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parse::eyapp::treeregexp(3) [osx man page]

Parse::Eyapp::Treeregexp(3)				User Contributed Perl Documentation			       Parse::Eyapp::Treeregexp(3)

NAME
Parse::Eyapp::Treeregexp - Tree transformations SYNOPSIS
use strict; use Parse::Eyapp; use Parse::Eyapp::Treeregexp; my $grammar = q{ %right '=' %left '-' '+' %left '*' '/' %left NEG %tree %{ use Tail2; # See file examples/Tail2.pm in the distribution %} %% block: exp <%name BLOCK + ';'> { $_[1] } ; exp: %name NUM NUM | %name WHILE 'while' exp '{' block '}' | %name VAR VAR | %name ASSIGN VAR '=' exp | %name PLUS exp '+' exp | %name MINUS exp '-' exp | %name TIMES exp '*' exp | %name DIV exp '/' exp | %name UMINUS '-' exp %prec NEG | '(' exp ')' { $_[2] } /* Let us simplify a bit the tree */ ; %% }; # end grammar sub TERMINAL::info { $_[0]{attr} } $Parse::Eyapp::Node::INDENT = 2; our (@all,$moveinvariant, $condition, $assign, $before, $after); Parse::Eyapp->new_grammar( input=>$grammar, classname=>'Rule6', firstline=>7, ); my $parser = Rule6->new(); my $program = "a =1000; c = 1; while (a) { c = c*a; b = 5; a = a-1 } "; my $t = $parser->Run($program); my @output = split / /, $t->str; my $p = Parse::Eyapp::Treeregexp->new( STRING => q{ moveinvariant: BLOCK( @prests, WHILE(VAR($b), BLOCK(@a, ASSIGN($x, NUM($e)), @c)), @possts ) => { my $assign = $ASSIGN; $BLOCK[1]->delete($ASSIGN); $BLOCK[0]->insert_before($WHILE, $assign); } }, ); $p->generate(); $moveinvariant->s($t); my @output2 = split / /, $t->str; my ($node1, $node2); format STDOUT_TOP = PROGRAM ------------------------------------------------------- @|||||||||||||||||||||||||||||||||||||||||||||||||||||| $program ------------------------------------------------------- Before | After ---------------------------|--------------------------- . format STDOUT = @<<<<<<<<<<<<<<<<<<<<<<<<<<@|@<<<<<<<<<<<<<<<<<<<<<<<<< $node1, '|',$node2 . for (1..$#output) { $node1 = $output[$_]; $node2 = $output2[$_]; write; } Introduction The example in the SYNOPSIS section uses "Parse::Eyapp" to build an abstract syntax tree for the program my $program = "a =1000; c = 1; while (a) { c = c*a; b = 5; a = a-1 } "; The tree is transformed using the transformation "moveinvariant": my $p = Parse::Eyapp::Treeregexp->new( STRING => q{ moveinvariant: BLOCK( @prests, WHILE(VAR($b), BLOCK(@a, ASSIGN($x, NUM($e)), @c)), @possts ) => { my $assign = $ASSIGN; $BLOCK[1]->delete($ASSIGN); $BLOCK[0]->insert_before($WHILE, $assign); } }, ); The output shows the original tree versus the transformed tree: pl@nereida:~/LEyapp/examples$ moveinvariantoutofloopcomplexformula.pl PROGRAM ------------------------------------------------------- ------------------------------------------------------- Before | After ---------------------------|--------------------------- BLOCK( | BLOCK( ASSIGN( | ASSIGN( TERMINAL[a], | TERMINAL[a], NUM( | NUM( TERMINAL[1000] | TERMINAL[1000] ) | ) ) # ASSIGN, | ) # ASSIGN, ASSIGN( | ASSIGN( TERMINAL[c], | TERMINAL[c], NUM( | NUM( TERMINAL[1] | TERMINAL[1] ) | ) ) # ASSIGN, | ) # ASSIGN, WHILE( | ASSIGN( VAR( | TERMINAL[b], TERMINAL[a] | NUM( ), | TERMINAL[5] BLOCK( | ) ASSIGN( | ) # ASSIGN, TERMINAL[c], | WHILE( TIMES( | VAR( VAR( | TERMINAL[a] TERMINAL[c] | ), ), | BLOCK( VAR( | ASSIGN( TERMINAL[a] | TERMINAL[c], ) | TIMES( ) # TIMES | VAR( ) # ASSIGN, | TERMINAL[c] ASSIGN( | ), TERMINAL[b], | VAR( NUM( | TERMINAL[a] TERMINAL[5] | ) ) | ) # TIMES ) # ASSIGN, | ) # ASSIGN, ASSIGN( | ASSIGN( TERMINAL[a], | TERMINAL[a], MINUS( | MINUS( VAR( | VAR( TERMINAL[a] | TERMINAL[a] ), | ), NUM( | NUM( TERMINAL[1] | TERMINAL[1] ) | ) ) # MINUS | ) # MINUS ) # ASSIGN | ) # ASSIGN ) # BLOCK | ) # BLOCK ) # WHILE | ) # WHILE ) # BLOCK | ) # BLOCK The Treeregexp Language A Treeregexp program is made of the repetition of three kind of primitives: The treeregexp transformations, supporting Perl code and Transformation Families. treeregexplist: treeregexp* treeregexp: IDENT ':' treereg ('=>' CODE)? # Treeregexp | CODE # Auxiliar code | IDENT '=' IDENT + ';' # Transformation families Treeregexp themselves follow the rule: IDENT ':' treereg ('=>' CODE)? Several instances of this rule can be seen in the example in the "SYNOPSIS" section. The identifier "IDENT" gives the name to the rule. At the time of this writing (2006) there are the following kinds of treeregexes: treereg: /* tree patterns with children */ IDENT '(' childlist ')' ('and' CODE)? | REGEXP (':' IDENT)? '(' childlist ')' ('and' CODE)? | SCALAR '(' childlist ')' ('and' CODE)? | '.' '(' childlist ')' ('and' CODE)? /* leaf tree patterns */ | IDENT ('and' CODE)? | REGEXP (':' IDENT)? ('and' CODE)? | '.' ('and' CODE)? | SCALAR ('and' CODE)? | ARRAY | '*' Treeregexp rules When seen a rule like zero_times: TIMES(NUM($x), ., .) and { $x->{attr} == 0 } => { $_[0] = $NUM } The Treeregexp translator creates a "Parse::Eyapp:YATW" object that can be later referenced in the user code by the package variable $zero_times. The treeregexp The first part of the rule "TIMES(NUM($x), ., .)" indicates that for a matching to succeed the node being visited must be of "type" "TIMES", have a left child of "type" "NUM" and two more children. If the first part succeeded then the following part takes the control to see if the semantic conditions are satisfied. Semantic condition The second part is optional and must be prefixed by the reserved word "and" followed by a Perl code manifesting the semantic conditions that must be hold by the node to succeed. Thus, in the example: zero_times: TIMES(NUM($x), ., .) and { $x->{attr} == 0 } => { $_[0] = $NUM } the semantic condition "$x->{attr} == 0" states that the value of the number stored in the "TERMINAL" node referenced by $x must be zero. Referencing the matching nodes The node being visited can be referenced/modified inside the semantic actions using $_[0]. The Treeregexp translator automatically creates a set of lexical variables for us. The scope of these variables is limited to the semantic condition and the transformation code. Thus, in the example zero_times: TIMES(NUM($x), ., .) and { $x->{attr} == 0 } => { $_[0] = $NUM } the node being visited $_[0] can be also referenced using the lexical variable $TIMES which is created by he Treeregexp compiler. In the same way a reference to the left child "NUM" will be stored in the lexical variable $NUM and a reference to the child of $NUM will be stored in $x. The semantic condition states that the attribute of the node associated with $x must be zero. When the same type of node appears several times inside the treeregexp part the associated lexical variable is declared by the Treeregexp compiler as an array. This is the case in the "constantfold" transformation in the "SYNOPSIS" example, where there are two nodes of type "NUM": constantfold: /TIMES|PLUS|DIV|MINUS/(NUM($x), ., NUM($y)) => { $x->{attr} = eval "$x->{attr} $W->{attr} $y->{attr}"; $_[0] = $NUM[0]; } Thus variable $NUM[0] references the node that matches the first "NUM" term in the formula and $NUM[1] the one that matches the second. Transformation code The third part of the rule is also optional and comes prefixed by the big arrow "=>". The Perl code in this section usually transforms the matching tree. To achieve the modification of the tree, the Treeregexp programmer must use $_[0] and not the lexical variables provided by the translator. Remember that in Perl $_[0] is an alias of the actual parameter. The "constantfold" example above will not work if we rewrite the code $_[0] = $NUM[0] as { $TIMES = $NUM } Regexp Treeregexes The previous "constantfold" example used a classic Perl linear regexp to explicit that the root node of the matching subtree must match the Perl regexp. The general syntax for "REGEXP" treeregexes patterns is: treereg: REGEXP (':' IDENT)? '(' childlist ')' ('and' CODE)? The "REGEXP" must be specified between slashes (other delimiters as "{}" are not accepted). It is legal to specify options after the second slash (like "e", "i", etc.). The operation of string oriented regexps is slightly modified when they are used inside a treeregexp: by default the option "x" will be assumed. The treeregexp compiler will automatically insert it. Use the new option "X" (upper case X) if you want to suppress such behavior. There is no need also to insert "" word anchors to delimit identifiers: all the identifiers in a regexp treeregexp are automatically surrounded by "". Use the option "B" (upper case B) to suppress this behavior. The optional identifier after the "REGEXP" indicates the name of the lexical variable that will be held a reference to the node whose type matches "REGEXP". Variable $W (or @W if there are more than one REGEXP and or dot treeregexes) will be used instead if no identifier is specified. Scalar Treeregexes A scalar treeregxp is defined writing a Perl scalar inside the treeregexp, like $x in "NUM($x)". A scalar treeregxp immediately matches any node that exists and stores a reference to such node inside the Perl lexical scalar variable. The scope of the variable is limited to the semantic parts of the Treeregexp. Is illegal to use $W or "$W_#num" as variable names for scalar treeregexes. Dot Treeregexes A dot matches any node. It can be seen as an abbreviation for scalar treeregexes. The reference to the matching node is stored in the lexical variable $W. The variable @W will be used instead if there are more than one REGEXP and or dot treeregexes Array Treeregexp Expressions The Treeregexp language permits expressions like: A(@a,B($x),@c) After the matching variable @A contains the shortest prefix of "$A->children" that does not match "B($x)". The variable @c contains the remaining suffix of "$A->children". The following example uses array treereg expressions to move the assignment "b = 5" out of the "while" loop: .. ...................................................................... 93 my $program = "a =1000; c = 1; while (a) { c = c*a; b = 5; a = a-1 } "; 94 $parser->YYData->{INPUT} = $program; 95 my $t = $parser->Run; 96 my @output = split / /, $t->str; 97 98 my $p = Parse::Eyapp::Treeregexp->new( STRING => q{ 99 moveinvariant: BLOCK( 100 @prests, 101 WHILE(VAR($b), BLOCK(@a, ASSIGN($x, NUM($e)), @c)), 102 @possts 103 ) 104 => { 105 my $assign = $ASSIGN; 106 $BLOCK[1]->delete($ASSIGN); 107 $BLOCK[0]->insert_before($WHILE, $assign); 108 } 109 }, 110 FIRSTLINE => 99, 111 ); 112 $p->generate(); Star Treeregexp Deprecated. Don't use it. Is still there but not to endure. Transformation Families Transformations created by "Parse::Eyapp::Treeregexp" can be grouped in families. That is the function of the rule: treeregexp: IDENT '=' IDENT + ';' The next example (file "examples/TSwithtreetransformations3.eyp") defines the family algebraic_transformations = constantfold zero_times times_zero comasocfold; Follows the code: my $transform = Parse::Eyapp::Treeregexp->new( STRING => q{ uminus: UMINUS(., NUM($x), .) => { $x->{attr} = -$x->{attr}; $_[0] = $NUM } constantfold: /TIMES|PLUS|DIV|MINUS/:bin(NUM($z), ., NUM($y)) => { $z->{attr} = eval "$z->{attr} $W->{attr} $y->{attr}"; $_[0] = $NUM[0]; } commutative_add: PLUS($x, ., $y, .) => { my $t = $x; $_[0]->child(0, $y); $_[0]->child(2, $t)} comasocfold: TIMES(DIV(NUM($x), ., $b), ., NUM($y)) => { $x->{attr} = $x->{attr} * $y->{attr}; $_[0] = $DIV; } zero_times: TIMES(NUM($x), ., .) and { $x->{attr} == 0 } => { $_[0] = $NUM } times_zero: TIMES(., ., NUM($x)) and { $x->{attr} == 0 } => { $_[0] = $NUM } algebraic_transformations = constantfold zero_times times_zero comasocfold; }, ); $transform->generate(); our ($uminus); $uminus->s($tree); The transformations belonging to a family are usually applied together: $tree->s(@algebraic_transformations); Code Support In between Treeregexp rules and family assignments the programmer can insert Perl code between curly brackets. That code usually gives support to the semantic conditions and transformations inside the rules. See for example test 14 in the "t/" directory of the Parse::Eyapp distribution. { sub not_semantic { my $self = shift; return 1 if $self->{token} eq $self->{attr}; return 0; } } delete_tokens : TERMINAL and { not_semantic($TERMINAL) } => { $delete_tokens->delete() } SEE ALSO
o The project home is at http://code.google.com/p/parse-eyapp/ <http://code.google.com/p/parse-eyapp/>. Use a subversion client to anonymously check out the latest project source code: svn checkout http://parse-eyapp.googlecode.com/svn/trunk/ parse-eyapp-read-only o The tutorial Parsing Strings and Trees with "Parse::Eyapp" (An Introduction to Compiler Construction in seven pages) in <http://nereida.deioc.ull.es/~pl/eyapsimple/> o Parse::Eyapp, Parse::Eyapp::eyapplanguageref, Parse::Eyapp::debuggingtut, Parse::Eyapp::defaultactionsintro, Parse::Eyapp::translationschemestut, Parse::Eyapp::Driver, Parse::Eyapp::Node, Parse::Eyapp::YATW, Parse::Eyapp::Treeregexp, Parse::Eyapp::Scope, Parse::Eyapp::Base, Parse::Eyapp::datagenerationtut o The pdf file in <http://nereida.deioc.ull.es/~pl/perlexamples/languageintro.pdf> o The pdf file in <http://nereida.deioc.ull.es/~pl/perlexamples/debuggingtut.pdf> o The pdf file in <http://nereida.deioc.ull.es/~pl/perlexamples/eyapplanguageref.pdf> o The pdf file in <http://nereida.deioc.ull.es/~pl/perlexamples/Treeregexp.pdf> o The pdf file in <http://nereida.deioc.ull.es/~pl/perlexamples/Node.pdf> o The pdf file in <http://nereida.deioc.ull.es/~pl/perlexamples/YATW.pdf> o The pdf file in <http://nereida.deioc.ull.es/~pl/perlexamples/Eyapp.pdf> o The pdf file in <http://nereida.deioc.ull.es/~pl/perlexamples/Base.pdf> o The pdf file in <http://nereida.deioc.ull.es/~pl/perlexamples/translationschemestut.pdf> o The pdf file in <http://nereida.deioc.ull.es/~pl/perlexamples/treematchingtut.pdf> o perldoc eyapp, o perldoc treereg, o perldoc vgg, o The Syntax Highlight file for vim at <http://www.vim.org/scripts/script.php?script_id=2453> and <http://nereida.deioc.ull.es/~vim/> o Analisis Lexico y Sintactico, (Notes for a course in compiler construction) by Casiano Rodriguez-Leon. Available at <http://nereida.deioc.ull.es/~pl/perlexamples/> Is the more complete and reliable source for Parse::Eyapp. However is in Spanish. o Parse::Yapp, o Man pages of yacc(1) and bison(1), <http://www.delorie.com/gnu/docs/bison/bison.html> o Language::AttributeGrammar o Parse::RecDescent. o HOP::Parser o HOP::Lexer o ocamlyacc tutorial at http://plus.kaist.ac.kr/~shoh/ocaml/ocamllex-ocamlyacc/ocamlyacc-tutorial/ocamlyacc-tutorial.html <http://plus.kaist.ac.kr/~shoh/ocaml/ocamllex-ocamlyacc/ocamlyacc-tutorial/ocamlyacc-tutorial.html> REFERENCES
o The classic Dragon's book Compilers: Principles, Techniques, and Tools by Alfred V. Aho, Ravi Sethi and Jeffrey D. Ullman (Addison- Wesley 1986) o CS2121: The Implementation and Power of Programming Languages (See <http://www.cs.man.ac.uk/~pjj>, <http://www.cs.man.ac.uk/~pjj/complang/g2lr.html> and <http://www.cs.man.ac.uk/~pjj/cs2121/ho/ho.html>) by Pete Jinks CONTRIBUTORS
o Hal Finkel <http://www.halssoftware.com/> o G. Williams <http://kasei.us/> o Thomas L. Shinnick <http://search.cpan.org/~tshinnic/> o Frank Leray AUTHOR
Casiano Rodriguez-Leon (casiano@ull.es) ACKNOWLEDGMENTS
This work has been supported by CEE (FEDER) and the Spanish Ministry of Educacion y Ciencia through Plan Nacional I+D+I number TIN2005-08818-C04-04 (ULL::OPLINK project <http://www.oplink.ull.es/>). Support from Gobierno de Canarias was through GC02210601 (Grupos Consolidados). The University of La Laguna has also supported my work in many ways and for many years. A large percentage of code is verbatim taken from Parse::Yapp 1.05. The author of Parse::Yapp is Francois Desarmenien. I wish to thank Francois Desarmenien for his Parse::Yapp module, to my students at La Laguna and to the Perl Community. Thanks to the people who have contributed to improve the module (see "CONTRIBUTORS" in Parse::Eyapp). Thanks to Larry Wall for giving us Perl. Special thanks to Juana. LICENCE AND COPYRIGHT
Copyright (c) 2006-2008 Casiano Rodriguez-Leon (casiano@ull.es). All rights reserved. Parse::Yapp copyright is of Francois Desarmenien, all rights reserved. 1998-2001 These modules are free software; you can redistribute it and/or modify it under the same terms as Perl itself. See perlartistic. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. perl v5.16.2 2012-03-23 Parse::Eyapp::Treeregexp(3)
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