Clang 11.0.0 (In-Progress) Release Notes¶

Written by the LLVM Team

Warning

These are in-progress notes for the upcoming Clang 11 release. Release notes for previous releases can be found on the Download Page.

Introduction ¶

This document contains the release notes for the Clang C/C++/Objective-C frontend, part of the LLVM Compiler Infrastructure, release 11.0.0. Here we describe the status of Clang in some detail, including major improvements from the previous release and new feature work. For the general LLVM release notes, see the LLVM documentation. All LLVM releases may be downloaded from the LLVM releases web site.

For more information about Clang or LLVM, including information about the latest release, please see the Clang Web Site or the LLVM Web Site.

Note that if you are reading this file from a Git checkout or the main Clang web page, this document applies to the next release, not the current one. To see the release notes for a specific release, please see the releases page.

What’s New in Clang 11.0.0?¶

Some of the major new features and improvements to Clang are listed here. Generic improvements to Clang as a whole or to its underlying infrastructure are described first, followed by language-specific sections with improvements to Clang’s support for those languages.

Major New Features ¶

Improvements to Clang’s diagnostics¶

-Wpointer-to-int-cast is a new warning group. This group warns about C-style casts of pointers to a integer type too small to hold all possible values.
-Wuninitialized-const-reference is a new warning controlled by -Wuninitialized. It warns on cases where uninitialized variables are passed as const reference arguments to a function.

Non-comprehensive list of changes in this release ¶

For the ARM target, C-language intrinsics are now provided for the full Arm v8.1-M MVE instruction set. <arm_mve.h> supports the complete API defined in the Arm C Language Extensions.
For the ARM target, C-language intrinsics <arm_cde.h> for the CDE instruction set are now provided.
clang adds support for a set of extended integer types (_ExtInt(N)) that permit non-power of 2 integers, exposing the LLVM integer types. Since a major motivating use case for these types is to limit ‘bit’ usage, these types don’t automatically promote to ‘int’ when operations are done between two ExtInt(N) types, instead math occurs at the size of the largest ExtInt(N) type.
Users of UBSan, PGO, and coverage on Windows will now need to add clang’s library resource directory to their library search path. These features all use runtime libraries, and Clang provides these libraries in its resource directory. For example, if LLVM is installed in C:\Program Files\LLVM, then the profile runtime library will appear at C:\Program Files\LLVM\lib\clang\11.0.0\lib\windows\clang_rt.profile-x86_64.lib. To ensure that the linker can find the appropriate library, users should pass /LIBPATH:C:\Program Files\LLVM\lib\clang\11.0.0\lib\windows to the linker. If the user links the program with the clang or clang-cl drivers, the driver will pass this flag for them.
Clang’s profile files generated through -fprofile-instr-generate are using a fixed hashing algorithm that prevents some collision when loading out-of-date profile informations. Clang can still read old profile files.

New Compiler Flags ¶

-fstack-clash-protection will provide a protection against the stack clash attack for x86, s390x and ppc64 architectures through automatic probing of each page of allocated stack.
-ffp-exception-behavior={ignore,maytrap,strict} allows the user to specify the floating-point exception behavior. The default setting is ignore.
-ffp-model={precise,strict,fast} provides the user an umbrella option to simplify access to the many single purpose floating point options. The default setting is precise.
The default module cache has moved from /tmp to a per-user cache directory. By default, this is ~/.cache but on some platforms or installations, this might be elsewhere. The -fmodules-cache-path=… flag continues to work.
-fpch-instantiate-templates tries to instantiate templates already while generating a precompiled header. Such templates do not need to be instantiated every time the precompiled header is used, which saves compile time. This may result in an error during the precompiled header generation if the source header file is not self-contained. This option is enabled by default for clang-cl.
-fpch-codegen and -fpch-debuginfo generate shared code and/or debuginfo for contents of a precompiled header in a separate object file. This object file needs to be linked in, but its contents do not need to be generated for other objects using the precompiled header. This should usually save compile time. If not using clang-cl, the separate object file needs to be created explicitly from the precompiled header. Example of use:
```
$ clang++ -x c++-header header.h -o header.pch -fpch-codegen -fpch-debuginfo
$ clang++ -c header.pch -o shared.o
$ clang++ -c source.cpp -o source.o -include-pch header.pch
$ clang++ -o binary source.o shared.o
```
- Using -fpch-instantiate-templates when generating the precompiled header usually increases the amount of code/debuginfo that can be shared.
- In some cases, especially when building with optimizations enabled, using -fpch-codegen may generate so much code in the shared object that compiling it may be a net loss in build time.
- Since headers may bring in private symbols of other libraries, it may be sometimes necessary to discard unused symbols (such as by adding -Wl,–gc-sections on ELF platforms to the linking command, and possibly adding -fdata-sections -ffunction-sections to the command generating the shared object).

Deprecated Compiler Flags ¶

The following options are deprecated and ignored. They will be removed in future versions of Clang.

Modified Compiler Flags ¶

-fno-common has been enabled as the default for all targets. Therefore, C code that uses tentative definitions as definitions of a variable in multiple translation units will trigger multiple-definition linker errors. Generally, this occurs when the use of the extern keyword is neglected in the declaration of a variable in a header file. In some cases, no specific translation unit provides a definition of the variable. The previous behavior can be restored by specifying -fcommon.
-Wasm-ignored-qualifier (ex. asm const (“”)) has been removed and replaced with an error (this matches a recent change in GCC-9).
-Wasm-file-asm-volatile (ex. asm volatile (“”) at global scope) has been removed and replaced with an error (this matches GCC’s behavior).
Duplicate qualifiers on asm statements (ex. asm volatile volatile (“”)) no longer produces a warning via -Wduplicate-decl-specifier, but now an error (this matches GCC’s behavior).
The deprecated argument -f[no-]sanitize-recover has changed to mean -f[no-]sanitize-recover=all instead of -f[no-]sanitize-recover=undefined,integer and is no longer deprecated.
The argument to -f[no-]sanitize-trap=... is now optional and defaults to all.
-fno-char8_t now disables the char8_t keyword, not just the use of char8_t as the character type of u8 literals. This restores the Clang 8 behavior that regressed in Clang 9 and 10.
-print-targets has been added to print the registered targets.

New Pragmas in Clang ¶

Attribute Changes in Clang ¶

Attributes can now be specified by clang plugins. See the Clang Plugins documentation for details.

Windows Support ¶

C Language Changes in Clang ¶

The default C language standard used when -std= is not specified has been upgraded from gnu11 to gnu17.
Clang now supports the GNU C extension asm inline; it won’t do anything yet, but it will be parsed.
…

C++ Language Changes in Clang ¶

Clang now implements a restriction on giving non-C-compatible anonymous structs a typedef name for linkage purposes, as described in C++ committee paper P1766R1 <http://wg21.link/p1766r1>. This paper was adopted by the C++ committee as a Defect Report resolution, so it is applied retroactively to all C++ standard versions. This affects code such as:
```
typedef struct {
  int f() { return 0; }
} S;
```
Previous versions of Clang rejected some constructs of this form (specifically, where the linkage of the type happened to be computed before the parser reached the typedef name); those cases are still rejected in Clang 11. In addition, cases that previous versions of Clang did not reject now produce an extension warning. This warning can be disabled with the warning flag -Wno-non-c-typedef-for-linkage.

Affected code should be updated to provide a tag name for the anonymous struct:
```
struct S {
  int f() { return 0; }
};
```
If the code is shared with a C compilation (for example, if the parts that are not C-compatible are guarded with #ifdef __cplusplus), the typedef declaration should be retained, but a tag name should still be provided:
```
typedef struct S {
  int f() { return 0; }
} S;
```

C++1z Feature Support¶

…

Objective-C Language Changes in Clang ¶

OpenCL C Language Changes in Clang ¶

…

ABI Changes in Clang ¶

OpenMP Support in Clang ¶

CUDA Support in Clang ¶

Internal API Changes ¶

These are major API changes that have happened since the 10.0.0 release of Clang. If upgrading an external codebase that uses Clang as a library, this section should help get you past the largest hurdles of upgrading.

RecursiveASTVisitor no longer calls separate methods to visit specific operator kinds. Previously, RecursiveASTVisitor treated unary, binary, and compound assignment operators as if they were subclasses of the corresponding AST node. For example, the binary operator plus was treated as if it was a BinAdd subclass of the BinaryOperator class: during AST traversal of a BinaryOperator AST node that had a BO_Add opcode, RecursiveASTVisitor was calling the TraverseBinAdd method instead of TraverseBinaryOperator. This feature was contributing a non-trivial amount of complexity to the implementation of RecursiveASTVisitor, it was used only in a minor way in Clang, was not tested, and as a result it was buggy. Furthermore, this feature was creating a non-uniformity in the API. Since this feature was not documented, it was quite difficult to figure out how to use RecursiveASTVisitor to visit operators.

To update your code to the new uniform API, move the code from separate visitation methods into methods that correspond to the actual AST node and perform case analysis based on the operator opcode as needed:
- TraverseUnary*() => TraverseUnaryOperator()
- WalkUpFromUnary*() => WalkUpFromUnaryOperator()
- VisitUnary*() => VisiUnaryOperator()
- TraverseBin*() => TraverseBinaryOperator()
- WalkUpFromBin*() => WalkUpFromBinaryOperator()
- VisitBin*() => VisiBinaryOperator()
- TraverseBin*Assign() => TraverseCompoundAssignOperator()
- WalkUpFromBin*Assign() => WalkUpFromCompoundAssignOperator()
- VisitBin*Assign() => VisiCompoundAssignOperator()

Build System Changes ¶

These are major changes to the build system that have happened since the 10.0.0 release of Clang. Users of the build system should adjust accordingly.

clang-tidy and clang-include-fixer are no longer compiled into libclang by default. You can set LIBCLANG_INCLUDE_CLANG_TOOLS_EXTRA=ON to undo that, but it’s expected that that setting will go away eventually. If this is something you need, please reach out to the mailing list to discuss possible ways forward.

AST Matchers ¶

clang-format ¶

Option IndentExternBlock has been added to optionally apply indenting inside extern "C" and extern "C++" blocks.

IndentExternBlock option accepts AfterExternBlock to use the old behavior, as well as Indent and NoIndent options, which map to true and false, respectively.

Indent:                       NoIndent:
 #ifdef __cplusplus          #ifdef __cplusplus
 extern "C" {                extern "C++" {
 #endif                      #endif

      void f(void);          void f(void);

 #ifdef __cplusplus          #ifdef __cplusplus
 }                           }
 #endif                      #endif

Option IndentCaseBlocks has been added to support treating the block following a switch case label as a scope block which gets indented itself. It helps avoid having the closing bracket align with the switch statement’s closing bracket (when IndentCaseLabels is false).

switch (fool) {                vs.     switch (fool) {
case 1:                                case 1: {
  {                                      bar();
     bar();                            } break;
  }                                    default: {
  break;                                 plop();
default:                               }
  {                                    }
    plop();
  }
}

Option ObjCBreakBeforeNestedBlockParam has been added to optionally apply linebreaks for function arguments declarations before nested blocks.
Option InsertTrailingCommas can be set to TCS_Wrapped to insert trailing commas in container literals (arrays and objects) that wrap across multiple lines. It is currently only available for JavaScript and disabled by default (TCS_None).

Option BraceWrapping.BeforeLambdaBody has been added to manage lambda line break inside function parameter call in Allman style.

true:
connect(
  []()
  {
    foo();
    bar();
  });

false:
connect([]() {
    foo();
    bar();
  });

Option AlignConsecutiveBitFields has been added to align bit field declarations across multiple adjacent lines

true:
  bool aaa  : 1;
  bool a    : 1;
  bool bb   : 1;

false:
  bool aaa : 1;
  bool a : 1;
  bool bb : 1;

Option BraceWrapping.BeforeWhile has been added to allow wrapping before the `while in a do..while loop. By default the value is (false)

In previous releases IndentBraces implied BraceWrapping.BeforeWhile. If using a Custom BraceWrapping style you may need to now set BraceWrapping.BeforeWhile to (true) to be explicit.
```
true:
do {
  foo();
}
while(1);

false:
do {
  foo();
} while(1);
```

libclang ¶

Static Analyzer ¶

Undefined Behavior Sanitizer (UBSan)¶

Core Analysis Improvements ¶

New Issues Found ¶

Python Binding Changes ¶

The following methods have been added:

Significant Known Problems ¶

Additional Information ¶

A wide variety of additional information is available on the Clang web page. The web page contains versions of the API documentation which are up-to-date with the Git version of the source code. You can access versions of these documents specific to this release by going into the “clang/docs/” directory in the Clang tree.

If you have any questions or comments about Clang, please feel free to contact us via the mailing list.