Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

Currently, I'm designing some format conversion tools in the area of glycobiology. The format conversion involves going from a text file to an XML file that is standard in the field. Most of the time, the data we get contains the information of interest in a plain text file like below. The actual file has all of this in one line. Reading and splitting this text to get the information is trivial (probably not intuitive) but XML is where the problem is.


How to interpret this:

  1. Everything of the form w-w-w+ is a sugar that is linked to another one. Linkage is shown by the curly {.
  2. 4+1, 3+1 and so on indicate which carbon bonds on one sugar to the other one. So the 4th carbon on the preceding one links to the 1st carbon on the succeeding one.
  3. {} This indicates no additional sugar linked to that sugar
  4. } curlies just close that tier.

You can probably read the XML and figure out how the linkages work. But if you guys would prefer a more detailed explanation, just ask.

What the XML should look like is shown below.

<?xml version="1.0" encoding="UTF-8"?>
    <molecule subtype="glycan" id="From_GlycoCT_Translation">
            <residue subtype="base_type" partid="1" ref="http://www.monosaccharideDB.org/GLYDE-II.jsp?G=b-dglc-HEX-1:5" />
            <residue subtype="substituent" partid="2" ref="http://www.monosaccharideDB.org/GLYDE-II.jsp?G=n-acetyl" />
            <residue subtype="base_type" partid="3" ref="http://www.monosaccharideDB.org/GLYDE-II.jsp?G=b-dglc-HEX-1:5" />
            <residue subtype="substituent" partid="4" ref="http://www.monosaccharideDB.org/GLYDE-II.jsp?G=n-acetyl" />
            <residue subtype="base_type" partid="5" ref="http://www.monosaccharideDB.org/GLYDE-II.jsp?G=b-dman-HEX-1:5" />
            <residue subtype="base_type" partid="6" ref="http://www.monosaccharideDB.org/GLYDE-II.jsp?G=a-dman-HEX-1:5" />
            <residue subtype="base_type" partid="7" ref="http://www.monosaccharideDB.org/GLYDE-II.jsp?G=a-dman-HEX-1:5" />
            <residue subtype="base_type" partid="8" ref="http://www.monosaccharideDB.org/GLYDE-II.jsp?G=a-dman-HEX-1:5" />
            <residue subtype="base_type" partid="9" ref="http://www.monosaccharideDB.org/GLYDE-II.jsp?G=a-dman-HEX-1:5" />
            <residue subtype="base_type" partid="10" ref="http://www.monosaccharideDB.org/GLYDE-II.jsp?G=a-dman-HEX-1:5" />
            <residue_link from="2" to="1">
                <atom_link from="N1H" to="C2" to_replace="O2" bond_order="1" />
            <residue_link from="3" to="1">
                <atom_link from="C1" to="O4" from_replace="O1" bond_order="1" />
            <residue_link from="4" to="3">
                <atom_link from="N1H" to="C2" to_replace="O2" bond_order="1" />
            <residue_link from="5" to="3">
                <atom_link from="C1" to="O4" from_replace="O1" bond_order="1" />
            <residue_link from="6" to="5">
                <atom_link from="C1" to="O3" from_replace="O1" bond_order="1" />
            <residue_link from="7" to="6">
                <atom_link from="C1" to="O2" from_replace="O1" bond_order="1" />
            <residue_link from="8" to="5">
                <atom_link from="C1" to="O6" from_replace="O1" bond_order="1" />
            <residue_link from="9" to="8">
                <atom_link from="C1" to="O3" from_replace="O1" bond_order="1" />
            <residue_link from="10" to="8">
                <atom_link from="C1" to="O6" from_replace="O1" bond_order="1" />

So far I've been trivially able to get all the residue fields and written them to XML. But I'm having trouble even writing pseudo code for the residue_link fields. Even if I can just get help and ideas on how to go about adding the linkage information in the xml I would appreciate it.

share|improve this question
I think you are missing a curly bracket. Can you use code formatting, new lines and indentation for a better visual explanation of the source text? –  Udi Jul 7 '11 at 19:47
What does [] stand for? –  Udi Jul 7 '11 at 19:48
Sure, I apologize for the eye pain. –  arkestra Jul 7 '11 at 20:16
Udi the [] at the front don't usually matter. Sometimes it contains the amino acid that the sugar structure is linked to on a protein. –  arkestra Jul 7 '11 at 20:21
Tip: If you can change your source syntax, some brackets are redundant: change any [(...)][...] to (...)[....] –  Udi Jul 8 '11 at 6:56

1 Answer 1

Okay! Cool problem, it hurts my brain in a good way.

First... for my sanity I tabbed your raw data into a way that makes sense:

[][b-D-GlcpNAc] {
    [(4+1)][b-D-GlcpNAc] {
        [(4+1)][b-D-Manp] {
            [(3+1)][a-D-Manp] {
                [(2+1)][a-D-Manp] { }
            [(6+1)][a-D-Manp] {
                [(3+1)][a-D-Manp] { }
                [(6+1)][a-D-Manp] { }   

I think that the key to this is figuring out what the pairs are, and you want to programmatically figure out what level you're on.


hierarchy = 0
nextChar = getNextChar()
while (Parsing):
    if (nextChar = "{"):
        hierarchy += 1
    elif (nextChar = "}"):
        hierarchy -= 1
    if (nextChar = "["):

You'd also want to keep track of which sugar is the previous "parent" sugar.

share|improve this answer
hm...so I have something like this set up. Let me think more about your suggestion. I should be able to figure out a way to implement this. Thank you. –  arkestra Jul 7 '11 at 20:16

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.