# Measuring string size in plain C

Imagine you are generating a PDF program "by hand" (no libraries) from within a C program you are developing. You want to write a function that subscripts arbitrary text. The best thing to imagine here is how TeX subscripts the `\inf` and `\sup` symbols when typesetting math.

Now, when you add a subscript to the `\inf` symbol, nothing interesting happens, it just sits there. On the other hand, adding subscript to the `\sup` symbol causes the subscripted text to move a few units downwards because of the letter "p" whose descent is a little below the baseline of the font.

My question then is, what is the best way to read glyph metrics from a Type-1 or OTF font so that typesetting can be done perfectly? I am looking especially for the ascent, descent and width metrics as they are referred to in th PDF format specification.

As parsing font files looks like "doing work instead of the PostScript interpreter", which has to perform those calculations to lay down individual letters that eventually constitute words and paragraphs, it would be nice if I could refer to the "end of the last text string" in the PDF PostScript stream.

Consider this fragment of PDF PostScript stream: `BT /F1 12 Tf 0 0 Td (Hello World!)Tj (Hello again!)Tj ET`, "Hello again" renders precisely where it should be. So the PostScript interpreter knows (of course) where the next batch of text written with `Tj` should begin, but I do not know how to refference this information so that I can avoid all the messy font parsing.

If anyone runs into this trouble, have a look at a similar question I posted on Adobe forums, I got some valuable information there as well.

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is `sizeof()?` what you are looking for? –  user2045557 Jul 30 '13 at 7:36
I didn't get the font thing you are talking about –  user2045557 Jul 30 '13 at 7:36
Can you improve the question @David ? –  phoxis Jul 30 '13 at 7:40
@PaulR Yes, that is it. I would like it to be platform-independent. –  David Jul 30 '13 at 7:41
Dear David, welcome to stackoverflow. Judging by the number of comments it seems that your question can be improved by stating more clearly what it is you are using, what you have tried, and what has failed. This will be appreciated by the people trying to help you and will likely improve your chance of a meaningful answer. –  Micha Wiedenmann Jul 30 '13 at 8:25

From the font file you have to read the font metrics, the width of each glyph (GW). These widths are given in a 1000 unit grid. You compute the actual width of a glyph at a given font size using this formula: pageGlyphWidth = fontSize * GW / 1000;
Then you scale the computed value with the current transformation matrix.

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This is what I am looking for! Do these metrics have to be parsed from the various font formats? –  David Jul 30 '13 at 8:43
Yes, you have to write your parser for each font format you want to support and extract the metrics from the font file. –  iPDFdev Jul 30 '13 at 8:59
Okay, let's face the truth. One more question, if you do not mind: is it possible to extract ascent, descent and width and height metrics of individual glyphs in a reasonable way? (Reasonable: parse the information out, they are contained within the file. Not reasonable: calculating the Bezier curves and then looking for extrema points.) –  David Jul 30 '13 at 9:03
@David that looks like an interesting question in its own right. –  mkl Jul 30 '13 at 9:13
@mkl, do you think I should open a new thread for this? –  David Jul 30 '13 at 9:16

[This text was written as the answer to the original question:

How do I measure string size when rendered to a PDF using plain C given only the font file, the string and the font size? Is there a way?

It does not really match the updated question.]

The mechanisms and math of PDF text rendering are exhaustively explained in the PDF specification ISO 32000-1. Most important are chapters 8 Graphics and 9 Text. Section 9.4.4 aggregates the information and calculations concerning the horizontal and vertical displacement between two characters drawn in sequence

While this looks a bit complicated, it very likely reduces to trivial math in your case as you say you are generating the whole PDF by hand and, therefore, most likely have trivial values for the variables involved.

Unfortunately you did not provide your hand-generated PDF; otherwise you could be told in more detail to what the equations can be reduced in your case.

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Thank you for trying to help me. Unfortunately, I seem to fail to make myself clear when describing what the problem is. I am reading the Adobe PDF spec for two days now and I have not yet found the answer to my question. The math behind keeping track of the text state is not causing the problem; the problem is how to get extensive font information for the individual glyphs, especially ascent and descent. As I am trying to avoid parsing font files, I am asking whether this can be done in pure PostScript, like referring (somehow) to the location where the previous text batch ended. –  David Jul 30 '13 at 8:40
One more thing; thank you for your answer on the previous post. You answered what I had been asking for, but it seems I did not ask it the right way. –  David Jul 30 '13 at 8:42
I'm afraid get extensive font information for the individual glyphs and avoid parsing font files contradict each other here. The PDF in PDF syntax only has very basic font information (as much as required for a dumb PDF viewer to render the PDF). Everything else has to be searched in the font, e.g. individual ascent and descent values. –  mkl Jul 30 '13 at 8:47
I see. That is precisely what I was not sure about; the amount of information other than the font program itself that is carried inside the PDF about the font. So the `/Widths` array is there just to support basic rendering/lend a helping hand to "dumb readers"? Nothing else? –  David Jul 30 '13 at 9:19
@David The Width array says: "After drawing the character at position p, advance this far for drawing the next character." (And this value has to be adapted as described by the formulas above.) It does not say anything about the glyph itself which often is smaller, cf. figure 39 in section 9.2.4 in ISO 32000-1. –  mkl Jul 30 '13 at 9:30