- add-column
- add-indexclj/s≠
- alter-tableclj/s≠
- bulk-collect-intoclj/s≠
- columns
- composite
- create-extensionclj/s≠
- create-materialized-viewclj/s≠
- create-tableclj/s≠
- create-table-asclj/s≠
- create-viewclj/s≠
- cross-join
- deleteclj/s≠
- delete-fromclj/s≠
- do-nothingclj/s≠
- do-update-setclj/s≠
- drop-columnclj/s≠
- drop-extension
- drop-index
- drop-materialized-view
- drop-table
- drop-view
- except
- except-all
- fetchclj/s≠
- filterclj/s≠
- forclj/s≠
- from
- full-join
- group-by
- having
- inner-join
- insert-intoclj/s≠
- intersect
- intoclj/s≠
- join
- join-by
- lateralclj/s≠
- left-join
- limitclj/s≠
- lockclj/s≠
- modify-column
- offsetclj/s≠
- on-conflictclj/s≠
- on-constraintclj/s≠
- on-duplicate-key-updateclj/s≠
- order-by
- outer-join
- over
- partition-by
- refresh-materialized-viewclj/s≠
- rename-columnclj/s≠
- rename-tableclj/s≠
- returning
- right-join
- select
- select-distinct
- select-distinct-onclj/s≠
- select-distinct-top
- select-top
- setclj/s≠
- truncateclj/s≠
- union
- union-all
- updateclj/s≠
- upsert
- using
- valuesclj/s≠
- where
- window
- with
- with-columnsclj/s≠
- with-dataclj/s≠
- with-recursive
- within-groupclj/s≠
honey.sql.helpers
Helper functions for the built-in clauses in honey.sql.
All helper functions are inherently variadic. Typical usage is threaded, like this:
(-> (select :a :b :c)
(from :table)
(where [:= :id 42])
(sql/format))
Therefore all helpers can take an existing DSL expression as their first argument or, if the first argument is not a hash map, an empty DSL is assumed -- an empty hash map. The above is therefore equivalent to:
(-> {}
(select :a :b :c)
(from :table)
(where [:= :id 42])
(sql/format))
Some of the helper functions here have :arglists metadata
in an attempt to provide better hints for auto-complete in
editors but those :arglists always omit the DSL argument
to avoid duplicating the various argument lists. When you
see an auto-complete suggestion like:
bulk-collect-into [varname] [varname n]
bear in mind that a DSL hash map can always be threaded in so the following (pseudo) arities are also available:
bulk-collect-into [dsl varname] [dsl varname n]
The actual arguments are:
bulk-collect-info [& args]
(as they are for all helper functions).
Helper functions for the built-in clauses in honey.sql.
All helper functions are inherently variadic. Typical
usage is threaded, like this:
```
(-> (select :a :b :c)
(from :table)
(where [:= :id 42])
(sql/format))
```
Therefore all helpers can take an existing DSL expression
as their first argument or, if the first argument is not
a hash map, an empty DSL is assumed -- an empty hash map.
The above is therefore equivalent to:
```
(-> {}
(select :a :b :c)
(from :table)
(where [:= :id 42])
(sql/format))
```
Some of the helper functions here have `:arglists` metadata
in an attempt to provide better hints for auto-complete in
editors but those `:arglists` _always omit the DSL argument_
to avoid duplicating the various argument lists. When you
see an auto-complete suggestion like:
bulk-collect-into [varname] [varname n]
bear in mind that a DSL hash map can always be threaded in
so the following (pseudo) arities are also available:
bulk-collect-into [dsl varname] [dsl varname n]
The actual arguments are:
bulk-collect-info [& args]
(as they are for all helper functions).add-columnclj/s
(add-column & col-elems)Add a single column to a table (see alter-table).
Accepts any number of SQL elements that describe a column:
(add-column :name [:varchar 32] [:not nil])
Add a single column to a table (see `alter-table`). Accepts any number of SQL elements that describe a column: (add-column :name [:varchar 32] [:not nil])
add-indexclj/s≠
(add-index & index-elems)(add-index & args)Like add-column, this accepts any number of SQL elements that describe a new index to be added:
(add-index :unique :name-key :first-name :last-name)
Produces: UNIQUE name_key(first_name, last_name)
Like add-column, this accepts any number of SQL elements that describe a new index to be added: (add-index :unique :name-key :first-name :last-name) Produces: UNIQUE name_key(first_name, last_name)
alter-tableclj/s≠
(alter-table table & clauses)(alter-table & args)Alter table takes a SQL entity (the name of the table to modify) and any number of optional SQL clauses to be applied in a single statement.
(alter-table :foo (add-column :id :int nil))
If only the SQL entity is provided, the result needs to be combined with another SQL clause to modify the table.
(-> (alter-table :foo) (add-column :id :int nil))
Alter table takes a SQL entity (the name of the table to modify) and any number of optional SQL clauses to be applied in a single statement. (alter-table :foo (add-column :id :int nil)) If only the SQL entity is provided, the result needs to be combined with another SQL clause to modify the table. (-> (alter-table :foo) (add-column :id :int nil))
bulk-collect-intoclj/s≠
(bulk-collect-into varname)(bulk-collect-into varname n)(bulk-collect-into & args)Accepts a variable name, optionally followed by a limit expression.
Accepts a variable name, optionally followed by a limit expression.
columnsclj/s
(columns & cols)To be used with insert-into to specify the list of
column names for the insert operation. Accepts any number
of column names:
(-> (insert-into :foo) (columns :a :b :c) (values [[1 2 3] [2 4 6]]))
Produces: INSERT INTO foo (a, b, c) VALUES (?, ?, ?), (?, ?, ?) Parameters: 1 2 3 2 4 6
To be used with `insert-into` to specify the list of
column names for the insert operation. Accepts any number
of column names:
(-> (insert-into :foo)
(columns :a :b :c)
(values [[1 2 3] [2 4 6]]))
Produces:
INSERT INTO foo (a, b, c) VALUES (?, ?, ?), (?, ?, ?)
Parameters: 1 2 3 2 4 6compositeclj/s
(composite & args)Accepts any number of SQL expressions and produces a composite value from them:
(composite :a 42)
Produces: (a, ?) Parameters: 42
Accepts any number of SQL expressions and produces a composite value from them: (composite :a 42) Produces: (a, ?) Parameters: 42
create-extensionclj/s≠
(create-extension extension)(create-extension extension if-not-exists)(create-extension & args)Accepts an extension name to create and optionally a flag to trigger IF NOT EXISTS in the SQL:
(create-extension :postgis) (create-extension :postgis :if-not-exists)
Accepts an extension name to create and optionally a flag to trigger IF NOT EXISTS in the SQL: (create-extension :postgis) (create-extension :postgis :if-not-exists)
create-materialized-viewclj/s≠
(create-materialized-view view)(create-materialized-view & args)Accepts a single view name to create.
(-> (create-materialized-view :cities) (select :*) (from :city)) (with-data true)
Accepts a single view name to create.
(-> (create-materialized-view :cities)
(select :*) (from :city))
(with-data true)create-tableclj/s≠
(create-table table)(create-table table if-not-exists)(create-table & args)Accepts a table name to create and optionally a flag to trigger IF NOT EXISTS in the SQL:
(create-table :foo) (create-table :foo :if-not-exists)
Accepts a table name to create and optionally a flag to trigger IF NOT EXISTS in the SQL: (create-table :foo) (create-table :foo :if-not-exists)
create-table-asclj/s≠
(create-table-as table)(create-table-as table if-not-exists)(create-table-as & args)Accepts a table name to create and optionally a flag to trigger IF NOT EXISTS in the SQL:
(create-table-as :foo) (create-table-as :foo :if-not-exists)
Accepts a table name to create and optionally a flag to trigger IF NOT EXISTS in the SQL: (create-table-as :foo) (create-table-as :foo :if-not-exists)
create-viewclj/s≠
(create-view view)(create-view & args)Accepts a single view name to create.
(-> (create-view :cities) (select :*) (from :city))
Accepts a single view name to create.
(-> (create-view :cities)
(select :*) (from :city))cross-joinclj/s
(cross-join & args)Accepts one or more CROSS JOIN expressions. Each cross join expression is specified as a table name (or a pair of table and alias):
(cross-join :table) (cross-join [:table :t])
Produces: CROSS JOIN table CROSS JOIN table AS t
Accepts one or more CROSS JOIN expressions. Each cross join expression is specified as a table name (or a pair of table and alias): (cross-join :table) (cross-join [:table :t]) Produces: CROSS JOIN table CROSS JOIN table AS t
deleteclj/s≠
(delete table-coll)(delete & args)For deleting from multiple tables. Accepts a collection of table names to delete from.
(-> (delete [:films :directors]) (where [:= :id 1]))
For deleting from multiple tables. Accepts a collection of table names to delete from. (-> (delete [:films :directors]) (where [:= :id 1]))
delete-fromclj/s≠
(delete-from table)(delete-from & args)For deleting from a single table. Accepts a single table name to delete from.
(-> (delete-from :films) (where [:= :id 1]))
For deleting from a single table. Accepts a single table name to delete from. (-> (delete-from :films) (where [:= :id 1]))
do-nothingclj/s≠
(do-nothing)(do-nothing & args)Called with no arguments, produces DO NOTHING
Called with no arguments, produces DO NOTHING
do-update-setclj/s≠
(do-update-set field-where-map)(do-update-set column-value-map)(do-update-set column* opt-where-clause)(do-update-set & args)Accepts one or more columns to update, or a hash map
of column/value pairs (like set), optionally followed
by a WHERE clause. Can also accept a single hash map
with a :fields entry specifying the columns to update
and a :where entry specifying the WHERE clause.
Accepts one or more columns to update, or a hash map of column/value pairs (like `set`), optionally followed by a `WHERE` clause. Can also accept a single hash map with a `:fields` entry specifying the columns to update and a `:where` entry specifying the `WHERE` clause.
drop-columnclj/s≠
(drop-column col)(drop-column & args)Takes a single column name (use with alter-table).
(alter-table :foo (drop-column :bar))
Takes a single column name (use with `alter-table`). (alter-table :foo (drop-column :bar))
drop-extensionclj/s
(drop-extension & extensions)Accepts one or more extension names to drop.
Accepts one or more extension names to drop.
drop-indexclj/s
(drop-index & args)Like drop-table, accepts a single index name:
(drop-index :name-key)
Like drop-table, accepts a single index name: (drop-index :name-key)
drop-materialized-viewclj/s
(drop-materialized-view & views)Accepts one or more materialied view names to drop.
Accepts one or more materialied view names to drop.
drop-tableclj/s
(drop-table & tables)Accepts one or more table names to drop.
(drop-table :foo)
Accepts one or more table names to drop. (drop-table :foo)
drop-viewclj/s
(drop-view & views)Accepts one or more view names to drop.
Accepts one or more view names to drop.
exceptclj/s
(except & clauses)Accepts any number of SQL clauses (queries) on which to perform a set except.
Accepts any number of SQL clauses (queries) on which to perform a set except.
except-allclj/s
(except-all & clauses)Accepts any number of SQL clauses (queries) on which to perform a set except all.
Accepts any number of SQL clauses (queries) on which to perform a set except all.
fetchclj/s≠
(fetch limit)(fetch & args)Accepts a single SQL expression:
(fetch 10)
Produces: FETCH ? ONLY Parameters: 10
Accepts a single SQL expression: (fetch 10) Produces: FETCH ? ONLY Parameters: 10
filterclj/s≠
(filter expr1 clause1 & more)(filter & args)Accepts alternating expressions and clauses and produces a FILTER expression:
(filter :%count.* (where :> i 5))
Produces: COUNT(*) FILTER (WHERE i > ?) Parameters: 5
Accepts alternating expressions and clauses and produces a FILTER expression: (filter :%count.* (where :> i 5)) Produces: COUNT(*) FILTER (WHERE i > ?) Parameters: 5
forclj/s≠
(for lock-strength table* qualifier*)(for & args)Accepts a lock strength, optionally followed by one or more table names, optionally followed by a qualifier.
Accepts a lock strength, optionally followed by one or more table names, optionally followed by a qualifier.
fromclj/s
(from & tables)Accepts one or more table names, or table/alias pairs.
(-> (select :*) (from [:foo :bar]))
Produces: SELECT * FROM foo AS bar
Accepts one or more table names, or table/alias pairs.
(-> (select :*)
(from [:foo :bar]))
Produces: SELECT * FROM foo AS barfull-joinclj/s
(full-join & args)Accepts one or more FULL JOIN expressions. Each join expression is specified as a pair of arguments, where the first one is the table name (or a pair of table and alias) and the second one is the join condition:
(full-join :table [:= :foo.id :table.foo_id]) (full-join [:table :t] [:= :foo.id :t.foo_id])
Produces: FULL JOIN table ON foo.id = table.foo_id FULL JOIN table AS t ON foo.id = t.foo_id
Accepts one or more FULL JOIN expressions. Each join expression is specified as a pair of arguments, where the first one is the table name (or a pair of table and alias) and the second one is the join condition: (full-join :table [:= :foo.id :table.foo_id]) (full-join [:table :t] [:= :foo.id :t.foo_id]) Produces: FULL JOIN table ON foo.id = table.foo_id FULL JOIN table AS t ON foo.id = t.foo_id
group-byclj/s
(group-by & args)Accepts one or more SQL expressions to group by.
(group-by :foo :bar) (group-by [:date :baz])
Produces: GROUP BY foo, bar GROUP BY DATE(baz)
Accepts one or more SQL expressions to group by. (group-by :foo :bar) (group-by [:date :baz]) Produces: GROUP BY foo, bar GROUP BY DATE(baz)
havingclj/s
(having & exprs)Like where, accepts one or more SQL expressions
(conditions) and combines them with AND (by default):
(having [:> :count 0] [:<> :name nil]) or: (having :and [:> :count 0] [:<> :name nil])
Produces: HAVING (count > ?) AND (name IS NOT NULL) Parameters: 0
(having :> :count 0)
Produces: HAVING count > ? Parameters: 0
(having :or [:> :count 0] [:= :name ""])
Produces: HAVING (count > ?) OR (name = ?) Parameters: 0 ""
Like `where`, accepts one or more SQL expressions (conditions) and combines them with AND (by default): (having [:> :count 0] [:<> :name nil]) or: (having :and [:> :count 0] [:<> :name nil]) Produces: HAVING (count > ?) AND (name IS NOT NULL) Parameters: 0 (having :> :count 0) Produces: HAVING count > ? Parameters: 0 (having :or [:> :count 0] [:= :name ""]) Produces: HAVING (count > ?) OR (name = ?) Parameters: 0 ""
inner-joinclj/s
(inner-join & args)An alternative name to join, this accepts one or
more INNER JOIN expressions. Each join expression
is specified as a pair of arguments, where the
first one is the table name (or a pair of table
and alias) and the second one is the join condition:
(inner-join :table [:= :foo.id :table.foo_id]) (inner-join [:table :t] [:= :foo.id :t.foo_id])
Produces: INNER JOIN table ON foo.id = table.foo_id INNER JOIN table AS t ON foo.id = t.foo_id
An alternative name to `join`, this accepts one or more INNER JOIN expressions. Each join expression is specified as a pair of arguments, where the first one is the table name (or a pair of table and alias) and the second one is the join condition: (inner-join :table [:= :foo.id :table.foo_id]) (inner-join [:table :t] [:= :foo.id :t.foo_id]) Produces: INNER JOIN table ON foo.id = table.foo_id INNER JOIN table AS t ON foo.id = t.foo_id
insert-intoclj/s≠
(insert-into table)(insert-into table cols)(insert-into table statement)(insert-into table cols statement)(insert-into & args)Accepts a table name or a table/alias pair. That can optionally be followed by a collection of column names. That can optionally be followed by a (select) statement clause.
(insert-into :table) (insert-into [:table :t]) (insert-into :table [:id :name :cost]) (insert-into :table (-> (select :) (from :other))) (insert-into [:table :t] [:id :name :cost] (-> (select :) (from :other)))
Accepts a table name or a table/alias pair. That
can optionally be followed by a collection of
column names. That can optionally be followed by
a (select) statement clause.
(insert-into :table)
(insert-into [:table :t])
(insert-into :table [:id :name :cost])
(insert-into :table (-> (select :*) (from :other)))
(insert-into [:table :t]
[:id :name :cost]
(-> (select :*) (from :other)))intersectclj/s
(intersect & clauses)Accepts any number of SQL clauses (queries) on which to perform a set intersection.
Accepts any number of SQL clauses (queries) on which to perform a set intersection.
intoclj/s≠
(into table)(into table dbname)(into & args)Accepts table name, optionally followed a database name.
Accepts table name, optionally followed a database name.
joinclj/s
(join & args)Accepts one or more (INNER) JOIN expressions. Each join expression is specified as a pair of arguments, where the first one is the table name (or a pair of table and alias) and the second one is the join condition:
(join :table [:= :foo.id :table.foo_id]) (join [:table :t] [:= :foo.id :t.foo_id])
Produces: INNER JOIN table ON foo.id = table.foo_id INNER JOIN table AS t ON foo.id = t.foo_id
Accepts one or more (INNER) JOIN expressions. Each join expression is specified as a pair of arguments, where the first one is the table name (or a pair of table and alias) and the second one is the join condition: (join :table [:= :foo.id :table.foo_id]) (join [:table :t] [:= :foo.id :t.foo_id]) Produces: INNER JOIN table ON foo.id = table.foo_id INNER JOIN table AS t ON foo.id = t.foo_id
join-byclj/s
(join-by & args)Accepts a sequence of join clauses to be generated in a specific order.
(-> (select :*) (from :foo) (join-by :left [:bar [:= :foo.id :bar.id]] :join [:quux [:= :bar.qid :quux.id]]))
This produces a LEFT JOIN followed by an INNER JOIN
even though the 'natural' order for left-join and
join would be to generate the INNER JOIN first,
followed by the LEFT JOIN.
Accepts a sequence of join clauses to be generated
in a specific order.
(-> (select :*)
(from :foo)
(join-by :left [:bar [:= :foo.id :bar.id]]
:join [:quux [:= :bar.qid :quux.id]]))
This produces a LEFT JOIN followed by an INNER JOIN
even though the 'natural' order for `left-join` and
`join` would be to generate the INNER JOIN first,
followed by the LEFT JOIN.lateralclj/s≠
(lateral clause-or-expression)(lateral & args)Accepts a SQL clause or a SQL expression:
(lateral (-> (select '*) (from 'foo))) (lateral '(calc_value bar))
Produces: LATERAL (SELECT * FROM foo) LATERAL CALC_VALUE(bar)
Accepts a SQL clause or a SQL expression: (lateral (-> (select '*) (from 'foo))) (lateral '(calc_value bar)) Produces: LATERAL (SELECT * FROM foo) LATERAL CALC_VALUE(bar)
left-joinclj/s
(left-join & args)Accepts one or more LEFT JOIN expressions. Each join expression is specified as a pair of arguments, where the first one is the table name (or a pair of table and alias) and the second one is the join condition:
(left-join :table [:= :foo.id :table.foo_id]) (left-join [:table :t] [:= :foo.id :t.foo_id])
Produces: LEFT JOIN table ON foo.id = table.foo_id LEFT JOIN table AS t ON foo.id = t.foo_id
Accepts one or more LEFT JOIN expressions. Each join expression is specified as a pair of arguments, where the first one is the table name (or a pair of table and alias) and the second one is the join condition: (left-join :table [:= :foo.id :table.foo_id]) (left-join [:table :t] [:= :foo.id :t.foo_id]) Produces: LEFT JOIN table ON foo.id = table.foo_id LEFT JOIN table AS t ON foo.id = t.foo_id
limitclj/s≠
(limit limit)(limit & args)Specific to some databases (notabley MySQL), accepts a single SQL expression:
(limit 40)
Produces: LIMIT ? Parameters: 40
The two-argument syntax is not supported: use offset
instead:
LIMIT 20,10 is equivalent to LIMIT 10 OFFSET 20
(-> (limit 10) (offset 20))
Specific to some databases (notabley MySQL), accepts a single SQL expression: (limit 40) Produces: LIMIT ? Parameters: 40 The two-argument syntax is not supported: use `offset` instead: `LIMIT 20,10` is equivalent to `LIMIT 10 OFFSET 20` (-> (limit 10) (offset 20))
lockclj/s≠
(lock lock-mode)(lock & args)Intended for MySQL, this accepts a lock mode.
It will accept the same type of syntax as for even
though MySQL's lock clause is less powerful.
Intended for MySQL, this accepts a lock mode. It will accept the same type of syntax as `for` even though MySQL's `lock` clause is less powerful.
modify-columnclj/s
(modify-column & col-elems)Like add-column, accepts any number of SQL elements that describe the new column definition:
(modify-column :name [:varchar 64] [:not nil])
Like add-column, accepts any number of SQL elements that describe the new column definition: (modify-column :name [:varchar 64] [:not nil])
offsetclj/s≠
(offset offset)(offset & args)Accepts a single SQL expression:
(offset 10)
Produces: OFFSET ? Parameters: 10
Accepts a single SQL expression: (offset 10) Produces: OFFSET ? Parameters: 10
on-conflictclj/s≠
(on-conflict column* where-clause)(on-conflict & args)Accepts zero or more SQL entities (keywords or symbols), optionally followed by a single SQL clause (hash map).
Accepts zero or more SQL entities (keywords or symbols), optionally followed by a single SQL clause (hash map).
on-constraintclj/s≠
(on-constraint constraint)(on-constraint & args)Accepts a single constraint name.
Accepts a single constraint name.
on-duplicate-key-updateclj/s≠
(on-duplicate-key-update column-value-map)(on-duplicate-key-update & args)MySQL's upsert facility. Accepts a hash map of
column/value pairs to be updated (like set does).
MySQL's upsert facility. Accepts a hash map of column/value pairs to be updated (like `set` does).
order-byclj/s
(order-by & args)Accepts one or more expressions to order by.
An ordering expression may be a simple column name
which is assumed to be ordered ASC, or a pair of
an expression and a direction (:asc or :desc):
(order-by :foo) (order-by [:bar :desc]) (order-by [[:date :baz] :asc])
Produces: ORDER BY foo ASC ORDER BY bar DESC ORDER BY DATE(baz) ASC
Accepts one or more expressions to order by. An ordering expression may be a simple column name which is assumed to be ordered `ASC`, or a pair of an expression and a direction (`:asc` or `:desc`): (order-by :foo) (order-by [:bar :desc]) (order-by [[:date :baz] :asc]) Produces: ORDER BY foo ASC ORDER BY bar DESC ORDER BY DATE(baz) ASC
outer-joinclj/s
(outer-join & args)Accepts one or more OUTER JOIN expressions. Each join expression is specified as a pair of arguments, where the first one is the table name (or a pair of table and alias) and the second one is the join condition:
(outer-join :table [:= :foo.id :table.foo_id]) (outer-join [:table :t] [:= :foo.id :t.foo_id])
Produces: OUTER JOIN table ON foo.id = table.foo_id OUTER JOIN table AS t ON foo.id = t.foo_id
Accepts one or more OUTER JOIN expressions. Each join expression is specified as a pair of arguments, where the first one is the table name (or a pair of table and alias) and the second one is the join condition: (outer-join :table [:= :foo.id :table.foo_id]) (outer-join [:table :t] [:= :foo.id :t.foo_id]) Produces: OUTER JOIN table ON foo.id = table.foo_id OUTER JOIN table AS t ON foo.id = t.foo_id
overclj/s
(over & args)Accepts any number of OVER clauses, each of which is a pair of an aggregate function and a window function or a triple of an aggregate function, a window function, and an alias:
(select :id (over [[:avg :salary] (partition-by :department)]))
Produces: SELECT id, AVG(salary) OVER ()PARTITION BY department)
Accepts any number of OVER clauses, each of which is a pair of an aggregate function and a window function or a triple of an aggregate function, a window function, and an alias: (select :id (over [[:avg :salary] (partition-by :department)])) Produces: SELECT id, AVG(salary) OVER ()PARTITION BY department)
partition-byclj/s
(partition-by & args)Accepts one or more columns or SQL expressions to
partition by as part of a WINDOW expression.
Accepts one or more columns or SQL expressions to partition by as part of a `WINDOW` expression.
refresh-materialized-viewclj/s≠
(refresh-materialized-view view)(refresh-materialized-view & views)Accepts a materialied view name to refresh.
Accepts a materialied view name to refresh.
rename-columnclj/s≠
(rename-column old-col new-col)(rename-column & args)Accepts two column names: the original name and the new name to which it should be renamed:
(rename-column :name :full-name)
Accepts two column names: the original name and the new name to which it should be renamed: (rename-column :name :full-name)
rename-tableclj/s≠
(rename-table new-table)(rename-table & args)Accepts a single table name and, despite its name, actually means RENAME TO:
(alter-table :foo (rename-table :bar))
Produces: ALTER TABLE foo RENAME TO bar
Accepts a single table name and, despite its name, actually means RENAME TO: (alter-table :foo (rename-table :bar)) Produces: ALTER TABLE foo RENAME TO bar
returningclj/s
(returning & cols)Accepts any number of column names to return from an insert operation:
(returning :*)
Produces: RETURNING *
Accepts any number of column names to return from an insert operation: (returning :*) Produces: RETURNING *
right-joinclj/s
(right-join & args)Accepts one or more RIGHT JOIN expressions. Each join expression is specified as a pair of arguments, where the first one is the table name (or a pair of table and alias) and the second one is the join condition:
(right-join :table [:= :foo.id :table.foo_id]) (right-join [:table :t] [:= :foo.id :t.foo_id])
Produces: RIGHT JOIN table ON foo.id = table.foo_id RIGHT JOIN table AS t ON foo.id = t.foo_id
Accepts one or more RIGHT JOIN expressions. Each join expression is specified as a pair of arguments, where the first one is the table name (or a pair of table and alias) and the second one is the join condition: (right-join :table [:= :foo.id :table.foo_id]) (right-join [:table :t] [:= :foo.id :t.foo_id]) Produces: RIGHT JOIN table ON foo.id = table.foo_id RIGHT JOIN table AS t ON foo.id = t.foo_id
selectclj/s
(select & exprs)Accepts any number of column names, or column/alias pairs, or SQL expressions (optionally aliased):
(select :id [:foo :bar] [[:max :quux]])
Produces: SELECT id, foo AS bar, MAX(quux)
The special column name :* produces * for 'all columns'. You can also specify :t.* for 'all columns' from the table (or alias) t.
Accepts any number of column names, or column/alias pairs, or SQL expressions (optionally aliased): (select :id [:foo :bar] [[:max :quux]]) Produces: SELECT id, foo AS bar, MAX(quux) The special column name :* produces * for 'all columns'. You can also specify :t.* for 'all columns' from the table (or alias) t.
select-distinctclj/s
(select-distinct & args)Like select but produces SELECT DISTINCT.
Like `select` but produces SELECT DISTINCT.
select-distinct-onclj/s≠
(select-distinct-on distinct-cols & exprs)(select-distinct-on & args)Accepts a sequence of one or more columns for the
distinct clause, followed by any number of column
names, or column/alias pairs, or SQL expressions
(optionally aliased), as for select:
(select-distinct-on [:a :b] :c [:d :dd])
Produces: SELECT DISTINCT ON(a, b) c, d AS dd
Accepts a sequence of one or more columns for the distinct clause, followed by any number of column names, or column/alias pairs, or SQL expressions (optionally aliased), as for `select`: (select-distinct-on [:a :b] :c [:d :dd]) Produces: SELECT DISTINCT ON(a, b) c, d AS dd
select-distinct-topclj/s
(select-distinct-top & args)Like select-top but produces SELECT DISTINCT TOP...
Like `select-top` but produces SELECT DISTINCT TOP...
select-topclj/s
(select-top & args)Accepts a TOP expression, followed by any number of
column names, or column/alias pairs, or SQL expressions
(optionally aliased), as for select. The TOP expression
can be a simple numeric expression, or a sequence with
a numeric expression followed by keywords (or symbols)
for PERCENT and/or WITH TIES.
Accepts a TOP expression, followed by any number of column names, or column/alias pairs, or SQL expressions (optionally aliased), as for `select`. The TOP expression can be a simple numeric expression, or a sequence with a numeric expression followed by keywords (or symbols) for PERCENT and/or WITH TIES.
setclj/s≠
(set col-set-map)(set & args)Accepts a hash map specifying column names and the
values to be assigned to them, as part of update:
(-> (update :foo) (set {:a 1 :b nil}))
Produces: UPDATE foo SET a = ?, b = NULL
Accepts a hash map specifying column names and the
values to be assigned to them, as part of `update`:
(-> (update :foo)
(set {:a 1 :b nil}))
Produces: UPDATE foo SET a = ?, b = NULLtruncateclj/s≠
(truncate table)(truncate & args)Accepts a single table name to truncate.
Accepts a single table name to truncate.
unionclj/s
(union & clauses)Accepts any number of SQL clauses (queries) on which to perform a set union.
Accepts any number of SQL clauses (queries) on which to perform a set union.
union-allclj/s
(union-all & clauses)Accepts any number of SQL clauses (queries) on which to perform a set union all.
Accepts any number of SQL clauses (queries) on which to perform a set union all.
updateclj/s≠
(update table)(update & args)Accepts either a table name or a table/alias pair.
(-> (update :table) (set {:id 1 :cost 32.1}))
Accepts either a table name or a table/alias pair.
(-> (update :table) (set {:id 1 :cost 32.1}))upsertclj/s
(upsert clause)(upsert data clause)Provided purely to ease migration from nilenso/honeysql-postgres this accepts a single clause, constructed from on-conflict, do-nothing or do-update-set, and where. Any of those are optional.
This helper unpacks that clause and turns it into what HoneySQL
2.x expects, with any where clause being an argument to the
do-update-set helper, along with the :fields.
nilenso/honeysql-postgres:
(-> ... (upsert (-> (on-conflict :col) do-nothing))) (-> ... (upsert (-> (on-conflict :col) (do-update-set :x) (where [:<> :x nil]))))
HoneySQL 2.x:
(-> ... (on-conflict :col) do-nothing) (-> ... (on-conflict :col) (do-update-set {:fields [:x] :where [:<> :x nil]}))
Alternative structure for that second one:
(-> ... (on-conflict :col) (do-update-set :x {:where [:<> :x nil]}))
Provided purely to ease migration from nilenso/honeysql-postgres
this accepts a single clause, constructed from on-conflict,
do-nothing or do-update-set, and where. Any of those are optional.
This helper unpacks that clause and turns it into what HoneySQL
2.x expects, with any where clause being an argument to the
do-update-set helper, along with the `:fields`.
nilenso/honeysql-postgres:
(-> ...
(upsert (-> (on-conflict :col)
do-nothing)))
(-> ...
(upsert (-> (on-conflict :col)
(do-update-set :x)
(where [:<> :x nil]))))
HoneySQL 2.x:
(-> ...
(on-conflict :col)
do-nothing)
(-> ...
(on-conflict :col)
(do-update-set {:fields [:x]
:where [:<> :x nil]}))
Alternative structure for that second one:
(-> ...
(on-conflict :col)
(do-update-set :x {:where [:<> :x nil]}))usingclj/s
(using & args)Accepts similar arguments to select as part of
a SQL USING clause.
Accepts similar arguments to `select` as part of a SQL `USING` clause.
valuesclj/s≠
(values row-value-coll)(values & args)Accepts a single argument: a collection of row values. Each row value can be either a sequence of column values or a hash map of column name/column value pairs.
Used with insert-into.
(-> (insert-into :foo) (values [{:id 1, :name "John"} {:id 2, :name "Fred"}]))
Produces: INSERT INTO foo (id, name) VALUES (?, ?), (?, ?) Parameters: 1 "John" 2 "Fred"
Accepts a single argument: a collection of row values.
Each row value can be either a sequence of column values
or a hash map of column name/column value pairs.
Used with `insert-into`.
(-> (insert-into :foo)
(values [{:id 1, :name "John"}
{:id 2, :name "Fred"}]))
Produces: INSERT INTO foo (id, name) VALUES (?, ?), (?, ?)
Parameters: 1 "John" 2 "Fred"whereclj/s
(where & exprs)Accepts one or more SQL expressions (conditions) and combines them with AND (by default):
(where [:= :status 0] [:<> :task "backup"]) or: (where :and [:= :status 0] [:<> :task "backup"])
Produces: WHERE (status = ?) AND (task <> ?) Parameters: 0 "backup"
For a single expression, the brackets can be omitted:
(where := :status 0) ; same as (where [:= :status 0])
With multiple expressions, the conjunction may be specified as a leading symbol:
(where :or [:= :status 0] [:= :task "stop"])
Produces: WHERE (status = 0) OR (task = ?) Parameters: 0 "stop"
Accepts one or more SQL expressions (conditions) and combines them with AND (by default): (where [:= :status 0] [:<> :task "backup"]) or: (where :and [:= :status 0] [:<> :task "backup"]) Produces: WHERE (status = ?) AND (task <> ?) Parameters: 0 "backup" For a single expression, the brackets can be omitted: (where := :status 0) ; same as (where [:= :status 0]) With multiple expressions, the conjunction may be specified as a leading symbol: (where :or [:= :status 0] [:= :task "stop"]) Produces: WHERE (status = 0) OR (task = ?) Parameters: 0 "stop"
windowclj/s
(window & args)Accepts a window name followed by a partition by clause.
Accepts a window name followed by a partition by clause.
withclj/s
(with & args)Accepts one or more CTE definitions.
See the documentation for the :with clause.
Accepts one or more CTE definitions. See the documentation for the `:with` clause.
with-columnsclj/s≠
(with-columns col-spec-coll)(with-columns & col-specs)(with-columns & args)Accepts any number of column descriptions. Each column description is a sequence of SQL elements that specify the name and the attributes.
(with-columns [:id :int [:not nil]] [:name [:varchar 32] [:default ""]])
Produces: id INT NOT NULL, name VARCHAR(32) DEFAULT ''
Can also accept a single argument which is a collection of column descriptions (mostly for compatibility with nilenso/honeysql-postgres which used to be needed for DDL).
Accepts any number of column descriptions. Each
column description is a sequence of SQL elements
that specify the name and the attributes.
(with-columns [:id :int [:not nil]]
[:name [:varchar 32] [:default ""]])
Produces:
id INT NOT NULL,
name VARCHAR(32) DEFAULT ''
Can also accept a single argument which is a
collection of column descriptions (mostly for
compatibility with nilenso/honeysql-postgres
which used to be needed for DDL).with-dataclj/s≠
(with-data data?)(with-data & args)Accepts a Boolean determining WITH DATA vs WITH NO DATA.
Accepts a Boolean determining WITH DATA vs WITH NO DATA.
with-recursiveclj/s
(with-recursive & args)Accepts one or more CTE definitions.
See the documentation for the :with clause.
Accepts one or more CTE definitions. See the documentation for the `:with` clause.
within-groupclj/s≠
(within-group expr1 clause1 & more)(within-group & args)Accepts alternating expressions and clauses and produces a WITHIN GROUP expression:
(within-group :%count.* (where :> i 5))
Produces: COUNT(*) WITHIN GROUP (WHERE i > ?) Parameters: 5
Accepts alternating expressions and clauses and produces a WITHIN GROUP expression: (within-group :%count.* (where :> i 5)) Produces: COUNT(*) WITHIN GROUP (WHERE i > ?) Parameters: 5
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