What's New for Visual C++ in Visual Studio 2017

Visual Studio 2017 brings many updates and fixes to the Visual C++ environment. We've fixed over 250 bugs and reported issues in the compiler and tools, many submitted by customers through the Report a Problem and Provide a Suggestion options under Send Feedback. Thank you for reporting bugs! For more information on what's new in all of Visual Studio, please visit What's new in Visual Studio 2017.

C++ compiler

C++ conformance improvements

In this release, we've updated the C++ compiler and standard library with enhanced support for C++11 and C++14 features, as well as preliminary support for certain features expected to be in the C++17 standard. For detailed information, see C++ Conformance Improvements in Visual Studio 2017.

Visual Studio 2017 version 15.5: The compiler supports about 75% of the features that are new in C++17, including structured bindings, constexpr lambdas, if constexpr, inline variables, fold expressions, and adding noexcept to the type system. These are available under the /std:c++17 option. For more information, see C++ Conformance Improvements in Visual Studio 2017

Visual Studio 2017 version 15.7: The MSVC compiler toolset in Visual Studio version 15.7 now conforms with the C++ Standard. For more information, see Announcing: MSVC Conforms to the C++ Standard and Visual C++ Language Conformance.

New compiler options

  • /permissive-: Enable all strict standards conformance compiler options and disable most Microsoft-specific compiler extensions (but not __declspec(dllimport), for example). This option is on by default in Visual Studio 2017 version 15.5. The /permissive- conformance mode includes support for two-phase name lookup. For more information, see C++ Conformance Improvements in Visual Studio 2017.

  • /diagnostics: Enable display of the line number, the line number and column, or the line number and column and a caret under the line of code where the diagnostic error or warning was found.

  • /debug:fastlink: Enable up to 30% faster incremental link times (vs. Visual Studio 2015) by not copying all debug information into the PDB file. The PDB file instead points to the debug information for the object and library files used to create the executable. See Faster C++ build cycle in VS "15" with /Debug:fastlink and Recommendations to speed C++ builds in Visual Studio.

  • Visual Studio 2017 allows using /sdl with /await. We removed the /RTC limitation with Coroutines.

    Visual Studio 2017 version 15.3:

  • /std:c++14 and /std:c++latest: These compiler options enable you to opt-in to specific versions of the ISO C++ programming language in a project. Most of the new draft standard features are guarded by the /std:c++latest option.

  • /std:c++17 enables the set of C++17 features implemented by the compiler. This option disables compiler and standard library support for features that are changed or new in versions of the Working Draft and defect updates of the C++ Standard after C++17. To enable those features, use /std:c++latest.

Codegen, security, diagnostics and versioning

This release brings several improvements in optimization, code generation, toolset versioning, and diagnostics. Some notable improvements include:

  • Improved code generation of loops: Support for automatic vectorization of division of constant integers, better identification of memset patterns.
  • Improved code security: Improved emission of buffer overrun compiler diagnostics, and /guard:cf now guards switch statements that generate jump tables.
  • Versioning: The value of the built-in preprocessor macro _MSC_VER is now being monotonically updated at every Visual C++ toolset update. For more information, see Visual C++ Compiler Version.
  • New toolset layout: The compiler and related build tools have a new location and directory structure on your development machine. The new layout enables side-by-side installations of multiple versions of the compiler. For more information, see Compiler Tools Layout in Visual Studio "15".
  • Improved diagnostics: The output window now shows the column where an error occurs. For more information, see C++ compiler diagnostics improvements in VS "15" Preview 5.
  • When using co-routines, the experimental keyword yield (available under the /await option) has been removed. Your code should be updated to use co_yield instead. For more information, see the Visual C++ Team blog.

Visual Studio 2017 version 15.3:

Additional improvements to diagnostics in the compiler. For more information, see Diagnostic Improvements in Visual Studio 2017 15.3.0.

Visual Studio 2017 version 15.5:

Visual C++ runtime performance continues to improve due to better generated code quality. This means that you can simply recompile your code, and your app runs faster. Some of the compiler optimizations are brand new, such as the vectorization of conditional scalar stores, the combining of calls sin(x) and cos(x) into a new sincos(x), and the elimination of redundant instructions from the SSA Optimizer. Other compiler optimizations are improvements to existing functionality such as vectorizer heuristics for conditional expressions, better loop optimizations, and float min/max codegen. The linker has a new and faster /OPT:ICF implementation which can result in up to 9% link time speedups, and there are other perf fixes in incremental linking. For more information, see /OPT (Optimizations) and /INCREMENTAL (Link Incrementally).

Visual C++ supports Intel's AVX-512, including the Vector Length instructions that bring new functions in AVX-512 to 128- and 256-bit wide registers.

The /Zc:noexceptTypes- option can be used to revert to the C++14 version of noexcept while using C++17 mode in general. This enables you to update your source code to conform to C++17 without having to rewrite all your throw() code at the same time. For more information, see Dynamic exception specification removal and noexcept.

Visual Studio 2017 version 15.7:

C++ Standard Library improvements

  • Minor basic_string _ITERATOR_DEBUG_LEVEL != 0 diagnostics improvements. Tripping an IDL check in string machinery will now report the specific behavior that caused the trip. For example, instead of "string iterator not dereferencable" you'll get "cannot dereference string iterator because it is out of range (e.g. an end iterator)".
  • Performance improvement: made basic_string::find(char) overloads only call traits::find once. Previously this was implemented as a general string search for a string of length 1.
  • Performance improvement: basic_string::operator== now checks the string's size before comparing the strings' contents.
  • Performance improvement: removed control coupling in basic_string, which was difficult for the compiler optimizer to analyze. Note that for all short strings, calling reserve still has a nonzero cost to do nothing.
  • We added <any>, <string_view>, apply(), make_from_tuple().
  • std::vector has been overhauled for correctness and performance: aliasing during insertion and emplacement is now correctly handled as required by the Standard, the strong exception guarantee is now provided when required by the Standard via move_if_noexcept() and other logic, and insertion/emplacement perform fewer element operations.
  • The C++ Standard Library now avoids dereferencing null fancy pointers.
  • Added <optional>, <variant>, shared_ptr::weak_type, and <cstdalign>.
  • Enabled C++14 constexpr in min(initializer_list), max(initializer_list), and minmax(initializer_list), and min_element(), max_element(), and minmax_element().
  • Improved weak_ptr::lock() performance.
  • Fixed the std::promise move assignment operator, which previously could cause code to block forever.
  • Fixed compiler errors with the atomic<T*> implicit conversion to T*.
  • pointer_traits<Ptr> now correctly detects Ptr::rebind<U>.
  • Fixed a missing const qualifier in the move_iterator subtraction operator.
  • Fixed silent bad codegen for stateful user-defined allocators requesting propagate_on_container_copy_assignment and propagate_on_container_move_assignment.
  • atomic<T> now tolerates overloaded operator&().
  • To increase compiler throughput, C++ Standard Library headers now avoid including declarations for unnecessary compiler intrinsics.
  • Slightly improved compiler diagnostics for incorrect bind() calls.
  • Improved the performance of std::string and std::wstring move constructors by more than three times.

For a complete list of Standard Library improvments see the Standard Library Fixes In VS 2017 RTM.

Visual Studio 2017 version 15.3

C++17 features

Several additional C++17 features have been implemented. For more information, see Visual C++ Language Conformance.

Other new features

  • Implemented P0602R0 "variant and optional should propagate copy/move triviality".
  • The Standard Library now officially tolerates dynamic RTTI being disabled via the /GR- option. Both dynamic_pointer_cast() and rethrow_if_nested() inherently require dynamic_cast, so the Standard Library now marks them as =delete under /GR-.
  • Even when dynamic RTTI has been disabled via /GR-, "static RTTI" (in the form of typeid(SomeType)) is still available and powers several Standard Library components. The Standard Library now supports disabling this too, via /D_HAS_STATIC_RTTI=0. Note that this will disable std::any, the target() and target_type() member functions of std::function, and the get_deleter() friend member function of std::shared_ptr and std::weak_ptr.

Correctness fixes in Visual Studio 2017 version 15.3

  • Standard Library containers now clamp their max_size() to numeric_limits<difference_type>::max() rather than the max() of size_type. This ensures that the result of distance() on iterators from that container is representable in the return type of distance().
  • Fixed missing specialization auto_ptr<void>.
  • The for_each_n(), generate_n(), and search_n() algorithms previously failed to compile if the length argument was not an integral type; they now attempt to convert non-integral lengths to the iterators' difference_type.
  • normal_distribution<float> no longer emits warnings inside the Standard Library about narrowing from double to float.
  • Fixed some basic_string operations which were comparing with npos instead of max_size() when checking for maximum size overflow.
  • condition_variable::wait_for(lock, relative_time, predicate) would wait for the entire relative time in the event of a spurious wake. Now it will wait for only a single interval of the relative time.
  • future::get() now invalidates the future, as the standard requires.
  • iterator_traits<void *> used to be a hard error because it attempted to form void&; it now cleanly becomes an empty struct to allow use of iterator_traits in "is iterator" SFINAE conditions.
  • Some warnings reported by Clang -Wsystem-headers were fixed.
  • Also fixed "exception specification in declaration does not match previous declaration" reported by Clang -Wmicrosoft-exception-spec.
  • Also fixed mem-initializer-list ordering warnings reported by Clang and C1XX.
  • The unordered containers did not swap their hashers or predicates when the containers themselves were swapped. Now they do.
  • Many container swap operations are now marked noexcept (as our Standard Library never intends to throw an exception when detecting the non-propagate_on_container_swap non-equal-allocator undefined behavior condition).
  • Many vector<bool> operations are now marked noexcept.
  • The Standard Library will now enforce matching allocator value_type (in C++17 mode) with an opt-out escape hatch.
  • Fixed some conditions where self-range-insert into basic_string would scramble the strings contents. (Note: self-range-insert into vectors is still prohibited by the Standard.)
  • basic_string::shrink_to_fit() is no longer affected by the allocator's propagate_on_container_swap.
  • std::decay now handles abominable function types (i.e. function types that are cv-qualified and/or ref-qualified).
  • Changed include directives to use proper case sensitivity and forward slashes, improving portability.
  • Fixed warning C4061 "enumerator 'enumerator' in switch of enum 'enumeration' is not explicitly handled by a case label". This warning is off-by-default and was fixed as an exception to the Standard Library's general policy for warnings. (The Standard Library is /W4 clean, but does not attempt to be /Wall clean. Many off-by-default warnings are extremely noisy and aren't intended to be used on a regular basis.)
  • Improved std::list debug checks. List iterators now check operator->(), and list::unique() now marks iterators as invalidated.
  • Fixed uses-allocator metaprogramming in tuple.

Performance/throughput fixes

  • Worked around interactions with noexcept which prevented inlining the std::atomic implementation into functions that use Structured Exception Handling (SEH).
  • Changed the Standard Library's internal _Deallocate() function to optimize into smaller code, allowing it to be inlined into more places.
  • Changed std::try_lock() to use pack expansion instead of recursion.
  • Improved the std::lock() deadlock avoidance algorithm to use lock() operations instead of spinning on try_lock() on all the locks.
  • Enabled the Named Return Value Optimization in system_category::message().
  • conjunction and disjunction now instantiate N + 1 types, instead of 2N + 2 types.
  • std::function no longer instantiates allocator support machinery for each type-erased callable, improving throughput and reducing .obj size in programs that pass many distinct lambdas to std::function.
  • allocator_traits<std::allocator> contains manually inlined std::allocator operations, reducing code size in code that interacts with std::allocator through allocator_traits only (that is, in most code).
  • The C++11 minimal allocator interface is now handled by the Standard Library calling allocator_traits directly, instead of wrapping the allocator in an internal class _Wrap_alloc. This reduces the code size generated for allocator support, improves the optimizer's ability to reason about Standard Library containers in some cases, and provides a better debugging experience (as now you see your allocator type, rather than _Wrap_alloc<your_allocator_type> in the debugger).
  • Removed metaprogramming for customized allocator::reference, which allocators aren't actually allowed to customize. (Allocators can make containers use fancy pointers but not fancy references.)
  • The compiler front-end was taught to unwrap debug iterators in range-based for-loops, improving the performance of debug builds.
  • The basic_string internal shrink path for shrink_to_fit() and reserve() is no longer in the path of reallocating operations, reducing code size for all mutating members.
  • The basic_string internal grow path is no longer in the path of shrink_to_fit().
  • The basic_string mutating operations are now factored into non-allocating fast path and allocating slow path functions, making it more likely for the common no-reallocate case to be inlined into callers.
  • The basic_string mutating operations now construct reallocated buffers in the desired state rather than resizing in place. For example, inserting at the beginning of a string now moves the content after the insertion exactly once (either down or to the newly allocated buffer), instead of twice in the reallocating case (to the newly allocated buffer and then down).
  • Operations calling the C standard library in <string> now cache the errno address to remove repeated interaction with TLS.
  • Simplified the is_pointer implementation.
  • Finished changing function-based Expression SFINAE to struct and void_t-based.
  • Standard Library algorithms now avoid postincrementing iterators.
  • Fixed truncation warnings when using 32-bit allocators on 64-bit systems.
  • std::vector move assignment is now more efficient in the non-POCMA non-equal-allocator case, by reusing the buffer when possible.

Readability and other improvements

  • The Standard Library now uses C++14 constexpr unconditionally, instead of conditionally-defined macros.
  • The Standard Library now uses alias templates internally.
  • The Standard Library now uses nullptr internally, instead of nullptr_t{}. (Internal usage of NULL has been eradicated. Internal usage of 0-as-null is being cleaned up gradually.)
  • The Standard Library now uses std::move() internally, instead of stylistically misusing std::forward().
  • Changed static_assert(false, "message") to #error message. This improves compiler diagnostics because #error immediately stops compilation.
  • The Standard Library no longer marks functions as __declspec(dllimport). Modern linker technology no longer requires this.
  • Extracted SFINAE to default template arguments, which reduces clutter compared to return types and function argument types.
  • Debug checks in <random> now use the Standard Library's usual machinery, instead of the internal function _Rng_abort() which called fputs() to stderr. This function's implementation is being retained for binary compatibility, but has been removed in the next binary-incompatible version of the Standard Library.

Visual Studio 2017 version 15.5

Several Standard Library features have been added, deprecated or removed in accordance with the C++17 standard. For more information see C++ conformance improvements in Visual Studio.

New experimental features

  • Experimental support for the following parallel algorithms:
    • all_of
    • any_of
    • for_each
    • for_each_n
    • none_of
    • reduce
    • replace
    • replace_if
    • sort
  • The signatures for the following parallel algorithms are added but not parallelized at this time; profiling showed no benefit in parallelizing algorithms that only move or permute elements:
    • copy
    • copy_n
    • fill
    • fill_n
    • move
    • reverse
    • reverse_copy
    • rotate
    • rotate_copy
    • swap_ranges

Performance fixes and improvements

  • basic_string<char16_t> now engages the same memcmp, memcpy, and similar optimizations that basic_string<wchar_t> engages.
  • An optimizer limitation which prevented function pointers from being inlined exposed by our "avoid copying functions" work in Visual Studio 2015 Update 3 has been worked around, restoring performance of lower_bound(iter, iter, function pointer).
  • The overhead of iterator debugging's order verification of inputs to includes, set_difference, set_symmetric_difference, and set_union was reduced by unwrapping iterators before checking order.
  • std::inplace_merge now skips over elements that are already in position.
  • Constructing std::random_device no longer constructs and then destroys a std::string.
  • std::equal and std::partition had a jump-threading optimization pass which saves an iterator comparison.
  • When std::reverse is passed pointers to trivially copyable T, it will now dispatch to a handwritten vectorized implementation.
  • std::fill, std::equal, and std::lexicographical_compare were taught how to dispatch to memset and memcmp for std::byte and gsl::byte (and other char-like enums and enum classes). Note that std::copy dispatches using is_trivially_copyable and thus didn't need any changes.
  • The Standard Library no longer contains empty-braces destructors whose only behavior was to make types non-trivially-destructible.

Correctness fixes in Visual Studio 2017 version 15.5

  • std::partition now calls the predicate N times instead of N + 1 times, as the standard requires.
  • Attempts to avoid magic statics in version 15.3 have been repaired in version 15.5.
  • std::atomic<T> no longer requires T to be default constructible.
  • Heap algorithms that take logarithmic time no longer do a linear time assertion that the input is in fact a heap when iterator debugging is enabled.
  • __declspec(allocator) is now guarded for C1XX only, to prevent warnings from Clang which doesn't understand this declspec.
  • basic_string::npos is now available as a compile time constant.
  • std::allocator in C++17 mode now properly handles allocation of over-aligned types, that is, types whose alignment is greater than max_align_t, unless disabled by /Zc:alignedNew-. For example, vectors of objects with 16 or 32-byte alignment will now be properly aligned for SSE and AVX instructions.

Visual Studio 2017 version 15.6

  • <memory_resource>
  • Library Fundamentals V1
  • Deleting polymorphic_allocator assignment
  • Improving class template argument deduction

Visual Studio 2017 version 15.7

  • support for parallel algorithms is no longer experiemental
  • a new implementation of <filesystem>
  • elementary string conversions (partial)
  • std::launder()
  • std::byte
  • hypot(x,y,z)
  • avoiding unnecessary decay
  • mathematical special functions
  • constexpr char_traits
  • deduction guides for STL

See Visual C++ language conformance for more information.

Other Libraries

Open source library support

Vcpkg is an open-source command line tool that greatly simplifies the process of acquiring and building open source C++ static libs and DLLS in Visual Studio. For more information, see vcpkg: A package manager for C++.

Visual Studio 2017 version 15.5:

CPPRest SDK 2.9.0

The CPPRestSDK, a cross-platform web API for C++, has been updated to version 2.9.0. For more information, see CppRestSDK 2.9.0 is available on GitHub.


  • Yet another set of name-lookup conformance fixes
  • Existing move constructors and move assignment operators are now properly marked as non-throwing
  • Un-suppress valid warning C4640 about thread safe init of local statics in atlstr.h
  • Thread Safe Initialization of local statics was automatically turned off in the XP toolset when [using ATL AND building a DLL]. This is no longer the case. You can add /Zc:threadSafeInit- in your Project settings if having thread safe initialization off is desired.

Visual C++ runtime

  • New header "cfguard.h" for Control Flow Guard symbols.


  • Configuration change performance is now better for C++ native projects and much better for C++/CLI projects. When a solution configuration is activated for the first time it will now be faster and all subsequent activations of this solution configuration will be almost instantaneous.

Visual Studio 2017 version 15.3:

  • Several project and code wizards have been rewritten in the signature dialog style.
  • Add Class now launches the Add Class wizard directly. All of the other items that were previously here are now available under Add > New Item.
  • Win32 projects are now under the Windows Desktop category in the New Project dialog.
  • The Windows Console and Desktop Application templates now create the projects without displaying a wizard. There's a new Windows Desktop Wizard under the same category that displays the same options as the old Win32 Console Application wizard.

Visual Studio 2017 version 15.5:

Several C++ operations that use the IntelliSense engine for refactoring and code navigation run much faster. The following numbers are based on the Visual Studio Chromium solution with 3500 projects:

Feature Performance Improvement
Rename 5.3x
Change Signature 4.5x
Find All References 4.7x

C++ now supports Ctrl+Click Go To Definition, making mouse navigation to definitions easy. The Structure Visualizer from the Productivity Power Tools pack is now also included in the product by default.


  • The new SQLite-based database engine is now being used by default. This will speed up database operations like Go To Definition and Find All References, and will significantly improve initial solution parse time. The setting has been moved to Tools > Options > Text Editor > C/C++ > Advanced (it was formerly under ...C/C++ | Experimental).

  • We've improved IntelliSense performance on projects and files not using precompiled headers - an Automatic Precompiled Header will be created for headers in the current file.

  • We've added error filtering and help for IntelliSense errors in the error list. Clicking on the error column now allows for filtering. Also, clicking on the specific errors or pressing F1 will launch an online search for the error message.

    Error List

    Error List Filtered

  • Added the ability to filter Member List items by kind.

    Member List Filtering

  • Added a new experimental Predictive IntelliSense feature that provides contextually-aware filtering of what appears in the Member List. See C++ IntelliSense Improvements - Predictive IntelliSense & Filtering

  • Find All References (Shift+F12) now helps you get around easily, even in complex codebases. It provides advanced grouping, filtering, sorting, searching within results, and (for some languages) colorization, so you can get a clear understanding of your references. For C++, the new UI includes information about whether we are reading from or writing to a variable.

  • The Dot-to-Arrow IntelliSense feature has been moved from experimental to advanced, and is now enabled by default. The editor features Expand Scopes and Expand Precedence have also been moved from experimental to advanced.

  • The experimental refactoring features Change Signature and Extract Function are now available by default.

  • The experimental 'Faster project load' feature for C++ projects. The next time you open a C++ project it will load faster, and the time after that it will load really fast!

  • Some of these features are common to other languages, and some are specific to C++. For more information about these new features, see Announcing Visual Studio "15".

Visual Studio 1027 version 15.7: Support added for ClangFormat. For more information, see ClangFormat Support in Visual Studio 2017.

Non-MSBuild projects with Open Folder

Visual Studio 2017 introduces the Open Folder feature, which enables you to code, build and debug in a folder containing source code without the need to create any solutions or projects. This makes it much simpler to get started with Visual Studio even if your project is not an MSBuild-based project. With Open Folder you get access to the powerful code understanding, editing, building and debugging capabilities that Visual Studio already provides for MSBuild projects. For more information, see Open Folder projects in Visual C++.

  • Improvements to the Open Folder experience. You can customize the experience through these .json files:
    • CppProperties.json to customize the IntelliSense and browsing experience.
    • Tasks.json to customize the build steps.
    • Launch.json to customize the debugging experience.

Visual Studio 2017 version 15.3:

  • Improved support for alternative compilers and build environments such as MinGW and Cygwin. For more information, see Using MinGW and Cygwin with Visual C++ and Open Folder.
  • Added support to define global and configuration-specific environment variables in CppProperties.json and CMakeSettings.json. These environment variables can be consumed by debug configurations defined in launch.vs.json and tasks in tasks.vs.json. For more information, see Customizing your Environment with Visual C++ and Open Folder.
  • Improved support for CMake's Ninja generator, including the ability to easily target 64-bit platforms.

CMake support via Open Folder

Visual Studio 2017 introduces support for using CMake projects without converting to MSBuild project files (.vcxproj). For more information, see CMake projects in Visual C++. Opening CMake projects with Open Folder automatically configures the environment for C++ editing, building and debugging.

  • C++ IntelliSense works without the need to create a CppProperties.json file in the root folder. Along with this, we've added a new dropdown to allow users to easily switch between configurations provided by CMake and CppProperties.json files.

  • Further configuration is supported via a CMakeSettings.json file that sits in the same folder as the CMakeLists.txt file.

    Cmake Open Folder

Visual Studio 2017 version 15.3: Support added for the CMake Ninja generator.

Visual Studio 2017 version 15.5: Support added for importing existing CMake caches.

Visual Studio 2017 version 15.7: Support added for CMake 3.11, code analysis in CMake projects, Targets view in Solution Explorer, options for cache generation, and single file compilation. For more information, see CMake Support in Visual Studio and CMake projects in Visual C++.

Windows desktop development with C++

We now provide a more granular installation experience for installing the original C++ workload. We have added selectable components that enable you to install just the tools that you need. Please note that the indicated installation sizes for the components listed in the installer UI are not accurate and underestimate the total size.

To successfully create Win32 projects in the C++ desktop workload, you must install both a toolset and a Windows SDK. Installing the recommended (selected) components VC++ 2017 v141 toolset (x86, x64) and Windows 10 SDK (10.0.nnnnn) ensures this will work. If the necessary tools are not installed, projects will not be created successfully and the wizard will hang.

Visual Studio 2017 version 15.5:

The Visual C++ Build tools (previously available as a standalone product) are now included as a workload in the Visual Studio Installer. This workload installs only the tools required to build C++ projects without installing the Visual Studio IDE. Both the v140 and v141 toolsets are included. The v141 toolset contains the lastest improvements in Visual Studio 2017 version 15.5. For more information, see Visual Studio Build Tools now include the VS2017 and VS2015 MSVC Toolsets.

Linux development with C++

The popular extension Visual C++ for Linux Development is now part of Visual Studio. This installation provides everything you need to develop and debug C++ applications running on a Linux environment.

Visual Studio 2017 version 15.2:

Improvements have been made in cross-platform code sharing and type visualization. For more information, see Linux C++ improvements for cross-platform code sharing and type visualization.

Visual Studio 2017 version 15.5:

  • The Linux workload has added support for rsync as an alternative to sftp for synchronizing files to remote Linux machines.
  • Support is added for cross compilation targeting ARM microcontrollers. To enable this in the installation, choose the Linux development with C++ workload and select the option for Embedded and IoT Development. This adds the ARM GCC cross compilation tools and Make to your installation. For more information, see ARM GCC Cross Compilation in Visual Studio.
  • Support added for CMake. You can now work on your existing CMake code base without having to convert it to a Visual Studio project. For more information, see Configure a Linux CMake Project.
  • Support added for running remote tasks. This capability allows you to run any command on a remote system that is defined in Visual Studio’s Connection Manager. Remote tasks also provide the capability to copy files to the remote system. For more information, see Configure a Linux CMake Project.

Visual Studio 2017 version 15.7:

Game development with C++

Use the full power of C++ to build professional games powered by DirectX or Cocos2d.

Mobile development with C++ (Android and iOS)

You can now create and debug mobile apps using Visual Studio that can target Android and iOS.

Universal Windows Apps

C++ comes as an optional component for the Universal Windows App workload. Upgrading C++ projects currently must be done manually. If you open a v140-targeted UWP project in Visual Studio 2017, you need to select the v141 platform toolset in the project property pages if you do not have Visual Studio 2015 installed.

New options for C++ on Universal Windows Platform (UWP)

You now have new options for writing and packaging C++ applications for the Universal Windows Platform and the Windows Store: You can use the Desktop Bridge infrastructure to package your existing desktop application or COM object for deployment through the Windows Store or through your existing channels via side-loading. New capabilities in Windows 10 enable you to add UWP functionality to your desktop application in various ways. For more information, see Desktop Bridge.

Visual Studio 2017 version 15.5: A Windows Application Packaging Project project template is added which greatly simplifies the work of packaging desktop applications with using Desktop Bridge. It is available under File | New | Project | Installed | Visual C++ | Universal Windows Platform. For more information, see Package an app by using Visual Studio (Desktop Bridge).

When writing new code, you can now use C++/WinRT, a standard C++ language projection for the Windows Runtime implemented solely in header files. It allows you to both author and consume Windows Runtime APIs using any standards-compliant C++ compiler. C++/WinRT is designed to provide C++ developers with first-class access to the modern Windows API. For more information, see C++/WinRT Available on GitHub.

As of build 17025 of the Windows SDK Insider Preview, C++/WinRT is included in the Windows SDK. For more information, see C++/WinRT is now included the Windows SDK.

Clang/C2 platform toolset

The Clang/C2 toolset that ships with Visual Studio 2017 now supports the /bigobj switch, which is crucial for building large projects. It also includes several important bug fixes, both in the front-end and the back-end of the compiler.

C++ code analysis

The C++ Core Checkers for enforcing the C++ Core Guidelines are now distributed with Visual Studio. Simply enable the checkers in the Code Analysis Extensions page in the project's property pages and the extensions will be included when you run code analysis. For more information, see Using the C++ Core Guidelines checkers.


Visual Studio 2017 version 15.3: Support added for rules related to resource management.

Visual Studio 2017 version 15.5: New C++ Core Guidelines checks cover smart pointer correctness, correct use of global initializers, and flagging uses of constructs like goto and bad casts.

Some warning numbers you may find in 15.3 are no longer available in 15.5. These warnings were replaced with more specific checks.

Visual Studio 2017 version 15.6:

Visual Studio 2017 version 15.7:

Unit testing

Visual Studio 2017 version 15.5:

Google Test Adapter and Boost.Test Adapter are now available as components of the Desktop Development with C++ workload, and are integrated with Test Explorer. CTest support is added for Cmake projects (using Open Folder) although full integration with Test Explorer is not yet available. For more information, see Writing unit tests for C/C++.

Visual Studio 2017 version 15.6:

  • Support added for Boost.Test dynamic library support.
  • A Boost.Test item template is now available in the IDE.

For more information, see Boost.Test Unit Testing: Dynamic Library support and New Item Template.

Visual Studio 2017 version 15.7:

CodeLens supported added for C++ unit test projects. For more information, see Announcing CodeLens for C++ Unit Testing.

Visual Studio graphics diagnostics

Visual Studio Graphics Diagnostics is a set of tools for recording and analyzing rendering and performance problems in Direct3D apps. Graphics Diagnostics features can be used with apps that are running locally on your Windows PC, in a Windows device emulator, or on a remote PC or device.

  • Input & Output for Vertex and Geometry shaders: The ability to view input and output of vertex shaders and geometry shaders has been one of the most requested features, and it is now supported in the tools. Simply select the VS or GS stage in the Pipeline Stages view to start inspecting its input and output in the table below.

    Input/Output for shaders

  • Search and filter in the object table: Provides a quick and easy way to find the resources you're looking for.


  • Resource History: This new view provides a streamlined way of seeing the entire modification history of a resource as it was used during the rendering of a captured frame. To invoke the history for any resource, simply click the clock icon next to any resource hyperlink.

    Resource history

    This will display the new Resource History tool window, populated with the change history of the resource.

    Resource history change

    Note that if your frame was captured with full call stack capturing enabled (Visual Studio > Tools > Options under Graphics Diagnostics), then the context of each change event can be quickly deduced and inspected within your Visual Studio project.

  • API Statistics: View a high-level summary of API usage in your frame. This can be handy in discovering calls you may not realize you’re making at all or calls you are making too much. This window is available via View > API Statistics in Visual Studio Graphics Analyzer.

    API stats

  • Memory Statistics: View how much memory the driver is allocating for the resources you create in the frame. This window is available via View > Memory Statistics in Visual Studio Graphics Analyzer. Data can be copied to a CSV file for viewing in a spreadsheet by right-clicking and choosing Copy All.

    Memory stats

  • Frame Validation: The new errors and warnings list provides an easy way to navigate your event list based on potential issues detected by the Direct3D debug layer. Click View > Frame Validation in Visual Studio Graphics Analyzer to open the window. Then click Run Validation to start the analysis. It can take several minutes to complete, depending on the frame's complexity.

    Frame validation

  • Frame Analysis for D3D12: Use Frame Analysis to analyze draw call performance with directed "what-if" experiments. Switch to the Frame Analysis tab and run analysis to view the report. For more details, watch the GoingNative 25: Visual Studio Graphics Frame Analysis video.

    Frame analysis

  • GPU Usage Improvements: Open traces taken via the Visual Studio GPU Usage profiler with either GPU View or the Windows Performance Analyzer (WPA) tool for more detailed analysis. If you have the Windows Performance Toolkit installed there will be two hyperlinks, one for WPA and other for GPU View, at the bottom right of the session overview.

    GPU usage

    Traces opened in GPU View via this link support synchronized zooming and panning in the timeline between VS and GPU View. A checkbox in VS is used to control whether synchronization is enabled or not.

    GPU View