;;;-*- Mode: Lisp; Syntax: ANSI-Common-Lisp -*-
#|
Copyright (c) 2004-2005, Christopher K. Riesbeck
Copyright (c) 2009-2016, Thomas M. Hermann
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the Software),
to deal in the Software without restriction, including without limitation
the rights to use, copy, modify, merge, publish, distribute, sublicense,
and/or sell copies of the Software, and to permit persons to whom the
Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included
in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED AS IS, WITHOUT WARRANTY OF ANY KIND, EXPRESS
OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR
OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
OTHER DEALINGS IN THE SOFTWARE.
How to use
–
1. Read the documentation at:
https://github.com/OdonataResearchLLC/lisp-unit/wiki
2. Make a file of DEFINE-TESTs. See exercise-tests.lisp for many
examples. If you want, start your test file with (REMOVE-TESTS :ALL)
to clear any previously defined tests.
3. Load this file.
4. (use-package :lisp-unit)
5. Load your code file and your file of tests.
6. Test your code with (RUN-TESTS (test-name1 test-name2 )) or
simply (RUN-TESTS :ALL) to run all defined tests.
A summary of how many tests passed and failed will be printed.
NOTE: Nothing is compiled until RUN-TESTS is expanded. Redefining
functions or even macros does not require reloading any tests.
|#
;;; Packages
(in-package :cl-user)
(defpackage :lisp-unit
(:use :common-lisp)
;; Print parameters
(:export :*print-summary*
:*print-failures*
:*print-errors*
:*summarize-results*)
;; Forms for assertions
(:export :assert-eq
:assert-eql
:assert-equal
:assert-equalp
:assert-equality
:assert-prints
:assert-expands
:assert-true
:assert-test
:assert-false
:assert-nil
:assert-error)
;; Functions for managing tests
(:export :define-test
:list-tests
:test-code
:test-documentation
:remove-tests
:run-tests
:use-debugger)
;; Functions for managing tags
(:export :list-tags
:tagged-tests
:remove-tags
:run-tags)
;; Functions for reporting test results
(:export :test-names
:failed-tests
:error-tests
:missing-tests
:print-failures
:print-errors
:summarize-results)
;; Functions for test results
(:export :reduce-test-results-dbs)
;; Functions for extensibility via signals
(:export :signal-results
:test-run-complete
:results)
;; Utility predicates
(:export :logically-equal :set-equal))
(in-package :lisp-unit)
;;; Global counters
(defparameter *pass* 0
The passed assertion results.)
(defparameter *fail* ()
The failed assertion results.)
(defun reset-counters ()
Reset the counters to empty lists.
(setf *pass* 0 *fail* ()))
;;; Global options
(defparameter *print-summary* nil
Print a summary of the pass, fail, and error count if non-nil.)
(defparameter *print-failures* nil
Print failure messages if non-NIL.)
(defparameter *print-errors* nil
Print error messages if non-NIL.)
(defparameter *summarize-results* t
Summarize all of the unit test results.)
(defparameter *use-debugger* nil
If not NIL, enter the debugger when an error is encountered in an
assertion.)
(defun use-debugger (&optional (flag t))
Use the debugger when testing, or not.
(setq *use-debugger* flag))
(defun use-debugger-p (condition)
Debug or ignore errors.
(cond
((eq :ask *use-debugger*)
(y-or-n-p ~A debug? condition))
(*use-debugger*)))
(defparameter *signal-results* nil
Signal the result if non NIL.)
(defun signal-results (&optional (flag t))
Signal the results for extensibility.
(setq *signal-results* flag))
;;; Global unit test database
(defparameter *test-db* (make-hash-table :test #eq)
The unit test database is simply a hash table.)
(defun null-tests-warning-report (null-tests-warning stream)
Write the null-tests-warning to the stream.
(format stream No tests defined for package ~A.
(tests-package-name null-tests-warning)))
(define-condition null-tests-warning (simple-warning)
((name
:type string
:initarg :name
:reader tests-package-name))
(:report null-tests-warning-report))
(defun package-table (package &optional create)
(let ((packobj (find-package package)))
(cond
((gethash packobj *test-db*))
(create
(setf (gethash packobj *test-db*) (make-hash-table)))
(t (warn null-tests-warning :name (package-name package))))))
(defmacro with-package-table ((table
&optional (package *package*) create)
&body body)
Execute the body only if the package table exists.
(let ((gtable (gensym TABLE-)))
`(let* ((,gtable (package-table ,package ,create))
(,table ,gtable))
(when (hash-table-p ,gtable) ,@body))))
;;; Global tags database
(defparameter *tag-db* (make-hash-table :test #eq)
The tag database is simply a hash table.)
(defun null-tags-warning-report (null-tags-warning stream)
Write the null-tags-warning to the stream.
(format stream No tags defined for package ~A.
(tags-package-name null-tags-warning)))
(define-condition null-tags-warning (simple-warning)
((name
:type string
:initarg :name
:reader tags-package-name))
(:report null-tags-warning-report))
(defun package-tags (package &optional create)
Return the tags DB for the package.
(let ((packobj (find-package package)))
(cond
((gethash packobj *tag-db*))
(create
(setf (gethash packobj *tag-db*) (make-hash-table)))
(t (warn null-tags-warning :name (package-name package))))))
(defmacro with-package-tags ((table
&optional (package *package*) create)
&body body)
Execute the body only if the package tags exists.
(let ((gtable (gensym TABLE-)))
`(let* ((,gtable (package-tags ,package ,create))
(,table ,gtable))
(when (hash-table-p ,gtable) ,@body))))
;;; Unit test definition
(defclass unit-test ()
((doc
:type string
:initarg :doc
:reader doc)
(code
:type list
:initarg :code
:reader code))
(:default-initargs :doc :code ())
(:documentation
Organize the unit test documentation and code.))
;;; NOTE: Shamelessly taken from PGs analyze-body
(defun parse-body (body &optional doc tag)
Separate the components of the body.
(let ((item (first body)))
(cond
((and (listp item) (eq :tag (first item)))
(parse-body (rest body) doc (nconc (rest item) tag)))
((and (stringp item) (not doc) (rest body))
(if tag
(values doc tag (rest body))
(parse-body (rest body) item tag)))
(t (values doc tag body)))))
(defun test-name-error-report (test-name-error stream)
Write the test-name-error to the stream.
(format stream Test name ~S is not of type ~A.
(type-error-datum test-name-error)
(type-error-expected-type test-name-error)))
(define-condition test-name-error (type-error)
()
(:default-initargs :expected-type symbol)
(:report test-name-error-report)
(:documentation
The test name error is a type error.))
(defun valid-test-name (name)
Signal a type-error if the test name is not a symbol.
(if (symbolp name)
name
(error test-name-error :datum name)))
(defun test-package (name)
Return the package for storing the test.
(multiple-value-bind (symbol status)
(find-symbol (symbol-name name))
(declare (ignore symbol))
(ecase status
((:internal :external nil)
(symbol-package name))
(:inherited *package*))))
(defmacro define-test (name &body body)
Store the test in the test database.
(let ((qname (gensym NAME-)))
(multiple-value-bind (doc tag code) (parse-body body)
`(let* ((,qname (valid-test-name ,name))
(doc (or ,doc (symbol-name ,qname)))
(package (test-package ,qname)))
(setf
;; Unit test
(gethash ,qname (package-table package t))
(make-instance unit-test :doc doc :code ,code))
;; Tags
(loop
for tag in ,tag do
(pushnew ,qname (gethash tag (package-tags package t))))
;; Return the name of the test
,qname))))
;;; Manage tests
(defun list-tests (&optional (package *package*))
Return a list of the tests in package.
(with-package-table (table package)
(loop for test-name being each hash-key in table
collect test-name)))
(defun test-documentation (name &optional (package *package*))
Return the documentation for the test.
(with-package-table (table package)
(let ((unit-test (gethash name table)))
(if (null unit-test)
(warn No test ~A in package ~A.
name (package-name package))
(doc unit-test)))))
(defun test-code (name &optional (package *package*))
Returns the code stored for the test name.
(with-package-table (table package)
(let ((unit-test (gethash name table)))
(if (null unit-test)
(warn No test ~A in package ~A.
name (package-name package))
(code unit-test)))))
(defun remove-tests (&optional (names :all) (package *package*))
Remove individual tests or entire sets.
(if (eq :all names)
(if (null package)
(clrhash *test-db*)
(progn
(remhash (find-package package) *test-db*)
(remhash (find-package package) *tag-db*)))
(progn
;; Remove tests
(with-package-table (table package)
(loop for name in names
unless (remhash name table) do
(warn No test ~A in package ~A to remove.
name (package-name package))))
;; Remove tests from tags
(with-package-tags (tags package)
(loop for tag being each hash-key in tags
using (hash-value tagged-tests)
do
(setf
(gethash tag tags)
(set-difference tagged-tests names)))))))
;;; Manage tags
(defun %tests-from-all-tags (&optional (package *package*))
Return all of the tests that have been tagged.
(with-package-tags (table package)
(loop for tests being each hash-value in table
nconc (copy-list tests) into all-tests
finally (return (delete-duplicates all-tests)))))
(defun %tests-from-tags (tags &optional (package *package*))
Return the tests associated with the tags.
(with-package-tags (table package)
(loop for tag in tags
as tests = (gethash tag table)
if (null tests) do (warn No tests tagged with ~S. tag)
else nconc (copy-list tests) into all-tests
finally (return (delete-duplicates all-tests)))))
(defun list-tags (&optional (package *package*))
Return a list of the tags in package.
(with-package-tags (table package)
(loop for tag being each hash-key in table collect tag)))
(defun tagged-tests (&optional (tags :all) (package *package*))
Return a list of the tests associated with the tags.
(if (eq :all tags)
(%tests-from-all-tags package)
(%tests-from-tags tags package)))
(defun remove-tags (&optional (tags :all) (package *package*))
Remove individual tags or entire sets.
(if (eq :all tags)
(if (null package)
(clrhash *tag-db*)
(remhash (find-package package) *tag-db*))
(with-package-tags (tag-table package)
(loop for tag in tags
unless (remhash tag tag-table) do
(warn No tag ~A in package ~A to remove.
tag (package-name package))))))
;;; Assert macros
(defmacro assert-eq (expected form &rest extras)
Assert whether expected and form are EQ.
`(expand-assert :equal ,form ,form ,expected ,extras :test #eq))
(defmacro assert-eql (expected form &rest extras)
Assert whether expected and form are EQL.
`(expand-assert :equal ,form ,form ,expected ,extras :test #eql))
(defmacro assert-equal (expected form &rest extras)
Assert whether expected and form are EQUAL.
`(expand-assert :equal ,form ,form ,expected ,extras :test #equal))
(defmacro assert-equalp (expected form &rest extras)
Assert whether expected and form are EQUALP.
`(expand-assert :equal ,form ,form ,expected ,extras :test #equalp))
(defmacro assert-error (condition form &rest extras)
Assert whether form signals condition.
`(expand-assert :error ,form (expand-error-form ,form)
,condition ,extras))
(defmacro assert-expands (expansion form &rest extras)
Assert whether form expands to expansion.
`(expand-assert :macro ,form
(expand-macro-form ,form nil)
,expansion ,extras))
(defmacro assert-equality (test expected form &rest extras)
Assert whether expected and form are equal according to test.
`(expand-assert :equal ,form ,form ,expected ,extras :test ,test))
(defmacro assert-prints (output form &rest extras)
Assert whether printing the form generates the output.
`(expand-assert :output ,form (expand-output-form ,form)
,output ,extras))
(defmacro assert-nil (form &rest extras)
Assert whether the form is false.
(if (atom form)
`(expand-assert :result ,form ,form nil ,extras)
`(expand-t-or-f nil ,form ,extras)))
(defmacro assert-false (form &rest extras)
Assert whether the form is false.
(if (atom form)
`(expand-assert :result ,form ,form nil ,extras)
`(expand-t-or-f nil ,form ,extras)))
(defmacro assert-true (form &rest extras)
Assert whether the form is true.
(if (atom form)
`(expand-assert :result ,form ,form t ,extras)
`(expand-t-or-f t ,form ,extras)))
(defmacro expand-t-or-f (t-or-f form extras)
Expand the true/false assertions to report the arguments.
(let ((fname (gensym))
(args (gensym)))
`(let ((,fname ,(car form))
(,args (list ,@(cdr form))))
(if (macro-function ,fname)
;; Do not report macro arguments
(internal-assert
:result ,form
(lambda () ,form)
(lambda () ,t-or-f)
;; Concatenate the args with the extras
;; FIXME: Need to test whether the args are expanded at
;;the right time
(lambda ()
(nconc
(mapcan #list ,(cdr form) ,args)
(funcall (expand-extras ,extras))))
#eql)
;; Report function arguments
(internal-assert
:result ,form
(lambda () (apply ,fname ,args)) ; Evaluate the form
(lambda () ,t-or-f)
;; Concatenate the args with the extras
(lambda ()
(nconc
(mapcan #list ,(cdr form) ,args)
(funcall (expand-extras ,extras))))
#eql)))))
(defmacro expand-assert (type form body expected extras &key (test #eql))
Expand the assertion to the internal format.
`(internal-assert ,type ,form
(lambda () ,body)
(lambda () ,expected)
(expand-extras ,extras)
,test))
(defmacro expand-error-form (form)
Wrap the error assertion in HANDLER-CASE.
`(handler-case ,form
(condition (error) error)))
(defmacro expand-output-form (form)
Capture the output of the form in a string.
(let ((out (gensym)))
`(let* ((,out (make-string-output-stream))
(*standard-output*
(make-broadcast-stream *standard-output* ,out)))
,form
(get-output-stream-string ,out))))
(defmacro expand-macro-form (form env)
Expand the macro form once.
`(let ((*gensym-counter* 1))
(macroexpand-1 ,form ,env)))
(defmacro expand-extras (extras)
Expand extra forms.
`(lambda ()
(list ,@(mapcan (lambda (form) (list `,form form)) extras))))
(defgeneric assert-result (type test expected actual)
(:documentation
Return the result of the assertion.))
(defgeneric record-failure (type form actual expected extras test)
(:documentation
Record the details of the failure.))
(defclass failure-result ()
((form
:initarg :form
:reader form)
(actual
:type list
:initarg :actual
:reader actual)
(expected
:type list
:initarg :expected
:reader expected)
(extras
:type list
:initarg :extras
:reader extras)
(test
:type function
:initarg :test
:reader test))
(:documentation
Failure details of the assertion.))
(defun %record-failure (class form actual expected extras test)
Return an instance of the failure result.
(make-instance class
:form form
:actual actual
:expected expected
:extras extras
:test test))
(defclass equal-result (failure-result)
()
(:documentation
Result of a failed equal assertion.))
(defmethod assert-result ((type (eql :equal)) test expected actual)
Return the result of an equal assertion.
(and
(<= (length expected) (length actual)) (every test expected actual)))(defmethod record-failure ((type (eql :equal)) form actual expected extras test)”Return an instance of an equal failure result.”(%record-failure ‘equal-result form actual expected extras test))(defclass error-result (failure-result)()(:documentation “Result of a failed error assertion.”))(defmethod assert-result ((type (eql :error)) test expected actual)”Return the result of an error assertion.”(declare (ignore test))(or (eql (car actual) (car expected)) (typep (car actual) (car expected))))(defmethod record-failure ((type (eql :error)) form actual expected extras test)”Return an instance of an error failure result.”(%record-failure ‘error-result form actual expected extras test))(defclass macro-result (failure-result)()(:documentation “Result of a failed macro expansion assertion.”))(defun %expansion-equal (form1 form2)”Descend into the forms checking for equality.”(let ((item1 (first form1))(item2 (first form2)))(cond ((and (null item1) (null item2))) ((and (listp item1) (listp item2))(and (%expansion-equal item1 item2) (%expansion-equal (rest form1) (rest form2)))) ((and (symbolp item1) (symbolp item2))(and (string= (symbol-name item1) (symbol-name item2)) (%expansion-equal (rest form1) (rest form2)))) (t (and (equal item1 item2) (%expansion-equal (rest form1) (rest form2)))))))(defmethod assert-result ((type (eql:macro)) test expected actual)”Return the result of a macro assertion.”(declare (ignore test))(%expansion-equal (first expected) (first actual)))(defmethod record-failure ((type (eql :macro)) form actual expected extras test)”Return an instance of a macro failure result.”(%record-failure ‘macro-result form actual expected extras test))(defclass boolean-result (failure-result)()(:documentation “Result of a failed boolean assertion.”))(defmethod assert-result ((type (eql :result)) test expected actual)”Return the result of a result assertion.”(declare (ignore test))(logically-equal (car actual) (car expected)))(defmethod record-failure ((type (eql :result)) form actual expected extras test)”Return an instance of a boolean failure result.”(%record-failure ‘boolean-result form actual expected extras test))(defclass output-result (failure-result)()(:documentation “Result of a failed output assertion.”))(defmethod assert-result ((type (eql :output)) test expected actual)”Return the result of an output assertion.”(declare (ignore test))(string= (string-trim ‘(#
ewline #return #space) (car actual)) (car expected)))(defmethod record-failure ((type (eql :output)) form actual expected extras test)”Return an instance of an output failure result.”(%record-failure ‘output-result form actual expected extras test))(defun internal-assert (type form code-thunk expected-thunk extras test)”Perform the assertion and record the results.”(let* ((actual (multiple-value-list (funcall code-thunk))) (expected (multiple-value-list (funcall expected-thunk))) (result (assert-result type test expected actual)))(if result(incf *pass*)(push (record-failuretype form actual expected(when extras (funcall extras)) test) *fail*));; Return the resultresult));;; Unit test results(defclass test-result ()((name:type symbol:initarg :name:reader name) (pass:type fixnum:initarg :pass:reader pass) (fail:type list:initarg :fail:reader fail) (exerr:initarg :exerr:reader exerr) (run-time:initarg :run-time:reader run-time:documentation”Test run time measured in internal time units”))(:default-initargs :exerr nil)(:documentation “Store the results of the unit test.”))(defun print-summary (test-result &optional(stream *standard-output*))”Print a summary of the test result.”(format stream “~&~A: ~S assertions passed, ~S failed”(name test-result)(pass test-result)(length (fail test-result)))(if (exerr test-result)(format stream “, and an execution error.”)(write-char #. stream))(terpri stream)(terpri stream))(defun run-code (code)”Run the code to test the assertions.”(funcall (coerce `(lambda () ,@code) ‘function)))(defun run-test-thunk (name code)(let ((*pass* 0)(*fail* ())(start (get-internal-run-time)))(handler-bind((error(lambda (condition)(if (use-debugger-p condition)condition(return-from run-test-thunk(make-instance ‘test-result :name name :pass *pass* :fail *fail* :run-time (- (get-internal-run-time) start) :exerr condition))))))(run-code code));; Return the result count(make-instance ‘test-result :name name :pass *pass* :fail *fail* :run-time (- (get-internal-run-time) start))));;; Test results database(defclass test-results-db ()((database:type hash-table:initform (make-hash-table :test #’eq):reader database) (pass:type fixnum:initform 0:accessor pass) (fail:type fixnum:initform 0:accessor fail) (exerr:type fixnum:initform 0:accessor exerr) (failed-tests:type list:initform ():accessor failed-tests) (error-tests:type list:initform ():accessor error-tests) (missing-tests:type list:initform ():accessor missing-tests))(:documentation “Store the results of the tests for further evaluation.”))(defmethod print-object ((object test-results-db) stream)”Print the summary counts with the object.”(let ((pass (pass object))(fail (fail object))(exerr (exerr object)))(format stream “#<~A Total(~D) Passed(~D) Failed(~D) Errors(~D)>~%
(class-name (class-of object))
(+ pass fail) pass fail exerr)))
(defun test-names (test-results-db)
Return a list of the test names in the database.
(loop for name being each hash-key in (database test-results-db)
collect name))
(defun record-result (test-name code results)
Run the test code and record the result.
(let ((result (run-test-thunk test-name code)))
;; Store the result
(setf (gethash test-name (database results)) result)
;; Count passed tests
(when (plusp (pass result))
(incf (pass results) (pass result)))
;; Count failed tests and record the name
(when (fail result)
(incf (fail results) (length (fail result)))
(push test-name (failed-tests results)))
;; Count errors and record the name
(when (exerr result)
(incf (exerr results))
(push test-name (error-tests results)))
;; Running output
(when *print-failures* (print-failures result))
(when *print-errors* (print-errors result))
(when (or *print-summary* *print-failures* *print-errors*)
(print-summary result))))
(defun summarize-results (results &optional
(stream *standard-output*))
Print a summary of all results to the stream.
(let ((pass (pass results))
(fail (fail results)))
(format stream ~&Unit Test Summary~%)
(format stream | ~D assertions total~% (+ pass fail))
(format stream | ~D passed~% pass)
(format stream | ~D failed~% fail)
(format stream | ~D execution errors~% (exerr results))
(format stream | ~D missing tests~2%
(length (missing-tests results)))))
(defun default-db-merge-function (results new-results)
Signal an error by default if a merge is required.
(lambda (key value1 value2)
(error
Cannot merge TEST-RESULTS-DB instances ~A and ~A as key ~A has
two values, ~A and ~A
results new-results key value1 value2)))
(defun nappend-test-results-db (results new-results &key merge)
Merge the results of NEW-RESULTS in to RESULTS. Any conflicts
between RESULTS and NEW-RESULTS are handled by the function MERGE.
The lambda list for the MERGE functions is
(key results-value new-results-value)
where:
KEY is the key which appears in RESULTS and NEW-RESULTS.
RESULTS-VALUE is the value appearing RESULTS.
NEW-RESULTS-VALUE is the value appearing in NEW-RESULTS.
If MERGE is NIL, then an error is signalled when a conflict occurs.
(check-type results test-results-db)
(check-type new-results test-results-db)
(check-type merge (or null function))
(loop
with results-db = (database results)
with new-results-db = (database new-results)
with merge =
(or merge (default-db-merge-function results new-results))
;; Merge test databases
for key being each hash-key in new-results-db
using (hash-value new-results-value)
do
(multiple-value-bind (results-value presentp)
(gethash key results-db)
(setf
(gethash key results-db)
(if presentp
(funcall merge key results-value new-results-value)
new-results-value)))
finally
;; Update counters
(incf (pass results) (pass new-results))
(incf (fail results) (fail new-results))
(incf (exerr results) (exerr new-results))
;; Merge failures, errors, and missing test details
(setf
;; Failures
(failed-tests results)
(append (failed-tests results) (failed-tests new-results))
;; Errors
(error-tests results)
(append (error-tests results) (error-tests new-results))
;; Missing tests
(missing-tests results)
(append (missing-tests results) (missing-tests new-results))))
;; Return the merged results
results)
(defun reduce-test-results-dbs (all-results &key merge)
Return a new instance of TEST-RESULTS-DB which contains all of the
results in the sequence RESULTS. Any conflicts are handled by the
function MERGE.
The lambda list for the MERGE function is
(key value-1 value-2)
where:
KEY is the key which appears at least twice in the sequence RESULTS.
VALUE-1 and VALUE-2 are the conflicting values for the given KEY.
If MERGE is NIL, then an error is signalled when a conflict occurs.
(loop
with accumulated-test-results-db = (make-instance test-results-db)
for new-results in all-results do
(nappend-test-results-db
accumulated-test-results-db new-results :merge merge)
finally (return accumulated-test-results-db)))
;;; Run the tests
(define-condition test-run-complete ()
((results
:type test-results-db
:initarg :results
:reader results))
(:documentation
Signaled when a test run is finished.))
(defun %run-all-thunks (&optional (package *package*))
Run all of the test thunks in the package.
(with-package-table (table package)
(loop
with results = (make-instance test-results-db)
for test-name being each hash-key in table
using (hash-value unit-test)
if unit-test do
(record-result test-name (code unit-test) results)
else do
(push test-name (missing-tests results))
;; Summarize and return the test results
finally
(when *signal-results*
(signal test-run-complete :results results))
(when *summarize-results*
(summarize-results results))
(return results))))
(defun %run-thunks (test-names &optional (package *package*))
Run the list of test thunks in the package.
(with-package-table (table package)
(loop
with results = (make-instance test-results-db)
for test-name in test-names
as unit-test = (gethash test-name table)
if unit-test do
(record-result test-name (code unit-test) results)
else do
(push test-name (missing-tests results))
finally
(when *signal-results*
(signal test-run-complete :results results))
(when *summarize-results*
(summarize-results results))
(return results))))
(defun run-tests (&optional (test-names :all) (package *package*))
Run the specified tests in package.
(reset-counters)
(if (eq :all test-names)
(%run-all-thunks package)
(%run-thunks test-names package)))
(defun run-tags (&optional (tags :all) (package *package*))
Run the tests associated with the specified tags in package.
(reset-counters)
(%run-thunks (tagged-tests tags package) package))
;;; Print failures
(defgeneric print-failures (result &optional stream)
(:documentation
Report the results of the failed assertion.))
(defmethod print-failures :around ((result failure-result) &optional
(stream *standard-output*))
Failure header and footer output.
(format stream ~& | Failed Form: ~S (form result))
(call-next-method)
(when (extras result)
(format stream ~{~& | ~S => ~S~}~% (extras result)))
(format stream ~& |~%))
(defmethod print-failures ((result failure-result) &optional
(stream *standard-output*))
(format stream ~& | Expected ~{~S~^; ~} (expected result))
(format stream ~<~% | ~:;but saw ~{~S~^; ~}~> (actual result)))
(defmethod print-failures ((result error-result) &optional
(stream *standard-output*))
(format stream ~& | ~@[Should have signalled ~{~S~^; ~} but saw~]
(expected result))
(format stream ~{~S~^; ~} (actual result)))
(defmethod print-failures ((result macro-result) &optional
(stream *standard-output*))
(format stream ~& | Should have expanded to ~{~S~^; ~}
(expected result))
(format stream ~<~%~:;but saw ~{~S~^; ~}~> (actual result)))
(defmethod print-failures ((result output-result) &optional
(stream *standard-output*))
(format stream ~& | Should have printed ~{~S~^; ~}
(expected result))
(format stream ~<~%~:;but saw ~{~S~^; ~}~>
(actual result)))
(defmethod print-failures ((result test-result) &optional
(stream *standard-output*))
Print the failed assertions in the unit test.
(loop for fail in (fail result) do
(print-failures fail stream)))
(defmethod print-failures ((results test-results-db) &optional
(stream *standard-output*))
Print all of the failure tests.
(loop with db = (database results)
for test in (failed-tests results)
as result = (gethash test db)
do
(print-failures result stream)
(print-summary result stream)))
;;; Print errors
(defgeneric print-errors (result &optional stream)
(:documentation
Print the error condition.))
(defmethod print-errors ((result test-result) &optional
(stream *standard-output*))
Print the error condition.
(let ((exerr (exerr result))
(*print-escape* nil))
(when exerr
(format stream ~& | Execution error:~% | ~W exerr)
(format stream ~& |~%))))
(defmethod print-errors ((results test-results-db) &optional
(stream *standard-output*))
Print all of the error tests.
(loop with db = (database results)
for test in (error-tests results)
as result = (gethash test db)
do
(print-errors result stream)
(print-summary result stream)))
;;; Useful equality predicates for tests
(defun logically-equal (x y)
Return true if x and y are both false or both true.
(eql (not x) (not y)))
(defun set-equal (list1 list2 &rest initargs &key key (test #equal))
Return true if every element of list1 is an element of list2 and
vice versa.
(declare (ignore key test))
(and
(listp list1)
(listp list2)
(apply #subsetp list1 list2 initargs)
(apply #subsetp list2 list1 initargs)))
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