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242 lines
8.8 KiB
242 lines
8.8 KiB
Testing Kate
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==============
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Author: Leo Savernik
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Kate tqcontains regression tests to ensure that fixed bugs do not reappear in
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newer versions. To facilitate regression testing, a dedicated application
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testkateregression will execute the regression tests and compare them to the
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expecting results, indicating passed as well as failed testcases.
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1. Using testkateregression
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--------------------------
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We tried to make regression testing for Kate as easy as possible such that you
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can run it before each commit and tqfind out regressions caused by your changes
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before they are shipped as part of a release.
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Running all regression tests works by simply invoking
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> make check
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in your kate build directory. While executing, testkateregression prints a line
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for each executed testcase, prefixed with "PASS" if it passed, and "FAIL" if it
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failed. Furthermore, testkateregression stores a comprehensive output log under
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<katetests-directory>/output/index.html. The output log is invaluable for
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determining why a certain testcase failed.
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If you invoke testkateregression the first time, it will print instructions on
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how to fetch the testsuite and pointing testkateregression to it. This setup
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has only to be done once per branch.
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2. Discriminating your regressions against existing regressions
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--------------------------------------------------------------
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In an ideal universe, all testcases always pass. In this universe, however,
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some testcases fail, be it because of anticipating future features not
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implemented yet, be it because of nasty bugs which cannot be repaired easily.
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This means if you've hacked on kate for quite some while and then fire up
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"make check", you are likely to see many failed tests pass by, most of them
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*not* caused by your very changes, as they failed already before.
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To discriminate the failed tests caused by your changes against the unaffected
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failures, testkateregression provides the option --save-failures=<name>, which
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runs the regression tests and stores all failures under a failure snapshot
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identified by <name>.
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The next time you run "make check", testkateregression automatically picks up
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the most recently stored failure snapshot and compares the failures and passes
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with the one stored in the snapshot. Each failure not listed in the failure
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snapshot will be prefixed with "FAIL (new)", indicating that this is a new
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failure. Testcases which failed in the snapshot but do pass now are prefixed
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with "PASS (new)", indicating that this testcase seems to be fixed now.
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3. Using testkateregression efficiently
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--------------------------------------
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Therefore, to get the most out of regression testing, we suggest the following
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development approach:
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1. Before you change Kate, update and run testkateregression in the part-
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subdirectory.
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> make testkateregression && ./testkateregression --save-failures=last
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This will produce a failure snapshot called "last".
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2. Hack on Kate.
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3. Before you commit, run
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> make check
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It will automatically pick up the failure snapshot "last" (provided you
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didn't generate a newer one in the meantime) and compare all results with
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the previously stored ones.
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If you inspect <katetests-directory>/output/index.html, the new failures
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are marked red. Those are of interest to you, because they have been
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caused by your changes.
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New passes are marked green. These were former failures which started
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working due to your changes.
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Goto 2 while there are any new failures.
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4. Commit.
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4. Invoking testkateregression directly
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--------------------------------------
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While make check is handy and simple enough for the common case, you might
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sometimes need more control over regression testing.
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testkateregression features a broad range of options, enabling you to run
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dedicated testcases only, specifying an alternate output directory for the
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logs, etc.
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> ./testregression --help
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will provide you with a complete list of options.
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5. Structure of the regression test suite
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----------------------------------------
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Kate's regression testsuite is located in the KDE repository under
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trunk/tests/katetests/regression
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and consists of two subdirectories
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baseline
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tests
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The latter, tests, tqcontains a directory hierarchy for all testcases to be run
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by testkateregression. The former, baseline, tqcontains results as they are
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expected by correct operation. Mismatch between the output of a test and its
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baseline is considered to be a failure.
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Each directory under tests may optionally contain one of the following files.
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.kateconfig
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.kateconfig-commands
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ignore
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KNOWN_FAILURES
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.kateconfig: This file works exactly like .kateconfig as supported by the kate
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and kwrite editors. It may contain any kate line variable necessary to set up
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the testcases proper. Note that .kateconfig files from parent directories are
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not merged with .kateconfig files from child directories.
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.kateconfig-commands: This file may contain all commands that can be entered by
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kate's command line (F7). Each line will be interpreted as one command. To the
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contrary of .kateconfig, .kateconfig-commands files are merged with
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.kateconfig-commands files from parent directories. Nearer ancestors' commands
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take precedence over farther ancestors'.
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ignore: This file specifies on each line a file to be ignored in the directory
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the ignore-file is located. This enables you to mark any helper files which
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otherwise would be interpreted as testcases. Note that hidden files (.*) are
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ignored by default, and cannot be "unignored".
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KNOWN_FAILURES: This file specifies on each line a file name of a testcase
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which is known to fail. Such known failures are counted towards the total count
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of failures but they don't cause testkateregression to return a failure code.
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6. Structure of a testcase
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-------------------------
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A testcase is comprised of a simple plain text file <testcase>.txt which may
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be located in any subdirectory under tests. This file tqcontains the *initial*
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content the testcase operates on.
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Each <testcase>.txt must be accompanied with a <testcase>.txt-script which
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tqcontains the actual tests to be performed on the testcase. It consists of
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simple JavaScript-statements for direct interfacing with Kate.
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Last but not least, a <testcase>.txt-result exists under the baseline
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subdirectory, which tqcontains a mirrored directory hierarchy of tests. This very
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file tqcontains the expected *result* of the performed tests.
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7. Writing a simple testcase
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---------------------------
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Writing your own testcases is easy once you know how to get started. Let's
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test how Kate's C-Style indenter fares with indenting after opening braces.
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First, we create the new initial content under tests/indent/csmart/openbrc.txt
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and fill it with (the dashed lines are not part of the content)
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---------------------------
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int main() {
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---------------------------
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Now, we need to write a script performing some actions. We therefore create
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a file tests/indent/csmart/openbrc.txt-script and fill it with
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---------------------------
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v.setCursorPosition(1,12);
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v.enter();
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v.type("good");
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---------------------------
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Here, we set the initial cursor position to line 2 (the coordinates are zero-
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based) and column 13 which happens to be just after the opening brace. Then
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v.enter() simulates pressing the return key in the editor, thus inserting a
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new line. v.type simulates typing of the word "good" at the current position
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of the cursor.
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The options under .kateconfig specify the C-Style indenter to be applied to the
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testcases and an indent width of two. With this information, we know what we
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expect as a result.
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What we are still missing is the expected result itself which we create under
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baseline/indent/csmart/openbrc.txt-result and fill it with
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---------------------------
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int main() {
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good
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---------------------------
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You can see that "good" is indented by two spaces, even though we didn't
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specify those with v.type. We expect from the indenter to provide them for us.
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Last but not least we test the testcase by invoking in kate's part directory
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> ./testkateregression indent/csmart/openbrc.txt
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and checking whether it works the way we intended it.
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7. The JavaScript-interface to the testcases
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-------------------------------------------
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testkateregression provides you with the following global objects for each
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testcase:
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v - object of view
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d - object of document
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Each object provides the same methods and fields as the respective JavaScript-
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interfaces built in to Kate, like v.setCursorPosition.
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Additionally, v provides the following methods unique to testkateregression.
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type(<string>)
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Inserts <string> into the current cursor position as if <string> had
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been typed by the keyboard. Contrary to insert(<string>), it will
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trigger indentation and other checks.
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enter(), returnKey()
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Inserts a new line as if the return key had been pressed. This will
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trigger special indentation rules.
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