func TestForeignKey(t *testing.T) {
t1 := pqt.NewTable("left")
c11 := pqt.NewColumn("id", pqt.TypeSerialBig())
c12 := pqt.NewColumn("name", pqt.TypeText())
t1.AddColumn(c11)
t1.AddColumn(c12)
t2 := pqt.NewTable("right")
c21 := pqt.NewColumn("id", pqt.TypeSerialBig())
c22 := pqt.NewColumn("name", pqt.TypeText())
t2.AddColumn(c21)
t2.AddColumn(c22)
cstr := pqt.ForeignKey(t1, pqt.Columns{c11, c12}, pqt.Columns{c21, c22})
if cstr.Type != pqt.ConstraintTypeForeignKey {
t.Errorf("wrong type, expected %s but got %s", pqt.ConstraintTypeForeignKey, cstr.Type)
}
if len(cstr.Columns) != 2 {
t.Errorf("wrong number of columns, expected %d but got %d", 2, len(cstr.Columns))
}
if len(cstr.ReferenceColumns) != 2 {
t.Errorf("wrong number of columns, expected %d but got %d", 2, len(cstr.ReferenceColumns))
}
if !reflect.DeepEqual(cstr.Table, t1) {
t.Errorf("table does not match, expected %v but got %v", t1, cstr.Table)
}
if !reflect.DeepEqual(cstr.ReferenceTable, t2) {
t.Errorf("reference table does not match, expected %v but got %v", t2, cstr.ReferenceTable)
}
}
func TestTable_AddColumn(t *testing.T) {
c0 := pqt.NewColumn("c0", pqt.TypeSerialBig(), pqt.WithPrimaryKey())
c1 := &pqt.Column{Name: "c1"}
c2 := &pqt.Column{Name: "c2"}
c3 := &pqt.Column{Name: "c3"}
tbl := pqt.NewTable("test").
AddColumn(c0).
AddColumn(c1).
AddColumn(c2).
AddColumn(c3).
AddColumn(pqt.NewColumn("c4", pqt.TypeIntegerBig(), pqt.WithReference(c0))).
AddRelationship(pqt.ManyToOne(pqt.SelfReference()))
if len(tbl.Columns) != 6 {
t.Errorf("wrong number of colums, expected %d but got %d", 6, len(tbl.Columns))
}
if len(tbl.OwnedRelationships) != 2 {
// Reference is not a relationship
t.Errorf("wrong number of owned relationships, expected %d but got %d", 2, len(tbl.OwnedRelationships))
}
for i, c := range tbl.Columns {
if c.Name == "" {
t.Errorf("column #%d table name is empty", i)
}
if c.Table == nil {
t.Errorf("column #%d table nil pointer", i)
}
}
}
func TestTable_AddRelationship_oneToOneUnidirectional(t *testing.T) {
user := pqt.NewTable("user").AddColumn(pqt.NewColumn("id", pqt.TypeSerial(), pqt.WithPrimaryKey()))
userDetail := pqt.NewTable("user_detail").AddColumn(pqt.NewColumn("id", pqt.TypeSerial(), pqt.WithPrimaryKey())).
AddRelationship(pqt.OneToOne(
user,
pqt.WithInversedName("user"),
pqt.WithOwnerName("details"),
))
if len(user.InversedRelationships) != 0 {
t.Fatalf("user should have 0 relationship, but has %d", len(user.InversedRelationships))
}
if len(userDetail.OwnedRelationships) != 1 {
t.Fatalf("user_detail should have 1 relationship, but has %d", len(userDetail.OwnedRelationships))
}
if userDetail.OwnedRelationships[0].InversedName != "user" {
t.Errorf("user_detail relationship to user should be mapped by user")
}
if userDetail.OwnedRelationships[0].InversedTable != user {
t.Errorf("user_detail relationship to user should be mapped by user table")
}
if userDetail.OwnedRelationships[0].Type != pqt.RelationshipTypeOneToOne {
t.Errorf("user_detail relationship to user should be %d, but is %d", pqt.RelationshipTypeOneToOne, userDetail.OwnedRelationships[0].Type)
}
}
func TestWithColumnName(t *testing.T) {
icn := "author"
t1 := pqt.NewTable("user").AddColumn(pqt.NewColumn("id", pqt.TypeSerial(), pqt.WithPrimaryKey()))
t2 := pqt.NewTable("comment")
t2.AddRelationship(pqt.OneToOne(t1, pqt.WithColumnName(icn)))
if len(t1.InversedRelationships) != 0 {
t.Fatalf("user table should have exactly 0 relationship, got %d", len(t1.InversedRelationships))
}
if len(t2.OwnedRelationships) != 1 {
t.Fatalf("comment table should have exactly 1 relationship, got %d", len(t2.OwnedRelationships))
}
var exists bool
for _, c := range t2.Columns {
if c.Name == icn {
exists = true
break
}
}
if !exists {
t.Errorf("comment table should have column with name %s", icn)
}
}
func TestColumn_DefaultOn(t *testing.T) {
success := []struct {
d string
e []pqt.Event
}{
{
d: "NOW()",
e: []pqt.Event{pqt.EventUpdate},
},
}
for _, data := range success {
c := pqt.NewColumn("column", pqt.TypeTimestampTZ(), pqt.WithDefault(data.d, data.e...))
EventLoop:
for _, e := range data.e {
d, ok := c.DefaultOn(e)
if !ok {
t.Errorf("missing default value for %s", e)
continue EventLoop
}
if d != data.d {
t.Errorf("wrong value, expected %s but got %s", data.d, d)
}
}
}
}
func TestTable_AddRelationship_oneToOneSelfReferencing(t *testing.T) {
user := pqt.NewTable("user").AddColumn(pqt.NewColumn("id", pqt.TypeSerial(), pqt.WithPrimaryKey()))
user.AddRelationship(pqt.OneToOne(
pqt.SelfReference(),
pqt.WithInversedName("child"),
pqt.WithOwnerName("parent"),
))
if len(user.OwnedRelationships) != 1 {
t.Fatalf("user should have 1 owned relationship, but has %d", len(user.OwnedRelationships))
}
if user.OwnedRelationships[0].OwnerName != "parent" {
t.Errorf("user relationship to user should be mapped by parent")
}
if user.OwnedRelationships[0].OwnerTable != user {
t.Errorf("user relationship to user should be mapped by user table")
}
if user.OwnedRelationships[0].Type != pqt.RelationshipTypeOneToOne {
t.Errorf("user relationship to user should be %d, but is %d", pqt.RelationshipTypeOneToOne, user.OwnedRelationships[0].Type)
}
if len(user.InversedRelationships) != 0 {
t.Fatalf("user should have 0 inversed relationship, but has %d", len(user.InversedRelationships))
}
}
func TestTable_AddRelationship_oneToMany(t *testing.T) {
user := pqt.NewTable("user").AddColumn(pqt.NewColumn("id", pqt.TypeSerial(), pqt.WithPrimaryKey()))
comment := pqt.NewTable("comment").AddColumn(pqt.NewColumn("id", pqt.TypeSerial(), pqt.WithPrimaryKey()))
user.AddRelationship(pqt.OneToMany(
comment,
pqt.WithBidirectional(),
pqt.WithInversedName("author"),
pqt.WithOwnerName("comments"),
))
if len(user.InversedRelationships) != 1 {
t.Fatalf("user should have 1 inversed relationship, but has %d", len(user.InversedRelationships))
}
if user.InversedRelationships[0].OwnerName != "comments" {
t.Errorf("user inversed relationship to comment should be mapped by comments")
}
if user.InversedRelationships[0].OwnerTable != comment {
t.Errorf("user inversed relationship to comment should be mapped by comment table")
}
if user.InversedRelationships[0].Type != pqt.RelationshipTypeOneToMany {
t.Errorf("user inversed relationship to comment should be one to many")
}
if len(comment.OwnedRelationships) != 1 {
t.Fatalf("comment should have 1 owned relationship, but has %d", len(comment.OwnedRelationships))
}
if comment.OwnedRelationships[0].InversedName != "author" {
t.Errorf("comment relationship to user should be mapped by author")
}
if comment.OwnedRelationships[0].InversedTable != user {
t.Errorf("comment relationship to user should be mapped by user table")
}
if comment.OwnedRelationships[0].Type != pqt.RelationshipTypeOneToMany {
t.Errorf("comment relationship to user should be %d, but is %d", pqt.RelationshipTypeOneToMany, comment.OwnedRelationships[0].Type)
}
}
func TestConstraint_Name(t *testing.T) {
id := pqt.NewColumn("id", pqt.TypeSerial(), pqt.WithPrimaryKey())
success := map[string]*pqt.Constraint{
"public.user_id_pkey": pqt.PrimaryKey(pqt.NewTable("user"), id),
"custom_schema.user_id_pkey": pqt.PrimaryKey(func() *pqt.Table {
t := pqt.NewTable("user")
s := pqt.NewSchema("custom_schema")
s.AddTable(t)
return t
}(), id),
"<missing table>": pqt.Check(nil, "a > b", id),
"public.news_key": pqt.Unique(pqt.NewTable("news")),
}
for expected, given := range success {
got := given.Name()
if got != expected {
t.Errorf("wrong name, expected %s got %s", expected, got)
}
}
}
func TestNewColumn(t *testing.T) {
collate := "UTF-7"
check := "username = '******'"
r := pqt.NewColumn("username", pqt.TypeText())
c := pqt.NewColumn(
"user_username",
pqt.TypeText(),
pqt.WithCollate(collate),
pqt.WithCheck(check),
pqt.WithDefault("janusz"),
pqt.WithUnique(),
pqt.WithTypeMapping(pqtgo.BuiltinType(types.Byte)),
pqt.WithNotNull(),
pqt.WithPrimaryKey(),
pqt.WithReference(r),
)
if c.Type.String() != pqt.TypeText().String() {
t.Errorf("wrong column type, expected %s but got %s", pqt.TypeText().String(), c.Type.String())
}
if c.Collate != collate {
t.Errorf("wrong column collate, expected %s but got %s", collate, c.Collate)
}
if c.Check != check {
t.Errorf("wrong column check, expected %s but got %s", check, c.Check)
}
if d, ok := c.Default[pqt.EventInsert]; ok && d != "janusz" {
t.Errorf("wrong column default, expected %s but got %s", "janusz", d)
}
if !c.Unique {
t.Error("wrong column unique, expected true but got false")
}
if !c.NotNull {
t.Error("wrong column not null, expected true but got false")
}
if !c.PrimaryKey {
t.Error("wrong column primary key, expected true but got false")
}
if c.Reference != r {
t.Errorf("wrong column reference, expected %p but got %p", r, c.Reference)
}
constraints := c.Constraints()
if len(constraints) != 3 {
t.Errorf("wrong number of constraints, expected 3 but got %d", len(constraints))
}
var hasPK, hasFK, hasCH bool
for _, constraint := range constraints {
switch constraint.Type {
case pqt.ConstraintTypePrimaryKey:
hasPK = true
case pqt.ConstraintTypeForeignKey:
hasFK = true
case pqt.ConstraintTypeCheck:
hasCH = true
}
}
if !hasPK {
t.Errorf("mising primary key constraint")
}
if !hasFK {
t.Errorf("mising foreign key constraint")
}
if !hasCH {
t.Errorf("mising check constraint")
}
}
func timestampable(t *pqt.Table) {
t.AddColumn(pqt.NewColumn("created_at", pqt.TypeTimestampTZ(), pqt.WithNotNull(), pqt.WithDefault("NOW()"))).
AddColumn(pqt.NewColumn("updated_at", pqt.TypeTimestampTZ(), pqt.WithDefault("NOW()", pqt.EventUpdate)))
}
func schema(sn string) *pqt.Schema {
title := pqt.NewColumn("title", pqt.TypeText(), pqt.WithNotNull(), pqt.WithUnique())
lead := pqt.NewColumn("lead", pqt.TypeText())
news := pqt.NewTable("news", pqt.WithTableIfNotExists()).
AddColumn(pqt.NewColumn("id", pqt.TypeSerialBig(), pqt.WithPrimaryKey())).
AddColumn(title).
AddColumn(lead).
AddColumn(pqt.NewColumn("continue", pqt.TypeBool(), pqt.WithNotNull(), pqt.WithDefault("false"))).
AddColumn(pqt.NewColumn("content", pqt.TypeText(), pqt.WithNotNull())).
AddUnique(title, lead)
comment := pqt.NewTable("comment", pqt.WithTableIfNotExists()).
AddColumn(pqt.NewColumn("id", pqt.TypeSerialBig())).
AddColumn(pqt.NewColumn("content", pqt.TypeText(), pqt.WithNotNull())).
AddColumn(pqt.NewColumn(
"news_title",
pqt.TypeText(),
pqt.WithNotNull(),
pqt.WithReference(title, pqt.WithBidirectional(), pqt.WithOwnerName("comments_by_news_title"), pqt.WithInversedName("news_by_title")),
))
category := pqt.NewTable("category", pqt.WithTableIfNotExists()).
AddColumn(pqt.NewColumn("id", pqt.TypeSerialBig(), pqt.WithPrimaryKey())).
AddColumn(pqt.NewColumn("name", pqt.TypeText(), pqt.WithNotNull())).
AddColumn(pqt.NewColumn("content", pqt.TypeText(), pqt.WithNotNull())).
AddRelationship(
pqt.OneToMany(
pqt.SelfReference(),
pqt.WithBidirectional(),
pqt.WithInversedName("child_category"),
pqt.WithOwnerName("parent_category"),
pqt.WithColumnName("parent_id"),
),
)
pkg := pqt.NewTable("package", pqt.WithTableIfNotExists()).
AddColumn(pqt.NewColumn("id", pqt.TypeSerialBig(), pqt.WithPrimaryKey())).
AddColumn(pqt.NewColumn("break", pqt.TypeText())).
AddRelationship(pqt.ManyToOne(
category,
pqt.WithBidirectional(),
))
timestampable(news)
timestampable(comment)
timestampable(category)
timestampable(pkg)
comment.AddRelationship(pqt.ManyToOne(news, pqt.WithBidirectional(), pqt.WithInversedName("news_by_id")), pqt.WithNotNull())
pqt.ManyToMany(category, news, pqt.WithBidirectional())
return pqt.NewSchema(sn, pqt.WithSchemaIfNotExists()).
AddTable(category).
AddTable(pkg).
AddTable(news).
AddTable(comment)
}
func TestGenerator_Generate(t *testing.T) {
success := []struct {
expected string
given *pqt.Table
}{
{
expected: `-- do not modify, generated by pqt
CREATE TEMPORARY TABLE schema.user (
created_at TIMESTAMPTZ,
password TEXT,
username TEXT NOT NULL
);
`,
given: func() *pqt.Table {
return pqt.NewTable("user", pqt.WithTemporary()).
SetSchema(pqt.NewSchema("schema")).
AddColumn(&pqt.Column{Name: "username", Type: pqt.TypeText(), NotNull: true}).
AddColumn(&pqt.Column{Name: "password", Type: pqt.TypeText()}).
AddColumn(&pqt.Column{Name: "created_at", Type: pqt.TypeTimestampTZ()})
}(),
},
{
expected: `-- do not modify, generated by pqt
CREATE TABLE IF NOT EXISTS table_name (
created_at TIMESTAMPTZ DEFAULT NOW() NOT NULL,
created_by INTEGER NOT NULL,
enabled BOOL,
end_at TIMESTAMPTZ NOT NULL,
id SERIAL,
name TEXT,
price DECIMAL(10,1),
rel_id INTEGER,
slug TEXT NOT NULL,
start_at TIMESTAMPTZ NOT NULL,
updated_at TIMESTAMPTZ,
updated_by INTEGER,
CONSTRAINT "public.table_name_id_pkey" PRIMARY KEY (id),
CONSTRAINT "public.table_name_name_key" UNIQUE (name),
CONSTRAINT "public.table_name_slug_key" UNIQUE (slug),
CONSTRAINT "public.table_name_rel_id_fkey" FOREIGN KEY (rel_id) REFERENCES related_table (id),
CONSTRAINT "public.table_name_start_at_end_at_check" CHECK ((start_at IS NULL AND end_at IS NULL) OR start_at < end_at)
);
`,
given: func() *pqt.Table {
id := pqt.Column{Name: "id", Type: pqt.TypeSerial()}
startAt := &pqt.Column{Name: "start_at", Type: pqt.TypeTimestampTZ(), NotNull: true}
endAt := &pqt.Column{Name: "end_at", Type: pqt.TypeTimestampTZ(), NotNull: true}
_ = pqt.NewTable("related_table").
AddColumn(&id)
return pqt.NewTable("table_name", pqt.WithTableIfNotExists()).
AddColumn(&pqt.Column{Name: "id", Type: pqt.TypeSerial(), PrimaryKey: true}).
AddColumn(&pqt.Column{Name: "rel_id", Type: pqt.TypeInteger(), Reference: &id}).
AddColumn(&pqt.Column{Name: "name", Type: pqt.TypeText(), Unique: true}).
AddColumn(&pqt.Column{Name: "enabled", Type: pqt.TypeBool()}).
AddColumn(&pqt.Column{Name: "price", Type: pqt.TypeDecimal(10, 1)}).
AddColumn(startAt).
AddColumn(endAt).
AddColumn(pqt.NewColumn("created_at", pqt.TypeTimestampTZ(), pqt.WithNotNull(), pqt.WithDefault("NOW()"))).
AddColumn(&pqt.Column{Name: "created_by", Type: pqt.TypeInteger(), NotNull: true}).
AddColumn(&pqt.Column{Name: "updated_at", Type: pqt.TypeTimestampTZ()}).
AddColumn(&pqt.Column{Name: "updated_by", Type: pqt.TypeInteger()}).
AddColumn(&pqt.Column{Name: "slug", Type: pqt.TypeText(), NotNull: true, Unique: true}).
AddCheck("(start_at IS NULL AND end_at IS NULL) OR start_at < end_at", startAt, endAt)
}(),
},
}
for i, data := range success {
q, err := pqtsql.NewGenerator().Generate(&pqt.Schema{
Tables: []*pqt.Table{data.given},
})
if err != nil {
t.Errorf("unexpected error for schema #%d : %s", i, err.Error())
continue
}
if string(q) != data.expected {
t.Errorf("wrong query, expected:\n'%s'\nbut got:\n'%s'", data.expected, q)
}
}
}
func TestGenerator_Generate(t *testing.T) {
cases := map[string]struct {
schema *pqt.Schema
generator *pqtgo.Generator
expected string
}{
"basic": {
schema: pqt.NewSchema("text"),
generator: pqtgo.NewGenerator().
AddImport("github.com/piotrkowalczuk/ntypes"),
expected: `package main
import (
"github.com/go-kit/kit/log"
"github.com/m4rw3r/uuid"
"github.com/piotrkowalczuk/ntypes"
)
`,
},
"custom-package": {
schema: pqt.NewSchema("text"),
generator: pqtgo.NewGenerator().
SetPackage("example").
AddImport("fmt"),
expected: `package example
import (
"github.com/go-kit/kit/log"
"github.com/m4rw3r/uuid"
"fmt"
)
`,
},
"simple table": {
schema: pqt.NewSchema("text").AddTable(
pqt.NewTable("first").AddColumn(
pqt.NewColumn("id", pqt.TypeSerialBig()),
).AddColumn(
pqt.NewColumn("name", pqt.TypeText()),
),
),
generator: pqtgo.NewGenerator().
SetPackage("custom"),
expected: `package custom
import (
"github.com/go-kit/kit/log"
"github.com/m4rw3r/uuid"
)
const (
tableFirst = "text.first"
tableFirstColumnId = "id"
tableFirstColumnName = "name"
)
var (
tableFirstColumns = []string{
tableFirstColumnId,
tableFirstColumnName,
})
type firstEntity struct{
// id ...
id *ntypes.Int64
// name ...
name *ntypes.String
}
func (e *firstEntity) prop(cn string) (interface{}, bool) {
switch cn {
case tableFirstColumnId:
return &e.id, true
case tableFirstColumnName:
return &e.name, true
default:
return nil, false
}
}
func (e *firstEntity) props(cns ...string) ([]interface{}, error) {
res := make([]interface{}, 0, len(cns))
for _, cn := range cns {
if prop, ok := e.prop(cn); ok {
res = append(res, prop)
} else {
return nil, fmt.Errorf("unexpected column provided: %s", cn)
}
}
return res, nil
}
// firstIterator is not thread safe.
type firstIterator struct {
rows *sql.Rows
cols []string
}
func (i *firstIterator) Next() bool {
return i.rows.Next()
}
func (i *firstIterator) Close() error {
return i.rows.Close()
}
func (i *firstIterator) Err() error {
return i.rows.Err()
}
// Columns is wrapper around sql.Rows.Columns method, that also cache outpu inside iterator.
func (i *firstIterator) Columns() ([]string, error) {
if i.cols == nil {
cols, err := i.rows.Columns()
if err != nil {
return nil, err
}
i.cols = cols
}
return i.cols, nil
}
// Ent is wrapper around first method that makes iterator more generic.
func (i *firstIterator) Ent() (interface{}, error) {
return i.First()
}
func (i *firstIterator) First() (*firstEntity, error) {
var ent firstEntity
cols, err := i.rows.Columns()
if err != nil {
return nil, err
}
props, err := ent.props(cols...)
if err != nil {
return nil, err
}
if err := i.rows.Scan(props...); err != nil {
return nil, err
}
return &ent, nil
}
type firstCriteria struct {
offset, limit int64
sort map[string]bool
id *qtypes.Int64
name *qtypes.String
}
func (c *firstCriteria) WriteComposition(sel string, com *pqtgo.Composer, opt *pqtgo.CompositionOpts) (err error) {
if err = pqtgo.WriteCompositionQueryInt64(c.id, tableFirstColumnId, com, pqtgo.And); err != nil {
return
}
if err = pqtgo.WriteCompositionQueryString(c.name, tableFirstColumnName, com, pqtgo.And); err != nil {
return
}
if len(c.sort) > 0 {
i:=0
com.WriteString(" ORDER BY ")
for cn, asc := range c.sort {
for _, tcn := range tableFirstColumns {
if cn == tcn {
if i > 0 {
com.WriteString(", ")
}
com.WriteString(cn)
if !asc {
com.WriteString(" DESC ")
}
i++
break
}
}
}
}
if c.offset > 0 {
if _, err = com.WriteString(" OFFSET "); err != nil {
return
}
if err = com.WritePlaceholder(); err != nil {
return
}
if _, err = com.WriteString(" "); err != nil {
return
}
com.Add(c.offset)
}
if c.limit > 0 {
if _, err = com.WriteString(" LIMIT "); err != nil {
return
}
if err = com.WritePlaceholder(); err != nil {
return
}
if _, err = com.WriteString(" "); err != nil {
return
}
com.Add(c.limit)
}
return
}
type firstPatch struct {
id *ntypes.Int64
name *ntypes.String
}
type firstRepositoryBase struct {
table string
columns []string
db *sql.DB
dbg bool
log log.Logger
}
func scanFirstRows(rows *sql.Rows) ([]*firstEntity, error) {
var (
entities []*firstEntity
err error
)
for rows.Next() {
var ent firstEntity
err = rows.Scan(
&ent.id,
&ent.name,
)
if err != nil {
return nil, err
}
entities = append(entities, &ent)
}
if rows.Err() != nil {
return nil, rows.Err()
}
return entities, nil
}
func (r *firstRepositoryBase) count(c *firstCriteria) (int64, error) {
com := pqtgo.NewComposer(2)
buf := bytes.NewBufferString("SELECT COUNT(*) FROM ")
buf.WriteString(r.table)
if err := c.WriteComposition("", com, pqtgo.And); err != nil {
return 0, err
}
if com.Dirty {
buf.WriteString(" WHERE ")
}
if com.Len() > 0 {
buf.ReadFrom(com)
}
if r.dbg {
if err := r.log.Log("msg", buf.String(), "function", "Count"); err != nil {
return 0, err
}
}
var count int64
if err := r.db.QueryRow(buf.String(), com.Args()...).Scan(&count); err != nil {
return 0, err
}
return count, nil
}
func (r *firstRepositoryBase) find(c *firstCriteria) ([]*firstEntity, error) {
com := pqtgo.NewComposer(1)
buf := bytes.NewBufferString("SELECT ")
buf.WriteString(strings.Join(r.columns, ", "))
buf.WriteString(" FROM ")
buf.WriteString(r.table)
buf.WriteString(" ")
if err := c.WriteComposition("", com, pqtgo.And); err != nil {
return nil, err
}
if com.Dirty {
buf.WriteString(" WHERE ")
}
if com.Len() > 0 {
buf.ReadFrom(com)
}
if r.dbg {
if err := r.log.Log("msg", buf.String(), "function", "Find"); err != nil {
return nil, err
}
}
rows, err := r.db.Query(buf.String(), com.Args()...)
if err != nil {
return nil, err
}
defer rows.Close()
return scanFirstRows(rows)
}
func (r *firstRepositoryBase) findIter(c *firstCriteria) (*firstIterator, error) {
com := pqtgo.NewComposer(1)
buf := bytes.NewBufferString("SELECT ")
buf.WriteString(strings.Join(r.columns, ", "))
buf.WriteString(" FROM ")
buf.WriteString(r.table)
buf.WriteString(" ")
if err := c.WriteComposition("", com, pqtgo.And); err != nil {
return nil, err
}
if com.Dirty {
buf.WriteString(" WHERE ")
}
if com.Len() > 0 {
buf.ReadFrom(com)
}
if r.dbg {
if err := r.log.Log("msg", buf.String(), "function", "Find"); err != nil {
return nil, err
}
}
rows, err := r.db.Query(buf.String(), com.Args()...)
if err != nil {
return nil, err
}
return &firstIterator{rows: rows}, nil
}
func (r *firstRepositoryBase) insert(e *firstEntity) (*firstEntity, error) {
insert := pqcomp.New(0, 2)
insert.AddExpr(tableFirstColumnName, "", e.name)
b := bytes.NewBufferString("INSERT INTO " + r.table)
if insert.Len() != 0 {
b.WriteString(" (")
for insert.Next() {
if !insert.First() {
b.WriteString(", ")
}
fmt.Fprintf(b, "%s", insert.Key())
}
insert.Reset()
b.WriteString(") VALUES (")
for insert.Next() {
if !insert.First() {
b.WriteString(", ")
}
fmt.Fprintf(b, "%s", insert.PlaceHolder())
}
b.WriteString(")")
if len(r.columns) > 0 {
b.WriteString(" RETURNING ")
b.WriteString(strings.Join(r.columns, ", "))
}
}
if r.dbg {
if err := r.log.Log("msg", b.String(), "function", "Insert"); err != nil {
return nil, err
}
}
err := r.db.QueryRow(b.String(), insert.Args()...).Scan(
&e.id,
&e.name,
)
if err != nil {
return nil, err
}
return e, nil
}
func (r *firstRepositoryBase) upsert(e *firstEntity, p *firstPatch, inf ...string) (*firstEntity, error) {
insert := pqcomp.New(0, 2)
update := insert.Compose(2)
insert.AddExpr(tableFirstColumnName, "", e.name)
if len(inf) > 0 {
update.AddExpr(tableFirstColumnName, "=", p.name)
}
b := bytes.NewBufferString("INSERT INTO " + r.table)
if insert.Len() > 0 {
b.WriteString(" (")
for insert.Next() {
if !insert.First() {
b.WriteString(", ")
}
fmt.Fprintf(b, "%s", insert.Key())
}
insert.Reset()
b.WriteString(") VALUES (")
for insert.Next() {
if !insert.First() {
b.WriteString(", ")
}
fmt.Fprintf(b, "%s", insert.PlaceHolder())
}
b.WriteString(")")
}
b.WriteString(" ON CONFLICT ")
if len(inf) > 0 && update.Len() > 0 {
b.WriteString(" (")
for j, i := range inf {
if j != 0 {
b.WriteString(", ")
}
b.WriteString(i)
}
b.WriteString(") ")
b.WriteString(" DO UPDATE SET ")
for update.Next() {
if !update.First() {
b.WriteString(", ")
}
b.WriteString(update.Key())
b.WriteString(" ")
b.WriteString(update.Oper())
b.WriteString(" ")
b.WriteString(update.PlaceHolder())
}
} else {
b.WriteString(" DO NOTHING ")
}
if insert.Len() > 0 {
if len(r.columns) > 0 {
b.WriteString(" RETURNING ")
b.WriteString(strings.Join(r.columns, ", "))
}
}
if r.dbg {
if err := r.log.Log("msg", b.String(), "function", "Upsert"); err != nil {
return nil, err
}
}
err := r.db.QueryRow(b.String(), insert.Args()...).Scan(
&e.id,
&e.name,
)
if err != nil {
return nil, err
}
return e, nil
}
`,
},
}
for hint, c := range cases {
b, err := c.generator.Generate(c.schema)
if err != nil {
t.Errorf("%s: unexpected error: %s", hint, err.Error())
continue
}
assertGoCode(t, c.expected, string(b), hint)
}
}