Class: matlab.unittest.plugins.TestReportPlugin
Package: matlab.unittest.plugins
Constructs plugin that produces .pdf report
matlab.unittest.plugins.TestReportPlugin.producingPDF
constructs a plugin that produces a PDF report of test results in
a temporary folder. This syntax is equivalent to
matlab.unittest.plugins.TestReportPlugin.producingPDF([tempname
'.pdf']).
matlab.unittest.plugins.TestReportPlugin.producingPDF(
saves the report to the file pdfFile)pdfFile.
matlab.unittest.plugins.TestReportPlugin.producingPDF(
constructs a plugin with additional options specified by one or more
pdfFile,Name,Value)Name,Value pair arguments.
pdfFile — Name of test report.pdfName of the test report that the plugin creates, specified as a character
vector ending in .pdf.
Example: pdfFile = 'myReportFile.pdf'
Specify optional
comma-separated pairs of Name,Value arguments. Name is
the argument name and Value is the corresponding value.
Name must appear inside quotes. You can specify several name and value
pair arguments in any order as
Name1,Value1,...,NameN,ValueN.
TestReportPlugin.producingPDF(pdfFile,'PageOrientation','landscape')
creates a plugin that generates a report in landscape orientation.'PageOrientation' — Report orientation'portrait' (default) | 'landscape'Report orientation, specified as 'portrait' or 'landscape'.
By default the plugin produces a report with portrait orientation.
'IncludingCommandWindowText' — Include Command Window text in reportfalse (default) | trueInclude Command Window text in report, specified as false or
true. By default, IncludingCommandWindowText
is false and the text output from the Command Window is excluded from
the report. To include Command Window text in the report, specify
IncludingCommandWindowText as true.
Data Types: logical
'IncludingPassingDiagnostics' — Include passing event diagnosticsfalse (default) | trueInclude passing event diagnostics, specified as false or
true. By default, IncludingPassingDiagnostics
is false and the diagnostics from passing events are excluded from
the report. To include diagnostics from passing events in the report, specify
IncludingPassingDiagnostics as true.
Data Types: logical
'LoggingLevel' — Maximum level of logged diagnosticsmatlab.unittest.Verbosity enumeration | enumeration name as string or char vectorMaximum level at which logged diagnostics are included by the plugin instance, specified as an integer value from 0 through 4, a matlab.unittest.Verbosity enumeration object, or a string scalar or character vector corresponding to one of the predefined enumeration member names. The plugin includes diagnostics that are logged at this level and below. Integer values correspond to the members of the matlab.unittest.Verbosity enumeration.
| Numeric Representation | Enumeration Member Name | Verbosity Description |
|---|---|---|
0 | None | No information |
1 | Terse | Minimal information |
2 | Concise | Moderate amount of information |
3 | Detailed | Some supplemental information |
4 | Verbose | Lots of supplemental information |
By default the plugin includes diagnostics logged at the matlab.unittest.Verbosity.Terse level (level 1). To exclude logged diagnostics, specify LoggingLevel as Verbosity.None (level 0).
Logged diagnostics are diagnostics that you supply to the
testing framework with a call to the log (TestCase) or log
(Fixture) method.
.pdf FormatCreate a test suite from two test files, run the suite,
and generate a .pdf report of the results.
Create a new file in your working folder
named ScriptBasedTest.m containing the
following test script. The script includes two failing and incomplete
tests.
%% Test double class expSolution = 'double'; actSolution = ones; assert(isa(actSolution,expSolution)) %% Test single class expSolution = 'single'; actSolution = ones('single'); assert(isa(actSolution,expSolution)) %% Test uint16 class expSolution = 'uint16'; actSolution = ones('uint16'); assert(isa(actSolution,expSolution)) %% Test that fails assert(false==true); %% Another test that fails assert(strcmp('correlation','causation'))
Create a file named
ClassBasedTest.m containing the following test
class. The class includes a failing test that, with parameterization,
results in nine failed test results.
classdef ClassBasedTest < matlab.unittest.TestCase properties (ClassSetupParameter) generator = {'twister','combRecursive','multFibonacci'}; end properties (MethodSetupParameter) seed = {0,123,4294967295}; end properties (TestParameter) dim1 = struct('small',1,'medium',2,'large',3); dim2 = struct('small',2,'medium',3,'large',4); dim3 = struct('small',3,'medium',4,'large',5); type = {'single','double'}; end methods (TestClassSetup) function ClassSetup(testCase,generator) orig = rng; testCase.addTeardown(@rng,orig) rng(0, generator) end end methods (TestMethodSetup) function MethodSetup(testCase,seed) orig = rng; testCase.addTeardown(@rng,orig) rng(seed) end end methods (Test, ParameterCombination='sequential') function testSize(testCase,dim1,dim2,dim3) testCase.verifySize(rand(dim1,dim2,dim3),[dim1 dim2 dim3]) end end methods (Test, ParameterCombination='pairwise') function testRepeatable(testCase,dim1,dim2,dim3) state = rng; firstRun = rand(dim1,dim2,dim3); rng(state) secondRun = rand(dim1,dim2,dim3); testCase.verifyEqual(firstRun,secondRun); end end methods (Test) function testClass(testCase,dim1,dim2,type) testCase.verifyClass(rand(dim1,dim2,type),type) end end end
At the command prompt, create a test suite from both test files.
import matlab.unittest.TestRunner; import matlab.unittest.TestSuite; import matlab.unittest.plugins.TestReportPlugin; suite = testsuite({'ScriptBasedTest','ClassBasedTest'})
suite =
1×284 Test array with properties:
Name
ProcedureName
TestClass
BaseFolder
Parameterization
SharedTestFixtures
Tags
Tests Include:
17 Unique Parameterizations, 0 Shared Test Fixture Classes, 0 Tags..Create a silent test runner, so that there is no information output to
the command window. Create a TestReportPlugin that sends
output to the file MyTestReport.pdf.
runner = TestRunner.withNoPlugins;
pdfFile = 'MyTestReport.pdf';
plugin = TestReportPlugin.producingPDF(pdfFile);Add the plugin to the TestRunner and run the
suite.
runner.addPlugin(plugin); result = runner.run(suite)
Generating report. Please wait.
Preparing content for the report.
Adding content to the report.
Writing report to file.
Report has been saved to: C:\work\MyTestReport.pdf
result =
1×284 TestResult array with properties:
Name
Passed
Failed
Incomplete
Duration
Details
Totals:
282 Passed, 2 Failed, 2 Incomplete.
2.2054 seconds testing time.Open the test report.
open(pdfFile)
.pdf Report That Includes Passing DiagnosticsCreate a test suite from a function-based test, run the suite, and generate a report of the results. Include passing diagnostics and the text output to the Command Window.
Create a new file in your working folder named FunctionBasedTest.m containing
the following function-based test. The test file includes two failing
tests.
%% Main function to generate tests function tests = FunctionBasedTest tests = functiontests(localfunctions); end %% Test Functions function passingTest(testCase) actSolution = 13*3+7*5; expSolution = 74; verifyEqual(testCase,actSolution,expSolution) end function failingTest(testCase) actSolution = single(1); verifyTrue(testCase,actSolution) end function anotherPassingTest(testCase) verifyClass(testCase,string('some text'),'string') end function anotherFailingTest(testCase) verifyTrue(testCase,strcmp('42','everything')) end
At the command prompt, create a test suite from FunctionBasedTest.m.
Create a test runner that displays output to the command window using
the default plugin.
import matlab.unittest.TestRunner; import matlab.unittest.TestSuite; import matlab.unittest.plugins.TestReportPlugin; suite = testsuite('FunctionBasedTest'); runner = TestRunner.withTextOutput;
Create a TestReportPlugin that sends output
to the file MyTestReport2.pdf. Include passing
diagnostics and text output from the Command Window in the report.
pdfFile = 'MyTestReport2.pdf'; plugin = TestReportPlugin.producingPDF(pdfFile,... 'IncludingPassingDiagnostics',true,'IncludingCommandWindowText',true);
Add the plugin to the TestRunner and
run the suite.
runner.addPlugin(plugin); result = runner.run(suite);
Running FunctionBasedTest
.
================================================================================
Verification failed in FunctionBasedTest/failingTest.
---------------------
Framework Diagnostic:
---------------------
verifyTrue failed.
--> The value must be logical. It is of type "single".
Actual single:
1
------------------
Stack Information:
------------------
In C:\Work\FunctionBasedTest.m (failingTest) at 15
================================================================================
..
================================================================================
Verification failed in FunctionBasedTest/anotherFailingTest.
---------------------
Framework Diagnostic:
---------------------
verifyTrue failed.
--> The value must evaluate to "true".
Actual logical:
0
------------------
Stack Information:
------------------
In C:\Work\FunctionBasedTest.m (anotherFailingTest) at 23
================================================================================
.
Done FunctionBasedTest
__________
Failure Summary:
Name Failed Incomplete Reason(s)
===================================================================================
FunctionBasedTest/failingTest X Failed by verification.
-----------------------------------------------------------------------------------
FunctionBasedTest/anotherFailingTest X Failed by verification.
Generating report. Please wait.
Preparing content for the report.
Adding content to the report.
Writing report to file.
Report has been saved to: C:\Work\MyTestReport2.pdfOpen the test report.
open(pdfFile)
PDF test reports are generated based on your system locale and the font families installed on your machine. When generating a report with a non-English locale, unless your machine has the Noto Sans CJK font families installed, the report may have pound sign characters (#) in place of Chinese, Japanese, and Korean characters.