use super::*;
impl TableBuilder for PostgresQueryBuilder {
fn prepare_column_def(&self, column_def: &ColumnDef, sql: &mut dyn SqlWriter) {
let f = |column_def: &ColumnDef, sql: &mut dyn SqlWriter| {
self.prepare_column_type_check_auto_increment(column_def, sql);
};
self.prepare_column_def_common(column_def, sql, f);
}
fn prepare_column_type(&self, column_type: &ColumnType, sql: &mut dyn SqlWriter) {
write!(
sql,
"{}",
match column_type {
ColumnType::Char(length) => match length {
Some(length) => format!("char({length})"),
None => "char".into(),
},
ColumnType::String(length) => match length {
StringLen::N(length) => format!("varchar({length})"),
_ => "varchar".into(),
},
ColumnType::Text => "text".into(),
ColumnType::TinyInteger | ColumnType::TinyUnsigned => "smallint".into(),
ColumnType::SmallInteger | ColumnType::SmallUnsigned => "smallint".into(),
ColumnType::Integer | ColumnType::Unsigned => "integer".into(),
ColumnType::BigInteger | ColumnType::BigUnsigned => "bigint".into(),
ColumnType::Float => "real".into(),
ColumnType::Double => "double precision".into(),
ColumnType::Decimal(precision) => match precision {
Some((precision, scale)) => format!("decimal({precision}, {scale})"),
None => "decimal".into(),
},
ColumnType::DateTime => "timestamp without time zone".into(),
ColumnType::Timestamp => "timestamp".into(),
ColumnType::TimestampWithTimeZone => "timestamp with time zone".into(),
ColumnType::Time => "time".into(),
ColumnType::Date => "date".into(),
ColumnType::Interval(fields, precision) => {
let mut typ = "interval".to_string();
if let Some(fields) = fields {
write!(typ, " {fields}").unwrap();
}
if let Some(precision) = precision {
write!(typ, "({precision})").unwrap();
}
typ
}
ColumnType::Binary(_) | ColumnType::VarBinary(_) | ColumnType::Blob =>
"bytea".into(),
ColumnType::Bit(length) => {
match length {
Some(length) => format!("bit({length})"),
None => "bit".into(),
}
}
ColumnType::VarBit(length) => {
format!("varbit({length})")
}
ColumnType::Boolean => "bool".into(),
ColumnType::Money(precision) => match precision {
Some((precision, scale)) => format!("money({precision}, {scale})"),
None => "money".into(),
},
ColumnType::Json => "json".into(),
ColumnType::JsonBinary => "jsonb".into(),
ColumnType::Uuid => "uuid".into(),
ColumnType::Array(elem_type) => {
let mut sql = String::new();
self.prepare_column_type(elem_type, &mut sql);
format!("{sql}[]")
}
ColumnType::Vector(size) => match size {
Some(size) => format!("vector({size})"),
None => "vector".into(),
},
ColumnType::Custom(iden) => iden.to_string(),
ColumnType::Enum { name, .. } => name.to_string(),
ColumnType::Cidr => "cidr".into(),
ColumnType::Inet => "inet".into(),
ColumnType::MacAddr => "macaddr".into(),
ColumnType::Year => unimplemented!("Year is not available in Postgres."),
ColumnType::LTree => "ltree".into(),
}
)
.unwrap()
}
fn column_spec_auto_increment_keyword(&self) -> &str {
""
}
fn prepare_table_alter_statement(&self, alter: &TableAlterStatement, sql: &mut dyn SqlWriter) {
if alter.options.is_empty() {
panic!("No alter option found")
};
write!(sql, "ALTER TABLE ").unwrap();
if let Some(table) = &alter.table {
self.prepare_table_ref_table_stmt(table, sql);
write!(sql, " ").unwrap();
}
alter.options.iter().fold(true, |first, option| {
if !first {
write!(sql, ", ").unwrap();
};
match option {
TableAlterOption::AddColumn(AddColumnOption {
column,
if_not_exists,
}) => {
write!(sql, "ADD COLUMN ").unwrap();
if *if_not_exists {
write!(sql, "IF NOT EXISTS ").unwrap();
}
let f = |column_def: &ColumnDef, sql: &mut dyn SqlWriter| {
if let Some(column_type) = &column_def.types {
write!(sql, " ").unwrap();
if column_def
.spec
.iter()
.any(|v| matches!(v, ColumnSpec::AutoIncrement))
{
self.prepare_column_auto_increment(column_type, sql);
} else {
self.prepare_column_type(column_type, sql);
}
}
};
self.prepare_column_def_common(column, sql, f);
}
TableAlterOption::ModifyColumn(column_def) => {
if let Some(column_type) = &column_def.types {
write!(sql, "ALTER COLUMN ").unwrap();
column_def.name.prepare(sql.as_writer(), self.quote());
write!(sql, " TYPE ").unwrap();
self.prepare_column_type(column_type, sql);
}
let first = column_def.types.is_none();
column_def.spec.iter().fold(first, |first, column_spec| {
if !first
&& !matches!(
column_spec,
ColumnSpec::AutoIncrement | ColumnSpec::Generated { .. }
)
{
write!(sql, ", ").unwrap();
}
match column_spec {
ColumnSpec::AutoIncrement => {}
ColumnSpec::Null => {
write!(sql, "ALTER COLUMN ").unwrap();
column_def.name.prepare(sql.as_writer(), self.quote());
write!(sql, " DROP NOT NULL").unwrap();
}
ColumnSpec::NotNull => {
write!(sql, "ALTER COLUMN ").unwrap();
column_def.name.prepare(sql.as_writer(), self.quote());
write!(sql, " SET NOT NULL").unwrap()
}
ColumnSpec::Default(v) => {
write!(sql, "ALTER COLUMN ").unwrap();
column_def.name.prepare(sql.as_writer(), self.quote());
write!(sql, " SET DEFAULT ").unwrap();
QueryBuilder::prepare_simple_expr(self, v, sql);
}
ColumnSpec::UniqueKey => {
write!(sql, "ADD UNIQUE (").unwrap();
column_def.name.prepare(sql.as_writer(), self.quote());
write!(sql, ")").unwrap();
}
ColumnSpec::PrimaryKey => {
write!(sql, "ADD PRIMARY KEY (").unwrap();
column_def.name.prepare(sql.as_writer(), self.quote());
write!(sql, ")").unwrap();
}
ColumnSpec::Check(check) => self.prepare_check_constraint(check, sql),
ColumnSpec::Generated { .. } => {}
ColumnSpec::Extra(string) => write!(sql, "{string}").unwrap(),
ColumnSpec::Comment(_) => {}
}
false
});
}
TableAlterOption::RenameColumn(from_name, to_name) => {
write!(sql, "RENAME COLUMN ").unwrap();
from_name.prepare(sql.as_writer(), self.quote());
write!(sql, " TO ").unwrap();
to_name.prepare(sql.as_writer(), self.quote());
}
TableAlterOption::DropColumn(column_name) => {
write!(sql, "DROP COLUMN ").unwrap();
column_name.prepare(sql.as_writer(), self.quote());
}
TableAlterOption::DropForeignKey(name) => {
let mut foreign_key = TableForeignKey::new();
foreign_key.name(name.to_string());
let drop = ForeignKeyDropStatement {
foreign_key,
table: None,
};
self.prepare_foreign_key_drop_statement_internal(&drop, sql, Mode::TableAlter);
}
TableAlterOption::AddForeignKey(foreign_key) => {
let create = ForeignKeyCreateStatement {
foreign_key: foreign_key.to_owned(),
};
self.prepare_foreign_key_create_statement_internal(
&create,
sql,
Mode::TableAlter,
);
}
}
false
});
}
fn prepare_table_rename_statement(
&self,
rename: &TableRenameStatement,
sql: &mut dyn SqlWriter,
) {
write!(sql, "ALTER TABLE ").unwrap();
if let Some(from_name) = &rename.from_name {
self.prepare_table_ref_table_stmt(from_name, sql);
}
write!(sql, " RENAME TO ").unwrap();
if let Some(to_name) = &rename.to_name {
self.prepare_table_ref_table_stmt(to_name, sql);
}
}
}
impl PostgresQueryBuilder {
fn prepare_column_auto_increment(&self, column_type: &ColumnType, sql: &mut dyn SqlWriter) {
match &column_type {
ColumnType::SmallInteger => write!(sql, "smallserial").unwrap(),
ColumnType::Integer => write!(sql, "serial").unwrap(),
ColumnType::BigInteger => write!(sql, "bigserial").unwrap(),
_ => unimplemented!("{:?} doesn't support auto increment", column_type),
}
}
fn prepare_column_type_check_auto_increment(
&self,
column_def: &ColumnDef,
sql: &mut dyn SqlWriter,
) {
if let Some(column_type) = &column_def.types {
let is_auto_increment = column_def
.spec
.iter()
.position(|s| matches!(s, ColumnSpec::AutoIncrement));
if is_auto_increment.is_some() {
write!(sql, " ").unwrap();
self.prepare_column_auto_increment(column_type, sql);
} else {
write!(sql, " ").unwrap();
self.prepare_column_type(column_type, sql);
}
}
}
fn prepare_column_def_common<F>(&self, column_def: &ColumnDef, sql: &mut dyn SqlWriter, f: F)
where
F: Fn(&ColumnDef, &mut dyn SqlWriter),
{
column_def.name.prepare(sql.as_writer(), self.quote());
f(column_def, sql);
for column_spec in column_def.spec.iter() {
if let ColumnSpec::AutoIncrement = column_spec {
continue;
}
if let ColumnSpec::Comment(_) = column_spec {
continue;
}
write!(sql, " ").unwrap();
self.prepare_column_spec(column_spec, sql);
}
}
}