This is a low-level namespace implementing our query execution pipeline. Most of the stuff you'd use on a regular basis are implemented on top of stuff here.
Pipeline order is
toucan2.query/parse-args
(entrypoint fn: [[transduce-unparsed]])toucan2.model/resolve-model
(entrypoint fn: [[transduce-parsed]])resolve
transduce-query
build
compile
results-transform
transduce-execute-with-connection
The main pipeline entrypoint is [[transduce-unparsed]].
This is a low-level namespace implementing our query execution pipeline. Most of the stuff you'd use on a regular basis are implemented on top of stuff here. Pipeline order is 1. [[toucan2.query/parse-args]] (entrypoint fn: [[transduce-unparsed]]) 2. [[toucan2.model/resolve-model]] (entrypoint fn: [[transduce-parsed]]) 3. [[resolve]] 4. [[transduce-query]] 5. [[build]] 6. [[compile]] 7. [[results-transform]] 8. [[transduce-execute-with-connection]] The main pipeline entrypoint is [[transduce-unparsed]].
(*build* query-type model parsed-args resolved-query)
The function to use when building a query. Normally build
, but you can bind this to intercept build behavior to
do something different.
The function to use when building a query. Normally [[build]], but you can bind this to intercept build behavior to do something different.
(*compile* query-type model built-query)
The function to use when compiling a query. Normally compile
, but you can bind this to intercept normal
compilation behavior to do something different.
The function to use when compiling a query. Normally [[compile]], but you can bind this to intercept normal compilation behavior to do something different.
The parsed args seen at the beginning of the pipeline. This is bound in case methods in later stages of the pipeline,
such as results-transform
, need it for one reason or another. (See for example toucan2.tools.default-fields
,
which applies different behavior if a query was initiated with [model & columns]
syntax vs. if it was not.)
The parsed args seen at the beginning of the pipeline. This is bound in case methods in later stages of the pipeline, such as [[results-transform]], need it for one reason or another. (See for example [[toucan2.tools.default-fields]], which applies different behavior if a query was initiated with `[model & columns]` syntax vs. if it was not.)
The query after it has been resolved. This is bound in case methods in the later stages of the pipeline need it for one reason or another.
The query after it has been resolved. This is bound in case methods in the later stages of the pipeline need it for one reason or another.
(build query-type₁ model₂ parsed-args resolved-query₃)
Build a query by applying parsed-args
to resolved-query
into something that can be compiled by compile
, e.g.
build a Honey SQL query by applying parsed-args
to an initial resolved-query
map.
You can implement this method to write a custom query compilation backend, for example to compile some certain record
type in a special way. See toucan2.honeysql2
for an example implementation.
In addition to dispatching on query-type
and model
, this dispatches on the type of resolved-query
, in a special
way: for plain maps this will dispatch on the current [[map/backend]].
build is defined in toucan2.pipeline
(toucan2/pipeline.clj:145).
It caches methods using a methodical.impl.cache.watching.WatchingCache
.
It uses the method combination methodical.impl.combo.threaded.ThreadingMethodCombination
with the threading strategy :thread-last
.
It uses the dispatcher methodical.impl.dispatcher.multi_default.MultiDefaultDispatcher
with hierarchy #'clojure.core/global-hierarchy
and prefs {}
.
The default value is :default
.
It uses the method table methodical.impl.method_table.standard.StandardMethodTable
.
These primary methods are known:
[:default :default java.lang.String]
, defined in toucan2.pipeline
(toucan2/pipeline.clj:181)
It has the following documentation:
Default implementation for plain strings. Wrap the string in a vector and recurse.
[:toucan.query-type/select.count :default clojure.lang.IPersistentMap]
, defined in toucan2.honeysql2
(toucan2/honeysql2.clj:140)
It has the following documentation:
Build an efficient count(*)
query to power toucan2.select/count
.
[:toucan.query-type/insert.* :toucan2.tools.before-insert/before-insert clojure.lang.IPersistentMap]
, defined in toucan2.tools.before-insert
(toucan2/tools/before_insert.clj:39)
It has the following documentation:
Apply [[before-insert]] to :rows
in the resolved-query
or parsed-args
for Honey SQL queries.
[:toucan.query-type/select.exists :default clojure.lang.IPersistentMap]
, defined in toucan2.honeysql2
(toucan2/honeysql2.clj:148)
It has the following documentation:
Build an efficient query like SELECT exists(SELECT 1 FROM ...)
query to power toucan2.select/exists?
.
[:default :default nil]
, defined in toucan2.pipeline
(toucan2/pipeline.clj:164)
It has the following documentation:
Something like (select my-model nil) should basically mean SELECT * FROM my_model WHERE id IS NULL
:default
, defined in toucan2.pipeline
(toucan2/pipeline.clj:160)
[:toucan.query-type/update.* :default :default]
, defined in toucan2.update
(toucan2/update.clj:31)
It has the following documentation:
Default method for building UPDATE queries. Code for building Honey SQL for UPDATE lives
in toucan2.honeysql2
.
This doesn't really do much, but if the query has no :changes
, returns the special flag :toucan2.pipeline/no-op
.
[:toucan.query-type/insert.* :default clojure.lang.IPersistentMap]
, defined in toucan2.honeysql2
(toucan2/honeysql2.clj:163)
It has the following documentation:
Build a Honey SQL 2 INSERT query.
if rows
is just a single empty row then insert it with
INSERT INTO table DEFAULT VALUES
(Postgres/H2/etc.)
or
INSERT INTO table () VALUES ()
(MySQL/MariaDB)
[:toucan.query-type/insert.* :default :default]
, defined in toucan2.insert
(toucan2/insert.clj:60)
It has the following documentation:
Default INSERT query method. No-ops if there are no :rows
to insert in either parsed-args
or resolved-query
.
[:default :default clojure.lang.Sequential]
, defined in toucan2.pipeline
(toucan2/pipeline.clj:186)
It has the following documentation:
Default implementation of vector [query & args] queries.
[:toucan.query-type/select.instances.from-update :default clojure.lang.IPersistentMap]
, defined in toucan2.honeysql2
(toucan2/honeysql2.clj:217)
It has the following documentation:
Treat the resolved query as a conditions map but otherwise behave the same as the :toucan.query-type/select.instances
impl.
[:toucan.query-type/select.* :default clojure.lang.IPersistentMap]
, defined in toucan2.honeysql2
(toucan2/honeysql2.clj:120)
It has the following documentation:
Build a Honey SQL 2 SELECT query.
[:toucan.query-type/select.* :toucan2.tools.before-select/model :default]
, defined in toucan2.tools.before-select
(toucan2/tools/before_select.clj:29)
[:default :default clojure.lang.IPersistentMap]
, defined in toucan2.honeysql2
(toucan2/honeysql2.clj:111)
It has the following documentation:
Base map backend implementation. Applies the :kv-args
in parsed-args
using query/apply-kv-args
, and ignores
other parsed args.
[:default :default java.lang.Integer]
, defined in toucan2.pipeline
(toucan2/pipeline.clj:171)
It has the following documentation:
Treat lone integers as queries to select an integer primary key.
[:default :default java.lang.Long]
, defined in toucan2.pipeline
(toucan2/pipeline.clj:176)
It has the following documentation:
Treat lone integers as queries to select an integer primary key.
[:toucan.query-type/delete.* :default clojure.lang.IPersistentMap]
, defined in toucan2.honeysql2
(toucan2/honeysql2.clj:237)
It has the following documentation:
Build a Honey SQL 2 DELETE query.
If the table for model
should not be aliased (i.e., toucan2.model/namespace
returns nil
), builds a query that
compiles to something like:
DELETE FROM my_table
WHERE ...
If the table is aliased, this looks like
DELETE FROM my_table AS t1
WHERE ...
for Postgres/H2/etc., or like
DELETE t1
FROM my_table AS t1
WHERE ...
for MySQL/MariaDB. MySQL/MariaDB does not seem to support aliases in DELETE FROM
, so we need to use this alternative
syntax; H2 doesn't support it however. So it has to be compiled differently based on the DB.
[:toucan.query-type/update.* :default clojure.lang.IPersistentMap]
, defined in toucan2.honeysql2
(toucan2/honeysql2.clj:196)
It has the following documentation:
Build a Honey SQL 2 UPDATE query.
Build a query by applying `parsed-args` to `resolved-query` into something that can be compiled by [[compile]], e.g. build a Honey SQL query by applying `parsed-args` to an initial `resolved-query` map. You can implement this method to write a custom query compilation backend, for example to compile some certain record type in a special way. See [[toucan2.honeysql2]] for an example implementation. In addition to dispatching on `query-type` and `model`, this dispatches on the type of `resolved-query`, in a special way: for plain maps this will dispatch on the current [[map/backend]]. build is defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:145). It caches methods using a `methodical.impl.cache.watching.WatchingCache`. It uses the method combination `methodical.impl.combo.threaded.ThreadingMethodCombination` with the threading strategy `:thread-last`. It uses the dispatcher `methodical.impl.dispatcher.multi_default.MultiDefaultDispatcher` with hierarchy `#'clojure.core/global-hierarchy` and prefs `{}`. The default value is `:default`. It uses the method table `methodical.impl.method_table.standard.StandardMethodTable`. These primary methods are known: * `[:default :default java.lang.String]`, defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:181) It has the following documentation: Default implementation for plain strings. Wrap the string in a vector and recurse. * `[:toucan.query-type/select.count :default clojure.lang.IPersistentMap]`, defined in [[toucan2.honeysql2]] (toucan2/honeysql2.clj:140) It has the following documentation: Build an efficient `count(*)` query to power [[toucan2.select/count]]. * `[:toucan.query-type/insert.* :toucan2.tools.before-insert/before-insert clojure.lang.IPersistentMap]`, defined in [[toucan2.tools.before-insert]] (toucan2/tools/before_insert.clj:39) It has the following documentation: Apply [[before-insert]] to `:rows` in the `resolved-query` or `parsed-args` for Honey SQL queries. * `[:toucan.query-type/select.exists :default clojure.lang.IPersistentMap]`, defined in [[toucan2.honeysql2]] (toucan2/honeysql2.clj:148) It has the following documentation: Build an efficient query like `SELECT exists(SELECT 1 FROM ...)` query to power [[toucan2.select/exists?]]. * `[:default :default nil]`, defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:164) It has the following documentation: Something like (select my-model nil) should basically mean SELECT * FROM my_model WHERE id IS NULL * `:default`, defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:160) * `[:toucan.query-type/update.* :default :default]`, defined in [[toucan2.update]] (toucan2/update.clj:31) It has the following documentation: Default method for building UPDATE queries. Code for building Honey SQL for UPDATE lives in [[toucan2.honeysql2]]. This doesn't really do much, but if the query has no `:changes`, returns the special flag `:toucan2.pipeline/no-op`. * `[:toucan.query-type/insert.* :default clojure.lang.IPersistentMap]`, defined in [[toucan2.honeysql2]] (toucan2/honeysql2.clj:163) It has the following documentation: Build a Honey SQL 2 INSERT query. if `rows` is just a single empty row then insert it with ```sql INSERT INTO table DEFAULT VALUES ``` (Postgres/H2/etc.) or ```sql INSERT INTO table () VALUES () ``` (MySQL/MariaDB) * `[:toucan.query-type/insert.* :default :default]`, defined in [[toucan2.insert]] (toucan2/insert.clj:60) It has the following documentation: Default INSERT query method. No-ops if there are no `:rows` to insert in either `parsed-args` or `resolved-query`. * `[:default :default clojure.lang.Sequential]`, defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:186) It has the following documentation: Default implementation of vector [query & args] queries. * `[:toucan.query-type/select.instances.from-update :default clojure.lang.IPersistentMap]`, defined in [[toucan2.honeysql2]] (toucan2/honeysql2.clj:217) It has the following documentation: Treat the resolved query as a conditions map but otherwise behave the same as the `:toucan.query-type/select.instances` impl. * `[:toucan.query-type/select.* :default clojure.lang.IPersistentMap]`, defined in [[toucan2.honeysql2]] (toucan2/honeysql2.clj:120) It has the following documentation: Build a Honey SQL 2 SELECT query. * `[:toucan.query-type/select.* :toucan2.tools.before-select/model :default]`, defined in [[toucan2.tools.before-select]] (toucan2/tools/before_select.clj:29) * `[:default :default clojure.lang.IPersistentMap]`, defined in [[toucan2.honeysql2]] (toucan2/honeysql2.clj:111) It has the following documentation: Base map backend implementation. Applies the `:kv-args` in `parsed-args` using [[query/apply-kv-args]], and ignores other parsed args. * `[:default :default java.lang.Integer]`, defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:171) It has the following documentation: Treat lone integers as queries to select an integer primary key. * `[:default :default java.lang.Long]`, defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:176) It has the following documentation: Treat lone integers as queries to select an integer primary key. * `[:toucan.query-type/delete.* :default clojure.lang.IPersistentMap]`, defined in [[toucan2.honeysql2]] (toucan2/honeysql2.clj:237) It has the following documentation: Build a Honey SQL 2 DELETE query. If the table for `model` should not be aliased (i.e., [[toucan2.model/namespace]] returns `nil`), builds a query that compiles to something like: ```sql DELETE FROM my_table WHERE ... ``` If the table is aliased, this looks like ```sql DELETE FROM my_table AS t1 WHERE ... ``` for Postgres/H2/etc., or like ```sql DELETE t1 FROM my_table AS t1 WHERE ... ``` for MySQL/MariaDB. MySQL/MariaDB does not seem to support aliases in `DELETE FROM`, so we need to use this alternative syntax; H2 doesn't support it however. So it has to be compiled differently based on the DB. * `[:toucan.query-type/update.* :default clojure.lang.IPersistentMap]`, defined in [[toucan2.honeysql2]] (toucan2/honeysql2.clj:196) It has the following documentation: Build a Honey SQL 2 UPDATE query.
(compile query-type₁ model₂ built-query₃)
Compile a built-query
to something that can be executed natively by the query execution backend, e.g. compile a Honey
SQL map to a [sql & args]
vector.
You can implement this method to write a custom query compilation backend, for example to compile some certain record
type in a special way. See toucan2.honeysql2
for an example implementation.
In addition to dispatching on query-type
and model
, this dispatches on the type of built-query
, in a special
way: for plain maps this will dispatch on the current [[map/backend]].
compile is defined in toucan2.pipeline
(toucan2/pipeline.clj:109).
It caches methods using a methodical.impl.cache.watching.WatchingCache
.
It uses the method combination methodical.impl.combo.threaded.ThreadingMethodCombination
with the threading strategy :thread-last
.
It uses the dispatcher methodical.impl.dispatcher.multi_default.MultiDefaultDispatcher
with hierarchy #'clojure.core/global-hierarchy
and prefs {}
.
The default value is :default
.
It uses the method table methodical.impl.method_table.standard.StandardMethodTable
.
These primary methods are known:
:default
, defined in toucan2.pipeline
(toucan2/pipeline.clj:123)
It has the following documentation:
Default implementation: return query as-is (i.e., consider it to already be compiled). Check that the query is non-nil and, if it is a collection, non-empty. Everything else is fair game.
[:default :default java.lang.String]
, defined in toucan2.pipeline
(toucan2/pipeline.clj:137)
It has the following documentation:
Compile a string query. Default impl wraps the string in a vector and recursively calls compile
.
[:default :default clojure.lang.IPersistentMap]
, defined in toucan2.honeysql2
(toucan2/honeysql2.clj:277)
It has the following documentation:
Compile a Honey SQL 2 map to [sql & args].
Compile a `built-query` to something that can be executed natively by the query execution backend, e.g. compile a Honey SQL map to a `[sql & args]` vector. You can implement this method to write a custom query compilation backend, for example to compile some certain record type in a special way. See [[toucan2.honeysql2]] for an example implementation. In addition to dispatching on `query-type` and `model`, this dispatches on the type of `built-query`, in a special way: for plain maps this will dispatch on the current [[map/backend]]. compile is defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:109). It caches methods using a `methodical.impl.cache.watching.WatchingCache`. It uses the method combination `methodical.impl.combo.threaded.ThreadingMethodCombination` with the threading strategy `:thread-last`. It uses the dispatcher `methodical.impl.dispatcher.multi_default.MultiDefaultDispatcher` with hierarchy `#'clojure.core/global-hierarchy` and prefs `{}`. The default value is `:default`. It uses the method table `methodical.impl.method_table.standard.StandardMethodTable`. These primary methods are known: * `:default`, defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:123) It has the following documentation: Default implementation: return query as-is (i.e., consider it to already be compiled). Check that the query is non-nil and, if it is a collection, non-empty. Everything else is fair game. * `[:default :default java.lang.String]`, defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:137) It has the following documentation: Compile a string query. Default impl wraps the string in a vector and recursively calls [[compile]]. * `[:default :default clojure.lang.IPersistentMap]`, defined in [[toucan2.honeysql2]] (toucan2/honeysql2.clj:277) It has the following documentation: Compile a Honey SQL 2 map to [sql & args].
(compile* built-query)
(compile* query-type built-query)
(compile* query-type model built-query)
Helper for compiling a built-query
to something that can be executed natively.
Helper for compiling a `built-query` to something that can be executed natively.
(default-rf query-type)
The default reducing function for queries of query-type
. Used for non-reducible operations
like toucan2.select/select
or toucan2.execute/query
.
default-rf is defined in toucan2.pipeline
(toucan2/pipeline.clj:329).
It caches methods using a methodical.impl.cache.watching.WatchingCache
.
It uses the method combination methodical.impl.combo.threaded.ThreadingMethodCombination
with the threading strategy :thread-last
.
It uses the dispatcher methodical.impl.dispatcher.multi_default.MultiDefaultDispatcher
with hierarchy #'clojure.core/global-hierarchy
and prefs {}
.
The default value is :default
.
It uses the method table methodical.impl.method_table.standard.StandardMethodTable
.
These primary methods are known:
:toucan.result-type/update-count
, defined in toucan2.pipeline
(toucan2/pipeline.clj:337)
It has the following documentation:
The reducing function for queries returning an update count. Sums all numbers passed in.
:toucan.result-type/pks
, defined in toucan2.pipeline
(toucan2/pipeline.clj:344)
It has the following documentation:
The reducing function for queries returning PKs. Presumably these will come back as a map, but that map doesn't need to
be realized. This needs to be combined with a transducer like map
toucan2.model/select-pks-fn
to get the PKs
themselves.
:toucan.result-type/*
, defined in toucan2.pipeline
(toucan2/pipeline.clj:351)
It has the following documentation:
The default reducing function for all query types unless otherwise specified. Returns realized maps (by default, Toucan 2 instances).
The default reducing function for queries of `query-type`. Used for non-reducible operations like [[toucan2.select/select]] or [[toucan2.execute/query]]. default-rf is defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:329). It caches methods using a `methodical.impl.cache.watching.WatchingCache`. It uses the method combination `methodical.impl.combo.threaded.ThreadingMethodCombination` with the threading strategy `:thread-last`. It uses the dispatcher `methodical.impl.dispatcher.multi_default.MultiDefaultDispatcher` with hierarchy `#'clojure.core/global-hierarchy` and prefs `{}`. The default value is `:default`. It uses the method table `methodical.impl.method_table.standard.StandardMethodTable`. These primary methods are known: * `:toucan.result-type/update-count`, defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:337) It has the following documentation: The reducing function for queries returning an update count. Sums all numbers passed in. * `:toucan.result-type/pks`, defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:344) It has the following documentation: The reducing function for queries returning PKs. Presumably these will come back as a map, but that map doesn't need to be realized. This needs to be combined with a transducer like `map` [[toucan2.model/select-pks-fn]] to get the PKs themselves. * `:toucan.result-type/*`, defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:351) It has the following documentation: The default reducing function for all query types unless otherwise specified. Returns realized maps (by default, Toucan 2 instances).
(resolve query-type₁ model₂ queryable₃)
Resolve a queryable
to an actual query, e.g. resolve a named query defined by toucan2.tools.named-query
to an
actual Honey SQL map.
resolve is defined in toucan2.pipeline
(toucan2/pipeline.clj:200).
It caches methods using a methodical.impl.cache.watching.WatchingCache
.
It uses the method combination methodical.impl.combo.threaded.ThreadingMethodCombination
with the threading strategy :thread-last
.
It uses the dispatcher methodical.impl.dispatcher.multi_default.MultiDefaultDispatcher
with hierarchy #'clojure.core/global-hierarchy
and prefs {}
.
The default value is :default
.
It uses the method table methodical.impl.method_table.standard.StandardMethodTable
.
These primary methods are known:
:default
, defined in toucan2.pipeline
(toucan2/pipeline.clj:208)
It has the following documentation:
The default implementation considers a query to already be resolved, and returns it as-is.
Resolve a `queryable` to an actual query, e.g. resolve a named query defined by [[toucan2.tools.named-query]] to an actual Honey SQL map. resolve is defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:200). It caches methods using a `methodical.impl.cache.watching.WatchingCache`. It uses the method combination `methodical.impl.combo.threaded.ThreadingMethodCombination` with the threading strategy `:thread-last`. It uses the dispatcher `methodical.impl.dispatcher.multi_default.MultiDefaultDispatcher` with hierarchy `#'clojure.core/global-hierarchy` and prefs `{}`. The default value is `:default`. It uses the method table `methodical.impl.method_table.standard.StandardMethodTable`. These primary methods are known: * `:default`, defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:208) It has the following documentation: The default implementation considers a query to already be resolved, and returns it as-is.
(results-transform query-type₁ model₂)
The transducer that should be applied to the reducing function executed when running a query of
query-type
(see toucan2.types
) for model
(nil
if the query is ran without a model, e.g.
with toucan2.execute/query
). The default implementation returns identity
; add your own implementations as
desired to apply additional results transforms.
Be sure to comp
the transform from next-method
:
(m/defmethod t2/results-transform [:toucan.query-type/select.* :my-model]
[query-type model]
(comp (next-method query-type model)
(map (fn [instance]
(assoc instance :num-cans 2)))))
It's probably better to put the transducer returned by next-method
first in the call to comp
, because cond
works
like ->
when composing transducers, and since next-method
is by definition the less-specific method, it makes
sense to call that transform before we apply our own. This means our own transforms will get to see the results of the
previous stage, rather than vice-versa.
results-transform is defined in toucan2.pipeline
(toucan2/pipeline.clj:80).
It caches methods using a methodical.impl.cache.watching.WatchingCache
.
It uses the method combination methodical.impl.combo.threaded.ThreadingMethodCombination
with the threading strategy :thread-last
.
It uses the dispatcher methodical.impl.dispatcher.multi_default.MultiDefaultDispatcher
with hierarchy #'clojure.core/global-hierarchy
and prefs {[:toucan.result-type/instances :toucan2.tools.after-select/after-select] #{[:toucan.result-type/instances :toucan2.tools.after/model]}}
.
The default value is :default
.
It uses the method table methodical.impl.method_table.standard.StandardMethodTable
.
These primary methods are known:
:default
, defined in toucan2.pipeline
(toucan2/pipeline.clj:105)
[:toucan.result-type/instances :toucan2.tools.after/model]
, defined in toucan2.tools.after
(toucan2/tools/after.clj:38)
[:toucan.result-type/instances :toucan2.tools.after-select/after-select]
, defined in toucan2.tools.after-select
(toucan2/tools/after_select.clj:20)
The transducer that should be applied to the reducing function executed when running a query of `query-type` (see [[toucan2.types]]) for `model` (`nil` if the query is ran without a model, e.g. with [[toucan2.execute/query]]). The default implementation returns `identity`; add your own implementations as desired to apply additional results transforms. Be sure to `comp` the transform from `next-method`: ```clj (m/defmethod t2/results-transform [:toucan.query-type/select.* :my-model] [query-type model] (comp (next-method query-type model) (map (fn [instance] (assoc instance :num-cans 2))))) ``` It's probably better to put the transducer returned by `next-method` first in the call to `comp`, because `cond` works like `->` when composing transducers, and since `next-method` is by definition the less-specific method, it makes sense to call that transform before we apply our own. This means our own transforms will get to see the results of the previous stage, rather than vice-versa. results-transform is defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:80). It caches methods using a `methodical.impl.cache.watching.WatchingCache`. It uses the method combination `methodical.impl.combo.threaded.ThreadingMethodCombination` with the threading strategy `:thread-last`. It uses the dispatcher `methodical.impl.dispatcher.multi_default.MultiDefaultDispatcher` with hierarchy `#'clojure.core/global-hierarchy` and prefs `{[:toucan.result-type/instances :toucan2.tools.after-select/after-select] #{[:toucan.result-type/instances :toucan2.tools.after/model]}}`. The default value is `:default`. It uses the method table `methodical.impl.method_table.standard.StandardMethodTable`. These primary methods are known: * `:default`, defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:105) * `[:toucan.result-type/instances :toucan2.tools.after/model]`, defined in [[toucan2.tools.after]] (toucan2/tools/after.clj:38) * `[:toucan.result-type/instances :toucan2.tools.after-select/after-select]`, defined in [[toucan2.tools.after-select]] (toucan2/tools/after_select.clj:20)
(transduce-execute-with-connection rf conn₁ query-type₂ model₃ compiled-query)
The final stage of the Toucan 2 query execution pipeline. Execute a compiled query (as returned by compile
) with a
database connection, e.g. a java.sql.Connection
, and transduce results with reducing function rf
.
The only reason you should need to implement this method is if you are writing a new query execution backend.
transduce-execute-with-connection is defined in toucan2.pipeline
(toucan2/pipeline.clj:43).
It caches methods using a methodical.impl.cache.watching.WatchingCache
.
It uses the method combination methodical.impl.combo.threaded.ThreadingMethodCombination
with the threading strategy :thread-last
.
It uses the dispatcher methodical.impl.dispatcher.multi_default.MultiDefaultDispatcher
with hierarchy #'clojure.core/global-hierarchy
and prefs {[:toucan2.jdbc.mysql-mariadb/connection :toucan.query-type/insert.pks :default] #{[java.sql.Connection :toucan.result-type/pks :default]}, [:toucan2.jdbc.mysql-mariadb/connection :toucan.query-type/update.pks :default] #{[java.sql.Connection :toucan.result-type/pks :default]}}
.
The default value is :default
.
It uses the method table methodical.impl.method_table.standard.StandardMethodTable
.
These primary methods are known:
[java.sql.Connection :default :default]
, defined in [[toucan2.jdbc.pipeline]] (toucan2/jdbc/pipeline.clj:9)
It has the following documentation:
Default impl for the JDBC query execution backend.
[java.sql.Connection :toucan.result-type/pks :default]
, defined in [[toucan2.jdbc.pipeline]] (toucan2/jdbc/pipeline.clj:22)
It has the following documentation:
JDBC query execution backend for executing queries that return PKs (:toucan.result-type/pks
).
Applies transducer to call toucan2.model/select-pks-fn
on each result row.
[java.sql.Connection :toucan2.jdbc.pipeline/DML-queries-returning-instances :default]
, defined in [[toucan2.jdbc.pipeline]] (toucan2/jdbc/pipeline.clj:52)
It has the following documentation:
DML queries like UPDATE
or INSERT
don't usually support returning instances, at least not with JDBC. So for these
situations we'll fake it by first running an equivalent query returning inserted/affected PKs, and then do a
subsequent SELECT to get those rows. Then we'll reduce the rows with the original reducing function.
[:toucan2.jdbc.mysql-mariadb/connection :toucan.query-type/insert.pks :default]
, defined in [[toucan2.jdbc.mysql-mariadb]] (toucan2/jdbc/mysql_mariadb.clj:46)
It has the following documentation:
Apparently RETURN_GENERATED_KEYS
doesn't work for MySQL/MariaDB if:
Values for the primary key are specified in the INSERT itself, and
The primary key is not an integer.
So to work around this we will look at the rows we're inserting: if every rows specifies the primary key
column(s) (including nil
values), we'll transduce those specified values rather than what JDBC returns.
This seems like it won't work if these values were arbitrary Honey SQL expressions. I suppose we could work around THAT problem by running the primary key values thru another SELECT query... but that just seems like too much. I guess we can cross that bridge when we get there.
[:toucan2.jdbc.mysql-mariadb/connection :toucan.query-type/update.pks :default]
, defined in [[toucan2.jdbc.mysql-mariadb]] (toucan2/jdbc/mysql_mariadb.clj:98)
It has the following documentation:
MySQL and MariaDB don't support returning PKs for UPDATE. Execute a SELECT query to capture the PKs of the rows that
will be affected BEFORE performing the UPDATE. We need to capture PKs for both :toucan.query-type/update.pks
and for
:toucan.query-type/update.instances
, since ultimately the latter is implemented on top of the former.
These aux methods are known:
:before
methods:
:default
, defined in toucan2.pipeline
(toucan2/pipeline.clj:57)
It has the following documentation:
Count all queries that are executed by calling [[call-count-thunk]] if bound.
The final stage of the Toucan 2 query execution pipeline. Execute a compiled query (as returned by [[compile]]) with a database connection, e.g. a `java.sql.Connection`, and transduce results with reducing function `rf`. The only reason you should need to implement this method is if you are writing a new query execution backend. transduce-execute-with-connection is defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:43). It caches methods using a `methodical.impl.cache.watching.WatchingCache`. It uses the method combination `methodical.impl.combo.threaded.ThreadingMethodCombination` with the threading strategy `:thread-last`. It uses the dispatcher `methodical.impl.dispatcher.multi_default.MultiDefaultDispatcher` with hierarchy `#'clojure.core/global-hierarchy` and prefs `{[:toucan2.jdbc.mysql-mariadb/connection :toucan.query-type/insert.pks :default] #{[java.sql.Connection :toucan.result-type/pks :default]}, [:toucan2.jdbc.mysql-mariadb/connection :toucan.query-type/update.pks :default] #{[java.sql.Connection :toucan.result-type/pks :default]}}`. The default value is `:default`. It uses the method table `methodical.impl.method_table.standard.StandardMethodTable`. These primary methods are known: * `[java.sql.Connection :default :default]`, defined in [[toucan2.jdbc.pipeline]] (toucan2/jdbc/pipeline.clj:9) It has the following documentation: Default impl for the JDBC query execution backend. * `[java.sql.Connection :toucan.result-type/pks :default]`, defined in [[toucan2.jdbc.pipeline]] (toucan2/jdbc/pipeline.clj:22) It has the following documentation: JDBC query execution backend for executing queries that return PKs (`:toucan.result-type/pks`). Applies transducer to call [[toucan2.model/select-pks-fn]] on each result row. * `[java.sql.Connection :toucan2.jdbc.pipeline/DML-queries-returning-instances :default]`, defined in [[toucan2.jdbc.pipeline]] (toucan2/jdbc/pipeline.clj:52) It has the following documentation: DML queries like `UPDATE` or `INSERT` don't usually support returning instances, at least not with JDBC. So for these situations we'll fake it by first running an equivalent query returning inserted/affected PKs, and then do a subsequent SELECT to get those rows. Then we'll reduce the rows with the original reducing function. * `[:toucan2.jdbc.mysql-mariadb/connection :toucan.query-type/insert.pks :default]`, defined in [[toucan2.jdbc.mysql-mariadb]] (toucan2/jdbc/mysql_mariadb.clj:46) It has the following documentation: Apparently `RETURN_GENERATED_KEYS` doesn't work for MySQL/MariaDB if: 1. Values for the primary key are specified in the INSERT itself, *and* 2. The primary key is not an integer. So to work around this we will look at the rows we're inserting: if every rows specifies the primary key column(s) (including `nil` values), we'll transduce those specified values rather than what JDBC returns. This seems like it won't work if these values were arbitrary Honey SQL expressions. I suppose we could work around THAT problem by running the primary key values thru another SELECT query... but that just seems like too much. I guess we can cross that bridge when we get there. * `[:toucan2.jdbc.mysql-mariadb/connection :toucan.query-type/update.pks :default]`, defined in [[toucan2.jdbc.mysql-mariadb]] (toucan2/jdbc/mysql_mariadb.clj:98) It has the following documentation: MySQL and MariaDB don't support returning PKs for UPDATE. Execute a SELECT query to capture the PKs of the rows that will be affected BEFORE performing the UPDATE. We need to capture PKs for both `:toucan.query-type/update.pks` and for `:toucan.query-type/update.instances`, since ultimately the latter is implemented on top of the former. These aux methods are known: `:before` methods: * `:default`, defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:57) It has the following documentation: Count all queries that are executed by calling [[*call-count-thunk*]] if bound.
(transduce-query rf query-type₁ model₂ parsed-args resolved-query₃)
One of the primary customization points for the Toucan 2 query execution pipeline. build
and compile
a
resolved-query
, then open a connection, execute the query, and transduce the results
with transduce-execute-with-connection
(using the results-transform
).
You can implement this method to introduce custom behavior that should happen before a query is built or compiled,
e.g. transformations to the parsed-args
or other shenanigans like changing underlying query type being
executed (e.g. toucan2.tools.after
, which 'upgrades' queries returning update counts or PKs to ones returning
instances so toucan2.tools.after-update
and toucan2.tools.after-insert
can be applied to affected rows).
transduce-query is defined in toucan2.pipeline
(toucan2/pipeline.clj:254).
It caches methods using a methodical.impl.cache.watching.WatchingCache
.
It uses the method combination methodical.impl.combo.threaded.ThreadingMethodCombination
with the threading strategy :thread-last
.
It uses the dispatcher methodical.impl.dispatcher.multi_default.MultiDefaultDispatcher
with hierarchy #'clojure.core/global-hierarchy
and prefs {}
.
The default value is :default
.
It uses the method table methodical.impl.method_table.standard.StandardMethodTable
.
These primary methods are known:
:default
, defined in toucan2.pipeline
(toucan2/pipeline.clj:269)
[:toucan2.tools.after/query-type :toucan2.tools.after/model :default]
, defined in toucan2.tools.after
(toucan2/tools/after.clj:84)
It has the following documentation:
'Upgrade' a query so that it returns instances, and run the upgraded query so that we can apply [[each-row-fn]] to the results. Then apply [[result-type-rf]] to the results of the original expected type are ultimately returned.
[:toucan.query-type/delete.* :toucan2.tools.before-delete/before-delete :default]
, defined in toucan2.tools.before-delete
(toucan2/tools/before_delete.clj:43)
It has the following documentation:
Do a recursive SELECT query with the args passed to delete!
; apply [[before-delete]] to all matching rows. Then call
the next-method
. This is all done inside of a transaction.
These aux methods are known:
:around
methods:
[:toucan.query-type/insert.* :toucan2.tools.before-insert/before-insert :default]
, defined in toucan2.tools.before-insert
(toucan2/tools/before_insert.clj:31)
It has the following documentation:
Execute [[before-insert]] methods and the INSERT query inside a transaction.
One of the primary customization points for the Toucan 2 query execution pipeline. [[build]] and [[compile]] a `resolved-query`, then open a connection, execute the query, and transduce the results with [[transduce-execute-with-connection]] (using the [[results-transform]]). You can implement this method to introduce custom behavior that should happen before a query is built or compiled, e.g. transformations to the `parsed-args` or other shenanigans like changing underlying query type being executed (e.g. [[toucan2.tools.after]], which 'upgrades' queries returning update counts or PKs to ones returning instances so [[toucan2.tools.after-update]] and [[toucan2.tools.after-insert]] can be applied to affected rows). transduce-query is defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:254). It caches methods using a `methodical.impl.cache.watching.WatchingCache`. It uses the method combination `methodical.impl.combo.threaded.ThreadingMethodCombination` with the threading strategy `:thread-last`. It uses the dispatcher `methodical.impl.dispatcher.multi_default.MultiDefaultDispatcher` with hierarchy `#'clojure.core/global-hierarchy` and prefs `{}`. The default value is `:default`. It uses the method table `methodical.impl.method_table.standard.StandardMethodTable`. These primary methods are known: * `:default`, defined in [[toucan2.pipeline]] (toucan2/pipeline.clj:269) * `[:toucan2.tools.after/query-type :toucan2.tools.after/model :default]`, defined in [[toucan2.tools.after]] (toucan2/tools/after.clj:84) It has the following documentation: 'Upgrade' a query so that it returns instances, and run the upgraded query so that we can apply [[each-row-fn]] to the results. Then apply [[result-type-rf]] to the results of the original expected type are ultimately returned. * `[:toucan.query-type/delete.* :toucan2.tools.before-delete/before-delete :default]`, defined in [[toucan2.tools.before-delete]] (toucan2/tools/before_delete.clj:43) It has the following documentation: Do a recursive SELECT query with the args passed to `delete!`; apply [[before-delete]] to all matching rows. Then call the `next-method`. This is all done inside of a transaction. These aux methods are known: `:around` methods: * `[:toucan.query-type/insert.* :toucan2.tools.before-insert/before-insert :default]`, defined in [[toucan2.tools.before-insert]] (toucan2/tools/before_insert.clj:31) It has the following documentation: Execute [[before-insert]] methods and the INSERT query inside a transaction.
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