Mercurial > hg > octave-lyh
view scripts/testfun/test.m @ 17344:b81b9d079515
Use '##' for comments which stand alone on a line.
* libinterp/corefcn/besselj.cc, libinterp/corefcn/conv2.cc,
libinterp/corefcn/pinv.cc, libinterp/corefcn/rand.cc,
libinterp/corefcn/regexp.cc, libinterp/corefcn/sqrtm.cc,
libinterp/dldfcn/qr.cc, libinterp/parse-tree/pt-eval.cc,
scripts/general/cplxpair.m, scripts/general/repmat.m, scripts/help/doc.m,
scripts/help/doc_cache_create.m, scripts/image/colorcube.m,
scripts/image/hsv2rgb.m, scripts/image/image.m, scripts/io/strread.m,
scripts/io/textscan.m, scripts/miscellaneous/bzip2.m,
scripts/miscellaneous/edit.m, scripts/miscellaneous/gzip.m,
scripts/optimization/__all_opts__.m, scripts/optimization/fminbnd.m,
scripts/optimization/sqp.m, scripts/pkg/private/get_forge_pkg.m,
scripts/plot/area.m, scripts/plot/stemleaf.m, scripts/plot/surfc.m,
scripts/plot/uiresume.m, scripts/plot/zlabel.m, scripts/polynomial/mkpp.m,
scripts/polynomial/ppval.m, scripts/set/intersect.m, scripts/signal/freqz.m,
scripts/sparse/pcg.m, scripts/sparse/pcr.m, scripts/sparse/svds.m,
scripts/sparse/treelayout.m, scripts/specfun/ellipke.m,
scripts/special-matrix/toeplitz.m, scripts/strings/dec2base.m,
scripts/strings/strsplit.m, scripts/testfun/test.m, test/build-sparse-tests.sh,
test/index.tst, test/system.tst:
Use '##' for comments which stand alone on a line.
| author | Rik <rik@octave.org> |
|---|---|
| date | Wed, 28 Aug 2013 08:27:38 -0700 |
| parents | bc924baa2c4e |
| children |
line wrap: on
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## Copyright (C) 2005-2012 Paul Kienzle ## ## This file is part of Octave. ## ## Octave is free software; you can redistribute it and/or modify it ## under the terms of the GNU General Public License as published by ## the Free Software Foundation; either version 3 of the License, or (at ## your option) any later version. ## ## Octave is distributed in the hope that it will be useful, but ## WITHOUT ANY WARRANTY; without even the implied warranty of ## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ## General Public License for more details. ## ## You should have received a copy of the GNU General Public License ## along with Octave; see the file COPYING. If not, see ## <http://www.gnu.org/licenses/>. ## -*- texinfo -*- ## @deftypefn {Command} {} test @var{name} ## @deftypefnx {Command} {} test @var{name} quiet|normal|verbose ## @deftypefnx {Function File} {} test ("@var{name}", "quiet|normal|verbose", @var{fid}) ## @deftypefnx {Function File} {} test ([], "explain", @var{fid}) ## @deftypefnx {Function File} {@var{success} =} test (@dots{}) ## @deftypefnx {Function File} {[@var{n}, @var{max}] =} test (@dots{}) ## @deftypefnx {Function File} {[@var{code}, @var{idx}] =} test ("@var{name}", "grabdemo") ## ## Perform tests from the first file in the loadpath matching @var{name}. ## @code{test} can be called as a command or as a function. Called with ## a single argument @var{name}, the tests are run interactively and stop ## after the first error is encountered. ## ## With a second argument the tests which are performed and the amount of ## output is selected. ## ## @table @asis ## @item @qcode{"quiet"} ## Don't report all the tests as they happen, just the errors. ## ## @item @qcode{"normal"} ## Report all tests as they happen, but don't do tests which require ## user interaction. ## ## @item @qcode{"verbose"} ## Do tests which require user interaction. ## @end table ## ## The argument @var{fid} can be used to allow batch processing. Errors ## can be written to the already open file defined by @var{fid}, and ## hopefully when Octave crashes this file will tell you what was happening ## when it did. You can use @code{stdout} if you want to see the results as ## they happen. You can also give a file name rather than an @var{fid}, in ## which case the contents of the file will be replaced with the log from ## the current test. ## ## Called with a single output argument @var{success}, @code{test} returns ## true if all of the tests were successful. Called with two output arguments ## @var{n} and @var{max}, the number of successful tests and the total number ## of tests in the file @var{name} are returned. ## ## If the second argument is the string @qcode{"grabdemo"}, the contents of ## the demo blocks are extracted but not executed. Code for all code blocks ## is concatenated and returned as @var{code} with @var{idx} being a vector ## of positions of the ends of the demo blocks. ## ## If the second argument is @qcode{"explain"}, then @var{name} is ignored ## and an explanation of the line markers used is written to the file ## @var{fid}. ## @seealso{assert, fail, error, demo, example} ## @end deftypefn ## FIXME: * Consider using keyword fail rather then error? This allows us ## to make a functional form of error blocks, which means we ## can include them in test sections which means that we can use ## octave flow control for both kinds of tests. function [__ret1, __ret2, __ret3, __ret4] = test (__name, __flag, __fid) ## Information from test will be introduced by "key". persistent __signal_fail = "!!!!! "; persistent __signal_empty = "????? "; persistent __signal_block = " ***** "; persistent __signal_file = ">>>>> "; persistent __signal_skip = "----- "; __xfail = 0; __xskip = 0; if (nargin < 2 || isempty (__flag)) __flag = "quiet"; endif if (nargin < 3) __fid = []; endif if (nargin < 1 || nargin > 3 || (! ischar (__name) && ! isempty (__name)) || ! ischar (__flag)) print_usage (); endif if (isempty (__name) && (nargin != 3 || ! strcmp (__flag, "explain"))) print_usage (); endif __batch = (! isempty (__fid)); ## Decide if error messages should be collected. __close_fid = 0; if (__batch) if (ischar (__fid)) __fid = fopen (__fid, "wt"); if (__fid < 0) error ("test: could not open log file"); endif __close_fid = 1; endif fprintf (__fid, "%sprocessing %s\n", __signal_file, __name); fflush (__fid); else __fid = stdout; endif if (strcmp (__flag, "normal")) __grabdemo = 0; __rundemo = 0; __verbose = __batch; elseif (strcmp (__flag, "quiet")) __grabdemo = 0; __rundemo = 0; __verbose = 0; elseif (strcmp (__flag, "verbose")) __grabdemo = 0; __rundemo = 1; __verbose = 1; elseif (strcmp (__flag, "grabdemo")) __grabdemo = 1; __rundemo = 0; __verbose = 0; __demo_code = ""; __demo_idx = []; elseif (strcmp (__flag, "explain")) fprintf (__fid, "# %s new test file\n", __signal_file); fprintf (__fid, "# %s no tests in file\n", __signal_empty); fprintf (__fid, "# %s test had an unexpected result\n", __signal_fail); fprintf (__fid, "# %s code for the test\n", __signal_block); fprintf (__fid, "# Search for the unexpected results in the file\n"); fprintf (__fid, "# then page back to find the file name which caused it.\n"); fprintf (__fid, "# The result may be an unexpected failure (in which\n"); fprintf (__fid, "# case an error will be reported) or an unexpected\n"); fprintf (__fid, "# success (in which case no error will be reported).\n"); fflush (__fid); if (__close_fid) fclose (__fid); endif return; else error ("test: unknown flag '%s'", __flag); endif ## Locate the file to test. __file = file_in_loadpath (__name, "all"); if (isempty (__file)) __file = file_in_loadpath ([__name ".m"], "all"); endif if (isempty (__file)) __file = file_in_loadpath ([__name ".cc"], "all"); endif if (iscell (__file)) ## If repeats, return first in path. if (isempty (__file)) __file = ""; else __file = __file{1}; endif endif if (isempty (__file)) if (__grabdemo) __ret1 = ""; __ret2 = -1; else ftype = exist (__name); if (ftype == 3) fprintf (__fid, "%s%s source code with tests for dynamically linked function not found\n", __signal_empty, __name); elseif (ftype == 5) fprintf (__fid, "%s%s is a built-in function\n", __signal_empty, __name); elseif (any (strcmp (__operators__ (), __name))) fprintf (__fid, "%s%s is an operator\n", __signal_empty, __name); elseif (any (strcmp (__keywords__ (), __name))) fprintf (__fid, "%s%s is a keyword\n", __signal_empty, __name); else fprintf (__fid, "%s%s does not exist in path\n", __signal_empty, __name); endif fflush (__fid); if (nargout > 0) __ret1 = __ret2 = 0; endif endif if (__close_fid) fclose (__fid); endif return; endif ## Grab the test code from the file. __body = __extract_test_code (__file); if (isempty (__body)) if (__grabdemo) __ret1 = ""; __ret2 = []; else fprintf (__fid, "%s%s has no tests available\n", __signal_empty, __file); fflush (__fid); if (nargout > 0) __ret1 = __ret2 = 0; endif endif if (__close_fid) fclose (__fid); endif return; else ## Add a dummy comment block to the end for ease of indexing. if (__body (length (__body)) == "\n") __body = sprintf ("\n%s#", __body); else __body = sprintf ("\n%s\n#", __body); endif endif ## Chop it up into blocks for evaluation. __lineidx = find (__body == "\n"); __blockidx = __lineidx(find (! isspace (__body(__lineidx+1))))+1; ## Ready to start tests ... if in batch mode, tell us what is happening. if (__verbose) disp ([__signal_file, __file]); endif ## Assume all tests will pass. __all_success = 1; ## Process each block separately, initially with no shared variables. __tests = __successes = 0; __shared = " "; __shared_r = " "; __clear = ""; for __i = 1:length (__blockidx)-1 ## Extract the block. __block = __body(__blockidx(__i):__blockidx(__i+1)-2); ## Let the user/logfile know what is happening. if (__verbose) fprintf (__fid, "%s%s\n", __signal_block, __block); fflush (__fid); endif ## Split __block into __type and __code. __idx = find (! isletter (__block)); if (isempty (__idx)) __type = __block; __code = ""; else __type = __block(1:__idx(1)-1); __code = __block(__idx(1):length (__block)); endif ## Assume the block will succeed. __success = 1; __msg = []; ### DEMO ## If in __grabdemo mode, then don't process any other block type. ## So that the other block types don't have to worry about ## this __grabdemo mode, the demo block processor grabs all block ## types and skips those which aren't demo blocks. __isdemo = strcmp (__type, "demo"); if (__grabdemo || __isdemo) __istest = 0; if (__grabdemo && __isdemo) if (isempty (__demo_code)) __demo_code = __code; __demo_idx = [1, length(__demo_code)+1]; else __demo_code = [__demo_code, __code]; __demo_idx = [__demo_idx, length(__demo_code)+1]; endif elseif (__rundemo && __isdemo) try ## process the code in an environment without variables eval (sprintf ("function __test__ ()\n%s\nendfunction", __code)); __test__; input ("Press <enter> to continue: ", "s"); catch __success = 0; __msg = sprintf ("%sdemo failed\n%s", __signal_fail, lasterr ()); end_try_catch clear __test__; endif ## Code already processed. __code = ""; ### SHARED elseif (strcmp (__type, "shared")) __istest = 0; ## Separate initialization code from variables. __idx = find (__code == "\n"); if (isempty (__idx)) __vars = __code; __code = ""; else __vars = __code (1:__idx(1)-1); __code = __code (__idx(1):length (__code)); endif ## Strip comments off the variables. __idx = find (__vars == "%" | __vars == "#"); if (! isempty (__idx)) __vars = __vars(1:__idx(1)-1); endif ## Assign default values to variables. try __vars = deblank (__vars); if (! isempty (__vars)) eval ([strrep(__vars, ",", "=[];"), "=[];"]); __shared = __vars; __shared_r = ["[ ", __vars, "] = "]; else __shared = " "; __shared_r = " "; endif catch ## Couldn't declare, so don't initialize. __code = ""; __success = 0; __msg = sprintf ("%sshared variable initialization failed\n", __signal_fail); end_try_catch ## Initialization code will be evaluated below. ### FUNCTION elseif (strcmp (__type, "function")) __istest = 0; persistent __fn = 0; __name_position = function_name (__block); if (isempty (__name_position)) __success = 0; __msg = sprintf ("%stest failed: missing function name\n", __signal_fail); else __name = __block(__name_position(1):__name_position(2)); __code = __block; try eval (__code); # Define the function __clear = sprintf ("%sclear %s;\n", __clear, __name); catch __success = 0; __msg = sprintf ("%stest failed: syntax error\n%s", __signal_fail, lasterr ()); end_try_catch endif __code = ""; ### ENDFUNCTION elseif (strcmp (__type, "endfunction")) ## endfunction simply declares the end of a previous function block. ## There is no processing to be done here, just skip to next block. __istest = 0; __code = ""; ### ASSERT/FAIL elseif (strcmp (__type, "assert") || strcmp (__type, "fail")) __istest = 1; ## Put the keyword back on the code. __code = __block; ## The code will be evaluated below as a test block. ### ERROR/WARNING elseif (strcmp (__type, "error") || strcmp (__type, "warning")) __istest = 1; __warning = strcmp (__type, "warning"); [__pattern, __id, __code] = getpattern (__code); if (__id) __patstr = ["id=",__id]; else if (! strcmp (__pattern, '.')) __patstr = ["<",__pattern,">"]; else __patstr = ifelse (__warning, "a warning", "an error"); endif endif try eval (sprintf ("function __test__(%s)\n%s\nendfunction", __shared, __code)); catch __success = 0; __msg = sprintf ("%stest failed: syntax error\n%s", __signal_fail, lasterr ()); end_try_catch if (__success) __success = 0; __warnstate = warning ("query", "quiet"); warning ("on", "quiet"); ## Clear error and warning strings before starting lasterr (""); lastwarn (""); try ## FIXME: lastwarn () must be called once from *WITHIN* the try block ## or subsequent warning/lastwarn statements may fail. ## Likely this is something to do with the specialness of ## the try block which is disabling normal errors. lastwarn (); eval (sprintf ("__test__(%s);", __shared)); if (! __warning) __msg = sprintf ("%serror failed.\nExpected %s but got no error\n", __signal_fail, __patstr); else if (! isempty (__id)) [~, __err] = lastwarn (); __mismatch = ! strcmp (__err, __id); else __err = trimerr (lastwarn (), "warning"); __mismatch = isempty (regexp (__err, __pattern, "once")); endif warning (__warnstate.state, "quiet"); if (isempty (__err)) __msg = sprintf (["%swarning failed.\n" ... "Expected %s but got no warning\n"], __signal_fail, __patstr); elseif (__mismatch) __msg = sprintf ("%swarning failed.\nExpected %s but got <%s>\n", __signal_fail, __patstr, __err); else __success = 1; endif endif catch if (! isempty (__id)) [~, __err] = lasterr (); __mismatch = ! strcmp (__err, __id); else __err = trimerr (lasterr (), "error"); __mismatch = isempty (regexp (__err, __pattern, "once")); endif warning (__warnstate.state, "quiet"); if (__warning) __msg = sprintf (["%swarning failed.\n" ... "Expected warning %s but got error <%s>\n"], __signal_fail, __patstr, __err); elseif (__mismatch) __msg = sprintf ("%serror failed.\nExpected %s but got <%s>\n", __signal_fail, __patstr, __err); else __success = 1; endif end_try_catch clear __test__; endif ## Code already processed. __code = ""; ### TESTIF elseif (strcmp (__type, "testif")) __e = regexp (__code, '.$', 'lineanchors', 'once'); ## Strip comment any comment from testif line before looking for features __feat_line = strtok (__code(1:__e), '#%'); __feat = regexp (__feat_line, '\w+', 'match'); __feat = strrep (__feat, "HAVE_", ""); __have_feat = __have_feature__ (__feat); if (__have_feat) __istest = 1; __code = __code(__e + 1 : end); else __xskip++; __istest = 0; __code = ""; # Skip the code. __msg = sprintf ("%sskipped test\n", __signal_skip); endif ### TEST elseif (strcmp (__type, "test") || strcmp (__type, "xtest")) __istest = 1; ## Code will be evaluated below. ### Comment block. elseif (strcmp (__block(1:1), "#")) __istest = 0; __code = ""; # skip the code ### Unknown block. else __istest = 1; __success = 0; __msg = sprintf ("%sunknown test type!\n", __signal_fail); __code = ""; # skip the code endif ## evaluate code for test, shared, and assert. if (! isempty(__code)) try ## FIXME: need to check for embedded test functions, which cause ## segfaults, until issues with subfunctions in functions are resolved. embed_func = regexp (__code, '^\s*function ', 'once', 'lineanchors'); if (isempty (embed_func)) eval (sprintf ("function %s__test__(%s)\n%s\nendfunction", __shared_r,__shared, __code)); eval (sprintf ("%s__test__(%s);", __shared_r, __shared)); else error (["Functions embedded in %!test blocks are not allowed.\n", ... "Use the %!function/%!endfunction syntax instead to define shared functions for testing.\n"]); endif catch if (strcmp (__type, "xtest")) __msg = sprintf ("%sknown failure\n%s", __signal_fail, lasterr ()); __xfail++; else __msg = sprintf ("%stest failed\n%s", __signal_fail, lasterr ()); __success = 0; endif if (isempty (lasterr ())) error ("empty error text, probably Ctrl-C --- aborting"); endif end_try_catch clear __test__; endif ## All done. Remember if we were successful and print any messages. if (! isempty (__msg)) ## Make sure the user knows what caused the error. if (! __verbose) fprintf (__fid, "%s%s\n", __signal_block, __block); fflush (__fid); endif fputs (__fid, __msg); fputs (__fid, "\n"); fflush (__fid); ## Show the variable context. if (! strcmp (__type, "error") && ! strcmp (__type, "testif") && ! all (__shared == " ")) fputs (__fid, "shared variables "); eval (sprintf ("fdisp(__fid,bundle(%s));", __shared)); fflush (__fid); endif endif if (__success == 0) __all_success = 0; ## Stop after one error if not in batch mode. if (! __batch) if (nargout > 0) __ret1 = __ret2 = 0; endif if (__close_fid) fclose (__fid); endif return; endif endif __tests += __istest; __successes += __success * __istest; endfor ## Clear any test functions created eval (__clear, ""); if (nargout == 0) if (__tests || __xfail || __xskip) if (__xfail) printf ("PASSES %d out of %d test%s (%d expected failure%s)\n", __successes, __tests, ifelse (__tests > 1, "s", ""), __xfail, ifelse (__xfail > 1, "s", "")); else printf ("PASSES %d out of %d test%s\n", __successes, __tests, ifelse (__tests > 1, "s", "")); endif if (__xskip) printf ("Skipped %d test%s due to missing features\n", __xskip, ifelse (__xskip > 1, "s", "")); endif else printf ("%s%s has no tests available\n", __signal_empty, __file); endif elseif (__grabdemo) __ret1 = __demo_code; __ret2 = __demo_idx; elseif (nargout == 1) __ret1 = __all_success; else __ret1 = __successes; __ret2 = __tests; __ret3 = __xfail; __ret4 = __xskip; endif endfunction ## Create structure with fieldnames the name of the input variables. function s = varstruct (varargin) for i = 1:nargin s.(deblank (argn(i,:))) = varargin{i}; endfor endfunction ## Find [start,end] of fn in 'function [a,b] = fn'. function pos = function_name (def) pos = []; ## Find the end of the name. right = find (def == "(", 1); if (isempty (right)) return; endif right = find (def(1:right-1) != " ", 1, "last"); ## Find the beginning of the name. left = max ([find(def(1:right)==" ", 1, "last"), ... find(def(1:right)=="=", 1, "last")]); if (isempty (left)) return; endif left++; ## Return the end points of the name. pos = [left, right]; endfunction ## Strip <pattern> from '<pattern> code'. ## Also handles 'id=ID code' function [pattern, id, rest] = getpattern (str) pattern = "."; id = []; rest = str; str = trimleft (str); if (! isempty (str) && str(1) == "<") close = index (str, ">"); if (close) pattern = str(2:close-1); rest = str(close+1:end); endif elseif (strncmp (str, "id=", 3)) [id, rest] = strtok (str(4:end)); endif endfunction ## Strip '.*prefix:' from '.*prefix: msg\n' and strip trailing blanks. function msg = trimerr (msg, prefix) idx = index (msg, [prefix ":"]); if (idx > 0) msg(1:idx+length(prefix)) = []; endif msg = strtrim (msg); endfunction ## Strip leading blanks from string. function str = trimleft (str) idx = find (! isspace (str), 1); str = str(idx:end); endfunction ## Make a structure out of the named variables ## (based on Etienne Grossmann's tar function). function s = bundle (varargin) for i = 1:nargin s.(deblank (argn(i,:))) = varargin{i}; endfor endfunction function body = __extract_test_code (nm) fid = fopen (nm, "rt"); body = []; if (fid >= 0) while (! feof (fid)) ln = fgetl (fid); if (length (ln) >= 2 && strcmp (ln(1:2), "%!")) body = [body, "\n"]; if (length (ln) > 2) body = [body, ln(3:end)]; endif endif endwhile fclose (fid); endif endfunction ### example from toeplitz %!shared msg1,msg2 %! msg1="C must be a vector"; %! msg2="C and R must be vectors"; %!fail ('toeplitz ([])', msg1); %!fail ('toeplitz ([1,2;3,4])', msg1); %!fail ('toeplitz ([1,2],[])', msg2); %!fail ('toeplitz ([1,2],[1,2;3,4])', msg2); %!fail ('toeplitz ([1,2;3,4],[1,2])', msg2); % !fail ('toeplitz','usage: toeplitz'); # usage doesn't generate an error % !fail ('toeplitz (1, 2, 3)', 'usage: toeplitz'); %!test assert (toeplitz ([1,2,3], [1,4]), [1,4; 2,1; 3,2]); %!demo toeplitz ([1,2,3,4],[1,5,6]) ### example from kron %!#error kron # FIXME suppress these until we can handle output %!#error kron(1,2,3) %!test assert (isempty (kron ([], rand (3, 4)))) %!test assert (isempty (kron (rand (3, 4), []))) %!test assert (isempty (kron ([], []))) %!shared A, B %!test %! A = [1, 2, 3; 4, 5, 6]; %! B = [1, -1; 2, -2]; %!assert (size (kron (zeros (3, 0), A)), [ 3*rows(A), 0 ]) %!assert (size (kron (zeros (0, 3), A)), [ 0, 3*columns(A) ]) %!assert (size (kron (A, zeros (3, 0))), [ 3*rows(A), 0 ]) %!assert (size (kron (A, zeros (0, 3))), [ 0, 3*columns(A) ]) %!assert (kron (pi, e), pi*e) %!assert (kron (pi, A), pi*A) %!assert (kron (A, e), e*A) %!assert (kron ([1, 2, 3], A), [ A, 2*A, 3*A ]) %!assert (kron ([1; 2; 3], A), [ A; 2*A; 3*A ]) %!assert (kron ([1, 2; 3, 4], A), [ A, 2*A; 3*A, 4*A ]) %!test %! res = [1,-1,2,-2,3,-3; 2,-2,4,-4,6,-6; 4,-4,5,-5,6,-6; 8,-8,10,-10,12,-12]; %! assert (kron (A, B), res) ### an extended demo from specgram %!#demo %! ## Speech spectrogram %! [x, Fs] = auload (file_in_loadpath ("sample.wav")); # audio file %! step = fix (5*Fs/1000); # one spectral slice every 5 ms %! window = fix (40*Fs/1000); # 40 ms data window %! fftn = 2^nextpow2 (window); # next highest power of 2 %! [S, f, t] = specgram (x, fftn, Fs, window, window-step); %! S = abs (S (2:fftn*4000/Fs,:)); # magnitude in range 0<f<=4000 Hz. %! S = S/max(max(S)); # normalize magnitude so that max is 0 dB. %! S = max (S, 10^(-40/10)); # clip below -40 dB. %! S = min (S, 10^(-3/10)); # clip above -3 dB. %! imagesc (flipud (20*log10 (S)), 1); %! % you should now see a spectrogram in the image window ## now test 'test' itself ## usage and error testing % !fail ('test','usage.*test') # no args, generates usage() % !fail ('test (1,2,3,4)','usage.*test') # too many args, generates usage() %!fail ('test ("test", "bogus")','unknown flag') # incorrect args %!fail ('garbage','garbage.*undefined') # usage on nonexistent function should be %!error test # no args, generates usage() %!error test (1,2,3,4) # too many args, generates usage() %!error <unknown flag> test ("test", 'bogus'); # incorrect args, generates error() %!error <garbage' undefined> garbage # usage on nonexistent function should be %!error test ("test", 'bogus'); # test without pattern %!test %! lastwarn(); # clear last warning just in case %!warning <warning message> warning ('warning message'); ## test of shared variables %!shared a # create a shared variable %!test a=3; # assign to a shared variable %!test assert (a,3) # variable should equal 3 %!shared b,c # replace shared variables %!test assert (!exist ("a", "var")); # a no longer exists %!test assert (isempty (b)); # variables start off empty %!shared a,b,c # recreate a shared variable %!test assert (isempty (a)); # value is empty even if it had a previous value %!test a=1; b=2; c=3; # give values to all variables %!test assert ([a,b,c],[1,2,3]); # test all of them together %!test c=6; # update a value %!test assert ([a, b, c],[1, 2, 6]); # show that the update sticks %!shared # clear all shared variables %!test assert (!exist ("a", "var")) # show that they are cleared %!shared a,b,c # support for initializer shorthand %! a=1; b=2; c=4; %!function x = __test_a (y) %! x = 2*y; %!endfunction %!assert (__test_a (2),4); # Test a test function %!function __test_a (y) %! x = 2*y; %!endfunction %!test %! __test_a (2); # Test a test function with no return value %!function [x,z] = __test_a (y) %! x = 2*y; %! z = 3*y; %!endfunction %!test # Test a test function with multiple returns %! [x,z] = __test_a (3); %! assert (x,6); %! assert (z,9); ## test of assert block %!assert (isempty ([])) # support for test assert shorthand ## demo blocks %!demo # multiline demo block %! t = [0:0.01:2*pi]; x = sin (t); %! plot (t,x); %! % you should now see a sine wave in your figure window %!demo a=3 # single line demo blocks work too ## this is a comment block. it can contain anything. %!## %! it is the "#" as the block type that makes it a comment %! and it stays as a comment even through continuation lines %! which means that it works well with commenting out whole tests % !# failure tests. All the following should fail. These tests should % !# be disabled unless you are developing test() since users don't % !# like to be presented with expected failures. I use % ! to disable. % !test error("---------Failure tests. Use test('test','verbose',1)"); % !test assert([a,b,c],[1,3,6]); # variables have wrong values % !bogus # unknown block type % !error toeplitz([1,2,3]); # correct usage % !test syntax errors) # syntax errors fail properly % !shared garbage in # variables must be comma separated % !error syntax++error # error test fails on syntax errors % !error "succeeds."; # error test fails if code succeeds % !error <wrong pattern> error("message") # error pattern must match % !demo with syntax error # syntax errors in demo fail properly % !shared a,b,c % !demo # shared variables not available in demo % ! assert(exist("a", "var")) % !error % ! test('/etc/passwd'); % ! test("nonexistent file"); % ! ## These don't signal an error, so the test for an error fails. Note % ! ## that the call doesn't reference the current fid (it is unavailable), % ! ## so of course the informational message is not printed in the log.