r201733 - Until attribute documentation is implemented as a server-side feature, I will be manually committing AttributeReference.rst so that attribute documentation can be on the live server instead of simply disappearing from the language extensions page without obvious replacement.

Wed Feb 19 15:09:37 PST 2014

Author: aaronballman
Date: Wed Feb 19 17:09:37 2014
New Revision: 201733

URL: http://llvm.org/viewvc/llvm-project?rev=201733&view=rev
Log:
Until attribute documentation is implemented as a server-side feature, I will be manually committing AttributeReference.rst so that attribute documentation can be on the live server instead of simply disappearing from the language extensions page without obvious replacement.

This is a temporary stop-gap solution until server-side generation is implemented, at which point the AttributeReference.rst will go back to holding placeholder text.

Modified:
    cfe/trunk/docs/AttributeReference.rst
    cfe/trunk/docs/index.rst

Modified: cfe/trunk/docs/AttributeReference.rst
URL: http://llvm.org/viewvc/llvm-project/cfe/trunk/docs/AttributeReference.rst?rev=201733&r1=201732&r2=201733&view=diff
==============================================================================

--- cfe/trunk/docs/AttributeReference.rst (original)
+++ cfe/trunk/docs/AttributeReference.rst Wed Feb 19 17:09:37 2014
@@ -1,6 +1,623 @@
 ..
   -------------------------------------------------------------------
-  NOTE: This file is a placeholder that gets replaced by running
-  clang-tblgen -gen-attr-docs. You should not edit this file by
-  hand, nor should you commit changes to this file.
-  -------------------------------------------------------------------
\ No newline at end of file
+  NOTE: This file is automatically generated by running clang-tblgen
+  -gen-attr-docs. Do not edit this file by hand!!
+  -------------------------------------------------------------------
+
+===================
+Attributes in Clang
+===================
+.. contents::
+   :local:
+
+Introduction
+============
+
+This page lists the attributes currently supported by Clang.
+
+Function Attributes
+===================
+
+
+interrupt
+---------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "X","","",""
+
+Clang supports the GNU style ``__attribute__((interrupt("TYPE")))`` attribute on
+ARM targets. This attribute may be attached to a function definition and
+instructs the backend to generate appropriate function entry/exit code so that
+it can be used directly as an interrupt service routine.
+
+The parameter passed to the interrupt attribute is optional, but if
+provided it must be a string literal with one of the following values: "IRQ",
+"FIQ", "SWI", "ABORT", "UNDEF".
+
+The semantics are as follows:
+
+- If the function is AAPCS, Clang instructs the backend to realign the stack to
+  8 bytes on entry. This is a general requirement of the AAPCS at public
+  interfaces, but may not hold when an exception is taken. Doing this allows
+  other AAPCS functions to be called.
+- If the CPU is M-class this is all that needs to be done since the architecture
+  itself is designed in such a way that functions obeying the normal AAPCS ABI
+  constraints are valid exception handlers.
+- If the CPU is not M-class, the prologue and epilogue are modified to save all
+  non-banked registers that are used, so that upon return the user-mode state
+  will not be corrupted. Note that to avoid unnecessary overhead, only
+  general-purpose (integer) registers are saved in this way. If VFP operations
+  are needed, that state must be saved manually.
+
+  Specifically, interrupt kinds other than "FIQ" will save all core registers
+  except "lr" and "sp". "FIQ" interrupts will save r0-r7.
+- If the CPU is not M-class, the return instruction is changed to one of the
+  canonical sequences permitted by the architecture for exception return. Where
+  possible the function itself will make the necessary "lr" adjustments so that
+  the "preferred return address" is selected.
+
+  Unfortunately the compiler is unable to make this guarantee for an "UNDEF"
+  handler, where the offset from "lr" to the preferred return address depends on
+  the execution state of the code which generated the exception. In this case
+  a sequence equivalent to "movs pc, lr" will be used.
+
+
+availability
+------------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "X","","",""
+
+The ``availability`` attribute can be placed on declarations to describe the
+lifecycle of that declaration relative to operating system versions.  Consider
+the function declaration for a hypothetical function ``f``:
+
+.. code-block:: c++
+
+  void f(void) __attribute__((availability(macosx,introduced=10.4,deprecated=10.6,obsoleted=10.7)));
+
+The availability attribute states that ``f`` was introduced in Mac OS X 10.4,
+deprecated in Mac OS X 10.6, and obsoleted in Mac OS X 10.7.  This information
+is used by Clang to determine when it is safe to use ``f``: for example, if
+Clang is instructed to compile code for Mac OS X 10.5, a call to ``f()``
+succeeds.  If Clang is instructed to compile code for Mac OS X 10.6, the call
+succeeds but Clang emits a warning specifying that the function is deprecated.
+Finally, if Clang is instructed to compile code for Mac OS X 10.7, the call
+fails because ``f()`` is no longer available.
+
+The availability attribute is a comma-separated list starting with the
+platform name and then including clauses specifying important milestones in the
+declaration's lifetime (in any order) along with additional information.  Those
+clauses can be:
+
+introduced=\ *version*
+  The first version in which this declaration was introduced.
+
+deprecated=\ *version*
+  The first version in which this declaration was deprecated, meaning that
+  users should migrate away from this API.
+
+obsoleted=\ *version*
+  The first version in which this declaration was obsoleted, meaning that it
+  was removed completely and can no longer be used.
+
+unavailable
+  This declaration is never available on this platform.
+
+message=\ *string-literal*
+  Additional message text that Clang will provide when emitting a warning or
+  error about use of a deprecated or obsoleted declaration.  Useful to direct
+  users to replacement APIs.
+
+Multiple availability attributes can be placed on a declaration, which may
+correspond to different platforms.  Only the availability attribute with the
+platform corresponding to the target platform will be used; any others will be
+ignored.  If no availability attribute specifies availability for the current
+target platform, the availability attributes are ignored.  Supported platforms
+are:
+
+``ios``
+  Apple's iOS operating system.  The minimum deployment target is specified by
+  the ``-mios-version-min=*version*`` or ``-miphoneos-version-min=*version*``
+  command-line arguments.
+
+``macosx``
+  Apple's Mac OS X operating system.  The minimum deployment target is
+  specified by the ``-mmacosx-version-min=*version*`` command-line argument.
+
+A declaration can be used even when deploying back to a platform version prior
+to when the declaration was introduced.  When this happens, the declaration is
+`weakly linked
+<https://developer.apple.com/library/mac/#documentation/MacOSX/Conceptual/BPFrameworks/Concepts/WeakLinking.html>`_,
+as if the ``weak_import`` attribute were added to the declaration.  A
+weakly-linked declaration may or may not be present a run-time, and a program
+can determine whether the declaration is present by checking whether the
+address of that declaration is non-NULL.
+
+If there are multiple declarations of the same entity, the availability
+attributes must either match on a per-platform basis or later
+declarations must not have availability attributes for that
+platform. For example:
+
+.. code-block:: c
+
+  void g(void) __attribute__((availability(macosx,introduced=10.4)));
+  void g(void) __attribute__((availability(macosx,introduced=10.4))); // okay, matches
+  void g(void) __attribute__((availability(ios,introduced=4.0))); // okay, adds a new platform
+  void g(void); // okay, inherits both macosx and ios availability from above.
+  void g(void) __attribute__((availability(macosx,introduced=10.5))); // error: mismatch
+
+When one method overrides another, the overriding method can be more widely available than the overridden method, e.g.,:
+
+.. code-block:: objc
+
+  @interface A
+  - (id)method __attribute__((availability(macosx,introduced=10.4)));
+  - (id)method2 __attribute__((availability(macosx,introduced=10.4)));
+  @end
+
+  @interface B : A
+  - (id)method __attribute__((availability(macosx,introduced=10.3))); // okay: method moved into base class later
+  - (id)method __attribute__((availability(macosx,introduced=10.5))); // error: this method was available via the base class in 10.4
+  @end
+
+
+_Noreturn
+---------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "","","","X"
+
+A function declared as ``_Noreturn`` shall not return to its caller. The
+compiler will generate a diagnostic for a function declared as ``_Noreturn``
+that appears to be capable of returning to its caller.
+
+
+noreturn
+--------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "","X","",""
+
+A function declared as ``[[noreturn]]`` shall not return to its caller. The
+compiler will generate a diagnostic for a function declared as ``[[noreturn]]``
+that appears to be capable of returning to its caller.
+
+
+carries_dependency
+------------------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "X","X","",""
+
+The ``carries_dependency`` attribute specifies dependency propagation into and
+out of functions.
+
+When specified on a function or Objective-C method, the ``carries_depedency``
+attribute means that the return value carries a dependency out of the function, 
+so that the implementation need not constrain ordering upon return from that
+function. Implementations of the function and its caller may choose to preserve
+dependencies instead of emitting memory ordering instructions such as fences.
+
+Note, this attribute does not change the meaning of the program, but may result
+in generatation of more efficient code.
+
+
+enable_if
+---------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "X","","",""
+
+The ``enable_if`` attribute can be placed on function declarations to control
+which overload is selected based on the values of the function's arguments.
+When combined with the ``overloadable`` attribute, this feature is also
+available in C.
+
+.. code-block:: c++
+
+  int isdigit(int c);
+  int isdigit(int c) __attribute__((enable_if(c <= -1 || c > 255, "chosen when 'c' is out of range"))) __attribute__((unavailable("'c' must have the value of an unsigned char or EOF")));
+  
+  void foo(char c) {
+    isdigit(c);
+    isdigit(10);
+    isdigit(-10);  // results in a compile-time error.
+  }
+
+The enable_if attribute takes two arguments, the first is an expression written
+in terms of the function parameters, the second is a string explaining why this
+overload candidate could not be selected to be displayed in diagnostics. The
+expression is part of the function signature for the purposes of determining
+whether it is a redeclaration (following the rules used when determining
+whether a C++ template specialization is ODR-equivalent), but is not part of
+the type.
+
+The enable_if expression is evaluated as if it were the body of a
+bool-returning constexpr function declared with the arguments of the function
+it is being applied to, then called with the parameters at the callsite. If the
+result is false or could not be determined through constant expression
+evaluation, then this overload will not be chosen and the provided string may
+be used in a diagnostic if the compile fails as a result.
+
+Because the enable_if expression is an unevaluated context, there are no global
+state changes, nor the ability to pass information from the enable_if
+expression to the function body. For example, suppose we want calls to
+strnlen(strbuf, maxlen) to resolve to strnlen_chk(strbuf, maxlen, size of
+strbuf) only if the size of strbuf can be determined:
+
+.. code-block:: c++
+
+  __attribute__((always_inline))
+  static inline size_t strnlen(const char *s, size_t maxlen)
+    __attribute__((overloadable))
+    __attribute__((enable_if(__builtin_object_size(s, 0) != -1))),
+                             "chosen when the buffer size is known but 'maxlen' is not")))
+  {
+    return strnlen_chk(s, maxlen, __builtin_object_size(s, 0));
+  }
+
+Multiple enable_if attributes may be applied to a single declaration. In this
+case, the enable_if expressions are evaluated from left to right in the
+following manner. First, the candidates whose enable_if expressions evaluate to
+false or cannot be evaluated are discarded. If the remaining candidates do not
+share ODR-equivalent enable_if expressions, the overload resolution is
+ambiguous. Otherwise, enable_if overload resolution continues with the next
+enable_if attribute on the candidates that have not been discarded and have
+remaining enable_if attributes. In this way, we pick the most specific
+overload out of a number of viable overloads using enable_if.
+
+.. code-block:: c++
+
+  void f() __attribute__((enable_if(true, "")));  // #1
+  void f() __attribute__((enable_if(true, ""))) __attribute__((enable_if(true, "")));  // #2
+  
+  void g(int i, int j) __attribute__((enable_if(i, "")));  // #1
+  void g(int i, int j) __attribute__((enable_if(j, ""))) __attribute__((enable_if(true)));  // #2
+
+In this example, a call to f() is always resolved to #2, as the first enable_if
+expression is ODR-equivalent for both declarations, but #1 does not have another
+enable_if expression to continue evaluating, so the next round of evaluation has
+only a single candidate. In a call to g(1, 1), the call is ambiguous even though
+#2 has more enable_if attributes, because the first enable_if expressions are
+not ODR-equivalent.
+
+Query for this feature with ``__has_attribute(enable_if)``.
+
+
+objc_method_family
+------------------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "X","","",""
+
+Many methods in Objective-C have conventional meanings determined by their
+selectors. It is sometimes useful to be able to mark a method as having a
+particular conventional meaning despite not having the right selector, or as
+not having the conventional meaning that its selector would suggest. For these
+use cases, we provide an attribute to specifically describe the "method family"
+that a method belongs to.
+
+**Usage**: ``__attribute__((objc_method_family(X)))``, where ``X`` is one of
+``none``, ``alloc``, ``copy``, ``init``, ``mutableCopy``, or ``new``.  This
+attribute can only be placed at the end of a method declaration:
+
+.. code-block:: objc
+
+  - (NSString *)initMyStringValue __attribute__((objc_method_family(none)));
+
+Users who do not wish to change the conventional meaning of a method, and who
+merely want to document its non-standard retain and release semantics, should
+use the retaining behavior attributes (``ns_returns_retained``,
+``ns_returns_not_retained``, etc).
+
+Query for this feature with ``__has_attribute(objc_method_family)``.
+
+
+objc_requires_super
+-------------------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "X","","",""
+
+Some Objective-C classes allow a subclass to override a particular method in a
+parent class but expect that the overriding method also calls the overridden
+method in the parent class. For these cases, we provide an attribute to
+designate that a method requires a "call to ``super``" in the overriding
+method in the subclass.
+
+**Usage**: ``__attribute__((objc_requires_super))``.  This attribute can only
+be placed at the end of a method declaration:
+
+.. code-block:: objc
+
+  - (void)foo __attribute__((objc_requires_super));
+
+This attribute can only be applied the method declarations within a class, and
+not a protocol.  Currently this attribute does not enforce any placement of
+where the call occurs in the overriding method (such as in the case of
+``-dealloc`` where the call must appear at the end).  It checks only that it
+exists.
+
+Note that on both OS X and iOS that the Foundation framework provides a
+convenience macro ``NS_REQUIRES_SUPER`` that provides syntactic sugar for this
+attribute:
+
+.. code-block:: objc
+
+  - (void)foo NS_REQUIRES_SUPER;
+
+This macro is conditionally defined depending on the compiler's support for
+this attribute.  If the compiler does not support the attribute the macro
+expands to nothing.
+
+Operationally, when a method has this annotation the compiler will warn if the
+implementation of an override in a subclass does not call super.  For example:
+
+.. code-block:: objc
+
+   warning: method possibly missing a [super AnnotMeth] call
+   - (void) AnnotMeth{};
+                      ^
+
+
+overloadable
+------------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "X","","",""
+
+Clang provides support for C++ function overloading in C.  Function overloading
+in C is introduced using the ``overloadable`` attribute.  For example, one
+might provide several overloaded versions of a ``tgsin`` function that invokes
+the appropriate standard function computing the sine of a value with ``float``,
+``double``, or ``long double`` precision:
+
+.. code-block:: c
+
+  #include <math.h>
+  float __attribute__((overloadable)) tgsin(float x) { return sinf(x); }
+  double __attribute__((overloadable)) tgsin(double x) { return sin(x); }
+  long double __attribute__((overloadable)) tgsin(long double x) { return sinl(x); }
+
+Given these declarations, one can call ``tgsin`` with a ``float`` value to
+receive a ``float`` result, with a ``double`` to receive a ``double`` result,
+etc.  Function overloading in C follows the rules of C++ function overloading
+to pick the best overload given the call arguments, with a few C-specific
+semantics:
+
+* Conversion from ``float`` or ``double`` to ``long double`` is ranked as a
+  floating-point promotion (per C99) rather than as a floating-point conversion
+  (as in C++).
+
+* A conversion from a pointer of type ``T*`` to a pointer of type ``U*`` is
+  considered a pointer conversion (with conversion rank) if ``T`` and ``U`` are
+  compatible types.
+
+* A conversion from type ``T`` to a value of type ``U`` is permitted if ``T``
+  and ``U`` are compatible types.  This conversion is given "conversion" rank.
+
+The declaration of ``overloadable`` functions is restricted to function
+declarations and definitions.  Most importantly, if any function with a given
+name is given the ``overloadable`` attribute, then all function declarations
+and definitions with that name (and in that scope) must have the
+``overloadable`` attribute.  This rule even applies to redeclarations of
+functions whose original declaration had the ``overloadable`` attribute, e.g.,
+
+.. code-block:: c
+
+  int f(int) __attribute__((overloadable));
+  float f(float); // error: declaration of "f" must have the "overloadable" attribute
+
+  int g(int) __attribute__((overloadable));
+  int g(int) { } // error: redeclaration of "g" must also have the "overloadable" attribute
+
+Functions marked ``overloadable`` must have prototypes.  Therefore, the
+following code is ill-formed:
+
+.. code-block:: c
+
+  int h() __attribute__((overloadable)); // error: h does not have a prototype
+
+However, ``overloadable`` functions are allowed to use a ellipsis even if there
+are no named parameters (as is permitted in C++).  This feature is particularly
+useful when combined with the ``unavailable`` attribute:
+
+.. code-block:: c++
+
+  void honeypot(...) __attribute__((overloadable, unavailable)); // calling me is an error
+
+Functions declared with the ``overloadable`` attribute have their names mangled
+according to the same rules as C++ function names.  For example, the three
+``tgsin`` functions in our motivating example get the mangled names
+``_Z5tgsinf``, ``_Z5tgsind``, and ``_Z5tgsine``, respectively.  There are two
+caveats to this use of name mangling:
+
+* Future versions of Clang may change the name mangling of functions overloaded
+  in C, so you should not depend on an specific mangling.  To be completely
+  safe, we strongly urge the use of ``static inline`` with ``overloadable``
+  functions.
+
+* The ``overloadable`` attribute has almost no meaning when used in C++,
+  because names will already be mangled and functions are already overloadable.
+  However, when an ``overloadable`` function occurs within an ``extern "C"``
+  linkage specification, it's name *will* be mangled in the same way as it
+  would in C.
+
+Query for this feature with ``__has_extension(attribute_overloadable)``.
+
+
+Variable Attributes
+===================
+
+
+tls_model (gnu::tls_model)
+--------------------------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "X","X","",""
+
+The ``tls_model`` attribute allows you to specify which thread-local storage
+model to use. It accepts the following strings:
+
+* global-dynamic
+* local-dynamic
+* initial-exec
+* local-exec
+
+TLS models are mutually exclusive.
+
+
+Statement Attributes
+====================
+
+
+fallthrough (clang::fallthrough)
+--------------------------------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "","X","",""
+
+The ``clang::fallthrough`` attribute is used along with the
+``-Wimplicit-fallthrough`` argument to annotate intentional fall-through
+between switch labels.  It can only be applied to a null statement placed at a
+point of execution between any statement and the next switch label.  It is
+common to mark these places with a specific comment, but this attribute is
+meant to replace comments with a more strict annotation, which can be checked
+by the compiler.  This attribute doesn't change semantics of the code and can
+be used wherever an intended fall-through occurs.  It is designed to mimic
+control-flow statements like ``break;``, so it can be placed in most places
+where ``break;`` can, but only if there are no statements on the execution path
+between it and the next switch label.
+
+Here is an example:
+
+.. code-block:: c++
+
+  // compile with -Wimplicit-fallthrough
+  switch (n) {
+  case 22:
+  case 33:  // no warning: no statements between case labels
+    f();
+  case 44:  // warning: unannotated fall-through
+    g();
+    [[clang::fallthrough]];
+  case 55:  // no warning
+    if (x) {
+      h();
+      break;
+    }
+    else {
+      i();
+      [[clang::fallthrough]];
+    }
+  case 66:  // no warning
+    p();
+    [[clang::fallthrough]]; // warning: fallthrough annotation does not
+                            //          directly precede case label
+    q();
+  case 77:  // warning: unannotated fall-through
+    r();
+  }
+
+
+Consumed Annotation Checking
+============================
+Clang supports additional attributes for checking basic resource management
+properties, specifically for unique objects that have a single owning reference.
+The following attributes are currently supported, although **the implementation
+for these annotations is currently in development and are subject to change.**
+
+callable_when
+-------------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "X","","",""
+
+Use ``__attribute__((callable_when(...)))`` to indicate what states a method
+may be called in.  Valid states are unconsumed, consumed, or unknown.  Each
+argument to this attribute must be a quoted string.  E.g.:
+
+``__attribute__((callable_when("unconsumed", "unknown")))``
+
+
+consumable
+----------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "X","","",""
+
+Each ``class`` that uses any of the typestate annotations must first be marked
+using the ``consumable`` attribute.  Failure to do so will result in a warning.
+
+This attribute accepts a single parameter that must be one of the following:
+``unknown``, ``consumed``, or ``unconsumed``.
+
+
+param_typestate
+---------------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "X","","",""
+
+This attribute specifies expectations about function parameters.  Calls to an
+function with annotated parameters will issue a warning if the corresponding
+argument isn't in the expected state.  The attribute is also used to set the
+initial state of the parameter when analyzing the function's body.
+
+
+return_typestate
+----------------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "X","","",""
+
+The ``return_typestate`` attribute can be applied to functions or parameters.
+When applied to a function the attribute specifies the state of the returned
+value.  The function's body is checked to ensure that it always returns a value
+in the specified state.  On the caller side, values returned by the annotated
+function are initialized to the given state.
+
+When applied to a function parameter it modifies the state of an argument after
+a call to the function returns.  The function's body is checked to ensure that
+the parameter is in the expected state before returning.
+
+
+set_typestate
+-------------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "X","","",""
+
+Annotate methods that transition an object into a new state with
+``__attribute__((set_typestate(new_state)))``.  The new new state must be
+unconsumed, consumed, or unknown.
+
+
+test_typestate
+--------------
+.. csv-table:: Supported Syntaxes
+   :header: "GNU", "C++11", "__declspec", "Keyword"
+
+   "X","","",""
+
+Use ``__attribute__((test_typestate(tested_state)))`` to indicate that a method
+returns true if the object is in the specified state..
+
+

Modified: cfe/trunk/docs/index.rst
URL: http://llvm.org/viewvc/llvm-project/cfe/trunk/docs/index.rst?rev=201733&r1=201732&r2=201733&view=diff
==============================================================================
--- cfe/trunk/docs/index.rst (original)
+++ cfe/trunk/docs/index.rst Wed Feb 19 17:09:37 2014
@@ -9,7 +9,6 @@
    :maxdepth: 1
 
    ReleaseNotes
-   AttributeReference
 
 Using Clang as a Compiler
 =========================
@@ -19,6 +18,7 @@ Using Clang as a Compiler
 
    UsersManual
    LanguageExtensions
+   AttributeReference
    CrossCompilation
    ThreadSafetyAnalysis
    AddressSanitizer



