| ============================ |
| Clang Compiler User's Manual |
| ============================ |
| |
| .. contents:: |
| :local: |
| |
| Introduction |
| ============ |
| |
| The Clang Compiler is an open-source compiler for the C family of |
| programming languages, aiming to be the best in class implementation of |
| these languages. Clang builds on the LLVM optimizer and code generator, |
| allowing it to provide high-quality optimization and code generation |
| support for many targets. For more general information, please see the |
| `Clang Web Site <http://clang.llvm.org>`_ or the `LLVM Web |
| Site <http://llvm.org>`_. |
| |
| This document describes important notes about using Clang as a compiler |
| for an end-user, documenting the supported features, command line |
| options, etc. If you are interested in using Clang to build a tool that |
| processes code, please see :doc:`InternalsManual`. If you are interested in the |
| `Clang Static Analyzer <http://clang-analyzer.llvm.org>`_, please see its web |
| page. |
| |
| Clang is designed to support the C family of programming languages, |
| which includes :ref:`C <c>`, :ref:`Objective-C <objc>`, :ref:`C++ <cxx>`, and |
| :ref:`Objective-C++ <objcxx>` as well as many dialects of those. For |
| language-specific information, please see the corresponding language |
| specific section: |
| |
| - :ref:`C Language <c>`: K&R C, ANSI C89, ISO C90, ISO C94 (C89+AMD1), ISO |
| C99 (+TC1, TC2, TC3). |
| - :ref:`Objective-C Language <objc>`: ObjC 1, ObjC 2, ObjC 2.1, plus |
| variants depending on base language. |
| - :ref:`C++ Language <cxx>` |
| - :ref:`Objective C++ Language <objcxx>` |
| |
| In addition to these base languages and their dialects, Clang supports a |
| broad variety of language extensions, which are documented in the |
| corresponding language section. These extensions are provided to be |
| compatible with the GCC, Microsoft, and other popular compilers as well |
| as to improve functionality through Clang-specific features. The Clang |
| driver and language features are intentionally designed to be as |
| compatible with the GNU GCC compiler as reasonably possible, easing |
| migration from GCC to Clang. In most cases, code "just works". |
| Clang also provides an alternative driver, :ref:`clang-cl`, that is designed |
| to be compatible with the Visual C++ compiler, cl.exe. |
| |
| In addition to language specific features, Clang has a variety of |
| features that depend on what CPU architecture or operating system is |
| being compiled for. Please see the :ref:`Target-Specific Features and |
| Limitations <target_features>` section for more details. |
| |
| The rest of the introduction introduces some basic :ref:`compiler |
| terminology <terminology>` that is used throughout this manual and |
| contains a basic :ref:`introduction to using Clang <basicusage>` as a |
| command line compiler. |
| |
| .. _terminology: |
| |
| Terminology |
| ----------- |
| |
| Front end, parser, backend, preprocessor, undefined behavior, |
| diagnostic, optimizer |
| |
| .. _basicusage: |
| |
| Basic Usage |
| ----------- |
| |
| Intro to how to use a C compiler for newbies. |
| |
| compile + link compile then link debug info enabling optimizations |
| picking a language to use, defaults to C11 by default. Autosenses based |
| on extension. using a makefile |
| |
| Command Line Options |
| ==================== |
| |
| This section is generally an index into other sections. It does not go |
| into depth on the ones that are covered by other sections. However, the |
| first part introduces the language selection and other high level |
| options like :option:`-c`, :option:`-g`, etc. |
| |
| Options to Control Error and Warning Messages |
| --------------------------------------------- |
| |
| .. option:: -Werror |
| |
| Turn warnings into errors. |
| |
| .. This is in plain monospaced font because it generates the same label as |
| .. -Werror, and Sphinx complains. |
| |
| ``-Werror=foo`` |
| |
| Turn warning "foo" into an error. |
| |
| .. option:: -Wno-error=foo |
| |
| Turn warning "foo" into an warning even if :option:`-Werror` is specified. |
| |
| .. option:: -Wfoo |
| |
| Enable warning "foo". |
| |
| .. option:: -Wno-foo |
| |
| Disable warning "foo". |
| |
| .. option:: -w |
| |
| Disable all diagnostics. |
| |
| .. option:: -Weverything |
| |
| :ref:`Enable all diagnostics. <diagnostics_enable_everything>` |
| |
| .. option:: -pedantic |
| |
| Warn on language extensions. |
| |
| .. option:: -pedantic-errors |
| |
| Error on language extensions. |
| |
| .. option:: -Wsystem-headers |
| |
| Enable warnings from system headers. |
| |
| .. option:: -ferror-limit=123 |
| |
| Stop emitting diagnostics after 123 errors have been produced. The default is |
| 20, and the error limit can be disabled with `-ferror-limit=0`. |
| |
| .. option:: -ftemplate-backtrace-limit=123 |
| |
| Only emit up to 123 template instantiation notes within the template |
| instantiation backtrace for a single warning or error. The default is 10, and |
| the limit can be disabled with `-ftemplate-backtrace-limit=0`. |
| |
| .. _cl_diag_formatting: |
| |
| Formatting of Diagnostics |
| ^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| Clang aims to produce beautiful diagnostics by default, particularly for |
| new users that first come to Clang. However, different people have |
| different preferences, and sometimes Clang is driven not by a human, |
| but by a program that wants consistent and easily parsable output. For |
| these cases, Clang provides a wide range of options to control the exact |
| output format of the diagnostics that it generates. |
| |
| .. _opt_fshow-column: |
| |
| **-f[no-]show-column** |
| Print column number in diagnostic. |
| |
| This option, which defaults to on, controls whether or not Clang |
| prints the column number of a diagnostic. For example, when this is |
| enabled, Clang will print something like: |
| |
| :: |
| |
| test.c:28:8: warning: extra tokens at end of #endif directive [-Wextra-tokens] |
| #endif bad |
| ^ |
| // |
| |
| When this is disabled, Clang will print "test.c:28: warning..." with |
| no column number. |
| |
| The printed column numbers count bytes from the beginning of the |
| line; take care if your source contains multibyte characters. |
| |
| .. _opt_fshow-source-location: |
| |
| **-f[no-]show-source-location** |
| Print source file/line/column information in diagnostic. |
| |
| This option, which defaults to on, controls whether or not Clang |
| prints the filename, line number and column number of a diagnostic. |
| For example, when this is enabled, Clang will print something like: |
| |
| :: |
| |
| test.c:28:8: warning: extra tokens at end of #endif directive [-Wextra-tokens] |
| #endif bad |
| ^ |
| // |
| |
| When this is disabled, Clang will not print the "test.c:28:8: " |
| part. |
| |
| .. _opt_fcaret-diagnostics: |
| |
| **-f[no-]caret-diagnostics** |
| Print source line and ranges from source code in diagnostic. |
| This option, which defaults to on, controls whether or not Clang |
| prints the source line, source ranges, and caret when emitting a |
| diagnostic. For example, when this is enabled, Clang will print |
| something like: |
| |
| :: |
| |
| test.c:28:8: warning: extra tokens at end of #endif directive [-Wextra-tokens] |
| #endif bad |
| ^ |
| // |
| |
| **-f[no-]color-diagnostics** |
| This option, which defaults to on when a color-capable terminal is |
| detected, controls whether or not Clang prints diagnostics in color. |
| |
| When this option is enabled, Clang will use colors to highlight |
| specific parts of the diagnostic, e.g., |
| |
| .. nasty hack to not lose our dignity |
| |
| .. raw:: html |
| |
| <pre> |
| <b><span style="color:black">test.c:28:8: <span style="color:magenta">warning</span>: extra tokens at end of #endif directive [-Wextra-tokens]</span></b> |
| #endif bad |
| <span style="color:green">^</span> |
| <span style="color:green">//</span> |
| </pre> |
| |
| When this is disabled, Clang will just print: |
| |
| :: |
| |
| test.c:2:8: warning: extra tokens at end of #endif directive [-Wextra-tokens] |
| #endif bad |
| ^ |
| // |
| |
| **-fansi-escape-codes** |
| Controls whether ANSI escape codes are used instead of the Windows Console |
| API to output colored diagnostics. This option is only used on Windows and |
| defaults to off. |
| |
| .. option:: -fdiagnostics-format=clang/msvc/vi |
| |
| Changes diagnostic output format to better match IDEs and command line tools. |
| |
| This option controls the output format of the filename, line number, |
| and column printed in diagnostic messages. The options, and their |
| affect on formatting a simple conversion diagnostic, follow: |
| |
| **clang** (default) |
| :: |
| |
| t.c:3:11: warning: conversion specifies type 'char *' but the argument has type 'int' |
| |
| **msvc** |
| :: |
| |
| t.c(3,11) : warning: conversion specifies type 'char *' but the argument has type 'int' |
| |
| **vi** |
| :: |
| |
| t.c +3:11: warning: conversion specifies type 'char *' but the argument has type 'int' |
| |
| .. _opt_fdiagnostics-show-option: |
| |
| **-f[no-]diagnostics-show-option** |
| Enable ``[-Woption]`` information in diagnostic line. |
| |
| This option, which defaults to on, controls whether or not Clang |
| prints the associated :ref:`warning group <cl_diag_warning_groups>` |
| option name when outputting a warning diagnostic. For example, in |
| this output: |
| |
| :: |
| |
| test.c:28:8: warning: extra tokens at end of #endif directive [-Wextra-tokens] |
| #endif bad |
| ^ |
| // |
| |
| Passing **-fno-diagnostics-show-option** will prevent Clang from |
| printing the [:ref:`-Wextra-tokens <opt_Wextra-tokens>`] information in |
| the diagnostic. This information tells you the flag needed to enable |
| or disable the diagnostic, either from the command line or through |
| :ref:`#pragma GCC diagnostic <pragma_GCC_diagnostic>`. |
| |
| .. _opt_fdiagnostics-show-category: |
| |
| .. option:: -fdiagnostics-show-category=none/id/name |
| |
| Enable printing category information in diagnostic line. |
| |
| This option, which defaults to "none", controls whether or not Clang |
| prints the category associated with a diagnostic when emitting it. |
| Each diagnostic may or many not have an associated category, if it |
| has one, it is listed in the diagnostic categorization field of the |
| diagnostic line (in the []'s). |
| |
| For example, a format string warning will produce these three |
| renditions based on the setting of this option: |
| |
| :: |
| |
| t.c:3:11: warning: conversion specifies type 'char *' but the argument has type 'int' [-Wformat] |
| t.c:3:11: warning: conversion specifies type 'char *' but the argument has type 'int' [-Wformat,1] |
| t.c:3:11: warning: conversion specifies type 'char *' but the argument has type 'int' [-Wformat,Format String] |
| |
| This category can be used by clients that want to group diagnostics |
| by category, so it should be a high level category. We want dozens |
| of these, not hundreds or thousands of them. |
| |
| .. _opt_fdiagnostics-fixit-info: |
| |
| **-f[no-]diagnostics-fixit-info** |
| Enable "FixIt" information in the diagnostics output. |
| |
| This option, which defaults to on, controls whether or not Clang |
| prints the information on how to fix a specific diagnostic |
| underneath it when it knows. For example, in this output: |
| |
| :: |
| |
| test.c:28:8: warning: extra tokens at end of #endif directive [-Wextra-tokens] |
| #endif bad |
| ^ |
| // |
| |
| Passing **-fno-diagnostics-fixit-info** will prevent Clang from |
| printing the "//" line at the end of the message. This information |
| is useful for users who may not understand what is wrong, but can be |
| confusing for machine parsing. |
| |
| .. _opt_fdiagnostics-print-source-range-info: |
| |
| **-fdiagnostics-print-source-range-info** |
| Print machine parsable information about source ranges. |
| This option makes Clang print information about source ranges in a machine |
| parsable format after the file/line/column number information. The |
| information is a simple sequence of brace enclosed ranges, where each range |
| lists the start and end line/column locations. For example, in this output: |
| |
| :: |
| |
| exprs.c:47:15:{47:8-47:14}{47:17-47:24}: error: invalid operands to binary expression ('int *' and '_Complex float') |
| P = (P-42) + Gamma*4; |
| ~~~~~~ ^ ~~~~~~~ |
| |
| The {}'s are generated by -fdiagnostics-print-source-range-info. |
| |
| The printed column numbers count bytes from the beginning of the |
| line; take care if your source contains multibyte characters. |
| |
| .. option:: -fdiagnostics-parseable-fixits |
| |
| Print Fix-Its in a machine parseable form. |
| |
| This option makes Clang print available Fix-Its in a machine |
| parseable format at the end of diagnostics. The following example |
| illustrates the format: |
| |
| :: |
| |
| fix-it:"t.cpp":{7:25-7:29}:"Gamma" |
| |
| The range printed is a half-open range, so in this example the |
| characters at column 25 up to but not including column 29 on line 7 |
| in t.cpp should be replaced with the string "Gamma". Either the |
| range or the replacement string may be empty (representing strict |
| insertions and strict erasures, respectively). Both the file name |
| and the insertion string escape backslash (as "\\\\"), tabs (as |
| "\\t"), newlines (as "\\n"), double quotes(as "\\"") and |
| non-printable characters (as octal "\\xxx"). |
| |
| The printed column numbers count bytes from the beginning of the |
| line; take care if your source contains multibyte characters. |
| |
| .. option:: -fno-elide-type |
| |
| Turns off elision in template type printing. |
| |
| The default for template type printing is to elide as many template |
| arguments as possible, removing those which are the same in both |
| template types, leaving only the differences. Adding this flag will |
| print all the template arguments. If supported by the terminal, |
| highlighting will still appear on differing arguments. |
| |
| Default: |
| |
| :: |
| |
| t.cc:4:5: note: candidate function not viable: no known conversion from 'vector<map<[...], map<float, [...]>>>' to 'vector<map<[...], map<double, [...]>>>' for 1st argument; |
| |
| -fno-elide-type: |
| |
| :: |
| |
| t.cc:4:5: note: candidate function not viable: no known conversion from 'vector<map<int, map<float, int>>>' to 'vector<map<int, map<double, int>>>' for 1st argument; |
| |
| .. option:: -fdiagnostics-show-template-tree |
| |
| Template type diffing prints a text tree. |
| |
| For diffing large templated types, this option will cause Clang to |
| display the templates as an indented text tree, one argument per |
| line, with differences marked inline. This is compatible with |
| -fno-elide-type. |
| |
| Default: |
| |
| :: |
| |
| t.cc:4:5: note: candidate function not viable: no known conversion from 'vector<map<[...], map<float, [...]>>>' to 'vector<map<[...], map<double, [...]>>>' for 1st argument; |
| |
| With :option:`-fdiagnostics-show-template-tree`: |
| |
| :: |
| |
| t.cc:4:5: note: candidate function not viable: no known conversion for 1st argument; |
| vector< |
| map< |
| [...], |
| map< |
| [float != double], |
| [...]>>> |
| |
| .. _cl_diag_warning_groups: |
| |
| Individual Warning Groups |
| ^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| TODO: Generate this from tblgen. Define one anchor per warning group. |
| |
| .. _opt_wextra-tokens: |
| |
| .. option:: -Wextra-tokens |
| |
| Warn about excess tokens at the end of a preprocessor directive. |
| |
| This option, which defaults to on, enables warnings about extra |
| tokens at the end of preprocessor directives. For example: |
| |
| :: |
| |
| test.c:28:8: warning: extra tokens at end of #endif directive [-Wextra-tokens] |
| #endif bad |
| ^ |
| |
| These extra tokens are not strictly conforming, and are usually best |
| handled by commenting them out. |
| |
| .. option:: -Wambiguous-member-template |
| |
| Warn about unqualified uses of a member template whose name resolves to |
| another template at the location of the use. |
| |
| This option, which defaults to on, enables a warning in the |
| following code: |
| |
| :: |
| |
| template<typename T> struct set{}; |
| template<typename T> struct trait { typedef const T& type; }; |
| struct Value { |
| template<typename T> void set(typename trait<T>::type value) {} |
| }; |
| void foo() { |
| Value v; |
| v.set<double>(3.2); |
| } |
| |
| C++ [basic.lookup.classref] requires this to be an error, but, |
| because it's hard to work around, Clang downgrades it to a warning |
| as an extension. |
| |
| .. option:: -Wbind-to-temporary-copy |
| |
| Warn about an unusable copy constructor when binding a reference to a |
| temporary. |
| |
| This option enables warnings about binding a |
| reference to a temporary when the temporary doesn't have a usable |
| copy constructor. For example: |
| |
| :: |
| |
| struct NonCopyable { |
| NonCopyable(); |
| private: |
| NonCopyable(const NonCopyable&); |
| }; |
| void foo(const NonCopyable&); |
| void bar() { |
| foo(NonCopyable()); // Disallowed in C++98; allowed in C++11. |
| } |
| |
| :: |
| |
| struct NonCopyable2 { |
| NonCopyable2(); |
| NonCopyable2(NonCopyable2&); |
| }; |
| void foo(const NonCopyable2&); |
| void bar() { |
| foo(NonCopyable2()); // Disallowed in C++98; allowed in C++11. |
| } |
| |
| Note that if ``NonCopyable2::NonCopyable2()`` has a default argument |
| whose instantiation produces a compile error, that error will still |
| be a hard error in C++98 mode even if this warning is turned off. |
| |
| Options to Control Clang Crash Diagnostics |
| ------------------------------------------ |
| |
| As unbelievable as it may sound, Clang does crash from time to time. |
| Generally, this only occurs to those living on the `bleeding |
| edge <http://llvm.org/releases/download.html#svn>`_. Clang goes to great |
| lengths to assist you in filing a bug report. Specifically, Clang |
| generates preprocessed source file(s) and associated run script(s) upon |
| a crash. These files should be attached to a bug report to ease |
| reproducibility of the failure. Below are the command line options to |
| control the crash diagnostics. |
| |
| .. option:: -fno-crash-diagnostics |
| |
| Disable auto-generation of preprocessed source files during a clang crash. |
| |
| The -fno-crash-diagnostics flag can be helpful for speeding the process |
| of generating a delta reduced test case. |
| |
| Options to Emit Optimization Reports |
| ------------------------------------ |
| |
| Optimization reports trace, at a high-level, all the major decisions |
| done by compiler transformations. For instance, when the inliner |
| decides to inline function ``foo()`` into ``bar()``, or the loop unroller |
| decides to unroll a loop N times, or the vectorizer decides to |
| vectorize a loop body. |
| |
| Clang offers a family of flags which the optimizers can use to emit |
| a diagnostic in three cases: |
| |
| 1. When the pass makes a transformation (:option:`-Rpass`). |
| |
| 2. When the pass fails to make a transformation (:option:`-Rpass-missed`). |
| |
| 3. When the pass determines whether or not to make a transformation |
| (:option:`-Rpass-analysis`). |
| |
| NOTE: Although the discussion below focuses on :option:`-Rpass`, the exact |
| same options apply to :option:`-Rpass-missed` and :option:`-Rpass-analysis`. |
| |
| Since there are dozens of passes inside the compiler, each of these flags |
| take a regular expression that identifies the name of the pass which should |
| emit the associated diagnostic. For example, to get a report from the inliner, |
| compile the code with: |
| |
| .. code-block:: console |
| |
| $ clang -O2 -Rpass=inline code.cc -o code |
| code.cc:4:25: remark: foo inlined into bar [-Rpass=inline] |
| int bar(int j) { return foo(j, j - 2); } |
| ^ |
| |
| Note that remarks from the inliner are identified with `[-Rpass=inline]`. |
| To request a report from every optimization pass, you should use |
| :option:`-Rpass=.*` (in fact, you can use any valid POSIX regular |
| expression). However, do not expect a report from every transformation |
| made by the compiler. Optimization remarks do not really make sense |
| outside of the major transformations (e.g., inlining, vectorization, |
| loop optimizations) and not every optimization pass supports this |
| feature. |
| |
| Current limitations |
| ^^^^^^^^^^^^^^^^^^^ |
| |
| 1. Optimization remarks that refer to function names will display the |
| mangled name of the function. Since these remarks are emitted by the |
| back end of the compiler, it does not know anything about the input |
| language, nor its mangling rules. |
| |
| 2. Some source locations are not displayed correctly. The front end has |
| a more detailed source location tracking than the locations included |
| in the debug info (e.g., the front end can locate code inside macro |
| expansions). However, the locations used by :option:`-Rpass` are |
| translated from debug annotations. That translation can be lossy, |
| which results in some remarks having no location information. |
| |
| Other Options |
| ------------- |
| Clang options that that don't fit neatly into other categories. |
| |
| .. option:: -MV |
| |
| When emitting a dependency file, use formatting conventions appropriate |
| for NMake or Jom. Ignored unless another option causes Clang to emit a |
| dependency file. |
| |
| When Clang emits a dependency file (e.g., you supplied the -M option) |
| most filenames can be written to the file without any special formatting. |
| Different Make tools will treat different sets of characters as "special" |
| and use different conventions for telling the Make tool that the character |
| is actually part of the filename. Normally Clang uses backslash to "escape" |
| a special character, which is the convention used by GNU Make. The -MV |
| option tells Clang to put double-quotes around the entire filename, which |
| is the convention used by NMake and Jom. |
| |
| |
| Language and Target-Independent Features |
| ======================================== |
| |
| Controlling Errors and Warnings |
| ------------------------------- |
| |
| Clang provides a number of ways to control which code constructs cause |
| it to emit errors and warning messages, and how they are displayed to |
| the console. |
| |
| Controlling How Clang Displays Diagnostics |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| When Clang emits a diagnostic, it includes rich information in the |
| output, and gives you fine-grain control over which information is |
| printed. Clang has the ability to print this information, and these are |
| the options that control it: |
| |
| #. A file/line/column indicator that shows exactly where the diagnostic |
| occurs in your code [:ref:`-fshow-column <opt_fshow-column>`, |
| :ref:`-fshow-source-location <opt_fshow-source-location>`]. |
| #. A categorization of the diagnostic as a note, warning, error, or |
| fatal error. |
| #. A text string that describes what the problem is. |
| #. An option that indicates how to control the diagnostic (for |
| diagnostics that support it) |
| [:ref:`-fdiagnostics-show-option <opt_fdiagnostics-show-option>`]. |
| #. A :ref:`high-level category <diagnostics_categories>` for the diagnostic |
| for clients that want to group diagnostics by class (for diagnostics |
| that support it) |
| [:ref:`-fdiagnostics-show-category <opt_fdiagnostics-show-category>`]. |
| #. The line of source code that the issue occurs on, along with a caret |
| and ranges that indicate the important locations |
| [:ref:`-fcaret-diagnostics <opt_fcaret-diagnostics>`]. |
| #. "FixIt" information, which is a concise explanation of how to fix the |
| problem (when Clang is certain it knows) |
| [:ref:`-fdiagnostics-fixit-info <opt_fdiagnostics-fixit-info>`]. |
| #. A machine-parsable representation of the ranges involved (off by |
| default) |
| [:ref:`-fdiagnostics-print-source-range-info <opt_fdiagnostics-print-source-range-info>`]. |
| |
| For more information please see :ref:`Formatting of |
| Diagnostics <cl_diag_formatting>`. |
| |
| Diagnostic Mappings |
| ^^^^^^^^^^^^^^^^^^^ |
| |
| All diagnostics are mapped into one of these 6 classes: |
| |
| - Ignored |
| - Note |
| - Remark |
| - Warning |
| - Error |
| - Fatal |
| |
| .. _diagnostics_categories: |
| |
| Diagnostic Categories |
| ^^^^^^^^^^^^^^^^^^^^^ |
| |
| Though not shown by default, diagnostics may each be associated with a |
| high-level category. This category is intended to make it possible to |
| triage builds that produce a large number of errors or warnings in a |
| grouped way. |
| |
| Categories are not shown by default, but they can be turned on with the |
| :ref:`-fdiagnostics-show-category <opt_fdiagnostics-show-category>` option. |
| When set to "``name``", the category is printed textually in the |
| diagnostic output. When it is set to "``id``", a category number is |
| printed. The mapping of category names to category id's can be obtained |
| by running '``clang --print-diagnostic-categories``'. |
| |
| Controlling Diagnostics via Command Line Flags |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| TODO: -W flags, -pedantic, etc |
| |
| .. _pragma_gcc_diagnostic: |
| |
| Controlling Diagnostics via Pragmas |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| Clang can also control what diagnostics are enabled through the use of |
| pragmas in the source code. This is useful for turning off specific |
| warnings in a section of source code. Clang supports GCC's pragma for |
| compatibility with existing source code, as well as several extensions. |
| |
| The pragma may control any warning that can be used from the command |
| line. Warnings may be set to ignored, warning, error, or fatal. The |
| following example code will tell Clang or GCC to ignore the -Wall |
| warnings: |
| |
| .. code-block:: c |
| |
| #pragma GCC diagnostic ignored "-Wall" |
| |
| In addition to all of the functionality provided by GCC's pragma, Clang |
| also allows you to push and pop the current warning state. This is |
| particularly useful when writing a header file that will be compiled by |
| other people, because you don't know what warning flags they build with. |
| |
| In the below example :option:`-Wextra-tokens` is ignored for only a single line |
| of code, after which the diagnostics return to whatever state had previously |
| existed. |
| |
| .. code-block:: c |
| |
| #if foo |
| #endif foo // warning: extra tokens at end of #endif directive |
| |
| #pragma clang diagnostic ignored "-Wextra-tokens" |
| |
| #if foo |
| #endif foo // no warning |
| |
| #pragma clang diagnostic pop |
| |
| The push and pop pragmas will save and restore the full diagnostic state |
| of the compiler, regardless of how it was set. That means that it is |
| possible to use push and pop around GCC compatible diagnostics and Clang |
| will push and pop them appropriately, while GCC will ignore the pushes |
| and pops as unknown pragmas. It should be noted that while Clang |
| supports the GCC pragma, Clang and GCC do not support the exact same set |
| of warnings, so even when using GCC compatible #pragmas there is no |
| guarantee that they will have identical behaviour on both compilers. |
| |
| In addition to controlling warnings and errors generated by the compiler, it is |
| possible to generate custom warning and error messages through the following |
| pragmas: |
| |
| .. code-block:: c |
| |
| // The following will produce warning messages |
| #pragma message "some diagnostic message" |
| #pragma GCC warning "TODO: replace deprecated feature" |
| |
| // The following will produce an error message |
| #pragma GCC error "Not supported" |
| |
| These pragmas operate similarly to the ``#warning`` and ``#error`` preprocessor |
| directives, except that they may also be embedded into preprocessor macros via |
| the C99 ``_Pragma`` operator, for example: |
| |
| .. code-block:: c |
| |
| #define STR(X) #X |
| #define DEFER(M,...) M(__VA_ARGS__) |
| #define CUSTOM_ERROR(X) _Pragma(STR(GCC error(X " at line " DEFER(STR,__LINE__)))) |
| |
| CUSTOM_ERROR("Feature not available"); |
| |
| Controlling Diagnostics in System Headers |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| Warnings are suppressed when they occur in system headers. By default, |
| an included file is treated as a system header if it is found in an |
| include path specified by ``-isystem``, but this can be overridden in |
| several ways. |
| |
| The ``system_header`` pragma can be used to mark the current file as |
| being a system header. No warnings will be produced from the location of |
| the pragma onwards within the same file. |
| |
| .. code-block:: c |
| |
| #if foo |
| #endif foo // warning: extra tokens at end of #endif directive |
| |
| #pragma clang system_header |
| |
| #if foo |
| #endif foo // no warning |
| |
| The :option:`--system-header-prefix=` and :option:`--no-system-header-prefix=` |
| command-line arguments can be used to override whether subsets of an include |
| path are treated as system headers. When the name in a ``#include`` directive |
| is found within a header search path and starts with a system prefix, the |
| header is treated as a system header. The last prefix on the |
| command-line which matches the specified header name takes precedence. |
| For instance: |
| |
| .. code-block:: console |
| |
| $ clang -Ifoo -isystem bar --system-header-prefix=x/ \ |
| --no-system-header-prefix=x/y/ |
| |
| Here, ``#include "x/a.h"`` is treated as including a system header, even |
| if the header is found in ``foo``, and ``#include "x/y/b.h"`` is treated |
| as not including a system header, even if the header is found in |
| ``bar``. |
| |
| A ``#include`` directive which finds a file relative to the current |
| directory is treated as including a system header if the including file |
| is treated as a system header. |
| |
| .. _diagnostics_enable_everything: |
| |
| Enabling All Diagnostics |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| In addition to the traditional ``-W`` flags, one can enable **all** |
| diagnostics by passing :option:`-Weverything`. This works as expected |
| with |
| :option:`-Werror`, and also includes the warnings from :option:`-pedantic`. |
| |
| Note that when combined with :option:`-w` (which disables all warnings), that |
| flag wins. |
| |
| Controlling Static Analyzer Diagnostics |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| While not strictly part of the compiler, the diagnostics from Clang's |
| `static analyzer <http://clang-analyzer.llvm.org>`_ can also be |
| influenced by the user via changes to the source code. See the available |
| `annotations <http://clang-analyzer.llvm.org/annotations.html>`_ and the |
| analyzer's `FAQ |
| page <http://clang-analyzer.llvm.org/faq.html#exclude_code>`_ for more |
| information. |
| |
| .. _usersmanual-precompiled-headers: |
| |
| Precompiled Headers |
| ------------------- |
| |
| `Precompiled headers <http://en.wikipedia.org/wiki/Precompiled_header>`__ |
| are a general approach employed by many compilers to reduce compilation |
| time. The underlying motivation of the approach is that it is common for |
| the same (and often large) header files to be included by multiple |
| source files. Consequently, compile times can often be greatly improved |
| by caching some of the (redundant) work done by a compiler to process |
| headers. Precompiled header files, which represent one of many ways to |
| implement this optimization, are literally files that represent an |
| on-disk cache that contains the vital information necessary to reduce |
| some of the work needed to process a corresponding header file. While |
| details of precompiled headers vary between compilers, precompiled |
| headers have been shown to be highly effective at speeding up program |
| compilation on systems with very large system headers (e.g., Mac OS X). |
| |
| Generating a PCH File |
| ^^^^^^^^^^^^^^^^^^^^^ |
| |
| To generate a PCH file using Clang, one invokes Clang with the |
| :option:`-x <language>-header` option. This mirrors the interface in GCC |
| for generating PCH files: |
| |
| .. code-block:: console |
| |
| $ gcc -x c-header test.h -o test.h.gch |
| $ clang -x c-header test.h -o test.h.pch |
| |
| Using a PCH File |
| ^^^^^^^^^^^^^^^^ |
| |
| A PCH file can then be used as a prefix header when a :option:`-include` |
| option is passed to ``clang``: |
| |
| .. code-block:: console |
| |
| $ clang -include test.h test.c -o test |
| |
| The ``clang`` driver will first check if a PCH file for ``test.h`` is |
| available; if so, the contents of ``test.h`` (and the files it includes) |
| will be processed from the PCH file. Otherwise, Clang falls back to |
| directly processing the content of ``test.h``. This mirrors the behavior |
| of GCC. |
| |
| .. note:: |
| |
| Clang does *not* automatically use PCH files for headers that are directly |
| included within a source file. For example: |
| |
| .. code-block:: console |
| |
| $ clang -x c-header test.h -o test.h.pch |
| $ cat test.c |
| #include "test.h" |
| $ clang test.c -o test |
| |
| In this example, ``clang`` will not automatically use the PCH file for |
| ``test.h`` since ``test.h`` was included directly in the source file and not |
| specified on the command line using :option:`-include`. |
| |
| Relocatable PCH Files |
| ^^^^^^^^^^^^^^^^^^^^^ |
| |
| It is sometimes necessary to build a precompiled header from headers |
| that are not yet in their final, installed locations. For example, one |
| might build a precompiled header within the build tree that is then |
| meant to be installed alongside the headers. Clang permits the creation |
| of "relocatable" precompiled headers, which are built with a given path |
| (into the build directory) and can later be used from an installed |
| location. |
| |
| To build a relocatable precompiled header, place your headers into a |
| subdirectory whose structure mimics the installed location. For example, |
| if you want to build a precompiled header for the header ``mylib.h`` |
| that will be installed into ``/usr/include``, create a subdirectory |
| ``build/usr/include`` and place the header ``mylib.h`` into that |
| subdirectory. If ``mylib.h`` depends on other headers, then they can be |
| stored within ``build/usr/include`` in a way that mimics the installed |
| location. |
| |
| Building a relocatable precompiled header requires two additional |
| arguments. First, pass the ``--relocatable-pch`` flag to indicate that |
| the resulting PCH file should be relocatable. Second, pass |
| :option:`-isysroot /path/to/build`, which makes all includes for your library |
| relative to the build directory. For example: |
| |
| .. code-block:: console |
| |
| # clang -x c-header --relocatable-pch -isysroot /path/to/build /path/to/build/mylib.h mylib.h.pch |
| |
| When loading the relocatable PCH file, the various headers used in the |
| PCH file are found from the system header root. For example, ``mylib.h`` |
| can be found in ``/usr/include/mylib.h``. If the headers are installed |
| in some other system root, the :option:`-isysroot` option can be used provide |
| a different system root from which the headers will be based. For |
| example, :option:`-isysroot /Developer/SDKs/MacOSX10.4u.sdk` will look for |
| ``mylib.h`` in ``/Developer/SDKs/MacOSX10.4u.sdk/usr/include/mylib.h``. |
| |
| Relocatable precompiled headers are intended to be used in a limited |
| number of cases where the compilation environment is tightly controlled |
| and the precompiled header cannot be generated after headers have been |
| installed. |
| |
| .. _controlling-code-generation: |
| |
| Controlling Code Generation |
| --------------------------- |
| |
| Clang provides a number of ways to control code generation. The options |
| are listed below. |
| |
| **-f[no-]sanitize=check1,check2,...** |
| Turn on runtime checks for various forms of undefined or suspicious |
| behavior. |
| |
| This option controls whether Clang adds runtime checks for various |
| forms of undefined or suspicious behavior, and is disabled by |
| default. If a check fails, a diagnostic message is produced at |
| runtime explaining the problem. The main checks are: |
| |
| - .. _opt_fsanitize_address: |
| |
| ``-fsanitize=address``: |
| :doc:`AddressSanitizer`, a memory error |
| detector. |
| - .. _opt_fsanitize_thread: |
| |
| ``-fsanitize=thread``: :doc:`ThreadSanitizer`, a data race detector. |
| - .. _opt_fsanitize_memory: |
| |
| ``-fsanitize=memory``: :doc:`MemorySanitizer`, |
| a detector of uninitialized reads. Requires instrumentation of all |
| program code. |
| - .. _opt_fsanitize_undefined: |
| |
| ``-fsanitize=undefined``: :doc:`UndefinedBehaviorSanitizer`, |
| a fast and compatible undefined behavior checker. |
| |
| - ``-fsanitize=dataflow``: :doc:`DataFlowSanitizer`, a general data |
| flow analysis. |
| - ``-fsanitize=cfi``: :doc:`control flow integrity <ControlFlowIntegrity>` |
| checks. Requires ``-flto``. |
| - ``-fsanitize=safe-stack``: :doc:`safe stack <SafeStack>` |
| protection against stack-based memory corruption errors. |
| |
| There are more fine-grained checks available: see |
| the :ref:`list <ubsan-checks>` of specific kinds of |
| undefined behavior that can be detected and the :ref:`list <cfi-schemes>` |
| of control flow integrity schemes. |
| |
| The ``-fsanitize=`` argument must also be provided when linking, in |
| order to link to the appropriate runtime library. |
| |
| It is not possible to combine more than one of the ``-fsanitize=address``, |
| ``-fsanitize=thread``, and ``-fsanitize=memory`` checkers in the same |
| program. |
| |
| **-f[no-]sanitize-recover=check1,check2,...** |
| |
| **-f[no-]sanitize-recover=all** |
| |
| Controls which checks enabled by ``-fsanitize=`` flag are non-fatal. |
| If the check is fatal, program will halt after the first error |
| of this kind is detected and error report is printed. |
| |
| By default, non-fatal checks are those enabled by |
| :doc:`UndefinedBehaviorSanitizer`, |
| except for ``-fsanitize=return`` and ``-fsanitize=unreachable``. Some |
| sanitizers may not support recovery (or not support it by default |
| e.g. :doc:`AddressSanitizer`), and always crash the program after the issue |
| is detected. |
| |
| Note that the ``-fsanitize-trap`` flag has precedence over this flag. |
| This means that if a check has been configured to trap elsewhere on the |
| command line, or if the check traps by default, this flag will not have |
| any effect unless that sanitizer's trapping behavior is disabled with |
| ``-fno-sanitize-trap``. |
| |
| For example, if a command line contains the flags ``-fsanitize=undefined |
| -fsanitize-trap=undefined``, the flag ``-fsanitize-recover=alignment`` |
| will have no effect on its own; it will need to be accompanied by |
| ``-fno-sanitize-trap=alignment``. |
| |
| **-f[no-]sanitize-trap=check1,check2,...** |
| |
| Controls which checks enabled by the ``-fsanitize=`` flag trap. This |
| option is intended for use in cases where the sanitizer runtime cannot |
| be used (for instance, when building libc or a kernel module), or where |
| the binary size increase caused by the sanitizer runtime is a concern. |
| |
| This flag is only compatible with :doc:`control flow integrity |
| <ControlFlowIntegrity>` schemes and :doc:`UndefinedBehaviorSanitizer` |
| checks other than ``vptr``. If this flag |
| is supplied together with ``-fsanitize=undefined``, the ``vptr`` sanitizer |
| will be implicitly disabled. |
| |
| This flag is enabled by default for sanitizers in the ``cfi`` group. |
| |
| .. option:: -fsanitize-blacklist=/path/to/blacklist/file |
| |
| Disable or modify sanitizer checks for objects (source files, functions, |
| variables, types) listed in the file. See |
| :doc:`SanitizerSpecialCaseList` for file format description. |
| |
| .. option:: -fno-sanitize-blacklist |
| |
| Don't use blacklist file, if it was specified earlier in the command line. |
| |
| **-f[no-]sanitize-coverage=[type,features,...]** |
| |
| Enable simple code coverage in addition to certain sanitizers. |
| See :doc:`SanitizerCoverage` for more details. |
| |
| **-f[no-]sanitize-stats** |
| |
| Enable simple statistics gathering for the enabled sanitizers. |
| See :doc:`SanitizerStats` for more details. |
| |
| .. option:: -fsanitize-undefined-trap-on-error |
| |
| Deprecated alias for ``-fsanitize-trap=undefined``. |
| |
| .. option:: -fsanitize-cfi-cross-dso |
| |
| Enable cross-DSO control flow integrity checks. This flag modifies |
| the behavior of sanitizers in the ``cfi`` group to allow checking |
| of cross-DSO virtual and indirect calls. |
| |
| .. option:: -ffast-math |
| |
| Enable fast-math mode. This defines the ``__FAST_MATH__`` preprocessor |
| macro, and lets the compiler make aggressive, potentially-lossy assumptions |
| about floating-point math. These include: |
| |
| * Floating-point math obeys regular algebraic rules for real numbers (e.g. |
| ``+`` and ``*`` are associative, ``x/y == x * (1/y)``, and |
| ``(a + b) * c == a * c + b * c``), |
| * operands to floating-point operations are not equal to ``NaN`` and |
| ``Inf``, and |
| * ``+0`` and ``-0`` are interchangeable. |
| |
| .. option:: -fwhole-program-vtables |
| |
| Enable whole-program vtable optimizations, such as single-implementation |
| devirtualization and virtual constant propagation, for classes with |
| :doc:`hidden LTO visibility <LTOVisibility>`. Requires ``-flto``. |
| |
| .. option:: -fno-assume-sane-operator-new |
| |
| Don't assume that the C++'s new operator is sane. |
| |
| This option tells the compiler to do not assume that C++'s global |
| new operator will always return a pointer that does not alias any |
| other pointer when the function returns. |
| |
| .. option:: -ftrap-function=[name] |
| |
| Instruct code generator to emit a function call to the specified |
| function name for ``__builtin_trap()``. |
| |
| LLVM code generator translates ``__builtin_trap()`` to a trap |
| instruction if it is supported by the target ISA. Otherwise, the |
| builtin is translated into a call to ``abort``. If this option is |
| set, then the code generator will always lower the builtin to a call |
| to the specified function regardless of whether the target ISA has a |
| trap instruction. This option is useful for environments (e.g. |
| deeply embedded) where a trap cannot be properly handled, or when |
| some custom behavior is desired. |
| |
| .. option:: -ftls-model=[model] |
| |
| Select which TLS model to use. |
| |
| Valid values are: ``global-dynamic``, ``local-dynamic``, |
| ``initial-exec`` and ``local-exec``. The default value is |
| ``global-dynamic``. The compiler may use a different model if the |
| selected model is not supported by the target, or if a more |
| efficient model can be used. The TLS model can be overridden per |
| variable using the ``tls_model`` attribute. |
| |
| .. option:: -femulated-tls |
| |
| Select emulated TLS model, which overrides all -ftls-model choices. |
| |
| In emulated TLS mode, all access to TLS variables are converted to |
| calls to __emutls_get_address in the runtime library. |
| |
| .. option:: -mhwdiv=[values] |
| |
| Select the ARM modes (arm or thumb) that support hardware division |
| instructions. |
| |
| Valid values are: ``arm``, ``thumb`` and ``arm,thumb``. |
| This option is used to indicate which mode (arm or thumb) supports |
| hardware division instructions. This only applies to the ARM |
| architecture. |
| |
| .. option:: -m[no-]crc |
| |
| Enable or disable CRC instructions. |
| |
| This option is used to indicate whether CRC instructions are to |
| be generated. This only applies to the ARM architecture. |
| |
| CRC instructions are enabled by default on ARMv8. |
| |
| .. option:: -mgeneral-regs-only |
| |
| Generate code which only uses the general purpose registers. |
| |
| This option restricts the generated code to use general registers |
| only. This only applies to the AArch64 architecture. |
| |
| .. option:: -mcompact-branches=[values] |
| |
| Control the usage of compact branches for MIPSR6. |
| |
| Valid values are: ``never``, ``optimal`` and ``always``. |
| The default value is ``optimal`` which generates compact branches |
| when a delay slot cannot be filled. ``never`` disables the usage of |
| compact branches and ``always`` generates compact branches whenever |
| possible. |
| |
| **-f[no-]max-type-align=[number]** |
| Instruct the code generator to not enforce a higher alignment than the given |
| number (of bytes) when accessing memory via an opaque pointer or reference. |
| This cap is ignored when directly accessing a variable or when the pointee |
| type has an explicit “aligned” attribute. |
| |
| The value should usually be determined by the properties of the system allocator. |
| Some builtin types, especially vector types, have very high natural alignments; |
| when working with values of those types, Clang usually wants to use instructions |
| that take advantage of that alignment. However, many system allocators do |
| not promise to return memory that is more than 8-byte or 16-byte-aligned. Use |
| this option to limit the alignment that the compiler can assume for an arbitrary |
| pointer, which may point onto the heap. |
| |
| This option does not affect the ABI alignment of types; the layout of structs and |
| unions and the value returned by the alignof operator remain the same. |
| |
| This option can be overridden on a case-by-case basis by putting an explicit |
| “aligned” alignment on a struct, union, or typedef. For example: |
| |
| .. code-block:: console |
| |
| #include <immintrin.h> |
| // Make an aligned typedef of the AVX-512 16-int vector type. |
| typedef __v16si __aligned_v16si __attribute__((aligned(64))); |
| |
| void initialize_vector(__aligned_v16si *v) { |
| // The compiler may assume that ‘v’ is 64-byte aligned, regardless of the |
| // value of -fmax-type-align. |
| } |
| |
| |
| Profile Guided Optimization |
| --------------------------- |
| |
| Profile information enables better optimization. For example, knowing that a |
| branch is taken very frequently helps the compiler make better decisions when |
| ordering basic blocks. Knowing that a function ``foo`` is called more |
| frequently than another function ``bar`` helps the inliner. |
| |
| Clang supports profile guided optimization with two different kinds of |
| profiling. A sampling profiler can generate a profile with very low runtime |
| overhead, or you can build an instrumented version of the code that collects |
| more detailed profile information. Both kinds of profiles can provide execution |
| counts for instructions in the code and information on branches taken and |
| function invocation. |
| |
| Regardless of which kind of profiling you use, be careful to collect profiles |
| by running your code with inputs that are representative of the typical |
| behavior. Code that is not exercised in the profile will be optimized as if it |
| is unimportant, and the compiler may make poor optimization choices for code |
| that is disproportionately used while profiling. |
| |
| Differences Between Sampling and Instrumentation |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| Although both techniques are used for similar purposes, there are important |
| differences between the two: |
| |
| 1. Profile data generated with one cannot be used by the other, and there is no |
| conversion tool that can convert one to the other. So, a profile generated |
| via ``-fprofile-instr-generate`` must be used with ``-fprofile-instr-use``. |
| Similarly, sampling profiles generated by external profilers must be |
| converted and used with ``-fprofile-sample-use``. |
| |
| 2. Instrumentation profile data can be used for code coverage analysis and |
| optimization. |
| |
| 3. Sampling profiles can only be used for optimization. They cannot be used for |
| code coverage analysis. Although it would be technically possible to use |
| sampling profiles for code coverage, sample-based profiles are too |
| coarse-grained for code coverage purposes; it would yield poor results. |
| |
| 4. Sampling profiles must be generated by an external tool. The profile |
| generated by that tool must then be converted into a format that can be read |
| by LLVM. The section on sampling profilers describes one of the supported |
| sampling profile formats. |
| |
| |
| Using Sampling Profilers |
| ^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| Sampling profilers are used to collect runtime information, such as |
| hardware counters, while your application executes. They are typically |
| very efficient and do not incur a large runtime overhead. The |
| sample data collected by the profiler can be used during compilation |
| to determine what the most executed areas of the code are. |
| |
| Using the data from a sample profiler requires some changes in the way |
| a program is built. Before the compiler can use profiling information, |
| the code needs to execute under the profiler. The following is the |
| usual build cycle when using sample profilers for optimization: |
| |
| 1. Build the code with source line table information. You can use all the |
| usual build flags that you always build your application with. The only |
| requirement is that you add ``-gline-tables-only`` or ``-g`` to the |
| command line. This is important for the profiler to be able to map |
| instructions back to source line locations. |
| |
| .. code-block:: console |
| |
| $ clang++ -O2 -gline-tables-only code.cc -o code |
| |
| 2. Run the executable under a sampling profiler. The specific profiler |
| you use does not really matter, as long as its output can be converted |
| into the format that the LLVM optimizer understands. Currently, there |
| exists a conversion tool for the Linux Perf profiler |
| (https://perf.wiki.kernel.org/), so these examples assume that you |
| are using Linux Perf to profile your code. |
| |
| .. code-block:: console |
| |
| $ perf record -b ./code |
| |
| Note the use of the ``-b`` flag. This tells Perf to use the Last Branch |
| Record (LBR) to record call chains. While this is not strictly required, |
| it provides better call information, which improves the accuracy of |
| the profile data. |
| |
| 3. Convert the collected profile data to LLVM's sample profile format. |
| This is currently supported via the AutoFDO converter ``create_llvm_prof``. |
| It is available at http://github.com/google/autofdo. Once built and |
| installed, you can convert the ``perf.data`` file to LLVM using |
| the command: |
| |
| .. code-block:: console |
| |
| $ create_llvm_prof --binary=./code --out=code.prof |
| |
| This will read ``perf.data`` and the binary file ``./code`` and emit |
| the profile data in ``code.prof``. Note that if you ran ``perf`` |
| without the ``-b`` flag, you need to use ``--use_lbr=false`` when |
| calling ``create_llvm_prof``. |
| |
| 4. Build the code again using the collected profile. This step feeds |
| the profile back to the optimizers. This should result in a binary |
| that executes faster than the original one. Note that you are not |
| required to build the code with the exact same arguments that you |
| used in the first step. The only requirement is that you build the code |
| with ``-gline-tables-only`` and ``-fprofile-sample-use``. |
| |
| .. code-block:: console |
| |
| $ clang++ -O2 -gline-tables-only -fprofile-sample-use=code.prof code.cc -o code |
| |
| |
| Sample Profile Formats |
| """""""""""""""""""""" |
| |
| Since external profilers generate profile data in a variety of custom formats, |
| the data generated by the profiler must be converted into a format that can be |
| read by the backend. LLVM supports three different sample profile formats: |
| |
| 1. ASCII text. This is the easiest one to generate. The file is divided into |
| sections, which correspond to each of the functions with profile |
| information. The format is described below. It can also be generated from |
| the binary or gcov formats using the ``llvm-profdata`` tool. |
| |
| 2. Binary encoding. This uses a more efficient encoding that yields smaller |
| profile files. This is the format generated by the ``create_llvm_prof`` tool |
| in http://github.com/google/autofdo. |
| |
| 3. GCC encoding. This is based on the gcov format, which is accepted by GCC. It |
| is only interesting in environments where GCC and Clang co-exist. This |
| encoding is only generated by the ``create_gcov`` tool in |
| http://github.com/google/autofdo. It can be read by LLVM and |
| ``llvm-profdata``, but it cannot be generated by either. |
| |
| If you are using Linux Perf to generate sampling profiles, you can use the |
| conversion tool ``create_llvm_prof`` described in the previous section. |
| Otherwise, you will need to write a conversion tool that converts your |
| profiler's native format into one of these three. |
| |
| |
| Sample Profile Text Format |
| """""""""""""""""""""""""" |
| |
| This section describes the ASCII text format for sampling profiles. It is, |
| arguably, the easiest one to generate. If you are interested in generating any |
| of the other two, consult the ``ProfileData`` library in in LLVM's source tree |
| (specifically, ``include/llvm/ProfileData/SampleProfReader.h``). |
| |
| .. code-block:: console |
| |
| function1:total_samples:total_head_samples |
| offset1[.discriminator]: number_of_samples [fn1:num fn2:num ... ] |
| offset2[.discriminator]: number_of_samples [fn3:num fn4:num ... ] |
| ... |
| offsetN[.discriminator]: number_of_samples [fn5:num fn6:num ... ] |
| offsetA[.discriminator]: fnA:num_of_total_samples |
| offsetA1[.discriminator]: number_of_samples [fn7:num fn8:num ... ] |
| offsetA1[.discriminator]: number_of_samples [fn9:num fn10:num ... ] |
| offsetB[.discriminator]: fnB:num_of_total_samples |
| offsetB1[.discriminator]: number_of_samples [fn11:num fn12:num ... ] |
| |
| This is a nested tree in which the identation represents the nesting level |
| of the inline stack. There are no blank lines in the file. And the spacing |
| within a single line is fixed. Additional spaces will result in an error |
| while reading the file. |
| |
| Any line starting with the '#' character is completely ignored. |
| |
| Inlined calls are represented with indentation. The Inline stack is a |
| stack of source locations in which the top of the stack represents the |
| leaf function, and the bottom of the stack represents the actual |
| symbol to which the instruction belongs. |
| |
| Function names must be mangled in order for the profile loader to |
| match them in the current translation unit. The two numbers in the |
| function header specify how many total samples were accumulated in the |
| function (first number), and the total number of samples accumulated |
| in the prologue of the function (second number). This head sample |
| count provides an indicator of how frequently the function is invoked. |
| |
| There are two types of lines in the function body. |
| |
| - Sampled line represents the profile information of a source location. |
| ``offsetN[.discriminator]: number_of_samples [fn5:num fn6:num ... ]`` |
| |
| - Callsite line represents the profile information of an inlined callsite. |
| ``offsetA[.discriminator]: fnA:num_of_total_samples`` |
| |
| Each sampled line may contain several items. Some are optional (marked |
| below): |
| |
| a. Source line offset. This number represents the line number |
| in the function where the sample was collected. The line number is |
| always relative to the line where symbol of the function is |
| defined. So, if the function has its header at line 280, the offset |
| 13 is at line 293 in the file. |
| |
| Note that this offset should never be a negative number. This could |
| happen in cases like macros. The debug machinery will register the |
| line number at the point of macro expansion. So, if the macro was |
| expanded in a line before the start of the function, the profile |
| converter should emit a 0 as the offset (this means that the optimizers |
| will not be able to associate a meaningful weight to the instructions |
| in the macro). |
| |
| b. [OPTIONAL] Discriminator. This is used if the sampled program |
| was compiled with DWARF discriminator support |
| (http://wiki.dwarfstd.org/index.php?title=Path_Discriminators). |
| DWARF discriminators are unsigned integer values that allow the |
| compiler to distinguish between multiple execution paths on the |
| same source line location. |
| |
| For example, consider the line of code ``if (cond) foo(); else bar();``. |
| If the predicate ``cond`` is true 80% of the time, then the edge |
| into function ``foo`` should be considered to be taken most of the |
| time. But both calls to ``foo`` and ``bar`` are at the same source |
| line, so a sample count at that line is not sufficient. The |
| compiler needs to know which part of that line is taken more |
| frequently. |
| |
| This is what discriminators provide. In this case, the calls to |
| ``foo`` and ``bar`` will be at the same line, but will have |
| different discriminator values. This allows the compiler to correctly |
| set edge weights into ``foo`` and ``bar``. |
| |
| c. Number of samples. This is an integer quantity representing the |
| number of samples collected by the profiler at this source |
| location. |
| |
| d. [OPTIONAL] Potential call targets and samples. If present, this |
| line contains a call instruction. This models both direct and |
| number of samples. For example, |
| |
| .. code-block:: console |
| |
| 130: 7 foo:3 bar:2 baz:7 |
| |
| The above means that at relative line offset 130 there is a call |
| instruction that calls one of ``foo()``, ``bar()`` and ``baz()``, |
| with ``baz()`` being the relatively more frequently called target. |
| |
| As an example, consider a program with the call chain ``main -> foo -> bar``. |
| When built with optimizations enabled, the compiler may inline the |
| calls to ``bar`` and ``foo`` inside ``main``. The generated profile |
| could then be something like this: |
| |
| .. code-block:: console |
| |
| main:35504:0 |
| 1: _Z3foov:35504 |
| 2: _Z32bari:31977 |
| 1.1: 31977 |
| 2: 0 |
| |
| This profile indicates that there were a total of 35,504 samples |
| collected in main. All of those were at line 1 (the call to ``foo``). |
| Of those, 31,977 were spent inside the body of ``bar``. The last line |
| of the profile (``2: 0``) corresponds to line 2 inside ``main``. No |
| samples were collected there. |
| |
| Profiling with Instrumentation |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| Clang also supports profiling via instrumentation. This requires building a |
| special instrumented version of the code and has some runtime |
| overhead during the profiling, but it provides more detailed results than a |
| sampling profiler. It also provides reproducible results, at least to the |
| extent that the code behaves consistently across runs. |
| |
| Here are the steps for using profile guided optimization with |
| instrumentation: |
| |
| 1. Build an instrumented version of the code by compiling and linking with the |
| ``-fprofile-instr-generate`` option. |
| |
| .. code-block:: console |
| |
| $ clang++ -O2 -fprofile-instr-generate code.cc -o code |
| |
| 2. Run the instrumented executable with inputs that reflect the typical usage. |
| By default, the profile data will be written to a ``default.profraw`` file |
| in the current directory. You can override that default by setting the |
| ``LLVM_PROFILE_FILE`` environment variable to specify an alternate file. |
| Any instance of ``%p`` in that file name will be replaced by the process |
| ID, so that you can easily distinguish the profile output from multiple |
| runs. |
| |
| .. code-block:: console |
| |
| $ LLVM_PROFILE_FILE="code-%p.profraw" ./code |
| |
| 3. Combine profiles from multiple runs and convert the "raw" profile format to |
| the input expected by clang. Use the ``merge`` command of the |
| ``llvm-profdata`` tool to do this. |
| |
| .. code-block:: console |
| |
| $ llvm-profdata merge -output=code.profdata code-*.profraw |
| |
| Note that this step is necessary even when there is only one "raw" profile, |
| since the merge operation also changes the file format. |
| |
| 4. Build the code again using the ``-fprofile-instr-use`` option to specify the |
| collected profile data. |
| |
| .. code-block:: console |
| |
| $ clang++ -O2 -fprofile-instr-use=code.profdata code.cc -o code |
| |
| You can repeat step 4 as often as you like without regenerating the |
| profile. As you make changes to your code, clang may no longer be able to |
| use the profile data. It will warn you when this happens. |
| |
| Profile generation and use can also be controlled by the GCC-compatible flags |
| ``-fprofile-generate`` and ``-fprofile-use``. Although these flags are |
| semantically equivalent to their GCC counterparts, they *do not* handle |
| GCC-compatible profiles. They are only meant to implement GCC's semantics |
| with respect to profile creation and use. |
| |
| .. option:: -fprofile-generate[=<dirname>] |
| |
| Without any other arguments, ``-fprofile-generate`` behaves identically to |
| ``-fprofile-instr-generate``. When given a directory name, it generates the |
| profile file ``default.profraw`` in the directory named ``dirname``. If |
| ``dirname`` does not exist, it will be created at runtime. The environment |
| variable ``LLVM_PROFILE_FILE`` can be used to override the directory and |
| filename for the profile file at runtime. For example, |
| |
| .. code-block:: console |
| |
| $ clang++ -O2 -fprofile-generate=yyy/zzz code.cc -o code |
| |
| When ``code`` is executed, the profile will be written to the file |
| ``yyy/zzz/default.profraw``. This can be altered at runtime via the |
| ``LLVM_PROFILE_FILE`` environment variable: |
| |
| .. code-block:: console |
| |
| $ LLVM_PROFILE_FILE=/tmp/myprofile/code.profraw ./code |
| |
| The above invocation will produce the profile file |
| ``/tmp/myprofile/code.profraw`` instead of ``yyy/zzz/default.profraw``. |
| Notice that ``LLVM_PROFILE_FILE`` overrides the directory *and* the file |
| name for the profile file. |
| |
| .. option:: -fprofile-use[=<pathname>] |
| |
| Without any other arguments, ``-fprofile-use`` behaves identically to |
| ``-fprofile-instr-use``. Otherwise, if ``pathname`` is the full path to a |
| profile file, it reads from that file. If ``pathname`` is a directory name, |
| it reads from ``pathname/default.profdata``. |
| |
| Disabling Instrumentation |
| ^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| In certain situations, it may be useful to disable profile generation or use |
| for specific files in a build, without affecting the main compilation flags |
| used for the other files in the project. |
| |
| In these cases, you can use the flag ``-fno-profile-instr-generate`` (or |
| ``-fno-profile-generate``) to disable profile generation, and |
| ``-fno-profile-instr-use`` (or ``-fno-profile-use``) to disable profile use. |
| |
| Note that these flags should appear after the corresponding profile |
| flags to have an effect. |
| |
| Controlling Debug Information |
| ----------------------------- |
| |
| Controlling Size of Debug Information |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| Debug info kind generated by Clang can be set by one of the flags listed |
| below. If multiple flags are present, the last one is used. |
| |
| .. option:: -g0 |
| |
| Don't generate any debug info (default). |
| |
| .. option:: -gline-tables-only |
| |
| Generate line number tables only. |
| |
| This kind of debug info allows to obtain stack traces with function names, |
| file names and line numbers (by such tools as ``gdb`` or ``addr2line``). It |
| doesn't contain any other data (e.g. description of local variables or |
| function parameters). |
| |
| .. option:: -fstandalone-debug |
| |
| Clang supports a number of optimizations to reduce the size of debug |
| information in the binary. They work based on the assumption that |
| the debug type information can be spread out over multiple |
| compilation units. For instance, Clang will not emit type |
| definitions for types that are not needed by a module and could be |
| replaced with a forward declaration. Further, Clang will only emit |
| type info for a dynamic C++ class in the module that contains the |
| vtable for the class. |
| |
| The **-fstandalone-debug** option turns off these optimizations. |
| This is useful when working with 3rd-party libraries that don't come |
| with debug information. Note that Clang will never emit type |
| information for types that are not referenced at all by the program. |
| |
| .. option:: -fno-standalone-debug |
| |
| On Darwin **-fstandalone-debug** is enabled by default. The |
| **-fno-standalone-debug** option can be used to get to turn on the |
| vtable-based optimization described above. |
| |
| .. option:: -g |
| |
| Generate complete debug info. |
| |
| Controlling Debugger "Tuning" |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| While Clang generally emits standard DWARF debug info (http://dwarfstd.org), |
| different debuggers may know how to take advantage of different specific DWARF |
| features. You can "tune" the debug info for one of several different debuggers. |
| |
| .. option:: -ggdb, -glldb, -gsce |
| |
| Tune the debug info for the ``gdb``, ``lldb``, or Sony Computer Entertainment |
| debugger, respectively. Each of these options implies **-g**. (Therefore, if |
| you want both **-gline-tables-only** and debugger tuning, the tuning option |
| must come first.) |
| |
| |
| Comment Parsing Options |
| ----------------------- |
| |
| Clang parses Doxygen and non-Doxygen style documentation comments and attaches |
| them to the appropriate declaration nodes. By default, it only parses |
| Doxygen-style comments and ignores ordinary comments starting with ``//`` and |
| ``/*``. |
| |
| .. option:: -Wdocumentation |
| |
| Emit warnings about use of documentation comments. This warning group is off |
| by default. |
| |
| This includes checking that ``\param`` commands name parameters that actually |
| present in the function signature, checking that ``\returns`` is used only on |
| functions that actually return a value etc. |
| |
| .. option:: -Wno-documentation-unknown-command |
| |
| Don't warn when encountering an unknown Doxygen command. |
| |
| .. option:: -fparse-all-comments |
| |
| Parse all comments as documentation comments (including ordinary comments |
| starting with ``//`` and ``/*``). |
| |
| .. option:: -fcomment-block-commands=[commands] |
| |
| Define custom documentation commands as block commands. This allows Clang to |
| construct the correct AST for these custom commands, and silences warnings |
| about unknown commands. Several commands must be separated by a comma |
| *without trailing space*; e.g. ``-fcomment-block-commands=foo,bar`` defines |
| custom commands ``\foo`` and ``\bar``. |
| |
| It is also possible to use ``-fcomment-block-commands`` several times; e.g. |
| ``-fcomment-block-commands=foo -fcomment-block-commands=bar`` does the same |
| as above. |
| |
| .. _c: |
| |
| C Language Features |
| =================== |
| |
| The support for standard C in clang is feature-complete except for the |
| C99 floating-point pragmas. |
| |
| Extensions supported by clang |
| ----------------------------- |
| |
| See :doc:`LanguageExtensions`. |
| |
| Differences between various standard modes |
| ------------------------------------------ |
| |
| clang supports the -std option, which changes what language mode clang |
| uses. The supported modes for C are c89, gnu89, c94, c99, gnu99, c11, |
| gnu11, and various aliases for those modes. If no -std option is |
| specified, clang defaults to gnu11 mode. Many C99 and C11 features are |
| supported in earlier modes as a conforming extension, with a warning. Use |
| ``-pedantic-errors`` to request an error if a feature from a later standard |
| revision is used in an earlier mode. |
| |
| Differences between all ``c*`` and ``gnu*`` modes: |
| |
| - ``c*`` modes define "``__STRICT_ANSI__``". |
| - Target-specific defines not prefixed by underscores, like "linux", |
| are defined in ``gnu*`` modes. |
| - Trigraphs default to being off in ``gnu*`` modes; they can be enabled by |
| the -trigraphs option. |
| - The parser recognizes "asm" and "typeof" as keywords in ``gnu*`` modes; |
| the variants "``__asm__``" and "``__typeof__``" are recognized in all |
| modes. |
| - The Apple "blocks" extension is recognized by default in ``gnu*`` modes |
| on some platforms; it can be enabled in any mode with the "-fblocks" |
| option. |
| - Arrays that are VLA's according to the standard, but which can be |
| constant folded by the frontend are treated as fixed size arrays. |
| This occurs for things like "int X[(1, 2)];", which is technically a |
| VLA. ``c*`` modes are strictly compliant and treat these as VLAs. |
| |
| Differences between ``*89`` and ``*99`` modes: |
| |
| - The ``*99`` modes default to implementing "inline" as specified in C99, |
| while the ``*89`` modes implement the GNU version. This can be |
| overridden for individual functions with the ``__gnu_inline__`` |
| attribute. |
| - Digraphs are not recognized in c89 mode. |
| - The scope of names defined inside a "for", "if", "switch", "while", |
| or "do" statement is different. (example: "``if ((struct x {int |
| x;}*)0) {}``".) |
| - ``__STDC_VERSION__`` is not defined in ``*89`` modes. |
| - "inline" is not recognized as a keyword in c89 mode. |
| - "restrict" is not recognized as a keyword in ``*89`` modes. |
| - Commas are allowed in integer constant expressions in ``*99`` modes. |
| - Arrays which are not lvalues are not implicitly promoted to pointers |
| in ``*89`` modes. |
| - Some warnings are different. |
| |
| Differences between ``*99`` and ``*11`` modes: |
| |
| - Warnings for use of C11 features are disabled. |
| - ``__STDC_VERSION__`` is defined to ``201112L`` rather than ``199901L``. |
| |
| c94 mode is identical to c89 mode except that digraphs are enabled in |
| c94 mode (FIXME: And ``__STDC_VERSION__`` should be defined!). |
| |
| GCC extensions not implemented yet |
| ---------------------------------- |
| |
| clang tries to be compatible with gcc as much as possible, but some gcc |
| extensions are not implemented yet: |
| |
| - clang does not support decimal floating point types (``_Decimal32`` and |
| friends) or fixed-point types (``_Fract`` and friends); nobody has |
| expressed interest in these features yet, so it's hard to say when |
| they will be implemented. |
| - clang does not support nested functions; this is a complex feature |
| which is infrequently used, so it is unlikely to be implemented |
| anytime soon. In C++11 it can be emulated by assigning lambda |
| functions to local variables, e.g: |
| |
| .. code-block:: cpp |
| |
| auto const local_function = [&](int parameter) { |
| // Do something |
| }; |
| ... |
| local_function(1); |
| |
| - clang does not support static initialization of flexible array |
| members. This appears to be a rarely used extension, but could be |
| implemented pending user demand. |
| - clang does not support |
| ``__builtin_va_arg_pack``/``__builtin_va_arg_pack_len``. This is |
| used rarely, but in some potentially interesting places, like the |
| glibc headers, so it may be implemented pending user demand. Note |
| that because clang pretends to be like GCC 4.2, and this extension |
| was introduced in 4.3, the glibc headers will not try to use this |
| extension with clang at the moment. |
| - clang does not support the gcc extension for forward-declaring |
| function parameters; this has not shown up in any real-world code |
| yet, though, so it might never be implemented. |
| |
| This is not a complete list; if you find an unsupported extension |
| missing from this list, please send an e-mail to cfe-dev. This list |
| currently excludes C++; see :ref:`C++ Language Features <cxx>`. Also, this |
| list does not include bugs in mostly-implemented features; please see |
| the `bug |
| tracker <http://llvm.org/bugs/buglist.cgi?quicksearch=product%3Aclang+component%3A-New%2BBugs%2CAST%2CBasic%2CDriver%2CHeaders%2CLLVM%2BCodeGen%2Cparser%2Cpreprocessor%2CSemantic%2BAnalyzer>`_ |
| for known existing bugs (FIXME: Is there a section for bug-reporting |
| guidelines somewhere?). |
| |
| Intentionally unsupported GCC extensions |
| ---------------------------------------- |
| |
| - clang does not support the gcc extension that allows variable-length |
| arrays in structures. This is for a few reasons: one, it is tricky to |
| implement, two, the extension is completely undocumented, and three, |
| the extension appears to be rarely used. Note that clang *does* |
| support flexible array members (arrays with a zero or unspecified |
| size at the end of a structure). |
| - clang does not have an equivalent to gcc's "fold"; this means that |
| clang doesn't accept some constructs gcc might accept in contexts |
| where a constant expression is required, like "x-x" where x is a |
| variable. |
| - clang does not support ``__builtin_apply`` and friends; this extension |
| is extremely obscure and difficult to implement reliably. |
| |
| .. _c_ms: |
| |
| Microsoft extensions |
| -------------------- |
| |
| clang has support for many extensions from Microsoft Visual C++. To enable these |
| extensions, use the ``-fms-extensions`` command-line option. This is the default |
| for Windows targets. Clang does not implement every pragma or declspec provided |
| by MSVC, but the popular ones, such as ``__declspec(dllexport)`` and ``#pragma |
| comment(lib)`` are well supported. |
| |
| clang has a ``-fms-compatibility`` flag that makes clang accept enough |
| invalid C++ to be able to parse most Microsoft headers. For example, it |
| allows `unqualified lookup of dependent base class members |
| <http://clang.llvm.org/compatibility.html#dep_lookup_bases>`_, which is |
| a common compatibility issue with clang. This flag is enabled by default |
| for Windows targets. |
| |
| ``-fdelayed-template-parsing`` lets clang delay parsing of function template |
| definitions until the end of a translation unit. This flag is enabled by |
| default for Windows targets. |
| |
| For compatibility with existing code that compiles with MSVC, clang defines the |
| ``_MSC_VER`` and ``_MSC_FULL_VER`` macros. These default to the values of 1800 |
| and 180000000 respectively, making clang look like an early release of Visual |
| C++ 2013. The ``-fms-compatibility-version=`` flag overrides these values. It |
| accepts a dotted version tuple, such as 19.00.23506. Changing the MSVC |
| compatibility version makes clang behave more like that version of MSVC. For |
| example, ``-fms-compatibility-version=19`` will enable C++14 features and define |
| ``char16_t`` and ``char32_t`` as builtin types. |
| |
| .. _cxx: |
| |
| C++ Language Features |
| ===================== |
| |
| clang fully implements all of standard C++98 except for exported |
| templates (which were removed in C++11), and all of standard C++11 |
| and the current draft standard for C++1y. |
| |
| Controlling implementation limits |
| --------------------------------- |
| |
| .. option:: -fbracket-depth=N |
| |
| Sets the limit for nested parentheses, brackets, and braces to N. The |
| default is 256. |
| |
| .. option:: -fconstexpr-depth=N |
| |
| Sets the limit for recursive constexpr function invocations to N. The |
| default is 512. |
| |
| .. option:: -ftemplate-depth=N |
| |
| Sets the limit for recursively nested template instantiations to N. The |
| default is 256. |
| |
| .. option:: -foperator-arrow-depth=N |
| |
| Sets the limit for iterative calls to 'operator->' functions to N. The |
| default is 256. |
| |
| .. _objc: |
| |
| Objective-C Language Features |
| ============================= |
| |
| .. _objcxx: |
| |
| Objective-C++ Language Features |
| =============================== |
| |
| .. _openmp: |
| |
| OpenMP Features |
| =============== |
| |
| Clang supports all OpenMP 3.1 directives and clauses. In addition, some |
| features of OpenMP 4.0 are supported. For example, ``#pragma omp simd``, |
| ``#pragma omp for simd``, ``#pragma omp parallel for simd`` directives, extended |
| set of atomic constructs, ``proc_bind`` clause for all parallel-based |
| directives, ``depend`` clause for ``#pragma omp task`` directive (except for |
| array sections), ``#pragma omp cancel`` and ``#pragma omp cancellation point`` |
| directives, and ``#pragma omp taskgroup`` directive. |
| |
| Use :option:`-fopenmp` to enable OpenMP. Support for OpenMP can be disabled with |
| :option:`-fno-openmp`. |
| |
| Controlling implementation limits |
| --------------------------------- |
| |
| .. option:: -fopenmp-use-tls |
| |
| Controls code generation for OpenMP threadprivate variables. In presence of |
| this option all threadprivate variables are generated the same way as thread |
| local variables, using TLS support. If :option:`-fno-openmp-use-tls` |
| is provided or target does not support TLS, code generation for threadprivate |
| variables relies on OpenMP runtime library. |
| |
| .. _target_features: |
| |
| Target-Specific Features and Limitations |
| ======================================== |
| |
| CPU Architectures Features and Limitations |
| ------------------------------------------ |
| |
| X86 |
| ^^^ |
| |
| The support for X86 (both 32-bit and 64-bit) is considered stable on |
| Darwin (Mac OS X), Linux, FreeBSD, and Dragonfly BSD: it has been tested |
| to correctly compile many large C, C++, Objective-C, and Objective-C++ |
| codebases. |
| |
| On ``x86_64-mingw32``, passing i128(by value) is incompatible with the |
| Microsoft x64 calling convention. You might need to tweak |
| ``WinX86_64ABIInfo::classify()`` in lib/CodeGen/TargetInfo.cpp. |
| |
| For the X86 target, clang supports the :option:`-m16` command line |
| argument which enables 16-bit code output. This is broadly similar to |
| using ``asm(".code16gcc")`` with the GNU toolchain. The generated code |
| and the ABI remains 32-bit but the assembler emits instructions |
| appropriate for a CPU running in 16-bit mode, with address-size and |
| operand-size prefixes to enable 32-bit addressing and operations. |
| |
| ARM |
| ^^^ |
| |
| The support for ARM (specifically ARMv6 and ARMv7) is considered stable |
| on Darwin (iOS): it has been tested to correctly compile many large C, |
| C++, Objective-C, and Objective-C++ codebases. Clang only supports a |
| limited number of ARM architectures. It does not yet fully support |
| ARMv5, for example. |
| |
| PowerPC |
| ^^^^^^^ |
| |
| The support for PowerPC (especially PowerPC64) is considered stable |
| on Linux and FreeBSD: it has been tested to correctly compile many |
| large C and C++ codebases. PowerPC (32bit) is still missing certain |
| features (e.g. PIC code on ELF platforms). |
| |
| Other platforms |
| ^^^^^^^^^^^^^^^ |
| |
| clang currently contains some support for other architectures (e.g. Sparc); |
| however, significant pieces of code generation are still missing, and they |
| haven't undergone significant testing. |
| |
| clang contains limited support for the MSP430 embedded processor, but |
| both the clang support and the LLVM backend support are highly |
| experimental. |
| |
| Other platforms are completely unsupported at the moment. Adding the |
| minimal support needed for parsing and semantic analysis on a new |
| platform is quite easy; see ``lib/Basic/Targets.cpp`` in the clang source |
| tree. This level of support is also sufficient for conversion to LLVM IR |
| for simple programs. Proper support for conversion to LLVM IR requires |
| adding code to ``lib/CodeGen/CGCall.cpp`` at the moment; this is likely to |
| change soon, though. Generating assembly requires a suitable LLVM |
| backend. |
| |
| Operating System Features and Limitations |
| ----------------------------------------- |
| |
| Darwin (Mac OS X) |
| ^^^^^^^^^^^^^^^^^ |
| |
| Thread Sanitizer is not supported. |
| |
| Windows |
| ^^^^^^^ |
| |
| Clang has experimental support for targeting "Cygming" (Cygwin / MinGW) |
| platforms. |
| |
| See also :ref:`Microsoft Extensions <c_ms>`. |
| |
| Cygwin |
| """""" |
| |
| Clang works on Cygwin-1.7. |
| |
| MinGW32 |
| """"""" |
| |
| Clang works on some mingw32 distributions. Clang assumes directories as |
| below; |
| |
| - ``C:/mingw/include`` |
| - ``C:/mingw/lib`` |
| - ``C:/mingw/lib/gcc/mingw32/4.[3-5].0/include/c++`` |
| |
| On MSYS, a few tests might fail. |
| |
| MinGW-w64 |
| """"""""" |
| |
| For 32-bit (i686-w64-mingw32), and 64-bit (x86\_64-w64-mingw32), Clang |
| assumes as below; |
| |
| - ``GCC versions 4.5.0 to 4.5.3, 4.6.0 to 4.6.2, or 4.7.0 (for the C++ header search path)`` |
| - ``some_directory/bin/gcc.exe`` |
| - ``some_directory/bin/clang.exe`` |
| - ``some_directory/bin/clang++.exe`` |
| - ``some_directory/bin/../include/c++/GCC_version`` |
| - ``some_directory/bin/../include/c++/GCC_version/x86_64-w64-mingw32`` |
| - ``some_directory/bin/../include/c++/GCC_version/i686-w64-mingw32`` |
| - ``some_directory/bin/../include/c++/GCC_version/backward`` |
| - ``some_directory/bin/../x86_64-w64-mingw32/include`` |
| - ``some_directory/bin/../i686-w64-mingw32/include`` |
| - ``some_directory/bin/../include`` |
| |
| This directory layout is standard for any toolchain you will find on the |
| official `MinGW-w64 website <http://mingw-w64.sourceforge.net>`_. |
| |
| Clang expects the GCC executable "gcc.exe" compiled for |
| ``i686-w64-mingw32`` (or ``x86_64-w64-mingw32``) to be present on PATH. |
| |
| `Some tests might fail <http://llvm.org/bugs/show_bug.cgi?id=9072>`_ on |
| ``x86_64-w64-mingw32``. |
| |
| .. _clang-cl: |
| |
| clang-cl |
| ======== |
| |
| clang-cl is an alternative command-line interface to Clang driver, designed for |
| compatibility with the Visual C++ compiler, cl.exe. |
| |
| To enable clang-cl to find system headers, libraries, and the linker when run |
| from the command-line, it should be executed inside a Visual Studio Native Tools |
| Command Prompt or a regular Command Prompt where the environment has been set |
| up using e.g. `vcvars32.bat <http://msdn.microsoft.com/en-us/library/f2ccy3wt.aspx>`_. |
| |
| clang-cl can also be used from inside Visual Studio by using an LLVM Platform |
| Toolset. |
| |
| Command-Line Options |
| -------------------- |
| |
| To be compatible with cl.exe, clang-cl supports most of the same command-line |
| options. Those options can start with either ``/`` or ``-``. It also supports |
| some of Clang's core options, such as the ``-W`` options. |
| |
| Options that are known to clang-cl, but not currently supported, are ignored |
| with a warning. For example: |
| |
| :: |
| |
| clang-cl.exe: warning: argument unused during compilation: '/AI' |
| |
| To suppress warnings about unused arguments, use the ``-Qunused-arguments`` option. |
| |
| Options that are not known to clang-cl will be ignored by default. Use the |
| ``-Werror=unknown-argument`` option in order to treat them as errors. If these |
| options are spelled with a leading ``/``, they will be mistaken for a filename: |
| |
| :: |
| |
| clang-cl.exe: error: no such file or directory: '/foobar' |
| |
| Please `file a bug <http://llvm.org/bugs/enter_bug.cgi?product=clang&component=Driver>`_ |
| for any valid cl.exe flags that clang-cl does not understand. |
| |
| Execute ``clang-cl /?`` to see a list of supported options: |
| |
| :: |
| |
| CL.EXE COMPATIBILITY OPTIONS: |
| /? Display available options |
| /arch:<value> Set architecture for code generation |
| /Brepro- Emit an object file which cannot be reproduced over time |
| /Brepro Emit an object file which can be reproduced over time |
| /C Don't discard comments when preprocessing |
| /c Compile only |
| /D <macro[=value]> Define macro |
| /EH<value> Exception handling model |
| /EP Disable linemarker output and preprocess to stdout |
| /E Preprocess to stdout |
| /fallback Fall back to cl.exe if clang-cl fails to compile |
| /FA Output assembly code file during compilation |
| /Fa<file or directory> Output assembly code to this file during compilation (with /FA) |
| /Fe<file or directory> Set output executable file or directory (ends in / or \) |
| /FI <value> Include file before parsing |
| /Fi<file> Set preprocess output file name (with /P) |
| /Fo<file or directory> Set output object file, or directory (ends in / or \) (with /c) |
| /fp:except- |
| /fp:except |
| /fp:fast |
| /fp:precise |
| /fp:strict |
| /GA Assume thread-local variables are defined in the executable |
| /GF- Disable string pooling |
| /GR- Disable emission of RTTI data |
| /GR Enable emission of RTTI data |
| /Gs<value> Set stack probe size |
| /Gw- Don't put each data item in its own section |
| /Gw Put each data item in its own section |
| /Gy- Don't put each function in its own section |
| /Gy Put each function in its own section |
| /help Display available options |
| /I <dir> Add directory to include search path |
| /J Make char type unsigned |
| /LDd Create debug DLL |
| /LD Create DLL |
| /link <options> Forward options to the linker |
| /MDd Use DLL debug run-time |
| /MD Use DLL run-time |
| /MTd Use static debug run-time |
| /MT Use static run-time |
| /Ob0 Disable inlining |
| /Od Disable optimization |
| /Oi- Disable use of builtin functions |
| /Oi Enable use of builtin functions |
| /Os Optimize for size |
| /Ot Optimize for speed |
| /O<value> Optimization level |
| /o <file or directory> Set output file or directory (ends in / or \) |
| /P Preprocess to file |
| /Qvec- Disable the loop vectorization passes |
| /Qvec Enable the loop vectorization passes |
| /showIncludes Print info about included files to stderr |
| /TC Treat all source files as C |
| /Tc <filename> Specify a C source file |
| /TP Treat all source files as C++ |
| /Tp <filename> Specify a C++ source file |
| /U <macro> Undefine macro |
| /vd<value> Control vtordisp placement |
| /vmb Use a best-case representation method for member pointers |
| /vmg Use a most-general representation for member pointers |
| /vmm Set the default most-general representation to multiple inheritance |
| /vms Set the default most-general representation to single inheritance |
| /vmv Set the default most-general representation to virtual inheritance |
| /volatile:iso Volatile loads and stores have standard semantics |
| /volatile:ms Volatile loads and stores have acquire and release semantics |
| /W0 Disable all warnings |
| /W1 Enable -Wall |
| /W2 Enable -Wall |
| /W3 Enable -Wall |
| /W4 Enable -Wall and -Wextra |
| /Wall Enable -Wall and -Wextra |
| /WX- Do not treat warnings as errors |
| /WX Treat warnings as errors |
| /w Disable all warnings |
| /Z7 Enable CodeView debug information in object files |
| /Zc:sizedDealloc- Disable C++14 sized global deallocation functions |
| /Zc:sizedDealloc Enable C++14 sized global deallocation functions |
| /Zc:strictStrings Treat string literals as const |
| /Zc:threadSafeInit- Disable thread-safe initialization of static variables |
| /Zc:threadSafeInit Enable thread-safe initialization of static variables |
| /Zc:trigraphs- Disable trigraphs (default) |
| /Zc:trigraphs Enable trigraphs |
| /Zi Alias for /Z7. Does not produce PDBs. |
| /Zl Don't mention any default libraries in the object file |
| /Zp Set the default maximum struct packing alignment to 1 |
| /Zp<value> Specify the default maximum struct packing alignment |
| /Zs Syntax-check only |
| |
| OPTIONS: |
| -### Print (but do not run) the commands to run for this compilation |
| --analyze Run the static analyzer |
| -fansi-escape-codes Use ANSI escape codes for diagnostics |
| -fcolor-diagnostics Use colors in diagnostics |
| -fdiagnostics-parseable-fixits |
| Print fix-its in machine parseable form |
| -fms-compatibility-version=<value> |
| Dot-separated value representing the Microsoft compiler version |
| number to report in _MSC_VER (0 = don't define it (default)) |
| -fms-compatibility Enable full Microsoft Visual C++ compatibility |
| -fms-extensions Accept some non-standard constructs supported by the Microsoft compiler |
| -fmsc-version=<value> Microsoft compiler version number to report in _MSC_VER |
| (0 = don't define it (default)) |
| -fno-sanitize-coverage=<value> |
| Disable specified features of coverage instrumentation for Sanitizers |
| -fno-sanitize-recover=<value> |
| Disable recovery for specified sanitizers |
| -fno-sanitize-trap=<value> |
| Disable trapping for specified sanitizers |
| -fsanitize-blacklist=<value> |
| Path to blacklist file for sanitizers |
| -fsanitize-coverage=<value> |
| Specify the type of coverage instrumentation for Sanitizers |
| -fsanitize-recover=<value> |
| Enable recovery for specified sanitizers |
| -fsanitize-trap=<value> Enable trapping for specified sanitizers |
| -fsanitize=<check> Turn on runtime checks for various forms of undefined or suspicious |
| behavior. See user manual for available checks |
| -gcodeview Generate CodeView debug information |
| -mllvm <value> Additional arguments to forward to LLVM's option processing |
| -Qunused-arguments Don't emit warning for unused driver arguments |
| -R<remark> Enable the specified remark |
| --target=<value> Generate code for the given target |
| -v Show commands to run and use verbose output |
| -W<warning> Enable the specified warning |
| -Xclang <arg> Pass <arg> to the clang compiler |
| |
| The /fallback Option |
| ^^^^^^^^^^^^^^^^^^^^ |
| |
| When clang-cl is run with the ``/fallback`` option, it will first try to |
| compile files itself. For any file that it fails to compile, it will fall back |
| and try to compile the file by invoking cl.exe. |
| |
| This option is intended to be used as a temporary means to build projects where |
| clang-cl cannot successfully compile all the files. clang-cl may fail to compile |
| a file either because it cannot generate code for some C++ feature, or because |
| it cannot parse some Microsoft language extension. |