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When parsing a PDF, given a string (popped from the Tj or TJ operator callbacks) with the Identity-H encoding how do you map that string to a unicode (say UTF8) representation?

If I need a CMap for this, how do I create (or retrieve) and apply the CMap?

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2 Answers 2

up vote 2 down vote accepted

You'll probably have to parse the font data itself. Identity-H just means "use the bytes as raw glyph indexes into the given font". That's why you MUST embed fonts when using Identity-H... different versions of the same font need not have the same glyph order.

There's example code on how to do this sort of thing in several different open source projects. iText, for example (yes, I'm biased).


You'd mentioned a CMap. Identity-H fonts can have a CMap but aren't required to do so. The /ToUnicode entry will be a stream that is a CMap, as defined in some adobe spec somewhere. They aren't all that complex:

/CIDInit /ProcSet findresource begin  
12 dict begin  
begincmap  
/CIDSystemInfo  
<< /Registry (TTX+0)  
/Ordering (T42UV)  
/Supplement 0  
>> def  
/CMapName /TTX+0 def  
/CMapType 2 def
1 begincodespacerange  
<0000><FFFF>  
endcodespacerange  
80 beginbfrange  
<0003><0003><0020>  
<0024><0024><0041>  
<0025><0025><0042>  
<0026><0026><0043>  
<0027><0027><0044>  
<0028><0028><0045>  
<0029><0029><0046>  
<002a><002a><0047>  
<002b><002b><0048>
<002c><002c><0049>
<002d><002d><004a>
<002e><002e><004b>
<002f><002f><004c>
<0030><0030><004d>
<0031><0031><004e>
<0032><0032><004f>
<0033><0033><0050>
<0034><0034><0051>
<0035><0035><0052>
<0036><0036><0053>
<0037><0037><0054>
<0038><0038><0055>
<0039><0039><0056>
<003a><003a><0057>
<003b><003b><0058>
<003c><003c><0059>
<003d><003d><005a>
<0065><0065><00c9>
<00c8><00c8><00c1>
<00cb><00cb><00cd>
<00cf><00cf><00d3>
<00d2><00d2><00da>
<00e2><00e2><0160>
<00e4><00e4><017d>
<00e9><00e9><00dd>
<00fd><00fd><010c>
<0104><0104><0104>
<0106><0106><010e>
<0109><0109><0118>
<010b><010b><011a>
<0115><0115><0147>
<011b><011b><0158>
<0121><0121><0164>
<0123><0123><016e>
<01a0><01a0><0116>
<01b2><01b2><012e>
<01cb><01cb><016a>
<01cf><01cf><0172>
<022c><022c><0401>
<023b><023b><0411>
<023c><023c><0412>
<023d><023d><0413>
<023e><023e><0414>
<023f><023f><0415>
<0240><0240><0416>
<0241><0241><0417>
<0242><0242><0418>
<0243><0243><0419>
<0244><0244><041a>
<0245><0245><041b>
<0246><0246><041c>
<0247><0247><041d>
<0248><0248><041e>
<0249><0249><041f>
<024a><024a><0420>
<024b><024b><0421>
<024c><024c><0422>
<024d><024d><0423>
<024e><024e><0424>
<024f><024f><0425>
<0250><0250><0426>
<0251><0251><0427>
<0252><0252><0428>
<0253><0253><0429>
<0254><0254><042a>
<0255><0255><042b>
<0256><0256><042c>
<0257><0257><042d>
<0258><0258><042e>
<0259><0259><042f>
endbfrange
endcmap
CMapName currentdict /CMap defineresource pop
end end

Wow. That particular CMap is horribly inefficient. A "bfrange" starts from parameter 1, and goes to and includes parameter 2, maping values starting at parameter 3 (and continuing on until there are no more things to map.

For example:

<0003><0003><0020>
<0024><0024><0041>
<0025><0025><0042>
<0026><0026><0043>
<0027><0027><0044>
<0028><0028><0045>
<0029><0029><0046>
<002a><002a><0047>
<002b><002b><0048>
<002c><002c><0049>
<002d><002d><004a>
<002e><002e><004b>
<002f><002f><004c>
<0030><0030><004d>
<0031><0031><004e>
<0032><0032><004f>

could be represented as

<0003><0003><0020>
<0024><0032><0041>

A quick google search turned up the CMap/CID font spec.

There are also beginbfchar/endbfchar which just take two parameters (src and dest values, no ranges), CID based versions (at which point you need to have access to Adobe's character ID tables. They're part of Acrobat/Reader installations, though Reader will need to be prodded into downloading the various Language Packs (or kits or whatever they're called)), and various other stuff you really out to read that spec to find out about.

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In my case, when the current font has encoding "Identity-H", the embedded fonts have a FontDescriptor whose stream has dictionary with key "Filter" and value "FlateDecode". Does this mean I only need to decompress (say) text found in Tj using zLib to get a unicode string? (Surely not...) –  SK9 May 18 '11 at 13:46
    
Correct. The font file (or some portion of it) is compressed with zLib. You need to uncompress it and read the font's glyph->character table[s] to figure out which characters in the Tj's mean what. And just for fun, font subsets ARE NOT REQUIRED to include that information... at which point it's "OCR or bust". –  Mark Storer May 18 '11 at 16:01
    
"Correct" as in "No, it doesn't work that way". –  Mark Storer May 18 '11 at 16:47
    
Many thanks for your responses and patience, this is helping me a lot. One thing that is not clear to me from the PDF guide is how to use the CMap file once I have it. [I'm looking at "Adobe-Japan1-UCS2" now.] Given this, do I create a hashmap and scanner myself here or are there C-convenience methods that will take a string of character codes and the contents of the CMap file as input and return a string? I don't know what the standard thing to do here is. –  SK9 May 19 '11 at 3:16

There are multiple ways this data may be encoded (some using CMAPs). You can also have custom encodings (http://www.jpedal.org/PDFblog/2011/04/understanding-the-pdf-file-format-%E2%80%93-custom-font-encodings/). You also need to understand CID fonts (http://www.jpedal.org/PDFblog/2011/03/understanding-the-pdf-file-format-%E2%80%93-what-are-cid-fonts/)

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Many thanks for your reply. I have the official guide to PDF, I've read some and the decision to make a detailed read is pending. I'm going through your links - thanks for these. –  SK9 May 15 '11 at 14:24

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