PEGKit is a 'Parsing Expression Grammar' toolkit for iOS and OS X written by Todd Ditchendorf in Objective-C and released under the MIT Open Source License.
Always use the Xcode Workspace PEGKit.xcworkspace, NOT the Xcode Project.
This project includes TDTemplateEngine as a Git Submodule. So proper cloning of this project requires the --recursive argument:
git clone --recursive git@github.com:itod/pegkit.git
PEGKit is heavily influenced by ANTLR by Terence Parr and "Building Parsers with Java" by Steven John Metsker.
The PEGKit Framework offers 2 basic services of general interest to Cocoa developers:
- String Tokenization via the Objective-C
PKTokenizerandPKTokenclasses. - Objective-C parser generation via grammars - Generate source code for an Objective-C parser class from simple, intuitive, and powerful BNF-style grammars (similar to yacc or ANTLR). While parsing, the generated parser will provide callbacks to your Objective-C delegate.
The PEGKit source code is available on Github.
A tutorial for using PEGKit in your iOS applications is available on GitHub.
##History
PEGKit is a re-write of an earlier framework by the same author called ParseKit. ParseKit should generally be considered deprecated, and PEGKit should probably be used for all future development.
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ParseKit produces dynamic, non-deterministic parsers at runtime. The parsers produced by ParseKit exhibit poor (exponential) performance characteristics -- although they have some interesting properties which are useful in very rare circumstances.
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PEGKit produces static ObjC source code for deterministic (PEG) memoizing parsers at design time which you can then compile into your project. The parsers produced by PEGKit exhibit good (linear) performance characteristics.
##Documentation
####Basic Usage of PKTokenizer
PEGKit provides general-purpose string tokenization services through the PKTokenizer and PKToken classes. Cocoa developers will be familiar with the NSScanner class provided by the Foundation Framework which provides a similar service. However, the PKTokenizer class is much easier to use for many common tokenization tasks, and offers powerful configuration options if the default tokenization behavior doesn't match your needs.
| PKTokenizer |
|---|
|
+ (id)tokenizerWithString:(NSString *)s;
- (PKToken *)nextToken; |
To use PKTokenizer, provide it with an NSString object and retrieve a series of PKToken objects as you repeatedly call the -nextToken method. The EOFToken singleton signals the end.
NSString *s = @"2 != -47. /* comment */ Blast-off!! 'Woo-hoo!' //comment";
PKTokenizer *t = [PKTokenizer tokenizerWithString:s];
PKToken *eof = [PKToken EOFToken];
PKToken *tok = nil;
while (eof != (tok = [t nextToken])) {
NSLog(@"(%@) (%.1f) : %@", tok.stringValue, tok.floatValue, [tok debugDescription]);
}Outputs:
(2) (2.0) : <Number «2»>
(!=) (0.0) : <Symbol «!=»>
(-47) (-47.0) : <Number «-47»>
(.) (0.0) : <Symbol «.»>
(Blast-off) (0.0) : <Word «Blast-off»>
(!) (0.0) : <Symbol «!»>
(!) (0.0) : <Symbol «!»>
('Woo-hoo!') (0.0) : <Quoted String «'Woo-hoo!'»>Each PKToken object returned has a stringValue, a floatValue and a tokenType. The tokenType is and enum value type called PKTokenType with possible values of:
-
PKTokenTypeWord -
PKTokenTypeNumber -
PKTokenTypeQuotedString -
PKTokenTypeSymbol -
PKTokenTypeWhitespace -
PKTokenTypeComment -
PKTokenTypeDelimitedString
PKTokens also have corresponding BOOL properties for convenience (isWord, isNumber, etc.)
| PKToken |
|---|
|
+ (PKToken *)EOFToken;
@property (readonly) PKTokenType tokenType;
@property (readonly) CGFloat floatValue;
@property (readonly) BOOL isNumber;
… |
####Default Behavior of PKTokenizer
The default behavior of PKTokenizer is correct for most common situations and will fit many tokenization needs without additional configuration.
#####Number
Sequences of digits («2» «42» «1054») are recognized as Number tokens. Floating point numbers containing a dot («3.14») are recognized as single Number tokens as you'd expect (rather than two Number tokens separated by a «.» Symbol token). By default, PKTokenizer will recognize a «-» symbol followed immediately by digits («-47») as a number token with a negative value. However, «+» characters are always seen as the beginning of a Symbol token by default, even when followed immediately by digits, so "explicitly-positive" Number tokens are not recognized by default (this behavior can be configured, see below).
#####Symbol
Most symbol characters («.» «!») are recognized as single-character Symbol tokens (even when sequential such as «!»``«!»). However, notice that PKTokenizer recognizes common multi-character symbols («!=») as a single Symbol token by default. In fact, PKTokenizer can be configured to recognize any given string as a multi-character symbol. Alternatively, it can be configured to always recognize each symbol character as an individual Symbol token (no multi- character symbols). The default multi-character symbols recognized by PKTokenizer are: «<=», «>=», «!=», «==».
#####Word
«Blast-off» is recognized as a single Word token despite containing a symbol character («-») that would normally signal the start of a new Symbol token. By default, PKTokenzier allows Word tokens to contain (but not start with) several symbol and number characters: «-», «_», «'», «0»-«9». The consequence of this behavior is that PKTokenizer will recognize the following strings as individual Word tokens by default: «it's», «first_name», «sat-yr-9» «Rodham-Clinton». Again, you can configure PKTokenizer to alter this default behavior.
#####Quoted String
PKTokenizer produces Quoted String tokens for substrings enclosed in quote delimiter characters. The default delimiters are single- or double-quotes («'» or «"»). The quote delimiter characters may be changed (see below), but must be a single character. Note that the stringValue of Quoted String tokens include the quote delimiter characters («'Woo-hoo!'»).
#####Whitespace
By default, whitespace characters are silently consumed by PKTokenizer, and Whitespace tokens are never emitted. However, you can configure which characters are considered whitespace characters or even ask PKTokenizer to return Whitespace tokens containing the literal whitespace stringValues by setting: t.whitespaceState.reportsWhitespaceTokens = YES.
#####Comment
By default, PKTokenizer recognizes C-style («//») and C++-style («/*» «*/») comments and silently removes the associated comments from the output rather than producing Comment tokens. See below for steps to either change comment delimiting markers, report Comment tokens, or to turn off comments recognition altogether.
#####Delimited String
The Delimited String token type is a powerful feature of PEGKit which can be used much like a regular expression. Use the Delimited String token type to ask PKTokenizer to recognize tokens with arbitrary start and end symbol strings much like a Quoted String but with more power:
- The start and end symbols may be multi-char (e.g.
«<#»«#>») - The start and end symbols need not match (e.g.
«<?=»«?>») - The characters allowed within the delimited string may be specified using an NSCharacterSet
####Customizing PKTokenizer behavior
There are two basic types of decisions PKTokenizer must make when tokenizing strings:
- Which token type should be created for a given start character?
- Which characters are allowed within the current token being created?
PKTokenizer's behavior with respect to these two types of decisions is totally
configurable. Let's tackle them, starting with the second question first.
#####Changing which characters are allowed within a token of a particular type
Once PKTokenizer has decided which token type to create for a given start character (see below), it temporarily passes control to one of its "state" helper objects to finish consumption of characters for the current token. Therefore, the logic for deciding which characters are allowed within a token of a given type is controlled by the "state" objects which are instances of subclasses of the abstract PKTokenizerState class: PKWordState, PKNumberState, PKQuoteState, PKSymbolState, PKWhitespaceState, PKCommentState, and PKDelimitState. The state objects are accessible via properties of the PKTokenizer object.
| PKTokenizer |
|---|
|
… |
Some of the PKTokenizerState subclasses have methods that alter which characters are allowed within tokens of their associated token type.
For example, if you want to add a new multiple-character symbol like «===»:
…
PKTokenizer *t = [PKTokenizer tokenizerWithString:s];
[t.symbolState add:@"==="];
…Now «===» strings will be recognized as a single Symbol token with a stringValue of «===». There is a corresponding -[PKSymbolState remove:] method for removing recognition of given multi-char symbols.
If you don't want to allow digits within Word tokens (digits are allowed within Words by default):
…
[t.wordState setWordChars:NO from:'0' to:'9'];
…Say you want to allow floating-point Number tokens to end with a «.», sans trailing «0». In other words, you want «49.» to be recognized as a single Number token with a floatValue of «49.0» rather than a Number token followed by a Symbol token with a stringValue of «.»:
…
t.numberState.allowsTrailingDot = YES;
…Recognition of scientific notation (exponential numbers) can be enabled to recognize numbers like «10e+100», «6.626068E-34» and «6.0221415e23». The resulting PKToken objects will have floatValues which represent the full value of the exponential number, yet retain the original exponential representation as their stringValues.
…
t.numberState.allowsScentificNotation = YES;
…Similarly, recognition of common octal and hexadecimal number notation can be enabled to recognize numbers like «020» (octal 16) and «0x20» (hex 32).
…
t.numberState.allowsOctalNotation = YES;
t.numberState.allowsHexadecimalNotation = YES;
…The resulting PKToken objects will have a tokenType of PKTokenTypeNumber and a stringValue matching the original source notation («020» or «0x20»). Their floatValues will represent the normal decimal value of the number (in this case 16 and 32).
You can also configure which characters are recognized as whitespace within a whitespace token. To treat digits as whitespace characters within whitespace tokens:
…
[t.whitespaceState setWhitespaceChars:YES from:'0' to:'9'];
…By default, whitespace chars are silently consumed by a tokenizer's PKWhitespaceState. To force reporting of PKTokens of type PKTokenTypeWhitespace containing the encountered whitespace chars as their stringValues (e.g. this would be necessary for a typical XML parser in which significant whitespace must be reported):
…
t.whitespaceState.reportsWhitespaceTokens = YES;
…Similarly, comments are also silently consumed by default. To report Comment tokens instead:
…
t.commentState.reportsCommentTokens = YES;
…#####Changing which token type is created for a given start character
PKTokenizer controls the logic for deciding which token type should be created
for a given start character before passing the responsibility for completing
tokens to its "state" helper objects. To change which token type is created
for a given start character, you must call a method of the PKTokenizer object
itself: -[PKTokenizer setTokenizerState:from:to:].
| PKTokenizer |
|---|
|
… - (void)setTokenizerState:(PKTokenizerState *)state
from:(PKUniChar)start
to:(PKUniChar)end;
… |
For example, suppose you want to turn off support for Number tokens altogether. To recognize digits as signaling the start of Word tokens:
…
PKTokenizer *t = [PKTokenizerWithString:s];
[t setTokenizerState:t.wordState from:'0' to:'9'];
…This will cause PKTokenizer to begin creating a Word token (rather than a Number token) whenever a digit («0», «1», «2», «3»,«4», «5», «6», «7», «8», «9», «0» ) is encountered.
As another example, say you want to add support for new Quoted String token delimiters, such as «#». This would cause a string like #oh hai# to be recognized as a Quoted String token rather than a Symbol, two Words, and a Symbol. Here's how:
…
[t setTokenizerState:t.quoteState from:'#' to:'#'];
…Note that if the from: and to: arguments are the same char, only behavior for that single char is affected.
Alternatively, say you want to recognize «+» characters followed immediately by digits as explicitly positive Number tokens rather than as a Symbol token followed by a Number token:
…
[t setTokenizerState:t.numberState from:'+' to:'+'];
…Finally, customization of comments recognition may be necessary. By default, PKTokenizer passes control to its commentState object which silently consumes the comment text found after «//» or between «/*» «*/». This default behavior is achieved with the sequence:
…
[t setTokenizerState:t.commentState from:'/' to:'/'];
[t.commentState addSingleLineStartSymbol:@"//"];
[t.commentState addMultiLineStartSymbol:@"/*" endSymbol:@"*/"];
…To recognize single-line comments starting with #:
…
[t setTokenizerState:t.commentState from:'#' to:'#'];
[t.commentState addSingleLineStartSymbol:@"#"];
…To recognize multi-line "XML"- or "HTML"-style comments:
…
[t setTokenizerState:t.commentState from:'<' to:'<'];
[t.commentState addMultiLineStartSymbol:@"<!--" endSymbol:@"-->"];
…To disable comments recognition altogether, tell PKTokenizer to pass control to its symbolState instead of its commentState.
…
[t setTokenizerState:t.symbolState from:'/' to:'/'];
…Now PKTokenizer will return individual Symbol tokens for all «/» and «*» characters, as well as any other characters set as part of a comment start or end symbol.
####Discard directive
The post-fix ! operator can be used to discard a token which is not needed to compute a result.
Example:
addExpr = atom ('+'! atom)*;
atom = Number;
The + token will not be necessary to calculate the result of matched addition expressions, so we can discard it.
Actions are small pieces of Objective-C source code embedded directly in a PEGKit grammar rule. Actions are enclosed in curly braces and placed after any rule reference.
In any action, there is a self.assembly object available (of type PKAssembly) which serves as a stack (via the PUSH() and POP() convenience macros). The assembly's stack contains the most recently parsed tokens (instances of PKToken), and also serves as a place to store your work as you compute the result.
Actions are executed immediately after their preceding rule reference matches. So tokens which have recently been matched are available at the top of the assembly's stack.
Example 1:
// matches addition expressions like `1 + 3 + 4`
addExpr = atom plusAtom*;
plusAtom = '+'! atom
{
PUSH_DOUBLE(POP_DOUBLE() + POP_DOUBLE());
};
atom = Number
{
// pop the double value of token on the top of the stack
// and push it back as a double value
PUSH_DOUBLE(POP_DOUBLE());
};
Example 2:
// matches or expressions like `foo or bar` or `foo || bar || baz`
orExpr = item (or item {
id rhs = POP();
id lhs = POP();
MyOrNode *orNode = [MyOrNode nodeWithChildren:lhs, rhs];
PUSH(orNode);
})*;
or = 'or'! | '||'!;
item = Word;
@before- setup code goes here. executed before parsing of this rule begins.@after- tear down code goes here. executed after parsing of this rule ends.
Rule actions are placed inside a rule -- after the rule name, but before the = sign.
Example:
// matches things like `-1` or `---1` or `--------1`
@extension { // this is a "Grammar Action". See below.
@property (nonatomic) BOOL negative;
}
unaryExpr
@before { _negative = NO; }
@after {
double d = POP_DOUBLE();
d = (_negative) ? -d : d;
PUSH_DOUBLE(d);
}
= ('-'! { _negative = !_negative; })+ num;
num = Number;
####Grammar Actions PEGKit has a feature inspired by ANTLR called "Grammar Actions". Grammar Actions are a way to do exactly what you are looking for: inserting arbitrary code in various places in your Parser's .h and .m files. They must be placed at the top of your grammar before any rules are listed.
Here are all of the Grammar Actions currently available, along with a description of where their bodies are inserted in the source code of your generated parser:
#####In the .h file:
@h- top of .h file@interface- inside the@interfaceportion of header
#####In the .m file:
@m- top of .m file@extension- inside a private@interface MyParser ()class extension in the .m file@ivars- private ivars inside the@implementation MyParser {}in the .m file@implementation- inside your parser's@implementation. A place for defining methods.@init- inside your parser'sinitmethod@dealloc- inside your parser'sdeallocmethod if ARC is not enabled@before- setup code goes here. executed before parsing begins.@after- tear down code goes here. executed after parsing ends.
(notice that the @before and @after Grammar Actions listed here are distinct from the @before and @after which may also be placed in each individual rule.)
####Semantic Predicates Semantic Predicates are another feature lifted directly from ANTLR. Consider:
lowercaseWord = { islower([LS(1) characterAtIndex:0]) }? Word;
The Semantic Predicate part is the { ... }?. Like Grammar Actions, Semantic Predicates are small snippets of Objective-C code embedded directly in your grammar. These can be placed anywhere in your grammar rules. They should contain either a single expression or a series of statements ending in a return statement which evaluates to a boolean value. This one contains a single expression. If the expression evaluates to false, matching of the current rule (lowercaseWord in this case) will fail. A true value will allow matching to proceed.
There are also a number of convenience macros defined for your use in Predicates and Actions.
-
LS(num)will fetch a Lookahead String and the argument specifies how far to lookahead. SoLS(1)means lookahead by1. In other words, "fetch the string value of the first upcoming token the parser is about to try to match". -
MATCHES_IGNORE_CASE(str, regexPattern)is a convenience macro to do regex matches. It has a case-sensitive friend:MATCHES(str, regexPattern). The second argument is anNSString*regex pattern. Meaning should be obvious.