ((("users"."id") IS NOT DISTINCT FROM '{{user_id}}' :: bigint)) LIMIT ('1') :: integer) AS "users_0") AS "sel_0"
=== RUN TestCompileQuery/queryWithVariables
SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" WHERE ((((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2))) AND ((("products"."price") IS NOT DISTINCT FROM '{{product_price}}' :: numeric(7,2)) AND (("products"."id") = '{{product_id}}' :: bigint)))) LIMIT ('1') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileQuery/withWhereOnRelations
SELECT json_build_object('users', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('id', "users_0"."id", 'email', "users_0"."email")), '[]') AS "json" FROM (SELECT "users"."id", "users"."email" FROM "users" WHERE (NOT EXISTS (SELECT 1 FROM products WHERE (("products"."user_id") = ("users"."id")) AND ((("products"."price") > '3' :: numeric(7,2))))) LIMIT ('20') :: integer) AS "users_0") AS "sel_0"
=== RUN TestCompileQuery/multiRoot
SELECT json_build_object('customer', "sel_0"."json", 'user', "sel_1"."json", 'product', "sel_2"."json") as "__root" FROM (SELECT json_build_object('id', "products_2"."id", 'name', "products_2"."name", 'customers', "sel_3"."json", 'customer', "sel_4"."json") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" WHERE (((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2)))) LIMIT ('1') :: integer) AS "products_2" LEFT OUTER JOIN LATERAL (SELECT json_build_object('email', "customers_4"."email") AS "json" FROM (SELECT "customers"."email" FROM "customers" LEFT OUTER JOIN "purchases" ON (("purchases"."product_id") = ("products_2"."id")) WHERE ((("customers"."id") = ("purchases"."customer_id"))) LIMIT ('1') :: integer) AS "customers_4") AS "sel_4" ON ('true') LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg(json_build_object('email', "customers_3"."email")), '[]') AS "json" FROM (SELECT "customers"."email" FROM "customers" LEFT OUTER JOIN "purchases" ON (("purchases"."product_id") = ("products_2"."id")) WHERE ((("customers"."id") = ("purchases"."customer_id"))) LIMIT ('20') :: integer) AS "customers_3") AS "sel_3" ON ('true')) AS "sel_2", (SELECT json_build_object('id', "users_1"."id", 'email', "users_1"."email") AS "json" FROM (SELECT "users"."id", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_1") AS "sel_1", (SELECT json_build_object('id', "customers_0"."id") AS "json" FROM (SELECT "customers"."id" FROM "customers" LIMIT ('1') :: integer) AS "customers_0") AS "sel_0"
=== RUN TestCompileQuery/jsonColumnAsTable
SELECT json_build_object('products', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'tag_count', "sel_1"."json")), '[]') AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('20') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('count', "tag_count_1"."count", 'tags', "sel_2"."json") AS "json" FROM (SELECT "tag_count"."count", "tag_count"."tag_id" FROM "products", json_to_recordset("products"."tag_count") AS "tag_count"(tag_id bigint, count int) WHERE ((("products"."id") = ("products_0"."id"))) LIMIT ('1') :: integer) AS "tag_count_1" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg(json_build_object('name', "tags_2"."name")), '[]') AS "json" FROM (SELECT "tags"."name" FROM "tags" WHERE ((("tags"."id") = ("tag_count_1"."tag_id"))) LIMIT ('20') :: integer) AS "tags_2") AS "sel_2" ON ('true')) AS "sel_1" ON ('true')) AS "sel_0"
=== RUN TestCompileQuery/skipUserIDForAnonRole
SELECT json_build_object('products', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('id', "products_0"."id", 'name', "products_0"."name")), '[]') AS "json" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('20') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileQuery/blockedQuery
SELECT json_build_object('user', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "users_0"."id", 'full_name', "users_0"."full_name", 'email', "users_0"."email") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE (false) LIMIT ('1') :: integer) AS "users_0") AS "sel_0"
=== RUN TestCompileQuery/blockedFunctions
SELECT json_build_object('users', "sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg(json_build_object('email', "users_0"."email")), '[]') AS "json" FROM (SELECT , "users"."email" FROM "users" WHERE (false) GROUP BY "users"."email" LIMIT ('20') :: integer) AS "users_0") AS "sel_0"
--- PASS: TestCompileQuery (0.02s)
--- PASS: TestCompileQuery/withComplexArgs (0.00s)
--- PASS: TestCompileQuery/withWhereAndList (0.00s)
--- PASS: TestCompileQuery/withWhereIsNull (0.00s)
--- PASS: TestCompileQuery/withWhereMultiOr (0.00s)
--- PASS: TestCompileQuery/fetchByID (0.00s)
--- PASS: TestCompileQuery/searchQuery (0.00s)
--- PASS: TestCompileQuery/oneToMany (0.00s)
--- PASS: TestCompileQuery/oneToManyReverse (0.00s)
--- PASS: TestCompileQuery/oneToManyArray (0.00s)
--- PASS: TestCompileQuery/manyToMany (0.00s)
--- PASS: TestCompileQuery/manyToManyReverse (0.00s)
--- PASS: TestCompileQuery/aggFunction (0.00s)
--- PASS: TestCompileQuery/aggFunctionBlockedByCol (0.00s)
--- PASS: TestCompileQuery/aggFunctionDisabled (0.00s)
--- PASS: TestCompileQuery/aggFunctionWithFilter (0.00s)
--- PASS: TestCompileQuery/syntheticTables (0.00s)
--- PASS: TestCompileQuery/queryWithVariables (0.00s)
--- PASS: TestCompileQuery/withWhereOnRelations (0.00s)
--- PASS: TestCompileQuery/multiRoot (0.00s)
--- PASS: TestCompileQuery/jsonColumnAsTable (0.00s)
--- PASS: TestCompileQuery/skipUserIDForAnonRole (0.00s)
--- PASS: TestCompileQuery/blockedQuery (0.00s)
--- PASS: TestCompileQuery/blockedFunctions (0.00s)
=== RUN TestCompileUpdate
=== RUN TestCompileUpdate/singleUpdate
WITH "_sg_input" AS (SELECT '{{update}}' :: json AS j), "products" AS (UPDATE "products" SET ("name", "description") = (SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t) WHERE ((("products"."id") IS NOT DISTINCT FROM '1' :: bigint) AND (("products"."id") = '15' :: bigint)) RETURNING "products".*) SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileUpdate/simpleUpdateWithPresets
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "products" AS (UPDATE "products" SET ("name", "price", "updated_at") = (SELECT "t"."name", "t"."price", 'now' :: timestamp without time zone FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t) WHERE (("products"."user_id") IS NOT DISTINCT FROM '{{user_id}}' :: bigint) RETURNING "products".*) SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id") AS "json" FROM (SELECT "products"."id" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "sel_0"
=== RUN TestCompileUpdate/nestedUpdateManyToMany
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "purchases" AS (UPDATE "purchases" SET ("sale_type", "quantity", "due_date") = (SELECT "t"."sale_type", "t"."quantity", "t"."due_date" FROM "_sg_input" i, json_populate_record(NULL::purchases, i.j) t) WHERE (("purchases"."id") = '5' :: bigint) RETURNING "purchases".*), "products" AS (UPDATE "products" SET ("name", "price") = (SELECT "t"."name", "t"."price" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t) FROM "purchases" WHERE (("products"."id") = ("purchases"."product_id")) RETURNING "products".*), "customers" AS (UPDATE "customers" SET ("full_name", "email") = (SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::customers, i.j->'customer') t) FROM "purchases" WHERE (("customers"."id") = ("purchases"."customer_id")) RETURNING "customers".*) SELECT json_build_object('purchase', "sel_0"."json") as "__root" FROM (SELECT json_build_object('sale_type', "purchases_0"."sale_type", 'quantity', "purchases_0"."quantity", 'due_date', "purchases_0"."due_date", 'product', "sel_1"."json", 'customer', "sel_2"."json") AS "json" FROM (SELECT "purchases"."sale_type", "purchases"."quantity", "purchases"."due_date", "purchases"."product_id", "purchases"."customer_id" FROM "purchases" LIMIT ('1') :: integer) AS "purchases_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "customers_2"."id", 'full_name', "customers_2"."full_name", 'email', "customers_2"."email") AS "json" FROM (SELECT "customers"."id", "customers"."full_name", "customers"."email" FROM "customers" WHERE ((("customers"."id") = ("purchases_0"."customer_id"))) LIMIT ('1') :: integer) AS "customers_2") AS "sel_2" ON ('true') LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "products_1"."id", 'name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."id") = ("purchases_0"."product_id"))) LIMIT ('1') :: integer) AS "products_1") AS "sel_1" ON ('true')) AS "sel_0"
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "purchases" AS (UPDATE "purchases" SET ("sale_type", "quantity", "due_date") = (SELECT "t"."sale_type", "t"."quantity", "t"."due_date" FROM "_sg_input" i, json_populate_record(NULL::purchases, i.j) t) WHERE (("purchases"."id") = '5' :: bigint) RETURNING "purchases".*), "customers" AS (UPDATE "customers" SET ("full_name", "email") = (SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::customers, i.j->'customer') t) FROM "purchases" WHERE (("customers"."id") = ("purchases"."customer_id")) RETURNING "customers".*), "products" AS (UPDATE "products" SET ("name", "price") = (SELECT "t"."name", "t"."price" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t) FROM "purchases" WHERE (("products"."id") = ("purchases"."product_id")) RETURNING "products".*) SELECT json_build_object('purchase', "sel_0"."json") as "__root" FROM (SELECT json_build_object('sale_type', "purchases_0"."sale_type", 'quantity', "purchases_0"."quantity", 'due_date', "purchases_0"."due_date", 'product', "sel_1"."json", 'customer', "sel_2"."json") AS "json" FROM (SELECT "purchases"."sale_type", "purchases"."quantity", "purchases"."due_date", "purchases"."product_id", "purchases"."customer_id" FROM "purchases" LIMIT ('1') :: integer) AS "purchases_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "customers_2"."id", 'full_name', "customers_2"."full_name", 'email', "customers_2"."email") AS "json" FROM (SELECT "customers"."id", "customers"."full_name", "customers"."email" FROM "customers" WHERE ((("customers"."id") = ("purchases_0"."customer_id"))) LIMIT ('1') :: integer) AS "customers_2") AS "sel_2" ON ('true') LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "products_1"."id", 'name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."id") = ("purchases_0"."product_id"))) LIMIT ('1') :: integer) AS "products_1") AS "sel_1" ON ('true')) AS "sel_0"
=== RUN TestCompileUpdate/nestedUpdateOneToMany
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (UPDATE "users" SET ("full_name", "email", "created_at", "updated_at") = (SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t) WHERE (("users"."id") IS NOT DISTINCT FROM '8' :: bigint) RETURNING "users".*), "products" AS (UPDATE "products" SET ("name", "price", "created_at", "updated_at") = (SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t) FROM "users" WHERE (("products"."user_id") = ("users"."id") AND "products"."id"= ((i.j->'product'->'where'->>'id'))::bigint) RETURNING "products".*) SELECT json_build_object('user', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "users_0"."id", 'full_name', "users_0"."full_name", 'email', "users_0"."email", 'product', "sel_1"."json") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "products_1"."id", 'name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id"))) LIMIT ('1') :: integer) AS "products_1") AS "sel_1" ON ('true')) AS "sel_0"
=== RUN TestCompileUpdate/nestedUpdateOneToOne
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "products" AS (UPDATE "products" SET ("name", "price", "created_at", "updated_at") = (SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t) WHERE (("products"."id") = '6' :: bigint) RETURNING "products".*), "users" AS (UPDATE "users" SET ("email") = (SELECT "t"."email" FROM "_sg_input" i, json_populate_record(NULL::users, i.j->'user') t) FROM "products" WHERE (("users"."id") = ("products"."user_id")) RETURNING "users".*) SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'user', "sel_1"."json") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "users_1"."id", 'full_name', "users_1"."full_name", 'email', "users_1"."email") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1") AS "sel_1" ON ('true')) AS "sel_0"
=== RUN TestCompileUpdate/nestedUpdateOneToManyWithConnect
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (UPDATE "users" SET ("full_name", "email", "created_at", "updated_at") = (SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t) WHERE (("users"."id") = '6' :: bigint) RETURNING "users".*), "products_c" AS ( UPDATE "products" SET "user_id" = "users"."id" FROM "users" WHERE ("products"."id"= ((i.j->'product'->'connect'->>'id'))::bigint) RETURNING "products".*), "products_d" AS ( UPDATE "products" SET "user_id" = NULL FROM "users" WHERE ("products"."id"= ((i.j->'product'->'disconnect'->>'id'))::bigint) RETURNING "products".*), "products" AS (SELECT * FROM "products_c" UNION ALL SELECT * FROM "products_d") SELECT json_build_object('user', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "users_0"."id", 'full_name', "users_0"."full_name", 'email', "users_0"."email", 'product', "sel_1"."json") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "products_1"."id", 'name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id"))) LIMIT ('1') :: integer) AS "products_1") AS "sel_1" ON ('true')) AS "sel_0"
=== RUN TestCompileUpdate/nestedUpdateOneToOneWithConnect
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT "id" FROM "_sg_input" i,"users" WHERE "users"."id"= ((i.j->'user'->'connect'->>'id'))::bigint AND "users"."email"= ((i.j->'user'->'connect'->>'email'))::character varying LIMIT 1), "products" AS (UPDATE "products" SET ("name", "price", "user_id") = (SELECT "t"."name", "t"."price", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t) WHERE (("products"."id") = '9' :: bigint) RETURNING "products".*) SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'user', "sel_1"."json") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "users_1"."id", 'full_name', "users_1"."full_name", 'email', "users_1"."email") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1") AS "sel_1" ON ('true')) AS "sel_0"
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT "id" FROM "_sg_input" i,"users" WHERE "users"."email"= ((i.j->'user'->'connect'->>'email'))::character varying AND "users"."id"= ((i.j->'user'->'connect'->>'id'))::bigint LIMIT 1), "products" AS (UPDATE "products" SET ("name", "price", "user_id") = (SELECT "t"."name", "t"."price", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t) WHERE (("products"."id") = '9' :: bigint) RETURNING "products".*) SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'user', "sel_1"."json") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "users_1"."id", 'full_name', "users_1"."full_name", 'email', "users_1"."email") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1") AS "sel_1" ON ('true')) AS "sel_0"
=== RUN TestCompileUpdate/nestedUpdateOneToOneWithDisconnect
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT * FROM (VALUES(NULL::bigint)) AS LOOKUP("id")), "products" AS (UPDATE "products" SET ("name", "price", "user_id") = (SELECT "t"."name", "t"."price", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t) WHERE (("products"."id") = '2' :: bigint) RETURNING "products".*) SELECT json_build_object('product', "sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'user_id', "products_0"."user_id") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "sel_0"
--- PASS: TestCompileUpdate (0.02s)
--- PASS: TestCompileUpdate/singleUpdate (0.00s)
--- PASS: TestCompileUpdate/simpleUpdateWithPresets (0.00s)
--- PASS: TestCompileUpdate/nestedUpdateManyToMany (0.00s)
--- PASS: TestCompileUpdate/nestedUpdateOneToMany (0.00s)
--- PASS: TestCompileUpdate/nestedUpdateOneToOne (0.00s)
--- PASS: TestCompileUpdate/nestedUpdateOneToManyWithConnect (0.00s)
--- PASS: TestCompileUpdate/nestedUpdateOneToOneWithConnect (0.00s)
--- PASS: TestCompileUpdate/nestedUpdateOneToOneWithDisconnect (0.00s)
PASS
ok github.com/dosco/super-graph/psql 0.127s

97
psql/update_test.go
View File

@ -13,20 +13,11 @@ func singleUpdate(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{update}}' :: json AS j), "products" AS (UPDATE "products" SET ("name", "description") = (SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t) WHERE ((("products"."id") IS NOT DISTINCT FROM 1) AND (("products"."id") = 15)) RETURNING "products".*) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"update": json.RawMessage(` { "name": "my_name", "description": "my_desc" }`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "anon")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "anon")
}
func simpleUpdateWithPresets(t *testing.T) {
@ -36,20 +27,11 @@ func simpleUpdateWithPresets(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "products" AS (UPDATE "products" SET ("name", "price", "updated_at") = (SELECT "t"."name", "t"."price", 'now' :: timestamp without time zone FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t) WHERE (("products"."user_id") IS NOT DISTINCT FROM '{{user_id}}' :: bigint) RETURNING "products".*) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{"name": "Apple", "price": 1.25}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "user")
}
func nestedUpdateManyToMany(t *testing.T) {
@ -71,10 +53,6 @@ func nestedUpdateManyToMany(t *testing.T) {
}
}`
sql1 := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "purchases" AS (UPDATE "purchases" SET ("sale_type", "quantity", "due_date") = (SELECT "t"."sale_type", "t"."quantity", "t"."due_date" FROM "_sg_input" i, json_populate_record(NULL::purchases, i.j) t) WHERE (("purchases"."id") = 5) RETURNING "purchases".*), "products" AS (UPDATE "products" SET ("name", "price") = (SELECT "t"."name", "t"."price" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t) FROM "purchases" WHERE (("products"."id") = ("purchases"."product_id")) RETURNING "products".*), "customers" AS (UPDATE "customers" SET ("full_name", "email") = (SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::customers, i.j->'customer') t) FROM "purchases" WHERE (("customers"."id") = ("purchases"."customer_id")) RETURNING "customers".*) SELECT json_object_agg('purchase', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "purchases_0"."sale_type" AS "sale_type", "purchases_0"."quantity" AS "quantity", "purchases_0"."due_date" AS "due_date", "product_1_join"."json_1" AS "product", "customer_2_join"."json_2" AS "customer") AS "json_row_0")) AS "json_0" FROM (SELECT "purchases"."sale_type", "purchases"."quantity", "purchases"."due_date", "purchases"."product_id", "purchases"."customer_id" FROM "purchases" LIMIT ('1') :: integer) AS "purchases_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_2" FROM (SELECT "customers_2"."id" AS "id", "customers_2"."full_name" AS "full_name", "customers_2"."email" AS "email") AS "json_row_2")) AS "json_2" FROM (SELECT "customers"."id", "customers"."full_name", "customers"."email" FROM "customers" WHERE ((("customers"."id") = ("purchases_0"."customer_id"))) LIMIT ('1') :: integer) AS "customers_2" LIMIT ('1') :: integer) AS "customer_2_join" ON ('true') LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."id" AS "id", "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."id") = ("purchases_0"."product_id"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
sql2 := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "purchases" AS (UPDATE "purchases" SET ("sale_type", "quantity", "due_date") = (SELECT "t"."sale_type", "t"."quantity", "t"."due_date" FROM "_sg_input" i, json_populate_record(NULL::purchases, i.j) t) WHERE (("purchases"."id") = 5) RETURNING "purchases".*), "customers" AS (UPDATE "customers" SET ("full_name", "email") = (SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::customers, i.j->'customer') t) FROM "purchases" WHERE (("customers"."id") = ("purchases"."customer_id")) RETURNING "customers".*), "products" AS (UPDATE "products" SET ("name", "price") = (SELECT "t"."name", "t"."price" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t) FROM "purchases" WHERE (("products"."id") = ("purchases"."product_id")) RETURNING "products".*) SELECT json_object_agg('purchase', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "purchases_0"."sale_type" AS "sale_type", "purchases_0"."quantity" AS "quantity", "purchases_0"."due_date" AS "due_date", "product_1_join"."json_1" AS "product", "customer_2_join"."json_2" AS "customer") AS "json_row_0")) AS "json_0" FROM (SELECT "purchases"."sale_type", "purchases"."quantity", "purchases"."due_date", "purchases"."product_id", "purchases"."customer_id" FROM "purchases" LIMIT ('1') :: integer) AS "purchases_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_2" FROM (SELECT "customers_2"."id" AS "id", "customers_2"."full_name" AS "full_name", "customers_2"."email" AS "email") AS "json_row_2")) AS "json_2" FROM (SELECT "customers"."id", "customers"."full_name", "customers"."email" FROM "customers" WHERE ((("customers"."id") = ("purchases_0"."customer_id"))) LIMIT ('1') :: integer) AS "customers_2" LIMIT ('1') :: integer) AS "customer_2_join" ON ('true') LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."id" AS "id", "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."id") = ("purchases_0"."product_id"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(` {
"sale_type": "bought",
@ -92,17 +70,7 @@ func nestedUpdateManyToMany(t *testing.T) {
`),
}
for i := 0; i < 1000; i++ {
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql1 && string(resSQL) != sql2 {
t.Fatal(errNotExpected)
}
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedUpdateOneToMany(t *testing.T) {
@ -119,8 +87,6 @@ func nestedUpdateOneToMany(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (UPDATE "users" SET ("full_name", "email", "created_at", "updated_at") = (SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t) WHERE (("users"."id") IS NOT DISTINCT FROM 8) RETURNING "users".*), "products" AS (UPDATE "products" SET ("name", "price", "created_at", "updated_at") = (SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t) FROM "users" WHERE (("products"."user_id") = ("users"."id") AND "products"."id"= ((i.j->'product'->'where'->>'id'))::bigint) RETURNING "products".*) SELECT json_object_agg('user', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."id" AS "id", "users_0"."full_name" AS "full_name", "users_0"."email" AS "email", "product_1_join"."json_1" AS "product") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."id" AS "id", "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"email": "thedude@rug.com",
@ -139,14 +105,7 @@ func nestedUpdateOneToMany(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedUpdateOneToOne(t *testing.T) {
@ -162,8 +121,6 @@ func nestedUpdateOneToOne(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "products" AS (UPDATE "products" SET ("name", "price", "created_at", "updated_at") = (SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t) WHERE (("products"."id") = 6) RETURNING "products".*), "users" AS (UPDATE "users" SET ("email") = (SELECT "t"."email" FROM "_sg_input" i, json_populate_record(NULL::users, i.j->'user') t) FROM "products" WHERE (("users"."id") = ("products"."user_id")) RETURNING "users".*) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "user_1_join"."json_1" AS "user") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "users_1"."id" AS "id", "users_1"."full_name" AS "full_name", "users_1"."email" AS "email") AS "json_row_1")) AS "json_1" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1" LIMIT ('1') :: integer) AS "user_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"name": "Apple",
@ -176,14 +133,8 @@ func nestedUpdateOneToOne(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
compileGQLToPSQL(t, gql, vars, "admin")
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
}
func nestedUpdateOneToManyWithConnect(t *testing.T) {
@ -200,8 +151,6 @@ func nestedUpdateOneToManyWithConnect(t *testing.T) {
}
}`
sql1 := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (UPDATE "users" SET ("full_name", "email", "created_at", "updated_at") = (SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t) WHERE (("users"."id") = 6) RETURNING "users".*), "products_c" AS ( UPDATE "products" SET "user_id" = "users"."id" FROM "users" WHERE ("products"."id"= ((i.j->'product'->'connect'->>'id'))::bigint) RETURNING "products".*), "products_d" AS ( UPDATE "products" SET "user_id" = NULL FROM "users" WHERE ("products"."id"= ((i.j->'product'->'disconnect'->>'id'))::bigint) RETURNING "products".*), "products" AS (SELECT * FROM "products_c" UNION ALL SELECT * FROM "products_d") SELECT json_object_agg('user', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."id" AS "id", "users_0"."full_name" AS "full_name", "users_0"."email" AS "email", "product_1_join"."json_1" AS "product") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."id" AS "id", "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"email": "thedude@rug.com",
@ -215,14 +164,7 @@ func nestedUpdateOneToManyWithConnect(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql1 {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedUpdateOneToOneWithConnect(t *testing.T) {
@ -238,10 +180,6 @@ func nestedUpdateOneToOneWithConnect(t *testing.T) {
}
}`
sql1 := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT "id" FROM "_sg_input" i,"users" WHERE "users"."id"= ((i.j->'user'->'connect'->>'id'))::bigint AND "users"."email"= ((i.j->'user'->'connect'->>'email'))::character varying LIMIT 1), "products" AS (UPDATE "products" SET ("name", "price", "user_id") = (SELECT "t"."name", "t"."price", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t) WHERE (("products"."id") = 9) RETURNING "products".*) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "user_1_join"."json_1" AS "user") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "users_1"."id" AS "id", "users_1"."full_name" AS "full_name", "users_1"."email" AS "email") AS "json_row_1")) AS "json_1" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1" LIMIT ('1') :: integer) AS "user_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
sql2 := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT "id" FROM "_sg_input" i,"users" WHERE "users"."email"= ((i.j->'user'->'connect'->>'email'))::character varying AND "users"."id"= ((i.j->'user'->'connect'->>'id'))::bigint LIMIT 1), "products" AS (UPDATE "products" SET ("name", "price", "user_id") = (SELECT "t"."name", "t"."price", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t) WHERE (("products"."id") = 9) RETURNING "products".*) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "user_1_join"."json_1" AS "user") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "users_1"."id" AS "id", "users_1"."full_name" AS "full_name", "users_1"."email" AS "email") AS "json_row_1")) AS "json_1" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1" LIMIT ('1') :: integer) AS "user_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"name": "Apple",
@ -252,16 +190,7 @@ func nestedUpdateOneToOneWithConnect(t *testing.T) {
}`),
}
for i := 0; i < 1000; i++ {
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql1 && string(resSQL) != sql2 {
t.Fatal(errNotExpected)
}
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedUpdateOneToOneWithDisconnect(t *testing.T) {
@ -272,9 +201,6 @@ func nestedUpdateOneToOneWithDisconnect(t *testing.T) {
user_id
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT * FROM (VALUES(NULL::bigint)) AS LOOKUP("id")), "products" AS (UPDATE "products" SET ("name", "price", "user_id") = (SELECT "t"."name", "t"."price", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t) WHERE (("products"."id") = 2) RETURNING "products".*) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "products_0"."user_id" AS "user_id") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"name": "Apple",
@ -285,14 +211,7 @@ func nestedUpdateOneToOneWithDisconnect(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
// func nestedUpdateOneToOneWithDisconnectArray(t *testing.T) {