def _initialize(self, ttlfile=None):
optimize = self.compiler['optimize']
lex_debug = self.compiler['lex_debug']
lextab = self.compiler['lextab']
yacc_debug = self.compiler['yacc_debug']
yacctab = self.compiler['yacctab']
yacc_outputdir = self.compiler['yacc_outputdir']
self.ttlfile = ttlfile
# Build Lexer
self.ttllex = TTLLexer(self.compiler)
kwargs = {'ttlfile': ttlfile}
kwargs.update(optimize=optimize) if optimize else None
kwargs.update(debug=lex_debug)
kwargs.update(lextab=lextab) if lextab else None
self.ttllex.build(**kwargs)
self.tokens = self.ttllex.tokens # Important for YACCer
self.ttllex.reset_lineno()
# Build Yaccer
kwargs = {'optimize': optimize} if optimize else {}
kwargs.update(debug=yacc_debug)
kwargs.update(outputdir=yacc_outputdir) if yacc_outputdir else None
kwargs.update(tabmodule=yacctab)
self.parser = ply.yacc.yacc(module=self, **kwargs)
self.parser.ttlparser = self # For AST nodes to access `this`
self.parser.compiler = self.compiler
self.prolog = True
def lexical( pa, options ):
from tayra.lexer import TTLLexer
stats = {}
setts = { 'optimize' : 0 }
compiler = pa.qp( pa, ISettings, 'tayra.ttlcompiler', settings=setts )
ttllex = TTLLexer( compiler )
ttllex.build( ttlfile=options.ttlfile )
ttllex.input( open( options.ttlfile, encoding='utf-8-sig' ).read() )
tok = fetchtoken( ttllex, stats )
while tok :
tok = fetchtoken( ttllex, stats )
def _initialize( self, ttlfile=None ) :
optimize = self.compiler['optimize']
lex_debug = self.compiler['lex_debug']
lextab = self.compiler['lextab']
yacc_debug = self.compiler['yacc_debug']
yacctab = self.compiler['yacctab']
yacc_outputdir = self.compiler['yacc_outputdir']
self.ttlfile = ttlfile
# Build Lexer
self.ttllex = TTLLexer( self.compiler )
kwargs = { 'ttlfile' : ttlfile }
kwargs.update( optimize=optimize ) if optimize else None
kwargs.update( debug=lex_debug )
kwargs.update( lextab=lextab ) if lextab else None
self.ttllex.build( **kwargs )
self.tokens = self.ttllex.tokens # Important for YACCer
self.ttllex.reset_lineno()
# Build Yaccer
kwargs = {'optimize' : optimize} if optimize else {}
kwargs.update( debug=yacc_debug )
kwargs.update( outputdir=yacc_outputdir ) if yacc_outputdir else None
kwargs.update( tabmodule=yacctab )
self.parser = ply.yacc.yacc( module=self, **kwargs )
self.parser.ttlparser = self # For AST nodes to access `this`
self.parser.compiler = self.compiler
self.prolog = True
def lexical(pa, options):
from tayra.lexer import TTLLexer
stats = {}
setts = {'optimize': 0}
compiler = pa.qp(pa, ISettings, 'tayra.ttlcompiler', settings=setts)
ttllex = TTLLexer(compiler)
ttllex.build(ttlfile=options.ttlfile)
ttllex.input(open(options.ttlfile, encoding='utf-8-sig').read())
tok = fetchtoken(ttllex, stats)
while tok:
tok = fetchtoken(ttllex, stats)
class TTLParser(object):
"""Parser class for tayra template language. This class is initialized
with :class:`tayra.compiler.TTLCompiler` instance, and configuration
options like, ``optimize``, ``lex_debug``, ``lextab``, ``yacc_debug``,
``yacctab``, ``yacc_outputdir``.
It might be a costly operation to create a TTLParser instance every time,
and to avoid that use _initialize() method before starting off with a new
template.
"""
def __init__(self, compiler):
self.compiler = compiler
def _initialize(self, ttlfile=None):
optimize = self.compiler['optimize']
lex_debug = self.compiler['lex_debug']
lextab = self.compiler['lextab']
yacc_debug = self.compiler['yacc_debug']
yacctab = self.compiler['yacctab']
yacc_outputdir = self.compiler['yacc_outputdir']
self.ttlfile = ttlfile
# Build Lexer
self.ttllex = TTLLexer(self.compiler)
kwargs = {'ttlfile': ttlfile}
kwargs.update(optimize=optimize) if optimize else None
kwargs.update(debug=lex_debug)
kwargs.update(lextab=lextab) if lextab else None
self.ttllex.build(**kwargs)
self.tokens = self.ttllex.tokens # Important for YACCer
self.ttllex.reset_lineno()
# Build Yaccer
kwargs = {'optimize': optimize} if optimize else {}
kwargs.update(debug=yacc_debug)
kwargs.update(outputdir=yacc_outputdir) if yacc_outputdir else None
kwargs.update(tabmodule=yacctab)
self.parser = ply.yacc.yacc(module=self, **kwargs)
self.parser.ttlparser = self # For AST nodes to access `this`
self.parser.compiler = self.compiler
self.prolog = True
# ------------------------- Private functions -----------------------------
def _coord(self, lineno, column=None):
return Coord(file=self.ttllex.ttlfile, line=lineno, column=column)
def _parse_error(self, msg, coord):
raise Exception("%s: %s" % (coord, msg))
def _buildterms(self, p, terms):
"""Convenience function to construct Terminal nodes from parser object
``p``."""
rc = []
for t in terms:
if t == None:
rc.append(None)
continue
elif isinstance(t, tuple):
cls, (val, lineno) = t[0], p[t[1]]
rc.append(cls(p.parser, lineno, val))
else:
rc.append(t)
return rc
#---- API methods.
def parse(self, text, ttlfile=None, debuglevel=0):
"""Parse tayra templage text, ``text`` and return an AST tree. AST
tree starts with a root node :class:`tayra.ast.Template`. Every time
the parser is invoked the lexer, yaccer, app options will be reused.
``ttlfile``
Name of the file being parsed (for meaningful error messages)
``debuglevel``
Debug level to yacc
"""
# Parser Initialize
self._initialize(ttlfile=ttlfile)
# parse and get the Translation Unit
self.ast = self.parser.parse(text, lexer=self.ttllex, debug=debuglevel)
return self.ast
# ---------- Precedence and associativity of operators --------------------
precedence = ()
def p_template_1(self, p):
"""template : script"""
p[0] = Template(p.parser, p[1])
def p_template_2(self, p):
"""template : """
p[0] = Template(p.parser, None)
def p_script_1(self, p):
"""script : doctype
| body
| importas
| inherit
| implement
| use
| statement
| tagline
| commentline
| tagblock
| commentblock
| textblock
| textspan
| filterblock
| functionblock
| interfaceblock
| ifelfiblock
| forblock
| whileblock"""
p[0] = Script(p.parser, None, p[1])
def p_script_2(self, p):
"""script : script doctype
| script body
| script importas
| script inherit
| script implement
| script use
| script statement
| script tagline
| script commentline
| script tagblock
| script commentblock
| script textblock
| script textspan
| script filterblock
| script functionblock
| script interfaceblock
| script ifelfiblock
| script forblock
| script whileblock"""
p[0] = Script(p.parser, p[1], p[2])
#-- Prolog
def p_docytpe(self, p):
"""doctype : DOCTYPE NEWLINES"""
terms = [(DOCTYPE, 1), (NEWLINES, 2)]
p[0] = DocType(p.parser, *self._buildterms(p, terms))
def p_body(self, p):
"""body : BODY NEWLINES"""
terms = [(BODY, 1), (NEWLINES, 2)]
p[0] = Body(p.parser, *self._buildterms(p, terms))
def p_importas(self, p):
"""importas : IMPORT NEWLINES"""
terms = [(IMPORT, 1), (NEWLINES, 2)]
p[0] = ImportAs(p.parser, *self._buildterms(p, terms))
def p_inherit(self, p):
"""inherit : INHERIT NEWLINES"""
terms = [(INHERIT, 1), (NEWLINES, 2)]
p[0] = Inherit(p.parser, *self._buildterms(p, terms))
def p_implement(self, p):
"""implement : IMPLEMENT NEWLINES"""
terms = [(IMPLEMENT, 1), (NEWLINES, 2)]
p[0] = Implement(p.parser, *self._buildterms(p, terms))
def p_use(self, p):
"""use : USE NEWLINES"""
terms = [(USE, 1), (NEWLINES, 2)]
p[0] = Use(p.parser, *self._buildterms(p, terms))
def p_commentline(self, p):
"""commentline : COMMENTLINE NEWLINES"""
terms = [(COMMENTLINE, 1), (NEWLINES, 2)]
p[0] = CommentLine(p.parser, *self._buildterms(p, terms))
def p_commentblock(self, p):
"""commentblock : COMMENTOPEN COMMENTTEXT COMMENTCLOSE NEWLINES
| COMMENTOPEN COMMENTCLOSE NEWLINES"""
if len(p) == 5:
terms = [(COMMENTOPEN, 1), (COMMENTTEXT, 2), (COMMENTCLOSE, 3),
(NEWLINES, 4)]
else:
terms = [(COMMENTOPEN, 1), None, (COMMENTCLOSE, 2), (NEWLINES, 3)]
p[0] = CommentBlock(p.parser,
*self._buildterms(p, terms),
prolog=self.prolog)
#---- Script lines
def p_statement(self, p):
"""statement : STATEMENT NEWLINES"""
terms = [(STATEMENT, 1), (NEWLINES, 2)]
p[0] = Statement(p.parser, *self._buildterms(p, terms))
def p_tagline(self, p):
"""tagline : tagspans NEWLINES"""
p[1] = p[1].right_recursive(None, p[1].TAGBEGIN, p[1].text)
terms = [p[1], (NEWLINES, 2)]
p[0] = TagLine(p.parser, *self._buildterms(p, terms))
def p_tagspans_1(self, p):
"""tagspans : TAGBEGIN
| TAGBEGIN text"""
if len(p) == 2:
terms = [None, (TAGBEGIN, 1), None]
else:
terms = [None, (TAGBEGIN, 1), p[2]]
p[0] = TagSpans(p.parser, *self._buildterms(p, terms))
def p_tagspans_2(self, p):
"""tagspans : tagspans TAGBEGIN
| tagspans TAGBEGIN text"""
if len(p) == 3:
terms = [p[1], (TAGBEGIN, 2), None]
else:
terms = [p[1], (TAGBEGIN, 2), p[3]]
p[0] = TagSpans(p.parser, *self._buildterms(p, terms))
def p_text(self, p):
"""text : TEXT
| text TEXT"""
terms = [None, (TEXT, 1)] if len(p) == 2 else [p[1], (TEXT, 2)]
p[0] = Text(p.parser, *self._buildterms(p, terms))
def p_textspan(self, p):
"""textspan : text tagspans NEWLINES"""
p[2] = p[2].right_recursive(None, p[2].TAGBEGIN, p[2].text)
terms = [p[1], p[2], (NEWLINES, 3)]
p[0] = TextSpan(p.parser, *self._buildterms(p, terms))
#---- Script blocks
def p_tagblock_1(self, p):
"""tagblock : tagline INDENT script DEDENT"""
terms = [p[1], (INDENT, 2), p[3], (DEDENT, 4)]
p[0] = TagBlock(p.parser, *self._buildterms(p, terms))
def p_tagblock_2(self, p):
"""tagblock : tagline INDENT DEDENT"""
terms = [p[1], (INDENT, 2), None, (DEDENT, 3)]
p[0] = TagBlock(p.parser, *self._buildterms(p, terms))
def p_textblock_1(self, p):
"""textblock : text NEWLINES"""
terms = [None, p[1], (NEWLINES, 2), None, None, None]
p[0] = TextBlock(p.parser, *self._buildterms(p, terms))
def p_textblock_2(self, p):
"""textblock : textblock text NEWLINES"""
terms = [p[1], p[2], (NEWLINES, 3), None, None, None]
p[0] = TextBlock(p.parser, *self._buildterms(p, terms))
def p_textblock_3(self, p):
"""textblock : textblock INDENT script DEDENT"""
terms = [p[1], None, None, (INDENT, 2), p[3], (DEDENT, 4)]
p[0] = TextBlock(p.parser, *self._buildterms(p, terms))
def p_textblock_4(self, p):
"""textblock : textblock INDENT DEDENT"""
terms = [p[1], None, None, (INDENT, 2), None, (DEDENT, 3)]
p[0] = TextBlock(p.parser, *self._buildterms(p, terms))
def p_filterblock_1(self, p):
"""filterblock : FILTEROPEN NEWLINES filtertext FILTERCLOSE NEWLINES"""
terms = [(FILTEROPEN, 1), (NEWLINES, 2), p[3], (FILTERCLOSE, 4),
(NEWLINES, 5)]
assert p[1][0].startswith(p[4][0].strip(' \t'))
p[0] = FilterBlock(p.parser, *self._buildterms(p, terms))
def p_filterblock_2(self, p):
"""filterblock : FILTEROPEN NEWLINES FILTERCLOSE NEWLINES"""
terms = [(FILTEROPEN, 1), (NEWLINES, 2), None, (FILTERCLOSE, 3),
(NEWLINES, 4)]
p[0] = FilterBlock(p.parser, *self._buildterms(p, terms))
def p_filtertext(self, p):
"""filtertext : FILTERTEXT NEWLINES
| filtertext FILTERTEXT NEWLINES"""
if len(p) == 4:
p[1].append(FILTERTEXT(p.parser, p[2][1], p[2][0] + p[3][0]))
p[0] = p[1]
else:
p[0] = [FILTERTEXT(p.parser, p[1][1], p[1][0] + p[2][0])]
def p_functionblock_1(self, p):
"""functionblock : DECORATOR NEWLINES FUNCTION NEWLINES INDENT script DEDENT"""
terms = [(DECORATOR, 1), (NEWLINES, 2), (FUNCTION, 3), (NEWLINES, 4),
(INDENT, 5), p[6], (DEDENT, 7)]
p[0] = FunctionBlock(p.parser, *self._buildterms(p, terms))
def p_functionblock_2(self, p):
"""functionblock : DECORATOR NEWLINES FUNCTION NEWLINES INDENT DEDENT"""
terms = [(DECORATOR, 1), (NEWLINES, 2), (FUNCTION, 3), (NEWLINES, 4),
(INDENT, 5), None, (DEDENT, 6)]
p[0] = FunctionBlock(p.parser, *self._buildterms(p, terms))
def p_functionblock_3(self, p):
"""functionblock : FUNCTION NEWLINES INDENT script DEDENT"""
terms = [
None, None, (FUNCTION, 1), (NEWLINES, 2), (INDENT, 3), p[4],
(DEDENT, 5)
]
p[0] = FunctionBlock(p.parser, *self._buildterms(p, terms))
def p_functionblock_4(self, p):
"""functionblock : FUNCTION NEWLINES INDENT DEDENT"""
terms = [
None, None, (FUNCTION, 1), (NEWLINES, 2), (INDENT, 3), None,
(DEDENT, 4)
]
p[0] = FunctionBlock(p.parser, *self._buildterms(p, terms))
def p_interfaceblock_1(self, p):
"""interfaceblock : INTERFACE NEWLINES INDENT script DEDENT"""
terms = [(INTERFACE, 1), (NEWLINES, 2), (INDENT, 3), p[4], (DEDENT, 5)]
p[0] = InterfaceBlock(p.parser, *self._buildterms(p, terms))
def p_interfaceblock_2(self, p):
"""interfaceblock : INTERFACE NEWLINES INDENT DEDENT"""
terms = [(INTERFACE, 1), (NEWLINES, 2), (INDENT, 3), None, (DEDENT, 4)]
p[0] = InterfaceBlock(p.parser, *self._buildterms(p, terms))
#-- Control blocks ( if-elif-else / for / while )
def p_ifelfiblock_1(self, p):
"""ifelfiblock : ifblock"""
p[0] = IfelfiBlock(p.parser, None, p[1], None, None)
def p_ifelfiblock_2(self, p):
"""ifelfiblock : ifelfiblock elifblock"""
p[0] = IfelfiBlock(p.parser, p[1], None, p[2], None)
def p_ifelfiblock_3(self, p):
"""ifelfiblock : ifelfiblock elseblock"""
p[0] = IfelfiBlock(p.parser, p[1], None, None, p[2])
def p_ifblock_1(self, p):
"""ifblock : IF NEWLINES INDENT script DEDENT"""
terms = [(IF, 1), (NEWLINES, 2), (INDENT, 3), p[4], (DEDENT, 5)]
p[0] = IfBlock(p.parser, *self._buildterms(p, terms))
def p_ifblock_2(self, p):
"""ifblock : IF NEWLINES INDENT DEDENT"""
terms = [(IF, 1), (NEWLINES, 2), (INDENT, 3), None, (DEDENT, 4)]
p[0] = IfBlock(p.parser, *self._buildterms(p, terms))
def p_elifblock_1(self, p):
"""elifblock : ELIF NEWLINES INDENT script DEDENT"""
terms = [(ELIF, 1), (NEWLINES, 2), (INDENT, 3), p[4], (DEDENT, 5)]
p[0] = ElifBlock(p.parser, *self._buildterms(p, terms))
def p_elifblock_2(self, p):
"""elifblock : ELIF NEWLINES INDENT DEDENT"""
terms = [(ELIF, 1), (NEWLINES, 2), (INDENT, 3), None, (DEDENT, 4)]
p[0] = ElifBlock(p.parser, *self._buildterms(p, terms))
def p_elseblock_1(self, p):
"""elseblock : ELSE NEWLINES INDENT script DEDENT"""
terms = [(ELSE, 1), (NEWLINES, 2), (INDENT, 3), p[4], (DEDENT, 5)]
p[0] = ElseBlock(p.parser, *self._buildterms(p, terms))
def p_elseblock_2(self, p):
"""elseblock : ELSE NEWLINES INDENT DEDENT"""
terms = [(ELSE, 1), (NEWLINES, 2), (INDENT, 3), None, (DEDENT, 4)]
p[0] = ElseBlock(p.parser, *self._buildterms(p, terms))
def p_forblock_1(self, p):
"""forblock : FOR NEWLINES INDENT script DEDENT"""
terms = [(FOR, 1), (NEWLINES, 2), (INDENT, 3), p[4], (DEDENT, 5)]
p[0] = ForBlock(p.parser, *self._buildterms(p, terms))
def p_forblock_2(self, p):
"""forblock : FOR NEWLINES INDENT DEDENT"""
terms = [(FOR, 1), (NEWLINES, 2), (INDENT, 3), None, (DEDENT, 4)]
p[0] = ForBlock(p.parser, *self._buildterms(p, terms))
def p_whileblock_1(self, p):
"""whileblock : WHILE NEWLINES INDENT script DEDENT"""
terms = [(WHILE, 1), (NEWLINES, 2), (INDENT, 3), p[4], (DEDENT, 5)]
p[0] = WhileBlock(p.parser, *self._buildterms(p, terms))
def p_whileblock_2(self, p):
"""whileblock : WHILE NEWLINES INDENT DEDENT"""
terms = [(WHILE, 1), (NEWLINES, 2), (INDENT, 3), None, (DEDENT, 4)]
p[0] = WhileBlock(p.parser, *self._buildterms(p, terms))
def p_error(self, p):
if p:
column = self.ttllex._find_tok_column(p)
self._parse_error('before: %s ' % (p.value, ),
self._coord(p.lineno, column))
else:
self._parse_error('At end of input', '')
class TTLParser( object ):
"""Parser class for tayra template language. This class is initialized
with :class:`tayra.compiler.TTLCompiler` instance, and configuration
options like, ``optimize``, ``lex_debug``, ``lextab``, ``yacc_debug``,
``yacctab``, ``yacc_outputdir``.
It might be a costly operation to create a TTLParser instance every time,
and to avoid that use _initialize() method before starting off with a new
template.
"""
def __init__( self, compiler ) :
self.compiler = compiler
def _initialize( self, ttlfile=None ) :
optimize = self.compiler['optimize']
lex_debug = self.compiler['lex_debug']
lextab = self.compiler['lextab']
yacc_debug = self.compiler['yacc_debug']
yacctab = self.compiler['yacctab']
yacc_outputdir = self.compiler['yacc_outputdir']
self.ttlfile = ttlfile
# Build Lexer
self.ttllex = TTLLexer( self.compiler )
kwargs = { 'ttlfile' : ttlfile }
kwargs.update( optimize=optimize ) if optimize else None
kwargs.update( debug=lex_debug )
kwargs.update( lextab=lextab ) if lextab else None
self.ttllex.build( **kwargs )
self.tokens = self.ttllex.tokens # Important for YACCer
self.ttllex.reset_lineno()
# Build Yaccer
kwargs = {'optimize' : optimize} if optimize else {}
kwargs.update( debug=yacc_debug )
kwargs.update( outputdir=yacc_outputdir ) if yacc_outputdir else None
kwargs.update( tabmodule=yacctab )
self.parser = ply.yacc.yacc( module=self, **kwargs )
self.parser.ttlparser = self # For AST nodes to access `this`
self.parser.compiler = self.compiler
self.prolog = True
# ------------------------- Private functions -----------------------------
def _coord( self, lineno, column=None ):
return Coord( file=self.ttllex.ttlfile, line=lineno, column=column )
def _parse_error(self, msg, coord):
raise Exception("%s: %s" % (coord, msg))
def _buildterms( self, p, terms ) :
"""Convenience function to construct Terminal nodes from parser object
``p``."""
rc = []
for t in terms :
if t == None :
rc.append( None )
continue
elif isinstance(t, tuple) :
cls, (val, lineno) = t[0], p[ t[1] ]
rc.append( cls( p.parser, lineno, val ))
else :
rc.append(t)
return rc
#---- API methods.
def parse( self, text, ttlfile=None, debuglevel=0 ):
"""Parse tayra templage text, ``text`` and return an AST tree. AST
tree starts with a root node :class:`tayra.ast.Template`. Every time
the parser is invoked the lexer, yaccer, app options will be reused.
``ttlfile``
Name of the file being parsed (for meaningful error messages)
``debuglevel``
Debug level to yacc
"""
# Parser Initialize
self._initialize( ttlfile=ttlfile )
# parse and get the Translation Unit
self.ast = self.parser.parse(text, lexer=self.ttllex, debug=debuglevel)
return self.ast
# ---------- Precedence and associativity of operators --------------------
precedence = (
)
def p_template_1( self, p ) :
"""template : script"""
p[0] = Template( p.parser, p[1] )
def p_template_2( self, p ) :
"""template : """
p[0] = Template( p.parser, None )
def p_script_1( self, p ) :
"""script : doctype
| body
| importas
| inherit
| implement
| use
| statement
| tagline
| commentline
| tagblock
| commentblock
| textblock
| textspan
| filterblock
| functionblock
| interfaceblock
| ifelfiblock
| forblock
| whileblock"""
p[0] = Script( p.parser, None, p[1] )
def p_script_2( self, p ) :
"""script : script doctype
| script body
| script importas
| script inherit
| script implement
| script use
| script statement
| script tagline
| script commentline
| script tagblock
| script commentblock
| script textblock
| script textspan
| script filterblock
| script functionblock
| script interfaceblock
| script ifelfiblock
| script forblock
| script whileblock"""
p[0] = Script( p.parser, p[1], p[2] )
#-- Prolog
def p_docytpe( self, p ) :
"""doctype : DOCTYPE NEWLINES"""
terms = [ (DOCTYPE, 1), (NEWLINES, 2) ]
p[0] = DocType( p.parser, *self._buildterms( p, terms ))
def p_body( self, p ) :
"""body : BODY NEWLINES"""
terms = [ (BODY, 1), (NEWLINES, 2) ]
p[0] = Body( p.parser, *self._buildterms( p, terms ))
def p_importas( self, p ) :
"""importas : IMPORT NEWLINES"""
terms = [ (IMPORT, 1), (NEWLINES, 2) ]
p[0] = ImportAs( p.parser, *self._buildterms( p, terms ))
def p_inherit( self, p ) :
"""inherit : INHERIT NEWLINES"""
terms = [ (INHERIT, 1), (NEWLINES, 2) ]
p[0] = Inherit( p.parser, *self._buildterms( p, terms ))
def p_implement( self, p ) :
"""implement : IMPLEMENT NEWLINES"""
terms = [ (IMPLEMENT, 1), (NEWLINES, 2) ]
p[0] = Implement( p.parser, *self._buildterms( p, terms ))
def p_use( self, p ) :
"""use : USE NEWLINES"""
terms = [ (USE, 1), (NEWLINES, 2) ]
p[0] = Use( p.parser, *self._buildterms( p, terms ))
def p_commentline( self, p ) :
"""commentline : COMMENTLINE NEWLINES"""
terms = [ (COMMENTLINE, 1), (NEWLINES, 2) ]
p[0] = CommentLine( p.parser, *self._buildterms( p, terms ))
def p_commentblock( self, p ) :
"""commentblock : COMMENTOPEN COMMENTTEXT COMMENTCLOSE NEWLINES
| COMMENTOPEN COMMENTCLOSE NEWLINES"""
if len(p) == 5 :
terms = [ (COMMENTOPEN,1), (COMMENTTEXT,2), (COMMENTCLOSE,3),
(NEWLINES,4) ]
else :
terms = [ (COMMENTOPEN,1), None, (COMMENTCLOSE,2), (NEWLINES,3) ]
p[0] = CommentBlock( p.parser, *self._buildterms( p, terms ),
prolog=self.prolog )
#---- Script lines
def p_statement( self, p ) :
"""statement : STATEMENT NEWLINES"""
terms = [ (STATEMENT, 1), (NEWLINES, 2) ]
p[0] = Statement( p.parser, *self._buildterms(p, terms) )
def p_tagline( self, p ) :
"""tagline : tagspans NEWLINES"""
p[1] = p[1].right_recursive( None, p[1].TAGBEGIN, p[1].text )
terms = [ p[1], (NEWLINES, 2) ]
p[0] = TagLine( p.parser, *self._buildterms(p, terms) )
def p_tagspans_1( self, p ):
"""tagspans : TAGBEGIN
| TAGBEGIN text"""
if len(p) == 2 :
terms = [ None, (TAGBEGIN,1), None ]
else :
terms = [ None, (TAGBEGIN,1), p[2] ]
p[0] = TagSpans( p.parser, *self._buildterms(p, terms) )
def p_tagspans_2( self, p ):
"""tagspans : tagspans TAGBEGIN
| tagspans TAGBEGIN text"""
if len(p) == 3 :
terms = [ p[1], (TAGBEGIN,2), None ]
else :
terms = [ p[1], (TAGBEGIN,2), p[3] ]
p[0] = TagSpans( p.parser, *self._buildterms(p, terms) )
def p_text( self, p ):
"""text : TEXT
| text TEXT"""
terms = [ None, (TEXT,1) ] if len(p) == 2 else [ p[1], (TEXT,2) ]
p[0] = Text( p.parser, *self._buildterms(p, terms) )
def p_textspan( self, p ):
"""textspan : text tagspans NEWLINES"""
p[2] = p[2].right_recursive( None, p[2].TAGBEGIN, p[2].text )
terms = [ p[1], p[2], (NEWLINES,3) ]
p[0] = TextSpan( p.parser, *self._buildterms(p, terms) )
#---- Script blocks
def p_tagblock_1( self, p ) :
"""tagblock : tagline INDENT script DEDENT"""
terms = [ p[1], (INDENT,2), p[3], (DEDENT,4) ]
p[0] = TagBlock( p.parser, *self._buildterms( p, terms ) )
def p_tagblock_2( self, p ) :
"""tagblock : tagline INDENT DEDENT"""
terms = [ p[1], (INDENT,2), None, (DEDENT,3) ]
p[0] = TagBlock( p.parser, *self._buildterms( p, terms ) )
def p_textblock_1( self, p ) :
"""textblock : text NEWLINES"""
terms = [ None, p[1], (NEWLINES, 2), None, None, None ]
p[0] = TextBlock( p.parser, *self._buildterms(p, terms) )
def p_textblock_2( self, p ):
"""textblock : textblock text NEWLINES"""
terms = [ p[1], p[2], (NEWLINES, 3), None, None, None ]
p[0] = TextBlock( p.parser, *self._buildterms(p, terms) )
def p_textblock_3( self, p ) :
"""textblock : textblock INDENT script DEDENT"""
terms = [ p[1], None, None, (INDENT,2), p[3], (DEDENT,4) ]
p[0] = TextBlock( p.parser, *self._buildterms(p, terms) )
def p_textblock_4( self, p ) :
"""textblock : textblock INDENT DEDENT"""
terms = [ p[1], None, None, (INDENT,2), None, (DEDENT,3) ]
p[0] = TextBlock( p.parser, *self._buildterms(p, terms) )
def p_filterblock_1( self, p ) :
"""filterblock : FILTEROPEN NEWLINES filtertext FILTERCLOSE NEWLINES"""
terms = [ (FILTEROPEN,1), (NEWLINES, 2), p[3], (FILTERCLOSE,4),
(NEWLINES,5) ]
assert p[1][0].startswith( p[4][0].strip(' \t') )
p[0] = FilterBlock( p.parser, *self._buildterms( p, terms ) )
def p_filterblock_2( self, p ) :
"""filterblock : FILTEROPEN NEWLINES FILTERCLOSE NEWLINES"""
terms = [ (FILTEROPEN,1), (NEWLINES,2), None, (FILTERCLOSE,3),
(NEWLINES,4) ]
p[0] = FilterBlock( p.parser, *self._buildterms( p, terms ) )
def p_filtertext( self, p ):
"""filtertext : FILTERTEXT NEWLINES
| filtertext FILTERTEXT NEWLINES"""
if len(p) == 4 :
p[1].append( FILTERTEXT( p.parser, p[2][1], p[2][0]+p[3][0] ))
p[0] = p[1]
else :
p[0] = [ FILTERTEXT( p.parser, p[1][1], p[1][0]+p[2][0] ) ]
def p_functionblock_1( self, p ) :
"""functionblock : DECORATOR NEWLINES FUNCTION NEWLINES INDENT script DEDENT"""
terms = [ (DECORATOR, 1), (NEWLINES, 2), (FUNCTION,3), (NEWLINES, 4),
(INDENT,5), p[6], (DEDENT,7) ]
p[0] = FunctionBlock( p.parser, *self._buildterms(p, terms) )
def p_functionblock_2( self, p ) :
"""functionblock : DECORATOR NEWLINES FUNCTION NEWLINES INDENT DEDENT"""
terms = [ (DECORATOR,1), (NEWLINES, 2), (FUNCTION,3), (NEWLINES, 4),
(INDENT,5), None, (DEDENT,6) ]
p[0] = FunctionBlock( p.parser, *self._buildterms(p, terms) )
def p_functionblock_3( self, p ) :
"""functionblock : FUNCTION NEWLINES INDENT script DEDENT"""
terms = [ None, None, (FUNCTION,1), (NEWLINES, 2), (INDENT,3),
p[4], (DEDENT,5) ]
p[0] = FunctionBlock( p.parser, *self._buildterms(p, terms) )
def p_functionblock_4( self, p ) :
"""functionblock : FUNCTION NEWLINES INDENT DEDENT"""
terms = [ None, None, (FUNCTION,1), (NEWLINES, 2), (INDENT,3),
None, (DEDENT,4) ]
p[0] = FunctionBlock( p.parser, *self._buildterms(p, terms) )
def p_interfaceblock_1( self, p ) :
"""interfaceblock : INTERFACE NEWLINES INDENT script DEDENT"""
terms = [ (INTERFACE,1), (NEWLINES, 2), (INDENT,3), p[4], (DEDENT,5) ]
p[0] = InterfaceBlock( p.parser, *self._buildterms(p, terms) )
def p_interfaceblock_2( self, p ) :
"""interfaceblock : INTERFACE NEWLINES INDENT DEDENT"""
terms = [ (INTERFACE,1), (NEWLINES, 2), (INDENT,3), None, (DEDENT,4) ]
p[0] = InterfaceBlock( p.parser, *self._buildterms(p, terms) )
#-- Control blocks ( if-elif-else / for / while )
def p_ifelfiblock_1( self, p ) :
"""ifelfiblock : ifblock"""
p[0] = IfelfiBlock( p.parser, None, p[1], None, None )
def p_ifelfiblock_2( self, p ) :
"""ifelfiblock : ifelfiblock elifblock"""
p[0] = IfelfiBlock( p.parser, p[1], None, p[2], None )
def p_ifelfiblock_3( self, p ) :
"""ifelfiblock : ifelfiblock elseblock"""
p[0] = IfelfiBlock( p.parser, p[1], None, None, p[2] )
def p_ifblock_1( self, p ) :
"""ifblock : IF NEWLINES INDENT script DEDENT"""
terms = [ (IF,1), (NEWLINES, 2), (INDENT,3), p[4], (DEDENT,5) ]
p[0] = IfBlock( p.parser, *self._buildterms(p, terms) )
def p_ifblock_2( self, p ) :
"""ifblock : IF NEWLINES INDENT DEDENT"""
terms = [ (IF,1), (NEWLINES, 2), (INDENT,3), None, (DEDENT,4) ]
p[0] = IfBlock( p.parser, *self._buildterms(p, terms) )
def p_elifblock_1( self, p ) :
"""elifblock : ELIF NEWLINES INDENT script DEDENT"""
terms = [ (ELIF,1), (NEWLINES,2), (INDENT,3), p[4], (DEDENT,5) ]
p[0] = ElifBlock( p.parser, *self._buildterms(p, terms) )
def p_elifblock_2( self, p ) :
"""elifblock : ELIF NEWLINES INDENT DEDENT"""
terms = [ (ELIF,1), (NEWLINES,2), (INDENT,3), None, (DEDENT,4) ]
p[0] = ElifBlock( p.parser, *self._buildterms(p, terms) )
def p_elseblock_1( self, p ) :
"""elseblock : ELSE NEWLINES INDENT script DEDENT"""
terms = [ (ELSE,1), (NEWLINES,2), (INDENT,3), p[4], (DEDENT,5) ]
p[0] = ElseBlock( p.parser, *self._buildterms(p, terms) )
def p_elseblock_2( self, p ) :
"""elseblock : ELSE NEWLINES INDENT DEDENT"""
terms = [ (ELSE,1), (NEWLINES,2), (INDENT,3), None, (DEDENT,4) ]
p[0] = ElseBlock( p.parser, *self._buildterms(p, terms) )
def p_forblock_1( self, p ) :
"""forblock : FOR NEWLINES INDENT script DEDENT"""
terms = [ (FOR,1), (NEWLINES,2), (INDENT,3), p[4], (DEDENT,5) ]
p[0] = ForBlock( p.parser, *self._buildterms(p, terms) )
def p_forblock_2( self, p ) :
"""forblock : FOR NEWLINES INDENT DEDENT"""
terms = [ (FOR,1), (NEWLINES,2), (INDENT,3), None, (DEDENT,4) ]
p[0] = ForBlock( p.parser, *self._buildterms(p, terms) )
def p_whileblock_1( self, p ) :
"""whileblock : WHILE NEWLINES INDENT script DEDENT"""
terms = [ (WHILE,1), (NEWLINES,2), (INDENT,3), p[4], (DEDENT,5) ]
p[0] = WhileBlock( p.parser, *self._buildterms(p, terms) )
def p_whileblock_2( self, p ) :
"""whileblock : WHILE NEWLINES INDENT DEDENT"""
terms = [ (WHILE,1), (NEWLINES,2), (INDENT,3), None, (DEDENT,4) ]
p[0] = WhileBlock( p.parser, *self._buildterms(p, terms) )
def p_error( self, p ):
if p:
column = self.ttllex._find_tok_column( p )
self._parse_error( 'before: %s ' % (p.value,),
self._coord(p.lineno, column) )
else:
self._parse_error( 'At end of input', '' )
