96 lines
4.7 KiB
Plaintext
96 lines
4.7 KiB
Plaintext
Asset Importer Lib Regression Test Suite
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========================================
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1) How does it work?
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run.py checks all model in the <root>/test/models* folders and compares the result
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against a regression database provided with assimp (db.zip). A few failures
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are totally fine (see sections 7+). You need to worry if a huge
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majority of all files in a particular format (or post-processing configuration)
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fails as this might be a sign of a recent regression in assimp's codebase or
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gross incompatibility with your system or compiler.
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2) What do I need?
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- You need Python installed (2.7+, 3.x). On Windows, run the scripts using "py".
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- You need to build the assimp command line tool (ASSIMP_BUILD_ASSIMP_TOOLS
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CMake build flag). Both run.py and gen_db.py take the full path to the binary
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as first command line parameter.
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3) How to add more test files?
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---------------------------------------------------------------------------------
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Use the following procedure:
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- Verify the correctness of your assimp build - run the regression suite.
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DO NOT continue if more tests fail than usual.
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- Add your additional test files to <root>/test/models/<fileformat>, where
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<fileformat> is the file type (typically the file extension).
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- If you test file does not meet the BSD license requirements, add it to
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<root>/test/models-nonbsd/<fileformat> so people know to be careful with it.
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- Rebuild the regression database:
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"gen_db.py <binary> -ixyz" where .xyz is the file extension of the new file.
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- Run the regression suite again. There should be no new failures and the new
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file should not be among the failures.
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- Include the db.zip file with your Pull Request. Travis CI enforces a passing
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regression suite (with offenders whitelisted as a last resort).
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4) I made a change/fix/patch to a loader, how to update the database?
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---------------------------------------------------------------------------------
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- Rebuild the regression database using "gen_db.py <binary> -ixyz"
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where .xyz is the file extension for which the loader was patched.
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- Run the regression suite again. There should be no new failures and the new
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file should not be among the failures.
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- Include the db.zip file with your Pull Request. Travis CI enforces a passing
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regression suite (with offenders whitelisted as a last resort).
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5) How to add my whole model repository to the database?
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Edit the reg_settings.py file and add the path to your repository to
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<<model_directories>>. Then, rebuild the database.
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6) So what is actually tested?
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---------------------------------------------------------------------------------
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The regression database includes mini dumps of the aiScene data structure, i.e.
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the scene hierarchy plus the sizes of all data arrays MUST match. Floating-point
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data buffers, such as vertex positions are handled less strictly: min, max and
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average values are stored with low precision. This takes hardware- or
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compiler-specific differences in floating-point computations into account.
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Generally, almost all significant regressions will be detected while the
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number of false positives is relatively low.
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7) The test suite fails, what do do?
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Get back to <root>/test/results and look at regression_suite_failures.txt.
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It contains a list of all files which failed the test. Failing dumps are copied to
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<root>/test/results/tmp. Both an EXPECTED and an ACTUAL file is produced per test.
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The output of "assimp cmpdump" is written to regressions_suite_output.txt. Grep
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for the file name in question and locate the log for the failed comparison. It
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contains a full trace of which scene elements have been compared before, which
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makes it reasonably easy to locate the offending field.
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8) fp:fast vs fp:precise fails the test suite (same for gcc equivalents)
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---------------------------------------------------------------------------------
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As mentioned above, floating-point inaccuracies between differently optimized
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builds are not considered regressions and all float comparisons done by the test
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suite involve an epsilon to accommodate. However compiler settings that allow
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compilers to perform non-IEEE754 compliant optimizations can cause arbitrary
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failures in the test suite. Even if the compiler is configured to be IEE754
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comformant, there is lots of code in assimp that leaves the compiler a choice
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and different compilers make different choices (for example the precision of
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float intermediaries is implementation-specified).
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