super-graph/psql/tables.go
2019-04-08 21:24:29 -04:00

266 lines
5.9 KiB
Go

package psql
import (
"fmt"
"strings"
"github.com/go-pg/pg"
)
type TCKey struct {
Table, Column string
}
type TTKey struct {
Table1, Table2 string
}
type DBSchema struct {
Tables map[string]*DBTableInfo
RelMap map[TTKey]*DBRel
}
type DBTableInfo struct {
Name string
PrimaryCol string
TSVCol string
Columns map[string]*DBColumn
}
type RelType int
const (
RelBelongTo RelType = iota + 1
RelOneToMany
RelOneToManyThrough
)
type DBRel struct {
Type RelType
Through string
ColT string
Col1 string
Col2 string
}
func NewDBSchema(db *pg.DB) (*DBSchema, error) {
schema := &DBSchema{
Tables: make(map[string]*DBTableInfo),
RelMap: make(map[TTKey]*DBRel),
}
tables, err := GetTables(db)
if err != nil {
return nil, err
}
for _, t := range tables {
cols, err := GetColumns(db, "public", t.Name)
if err != nil {
return nil, err
}
schema.updateSchema(t, cols)
}
return schema, nil
}
func (s *DBSchema) updateSchema(t *DBTable, cols []*DBColumn) {
// Current table
ti := &DBTableInfo{
Name: t.Name,
Columns: make(map[string]*DBColumn, len(cols)),
}
// Foreign key columns in current table
var jcols []*DBColumn
colByID := make(map[int]*DBColumn)
for i := range cols {
c := cols[i]
ti.Columns[strings.ToLower(c.Name)] = cols[i]
colByID[c.ID] = cols[i]
}
ct := strings.ToLower(t.Name)
s.Tables[ct] = ti
for _, c := range cols {
switch {
case c.Type == "tsvector":
s.Tables[ct].TSVCol = c.Name
case c.PrimaryKey:
s.Tables[ct].PrimaryCol = c.Name
case len(c.FKeyTable) != 0:
if len(c.FKeyColID) == 0 {
continue
}
// Foreign key column name
ft := strings.ToLower(c.FKeyTable)
fc, ok := colByID[c.FKeyColID[0]]
if !ok {
continue
}
// Belongs-to relation between current table and the
// table in the foreign key
rel1 := &DBRel{RelBelongTo, "", "", c.Name, fc.Name}
s.RelMap[TTKey{ct, ft}] = rel1
// One-to-many relation between the foreign key table and the
// the current table
rel2 := &DBRel{RelOneToMany, "", "", fc.Name, c.Name}
s.RelMap[TTKey{ft, ct}] = rel2
jcols = append(jcols, c)
}
}
// If table contains multiple foreign key columns it's a possible
// join table for many-to-many relationships or multiple one-to-many
// relations
// Below one-to-many relations use the current table as the
// join table aka through table.
if len(jcols) > 1 {
for i := range jcols {
for n := range jcols {
if n != i {
s.updateSchemaOTMT(ct, jcols[i], jcols[n], colByID)
}
}
}
}
}
func (s *DBSchema) updateSchemaOTMT(
ct string, col1, col2 *DBColumn, colByID map[int]*DBColumn) {
t1 := strings.ToLower(col1.FKeyTable)
t2 := strings.ToLower(col2.FKeyTable)
fc1, ok := colByID[col1.FKeyColID[0]]
if !ok {
return
}
fc2, ok := colByID[col2.FKeyColID[0]]
if !ok {
return
}
// One-to-many-through relation between 1nd foreign key table and the
// 2nd foreign key table
//rel1 := &DBRel{RelOneToManyThrough, ct, fc1.Name, col1.Name}
rel1 := &DBRel{RelOneToManyThrough, ct, col2.Name, fc2.Name, col1.Name}
s.RelMap[TTKey{t1, t2}] = rel1
// One-to-many-through relation between 2nd foreign key table and the
// 1nd foreign key table
//rel2 := &DBRel{RelOneToManyThrough, ct, col2.Name, fc2.Name}
rel2 := &DBRel{RelOneToManyThrough, ct, col1.Name, fc1.Name, col2.Name}
s.RelMap[TTKey{t2, t1}] = rel2
}
type DBTable struct {
Name string `sql:"name"`
Type string `sql:"type"`
}
func GetTables(db *pg.DB) ([]*DBTable, error) {
sqlStmt := `
SELECT
c.relname as "name",
CASE c.relkind WHEN 'r' THEN 'table'
WHEN 'v' THEN 'view'
WHEN 'm' THEN 'materialized view'
WHEN 'f' THEN 'foreign table' END as "type"
FROM pg_catalog.pg_class c
LEFT JOIN pg_catalog.pg_namespace n ON n.oid = c.relnamespace
WHERE c.relkind IN ('r','v','m','f','')
AND n.nspname <> 'pg_catalog'
AND n.nspname <> 'information_schema'
AND n.nspname !~ '^pg_toast'
AND pg_catalog.pg_table_is_visible(c.oid);
`
var t []*DBTable
_, err := db.Query(&t, sqlStmt)
if err != nil {
return nil, fmt.Errorf("Error fetching tables: %s", err)
}
return t, nil
}
type DBColumn struct {
ID int `sql:"id"`
Name string `sql:"name"`
Type string `sql:"type"`
NotNull bool `sql:"notnull"`
PrimaryKey bool `sql:"primarykey"`
Uniquekey bool `sql:"uniquekey"`
FKeyTable string `sql:"foreignkey"`
FKeyColID []int `sql:"foreignkey_fieldnum,array"`
}
func GetColumns(db *pg.DB, schema, table string) ([]*DBColumn, error) {
sqlStmt := `
SELECT
f.attnum AS id,
f.attname AS name,
f.attnotnull AS notnull,
pg_catalog.format_type(f.atttypid,f.atttypmod) AS type,
CASE
WHEN p.contype = 'p' THEN 't'
ELSE 'f'
END AS primarykey,
CASE
WHEN p.contype = 'u' THEN 't'
ELSE 'f'
END AS uniquekey,
CASE
WHEN p.contype = 'f' THEN g.relname
END AS foreignkey,
CASE
WHEN p.contype = 'f' THEN p.confkey
END AS foreignkey_fieldnum
FROM pg_attribute f
JOIN pg_class c ON c.oid = f.attrelid
JOIN pg_type t ON t.oid = f.atttypid
LEFT JOIN pg_attrdef d ON d.adrelid = c.oid AND d.adnum = f.attnum
LEFT JOIN pg_namespace n ON n.oid = c.relnamespace
LEFT JOIN pg_constraint p ON p.conrelid = c.oid AND f.attnum = ANY (p.conkey)
LEFT JOIN pg_class AS g ON p.confrelid = g.oid
WHERE c.relkind = 'r'::char
AND n.nspname = $1 -- Replace with Schema name
AND c.relname = $2 -- Replace with table name
AND f.attnum > 0 ORDER BY id;
`
stmt, err := db.Prepare(sqlStmt)
if err != nil {
return nil, fmt.Errorf("error fetching columns: %s", err)
}
var t []*DBColumn
_, err = stmt.Query(&t, schema, table)
if err != nil {
return nil, fmt.Errorf("error fetching columns: %s", err)
}
return t, nil
}
func (s *DBSchema) GetTable(table string) (*DBTableInfo, error) {
t, ok := s.Tables[table]
if !ok {
return nil, fmt.Errorf("unknown table '%s'", table)
}
return t, nil
}