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f4c0d9d45b
# Description Part 4 of replacing std::path types with nu_path types added in https://github.com/nushell/nushell/pull/13115. This PR migrates various tests throughout the code base.
486 lines
16 KiB
Rust
486 lines
16 KiB
Rust
use chrono::{DateTime, FixedOffset};
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use nu_path::AbsolutePathBuf;
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use nu_protocol::{ast::PathMember, record, Span, Value};
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use nu_test_support::{
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fs::{line_ending, Stub},
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nu, pipeline,
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playground::{Dirs, Playground},
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};
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use rand::{
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distributions::{Alphanumeric, DistString, Standard},
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prelude::Distribution,
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rngs::StdRng,
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Rng, SeedableRng,
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};
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use std::io::Write;
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#[test]
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fn into_sqlite_schema() {
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Playground::setup("schema", |dirs, _| {
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let testdb = make_sqlite_db(
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&dirs,
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r#"[
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[somebool, someint, somefloat, somefilesize, someduration, somedate, somestring, somebinary];
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[true, 1, 2.0, 1kb, 1sec, "2023-09-10 11:30:00", "foo", ("binary" | into binary)],
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[false, 2, 3.0, 2mb, 4wk, "2020-09-10 12:30:00", "bar", ("wut" | into binary)],
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]"#,
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);
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let conn = rusqlite::Connection::open(testdb).unwrap();
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let mut stmt = conn.prepare("SELECT * FROM pragma_table_info(?1)").unwrap();
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let actual_rows: Vec<_> = stmt
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.query_and_then(["main"], |row| -> rusqlite::Result<_, rusqlite::Error> {
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let name: String = row.get("name").unwrap();
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let col_type: String = row.get("type").unwrap();
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Ok((name, col_type))
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})
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.unwrap()
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.map(|row| row.unwrap())
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.collect();
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let expected_rows = vec![
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("somebool".into(), "BOOLEAN".into()),
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("someint".into(), "INTEGER".into()),
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("somefloat".into(), "REAL".into()),
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("somefilesize".into(), "INTEGER".into()),
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("someduration".into(), "BIGINT".into()),
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("somedate".into(), "TEXT".into()),
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("somestring".into(), "TEXT".into()),
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("somebinary".into(), "BLOB".into()),
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];
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assert_eq!(expected_rows, actual_rows);
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});
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}
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#[test]
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fn into_sqlite_values() {
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Playground::setup("values", |dirs, _| {
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insert_test_rows(
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&dirs,
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r#"[
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[somebool, someint, somefloat, somefilesize, someduration, somedate, somestring, somebinary, somenull];
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[true, 1, 2.0, 1kb, 1sec, "2023-09-10T11:30:00-00:00", "foo", ("binary" | into binary), 1],
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[false, 2, 3.0, 2mb, 4wk, "2020-09-10T12:30:00-00:00", "bar", ("wut" | into binary), null],
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]"#,
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None,
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vec![
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TestRow(
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true,
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1,
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2.0,
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1000,
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1000000000,
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DateTime::parse_from_rfc3339("2023-09-10T11:30:00-00:00").unwrap(),
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"foo".into(),
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b"binary".to_vec(),
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rusqlite::types::Value::Integer(1),
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),
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TestRow(
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false,
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2,
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3.0,
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2000000,
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2419200000000000,
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DateTime::parse_from_rfc3339("2020-09-10T12:30:00-00:00").unwrap(),
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"bar".into(),
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b"wut".to_vec(),
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rusqlite::types::Value::Null,
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),
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],
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);
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});
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}
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/// When we create a new table, we use the first row to infer the schema of the
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/// table. In the event that a column is null, we can't know what type the row
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/// should be, so we just assume TEXT.
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#[test]
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fn into_sqlite_values_first_column_null() {
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Playground::setup("values", |dirs, _| {
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insert_test_rows(
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&dirs,
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r#"[
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[somebool, someint, somefloat, somefilesize, someduration, somedate, somestring, somebinary, somenull];
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[false, 2, 3.0, 2mb, 4wk, "2020-09-10T12:30:00-00:00", "bar", ("wut" | into binary), null],
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[true, 1, 2.0, 1kb, 1sec, "2023-09-10T11:30:00-00:00", "foo", ("binary" | into binary), 1],
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]"#,
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None,
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vec![
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TestRow(
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false,
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2,
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3.0,
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2000000,
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2419200000000000,
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DateTime::parse_from_rfc3339("2020-09-10T12:30:00-00:00").unwrap(),
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"bar".into(),
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b"wut".to_vec(),
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rusqlite::types::Value::Null,
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),
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TestRow(
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true,
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1,
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2.0,
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1000,
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1000000000,
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DateTime::parse_from_rfc3339("2023-09-10T11:30:00-00:00").unwrap(),
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"foo".into(),
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b"binary".to_vec(),
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rusqlite::types::Value::Text("1".into()),
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),
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],
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);
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});
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}
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/// If the DB / table already exist, then the insert should end up with the
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/// right data types no matter if the first row is null or not.
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#[test]
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fn into_sqlite_values_first_column_null_preexisting_db() {
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Playground::setup("values", |dirs, _| {
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insert_test_rows(
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&dirs,
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r#"[
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[somebool, someint, somefloat, somefilesize, someduration, somedate, somestring, somebinary, somenull];
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[true, 1, 2.0, 1kb, 1sec, "2023-09-10T11:30:00-00:00", "foo", ("binary" | into binary), 1],
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[false, 2, 3.0, 2mb, 4wk, "2020-09-10T12:30:00-00:00", "bar", ("wut" | into binary), null],
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]"#,
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None,
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vec![
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TestRow(
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true,
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1,
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2.0,
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1000,
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1000000000,
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DateTime::parse_from_rfc3339("2023-09-10T11:30:00-00:00").unwrap(),
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"foo".into(),
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b"binary".to_vec(),
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rusqlite::types::Value::Integer(1),
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),
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TestRow(
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false,
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2,
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3.0,
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2000000,
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2419200000000000,
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DateTime::parse_from_rfc3339("2020-09-10T12:30:00-00:00").unwrap(),
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"bar".into(),
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b"wut".to_vec(),
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rusqlite::types::Value::Null,
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),
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],
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);
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insert_test_rows(
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&dirs,
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r#"[
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[somebool, someint, somefloat, somefilesize, someduration, somedate, somestring, somebinary, somenull];
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[true, 3, 5.0, 3.1mb, 1wk, "2020-09-10T12:30:00-00:00", "baz", ("huh" | into binary), null],
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[true, 3, 5.0, 3.1mb, 1wk, "2020-09-10T12:30:00-00:00", "baz", ("huh" | into binary), 3],
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]"#,
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None,
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vec![
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TestRow(
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true,
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1,
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2.0,
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1000,
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1000000000,
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DateTime::parse_from_rfc3339("2023-09-10T11:30:00-00:00").unwrap(),
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"foo".into(),
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b"binary".to_vec(),
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rusqlite::types::Value::Integer(1),
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),
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TestRow(
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false,
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2,
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3.0,
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2000000,
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2419200000000000,
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DateTime::parse_from_rfc3339("2020-09-10T12:30:00-00:00").unwrap(),
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"bar".into(),
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b"wut".to_vec(),
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rusqlite::types::Value::Null,
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),
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TestRow(
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true,
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3,
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5.0,
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3100000,
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604800000000000,
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DateTime::parse_from_rfc3339("2020-09-10T12:30:00-00:00").unwrap(),
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"baz".into(),
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b"huh".to_vec(),
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rusqlite::types::Value::Null,
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),
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TestRow(
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true,
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3,
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5.0,
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3100000,
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604800000000000,
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DateTime::parse_from_rfc3339("2020-09-10T12:30:00-00:00").unwrap(),
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"baz".into(),
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b"huh".to_vec(),
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rusqlite::types::Value::Integer(3),
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),
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],
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);
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});
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}
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/// Opening a preexisting database should append to it
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#[test]
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fn into_sqlite_existing_db_append() {
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Playground::setup("existing_db_append", |dirs, _| {
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// create a new DB with only one row
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insert_test_rows(
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&dirs,
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r#"[
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[somebool, someint, somefloat, somefilesize, someduration, somedate, somestring, somebinary, somenull];
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[true, 1, 2.0, 1kb, 1sec, "2023-09-10T11:30:00-00:00", "foo", ("binary" | into binary), null],
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]"#,
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None,
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vec![TestRow(
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true,
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1,
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2.0,
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1000,
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1000000000,
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DateTime::parse_from_rfc3339("2023-09-10T11:30:00-00:00").unwrap(),
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"foo".into(),
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b"binary".to_vec(),
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rusqlite::types::Value::Null,
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)],
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);
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// open the same DB again and write one row
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insert_test_rows(
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&dirs,
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r#"[
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[somebool, someint, somefloat, somefilesize, someduration, somedate, somestring, somebinary, somenull];
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[false, 2, 3.0, 2mb, 4wk, "2020-09-10T12:30:00-00:00", "bar", ("wut" | into binary), null],
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]"#,
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None,
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// it should have both rows
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vec![
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TestRow(
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true,
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1,
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2.0,
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1000,
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1000000000,
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DateTime::parse_from_rfc3339("2023-09-10T11:30:00-00:00").unwrap(),
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"foo".into(),
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b"binary".to_vec(),
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rusqlite::types::Value::Null,
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),
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TestRow(
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false,
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2,
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3.0,
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2000000,
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2419200000000000,
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DateTime::parse_from_rfc3339("2020-09-10T12:30:00-00:00").unwrap(),
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"bar".into(),
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b"wut".to_vec(),
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rusqlite::types::Value::Null,
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),
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],
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);
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});
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}
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/// Test inserting a good number of randomly generated rows to test an actual
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/// streaming pipeline instead of a simple value
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#[test]
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fn into_sqlite_big_insert() {
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Playground::setup("big_insert", |dirs, playground| {
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const NUM_ROWS: usize = 10_000;
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const NUON_FILE_NAME: &str = "data.nuon";
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let nuon_path = dirs.test().join(NUON_FILE_NAME);
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playground.with_files(&[Stub::EmptyFile(&nuon_path.to_string_lossy())]);
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let mut expected_rows = Vec::new();
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let mut nuon_file = std::fs::OpenOptions::new()
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.write(true)
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.open(&nuon_path)
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.unwrap();
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// write the header
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for row in std::iter::repeat_with(TestRow::random).take(NUM_ROWS) {
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let mut value: Value = row.clone().into();
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// HACK: Convert to a string to get around this: https://github.com/nushell/nushell/issues/9186
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value
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.upsert_cell_path(
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&[PathMember::String {
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val: "somedate".into(),
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span: Span::unknown(),
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optional: false,
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}],
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Box::new(|dateval| {
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Value::string(dateval.coerce_string().unwrap(), dateval.span())
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}),
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)
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.unwrap();
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let nuon = nuon::to_nuon(&value, nuon::ToStyle::Raw, Some(Span::unknown())).unwrap()
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+ &line_ending();
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nuon_file.write_all(nuon.as_bytes()).unwrap();
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expected_rows.push(row);
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}
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insert_test_rows(
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&dirs,
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&format!(
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"open --raw {} | lines | each {{ from nuon }}",
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nuon_path.to_string_lossy()
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),
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None,
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expected_rows,
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);
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});
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}
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/// empty in, empty out
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#[test]
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fn into_sqlite_empty() {
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Playground::setup("empty", |dirs, _| {
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insert_test_rows(&dirs, r#"[]"#, Some("SELECT * FROM sqlite_schema;"), vec![]);
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});
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}
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#[derive(Debug, PartialEq, Clone)]
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struct TestRow(
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bool,
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i64,
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f64,
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i64,
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i64,
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chrono::DateTime<chrono::FixedOffset>,
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std::string::String,
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std::vec::Vec<u8>,
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rusqlite::types::Value,
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);
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impl TestRow {
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pub fn random() -> Self {
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StdRng::from_entropy().sample(Standard)
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}
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}
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impl From<TestRow> for Value {
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fn from(row: TestRow) -> Self {
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Value::record(
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record! {
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"somebool" => Value::bool(row.0, Span::unknown()),
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"someint" => Value::int(row.1, Span::unknown()),
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"somefloat" => Value::float(row.2, Span::unknown()),
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"somefilesize" => Value::filesize(row.3, Span::unknown()),
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"someduration" => Value::duration(row.4, Span::unknown()),
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"somedate" => Value::date(row.5, Span::unknown()),
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"somestring" => Value::string(row.6, Span::unknown()),
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"somebinary" => Value::binary(row.7, Span::unknown()),
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"somenull" => Value::nothing(Span::unknown()),
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},
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Span::unknown(),
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)
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}
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}
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impl<'r> TryFrom<&rusqlite::Row<'r>> for TestRow {
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type Error = rusqlite::Error;
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fn try_from(row: &rusqlite::Row) -> Result<Self, Self::Error> {
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let somebool: bool = row.get("somebool").unwrap();
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let someint: i64 = row.get("someint").unwrap();
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let somefloat: f64 = row.get("somefloat").unwrap();
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let somefilesize: i64 = row.get("somefilesize").unwrap();
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let someduration: i64 = row.get("someduration").unwrap();
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let somedate: DateTime<FixedOffset> = row.get("somedate").unwrap();
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let somestring: String = row.get("somestring").unwrap();
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let somebinary: Vec<u8> = row.get("somebinary").unwrap();
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let somenull: rusqlite::types::Value = row.get("somenull").unwrap();
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Ok(TestRow(
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somebool,
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someint,
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somefloat,
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somefilesize,
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someduration,
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somedate,
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somestring,
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somebinary,
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somenull,
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))
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}
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}
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impl Distribution<TestRow> for Standard {
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fn sample<R>(&self, rng: &mut R) -> TestRow
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where
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R: rand::Rng + ?Sized,
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{
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let dt = DateTime::from_timestamp_millis(rng.gen_range(0..2324252554000))
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.unwrap()
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.fixed_offset();
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let rand_string = Alphanumeric.sample_string(rng, 10);
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// limit the size of the numbers to work around
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// https://github.com/nushell/nushell/issues/10612
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let filesize = rng.gen_range(-1024..=1024);
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let duration = rng.gen_range(-1024..=1024);
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TestRow(
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rng.gen(),
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rng.gen(),
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rng.gen(),
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filesize,
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duration,
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dt,
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rand_string,
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rng.gen::<u64>().to_be_bytes().to_vec(),
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rusqlite::types::Value::Null,
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)
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}
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}
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fn make_sqlite_db(dirs: &Dirs, nu_table: &str) -> AbsolutePathBuf {
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let testdir = dirs.test();
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let testdb_path =
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testdir.join(testdir.file_name().unwrap().to_str().unwrap().to_owned() + ".db");
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let testdb = testdb_path.to_str().unwrap();
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let nucmd = nu!(
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cwd: testdir,
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pipeline(&format!("{nu_table} | into sqlite {testdb}"))
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);
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assert!(nucmd.status.success());
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testdb_path
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}
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fn insert_test_rows(dirs: &Dirs, nu_table: &str, sql_query: Option<&str>, expected: Vec<TestRow>) {
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let sql_query = sql_query.unwrap_or("SELECT * FROM main;");
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let testdb = make_sqlite_db(dirs, nu_table);
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let conn = rusqlite::Connection::open(testdb).unwrap();
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let mut stmt = conn.prepare(sql_query).unwrap();
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let actual_rows: Vec<_> = stmt
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.query_and_then([], |row| TestRow::try_from(row))
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.unwrap()
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.map(|row| row.unwrap())
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.collect();
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assert_eq!(expected, actual_rows);
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}
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