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Why does your code take so long? Profile it!

Why does your code take so long to run? How do you improve its performance? When examining code, it’s very difficult to know which piece takes the longest, and thus should be the target of you optimization efforts.

 

For example, you won’t see much benefit from optimizing a part of your code if that code actually takes only 5% of the time.

 

Take a look at the code below and see if you can figure out where the most time is spent. Clue: you can increase the speed by 50% with a very minor change, yet do all the same work (don’t just decrease the # of iterations J).

 

Visual Studio 2010 comes with an easy to use profiling tool to figure out the slow parts of your application.

 

Start VS, File->New->Project->VB WPF Application. Call it PerfTest.

 

Paste in the code below to replace MainWindow.Xaml.VB

 

The code is chopped up sample code form this post What is your computer doing with all that memory? Write your own memory browser to demonstrate code profiling.

 

 

Notice that it shows a MessageBox before running some code in a loop. When the code continues, the sample code that we want to profile gets a map of all the virtual memory in the current process.

 

If you use C#, the code requires adding a reference to System.Windows.Forms.dll for the MessageBox.

 

Profile the builds that you distribute. If you distribute DEBUG builds, profile it. However, don’t profile while debugging. Hit Ctrl-F5 to launch the code.

 

When you see the MessageBox, choose main menu->Analyze->Profile->Attach/Detach, then point at the PerfTest.Exe process to which to attach. Once the attach is complete (there’s a spinning circle thingy), dismiss the MessageBox and the targeted code runs. In a few seconds, you’ll see the output in the TextBlock of the main window. Close the main window of the application to end the process and the profiling.

The VS profiler is a sampling profiler. That means, periodically, a snapshot of the process is taken, which includes the call stack for each thread. The data is accumulated until the profiling ends. The stacks are then turned into meaningful data by the profiler.

 

The VS profiler automatically starts creating the report. In a few seconds, a summary page with a graph of CPU usage vs time shows up. You can select a region and zoom in on it.

The Hot Path (the most expensive call path) is shown, along with the functions doing the most work.

There are several views from which to choose. Call Tree, Modules, Caller/Callee, Functions, etc.

 

Immediately from the summary page you can see that 50% of the time is in System.Diagnostics.Process.get_Handle()!

 

Just from those simple steps of profiling the code, you can identify a big improvement in performance.

 

<Code Sample>

 

See also: Beginners Guide to Performance Profiling

 

This is a sample of the Call Tree output:

 

Function Name

Inclusive Samples

Exclusive Samples

System.Windows.Application.Run()

193

4

WpfApplication1.Application.Main()

193

0

WpfApplication1.MainWindow.Window1_Loaded(object,class System.Windows.RoutedEventArgs)

189

3

WpfApplication1.MainWindow.GetVirtualAllocs()

184

19

System.Diagnostics.Process.get_Handle()

95

95

System.Diagnostics.Process.GetCurrentProcess()

33

33

System.Runtime.InteropServices.Marshal.SizeOf(object)

22

22

_VirtualQueryEx@16

3

3

System.UIntPtr..ctor(uint64)

3

3

@JIT_NewCrossContext@4

2

2

JIT_NewFast(struct CORINFO_CLASS_STRUCT_ *)

2

2

StubHelpers::DemandPermission(class NDirectMethodDesc *)

2

2

MarshalNative::SizeOfClass(class ReflectClassBaseObject *,bool)

1

1

Microsoft.VisualBasic.Interaction.MsgBox(object,valuetype Microsoft.VisualBasic.MsgBoxStyle,object)

1

1

System.Collections.Generic.List`1.Add(!0)

1

1

System.Collections.Generic.List`1.Clear()

1

1

System.UIntPtr.ToUInt64()

1

1

 

 

Imports System.Runtime.InteropServices

Imports System.Diagnostics

Class MainWindow

    Private WithEvents _btnRefresh As Button

    Private _proc As Process

    Private _virtAllocs As New List(Of MEMORY_BASIC_INFORMATION)

    Private Sub Window1_Loaded(ByVal sender As System.Object, ByVal e As System.Windows.RoutedEventArgs) Handles MyBase.Loaded

        Me.Width = 800

        Me.Height = 800

        Dim sbResult = New Text.StringBuilder

        MsgBox("start profile")

        _proc = Process.GetCurrentProcess

        For i = 1 To 5

            Dim nIters = 100

            Dim stpwatch = Stopwatch.StartNew

            For j = 0 To nIters

                _virtAllocs.Clear()

                GetVirtualAllocs()

            Next

            stpwatch.Stop()

            Dim res = String.Format("# iters = {0} # msecs = {1}", nIters, stpwatch.ElapsedMilliseconds)

            Debug.WriteLine(res)

            sbResult.AppendLine(res)

        Next

        Me.Content = New TextBlock With {.Text = sbResult.ToString}

    End Sub

    Private Sub GetVirtualAllocs()

        Dim mbi As New MEMORY_BASIC_INFORMATION

        Dim lpMem As UInt64 = 0

        Do While VirtualQueryEx(GetCurrentProcess, New UIntPtr(lpMem), mbi, Marshal.SizeOf(mbi)) = Marshal.SizeOf(mbi)

            _virtAllocs.Add(mbi)

            lpMem = mbi.BaseAddress.ToUInt64 + mbi.RegionSize.ToUInt64

            If mbi.lType Or AllocationType.MEM_IMAGE > 0 Then

                'Dim filename = GetFileNameFromMBI(mbi)

                'Trace.WriteLine(String.Format("{0:x8} {1}", mbi.BaseAddress.ToUInt32, filename))

            End If

        Loop

    End Sub

    <DllImport("kernel32.dll", SetLastError:=True)> _

    Public Shared Function GetCurrentProcess() As IntPtr

    End Function

    Const BlockSize As Integer = 1024

    <StructLayout(LayoutKind.Sequential)> _

    Structure ProcMemBlock

        <MarshalAs(UnmanagedType.ByValArray, sizeconst:=BlockSize)> _

        Dim data() As Byte

    End Structure

    <DllImport("kernel32.dll", SetLastError:=True)> _

    Public Shared Function ReadProcessMemory( _

               ByVal hProcess As IntPtr, _

               ByVal lpBaseAddress As UIntPtr, _

               ByRef lpBuffer As ProcMemBlock, _

               ByVal dwSize As Integer, _

               ByRef lpNumberOfBytesRead As Integer _

         ) As Integer

    End Function

    <DllImport("psapi")> _

    Shared Function GetModuleFileNameEx(ByVal hProcess As IntPtr, ByVal hModule As UIntPtr, ByVal lpFileName As Text.StringBuilder, ByVal nSize As Integer) As Integer

    End Function

    <DllImport("kernel32")> _

    Shared Function VirtualQueryEx( _

                                    ByVal hProcess As IntPtr, _

                                    ByVal lpAddress As UIntPtr, _

                                    ByRef mbi As MEMORY_BASIC_INFORMATION, _

                                    ByVal dwLength As UInteger) As UInteger

    End Function

    <StructLayout(LayoutKind.Sequential)> _

    Structure MEMORY_BASIC_INFORMATION

        Dim BaseAddress As UIntPtr

        Dim AllocationBase As UIntPtr

        Dim AllocationProtect As AllocationProtect

        Dim RegionSize As UIntPtr

        Dim State As AllocationState

        Dim Protect As AllocationProtect

        Dim lType As AllocationType

    End Structure

    <Flags()> _

    Enum AllocationProtect

        PAGE_EXECUTE = &H10

        PAGE_EXECUTE_READ = &H20

        PAGE_EXECUTE_READWRITE = &H40

        PAGE_EXECUTE_WRITECOPY = &H80

        PAGE_NOACCESS = &H1

        PAGE_READONLY = &H2

        PAGE_READWRITE = &H4

        PAGE_WRITECOPY = &H8

        PAGE_GUARD = &H100

        PAGE_NOCACHE = &H200

        PAGE_WRITECOMBINE = &H400

    End Enum

    <Flags()> _

    Enum AllocationType

        MEM_IMAGE = &H1000000

        MEM_MAPPED = &H40000

        MEM_PRIVATE = &H20000

    End Enum

    <Flags()> _

    Enum AllocationState

        MEM_COMMIT = &H1000

        MEM_FREE = &H10000

        MEM_RESERVE = &H2000

    End Enum

    Function GetFileNameFromMBI(ByVal mbi As MEMORY_BASIC_INFORMATION) As String

        Dim retval = ""

        If CType(mbi.lType, AllocationType) = AllocationType.MEM_IMAGE Or True Then

            If mbi.AllocationBase.ToUInt64 > 0 Then

                Dim sbFilename As New Text.StringBuilder(300)

                If GetModuleFileNameEx(Process.GetCurrentProcess.Handle, New UIntPtr(mbi.AllocationBase.ToUInt64), sbFilename, sbFilename.Capacity) > 0 Then

                    retval = sbFilename.ToString

                End If

            End If

        End If

        Return retval

    End Function

End Class

</Code Sample>