This section provides more details about specific behavior in HoneySQL and how to generate certain SQL constructs.
HoneySQL treats keywords and symbols as SQL entities (in any context other
than function call position in a sequence). If quoting is in effect,
either because :dialect
was specified as an option to format
or
because :quoted true
was specified, the literal name of an unqualified,
single-segment keyword or symbol is used as-is and quoted:
(require '[honey.sql :as sql])
(sql/format {:select :foo-bar} {:quoted true})
;;=> ["SELECT \"foo-bar\""]
(sql/format {:select :foo-bar} {:dialect :mysql})
;;=> ["SELECT `foo-bar`"]
If quoting is not in effect, any dashes (-
) in the name will be converted to underscores (_
):
(sql/format {:select :foo-bar})
;;=> ["SELECT foo_bar"]
(sql/format {:select :foo-bar} {:dialect :mysql :quoted false})
;;=> ["SELECT foo_bar"]
If a keyword or symbol contains a dot (.
), it will be split apart
and treated as a table (or alias) name and a column name:
(sql/format {:select :foo-bar.baz-quux} {:quoted true})
;;=> ["SELECT \"foo-bar\".\"baz-quux\""]
(sql/format {:select :foo-bar.baz-quux} {:dialect :mysql})
;;=> ["SELECT `foo-bar`.`baz-quux`"]
(sql/format {:select :foo-bar.baz-quux})
;;=> ["SELECT foo_bar.baz_quux"]
(sql/format {:select :foo-bar.baz-quux} {:dialect :mysql :quoted false})
;;=> ["SELECT foo_bar.baz_quux"]
A qualified keyword or symbol, will also be split apart, but dashes (-
)
in the namespace portion will be converted to underscores (_
) even
when quoting is in effect:
(sql/format {:select :foo-bar/baz-quux} {:quoted true})
;;=> ["SELECT \"foo_bar\".\"baz-quux\""] ; _ in table, - in column
(sql/format {:select :foo-bar/baz-quux} {:dialect :mysql})
;;=> ["SELECT `foo_bar`.`baz-quux`"] ; _ in table, - in column
(sql/format {:select :foo-bar/baz-quux})
;;=> ["SELECT foo_bar.baz_quux"] ; _ in table and _ in column
(sql/format {:select :foo-bar/baz-quux} {:dialect :mysql :quoted false})
;;=> ["SELECT foo_bar.baz_quux"] ; _ in table and _ in column
Finally, there are some contexts where only a SQL entity is accepted, rather than an
arbitrary SQL expression, so a string will also be treated as a SQL entity and in such cases
the entity name will always be quoted, dashes (-
) will not be converted to
underscores (_
), and a slash (/
) is not treated as separating a
qualifier from the name, regardless of the :dialect
or :quoted
settings:
(sql/format {:update :table :set {"foo-bar" 1 "baz/quux" 2}})
;;=> ["UPDATE table SET \"foo-bar\" = ?, \"baz/quux\" = ?" 1 2]
(sql/format {:update :table :set {"foo-bar" 1 "baz/quux" 2}} {:quoted true})
;;=> ["UPDATE \"table\" SET \"foo-bar\" = ?, \"baz/quux\" = ?" 1 2]
(sql/format {:update :table :set {"foo-bar" 1 "baz/quux" 2}} {:dialect :mysql})
;;=> ["UPDATE `table` SET `foo-bar` = ?, `baz/quux` = ?" 1 2]
(sql/format {:update :table :set {"foo-bar" 1 "baz/quux" 2}} {:dialect :sqlserver :quoted false})
;;=> ["UPDATE table SET [foo-bar] = ?, [baz/quux] = ?" 1 2]
Some databases support "composite values" which are usually
represented as tuples in SQL, eg., (col1,col2)
or (13,42,'foo')
.
In HoneySQL 1.x, you could sometimes get away with just using a
vector of entities and/or values, but it was very much dependent
on the context. HoneySQL 2.x always treats vectors (and sequences)
as function calls (which may be "special syntax" or an actual
function call).
HoneySQL provides :composite
as special syntax to construct
these tuples:
(sql/format-expr [:composite :col1 :col2])
;;=> ["(col1, col2)"]
(sql/format-expr [:composite 13 42 "foo"])
;;=> ["(?, ?, ?)" 13 42 "foo"]
;; or using symbols:
(sql/format-expr '(composite col1 col2))
;;=> ["(col1, col2)"]
(sql/format-expr '(composite 13 42 "foo"))
;;=> ["(?, ?, ?)" 13 42 "foo"]
There is also a composite
helper function.
It is increasingly common for PostgreSQL users to be working with JSON columns in their databases these days. PostgreSQL has really good support for JSON types.
When using HoneySQL to generate SQL that manipulates JSON, you need to be careful
because it is common to use regular Clojure data structures to represent the JSON
and rely on protocol extensions for the JDBC libraries to handle automatic
conversion of Clojure data structures to JSON (e.g., see
Tips & Tricks > Working with JSON and JSONB in the next.jdbc
documentation).
HoneySQL also uses Clojure data structures, to represent function calls (vectors) and SQL statements (hash maps), so if you are also using Clojure data structures for your JSON, you need to tell HoneySQL not to interpret those values. There are two possible approaches:
[:param :myval]
) instead of having the values directly in the DSL structure and then pass {:params {:myval some-json}}
as part of the options in the call to format
, or[:lift ..]
wrapped around any structured values which tells HoneySQL not to interpret the vector or hash map value as a DSL: [:lift some-json]
.As questions arise about the use of HoneySQL 2.x, I will add new sections here.
The full list of supported SQL clauses is documented in the Clause Reference. The full list of operators supported (as prefix-form "functions") is documented in the Operator Reference section. The full list of "special syntax" functions is documented in the Special Syntax section. The best documentation for the helper functions is in the honey.sql.helpers namespace. If you're migrating to HoneySQL 2.x, this overview of differences between 1.x and 2.x should help.
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