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Posted 4 Nov 2012


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Gradient Bar Control

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4.69/5 (7 votes)
4 Nov 2012Zlib6 min read
A WTL control to display quality rate

Demo application


While looking for an implementation of the algorithm that checks password strength, I came across The Password Meter page on which password strength is depicted by a changing color bar. This is achieved by displaying a selected part of a larger bitmap that gradually changes from red to green color. I thought it would be nice to create a similar control for a C++ project I am working on and which uses WTL. Except for gradually changing color, the control should follow the visual style of Vista/Win 7 progress bar control, with 3D glowing look and running marquee.


Initially, the control has been implemented in the same way as on the above mentioned site, using a gradient bitmap from which only a particular section is displayed. However, during control development I determined that the original specimen bitmap is not required at all. Namely, to display the bar in accordance to Vista/Windows 7 visual style, HSL (Hue, Saturation, Lightness) data must be manipulated as described later in the article. Colors on the control change from red, over yellow to green which in HSL space corresponds to hue values shifting from 0 to 120 degrees. Therefore, we do not need the specimen bitmap but a method that generates colors with varying hue. Unfortunately, Windows API recognizes color data in RGB format only so conversions from RGB to HSL and vice versa must be performed. Therefore, a utility class for these conversions has been implemented and used in the control.

CGradientBarCtrlImpl class contains the implementation of the control. Following subsections deal with implementation details.

Drawing the Bar

WM_PAINT message handler draws the bar and optional value on it. For a non-themed bar, drawing is pretty straightforward: starting hue for the value to be shown is calculated first and then for each pixel from left to the right end of the bar corresponding hues are evaluated and converted to RGB data that are passed to DC::SetPixel() method:

CRect rect;
// draw the edge (similarly to progress bar, border is allways displayed)
dc.DrawEdge(&rect, EDGE_ETCHED, BF_RECT);
rect.DeflateRect(1, 1, 1, 1); 
// since bar doesn't fill the entire client area, fill
// the client with button face color first
dc.FillSolidRect(&rect, ::GetSysColor(COLOR_BTNFACE));
// calculate starting hue for the current value to be presented
double hueStart = HUE_RED + (HUE_GREEN - HUE_RED - HUE_RANGE) * m_value / 100.;
// draw individual pixels
int columns = rect.Width();
int rows = rect.Height();
for (int column = 2; column < columns; ++column)
    double hue = hueStart + HUE_RANGE * column / columns;
    // create HSL for evaluated hue, full saturation and 50% lightness
    HSL hsl(hue, 1., 0.5);
    // convert to RGB and return 
    COLORREF color = hsl.GetRGB();
    for (int row = 2; row < rows; ++row)
        dc.SetPixel(column, row, color);

HSL in the above code is the utility class used for RGB – HSL conversions. HUE_RED (0 degrees) and HUE_GREEN (120 degrees) are boundary hues for lowest (0 %) and largest (100 %) values, respectively. HUE_RANGE is the range of hue displayed for a given value.

Hue range displayed

Real challenge is to draw a bar that will look like the progress bar on Windows Vista and Windows 7 when visual themes are enabled, with 3D glow and shaded left and right ends. Statements

CRect rect;
// first draw progress bar using theme
DrawThemeBackground(dc, PP_BAR, 0, &rect, NULL);
// draw the (green) chunk
DrawThemeBackground(dc, PP_FILL, PBFS_NORMAL, &rect, NULL);

draw a progress control with green chunk since the third (istateId) argument passed to DrawThemeBackground() method is equal to PBFS_NORMAL (actual value is 1). Changing this argument to PBFS_ERROR (2), PBFS_PAUSED (3) or PBFS_PARTIAL (4) will draw red, yellow or cyan chunks, respectively.
In order to mimic the look of progress bar, the chunk is drawn using the code above first, then saturation and intensity is picked for each pixel and combined with calculated hue. Resulting color is applied back on the pixel:

// calculate starting hue for the current value to be presented
double hueStart = HUE_RED + (HUE_GREEN - HUE_RED - HUE_RANGE) * m_value / 100.;
// correct individual pixels
int columns = rect.Width() + 1;
int rows = rect.Height() + 1;
for (int column = 0; column < columns; ++column)
    // calculate hue for the current column
    double hue = hueStart + HUE_RANGE * column / columns;
    for (int row = 0; row < rows; ++row)
        // pick color from themed bar
        COLORREF originalColor = dc.GetPixel(column, row);
        // convert to HSL format
        HSL hsl(originalColor);
        // and apply our calculated hue
        // convert to RGB and apply it to the pixel
        COLORREF color = hsl.GetRGB();
        dc.SetPixel(column, row, color);

Applying hue on themed progress bar

Please note that the actual implementation differs somewhat from the above code snippets since a part of the functionality has been pulled out to a separate CEvaluateColor class. This has been done in order to allow simple replacement of the above algorithm with a custom one. CEvaluateColor class is passed as the default template parameter to CGradientBarCtrlImpl template class, but the user can provide another class if default implementation doesn’t meet their expectations.

HSL to RGB Conversions

The hue is the key value processed while drawing the gradient bar. However, Windows API cannot cope with HSL data – it can handle RGB data only. To make conversions between these formats easier, a utility class named HSL has been implemented. This class is partly adopted from the code provided by Alex Kuhl and manipulates HSL components as double type.
Since Windows API treats RGB components as one-byte integral values, initial implementation of HSL class used integer arithmetic, hoping that it will execute much faster. However, speed comparison tests showed only a slight speed difference increase (approx. 150%) when compared to the floating-point implementation. On the other hand, integer arithmetic introduces a small error into conversions and therefore, the double type version is used in final implementation.

Running Marquee 

When the progress bar is idle, it displays a running marquee. I thought it would be striking to implement a similar feature in the gradient bar, especially for cases where the user modifies the value the quality of which is depicted by the control. For example (as illustrated by the “real-world” sample), if control shows the strength of the password entered by the user, while password entry control has the focus and the user is not typing anything, the gradient bar will run the marquee.
Two timers are used to handle the marquee: one (INITIAL_DELAY_TIMER_ID) suspends the marquee run and the other initiates redrawing of the highlighted section at different positions. The first timer is activated each time a new value to be depicted is set:

void SetValue(int value)
    m_value = value;
    // restart initial delay timer

This prevents the marquee from running while the user is entering a new value. When the initial delay is timed-out, the OnTimer handler triggers the second timer (MARQUEE_TIMER_ID); on its timeout the position of the highlighted section is shifted right and the bar is invalidated to repaint the bar with highlighted section offset:

LRESULT OnTimer(UINT uMsg, WPARAM wParam, LPARAM lParam, BOOL& bHandled)
    RECT rect;
    switch (wParam)
        // initial delay has expired
        // run the marquee
        m_marqueeX = -MARQUEE_WIDTH;
        m_marqueeRunning = true;
        // draw marquee at new position
        m_marqueeX += MARQUEE_DELTAX;
        if (m_marqueeX >= rect.right)
            // marquee passed the end of bar so reset timers
            m_marqueeRunning = false;
        bHandled = false;
    return 0;

Obviously, painting procedure must be modified to include drawing of the highlighted section:

CRect rect;
// first draw progress bar using theme
DrawThemeBackground(dc, PP_BAR, 0, &rect, NULL);
// draw the (green) chunk
DrawThemeBackground(dc, PP_FILL, PBFS_NORMAL, &rect, NULL);
// draw running overlay
if (m_marqueeRunning)
    CRect rectOverlay(rect);
    rectOverlay.right = MARQUEE_WIDTH;
    DrawThemeBackground(dc, PP_MOVEOVERLAY, PBFS_NORMAL, &rectOverlay, &rect);

About the Demo Application

The demo application reveals the behavior of the gradient bar control. The user can turn the value displayed and the marquee on/off simply through the checkboxes provided. By clicking the “RW Example” button (stands for “real-world”) another dialog pops-up in which the gradient bar is used to represent the strength of the password the user is typing. Note that the marquee is running only when the corresponding password entry control has focus and the user is not typing. For password strength evaluation, the algorithm provided on has been modified and adopted.

Using the code

To use the control, simply include GradientBarCtrl.h and HSL.h files into your project. To display CGradientBarCtrl on a dialog, just place a dummy control onto the dialog resource and attach the CGradientBarCtrl instance either by invoking the SubclassWindow() method inside the WM_INITDIALOG message handler or through DDX_CONTROL macro.
Only three methods are intended to be invoked by the user code:

  • void SetValue(int value) – to set the new value to be depicted by the control (value must be in the range 0 – 100);
  • void DisplayValue(bool show) – to control if the numeric value should be displayed or not (default value for the argument is true);
  • void EnableMarquee(bool enable) – to control if the running marquee should be displayed or not (default value for the argument is true).

CGradientBarCtrlImpl is a template class that has TEvaluateColor as one of template parameters. The CEvaluateColor is used as a default implementation for this parameter, but the user can provide its own implementation.


  • November 5, 2012 - initial version


This article, along with any associated source code and files, is licensed under The zlib/libpng License


About the Author

Julijan Sribar
Software Developer (Senior)
Croatia Croatia
Graduated at the Faculty of Electrical Engineering and Computing, University of Zagreb (Croatia) and received M.Sc. degree in electronics. For several years he was research and lecturing assistant in the fields of solid state electronics and electronic circuits, published several scientific and professional papers, as well as a book "Physics of Semiconductor Devices - Solved Problems with Theory" (in Croatian).
During that work he gained interest in C++ programming language and have co-written "C++ Demystified" (in Croatian), 1st edition published in 1997, 2nd in 2001, 3rd in 2010, 4th in 2014.
After book publication, completely switched to software development, programming mostly in C++ and in C#.
In 2016 coauthored the book "Python for Curious" (in Croatian).

Comments and Discussions

BugNone of your projects compile Pin
dc_200015-Jun-14 14:12
Memberdc_200015-Jun-14 14:12 
GeneralRe: None of your projects compile Pin
Julijan Sribar16-Jun-14 0:50
MemberJulijan Sribar16-Jun-14 0:50 
QuestionVery nice Pin
BillW3312-Dec-12 6:45
professionalBillW3312-Dec-12 6:45 
QuestionWhat about a DLL Pin
Roberta Mafessoni6-Nov-12 7:24
MemberRoberta Mafessoni6-Nov-12 7:24 
AnswerRe: What about a DLL Pin
Julijan Sribar6-Nov-12 10:44
MemberJulijan Sribar6-Nov-12 10:44 
GeneralRe: What about a DLL Pin
Roberta Mafessoni7-Nov-12 11:11
MemberRoberta Mafessoni7-Nov-12 11:11 
GeneralMy vote of 5 Pin
lyricc4-Nov-12 14:38
Memberlyricc4-Nov-12 14:38 

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