In Linux, I have been using valgrind for checking if there are memory leaks in an application. What is the equivalent in Windows? Can this be done with Visual Studio 2010?


Visual Studio 2019 has a decent memory analysis tool, it may be used interactively while debugging or by programming (without debugging), I show a minimal example in both cases in the following.

The main idea is to take a snapshot of the heap at the beginning and at the end of the process, then to compare the states of memory to detect potential memory leaks.


Create the following main.cpp file (in a new console application) :

#include <string.h>
int main()
 int a = 1;
 char* s = new char[17];
 char* ss = new char[14];
 strcpy_s(ss, 14,"stackoverflow");
 delete[] ss;
 return 0;

Then :

  1. Put a breakpoint on the first line "int a..."
  2. Click Debug > Windows > Show Diagnostic Tools; and pick memory usage
  3. Then debug the code (F5), when the breakpoint is hit, click Take snapshot on the Memory Usage summary toolbar.
  4. Go to the last line "return 0.." (step over (F10) several times) and take another snapshot.
  5. Click on the red arrow in the second snapshot (in memory usage tab)
  6. this will open a new "snapshot" tab that permits you to compare this snapshot with the first one (or another one) and to detect memory leaks. In this example there is a memory leak for variable s (stackoverflow_pb). You can find it by double click the "char[]" object.

The key steps of the above procedure are shown in the following image:

memory analysis interactively

By programming

Replace the code with the following:

#include <iostream>

#include "windows.h"
#define _CRTDBG_MAP_ALLOC //to get more details
#include <stdlib.h>  
#include <crtdbg.h>   //for malloc and free
int main()
    _CrtMemState sOld;
    _CrtMemState sNew;
    _CrtMemState sDiff;
    _CrtMemCheckpoint(&sOld); //take a snapshot
    char* s = new char[17];
    strcpy_s(s, 17, "stackoverflow_pb");
    char* ss = new char[14];
    strcpy_s(ss, 14, "stackoverflow");
    delete[] ss;
    _CrtMemCheckpoint(&sNew); //take a snapshot 
    if (_CrtMemDifference(&sDiff, &sOld, &sNew)) // if there is a difference
        OutputDebugString(L"-----------_CrtMemDumpStatistics ---------");
        OutputDebugString(L"-----------_CrtMemDumpAllObjectsSince ---------");
        OutputDebugString(L"-----------_CrtDumpMemoryLeaks ---------");
    return 0;

It does the same thing but by code, so you can integrate it in an automatic build system, the functions _CrtMemCheckpoint take the snapshots and _CrtMemDifference compare the memory states of snapshot and returns true is they are different.

Since it is the case, it enters the conditional block and prints details about the leaks via several functions (see _CrtMemDumpStatistics , _CrtMemDumpAllObjectsSince and _CrtDumpMemoryLeaks - the latter doesn't require snapshots).

To see the output, put a break point in the last line "return 0", hit F5 and look at the debug console. Here is the output :

enter image description here

To get more information, see the following links :

  • This is very good. Is there a way we can check for 1. mixing array new[] and the wrong delete, 2. accessing freed memory, 3. other ways of corrupting memory like out of bound access and such. 4. Accessing uninitialized memory Mar 11 '20 at 15:16
  • 1
    Sorry I don't know for 1,3 and 4 but I would use a static analysis tool for it. Regarding 2 (accessing freed memory) you can use the _CRTDBG_DELAY_FREE_MEM_DF flag (see the above link "CRT debug Heap Files").
    – Malick
    Mar 11 '20 at 18:54
  • Thanks. OutputDebugStringW required for LPCWSTR, (3 characters not enough for an edit as the rest of the answer is perfect!) Aug 8 '20 at 14:00
  • /fsanitize=address can now be used with x64 and x86 for similar memory problems. AddressSanitizer May 26 '21 at 21:46

How about Visual Leak Detector? It's not inbuild, but I do think it's the most popular one.


Dr. Memory is a memory monitoring tool capable of identifying memory-related programming errors such as accesses of uninitialized memory, accesses to unaddressable memory (including outside of allocated heap units and heap underflow and overflow), accesses to freed memory, double frees, memory leaks, and (on Windows) handle leaks, GDI API usage errors, and accesses to un-reserved thread local storage slots.

Dr. Memory operates on unmodified application binaries running on Windows, Linux, Mac, or Android on commodity IA-32, AMD64, and ARM hardware.

Dr. Memory is built on the DynamoRIO dynamic instrumentation tool platform.

  • 1
    Following the instructions on the page, I get "Dr.Memory internal crash" Any suggestions? Mar 7 '20 at 7:34
  • DrM is great when if works,but like others are finding, the Feb 2020 is prone to having internal segfaults.
    – Nick
    Aug 11 '20 at 14:18

C++ Memory Validator finds memory and handle leaks in native Windows programs built with Visual Studio, Delphi and other compilers. Fast and can handle large workloads (some users track several billion allocations and deallocations in one run).

Disclosure: I'm the designer of C++ Memory Validator. We built it because other tools couldn't handle the workload when we were working with SolidWorks R&D Ltd.


Visual Studio 2015 and later versions have Native Memory Leak Diagnostic Tool, check this for details: https://dzone.com/articles/native-memory-leak-diagnostics.

  • Is this feature available in the Community edition as well?
    – AntonK
    Feb 12 '20 at 14:31
  • It's available in my VS 2017 Community Edition, not sure about 2015. Feb 13 '20 at 15:05

Application Verifier is a good tool for detecting leaks in native (C or C++) application. You can use it along with Visual studio or WinDbg . Apart from memory leaks, you can check for heap corruptions, invalid handle usage as well. Using application verifier along with WinDbg (!analyze -v) provides good insights.


You can use DevPartner tool for finding memory leaks in C++ applications using visual studio.

  • If you like drilling holes in your head for fun, sure. Jan 25 '11 at 9:00

A standalone tool (CLI) for tracking native (C++) memory leaks. Run your app in Release mode (PDBs should be available) and let it run along with it. It outputs all the suspected call stacks and their respected leak size:

GitHub: C++ Memory Leak Detector for Windows


A reliable solution is to use the Address Sanitizer for visual studio. This is a cross platform / cross compiler solution so the knowledge you gain will be transferable to gcc and clang.

This tool has extensions for thread sanitization, and general memory error detection (use after free, double free, uninitialized use etc) but leak detection is one of its strong points. You need the /fsanitize=address /Zi options for the Microsoft compiler, but you can refer on the first linked article on how to incorporate it on solutions and bigger projects (either through CMake configurations, or project properties tweaking)

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