require "cases/helper"
class ActiveRecord::Relation
class WhereClauseTest < ActiveRecord::TestCase
test "+ combines two where clauses" do
first_clause = WhereClause.new([table["id"].eq(bind_param)], [["id", 1]])
second_clause = WhereClause.new([table["name"].eq(bind_param)], [["name", "Sean"]])
combined = WhereClause.new(
[table["id"].eq(bind_param), table["name"].eq(bind_param)],
[["id", 1], ["name", "Sean"]],
)
assert_equal combined, first_clause + second_clause
end
test "+ is associative, but not commutative" do
a = WhereClause.new(["a"], ["bind a"])
b = WhereClause.new(["b"], ["bind b"])
c = WhereClause.new(["c"], ["bind c"])
assert_equal a + (b + c), (a + b) + c
assert_not_equal a + b, b + a
end
test "an empty where clause is the identity value for +" do
clause = WhereClause.new([table["id"].eq(bind_param)], [["id", 1]])
assert_equal clause, clause + WhereClause.empty
end
test "merge combines two where clauses" do
a = WhereClause.new([table["id"].eq(1)], [])
b = WhereClause.new([table["name"].eq("Sean")], [])
expected = WhereClause.new([table["id"].eq(1), table["name"].eq("Sean")], [])
assert_equal expected, a.merge(b)
end
test "merge keeps the right side, when two equality clauses reference the same column" do
a = WhereClause.new([table["id"].eq(1), table["name"].eq("Sean")], [])
b = WhereClause.new([table["name"].eq("Jim")], [])
expected = WhereClause.new([table["id"].eq(1), table["name"].eq("Jim")], [])
assert_equal expected, a.merge(b)
end
test "merge removes bind parameters matching overlapping equality clauses" do
a = WhereClause.new(
[table["id"].eq(bind_param), table["name"].eq(bind_param)],
[attribute("id", 1), attribute("name", "Sean")],
)
b = WhereClause.new(
[table["name"].eq(bind_param)],
[attribute("name", "Jim")]
)
expected = WhereClause.new(
[table["id"].eq(bind_param), table["name"].eq(bind_param)],
[attribute("id", 1), attribute("name", "Jim")],
)
assert_equal expected, a.merge(b)
end
test "merge allows for columns with the same name from different tables" do
skip "This is not possible as of 4.2, and the binds do not yet contain sufficient information for this to happen"
# We might be able to change the implementation to remove conflicts by index, rather than column name
end
test "a clause knows if it is empty" do
assert WhereClause.empty.empty?
assert_not WhereClause.new(["anything"], []).empty?
end
test "invert cannot handle nil" do
where_clause = WhereClause.new([nil], [])
assert_raises ArgumentError do
where_clause.invert
end
end
test "invert replaces each part of the predicate with its inverse" do
random_object = Object.new
original = WhereClause.new([
table["id"].in([1, 2, 3]),
table["id"].eq(1),
"sql literal",
random_object
], [])
expected = WhereClause.new([
table["id"].not_in([1, 2, 3]),
table["id"].not_eq(1),
Arel::Nodes::Not.new(Arel::Nodes::SqlLiteral.new("sql literal")),
Arel::Nodes::Not.new(random_object)
], [])
assert_equal expected, original.invert
end
test "accept removes binary predicates referencing a given column" do
where_clause = WhereClause.new([
table["id"].in([1, 2, 3]),
table["name"].eq(bind_param),
table["age"].gteq(bind_param),
], [
attribute("name", "Sean"),
attribute("age", 30),
])
expected = WhereClause.new([table["age"].gteq(bind_param)], [attribute("age", 30)])
assert_equal expected, where_clause.except("id", "name")
end
test "ast groups its predicates with AND" do
predicates = [
table["id"].in([1, 2, 3]),
table["name"].eq(bind_param),
]
where_clause = WhereClause.new(predicates, [])
expected = Arel::Nodes::And.new(predicates)
assert_equal expected, where_clause.ast
end
test "ast wraps any SQL literals in parenthesis" do
random_object = Object.new
where_clause = WhereClause.new([
table["id"].in([1, 2, 3]),
"foo = bar",
random_object,
], [])
expected = Arel::Nodes::And.new([
table["id"].in([1, 2, 3]),
Arel::Nodes::Grouping.new(Arel.sql("foo = bar")),
Arel::Nodes::Grouping.new(random_object),
])
assert_equal expected, where_clause.ast
end
test "ast removes any empty strings" do
where_clause = WhereClause.new([table["id"].in([1, 2, 3])], [])
where_clause_with_empty = WhereClause.new([table["id"].in([1, 2, 3]), ""], [])
assert_equal where_clause.ast, where_clause_with_empty.ast
end
test "or joins the two clauses using OR" do
where_clause = WhereClause.new([table["id"].eq(bind_param)], [attribute("id", 1)])
other_clause = WhereClause.new([table["name"].eq(bind_param)], [attribute("name", "Sean")])
expected_ast =
Arel::Nodes::Grouping.new(
Arel::Nodes::Or.new(table["id"].eq(bind_param), table["name"].eq(bind_param))
)
expected_binds = where_clause.binds + other_clause.binds
assert_equal expected_ast.to_sql, where_clause.or(other_clause).ast.to_sql
assert_equal expected_binds, where_clause.or(other_clause).binds
end
test "or returns an empty where clause when either side is empty" do
where_clause = WhereClause.new([table["id"].eq(bind_param)], [attribute("id", 1)])
assert_equal WhereClause.empty, where_clause.or(WhereClause.empty)
assert_equal WhereClause.empty, WhereClause.empty.or(where_clause)
end
private
def table
Arel::Table.new("table")
end
def bind_param
Arel::Nodes::BindParam.new
end
def attribute(name, value)
ActiveRecord::Attribute.with_cast_value(name, value, ActiveRecord::Type::Value.new)
end
end
end