# frozen_string_literal: true
require_relative "helper"
module Arel
class SelectManagerTest < Arel::Spec
def test_join_sources
manager = Arel::SelectManager.new
manager.join_sources << Arel::Nodes::StringJoin.new(Nodes.build_quoted("foo"))
assert_equal "SELECT FROM 'foo'", manager.to_sql
end
describe "backwards compatibility" do
describe "project" do
it "accepts symbols as sql literals" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.project :id
manager.from table
manager.to_sql.must_be_like %{
SELECT id FROM "users"
}
end
end
describe "order" do
it "accepts symbols" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.project Nodes::SqlLiteral.new "*"
manager.from table
manager.order :foo
manager.to_sql.must_be_like %{ SELECT * FROM "users" ORDER BY foo }
end
end
describe "group" do
it "takes a symbol" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.group :foo
manager.to_sql.must_be_like %{ SELECT FROM "users" GROUP BY foo }
end
end
describe "as" do
it "makes an AS node by grouping the AST" do
manager = Arel::SelectManager.new
as = manager.as(Arel.sql("foo"))
assert_kind_of Arel::Nodes::Grouping, as.left
assert_equal manager.ast, as.left.expr
assert_equal "foo", as.right
end
it "converts right to SqlLiteral if a string" do
manager = Arel::SelectManager.new
as = manager.as("foo")
assert_kind_of Arel::Nodes::SqlLiteral, as.right
end
it "can make a subselect" do
manager = Arel::SelectManager.new
manager.project Arel.star
manager.from Arel.sql("zomg")
as = manager.as(Arel.sql("foo"))
manager = Arel::SelectManager.new
manager.project Arel.sql("name")
manager.from as
manager.to_sql.must_be_like "SELECT name FROM (SELECT * FROM zomg) foo"
end
end
describe "from" do
it "ignores strings when table of same name exists" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.from "users"
manager.project table["id"]
manager.to_sql.must_be_like 'SELECT "users"."id" FROM users'
end
it "should support any ast" do
table = Table.new :users
manager1 = Arel::SelectManager.new
manager2 = Arel::SelectManager.new
manager2.project(Arel.sql("*"))
manager2.from table
manager1.project Arel.sql("lol")
as = manager2.as Arel.sql("omg")
manager1.from(as)
manager1.to_sql.must_be_like %{
SELECT lol FROM (SELECT * FROM "users") omg
}
end
end
describe "having" do
it "converts strings to SQLLiterals" do
table = Table.new :users
mgr = table.from
mgr.having Arel.sql("foo")
mgr.to_sql.must_be_like %{ SELECT FROM "users" HAVING foo }
end
it "can have multiple items specified separately" do
table = Table.new :users
mgr = table.from
mgr.having Arel.sql("foo")
mgr.having Arel.sql("bar")
mgr.to_sql.must_be_like %{ SELECT FROM "users" HAVING foo AND bar }
end
it "can receive any node" do
table = Table.new :users
mgr = table.from
mgr.having Arel::Nodes::And.new([Arel.sql("foo"), Arel.sql("bar")])
mgr.to_sql.must_be_like %{ SELECT FROM "users" HAVING foo AND bar }
end
end
describe "on" do
it "converts to sqlliterals" do
table = Table.new :users
right = table.alias
mgr = table.from
mgr.join(right).on("omg")
mgr.to_sql.must_be_like %{ SELECT FROM "users" INNER JOIN "users" "users_2" ON omg }
end
it "converts to sqlliterals with multiple items" do
table = Table.new :users
right = table.alias
mgr = table.from
mgr.join(right).on("omg", "123")
mgr.to_sql.must_be_like %{ SELECT FROM "users" INNER JOIN "users" "users_2" ON omg AND 123 }
end
end
end
describe "clone" do
it "creates new cores" do
table = Table.new :users, as: "foo"
mgr = table.from
m2 = mgr.clone
m2.project "foo"
mgr.to_sql.wont_equal m2.to_sql
end
it "makes updates to the correct copy" do
table = Table.new :users, as: "foo"
mgr = table.from
m2 = mgr.clone
m3 = m2.clone
m2.project "foo"
mgr.to_sql.wont_equal m2.to_sql
m3.to_sql.must_equal mgr.to_sql
end
end
describe "initialize" do
it "uses alias in sql" do
table = Table.new :users, as: "foo"
mgr = table.from
mgr.skip 10
mgr.to_sql.must_be_like %{ SELECT FROM "users" "foo" OFFSET 10 }
end
end
describe "skip" do
it "should add an offset" do
table = Table.new :users
mgr = table.from
mgr.skip 10
mgr.to_sql.must_be_like %{ SELECT FROM "users" OFFSET 10 }
end
it "should chain" do
table = Table.new :users
mgr = table.from
mgr.skip(10).to_sql.must_be_like %{ SELECT FROM "users" OFFSET 10 }
end
end
describe "offset" do
it "should add an offset" do
table = Table.new :users
mgr = table.from
mgr.offset = 10
mgr.to_sql.must_be_like %{ SELECT FROM "users" OFFSET 10 }
end
it "should remove an offset" do
table = Table.new :users
mgr = table.from
mgr.offset = 10
mgr.to_sql.must_be_like %{ SELECT FROM "users" OFFSET 10 }
mgr.offset = nil
mgr.to_sql.must_be_like %{ SELECT FROM "users" }
end
it "should return the offset" do
table = Table.new :users
mgr = table.from
mgr.offset = 10
assert_equal 10, mgr.offset
end
end
describe "exists" do
it "should create an exists clause" do
table = Table.new(:users)
manager = Arel::SelectManager.new table
manager.project Nodes::SqlLiteral.new "*"
m2 = Arel::SelectManager.new
m2.project manager.exists
m2.to_sql.must_be_like %{ SELECT EXISTS (#{manager.to_sql}) }
end
it "can be aliased" do
table = Table.new(:users)
manager = Arel::SelectManager.new table
manager.project Nodes::SqlLiteral.new "*"
m2 = Arel::SelectManager.new
m2.project manager.exists.as("foo")
m2.to_sql.must_be_like %{ SELECT EXISTS (#{manager.to_sql}) AS foo }
end
end
describe "union" do
before do
table = Table.new :users
@m1 = Arel::SelectManager.new table
@m1.project Arel.star
@m1.where(table[:age].lt(18))
@m2 = Arel::SelectManager.new table
@m2.project Arel.star
@m2.where(table[:age].gt(99))
end
it "should union two managers" do
# FIXME should this union "managers" or "statements" ?
# FIXME this probably shouldn't return a node
node = @m1.union @m2
# maybe FIXME: decide when wrapper parens are needed
node.to_sql.must_be_like %{
( SELECT * FROM "users" WHERE "users"."age" < 18 UNION SELECT * FROM "users" WHERE "users"."age" > 99 )
}
end
it "should union all" do
node = @m1.union :all, @m2
node.to_sql.must_be_like %{
( SELECT * FROM "users" WHERE "users"."age" < 18 UNION ALL SELECT * FROM "users" WHERE "users"."age" > 99 )
}
end
end
describe "intersect" do
before do
table = Table.new :users
@m1 = Arel::SelectManager.new table
@m1.project Arel.star
@m1.where(table[:age].gt(18))
@m2 = Arel::SelectManager.new table
@m2.project Arel.star
@m2.where(table[:age].lt(99))
end
it "should intersect two managers" do
# FIXME should this intersect "managers" or "statements" ?
# FIXME this probably shouldn't return a node
node = @m1.intersect @m2
# maybe FIXME: decide when wrapper parens are needed
node.to_sql.must_be_like %{
( SELECT * FROM "users" WHERE "users"."age" > 18 INTERSECT SELECT * FROM "users" WHERE "users"."age" < 99 )
}
end
end
describe "except" do
before do
table = Table.new :users
@m1 = Arel::SelectManager.new table
@m1.project Arel.star
@m1.where(table[:age].between(18..60))
@m2 = Arel::SelectManager.new table
@m2.project Arel.star
@m2.where(table[:age].between(40..99))
end
it "should except two managers" do
# FIXME should this except "managers" or "statements" ?
# FIXME this probably shouldn't return a node
node = @m1.except @m2
# maybe FIXME: decide when wrapper parens are needed
node.to_sql.must_be_like %{
( SELECT * FROM "users" WHERE "users"."age" BETWEEN 18 AND 60 EXCEPT SELECT * FROM "users" WHERE "users"."age" BETWEEN 40 AND 99 )
}
end
end
describe "with" do
it "should support basic WITH" do
users = Table.new(:users)
users_top = Table.new(:users_top)
comments = Table.new(:comments)
top = users.project(users[:id]).where(users[:karma].gt(100))
users_as = Arel::Nodes::As.new(users_top, top)
select_manager = comments.project(Arel.star).with(users_as)
.where(comments[:author_id].in(users_top.project(users_top[:id])))
select_manager.to_sql.must_be_like %{
WITH "users_top" AS (SELECT "users"."id" FROM "users" WHERE "users"."karma" > 100) SELECT * FROM "comments" WHERE "comments"."author_id" IN (SELECT "users_top"."id" FROM "users_top")
}
end
it "should support WITH RECURSIVE" do
comments = Table.new(:comments)
comments_id = comments[:id]
comments_parent_id = comments[:parent_id]
replies = Table.new(:replies)
replies_id = replies[:id]
recursive_term = Arel::SelectManager.new
recursive_term.from(comments).project(comments_id, comments_parent_id).where(comments_id.eq 42)
non_recursive_term = Arel::SelectManager.new
non_recursive_term.from(comments).project(comments_id, comments_parent_id).join(replies).on(comments_parent_id.eq replies_id)
union = recursive_term.union(non_recursive_term)
as_statement = Arel::Nodes::As.new replies, union
manager = Arel::SelectManager.new
manager.with(:recursive, as_statement).from(replies).project(Arel.star)
sql = manager.to_sql
sql.must_be_like %{
WITH RECURSIVE "replies" AS (
SELECT "comments"."id", "comments"."parent_id" FROM "comments" WHERE "comments"."id" = 42
UNION
SELECT "comments"."id", "comments"."parent_id" FROM "comments" INNER JOIN "replies" ON "comments"."parent_id" = "replies"."id"
)
SELECT * FROM "replies"
}
end
end
describe "ast" do
it "should return the ast" do
table = Table.new :users
mgr = table.from
assert mgr.ast
end
it "should allow orders to work when the ast is grepped" do
table = Table.new :users
mgr = table.from
mgr.project Arel.sql "*"
mgr.from table
mgr.orders << Arel::Nodes::Ascending.new(Arel.sql("foo"))
mgr.ast.grep(Arel::Nodes::OuterJoin)
mgr.to_sql.must_be_like %{ SELECT * FROM "users" ORDER BY foo ASC }
end
end
describe "taken" do
it "should return limit" do
manager = Arel::SelectManager.new
manager.take 10
manager.taken.must_equal 10
end
end
describe "lock" do
# This should fail on other databases
it "adds a lock node" do
table = Table.new :users
mgr = table.from
mgr.lock.to_sql.must_be_like %{ SELECT FROM "users" FOR UPDATE }
end
end
describe "orders" do
it "returns order clauses" do
table = Table.new :users
manager = Arel::SelectManager.new
order = table[:id]
manager.order table[:id]
manager.orders.must_equal [order]
end
end
describe "order" do
it "generates order clauses" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.project Nodes::SqlLiteral.new "*"
manager.from table
manager.order table[:id]
manager.to_sql.must_be_like %{
SELECT * FROM "users" ORDER BY "users"."id"
}
end
# FIXME: I would like to deprecate this
it "takes *args" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.project Nodes::SqlLiteral.new "*"
manager.from table
manager.order table[:id], table[:name]
manager.to_sql.must_be_like %{
SELECT * FROM "users" ORDER BY "users"."id", "users"."name"
}
end
it "chains" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.order(table[:id]).must_equal manager
end
it "has order attributes" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.project Nodes::SqlLiteral.new "*"
manager.from table
manager.order table[:id].desc
manager.to_sql.must_be_like %{
SELECT * FROM "users" ORDER BY "users"."id" DESC
}
end
end
describe "on" do
it "takes two params" do
left = Table.new :users
right = left.alias
predicate = left[:id].eq(right[:id])
manager = Arel::SelectManager.new
manager.from left
manager.join(right).on(predicate, predicate)
manager.to_sql.must_be_like %{
SELECT FROM "users"
INNER JOIN "users" "users_2"
ON "users"."id" = "users_2"."id" AND
"users"."id" = "users_2"."id"
}
end
it "takes three params" do
left = Table.new :users
right = left.alias
predicate = left[:id].eq(right[:id])
manager = Arel::SelectManager.new
manager.from left
manager.join(right).on(
predicate,
predicate,
left[:name].eq(right[:name])
)
manager.to_sql.must_be_like %{
SELECT FROM "users"
INNER JOIN "users" "users_2"
ON "users"."id" = "users_2"."id" AND
"users"."id" = "users_2"."id" AND
"users"."name" = "users_2"."name"
}
end
end
it "should hand back froms" do
relation = Arel::SelectManager.new
assert_equal [], relation.froms
end
it "should create and nodes" do
relation = Arel::SelectManager.new
children = ["foo", "bar", "baz"]
clause = relation.create_and children
assert_kind_of Arel::Nodes::And, clause
assert_equal children, clause.children
end
it "should create insert managers" do
relation = Arel::SelectManager.new
insert = relation.create_insert
assert_kind_of Arel::InsertManager, insert
end
it "should create join nodes" do
relation = Arel::SelectManager.new
join = relation.create_join "foo", "bar"
assert_kind_of Arel::Nodes::InnerJoin, join
assert_equal "foo", join.left
assert_equal "bar", join.right
end
it "should create join nodes with a full outer join klass" do
relation = Arel::SelectManager.new
join = relation.create_join "foo", "bar", Arel::Nodes::FullOuterJoin
assert_kind_of Arel::Nodes::FullOuterJoin, join
assert_equal "foo", join.left
assert_equal "bar", join.right
end
it "should create join nodes with a outer join klass" do
relation = Arel::SelectManager.new
join = relation.create_join "foo", "bar", Arel::Nodes::OuterJoin
assert_kind_of Arel::Nodes::OuterJoin, join
assert_equal "foo", join.left
assert_equal "bar", join.right
end
it "should create join nodes with a right outer join klass" do
relation = Arel::SelectManager.new
join = relation.create_join "foo", "bar", Arel::Nodes::RightOuterJoin
assert_kind_of Arel::Nodes::RightOuterJoin, join
assert_equal "foo", join.left
assert_equal "bar", join.right
end
describe "join" do
it "responds to join" do
left = Table.new :users
right = left.alias
predicate = left[:id].eq(right[:id])
manager = Arel::SelectManager.new
manager.from left
manager.join(right).on(predicate)
manager.to_sql.must_be_like %{
SELECT FROM "users"
INNER JOIN "users" "users_2"
ON "users"."id" = "users_2"."id"
}
end
it "takes a class" do
left = Table.new :users
right = left.alias
predicate = left[:id].eq(right[:id])
manager = Arel::SelectManager.new
manager.from left
manager.join(right, Nodes::OuterJoin).on(predicate)
manager.to_sql.must_be_like %{
SELECT FROM "users"
LEFT OUTER JOIN "users" "users_2"
ON "users"."id" = "users_2"."id"
}
end
it "takes the full outer join class" do
left = Table.new :users
right = left.alias
predicate = left[:id].eq(right[:id])
manager = Arel::SelectManager.new
manager.from left
manager.join(right, Nodes::FullOuterJoin).on(predicate)
manager.to_sql.must_be_like %{
SELECT FROM "users"
FULL OUTER JOIN "users" "users_2"
ON "users"."id" = "users_2"."id"
}
end
it "takes the right outer join class" do
left = Table.new :users
right = left.alias
predicate = left[:id].eq(right[:id])
manager = Arel::SelectManager.new
manager.from left
manager.join(right, Nodes::RightOuterJoin).on(predicate)
manager.to_sql.must_be_like %{
SELECT FROM "users"
RIGHT OUTER JOIN "users" "users_2"
ON "users"."id" = "users_2"."id"
}
end
it "noops on nil" do
manager = Arel::SelectManager.new
manager.join(nil).must_equal manager
end
it "raises EmptyJoinError on empty" do
left = Table.new :users
manager = Arel::SelectManager.new
manager.from left
assert_raises(EmptyJoinError) do
manager.join("")
end
end
end
describe "outer join" do
it "responds to join" do
left = Table.new :users
right = left.alias
predicate = left[:id].eq(right[:id])
manager = Arel::SelectManager.new
manager.from left
manager.outer_join(right).on(predicate)
manager.to_sql.must_be_like %{
SELECT FROM "users"
LEFT OUTER JOIN "users" "users_2"
ON "users"."id" = "users_2"."id"
}
end
it "noops on nil" do
manager = Arel::SelectManager.new
manager.outer_join(nil).must_equal manager
end
end
describe "joins" do
it "returns inner join sql" do
table = Table.new :users
aliaz = table.alias
manager = Arel::SelectManager.new
manager.from Nodes::InnerJoin.new(aliaz, table[:id].eq(aliaz[:id]))
assert_match 'INNER JOIN "users" "users_2" "users"."id" = "users_2"."id"',
manager.to_sql
end
it "returns outer join sql" do
table = Table.new :users
aliaz = table.alias
manager = Arel::SelectManager.new
manager.from Nodes::OuterJoin.new(aliaz, table[:id].eq(aliaz[:id]))
assert_match 'LEFT OUTER JOIN "users" "users_2" "users"."id" = "users_2"."id"',
manager.to_sql
end
it "can have a non-table alias as relation name" do
users = Table.new :users
comments = Table.new :comments
counts = comments.from.
group(comments[:user_id]).
project(
comments[:user_id].as("user_id"),
comments[:user_id].count.as("count")
).as("counts")
joins = users.join(counts).on(counts[:user_id].eq(10))
joins.to_sql.must_be_like %{
SELECT FROM "users" INNER JOIN (SELECT "comments"."user_id" AS user_id, COUNT("comments"."user_id") AS count FROM "comments" GROUP BY "comments"."user_id") counts ON counts."user_id" = 10
}
end
it "joins itself" do
left = Table.new :users
right = left.alias
predicate = left[:id].eq(right[:id])
mgr = left.join(right)
mgr.project Nodes::SqlLiteral.new("*")
mgr.on(predicate).must_equal mgr
mgr.to_sql.must_be_like %{
SELECT * FROM "users"
INNER JOIN "users" "users_2"
ON "users"."id" = "users_2"."id"
}
end
it "returns string join sql" do
manager = Arel::SelectManager.new
manager.from Nodes::StringJoin.new(Nodes.build_quoted("hello"))
assert_match "'hello'", manager.to_sql
end
end
describe "group" do
it "takes an attribute" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.group table[:id]
manager.to_sql.must_be_like %{
SELECT FROM "users" GROUP BY "users"."id"
}
end
it "chains" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.group(table[:id]).must_equal manager
end
it "takes multiple args" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.group table[:id], table[:name]
manager.to_sql.must_be_like %{
SELECT FROM "users" GROUP BY "users"."id", "users"."name"
}
end
# FIXME: backwards compat
it "makes strings literals" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.group "foo"
manager.to_sql.must_be_like %{ SELECT FROM "users" GROUP BY foo }
end
end
describe "window definition" do
it "can be empty" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.window("a_window")
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS ()
}
end
it "takes an order" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.window("a_window").order(table["foo"].asc)
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (ORDER BY "users"."foo" ASC)
}
end
it "takes an order with multiple columns" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.window("a_window").order(table["foo"].asc, table["bar"].desc)
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (ORDER BY "users"."foo" ASC, "users"."bar" DESC)
}
end
it "takes a partition" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.window("a_window").partition(table["bar"])
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (PARTITION BY "users"."bar")
}
end
it "takes a partition and an order" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.window("a_window").partition(table["foo"]).order(table["foo"].asc)
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (PARTITION BY "users"."foo"
ORDER BY "users"."foo" ASC)
}
end
it "takes a partition with multiple columns" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.window("a_window").partition(table["bar"], table["baz"])
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (PARTITION BY "users"."bar", "users"."baz")
}
end
it "takes a rows frame, unbounded preceding" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.window("a_window").rows(Arel::Nodes::Preceding.new)
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (ROWS UNBOUNDED PRECEDING)
}
end
it "takes a rows frame, bounded preceding" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.window("a_window").rows(Arel::Nodes::Preceding.new(5))
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (ROWS 5 PRECEDING)
}
end
it "takes a rows frame, unbounded following" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.window("a_window").rows(Arel::Nodes::Following.new)
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (ROWS UNBOUNDED FOLLOWING)
}
end
it "takes a rows frame, bounded following" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.window("a_window").rows(Arel::Nodes::Following.new(5))
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (ROWS 5 FOLLOWING)
}
end
it "takes a rows frame, current row" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.window("a_window").rows(Arel::Nodes::CurrentRow.new)
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (ROWS CURRENT ROW)
}
end
it "takes a rows frame, between two delimiters" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
window = manager.window("a_window")
window.frame(
Arel::Nodes::Between.new(
window.rows,
Nodes::And.new([
Arel::Nodes::Preceding.new,
Arel::Nodes::CurrentRow.new
])))
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW)
}
end
it "takes a range frame, unbounded preceding" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.window("a_window").range(Arel::Nodes::Preceding.new)
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (RANGE UNBOUNDED PRECEDING)
}
end
it "takes a range frame, bounded preceding" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.window("a_window").range(Arel::Nodes::Preceding.new(5))
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (RANGE 5 PRECEDING)
}
end
it "takes a range frame, unbounded following" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.window("a_window").range(Arel::Nodes::Following.new)
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (RANGE UNBOUNDED FOLLOWING)
}
end
it "takes a range frame, bounded following" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.window("a_window").range(Arel::Nodes::Following.new(5))
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (RANGE 5 FOLLOWING)
}
end
it "takes a range frame, current row" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.window("a_window").range(Arel::Nodes::CurrentRow.new)
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (RANGE CURRENT ROW)
}
end
it "takes a range frame, between two delimiters" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
window = manager.window("a_window")
window.frame(
Arel::Nodes::Between.new(
window.range,
Nodes::And.new([
Arel::Nodes::Preceding.new,
Arel::Nodes::CurrentRow.new
])))
manager.to_sql.must_be_like %{
SELECT FROM "users" WINDOW "a_window" AS (RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW)
}
end
end
describe "delete" do
it "copies from" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
stmt = manager.compile_delete
stmt.to_sql.must_be_like %{ DELETE FROM "users" }
end
it "copies where" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.where table[:id].eq 10
stmt = manager.compile_delete
stmt.to_sql.must_be_like %{
DELETE FROM "users" WHERE "users"."id" = 10
}
end
end
describe "where_sql" do
it "gives me back the where sql" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.where table[:id].eq 10
manager.where_sql.must_be_like %{ WHERE "users"."id" = 10 }
end
it "joins wheres with AND" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.where table[:id].eq 10
manager.where table[:id].eq 11
manager.where_sql.must_be_like %{ WHERE "users"."id" = 10 AND "users"."id" = 11}
end
it "handles database specific statements" do
old_visitor = Table.engine.connection.visitor
Table.engine.connection.visitor = Visitors::PostgreSQL.new Table.engine.connection
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.where table[:id].eq 10
manager.where table[:name].matches "foo%"
manager.where_sql.must_be_like %{ WHERE "users"."id" = 10 AND "users"."name" ILIKE 'foo%' }
Table.engine.connection.visitor = old_visitor
end
it "returns nil when there are no wheres" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.where_sql.must_be_nil
end
end
describe "update" do
it "creates an update statement" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
stmt = manager.compile_update({ table[:id] => 1 }, Arel::Attributes::Attribute.new(table, "id"))
stmt.to_sql.must_be_like %{
UPDATE "users" SET "id" = 1
}
end
it "takes a string" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
stmt = manager.compile_update(Nodes::SqlLiteral.new("foo = bar"), Arel::Attributes::Attribute.new(table, "id"))
stmt.to_sql.must_be_like %{ UPDATE "users" SET foo = bar }
end
it "copies limits" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.take 1
stmt = manager.compile_update(Nodes::SqlLiteral.new("foo = bar"), Arel::Attributes::Attribute.new(table, "id"))
stmt.key = table["id"]
stmt.to_sql.must_be_like %{
UPDATE "users" SET foo = bar
WHERE "users"."id" IN (SELECT "users"."id" FROM "users" LIMIT 1)
}
end
it "copies order" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.order :foo
stmt = manager.compile_update(Nodes::SqlLiteral.new("foo = bar"), Arel::Attributes::Attribute.new(table, "id"))
stmt.key = table["id"]
stmt.to_sql.must_be_like %{
UPDATE "users" SET foo = bar
WHERE "users"."id" IN (SELECT "users"."id" FROM "users" ORDER BY foo)
}
end
it "copies where clauses" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.where table[:id].eq 10
manager.from table
stmt = manager.compile_update({ table[:id] => 1 }, Arel::Attributes::Attribute.new(table, "id"))
stmt.to_sql.must_be_like %{
UPDATE "users" SET "id" = 1 WHERE "users"."id" = 10
}
end
it "copies where clauses when nesting is triggered" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.where table[:foo].eq 10
manager.take 42
manager.from table
stmt = manager.compile_update({ table[:id] => 1 }, Arel::Attributes::Attribute.new(table, "id"))
stmt.to_sql.must_be_like %{
UPDATE "users" SET "id" = 1 WHERE "users"."id" IN (SELECT "users"."id" FROM "users" WHERE "users"."foo" = 10 LIMIT 42)
}
end
end
describe "project" do
it "takes sql literals" do
manager = Arel::SelectManager.new
manager.project Nodes::SqlLiteral.new "*"
manager.to_sql.must_be_like %{ SELECT * }
end
it "takes multiple args" do
manager = Arel::SelectManager.new
manager.project Nodes::SqlLiteral.new("foo"),
Nodes::SqlLiteral.new("bar")
manager.to_sql.must_be_like %{ SELECT foo, bar }
end
it "takes strings" do
manager = Arel::SelectManager.new
manager.project "*"
manager.to_sql.must_be_like %{ SELECT * }
end
end
describe "projections" do
it "reads projections" do
manager = Arel::SelectManager.new
manager.project Arel.sql("foo"), Arel.sql("bar")
manager.projections.must_equal [Arel.sql("foo"), Arel.sql("bar")]
end
end
describe "projections=" do
it "overwrites projections" do
manager = Arel::SelectManager.new
manager.project Arel.sql("foo")
manager.projections = [Arel.sql("bar")]
manager.to_sql.must_be_like %{ SELECT bar }
end
end
describe "take" do
it "knows take" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from(table).project(table["id"])
manager.where(table["id"].eq(1))
manager.take 1
manager.to_sql.must_be_like %{
SELECT "users"."id"
FROM "users"
WHERE "users"."id" = 1
LIMIT 1
}
end
it "chains" do
manager = Arel::SelectManager.new
manager.take(1).must_equal manager
end
it "removes LIMIT when nil is passed" do
manager = Arel::SelectManager.new
manager.limit = 10
assert_match("LIMIT", manager.to_sql)
manager.limit = nil
assert_no_match("LIMIT", manager.to_sql)
end
end
describe "where" do
it "knows where" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from(table).project(table["id"])
manager.where(table["id"].eq(1))
manager.to_sql.must_be_like %{
SELECT "users"."id"
FROM "users"
WHERE "users"."id" = 1
}
end
it "chains" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from(table)
manager.project(table["id"]).where(table["id"].eq 1).must_equal manager
end
end
describe "from" do
it "makes sql" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from table
manager.project table["id"]
manager.to_sql.must_be_like 'SELECT "users"."id" FROM "users"'
end
it "chains" do
table = Table.new :users
manager = Arel::SelectManager.new
manager.from(table).project(table["id"]).must_equal manager
manager.to_sql.must_be_like 'SELECT "users"."id" FROM "users"'
end
end
describe "source" do
it "returns the join source of the select core" do
manager = Arel::SelectManager.new
manager.source.must_equal manager.ast.cores.last.source
end
end
describe "distinct" do
it "sets the quantifier" do
manager = Arel::SelectManager.new
manager.distinct
manager.ast.cores.last.set_quantifier.class.must_equal Arel::Nodes::Distinct
manager.distinct(false)
manager.ast.cores.last.set_quantifier.must_be_nil
end
it "chains" do
manager = Arel::SelectManager.new
manager.distinct.must_equal manager
manager.distinct(false).must_equal manager
end
end
describe "distinct_on" do
it "sets the quantifier" do
manager = Arel::SelectManager.new
table = Table.new :users
manager.distinct_on(table["id"])
manager.ast.cores.last.set_quantifier.must_equal Arel::Nodes::DistinctOn.new(table["id"])
manager.distinct_on(false)
manager.ast.cores.last.set_quantifier.must_be_nil
end
it "chains" do
manager = Arel::SelectManager.new
table = Table.new :users
manager.distinct_on(table["id"]).must_equal manager
manager.distinct_on(false).must_equal manager
end
end
end
end