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I'm looking for a very fast XML parser for Delphi, for very simple data.

Consider the following kind of data:


Copy this 10000 times (datatypes and the data being obviously different in a real scenario). Consider also the data contains Unicode.

This will be parsed and loaded into an Array of records like

Type MyData = record
  d16,d17,d18,d19,d20: string;

I wrote a custom parser for this, which in my computer takes approx. 115ms for the entire process, from loading the file to having the 10,000 records filled.

So I am looking for something that can accomplish this faster.

Related questions:

Delphi - Perform Pos() within utf8 string boundaries

Delphi - Pos() with boundaries

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closed as not a real question by Rob Kennedy, David Heffernan, Jens Björnhager, nrz, RRUZ Jan 5 '13 at 21:26

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

How are you testing this, and how fast do you want it? I mean, 115ms is pretty good even if you're simply READING 8Mb from disk, doing nothing to the 8Mb. What good would it do you if you'd be able to parse faster then the HDD can read? – Cosmin Prund Jan 5 '13 at 19:08
The times are like this: Load from disk as an Unicode string: 26ms, parse node boundaries: 7ms, load nodes and fill the data records: 76ms. This is in a i5 4Ghz computer, loading the XML file from a ramdisk. The disk loading part does not have any implications here however, I need the parsing process improved. – hikari Jan 5 '13 at 19:15
"load nodes" (c) do you need to load nodes? seems you should use SAX model parser, without "real loading" nodes as DOM-model parser does. Anyway, as for me, 155ms is a very good speed. You can try OmniXML or NativeXML parsers, but I don't know if they implement SAX-model – teran Jan 5 '13 at 19:35
This is not a real question. You're not asking people to improve your code since you haven't shown it. You're maybe asking people to invent new code that beats your hidden code, but you haven't provided a spec beyond staying that it needs to parse XML, but if that's the best you can describe, then there are already XML libraries out there, and there's no sense trying to make a new one just to answer this question. Profile your code and improve it yourself. – Rob Kennedy Jan 5 '13 at 19:52
You provided an example, but then you've said the nodes can differ. How, exactly? If you can't say, then you must assume full XML. If you can be more specific, then you can get a more specialized parser that isn't really XML, but merely XML-like. If that's your need, though, then the question is too localized; nobody else will be interested in having a parser for your special format. – Rob Kennedy Jan 5 '13 at 20:00

3 Answers 3

up vote 8 down vote accepted

First let me tell you that you're optimizing the wrong thing here: unless you're doing this for recreational purposes, then your approach is wrong. XML is not a difficult format but it does have it quirks and it takes it's liberties. It's a format designed for data exchange between foreign applications, so the emphasis needs to be put on COMPATIBILITY, not on SPEED! What good is a non-standard ultra-fast parser that gives the wrong result when confronted with a slightly altered XML file?

If you can find a XML parsing LIBRARY that's guaranteed to be compatible with anything out there that can parse your data at HALF the speed your HDD can read it, then simply implement a producer-consumer multi-threaded application where one thread constantly reads the data from disk while the other two simply do the parsing. In the end you'll only be limited by the speed of the HDD while maintaining compatibility. If you're only looking for speed you're liable to make mistakes, skip XML features, depend on certain particularities of the sample XML file you're dealing with. Your application is likely to break for numerous reasons.

Remember that the most costly cycle for an application is MAINTENANCE, not production. What you might gain today by making a 50% faster thingy that's 200% percent more difficult to maintain will be lost in a year or so, when computers get 50% faster (nulling your edge over the competition). Besides, there's no point in exceeding natural limits for such processes, like the speed of the HDD. It's irrelevant that you're testing with a file from a RAM-drive - when the application goes into production it will be used with files from a HDD, and your application's performance will be limited by the speed of your HDD.

Anyhow, I do like a challenge once in a while and I really like parsers. What follows is a very simple parser implementation that only looks at each character in the input string once and only copies stuff where needed: copies the name of the nodes in order to decide what to do next and copies the node's "Payload" when appropriate, in order to push it into the array. On my "modest" i7 @ 3.4 Ghz parsing a string built by copying your sample data 10,000 times takes 63 ms. It clearly beats your time, BUT a word of warning, this code is fragile: it depends on having a XML file that's a certain form. No way around that.

program Project28;


uses SysUtils, DateUtils, Windows;

const SampleData =
    '  <datatype1>randomdata</datatype1>'#13#10+
    '  <datatype2>randomdata</datatype2>'#13#10+
    '  <datatype3>randomdata</datatype3>'#13#10+
    '  <datatype4>randomdata</datatype4>'#13#10+
    '  <datatype5>randomdata</datatype5>'#13#10+
    '  <datatype6>randomdata</datatype6>'#13#10+
    '  <datatype7>randomdata</datatype7>'#13#10+
    '  <datatype8>randomdata</datatype8>'#13#10+
    '  <datatype9>randomdata</datatype9>'#13#10+
    '  <datatype10>randomdata</datatype10>'#13#10+
    '  <datatype11>randomdata</datatype11>'#13#10+
    '  <datatype12>randomdata</datatype12>'#13#10+
    '  <datatype13>randomdata</datatype13>'#13#10+
    '  <datatype14>randomdata</datatype14>'#13#10+
    '  <datatype15>randomdata</datatype15>'#13#10+
    '  <datatype16>randomdata</datatype16>'#13#10+
    '  <datatype17>randomdata</datatype17>'#13#10+
    '  <datatype18>randomdata</datatype18>'#13#10+
    '  <datatype19>randomdata</datatype19>'#13#10+
    '  <datatype20>randomdata</datatype20>'#13#10+
const NodeIterations = 10000;

  TDummyRecord = record
    D1, D2, D3, D4, D5, D6, D7, D8, D9, D10, D11, D12, D13,
      D14, D15, D16, D17, D18, D19, D20: string;
  TDummyRecordArray = array[1..NodeIterations] of TDummyRecord;

procedure ParseDummyXMLToRecordArray(const InputText:string; var A: TDummyRecordArray);
var PInputText: PChar;
    cPos, TextLen: Integer;
    C: Char;
    State: Integer;

    tag_starts_at: Integer;
    last_payload_starts_at: Integer;
    FlagEndTag: Boolean;

    NodeName, Payload: string;

    cNode: Integer;

const st_not_in_node = 1;
      st_in_node = 2;
  cPos := 1;
  TextLen := Length(InputText);
  PInputText := @InputText[1];
  State := st_not_in_node;
  last_payload_starts_at := 1;
  cNode := 0;

  // This is the lexer/parser loop. It's a finite-state machine with only
  // two states: st_not_in_node and st_in_node
  while cPos < TextLen do
    C := PInputText[cPos-1];
    case State of

      // What happens when we're NOT currently inside a node?
      // Not much. We only jump to st_in_node if we see a "<"
        case C of
              // A node starts here. Switch state and set up some simple
              // flags.
              state := st_in_node;
              tag_starts_at := cPos + 1;
              FlagEndTag := False;

      // What happens while inside a node? Again, not much. We only care about
      // the "/" - as it signals an closing tag, and we only care about the
      // ">" because that means the end of the ndoe.
        case C of
          '/': FlagEndTag := True;
              // This is where the magic haepens. We're in one of possibly two states:
              // We're ither seeing the first <name> of a pair, or the second </name>
              if FlagEndTag then
                  // This is the closing pair of a tag pair, ie, it's the </NodeName> What we'll do
                  // depends on what node is closing, so we retreive the NodeName:
                  NodeName := System.Copy(InputText, tag_starts_at+1, cPos - tag_starts_at-1);
                  if NodeName <> 'node' then // SAMPLE-DATA-SPECIFIC: I know I don't care about "node" tags.
                    // SAMPLE-DATA-SPECIFIC: I know there are only two kinds of nodes:
                    // "node" and "datatypeN". I retreive the PAYLOAD for the node because
                    // I know it's not "ndoe" and I know I'll need it.
                    Payload := System.Copy(InputText,last_payload_starts_at, tag_starts_at - last_payload_starts_at -1);
                    // Make sure we're dealing with a valid node
                    if (cNode > 0) and (cNode <= High(A)) then
                        // Based on NodeName, copy the Payload into the appropriate field.
                        if NodeName = 'datatype1' then A[cNode].D1 := Payload
                        else if NodeName = 'datatype2' then A[cNode].D2 := Payload
                        else if NodeName = 'datatype3' then A[cNode].D3 := Payload
                        else if NodeName = 'datatype4' then A[cNode].D4 := Payload
                        else if NodeName = 'datatype5' then A[cNode].D5 := Payload
                        else if NodeName = 'datatype6' then A[cNode].D6 := Payload
                        else if NodeName = 'datatype7' then A[cNode].D7 := Payload
                        else if NodeName = 'datatype8' then A[cNode].D8 := Payload
                        else if NodeName = 'datatype9' then A[cNode].D9 := Payload
                        else if NodeName = 'datatype10' then A[cNode].D10 := Payload
                        else if NodeName = 'datatype11' then A[cNode].D11 := Payload
                        else if NodeName = 'datatype12' then A[cNode].D12 := Payload
                        else if NodeName = 'datatype13' then A[cNode].D13 := Payload
                        else if NodeName = 'datatype14' then A[cNode].D14 := Payload
                        else if NodeName = 'datatype15' then A[cNode].D15 := Payload
                        else if NodeName = 'datatype16' then A[cNode].D16 := Payload
                        else if NodeName = 'datatype17' then A[cNode].D17 := Payload
                        else if NodeName = 'datatype18' then A[cNode].D18 := Payload
                        else if NodeName = 'datatype19' then A[cNode].D19 := Payload
                        else if NodeName = 'datatype20' then A[cNode].D20 := Payload
                          raise Exception.Create('Unknown node: ' + NodeName);
                      raise Exception.Create('cNode out of bounds.');
                  // Repeat :-)
                  state := st_not_in_node;
                  // Node start. Retreive node name. I only care about the start of the "NODE" - if I see that
                  // I'll increment the current node counter so I'll go on filling the next position in the array
                  // with whatever I need.
                  NodeName := System.Copy(InputText, tag_starts_at, cPos - tag_starts_at);
                  last_payload_starts_at := cPos+1;
                  if NodeName = 'node' then Inc(cNode);
                  state := st_not_in_node;

var DataString: string;
    SB: TStringBuilder;
    i: Integer;
    DummyArray: TDummyRecordArray;
    T1, T2, F: Int64;

      // Prepare the sample string; 10.000 iterations of the sample data.
      SB := TStringBuilder.Create;
        for i:=1 to NodeIterations do
        DataString := SB.ToString;
      finally SB.Free;

      // Invoke the simple parser using the string constant.

      ParseDummyXMLToRecordArray(DataString, DummyArray);

      WriteLn(((T2-T1) * 1000) div F);

      // Test parse validity.
      for i:=1 to NodeIterations do
        if DummyArray[i].D1 <> 'randomdata' then raise Exception.Create('Bug. D1 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D2 <> 'randomdata' then raise Exception.Create('Bug. D2 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D3 <> 'randomdata' then raise Exception.Create('Bug. D3 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D4 <> 'randomdata' then raise Exception.Create('Bug. D4 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D5 <> 'randomdata' then raise Exception.Create('Bug. D5 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D6 <> 'randomdata' then raise Exception.Create('Bug. D6 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D7 <> 'randomdata' then raise Exception.Create('Bug. D7 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D8 <> 'randomdata' then raise Exception.Create('Bug. D8 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D9 <> 'randomdata' then raise Exception.Create('Bug. D9 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D10 <> 'randomdata' then raise Exception.Create('Bug. D10 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D11 <> 'randomdata' then raise Exception.Create('Bug. D11 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D12 <> 'randomdata' then raise Exception.Create('Bug. D12 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D13 <> 'randomdata' then raise Exception.Create('Bug. D13 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D14 <> 'randomdata' then raise Exception.Create('Bug. D14 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D15 <> 'randomdata' then raise Exception.Create('Bug. D15 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D16 <> 'randomdata' then raise Exception.Create('Bug. D16 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D17 <> 'randomdata' then raise Exception.Create('Bug. D17 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D18 <> 'randomdata' then raise Exception.Create('Bug. D18 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D19 <> 'randomdata' then raise Exception.Create('Bug. D19 doesn''t have the proper value, i=' + IntToStr(i));
        if DummyArray[i].D20 <> 'randomdata' then raise Exception.Create('Bug. D20 doesn''t have the proper value, i=' + IntToStr(i));

    except on E: Exception do Writeln(E.ClassName, ': ', E.Message);
    WriteLn('ENTER to Exit');
share|improve this answer
I aim to achieve a bit of both :) Your code in my computer executes in ~40ms for the parsing block (around 80 in mine), yours is more like a serial parser I guess. It doesn't fit well to apply in different/generic scenarios, as here we know exactly what the subnodes names are, but it could be adapted to trigger an event outside the parser, providing the app with a node number, the subnode name and its data, then the app do the job to assign it to whichever record it has. The approach in my parser is a bit more generic, sampling the file to gather node boundaries/pointers, then performs – hikari Jan 5 '13 at 20:58
subnode data requests on a selected node, example parse code: it supports also the CDATA tag in the payload being taken into account. – hikari Jan 5 '13 at 20:59
It may seem a bit too specific data, but this format is very common to a lot of web services using RESTful apis, RSS feeds, etc. – hikari Jan 5 '13 at 21:01
@hikari, XML is not a database, you don't Query it - you parse and then you're done with it. If you need complex Queries then you parse it, put the data into appropriate data structures and then you query those data structures. You keep justifying your own way of doing things, but unfortunately you're wrong on multiple levels: You shouldn't write your own parser, if you do parse you should aim for an O(n) algorithm (ie: no iterations), and you shouldn't query XML. You shouldn't even consider Assembler [...] – Cosmin Prund Jan 5 '13 at 21:06
[..] Try asking some questions about the most effective way of using existing libraries. For example your attempt to use NativeXml, the one you posted in the comments section, is far from effective - because of the use of NodeByName. If you made similar mistakes with other libraries then no surprise your code seems so fast. I'm all for writing Parsers and re-inventing the wheel, but if you do, do it right. Start reading stuff about compiler theory, parser generators, etc. Look into the GOLD Parser Generator, it's fairly nice. Using Pos() and substring manipulation is a naive implementation – Cosmin Prund Jan 5 '13 at 21:11

If your XML is that easy, and format is fixed, and file is that big, and you need really fast processing, I would recommend to implement parsing by yourself, with simple while (i < length(unputStr)) do cycle. There you can search for '<' symbol, extract node names, etc, etc.

share|improve this answer
I'm already using my own parser, but I want something faster. The node elements are not fixed however, both the root nodes and the subnodes under it have different values in different XML files. – hikari Jan 5 '13 at 19:22
You can extract there names in your parser. Anyway, every XML parser would be slower than own parser, which pre-knows file structure. – Nickolay Olshevsky Jan 5 '13 at 19:33
+1. The fastest way is to treat as a string and not try to load into an XML document. Use pointers into the buffer, if that's not fast enough. Convert to Assembler if that's not fast enough. – Chris Thornton Jan 5 '13 at 20:28
+1 on the comment of the parser already knowing the file structure. If the XML structure is extremely straight-forward and you always know what nodes, properties, and data is coming up, then you may be better off with your own parser, as far as speed of reading the data. But as everyone keep saying, even if you can get it down to 0.0001 msec, you still have the issue of HDD speed, or speed of whatever means you're loading that XML data. – Jerry Dodge Jan 7 '13 at 16:32

Use an XML parser written in C++ such as RapidXml. If you need help referencing C++ DLL's then I found this link helpful.

I don't think you're going to get any faster than this!

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Delphi can't use C++ based libraries. It can use C based libraries instead. LibXML2 is one of the best C based XML libraries around, is standards compliant, supports DOM and SAX parsing, and has a Pascal binding that is compatible with Delphi. – Remy Lebeau Jan 6 '13 at 0:08

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