Module: Sequel::SQL::Builders
- Included in:
- Sequel
- Defined in:
- lib/sequel/sql.rb,
lib/sequel/extensions/pg_row.rb,
lib/sequel/extensions/pg_json.rb,
lib/sequel/extensions/pg_array.rb,
lib/sequel/extensions/pg_range.rb,
lib/sequel/extensions/pg_hstore.rb,
lib/sequel/extensions/pg_row_ops.rb,
lib/sequel/extensions/pg_json_ops.rb,
lib/sequel/extensions/pg_array_ops.rb,
lib/sequel/extensions/pg_range_ops.rb,
lib/sequel/extensions/pg_hstore_ops.rb,
lib/sequel/extensions/date_arithmetic.rb
Overview
These methods are designed as replacements for the core extensions, so that Sequel is still easy to use if the core extensions are not enabled.
Instance Method Summary collapse
-
#as(exp, aliaz, columns = nil) ⇒ Object
Create an SQL::AliasedExpression for the given expression and alias.
-
#asc(arg, opts = OPTS) ⇒ Object
Order the given argument ascending.
-
#blob(s) ⇒ Object
Return an
SQL::Blob
that holds the same data as this string. -
#case(*args) ⇒ Object
Return an
SQL::CaseExpression
created with the given arguments. -
#cast(arg, sql_type) ⇒ Object
Cast the reciever to the given SQL type.
-
#cast_numeric(arg, sql_type = nil) ⇒ Object
Cast the reciever to the given SQL type (or the database’s default Integer type if none given), and return the result as a
NumericExpression
, so you can use the bitwise operators on the result. -
#cast_string(arg, sql_type = nil) ⇒ Object
Cast the reciever to the given SQL type (or the database’s default String type if none given), and return the result as a
StringExpression
, so you can use + directly on the result for SQL string concatenation. -
#char_length(arg) ⇒ Object
Return an emulated function call for getting the number of characters in the argument:.
-
#date_add(expr, interval) ⇒ Object
Return a DateAdd expression, adding an interval to the date/timestamp expr.
-
#date_sub(expr, interval) ⇒ Object
Return a DateAdd expression, adding the negative of the interval to the date/timestamp expr.
-
#deep_qualify(qualifier, expr) ⇒ Object
Do a deep qualification of the argument using the qualifier.
-
#delay(&block) ⇒ Object
Return a delayed evaluation that uses the passed block.
-
#desc(arg, opts = OPTS) ⇒ Object
Order the given argument descending.
-
#expr(arg = (no_arg=true), &block) ⇒ Object
Wraps the given object in an appropriate Sequel wrapper.
-
#extract(datetime_part, exp) ⇒ Object
Extract a datetime_part (e.g. year, month) from the given expression:.
-
#function(name, *args) ⇒ Object
Returns a
Sequel::SQL::Function
with the function name and the given arguments. -
#hstore(v) ⇒ Object
Return a Postgres::HStore proxy for the given hash.
-
#hstore_op(v) ⇒ Object
Return the object wrapped in an Postgres::HStoreOp.
-
#identifier(name) ⇒ Object
Return the argument wrapped as an
SQL::Identifier
. -
#ilike(*args) ⇒ Object
Create a
BooleanExpression
case insensitive (if the database supports it) pattern match of the receiver with the given patterns. -
#join(args, joiner = nil) ⇒ Object
Return a
Sequel::SQL::StringExpression
representing an SQL string made up of the concatenation of the given array’s elements. -
#like(*args) ⇒ Object
Create a
SQL::BooleanExpression
case sensitive (if the database supports it) pattern match of the receiver with the given patterns. -
#lit(s, *args) ⇒ Object
Converts a string into a
Sequel::LiteralString
, in order to override string literalization, e.g.:. -
#negate(arg) ⇒ Object
Return a
Sequel::SQL::BooleanExpression
created from the condition specifier, matching none of the conditions. -
#or(arg) ⇒ Object
Return a
Sequel::SQL::BooleanExpression
created from the condition specifier, matching any of the conditions. -
#pg_array(v, array_type = nil) ⇒ Object
Return a Postgres::PGArray proxy for the given array and database array type.
-
#pg_array_op(v) ⇒ Object
Return the object wrapped in an Postgres::ArrayOp.
-
#pg_json(v) ⇒ Object
Wrap the array or hash in a Postgres::JSONArray or Postgres::JSONHash.
-
#pg_json_op(v) ⇒ Object
Return the object wrapped in an Postgres::JSONOp.
-
#pg_jsonb(v) ⇒ Object
Wrap the array or hash in a Postgres::JSONArray or Postgres::JSONHash.
-
#pg_jsonb_op(v) ⇒ Object
Return the object wrapped in an Postgres::JSONBOp.
-
#pg_range(v, db_type = nil) ⇒ Object
Convert the object to a Postgres::PGRange.
-
#pg_range_op(v) ⇒ Object
Return the expression wrapped in the Postgres::RangeOp.
-
#pg_row(expr) ⇒ Object
Wraps the expr array in an anonymous Postgres::PGRow::ArrayRow instance.
-
#pg_row_op(expr) ⇒ Object
Return a PGRowOp wrapping the given expression.
-
#qualify(qualifier, identifier) ⇒ Object
Create a qualified identifier with the given qualifier and identifier.
-
#subscript(exp, *subs) ⇒ Object
Return an
SQL::Subscript
with the given arguments, representing an SQL array access. -
#trim(arg) ⇒ Object
Return an emulated function call for trimming a string of spaces from both sides (similar to ruby’s String#strip).
-
#value_list(arg) ⇒ Object
Return a
SQL::ValueList
created from the given array.
Instance Method Details
#as(exp, aliaz, columns = nil) ⇒ Object
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# File 'lib/sequel/sql.rb', line 325 def as(exp, aliaz, columns=nil) SQL::AliasedExpression.new(exp, aliaz, columns) end |
#asc(arg, opts = OPTS) ⇒ Object
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# File 'lib/sequel/sql.rb', line 338 def asc(arg, opts=OPTS) SQL::OrderedExpression.new(arg, false, opts) end |
#blob(s) ⇒ Object
Return an SQL::Blob
that holds the same data as this string. Blobs provide proper escaping of binary data. If given a blob, returns it directly.
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# File 'lib/sequel/sql.rb', line 345 def blob(s) if s.is_a?(SQL::Blob) s else SQL::Blob.new(s) end end |
#case(*args) ⇒ Object
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# File 'lib/sequel/sql.rb', line 357 def case(*args) # core_sql ignore SQL::CaseExpression.new(*args) end |
#cast(arg, sql_type) ⇒ Object
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# File 'lib/sequel/sql.rb', line 366 def cast(arg, sql_type) SQL::Cast.new(arg, sql_type) end |
#cast_numeric(arg, sql_type = nil) ⇒ Object
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# File 'lib/sequel/sql.rb', line 376 def cast_numeric(arg, sql_type = nil) cast(arg, sql_type || Integer).sql_number end |
#cast_string(arg, sql_type = nil) ⇒ Object
Cast the reciever to the given SQL type (or the database’s default String type if none given), and return the result as a StringExpression
, so you can use + directly on the result for SQL string concatenation.
Sequel.cast_string(:a) # CAST(a AS varchar(255))
Sequel.cast_string(:a, :text) # CAST(a AS text)
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# File 'lib/sequel/sql.rb', line 386 def cast_string(arg, sql_type = nil) cast(arg, sql_type || String).sql_string end |
#char_length(arg) ⇒ Object
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# File 'lib/sequel/sql.rb', line 395 def char_length(arg) SQL::Function.new!(:char_length, [arg], :emulate=>true) end |
#date_add(expr, interval) ⇒ Object
Return a DateAdd expression, adding an interval to the date/timestamp expr.
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# File 'lib/sequel/extensions/date_arithmetic.rb', line 32 def date_add(expr, interval) DateAdd.new(expr, interval) end |
#date_sub(expr, interval) ⇒ Object
Return a DateAdd expression, adding the negative of the interval to the date/timestamp expr.
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# File 'lib/sequel/extensions/date_arithmetic.rb', line 38 def date_sub(expr, interval) interval = if interval.is_a?(Hash) h = {} interval.each{|k,v| h[k] = -v unless v.nil?} h else -interval end DateAdd.new(expr, interval) end |
#deep_qualify(qualifier, expr) ⇒ Object
Do a deep qualification of the argument using the qualifier. This recurses into nested structures.
Sequel.deep_qualify(:table, :column) # "table"."column"
Sequel.deep_qualify(:table, Sequel.+(:column, 1)) # "table"."column" + 1
Sequel.deep_qualify(:table, Sequel.like(:a, 'b')) # "table"."a" LIKE 'b' ESCAPE '\'
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# File 'lib/sequel/sql.rb', line 405 def deep_qualify(qualifier, expr) Sequel::Qualifier.new(Sequel, qualifier).transform(expr) end |
#delay(&block) ⇒ Object
Return a delayed evaluation that uses the passed block. This is used to delay evaluations of the code to runtime. For example, with the following code:
ds = DB[:table].where{column > Time.now}
The filter is fixed to the time that where was called. Unless you are only using the dataset once immediately after creating it, that’s probably not desired. If you just want to set it to the time when the query is sent to the database, you can wrap it in Sequel.delay:
ds = DB[:table].where{column > Sequel.delay{Time.now}}
Note that for dates and timestamps, you are probably better off using Sequel::CURRENT_DATE and Sequel::CURRENT_TIMESTAMP instead of this generic delayed evaluation facility.
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# File 'lib/sequel/sql.rb', line 425 def delay(&block) raise(Error, "Sequel.delay requires a block") unless block SQL::DelayedEvaluation.new(block) end |
#desc(arg, opts = OPTS) ⇒ Object
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# File 'lib/sequel/sql.rb', line 439 def desc(arg, opts=OPTS) SQL::OrderedExpression.new(arg, true, opts) end |
#expr(arg = (no_arg=true), &block) ⇒ Object
Wraps the given object in an appropriate Sequel wrapper. If the given object is already a Sequel object, return it directly. For condition specifiers (hashes and arrays of two pairs), true, and false, return a boolean expressions. For numeric objects, return a numeric expression. For strings, return a string expression. For procs or when the method is passed a block, evaluate it as a virtual row and wrap it appropriately. In all other cases, use a generic wrapper.
This method allows you to construct SQL expressions that are difficult to construct via other methods. For example:
Sequel.expr(1) - :a # SQL: (1 - a)
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# File 'lib/sequel/sql.rb', line 455 def expr(arg=(no_arg=true), &block) if block_given? if no_arg return expr(block) else raise Error, 'cannot provide both an argument and a block to Sequel.expr' end elsif no_arg raise Error, 'must provide either an argument or a block to Sequel.expr' end case arg when Symbol t, c, a = Sequel.split_symbol(arg) arg = if t SQL::QualifiedIdentifier.new(t, c) else SQL::Identifier.new(c) end if a arg = SQL::AliasedExpression.new(arg, a) end arg when SQL::Expression, LiteralString, SQL::Blob arg when Hash SQL::BooleanExpression.from_value_pairs(arg, :AND) when Array if condition_specifier?(arg) SQL::BooleanExpression.from_value_pairs(arg, :AND) else SQL::Wrapper.new(arg) end when Numeric SQL::NumericExpression.new(:NOOP, arg) when String SQL::StringExpression.new(:NOOP, arg) when TrueClass, FalseClass SQL::BooleanExpression.new(:NOOP, arg) when Proc expr(virtual_row(&arg)) else SQL::Wrapper.new(arg) end end |
#extract(datetime_part, exp) ⇒ Object
Extract a datetime_part (e.g. year, month) from the given expression:
Sequel.extract(:year, :date) # extract(year FROM "date")
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# File 'lib/sequel/sql.rb', line 508 def extract(datetime_part, exp) SQL::NumericExpression.new(:extract, datetime_part, exp) end |
#function(name, *args) ⇒ Object
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# File 'lib/sequel/sql.rb', line 517 def function(name, *args) SQL::Function.new(name, *args) end |
#hstore(v) ⇒ Object
Return a Postgres::HStore proxy for the given hash.
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# File 'lib/sequel/extensions/pg_hstore.rb', line 317 def hstore(v) case v when Postgres::HStore v when Hash Postgres::HStore.new(v) else # May not be defined unless the pg_hstore_ops extension is used hstore_op(v) end end |
#hstore_op(v) ⇒ Object
Return the object wrapped in an Postgres::HStoreOp.
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# File 'lib/sequel/extensions/pg_hstore_ops.rb', line 316 def hstore_op(v) case v when Postgres::HStoreOp v else Postgres::HStoreOp.new(v) end end |
#identifier(name) ⇒ Object
Return the argument wrapped as an SQL::Identifier
.
Sequel.identifier(:a__b) # "a__b"
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# File 'lib/sequel/sql.rb', line 524 def identifier(name) SQL::Identifier.new(name) end |
#ilike(*args) ⇒ Object
Create a BooleanExpression
case insensitive (if the database supports it) pattern match of the receiver with the given patterns. See SQL::StringExpression.like
.
Sequel.ilike(:a, 'A%') # "a" ILIKE 'A%' ESCAPE '\'
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# File 'lib/sequel/sql.rb', line 561 def ilike(*args) SQL::StringExpression.like(*(args << {:case_insensitive=>true})) end |
#join(args, joiner = nil) ⇒ Object
Return a Sequel::SQL::StringExpression
representing an SQL string made up of the concatenation of the given array’s elements. If an argument is passed, it is used in between each element of the array in the SQL concatenation.
Sequel.join([:a]) # SQL: a
Sequel.join([:a, :b]) # SQL: a || b
Sequel.join([:a, 'b']) # SQL: a || 'b'
Sequel.join(['a', :b], ' ') # SQL: 'a' || ' ' || b
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# File 'lib/sequel/sql.rb', line 537 def join(args, joiner=nil) raise Error, 'argument to Sequel.join must be an array' unless args.is_a?(Array) if joiner args = args.zip([joiner]*args.length).flatten args.pop end return SQL::StringExpression.new(:NOOP, '') if args.empty? args = args.map do |a| case a when Symbol, ::Sequel::SQL::Expression, ::Sequel::LiteralString, TrueClass, FalseClass, NilClass a else a.to_s end end SQL::StringExpression.new(:'||', *args) end |
#like(*args) ⇒ Object
Create a SQL::BooleanExpression
case sensitive (if the database supports it) pattern match of the receiver with the given patterns. See SQL::StringExpression.like
.
Sequel.like(:a, 'A%') # "a" LIKE 'A%' ESCAPE '\'
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# File 'lib/sequel/sql.rb', line 569 def like(*args) SQL::StringExpression.like(*args) end |
#lit(s, *args) ⇒ Object
Converts a string into a Sequel::LiteralString
, in order to override string literalization, e.g.:
DB[:items].filter(:abc => 'def').sql #=>
"SELECT * FROM items WHERE (abc = 'def')"
DB[:items].filter(:abc => Sequel.lit('def')).sql #=>
"SELECT * FROM items WHERE (abc = def)"
You can also provide arguments, to create a Sequel::SQL::PlaceholderLiteralString
:
DB[:items].select{|o| o.count(Sequel.lit('DISTINCT ?', :a))}.sql #=>
"SELECT count(DISTINCT a) FROM items"
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# File 'lib/sequel/sql.rb', line 586 def lit(s, *args) # core_sql ignore if args.empty? if s.is_a?(LiteralString) s else LiteralString.new(s) end else SQL::PlaceholderLiteralString.new(s, args) end end |
#negate(arg) ⇒ Object
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# File 'lib/sequel/sql.rb', line 604 def negate(arg) if condition_specifier?(arg) SQL::BooleanExpression.from_value_pairs(arg, :AND, true) else raise Error, 'must pass a conditions specifier to Sequel.negate' end end |
#or(arg) ⇒ Object
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# File 'lib/sequel/sql.rb', line 618 def or(arg) if condition_specifier?(arg) SQL::BooleanExpression.from_value_pairs(arg, :OR, false) else raise Error, 'must pass a conditions specifier to Sequel.or' end end |
#pg_array(v, array_type = nil) ⇒ Object
Return a Postgres::PGArray proxy for the given array and database array type.
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# File 'lib/sequel/extensions/pg_array.rb', line 564 def pg_array(v, array_type=nil) case v when Postgres::PGArray if array_type.nil? || v.array_type == array_type v else Postgres::PGArray.new(v.to_a, array_type) end when Array Postgres::PGArray.new(v, array_type) else # May not be defined unless the pg_array_ops extension is used pg_array_op(v) end end |
#pg_array_op(v) ⇒ Object
Return the object wrapped in an Postgres::ArrayOp.
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# File 'lib/sequel/extensions/pg_array_ops.rb', line 291 def pg_array_op(v) case v when Postgres::ArrayOp v else Postgres::ArrayOp.new(v) end end |
#pg_json(v) ⇒ Object
Wrap the array or hash in a Postgres::JSONArray or Postgres::JSONHash.
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# File 'lib/sequel/extensions/pg_json.rb', line 268 def pg_json(v) case v when Postgres::JSONArray, Postgres::JSONHash v when Array Postgres::JSONArray.new(v) when Hash Postgres::JSONHash.new(v) when Postgres::JSONBArray Postgres::JSONArray.new(v.to_a) when Postgres::JSONBHash Postgres::JSONHash.new(v.to_hash) else Sequel.pg_json_op(v) end end |
#pg_json_op(v) ⇒ Object
Return the object wrapped in an Postgres::JSONOp.
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# File 'lib/sequel/extensions/pg_json_ops.rb', line 391 def pg_json_op(v) case v when Postgres::JSONOp v else Postgres::JSONOp.new(v) end end |
#pg_jsonb(v) ⇒ Object
Wrap the array or hash in a Postgres::JSONArray or Postgres::JSONHash.
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# File 'lib/sequel/extensions/pg_json.rb', line 286 def pg_jsonb(v) case v when Postgres::JSONBArray, Postgres::JSONBHash v when Array Postgres::JSONBArray.new(v) when Hash Postgres::JSONBHash.new(v) when Postgres::JSONArray Postgres::JSONBArray.new(v.to_a) when Postgres::JSONHash Postgres::JSONBHash.new(v.to_hash) else Sequel.pg_json_op(v) end end |
#pg_jsonb_op(v) ⇒ Object
Return the object wrapped in an Postgres::JSONBOp.
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# File 'lib/sequel/extensions/pg_json_ops.rb', line 401 def pg_jsonb_op(v) case v when Postgres::JSONBOp v else Postgres::JSONBOp.new(v) end end |
#pg_range(v, db_type = nil) ⇒ Object
Convert the object to a Postgres::PGRange.
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# File 'lib/sequel/extensions/pg_range.rb', line 506 def pg_range(v, db_type=nil) case v when Postgres::PGRange if db_type.nil? || v.db_type == db_type v else Postgres::PGRange.new(v.begin, v.end, :exclude_begin=>v.exclude_begin?, :exclude_end=>v.exclude_end?, :db_type=>db_type) end when Range Postgres::PGRange.from_range(v, db_type) else # May not be defined unless the pg_range_ops extension is used pg_range_op(v) end end |
#pg_range_op(v) ⇒ Object
Return the expression wrapped in the Postgres::RangeOp.
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# File 'lib/sequel/extensions/pg_range_ops.rb', line 129 def pg_range_op(v) case v when Postgres::RangeOp v else Postgres::RangeOp.new(v) end end |
#pg_row(expr) ⇒ Object
Wraps the expr array in an anonymous Postgres::PGRow::ArrayRow instance.
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# File 'lib/sequel/extensions/pg_row.rb', line 582 def pg_row(expr) case expr when Array Postgres::PGRow::ArrayRow.new(expr) else # Will only work if pg_row_ops extension is loaded pg_row_op(expr) end end |
#pg_row_op(expr) ⇒ Object
Return a PGRowOp wrapping the given expression.
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# File 'lib/sequel/extensions/pg_row_ops.rb', line 166 def pg_row_op(expr) Postgres::PGRowOp.wrap(expr) end |
#qualify(qualifier, identifier) ⇒ Object
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# File 'lib/sequel/sql.rb', line 631 def qualify(qualifier, identifier) SQL::QualifiedIdentifier.new(qualifier, identifier) end |
#subscript(exp, *subs) ⇒ Object
Return an SQL::Subscript
with the given arguments, representing an SQL array access.
Sequel.subscript(:array, 1) # array[1]
Sequel.subscript(:array, 1, 2) # array[1, 2]
Sequel.subscript(:array, [1, 2]) # array[1, 2]
Sequel.subscript(:array, 1..2) # array[1:2]
Sequel.subscript(:array, 1...3) # array[1:2]
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# File 'lib/sequel/sql.rb', line 643 def subscript(exp, *subs) SQL::Subscript.new(exp, subs.flatten) end |
#trim(arg) ⇒ Object
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# File 'lib/sequel/sql.rb', line 652 def trim(arg) SQL::Function.new!(:trim, [arg], :emulate=>true) end |
#value_list(arg) ⇒ Object
Return a SQL::ValueList
created from the given array. Used if the array contains all two element arrays and you want it treated as an SQL value list (IN predicate) instead of as a conditions specifier (similar to a hash). This is not necessary if you are using this array as a value in a filter, but may be necessary if you are using it as a value with placeholder SQL:
DB[:a].filter([:a, :b]=>[[1, 2], [3, 4]]) # SQL: (a, b) IN ((1, 2), (3, 4))
DB[:a].filter('(a, b) IN ?', [[1, 2], [3, 4]]) # SQL: (a, b) IN ((1 = 2) AND (3 = 4))
DB[:a].filter('(a, b) IN ?', Sequel.value_list([[1, 2], [3, 4]])) # SQL: (a, b) IN ((1, 2), (3, 4))
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# File 'lib/sequel/sql.rb', line 665 def value_list(arg) raise Error, 'argument to Sequel.value_list must be an array' unless arg.is_a?(Array) SQL::ValueList.new(arg) end |