# frozen_string_literal: true require_relative "../helper" require "bigdecimal" module Arel module Visitors describe "the to_sql visitor" do before do @conn = FakeRecord::Base.new @visitor = ToSql.new @conn.connection @table = Table.new(:users) @attr = @table[:id] end def compile(node) @visitor.accept(node, Collectors::SQLString.new).value end it "works with BindParams" do node = Nodes::BindParam.new(1) sql = compile node sql.must_be_like "?" end it "does not quote BindParams used as part of a ValuesList" do bp = Nodes::BindParam.new(1) values = Nodes::ValuesList.new([[bp]]) sql = compile values sql.must_be_like "VALUES (?)" end it "can define a dispatch method" do visited = false viz = Class.new(Arel::Visitors::Visitor) { define_method(:hello) do |node, c| visited = true end def dispatch { Arel::Table => "hello" } end }.new viz.accept(@table, Collectors::SQLString.new) assert visited, "hello method was called" end it "should not quote sql literals" do node = @table[Arel.star] sql = compile node sql.must_be_like '"users".*' end it "should visit named functions" do function = Nodes::NamedFunction.new("omg", [Arel.star]) assert_equal "omg(*)", compile(function) end it "should chain predications on named functions" do function = Nodes::NamedFunction.new("omg", [Arel.star]) sql = compile(function.eq(2)) sql.must_be_like %{ omg(*) = 2 } end it "should handle nil with named functions" do function = Nodes::NamedFunction.new("omg", [Arel.star]) sql = compile(function.eq(nil)) sql.must_be_like %{ omg(*) IS NULL } end it "should visit built-in functions" do function = Nodes::Count.new([Arel.star]) assert_equal "COUNT(*)", compile(function) function = Nodes::Sum.new([Arel.star]) assert_equal "SUM(*)", compile(function) function = Nodes::Max.new([Arel.star]) assert_equal "MAX(*)", compile(function) function = Nodes::Min.new([Arel.star]) assert_equal "MIN(*)", compile(function) function = Nodes::Avg.new([Arel.star]) assert_equal "AVG(*)", compile(function) end it "should visit built-in functions operating on distinct values" do function = Nodes::Count.new([Arel.star]) function.distinct = true assert_equal "COUNT(DISTINCT *)", compile(function) function = Nodes::Sum.new([Arel.star]) function.distinct = true assert_equal "SUM(DISTINCT *)", compile(function) function = Nodes::Max.new([Arel.star]) function.distinct = true assert_equal "MAX(DISTINCT *)", compile(function) function = Nodes::Min.new([Arel.star]) function.distinct = true assert_equal "MIN(DISTINCT *)", compile(function) function = Nodes::Avg.new([Arel.star]) function.distinct = true assert_equal "AVG(DISTINCT *)", compile(function) end it "works with lists" do function = Nodes::NamedFunction.new("omg", [Arel.star, Arel.star]) assert_equal "omg(*, *)", compile(function) end describe "Nodes::Equality" do it "should escape strings" do test = Table.new(:users)[:name].eq "Aaron Patterson" compile(test).must_be_like %{ "users"."name" = 'Aaron Patterson' } end it "should handle false" do table = Table.new(:users) val = Nodes.build_quoted(false, table[:active]) sql = compile Nodes::Equality.new(val, val) sql.must_be_like %{ 'f' = 'f' } end it "should handle nil" do sql = compile Nodes::Equality.new(@table[:name], nil) sql.must_be_like %{ "users"."name" IS NULL } end end describe "Nodes::Grouping" do it "wraps nested groupings in brackets only once" do sql = compile Nodes::Grouping.new(Nodes::Grouping.new(Nodes.build_quoted("foo"))) sql.must_equal "('foo')" end end describe "Nodes::NotEqual" do it "should handle false" do val = Nodes.build_quoted(false, @table[:active]) sql = compile Nodes::NotEqual.new(@table[:active], val) sql.must_be_like %{ "users"."active" != 'f' } end it "should handle nil" do val = Nodes.build_quoted(nil, @table[:active]) sql = compile Nodes::NotEqual.new(@table[:name], val) sql.must_be_like %{ "users"."name" IS NOT NULL } end end describe "Nodes::IsNotDistinctFrom" do it "should construct a valid generic SQL statement" do test = Table.new(:users)[:name].is_not_distinct_from "Aaron Patterson" compile(test).must_be_like %{ CASE WHEN "users"."name" = 'Aaron Patterson' OR ("users"."name" IS NULL AND 'Aaron Patterson' IS NULL) THEN 0 ELSE 1 END = 0 } end it "should handle column names on both sides" do test = Table.new(:users)[:first_name].is_not_distinct_from Table.new(:users)[:last_name] compile(test).must_be_like %{ CASE WHEN "users"."first_name" = "users"."last_name" OR ("users"."first_name" IS NULL AND "users"."last_name" IS NULL) THEN 0 ELSE 1 END = 0 } end it "should handle nil" do val = Nodes.build_quoted(nil, @table[:active]) sql = compile Nodes::IsNotDistinctFrom.new(@table[:name], val) sql.must_be_like %{ "users"."name" IS NULL } end end describe "Nodes::IsDistinctFrom" do it "should handle column names on both sides" do test = Table.new(:users)[:first_name].is_distinct_from Table.new(:users)[:last_name] compile(test).must_be_like %{ CASE WHEN "users"."first_name" = "users"."last_name" OR ("users"."first_name" IS NULL AND "users"."last_name" IS NULL) THEN 0 ELSE 1 END = 1 } end it "should handle nil" do val = Nodes.build_quoted(nil, @table[:active]) sql = compile Nodes::IsDistinctFrom.new(@table[:name], val) sql.must_be_like %{ "users"."name" IS NOT NULL } end end it "should visit string subclass" do [ Class.new(String).new(":'("), Class.new(Class.new(String)).new(":'("), ].each do |obj| val = Nodes.build_quoted(obj, @table[:active]) sql = compile Nodes::NotEqual.new(@table[:name], val) sql.must_be_like %{ "users"."name" != ':\\'(' } end end it "should visit_Class" do compile(Nodes.build_quoted(DateTime)).must_equal "'DateTime'" end it "should escape LIMIT" do sc = Arel::Nodes::SelectStatement.new sc.limit = Arel::Nodes::Limit.new(Nodes.build_quoted("omg")) assert_match(/LIMIT 'omg'/, compile(sc)) end it "should contain a single space before ORDER BY" do table = Table.new(:users) test = table.order(table[:name]) sql = compile test assert_match(/"users" ORDER BY/, sql) end it "should quote LIMIT without column type coercion" do table = Table.new(:users) sc = table.where(table[:name].eq(0)).take(1).ast assert_match(/WHERE "users"."name" = 0 LIMIT 1/, compile(sc)) end it "should visit_DateTime" do dt = DateTime.now table = Table.new(:users) test = table[:created_at].eq dt sql = compile test sql.must_be_like %{"users"."created_at" = '#{dt.strftime("%Y-%m-%d %H:%M:%S")}'} end it "should visit_Float" do test = Table.new(:products)[:price].eq 2.14 sql = compile test sql.must_be_like %{"products"."price" = 2.14} end it "should visit_Not" do sql = compile Nodes::Not.new(Arel.sql("foo")) sql.must_be_like "NOT (foo)" end it "should apply Not to the whole expression" do node = Nodes::And.new [@attr.eq(10), @attr.eq(11)] sql = compile Nodes::Not.new(node) sql.must_be_like %{NOT ("users"."id" = 10 AND "users"."id" = 11)} end it "should visit_As" do as = Nodes::As.new(Arel.sql("foo"), Arel.sql("bar")) sql = compile as sql.must_be_like "foo AS bar" end it "should visit_Integer" do compile 8787878092 end it "should visit_Hash" do compile(Nodes.build_quoted(a: 1)) end it "should visit_Set" do compile Nodes.build_quoted(Set.new([1, 2])) end it "should visit_BigDecimal" do compile Nodes.build_quoted(BigDecimal("2.14")) end it "should visit_Date" do dt = Date.today table = Table.new(:users) test = table[:created_at].eq dt sql = compile test sql.must_be_like %{"users"."created_at" = '#{dt.strftime("%Y-%m-%d")}'} end it "should visit_NilClass" do compile(Nodes.build_quoted(nil)).must_be_like "NULL" end it "unsupported input should raise UnsupportedVisitError" do error = assert_raises(UnsupportedVisitError) { compile(nil) } assert_match(/\AUnsupported/, error.message) end it "should visit_Arel_SelectManager, which is a subquery" do mgr = Table.new(:foo).project(:bar) compile(mgr).must_be_like '(SELECT bar FROM "foo")' end it "should visit_Arel_Nodes_And" do node = Nodes::And.new [@attr.eq(10), @attr.eq(11)] compile(node).must_be_like %{ "users"."id" = 10 AND "users"."id" = 11 } end it "should visit_Arel_Nodes_Or" do node = Nodes::Or.new @attr.eq(10), @attr.eq(11) compile(node).must_be_like %{ "users"."id" = 10 OR "users"."id" = 11 } end it "should visit_Arel_Nodes_Assignment" do column = @table["id"] node = Nodes::Assignment.new( Nodes::UnqualifiedColumn.new(column), Nodes::UnqualifiedColumn.new(column) ) compile(node).must_be_like %{ "id" = "id" } end it "should visit visit_Arel_Attributes_Time" do attr = Attributes::Time.new(@attr.relation, @attr.name) compile attr end it "should visit_TrueClass" do test = Table.new(:users)[:bool].eq(true) compile(test).must_be_like %{ "users"."bool" = 't' } end describe "Nodes::Matches" do it "should know how to visit" do node = @table[:name].matches("foo%") compile(node).must_be_like %{ "users"."name" LIKE 'foo%' } end it "can handle ESCAPE" do node = @table[:name].matches("foo!%", "!") compile(node).must_be_like %{ "users"."name" LIKE 'foo!%' ESCAPE '!' } end it "can handle subqueries" do subquery = @table.project(:id).where(@table[:name].matches("foo%")) node = @attr.in subquery compile(node).must_be_like %{ "users"."id" IN (SELECT id FROM "users" WHERE "users"."name" LIKE 'foo%') } end end describe "Nodes::DoesNotMatch" do it "should know how to visit" do node = @table[:name].does_not_match("foo%") compile(node).must_be_like %{ "users"."name" NOT LIKE 'foo%' } end it "can handle ESCAPE" do node = @table[:name].does_not_match("foo!%", "!") compile(node).must_be_like %{ "users"."name" NOT LIKE 'foo!%' ESCAPE '!' } end it "can handle subqueries" do subquery = @table.project(:id).where(@table[:name].does_not_match("foo%")) node = @attr.in subquery compile(node).must_be_like %{ "users"."id" IN (SELECT id FROM "users" WHERE "users"."name" NOT LIKE 'foo%') } end end describe "Nodes::Ordering" do it "should know how to visit" do node = @attr.desc compile(node).must_be_like %{ "users"."id" DESC } end end describe "Nodes::In" do it "should know how to visit" do node = @attr.in [1, 2, 3] compile(node).must_be_like %{ "users"."id" IN (1, 2, 3) } node = @attr.in [1, 2, 3, 4, 5] compile(node).must_be_like %{ ("users"."id" IN (1, 2, 3) OR "users"."id" IN (4, 5)) } end it "should return 1=0 when empty right which is always false" do node = @attr.in [] compile(node).must_equal "1=0" end it "can handle two dot ranges" do node = @attr.between 1..3 compile(node).must_be_like %{ "users"."id" BETWEEN 1 AND 3 } end it "can handle three dot ranges" do node = @attr.between 1...3 compile(node).must_be_like %{ "users"."id" >= 1 AND "users"."id" < 3 } end it "can handle ranges bounded by infinity" do node = @attr.between 1..Float::INFINITY compile(node).must_be_like %{ "users"."id" >= 1 } node = @attr.between(-Float::INFINITY..3) compile(node).must_be_like %{ "users"."id" <= 3 } node = @attr.between(-Float::INFINITY...3) compile(node).must_be_like %{ "users"."id" < 3 } node = @attr.between(-Float::INFINITY..Float::INFINITY) compile(node).must_be_like %{1=1} end it "can handle subqueries" do table = Table.new(:users) subquery = table.project(:id).where(table[:name].eq("Aaron")) node = @attr.in subquery compile(node).must_be_like %{ "users"."id" IN (SELECT id FROM "users" WHERE "users"."name" = 'Aaron') } end end describe "Nodes::InfixOperation" do it "should handle Multiplication" do node = Arel::Attributes::Decimal.new(Table.new(:products), :price) * Arel::Attributes::Decimal.new(Table.new(:currency_rates), :rate) compile(node).must_equal %("products"."price" * "currency_rates"."rate") end it "should handle Division" do node = Arel::Attributes::Decimal.new(Table.new(:products), :price) / 5 compile(node).must_equal %("products"."price" / 5) end it "should handle Addition" do node = Arel::Attributes::Decimal.new(Table.new(:products), :price) + 6 compile(node).must_equal %(("products"."price" + 6)) end it "should handle Subtraction" do node = Arel::Attributes::Decimal.new(Table.new(:products), :price) - 7 compile(node).must_equal %(("products"."price" - 7)) end it "should handle Concatenation" do table = Table.new(:users) node = table[:name].concat(table[:name]) compile(node).must_equal %("users"."name" || "users"."name") end it "should handle BitwiseAnd" do node = Arel::Attributes::Integer.new(Table.new(:products), :bitmap) & 16 compile(node).must_equal %(("products"."bitmap" & 16)) end it "should handle BitwiseOr" do node = Arel::Attributes::Integer.new(Table.new(:products), :bitmap) | 16 compile(node).must_equal %(("products"."bitmap" | 16)) end it "should handle BitwiseXor" do node = Arel::Attributes::Integer.new(Table.new(:products), :bitmap) ^ 16 compile(node).must_equal %(("products"."bitmap" ^ 16)) end it "should handle BitwiseShiftLeft" do node = Arel::Attributes::Integer.new(Table.new(:products), :bitmap) << 4 compile(node).must_equal %(("products"."bitmap" << 4)) end it "should handle BitwiseShiftRight" do node = Arel::Attributes::Integer.new(Table.new(:products), :bitmap) >> 4 compile(node).must_equal %(("products"."bitmap" >> 4)) end it "should handle arbitrary operators" do node = Arel::Nodes::InfixOperation.new( "&&", Arel::Attributes::String.new(Table.new(:products), :name), Arel::Attributes::String.new(Table.new(:products), :name) ) compile(node).must_equal %("products"."name" && "products"."name") end end describe "Nodes::UnaryOperation" do it "should handle BitwiseNot" do node = ~ Arel::Attributes::Integer.new(Table.new(:products), :bitmap) compile(node).must_equal %( ~ "products"."bitmap") end it "should handle arbitrary operators" do node = Arel::Nodes::UnaryOperation.new("!", Arel::Attributes::String.new(Table.new(:products), :active)) compile(node).must_equal %( ! "products"."active") end end describe "Nodes::Union" do it "squashes parenthesis on multiple unions" do subnode = Nodes::Union.new Arel.sql("left"), Arel.sql("right") node = Nodes::Union.new subnode, Arel.sql("topright") assert_equal("( left UNION right UNION topright )", compile(node)) subnode = Nodes::Union.new Arel.sql("left"), Arel.sql("right") node = Nodes::Union.new Arel.sql("topleft"), subnode assert_equal("( topleft UNION left UNION right )", compile(node)) end end describe "Nodes::UnionAll" do it "squashes parenthesis on multiple union alls" do subnode = Nodes::UnionAll.new Arel.sql("left"), Arel.sql("right") node = Nodes::UnionAll.new subnode, Arel.sql("topright") assert_equal("( left UNION ALL right UNION ALL topright )", compile(node)) subnode = Nodes::UnionAll.new Arel.sql("left"), Arel.sql("right") node = Nodes::UnionAll.new Arel.sql("topleft"), subnode assert_equal("( topleft UNION ALL left UNION ALL right )", compile(node)) end end describe "Nodes::NotIn" do it "should know how to visit" do node = @attr.not_in [1, 2, 3] compile(node).must_be_like %{ "users"."id" NOT IN (1, 2, 3) } node = @attr.not_in [1, 2, 3, 4, 5] compile(node).must_be_like %{ "users"."id" NOT IN (1, 2, 3) AND "users"."id" NOT IN (4, 5) } end it "should return 1=1 when empty right which is always true" do node = @attr.not_in [] compile(node).must_equal "1=1" end it "can handle two dot ranges" do node = @attr.not_between 1..3 compile(node).must_equal( %{("users"."id" < 1 OR "users"."id" > 3)} ) end it "can handle three dot ranges" do node = @attr.not_between 1...3 compile(node).must_equal( %{("users"."id" < 1 OR "users"."id" >= 3)} ) end it "can handle ranges bounded by infinity" do node = @attr.not_between 1..Float::INFINITY compile(node).must_be_like %{ "users"."id" < 1 } node = @attr.not_between(-Float::INFINITY..3) compile(node).must_be_like %{ "users"."id" > 3 } node = @attr.not_between(-Float::INFINITY...3) compile(node).must_be_like %{ "users"."id" >= 3 } node = @attr.not_between(-Float::INFINITY..Float::INFINITY) compile(node).must_be_like %{1=0} end it "can handle subqueries" do table = Table.new(:users) subquery = table.project(:id).where(table[:name].eq("Aaron")) node = @attr.not_in subquery compile(node).must_be_like %{ "users"."id" NOT IN (SELECT id FROM "users" WHERE "users"."name" = 'Aaron') } end end describe "Constants" do it "should handle true" do test = Table.new(:users).create_true compile(test).must_be_like %{ TRUE } end it "should handle false" do test = Table.new(:users).create_false compile(test).must_be_like %{ FALSE } end end describe "TableAlias" do it "should use the underlying table for checking columns" do test = Table.new(:users).alias("zomgusers")[:id].eq "3" compile(test).must_be_like %{ "zomgusers"."id" = '3' } end end describe "distinct on" do it "raises not implemented error" do core = Arel::Nodes::SelectCore.new core.set_quantifier = Arel::Nodes::DistinctOn.new(Arel.sql("aaron")) assert_raises(NotImplementedError) do compile(core) end end end describe "Nodes::Regexp" do it "raises not implemented error" do node = Arel::Nodes::Regexp.new(@table[:name], Nodes.build_quoted("foo%")) assert_raises(NotImplementedError) do compile(node) end end end describe "Nodes::NotRegexp" do it "raises not implemented error" do node = Arel::Nodes::NotRegexp.new(@table[:name], Nodes.build_quoted("foo%")) assert_raises(NotImplementedError) do compile(node) end end end describe "Nodes::Case" do it "supports simple case expressions" do node = Arel::Nodes::Case.new(@table[:name]) .when("foo").then(1) .else(0) compile(node).must_be_like %{ CASE "users"."name" WHEN 'foo' THEN 1 ELSE 0 END } end it "supports extended case expressions" do node = Arel::Nodes::Case.new .when(@table[:name].in(%w(foo bar))).then(1) .else(0) compile(node).must_be_like %{ CASE WHEN "users"."name" IN ('foo', 'bar') THEN 1 ELSE 0 END } end it "works without default branch" do node = Arel::Nodes::Case.new(@table[:name]) .when("foo").then(1) compile(node).must_be_like %{ CASE "users"."name" WHEN 'foo' THEN 1 END } end it "allows chaining multiple conditions" do node = Arel::Nodes::Case.new(@table[:name]) .when("foo").then(1) .when("bar").then(2) .else(0) compile(node).must_be_like %{ CASE "users"."name" WHEN 'foo' THEN 1 WHEN 'bar' THEN 2 ELSE 0 END } end it "supports #when with two arguments and no #then" do node = Arel::Nodes::Case.new @table[:name] { foo: 1, bar: 0 }.reduce(node) { |_node, pair| _node.when(*pair) } compile(node).must_be_like %{ CASE "users"."name" WHEN 'foo' THEN 1 WHEN 'bar' THEN 0 END } end it "can be chained as a predicate" do node = @table[:name].when("foo").then("bar").else("baz") compile(node).must_be_like %{ CASE "users"."name" WHEN 'foo' THEN 'bar' ELSE 'baz' END } end end end end end