Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I want to know the printing size of a string in inches. i.e. what will be the length (and width) of string "Test String" when printed on a paper. I can get the length in pixels using the Graphics object and MeasureString method. But don't know how to convert pixels into inches on paper.

I checked this SO question but can't find the solution.

share|improve this question
I think the part you're missing from the linked question is that this is not possible. There is no well-defined relationship between pixels and inches. It depends entirely on your display device. This problem is unsolvable. – Cody Gray Jul 5 '11 at 8:29
Graphics has a DpiX and DpiY property. I think you should be able to divide your pixel width and height by these values, and you'll have your answer. – K Mehta Jul 5 '11 at 8:31
The display device resolution ultimately isn't relevant when the goal is actually to find out what the size of the text would be when printed literally as opposed to printed to screen. – UtopiaLtd Jul 5 '11 at 8:37
I am only interested in paper size. Screen display is not a concern here. The whole idea is to know how much text I can print in the given paper size (for example 8 inch)? – matrix Jul 5 '11 at 8:56
up vote 0 down vote accepted

This is not possible, unless you know both the printer size and display size in hard numbers.

Say you're printing a full screen handout. On a 30 inch monitor, 1 pixel may be 1 unit large on paper. But on a 7 inch netbook, a pixel will be 2 units large on paper - twice the size, even though they are both one pixel on the electronic display.

Simply put, this measurement is not possible unless you are working with something fixed, like an iPhone's display size (which is well known), or your own hardware whose screen size you have exact measurements to.

share|improve this answer
The OP is clearly referring to paper, not screens. – Caspar Kleijne Jul 5 '11 at 8:46
@freedompeace, If this is not possible, how come MS word (and other word processors) adjust the text based on the page size? – matrix Jul 5 '11 at 8:57
@devcoder, Microsoft Word does NOT adjust the size of the text ON THE SCREEN to the size of the text on the paper. It adjusts the size of text relative to the size of an image (say, A4 is 210x197), and sends that to the printer, at which point Word trusts that the printer will do its thing. The size of the text on screen CANNOT be translated into size on paper. – foxy Jul 5 '11 at 12:24

I know this is an old question, but a quazi solution for it. I have tested my solution a few times and it seems to be accurate but not precise. The basis of this code is directly from an MSDN example and this answer on SO, the only thing I am doing differently is changing the units from points to inches.

MSDN Graphics.MeasureString()

private float GetTextWidth(string fontFace, float fontSize, string text)
    SizeF size = new SizeF();

    Font font = new Font(fontFace, fontSize);

    //Using a Bitmap object for frame of reference in order to get to a Graphics object
    using (Bitmap b = new Bitmap(1, 1))
        //Graphics object allows string measurement
        using (Graphics g = Graphics.FromImage(b))
            //change the units to inches
            g.PageUnit = GraphicsUnit.Inch;

            //Perform the measurement
            size = g.MeasureString(text, font);

    //Print to console if you want 

    return size.Width;

I tested this out with the following inputs: ("Arial", 10, "Page 1 of 1") and I got 0.777972 inches

If you read the Remarks of the MSDN link above you will see that there is a little extra space padded onto that figure. You have to be aware that this happens:

The MeasureString method is designed for use with individual strings and includes a small amount of extra space before and after the string to allow for overhanging glyphs.

When I measured this on a piece of paper end to end I got about 0.625, that is a difference of 0.152972 which is essentially ~20% padding. I'm guessing it is distributed on either side evenly.

Also be careful with which Fonts you use - for example Helvetica is not a supported font by default, therefore the Font object will default to Arial if it can't find your font.

share|improve this answer
Will try this out over weekend. – matrix Jul 11 '14 at 6:35
Cool! I will admit up front though, the measurements aren't precise, but I think it is working as intended with this API method. I haven't had a chance to look into how to eliminate that padding because I ran out of time to work on this (I'm at work). – dyslexicanaboko Jul 11 '14 at 15:53

The resolution of a digital graphic is its pixel dimensions. The size of the printed graphic is dependent of the printer settings.

  • If you print a picture of 300 x 300 pixels at 300dpi on a printer the picture becomes 1 x 1 inch. ( 300 / 300 )

  • If you print a picture of 300 x 300 pixels at 10dpi on a printer the picture becomes 30 x 30 inch. ( 300 / 10 )

  • If you print a picture of 300 x 300 pixels at 1000dpi on a printer the picture becomes 0,3 x 0,3 inch. (300 / 1000 )

However, the exact size depends on the accuracy of the printer (paper feeding, servo of the printer head etc.)

An excellent reference is found here: DPI has NOTHING to do with digital image quality!.

The Dpi of the display has NOTHING to do with this

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.