docs/DesignDocs/DebugMode.rst - llvm-project/libcxx - Git at Google

 ==========
 Debug Mode
 ==========

 .. contents::
    :local:

 .. _using-debug-mode:

 Using the debug mode
 ====================

 Libc++ provides a debug mode that enables special debugging checks meant to detect
 incorrect usage of the standard library. These checks are disabled by default, but
 they can be enabled by vendors when building the library by using ``LIBCXX_ENABLE_DEBUG_MODE``.

 Since the debug mode has ABI implications, users should compile their whole program,
 including any dependent libraries, against a Standard library configured identically
 with respect to the debug mode. In other words, they should not mix code built against
 a Standard library with the debug mode enabled with code built against a Standard library
 where the debug mode is disabled.

 Furthermore, users should not rely on a stable ABI being provided when the debug mode is
 enabled -- we reserve the right to change the ABI at any time. If you need a stable ABI
 and still want some level of hardening, you should look into enabling :ref:`assertions <assertions-mode>`
 instead.

 The debug mode provides various checks to aid application debugging.

 Comparator consistency checks
 -----------------------------
 Libc++ provides some checks for the consistency of comparators passed to algorithms. Specifically,
 many algorithms such as ``binary_search``, ``merge``, ``next_permutation``, and ``sort``, wrap the
 user-provided comparator to assert that `!comp(y, x)` whenever `comp(x, y)`. This can cause the
 user-provided comparator to be evaluated up to twice as many times as it would be without the
 debug mode, and causes the library to violate some of the Standard's complexity clauses.

 Iterator debugging checks
 -------------------------
 The library contains various assertions to check the validity of iterators used
 by the program. The following containers and classes support iterator debugging:

 - ``std::string``
 - ``std::vector<T>`` (``T != bool``)
 - ``std::list``
 - ``std::unordered_map``
 - ``std::unordered_multimap``
 - ``std::unordered_set``
 - ``std::unordered_multiset``

 The remaining containers do not currently support iterator debugging.
 Patches welcome.

 Randomizing unspecified behavior
 --------------------------------
 The library supports the randomization of unspecified behavior. For example, randomizing
 the relative order of equal elements in ``std::sort`` or randomizing both parts of the
 partition after calling ``std::nth_element``. This effort helps migrating to potential
 future faster versions of these algorithms that might not have the exact same behavior.
 In particular, it makes it easier to deflake tests that depend on unspecified behavior.
 A seed can be used to make such failures reproducible: use ``_LIBCPP_DEBUG_RANDOMIZE_UNSPECIFIED_STABILITY_SEED=seed``.
	==========
	Debug Mode
	==========

	.. contents::
	:local:

	.. _using-debug-mode:

	Using the debug mode
	====================

	Libc++ provides a debug mode that enables special debugging checks meant to detect
	incorrect usage of the standard library. These checks are disabled by default, but
	they can be enabled by vendors when building the library by using ``LIBCXX_ENABLE_DEBUG_MODE``.

	Since the debug mode has ABI implications, users should compile their whole program,
	including any dependent libraries, against a Standard library configured identically
	with respect to the debug mode. In other words, they should not mix code built against
	a Standard library with the debug mode enabled with code built against a Standard library
	where the debug mode is disabled.

	Furthermore, users should not rely on a stable ABI being provided when the debug mode is
	enabled -- we reserve the right to change the ABI at any time. If you need a stable ABI
	and still want some level of hardening, you should look into enabling :ref:`assertions <assertions-mode>`
	instead.

	The debug mode provides various checks to aid application debugging.

	Comparator consistency checks
	-----------------------------
	Libc++ provides some checks for the consistency of comparators passed to algorithms. Specifically,
	many algorithms such as ``binary_search``, ``merge``, ``next_permutation``, and ``sort``, wrap the
	user-provided comparator to assert that `!comp(y, x)` whenever `comp(x, y)`. This can cause the
	user-provided comparator to be evaluated up to twice as many times as it would be without the
	debug mode, and causes the library to violate some of the Standard's complexity clauses.

	Iterator debugging checks
	-------------------------
	The library contains various assertions to check the validity of iterators used
	by the program. The following containers and classes support iterator debugging:

	- ``std::string``
	- ``std::vector<T>`` (``T != bool``)
	- ``std::list``
	- ``std::unordered_map``
	- ``std::unordered_multimap``
	- ``std::unordered_set``
	- ``std::unordered_multiset``

	The remaining containers do not currently support iterator debugging.
	Patches welcome.

	Randomizing unspecified behavior
	--------------------------------
	The library supports the randomization of unspecified behavior. For example, randomizing
	the relative order of equal elements in ``std::sort`` or randomizing both parts of the
	partition after calling ``std::nth_element``. This effort helps migrating to potential
	future faster versions of these algorithms that might not have the exact same behavior.
	In particular, it makes it easier to deflake tests that depend on unspecified behavior.
	A seed can be used to make such failures reproducible: use ``_LIBCPP_DEBUG_RANDOMIZE_UNSPECIFIED_STABILITY_SEED=seed``.