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//! This library is meant to parse multiple related SQL migration files, and calculate the final
//! schema that results from running them in order.
//!
//! ## Example
//!
//! ```
//! use sql_migration_sim::{Schema, Error, ast::DataType};
//!
//! let mut schema = Schema::new();
//!
//! let create_statement = r##"CREATE TABLE ships (
//! id BIGINT PRIMARY KEY,
//! name TEXT NOT NULL,
//! mast_count INT not null
//! );"##;
//!
//! let alter = r##"
//! ALTER TABLE ships ALTER COLUMN mast_count DROP NOT NULL;
//! ALTER TABLE ships ADD COLUMN has_motor BOOLEAN NOT NULL;
//! "##;
//!
//! schema.apply_sql(create_statement)?;
//! schema.apply_sql(alter)?;
//!
//!
//! let result = schema.tables.get("ships").unwrap();
//! assert_eq!(result.columns.len(), 4);
//! assert_eq!(result.columns[0].name(), "id");
//! assert!(matches!(result.columns[0].data_type, DataType::BigInt(_)));
//! assert_eq!(result.columns[0].not_null(), true);
//! assert_eq!(result.columns[1].name(), "name");
//! assert_eq!(result.columns[1].not_null(), true);
//! assert_eq!(result.columns[2].name(), "mast_count");
//! assert_eq!(result.columns[2].not_null(), false);
//! assert_eq!(result.columns[3].name(), "has_motor");
//! assert_eq!(result.columns[3].not_null(), true);
//!
//! # Ok::<(), Error>(())
//!
//! ```
//!
#![warn(missing_docs)]
use std::{
collections::{HashMap, HashSet},
fmt::Display,
ops::{Deref, DerefMut},
path::Path,
};
use sqlparser::ast::{
AlterColumnOperation, AlterIndexOperation, AlterTableOperation, ColumnDef, ColumnOption,
ColumnOptionDef, Ident, ObjectName, ObjectType, Statement,
};
pub use sqlparser::{ast, dialect::Dialect};
/// A column in a database table
#[derive(Debug)]
pub struct Column(pub ColumnDef);
impl Deref for Column {
type Target = ColumnDef;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl DerefMut for Column {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.0
}
}
impl Column {
/// The name of the column
pub fn name(&self) -> &str {
self.name.value.as_str()
}
/// Whether the column is nullable or not
pub fn not_null(&self) -> bool {
self.options
.iter()
.find_map(|o| match o.option {
ColumnOption::Null => Some(false),
ColumnOption::NotNull => Some(true),
ColumnOption::Unique { is_primary } => is_primary.then_some(true),
_ => None,
})
.unwrap_or(false)
}
/// Returns the default value of the column
pub fn default_value(&self) -> Option<&ast::Expr> {
self.options.iter().find_map(|o| match &o.option {
ColumnOption::Default(expr) => Some(expr),
_ => None,
})
}
}
/// A table in the database
pub struct Table {
/// The name of the table
pub name: String,
/// The columns in the table
pub columns: Vec<Column>,
}
/// A view in the database
pub struct View {
/// The name of the view
pub name: String,
/// The columns in the view
pub columns: Vec<String>,
}
/// Errors that can occur while parsing SQL and updating the schema
#[derive(Debug, thiserror::Error)]
pub enum Error {
/// Encountered an ALTER TABLE statement on a nonexistent table.
#[error("Attempted to alter a table {0} that does not exist")]
AlteredMissingTable(String),
/// Encountered an ALTER COLUMN statement on a nonexistent column.
#[error("Attempted to alter a column {0} that does not exist in table {1}")]
AlteredMissingColumn(String, String),
/// Attempted to create a table that already exists
#[error("Attempted to create table {0} that already exists")]
TableAlreadyExists(String),
/// Attempted to create a column that already exists
#[error("Attempted to create column {0} that already exists in table {1}")]
ColumnAlreadyExists(String, String),
/// The SQL parser encountered an error
#[error("SQL Parse Error {0}")]
Parse(#[from] sqlparser::parser::ParserError),
/// Error reading a file
#[error("Failed to read file {filename}")]
File {
/// The underlying error
#[source]
source: std::io::Error,
/// The name of the file on which the error occurred
filename: String,
},
}
/// The database schema, built from parsing one or more SQL statements.
pub struct Schema {
dialect: Box<dyn Dialect>,
/// The tables in the schema
pub tables: HashMap<String, Table>,
/// The views in the schema
pub views: HashMap<String, View>,
/// The names of created indexes
pub indices: HashSet<String>,
}
impl Schema {
/// Create a new [Schema] that parses with a generic SQL dialect
pub fn new() -> Self {
Self::new_with_dialect(sqlparser::dialect::GenericDialect {})
}
/// Create a new [Schema] that parses with the given SQL dialect
pub fn new_with_dialect<D: Dialect>(dialect: D) -> Self {
let dialect = Box::new(dialect);
Self {
tables: HashMap::new(),
views: HashMap::new(),
indices: HashSet::new(),
dialect,
}
}
fn create_table(&mut self, name: String, columns: Vec<ColumnDef>) -> Result<(), Error> {
if self.tables.contains_key(&name) {
return Err(Error::TableAlreadyExists(name));
}
self.tables.insert(
name.clone(),
Table {
name,
columns: columns.into_iter().map(Column).collect(),
},
);
Ok(())
}
fn create_view(
&mut self,
name: String,
or_replace: bool,
columns: Vec<String>,
) -> Result<(), Error> {
if !or_replace && self.views.contains_key(&name) {
return Err(Error::TableAlreadyExists(name));
}
self.views.insert(name.clone(), View { name, columns });
Ok(())
}
fn apply_statement(&mut self, statement: Statement) -> Result<(), Error> {
match statement {
Statement::CreateTable { name, columns, .. } => {
self.create_table(name.to_string(), columns)?;
}
Statement::AlterTable {
name: name_ident,
operations,
..
} => {
let name = name_ident.to_string();
for operation in operations {
match operation {
AlterTableOperation::AddColumn {
if_not_exists,
column_def,
..
} => {
let table = self
.tables
.get_mut(&name)
.ok_or_else(|| Error::AlteredMissingTable(name.clone()))?;
let existing_column =
table.columns.iter().find(|c| c.name == column_def.name);
if existing_column.is_none() {
table.columns.push(Column(column_def));
} else if !if_not_exists {
return Err(Error::ColumnAlreadyExists(
column_def.name.value,
name.clone(),
));
}
}
AlterTableOperation::DropColumn { column_name, .. } => {
let table = self
.tables
.get_mut(&name)
.ok_or_else(|| Error::AlteredMissingTable(name.clone()))?;
table.columns.retain(|c| c.name != column_name);
}
AlterTableOperation::RenameColumn {
old_column_name,
new_column_name,
} => {
let table = self
.tables
.get_mut(&name)
.ok_or_else(|| Error::AlteredMissingTable(name.clone()))?;
let column = table
.columns
.iter_mut()
.find(|c| c.name == old_column_name)
.ok_or_else(|| {
Error::AlteredMissingColumn(
old_column_name.value.clone(),
name.clone(),
)
})?;
column.name = new_column_name;
}
AlterTableOperation::RenameTable {
table_name: new_table_name,
} => {
let mut table = self
.tables
.remove(&name)
.ok_or_else(|| Error::AlteredMissingTable(name.clone()))?;
let (schema, _) = object_schema_and_name(&name_ident);
let new_table_name = name_with_schema(schema, &new_table_name);
table.name = new_table_name.clone();
// TODO this probably doesn't properly handle tables that are in a
// non-default schema
self.tables.insert(new_table_name, table);
}
AlterTableOperation::AlterColumn { column_name, op } => {
let table = self
.tables
.get_mut(&name)
.ok_or_else(|| Error::AlteredMissingTable(name.clone()))?;
let column = table
.columns
.iter_mut()
.find(|c| c.name == column_name)
.ok_or_else(|| {
Error::AlteredMissingColumn(
table.name.clone(),
column_name.value.clone(),
)
})?;
match op {
AlterColumnOperation::SetNotNull => {
if column
.options
.iter()
.find(|o| o.option == ColumnOption::NotNull)
.is_none()
{
column.options.push(ColumnOptionDef {
name: None,
option: ColumnOption::NotNull,
});
}
column.options.retain(|o| o.option != ColumnOption::Null);
}
AlterColumnOperation::DropNotNull => {
column.options.retain(|o| o.option != ColumnOption::NotNull);
}
AlterColumnOperation::SetDefault { value } => {
if let Some(default_option) = column
.options
.iter_mut()
.find(|o| matches!(o.option, ColumnOption::Default(_)))
{
default_option.option = ColumnOption::Default(value);
} else {
column.options.push(ColumnOptionDef {
name: None,
option: ColumnOption::Default(value),
})
}
}
AlterColumnOperation::DropDefault => {
column
.options
.retain(|o| !matches!(o.option, ColumnOption::Default(_)));
}
AlterColumnOperation::SetDataType { data_type, .. } => {
column.data_type = data_type
}
}
}
_ => {}
}
}
}
Statement::CreateView {
name,
columns,
or_replace,
..
} => {
self.create_view(
name.to_string(),
or_replace,
columns.into_iter().map(|c| c.value).collect(),
)?;
}
Statement::Drop {
object_type, names, ..
} => {
for name in names {
let name = name.to_string();
match object_type {
ObjectType::Table => {
self.tables.remove(&name);
}
ObjectType::View => {
self.views.remove(&name);
}
ObjectType::Index => {
self.indices.remove(&name);
}
_ => {}
}
}
}
Statement::CreateIndex {
name, table_name, ..
} => {
// For now we ignore indexes without names.
if let Some(name) = name {
let (schema, _) = object_schema_and_name(&table_name);
let full_name = name_with_schema(schema, &name);
self.indices.insert(full_name);
}
}
Statement::AlterIndex { name, operation } => match operation {
AlterIndexOperation::RenameIndex { index_name } => {
self.indices.remove(&name.to_string());
let (schema, _) = object_schema_and_name(&name);
let new_name = name_with_schema(schema, index_name);
self.indices.insert(new_name);
}
},
_ => {}
}
Ok(())
}
/// Apply one or more SQL statements to the schema
pub fn apply_sql(&mut self, sql: &str) -> Result<(), Error> {
sqlparser::parser::Parser::new(self.dialect.as_ref())
.try_with_sql(sql)?
.parse_statements()?
.into_iter()
.try_for_each(|statement| self.apply_statement(statement))
}
/// Read a SQL file and apply its contents to the schema
pub fn apply_file(&mut self, filename: &Path) -> Result<(), Error> {
let contents = std::fs::read_to_string(filename).map_err(|e| Error::File {
source: e,
filename: filename.display().to_string(),
})?;
self.apply_sql(&contents)
}
}
fn name_with_schema(schema: Option<impl Display>, name: impl Display) -> String {
if let Some(schema) = schema {
format!("{schema}.{name}")
} else {
name.to_string()
}
}
fn object_schema_and_name(name: &ObjectName) -> (Option<&Ident>, &Ident) {
if name.0.len() == 2 {
(Some(&name.0[0]), &name.0[1])
} else {
(None, &name.0[0])
}
}
#[cfg(test)]
mod test {
use sqlparser::{ast::DataType, dialect};
use super::*;
const CREATE: &str = r##"
CREATE TABLE ships (
id BIGINT PRIMARY KEY,
name TEXT NOT NULL,
mast_count INT not null
);"##;
const CREATE_WITH_SCHEMA: &str = r##"
CREATE TABLE sch.ships (
id BIGINT PRIMARY KEY,
name TEXT NOT NULL,
mast_count INT not null
);"##;
#[test]
fn rename_table() {
let mut schema = Schema::new();
schema.apply_sql(CREATE).unwrap();
schema
.apply_sql("ALTER TABLE ships RENAME TO ships_2;")
.unwrap();
assert!(schema.tables.contains_key("ships_2"));
assert!(!schema.tables.contains_key("ships"));
}
#[test]
fn rename_table_with_schema() {
let mut schema = Schema::new();
schema.apply_sql(CREATE_WITH_SCHEMA).unwrap();
schema
.apply_sql("ALTER TABLE sch.ships RENAME TO ships_2;")
.unwrap();
assert!(schema.tables.contains_key("sch.ships_2"));
assert!(!schema.tables.contains_key("sch.ships"));
}
#[test]
fn create_index() {
let mut schema = Schema::new();
schema
.apply_sql(
"
CREATE INDEX idx_name ON ships(name);
CREATE INDEX idx_name_2 ON sch.ships(name);
",
)
.unwrap();
assert!(schema.indices.contains("idx_name"));
assert!(schema.indices.contains("sch.idx_name_2"));
}
#[test]
fn drop_index() {
let mut schema = Schema::new();
schema
.apply_sql("CREATE INDEX idx_name ON sch.ships(name);")
.unwrap();
schema.apply_sql("DROP INDEX sch.idx_name;").unwrap();
assert!(schema.indices.is_empty());
}
#[test]
fn add_column() {
let mut schema = Schema::new();
schema.apply_sql(CREATE).unwrap();
schema
.apply_sql("ALTER TABLE ships ADD COLUMN has_motor BOOLEAN NOT NULL;")
.unwrap();
assert!(schema.tables["ships"].columns[3].name() == "has_motor");
}
#[test]
fn drop_column() {
let mut schema = Schema::new();
schema.apply_sql(CREATE).unwrap();
schema
.apply_sql("ALTER TABLE ships DROP COLUMN name;")
.unwrap();
assert!(schema.tables["ships"].columns.len() == 2);
assert!(schema.tables["ships"]
.columns
.iter()
.find(|c| c.name() == "name")
.is_none());
}
#[test]
fn rename_column() {
let mut schema = Schema::new();
schema.apply_sql(CREATE).unwrap();
schema
.apply_sql("ALTER TABLE ships RENAME COLUMN mast_count TO mast_count_2;")
.unwrap();
assert!(schema.tables["ships"].columns[2].name() == "mast_count_2");
}
#[test]
fn alter_column_change_nullable() {
let mut schema = Schema::new_with_dialect(dialect::PostgreSqlDialect {});
schema.apply_sql(CREATE).unwrap();
schema
.apply_sql("ALTER TABLE ships ALTER COLUMN mast_count DROP NOT NULL")
.unwrap();
assert!(!schema.tables["ships"].columns[2].not_null());
schema
.apply_sql("ALTER TABLE ships ALTER COLUMN mast_count SET NOT NULL")
.unwrap();
assert!(schema.tables["ships"].columns[2].not_null());
}
#[test]
fn alter_column_default() {
let mut schema = Schema::new_with_dialect(dialect::PostgreSqlDialect {});
schema.apply_sql(CREATE).unwrap();
schema
.apply_sql("ALTER TABLE ships ALTER COLUMN mast_count SET DEFAULT 2")
.unwrap();
assert_eq!(
schema.tables["ships"].columns[2]
.default_value()
.unwrap()
.to_string(),
"2"
);
schema
.apply_sql("ALTER TABLE ships ALTER COLUMN mast_count DROP DEFAULT")
.unwrap();
assert!(schema.tables["ships"].columns[2].default_value().is_none());
}
#[test]
fn alter_column_data_type() {
let mut schema = Schema::new_with_dialect(dialect::PostgreSqlDialect {});
schema.apply_sql(CREATE).unwrap();
schema
.apply_sql(
"ALTER TABLE ships ALTER COLUMN mast_count TYPE JSON USING(mast_count::json);",
)
.unwrap();
println!("{:?}", schema.tables["ships"].columns[2]);
assert!(schema.tables["ships"].columns[2].data_type == DataType::JSON);
}
}