clojure.spec.alpha
(& re & preds)
takes a regex op re, and predicates. Returns a regex-op that consumes
input as per re but subjects the resulting value to the
conjunction of the predicates, and any conforming they might perform.
(* pred-form)
Returns a regex op that matches zero or more values matching
pred. Produces a vector of matches iff there is at least one match
*coll-error-limit*
The number of errors reported by explain in a collection spec'ed with 'every'
*compile-asserts*
If true, compiler will enable spec asserts, which are then
subject to runtime control via check-asserts? If false, compiler
will eliminate all spec assert overhead. See 'assert'.
Initially set to boolean value of clojure.spec.compile-asserts
system property. Defaults to true.
*fspec-iterations*
The number of times an anonymous fn specified by fspec will be (generatively) tested during conform
*recursion-limit*
A soft limit on how many times a branching spec (or/alt/*/opt-keys/multi-spec)
can be recursed through during generation. After this a
non-recursive branch will be chosen.
(+ pred-form)
Returns a regex op that matches one or more values matching
pred. Produces a vector of matches
(? pred-form)
Returns a regex op that matches zero or one value matching
pred. Produces a single value (not a collection) if matched.
(alt & key-pred-forms)
Takes key+pred pairs, e.g.
(s/alt :even even? :small #(< % 42))
Returns a regex op that returns a map entry containing the key of the
first matching pred and the corresponding value. Thus the
'key' and 'val' functions can be used to refer generically to the
components of the tagged return
(and & pred-forms)
Takes predicate/spec-forms, e.g.
(s/and even? #(< % 42))
Returns a spec that returns the conformed value. Successive
conformed values propagate through rest of predicates.
(assert spec x)
spec-checking assert expression. Returns x if x is valid? according
to spec, else throws an ex-info with explain-data plus ::failure of
:assertion-failed.
Can be disabled at either compile time or runtime:
If *compile-asserts* is false at compile time, compiles to x. Defaults
to value of 'clojure.spec.compile-asserts' system property, or true if
not set.
If (check-asserts?) is false at runtime, always returns x. Defaults to
value of 'clojure.spec.check-asserts' system property, or false if not
set. You can toggle check-asserts? with (check-asserts bool).
(cat & key-pred-forms)
Takes key+pred pairs, e.g.
(s/cat :e even? :o odd?)
Returns a regex op that matches (all) values in sequence, returning a map
containing the keys of each pred and the corresponding value.
(check-asserts flag)
Enable or disable spec asserts that have been compiled
with '*compile-asserts*' true. See 'assert'.
Initially set to boolean value of clojure.spec.check-asserts
system property. Defaults to false.
(coll-of pred & opts)
Returns a spec for a collection of items satisfying pred. Unlike
'every', coll-of will exhaustively conform every value.
Same options as 'every'. conform will produce a collection
corresponding to :into if supplied, else will match the input collection,
avoiding rebuilding when possible.
See also - every, map-of
(conform spec x)
Given a spec and a value, returns :clojure.spec.alpha/invalid
if value does not match spec, else the (possibly destructured) value.
(conformer f)
(conformer f unf)
takes a predicate function with the semantics of conform i.e. it should return either a
(possibly converted) value or :clojure.spec.alpha/invalid, and returns a
spec that uses it as a predicate/conformer. Optionally takes a
second fn that does unform of result of first
(def k spec-form)
Given a namespace-qualified keyword or resolvable symbol k, and a
spec, spec-name, predicate or regex-op makes an entry in the
registry mapping k to the spec
(every pred & {:keys [into kind count max-count min-count distinct gen-max gen], :as opts})
takes a pred and validates collection elements against that pred.
Note that 'every' does not do exhaustive checking, rather it samples
*coll-check-limit* elements. Nor (as a result) does it do any
conforming of elements. 'explain' will report at most *coll-error-limit*
problems. Thus 'every' should be suitable for potentially large
collections.
Takes several kwargs options that further constrain the collection:
:kind - a pred/spec that the collection type must satisfy, e.g. vector?
(default nil) Note that if :kind is specified and :into is
not, this pred must generate in order for every to generate.
:count - specifies coll has exactly this count (default nil)
:min-count, :max-count - coll has count (<= min-count count max-count) (defaults nil)
:distinct - all the elements are distinct (default nil)
And additional args that control gen
:gen-max - the maximum coll size to generate (default 20)
:into - one of [], (), {}, #{} - the default collection to generate into
(default: empty coll as generated by :kind pred if supplied, else [])
Optionally takes :gen generator-fn, which must be a fn of no args that
returns a test.check generator
See also - coll-of, every-kv
(every-kv kpred vpred & opts)
like 'every' but takes separate key and val preds and works on associative collections.
Same options as 'every', :into defaults to {}
See also - map-of
(explain spec x)
Given a spec and a value that fails to conform, prints an explanation to *out*.
(explain-data spec x)
Given a spec and a value x which ought to conform, returns nil if x
conforms, else a map with at least the key ::problems whose value is
a collection of problem-maps, where problem-map has at least :path :pred and :val
keys describing the predicate and the value that failed at that
path.
(explain-out ed)
Prints explanation data (per 'explain-data') to *out* using the printer in *explain-out*,
by default explain-printer.
(explain-str spec x)
Given a spec and a value that fails to conform, returns an explanation as a string.
(fdef fn-sym & specs)
Takes a symbol naming a function, and one or more of the following:
:args A regex spec for the function arguments as they were a list to be
passed to apply - in this way, a single spec can handle functions with
multiple arities
:ret A spec for the function's return value
:fn A spec of the relationship between args and ret - the
value passed is {:args conformed-args :ret conformed-ret} and is
expected to contain predicates that relate those values
Qualifies fn-sym with resolve, or using *ns* if no resolution found.
Registers an fspec in the global registry, where it can be retrieved
by calling get-spec with the var or fully-qualified symbol.
Once registered, function specs are included in doc, checked by
instrument, tested by the runner clojure.spec.test.alpha/check, and (if
a macro) used to explain errors during macroexpansion.
Note that :fn specs require the presence of :args and :ret specs to
conform values, and so :fn specs will be ignored if :args or :ret
are missing.
Returns the qualified fn-sym.
For example, to register function specs for the symbol function:
(s/fdef clojure.core/symbol
:args (s/alt :separate (s/cat :ns string? :n string?)
:str string?
:sym symbol?)
:ret symbol?)
(fspec & {:keys [args ret fn gen], :or {ret (quote clojure.core/any?)}})
takes :args :ret and (optional) :fn kwargs whose values are preds
and returns a spec whose conform/explain take a fn and validates it
using generative testing. The conformed value is always the fn itself.
See 'fdef' for a single operation that creates an fspec and
registers it, as well as a full description of :args, :ret and :fn
fspecs can generate functions that validate the arguments and
fabricate a return value compliant with the :ret spec, ignoring
the :fn spec if present.
Optionally takes :gen generator-fn, which must be a fn of no args
that returns a test.check generator.
(gen spec)
(gen spec overrides)
Given a spec, returns the generator for it, or throws if none can
be constructed. Optionally an overrides map can be provided which
should map spec names or paths (vectors of keywords) to no-arg
generator-creating fns. These will be used instead of the generators at those
names/paths. Note that parent generator (in the spec or overrides
map) will supersede those of any subtrees. A generator for a regex
op must always return a sequential collection (i.e. a generator for
s/? should return either an empty sequence/vector or a
sequence/vector with one item in it)
(get-spec k)
Returns spec registered for keyword/symbol/var k, or nil.
(inst-in start end)
Returns a spec that validates insts in the range from start
(inclusive) to end (exclusive).
(int-in start end)
Returns a spec that validates fixed precision integers in the
range from start (inclusive) to end (exclusive).
(keys & {:keys [req req-un opt opt-un gen]})
Creates and returns a map validating spec. :req and :opt are both
vectors of namespaced-qualified keywords. The validator will ensure
the :req keys are present. The :opt keys serve as documentation and
may be used by the generator.
The :req key vector supports 'and' and 'or' for key groups:
(s/keys :req [::x ::y (or ::secret (and ::user ::pwd))] :opt [::z])
There are also -un versions of :req and :opt. These allow
you to connect unqualified keys to specs. In each case, fully
qualfied keywords are passed, which name the specs, but unqualified
keys (with the same name component) are expected and checked at
conform-time, and generated during gen:
(s/keys :req-un [:my.ns/x :my.ns/y])
The above says keys :x and :y are required, and will be validated
and generated by specs (if they exist) named :my.ns/x :my.ns/y
respectively.
In addition, the values of *all* namespace-qualified keys will be validated
(and possibly destructured) by any registered specs. Note: there is
no support for inline value specification, by design.
Optionally takes :gen generator-fn, which must be a fn of no args that
returns a test.check generator.
(keys* & kspecs)
takes the same arguments as spec/keys and returns a regex op that matches sequences of key/values,
converts them into a map, and conforms that map with a corresponding
spec/keys call:
user=> (s/conform (s/keys :req-un [::a ::c]) {:a 1 :c 2})
{:a 1, :c 2}
user=> (s/conform (s/keys* :req-un [::a ::c]) [:a 1 :c 2])
{:a 1, :c 2}
the resulting regex op can be composed into a larger regex:
user=> (s/conform (s/cat :i1 integer? :m (s/keys* :req-un [::a ::c]) :i2 integer?) [42 :a 1 :c 2 :d 4 99])
{:i1 42, :m {:a 1, :c 2, :d 4}, :i2 99}
(map-of kpred vpred & opts)
Returns a spec for a map whose keys satisfy kpred and vals satisfy
vpred. Unlike 'every-kv', map-of will exhaustively conform every
value.
Same options as 'every', :kind defaults to map?, with the addition of:
:conform-keys - conform keys as well as values (default false)
See also - every-kv
(merge & pred-forms)
Takes map-validating specs (e.g. 'keys' specs) and
returns a spec that returns a conformed map satisfying all of the
specs. Unlike 'and', merge can generate maps satisfying the
union of the predicates.
(multi-spec mm retag)
Takes the name of a spec/predicate-returning multimethod and a
tag-restoring keyword or fn (retag). Returns a spec that when
conforming or explaining data will pass it to the multimethod to get
an appropriate spec. You can e.g. use multi-spec to dynamically and
extensibly associate specs with 'tagged' data (i.e. data where one
of the fields indicates the shape of the rest of the structure).
(defmulti mspec :tag)
The methods should ignore their argument and return a predicate/spec:
(defmethod mspec :int [_] (s/keys :req-un [::tag ::i]))
retag is used during generation to retag generated values with
matching tags. retag can either be a keyword, at which key the
dispatch-tag will be assoc'ed, or a fn of generated value and
dispatch-tag that should return an appropriately retagged value.
Note that because the tags themselves comprise an open set,
the tag key spec cannot enumerate the values, but can e.g.
test for keyword?.
Note also that the dispatch values of the multimethod will be
included in the path, i.e. in reporting and gen overrides, even
though those values are not evident in the spec.
(nilable pred)
returns a spec that accepts nil and values satisfying pred
(nonconforming spec)
takes a spec and returns a spec that has the same properties except
'conform' returns the original (not the conformed) value. Note, will specize regex ops.
(or & key-pred-forms)
Takes key+pred pairs, e.g.
(s/or :even even? :small #(< % 42))
Returns a destructuring spec that returns a map entry containing the
key of the first matching pred and the corresponding value. Thus the
'key' and 'val' functions can be used to refer generically to the
components of the tagged return.
(regex? x)
returns x if x is a (clojure.spec) regex op, else logical false
(registry)
returns the registry map, prefer 'get-spec' to lookup a spec by name
(spec form & {:keys [gen]})
Takes a single predicate form, e.g. can be the name of a predicate,
like even?, or a fn literal like #(< % 42). Note that it is not
generally necessary to wrap predicates in spec when using the rest
of the spec macros, only to attach a unique generator
Can also be passed the result of one of the regex ops -
cat, alt, *, +, ?, in which case it will return a regex-conforming
spec, useful when nesting an independent regex.
---
Optionally takes :gen generator-fn, which must be a fn of no args that
returns a test.check generator.
Returns a spec.
(spec? x)
returns x if x is a spec object, else logical false
(tuple & preds)
takes one or more preds and returns a spec for a tuple, a vector
where each element conforms to the corresponding pred. Each element
will be referred to in paths using its ordinal.
(unform spec x)
Given a spec and a value created by or compliant with a call to
'conform' with the same spec, returns a value with all conform
destructuring undone.
(with-gen spec gen-fn)
Takes a spec and a no-arg, generator-returning fn and returns a version of that spec that uses that generator