python-phply 1.2.4-1 / usr / lib / python2.7 / dist-packages / phply / phpparse.py

# -----------------------------------------------------------------------------
# phpparse.py
#
# A parser for PHP.
# -----------------------------------------------------------------------------

import os
import sys
from . import phplex
from . import phpast as ast
import ply.yacc as yacc

if sys.version_info[0] == 3:
    string_type = str
else:
    string_type = basestring

# Get the token map
tokens = phplex.tokens

precedence = (
    ('left', 'INCLUDE', 'INCLUDE_ONCE', 'EVAL', 'REQUIRE', 'REQUIRE_ONCE'),
    ('left', 'COMMA'),
    ('left', 'LOGICAL_OR'),
    ('left', 'LOGICAL_XOR'),
    ('left', 'LOGICAL_AND'),
    ('right', 'PRINT'),
    ('left', 'EQUALS', 'PLUS_EQUAL', 'MINUS_EQUAL', 'MUL_EQUAL', 'DIV_EQUAL', 'CONCAT_EQUAL', 'MOD_EQUAL', 'AND_EQUAL', 'OR_EQUAL', 'XOR_EQUAL', 'SL_EQUAL', 'SR_EQUAL'),
    ('left', 'QUESTION', 'COLON'),
    ('left', 'BOOLEAN_OR'),
    ('left', 'BOOLEAN_AND'),
    ('left', 'OR'),
    ('left', 'XOR'),
    ('left', 'AND'),
    ('nonassoc', 'IS_EQUAL', 'IS_NOT_EQUAL', 'IS_IDENTICAL', 'IS_NOT_IDENTICAL'),
    ('nonassoc', 'IS_SMALLER', 'IS_SMALLER_OR_EQUAL', 'IS_GREATER', 'IS_GREATER_OR_EQUAL'),
    ('left', 'SL', 'SR'),
    ('left', 'PLUS', 'MINUS', 'CONCAT'),
    ('left', 'MUL', 'DIV', 'MOD'),
    ('right', 'BOOLEAN_NOT'),
    ('nonassoc', 'INSTANCEOF'),
    ('right', 'NOT', 'INC', 'DEC', 'INT_CAST', 'DOUBLE_CAST', 'STRING_CAST', 'ARRAY_CAST', 'OBJECT_CAST', 'BOOL_CAST', 'UNSET_CAST', 'AT'),
    ('right', 'LBRACKET'),
    ('nonassoc', 'NEW', 'CLONE'),
    # ('left', 'ELSEIF'),
    # ('left', 'ELSE'),
    ('left', 'ENDIF'),
    ('right', 'STATIC', 'ABSTRACT', 'FINAL', 'PRIVATE', 'PROTECTED', 'PUBLIC'),
)

def process_php_string_escapes(s):
    # TODO: actual processing - turn php escape sequences into actual chars
    res = ''
    i = iter(s)
    for c in i:
        if c == '\\':
            c = next(i)
            if c == 'n':
                res += '\n'
            elif c == 'r':
                res += '\r'
            elif c == 't':
                res += '\t'
            elif c == '"':
                res += '"'
            elif c == "'":
                res += "'"
            elif c == 'x':
                try:
                    x = next(i)
                except StopIteration:
                    res += "\\x"
                    break
                try:
                    x += next(i)
                except StopIteration:
                    # one character \xH sequence is actually valid in php
                    pass

                try:
                    x = int(x, 16)
                    res += chr(x)
                except ValueError:
                    # TODO: find out what php does with broken literals
                    res += '\\x'+x
            elif c == '\\':
                res += '\\'
            else:
                res += c
        else:
            res += c
    return res

def p_start(p):
    'start : top_statement_list'
    p[0] = p[1]

def p_top_statement_list(p):
    '''top_statement_list : top_statement_list top_statement
                          | empty'''
    if len(p) == 3:
        p[0] = p[1] + [p[2]]
    else:
        p[0] = []

def p_top_statement(p):
    '''top_statement : statement
                     | function_declaration_statement
                     | class_declaration_statement
                     | HALT_COMPILER LPAREN RPAREN SEMI'''
    if len(p) == 2:
        p[0] = p[1]
    else:
        # ???
        pass

def p_top_statement_namespace(p):
    '''top_statement : NAMESPACE namespace_name SEMI
                     | NAMESPACE LBRACE top_statement_list RBRACE
                     | NAMESPACE namespace_name LBRACE top_statement_list RBRACE'''
    if len(p) == 4:
        p[0] = ast.Namespace(p[2], [], lineno=p.lineno(1))
    elif len(p) == 5:
        p[0] = ast.Namespace(None, p[3], lineno=p.lineno(1))
    else:
        p[0] = ast.Namespace(p[2], p[4], lineno=p.lineno(1))

def p_top_statement_constant(p):
    'top_statement : CONST constant_declarations SEMI'
    p[0] = ast.ConstantDeclarations(p[2], lineno=p.lineno(1))

def p_top_statement_use(p):
    'top_statement : USE use_declarations SEMI'
    p[0] = ast.UseDeclarations(p[2], lineno=p.lineno(1))

def p_use_declarations(p):
    '''use_declarations : use_declarations COMMA use_declaration
                        | use_declaration'''
    if len(p) == 4:
        p[0] = p[1] + [p[3]]
    else:
        p[0] = [p[1]]

def p_use_declaration(p):
    '''use_declaration : namespace_name
                       | NS_SEPARATOR namespace_name
                       | namespace_name AS STRING
                       | NS_SEPARATOR namespace_name AS STRING'''
    if len(p) == 2:
        p[0] = ast.UseDeclaration(p[1], None, lineno=p.lineno(1))
    elif len(p) == 3:
        p[0] = ast.UseDeclaration(p[1] + p[2], None, lineno=p.lineno(1))
    elif len(p) == 4:
        p[0] = ast.UseDeclaration(p[1], p[3], lineno=p.lineno(2))
    else:
        p[0] = ast.UseDeclaration(p[1] + p[2], p[4], lineno=p.lineno(1))

def p_constant_declarations(p):
    '''constant_declarations : constant_declarations COMMA constant_declaration
                             | constant_declaration'''
    if len(p) == 4:
        p[0] = p[1] + [p[3]]
    else:
        p[0] = [p[1]]

def p_constant_declaration(p):
    'constant_declaration : STRING EQUALS static_expr'
    p[0] = ast.ConstantDeclaration(p[1], p[3], lineno=p.lineno(1))

def p_inner_statement_list(p):
    '''inner_statement_list : inner_statement_list inner_statement
                            | empty'''
    if len(p) == 3:
        p[0] = p[1] + [p[2]]
    else:
        p[0] = []

def p_inner_statement(p):
    '''inner_statement : statement
                       | function_declaration_statement
                       | class_declaration_statement
                       | HALT_COMPILER LPAREN RPAREN SEMI'''
    assert len(p) == 2, "__HALT_COMPILER() can only be used from the outermost scope"
    p[0] = p[1]

def p_inner_statement_yield(p):
    '''inner_statement : YIELD SEMI
                       | YIELD expr SEMI'''
    if len(p) == 3:
        p[0] = ast.Yield(None, lineno=p.lineno(1))
    else:
        p[0] = ast.Yield(p[2], lineno=p.lineno(1))

def p_statement_block(p):
    'statement : LBRACE inner_statement_list RBRACE'
    p[0] = ast.Block(p[2], lineno=p.lineno(1))

def p_statement_if(p):
    '''statement : IF LPAREN expr RPAREN statement elseif_list else_single
                 | IF LPAREN expr RPAREN COLON inner_statement_list new_elseif_list new_else_single ENDIF SEMI'''
    if len(p) == 8:
        p[0] = ast.If(p[3], p[5], p[6], p[7], lineno=p.lineno(1))
    else:
        p[0] = ast.If(p[3], ast.Block(p[6], lineno=p.lineno(5)),
                      p[7], p[8], lineno=p.lineno(1))

def p_statement_while(p):
    'statement : WHILE LPAREN expr RPAREN while_statement'
    p[0] = ast.While(p[3], p[5], lineno=p.lineno(1))

def p_statement_do_while(p):
    'statement : DO statement WHILE LPAREN expr RPAREN SEMI'
    p[0] = ast.DoWhile(p[2], p[5], lineno=p.lineno(1))

def p_statement_for(p):
    'statement : FOR LPAREN for_expr SEMI for_expr SEMI for_expr RPAREN for_statement'
    p[0] = ast.For(p[3], p[5], p[7], p[9], lineno=p.lineno(1))

def p_statement_foreach(p):
    'statement : FOREACH LPAREN expr AS foreach_variable foreach_optional_arg RPAREN foreach_statement'
    if p[6] is None:
        p[0] = ast.Foreach(p[3], None, p[5], p[8], lineno=p.lineno(1))
    else:
        p[0] = ast.Foreach(p[3], p[5].name, p[6], p[8], lineno=p.lineno(1))

def p_statement_switch(p):
    'statement : SWITCH LPAREN expr RPAREN switch_case_list'
    p[0] = ast.Switch(p[3], p[5], lineno=p.lineno(1))

def p_statement_break(p):
    '''statement : BREAK SEMI
                 | BREAK expr SEMI'''
    if len(p) == 3:
        p[0] = ast.Break(None, lineno=p.lineno(1))
    else:
        p[0] = ast.Break(p[2], lineno=p.lineno(1))

def p_statement_continue(p):
    '''statement : CONTINUE SEMI
                 | CONTINUE expr SEMI'''
    if len(p) == 3:
        p[0] = ast.Continue(None, lineno=p.lineno(1))
    else:
        p[0] = ast.Continue(p[2], lineno=p.lineno(1))

def p_statement_return(p):
    '''statement : RETURN SEMI
                 | RETURN expr SEMI'''
    if len(p) == 3:
        p[0] = ast.Return(None, lineno=p.lineno(1))
    else:
        p[0] = ast.Return(p[2], lineno=p.lineno(1))

def p_statement_global(p):
    'statement : GLOBAL global_var_list SEMI'
    p[0] = ast.Global(p[2], lineno=p.lineno(1))

def p_statement_static(p):
    'statement : STATIC static_var_list SEMI'
    p[0] = ast.Static(p[2], lineno=p.lineno(1))

def p_statement_echo(p):
    'statement : ECHO echo_expr_list SEMI'
    p[0] = ast.Echo(p[2], lineno=p.lineno(1))

def p_statement_inline_html(p):
    'statement : INLINE_HTML'
    p[0] = ast.InlineHTML(p[1], lineno=p.lineno(1))

def p_statement_expr(p):
    'statement : expr SEMI'
    p[0] = p[1]

def p_statement_unset(p):
    'statement : UNSET LPAREN unset_variables RPAREN SEMI'
    p[0] = ast.Unset(p[3], lineno=p.lineno(1))

def p_statement_empty(p):
    'statement : SEMI'
    pass

def p_statement_try(p):
    'statement : TRY LBRACE inner_statement_list RBRACE additional_catches maybe_finally'
    p[0] = ast.Try(p[3], p[5], p[6], lineno=p.lineno(1))

def p_additional_catches(p):
    '''additional_catches : additional_catches CATCH LPAREN fully_qualified_class_name VARIABLE RPAREN LBRACE inner_statement_list RBRACE
                          | empty'''
    if len(p) == 10:
        p[0] = p[1] + [ast.Catch(p[4], ast.Variable(p[5], lineno=p.lineno(5)),
                                 p[8], lineno=p.lineno(2))]
    else:
        p[0] = []

def p_maybe_finally(p):
    '''maybe_finally : FINALLY LBRACE inner_statement_list RBRACE
                     | empty'''
    if len(p) == 5:
        p[0] = ast.Finally(p[3], lineno=p.lineno(2))
    else:
        p[0] = None

def p_statement_throw(p):
    'statement : THROW expr SEMI'
    p[0] = ast.Throw(p[2], lineno=p.lineno(1))

def p_statement_declare(p):
    'statement : DECLARE LPAREN declare_list RPAREN declare_statement'
    p[0] = ast.Declare(p[3], p[5], lineno=p.lineno(1))

def p_declare_list(p):
    '''declare_list : STRING EQUALS static_scalar
                    | declare_list COMMA STRING EQUALS static_scalar'''
    if len(p) == 4:
        p[0] = [ast.Directive(p[1], p[3], lineno=p.lineno(1))]
    else:
        p[0] = p[1] + [ast.Directive(p[3], p[5], lineno=p.lineno(2))]

def p_declare_statement(p):
    '''declare_statement : statement
                         | COLON inner_statement_list ENDDECLARE SEMI'''
    if len(p) == 2:
        p[0] = p[1]
    else:
        p[0] = ast.Block(p[2], lineno=p.lineno(1))

def p_elseif_list(p):
    '''elseif_list : empty
                   | elseif_list ELSEIF LPAREN expr RPAREN statement'''
    if len(p) == 2:
        p[0] = []
    else:
        p[0] = p[1] + [ast.ElseIf(p[4], p[6], lineno=p.lineno(2))]

def p_else_single(p):
    '''else_single : empty
                   | ELSE statement'''
    if len(p) == 3:
        p[0] = ast.Else(p[2], lineno=p.lineno(1))

def p_new_elseif_list(p):
    '''new_elseif_list : empty
                       | new_elseif_list ELSEIF LPAREN expr RPAREN COLON inner_statement_list'''
    if len(p) == 2:
        p[0] = []
    else:
        p[0] = p[1] + [ast.ElseIf(p[4], ast.Block(p[7], lineo=p.lineno(6)),
                                  lineno=p.lineno(2))]

def p_new_else_single(p):
    '''new_else_single : empty
                       | ELSE COLON inner_statement_list'''
    if len(p) == 4:
        p[0] = ast.Else(ast.Block(p[3], lineno=p.lineno(2)),
                        lineno=p.lineno(1))

def p_while_statement(p):
    '''while_statement : statement
                       | COLON inner_statement_list ENDWHILE SEMI'''
    if len(p) == 2:
        p[0] = p[1]
    else:
        p[0] = ast.Block(p[2], lineno=p.lineno(1))

def p_for_expr(p):
    '''for_expr : empty
                | non_empty_for_expr'''
    p[0] = p[1]

def p_non_empty_for_expr(p):
    '''non_empty_for_expr : non_empty_for_expr COMMA expr
                          | expr'''
    if len(p) == 4:
        p[0] = p[1] + [p[3]]
    else:
        p[0] = [p[1]]

def p_for_statement(p):
    '''for_statement : statement
                     | COLON inner_statement_list ENDFOR SEMI'''
    if len(p) == 2:
        p[0] = p[1]
    else:
        p[0] = ast.Block(p[2], lineno=p.lineno(1))

def p_foreach_variable(p):
    '''foreach_variable : LIST LPAREN assignment_list RPAREN
                        | variable
                        | AND variable'''
    # actually the only the value supports lists, but that's a runtime error in
    # php, so let it parse here as well
    if len(p) == 5:
        p[0] = ast.ForeachVariable(p[3], False, lineno=p.lineno(1))
    elif len(p) == 2:
        p[0] = ast.ForeachVariable(p[1], False, lineno=p.lineno(1))
    else:
        p[0] = ast.ForeachVariable(p[2], True, lineno=p.lineno(1))

def p_foreach_optional_arg(p):
    '''foreach_optional_arg : empty
                            | DOUBLE_ARROW foreach_variable'''
    if len(p) == 3:
        p[0] = p[2]

def p_foreach_statement(p):
    '''foreach_statement : statement
                         | COLON inner_statement_list ENDFOREACH SEMI'''
    if len(p) == 2:
        p[0] = p[1]
    else:
        p[0] = ast.Block(p[2], lineno=p.lineno(1))

def p_switch_case_list(p):
    '''switch_case_list : LBRACE case_list RBRACE
                        | LBRACE SEMI case_list RBRACE'''
    if len(p) == 4:
        p[0] = p[2]
    else:
        p[0] = p[3]

def p_switch_case_list_colon(p):
    '''switch_case_list : COLON case_list ENDSWITCH SEMI
                        | COLON SEMI case_list ENDSWITCH SEMI'''
    if len(p) == 5:
        p[0] = p[2]
    else:
        p[0] = p[3]

def p_case_list(p):
    '''case_list : empty
                 | case_list CASE expr case_separator inner_statement_list
                 | case_list DEFAULT case_separator inner_statement_list'''
    if len(p) == 6:
        p[0] = p[1] + [ast.Case(p[3], p[5], lineno=p.lineno(2))]
    elif len(p) == 5:
        p[0] = p[1] + [ast.Default(p[4], lineno=p.lineno(2))]
    else:
        p[0] = []

def p_case_separator(p):
    '''case_separator : COLON
                      | SEMI'''
    pass

def p_global_var_list(p):
    '''global_var_list : global_var_list COMMA global_var
                       | global_var'''
    if len(p) == 4:
        p[0] = p[1] + [p[3]]
    else:
        p[0] = [p[1]]

def p_global_var(p):
    '''global_var : VARIABLE
                  | DOLLAR variable
                  | DOLLAR LBRACE expr RBRACE'''
    if len(p) == 2:
        p[0] = ast.Variable(p[1], lineno=p.lineno(1))
    elif len(p) == 3:
        p[0] = ast.Variable(p[2], lineno=p.lineno(1))
    else:
        p[0] = ast.Variable(p[3], lineno=p.lineno(1))

def p_static_var_list(p):
    '''static_var_list : static_var_list COMMA static_var
                       | static_var'''
    if len(p) == 4:
        p[0] = p[1] + [p[3]]
    else:
        p[0] = [p[1]]

def p_static_var(p):
    '''static_var : VARIABLE EQUALS static_scalar
                  | VARIABLE'''
    if len(p) == 4:
        p[0] = ast.StaticVariable(p[1], p[3], lineno=p.lineno(1))
    else:
        p[0] = ast.StaticVariable(p[1], None, lineno=p.lineno(1))

def p_echo_expr_list(p):
    '''echo_expr_list : echo_expr_list COMMA expr
                      | expr'''
    if len(p) == 4:
        p[0] = p[1] + [p[3]]
    else:
        p[0] = [p[1]]

def p_unset_variables(p):
    '''unset_variables : unset_variables COMMA unset_variable
                       | unset_variable'''
    if len(p) == 4:
        p[0] = p[1] + [p[3]]
    else:
        p[0] = [p[1]]

def p_unset_variable(p):
    'unset_variable : variable'
    p[0] = p[1]

def p_function_declaration_statement(p):
    'function_declaration_statement : FUNCTION is_reference STRING LPAREN parameter_list RPAREN LBRACE inner_statement_list RBRACE'
    p[0] = ast.Function(p[3], p[5], p[8], p[2], lineno=p.lineno(1))

def p_class_declaration_statement(p):
    '''class_declaration_statement : class_entry_type STRING extends_from implements_list LBRACE class_statement_list RBRACE
                                   | INTERFACE STRING interface_extends_list LBRACE class_statement_list RBRACE
                                   | TRAIT STRING LBRACE trait_statement_list RBRACE'''
    if len(p) == 8:
        traits = []
        stmts = []
        for s in p[6]:
            if isinstance(s, ast.TraitUse):
                traits.append(s)
            else:
                stmts.append(s)
        p[0] = ast.Class(p[2], p[1], p[3], p[4], traits, stmts, lineno=p.lineno(2))
    elif len(p) == 7:
        p[0] = ast.Interface(p[2], p[3], p[5], lineno=p.lineno(1))
    else:
        traits = []
        stmts = []
        for s in p[4]:
            if isinstance(s, ast.TraitUse):
                traits.append(s)
            else:
                stmts.append(s)
        p[0] = ast.Trait(p[2], traits, stmts, lineno=p.lineno(1))

def p_class_entry_type(p):
    '''class_entry_type : CLASS
                        | ABSTRACT CLASS
                        | FINAL CLASS'''
    if len(p) == 3:
        p[0] = p[1].lower()

def p_extends_from(p):
    '''extends_from : empty
                    | EXTENDS fully_qualified_class_name'''
    if len(p) == 3:
        p[0] = p[2]

def p_fully_qualified_class_name(p):
    '''fully_qualified_class_name : namespace_name
                                  | NS_SEPARATOR namespace_name
                                  | NAMESPACE NS_SEPARATOR namespace_name'''
    if len(p) == 2:
        p[0] = p[1]
    elif len(p) == 3:
        p[0] = p[1] + p[2]
    else:
        p[0] = p[1] + p[2] + p[3]

def p_implements_list(p):
    '''implements_list : IMPLEMENTS interface_list
                       | empty'''
    if len(p) == 3:
        p[0] = p[2]
    else:
        p[0] = []

def p_trait_modifiers_list(p):
    '''trait_modifiers_list : trait_modifiers_list trait_modifier
                            | empty'''
    if len(p) == 3:
        p[0] = p[1] + [p[2]]
    else:
        p[0] = []

def p_trait_member(p):
    '''trait_member : fully_qualified_class_name DOUBLE_COLON STRING
                    | STRING'''
    if len(p) == 4:
        p[0] = ast.StaticProperty(p[1], p[3], lineno=p.lineno(2))
    else:
        p[0] = p[1]

def p_trait_modifier(p):
    'trait_modifier : trait_member AS STRING SEMI'
    p[0] = ast.TraitModifier(p[1], p[3], None)

def p_trait_modifier_with_visibility(p):
    '''trait_modifier : trait_member AS visibility_modifier STRING SEMI
                      | trait_member AS visibility_modifier SEMI'''
    if len(p) == 6:
        p[0] = ast.TraitModifier(p[1], p[4], p[3])
    else:
        p[0] = ast.TraitModifier(p[1], None, p[3])

def p_trait_statement_list(p):
    '''trait_statement_list : trait_statement_list trait_statement
                            | empty'''

    if len(p) == 3:
        p[0] = p[1] + [p[2]]
    else:
        p[0] = []

def p_trait_statement(p):
    '''trait_statement : method_modifiers FUNCTION is_reference STRING LPAREN parameter_list RPAREN method_body
                       | variable_modifiers class_variable_declaration SEMI
                       | USE fully_qualified_class_name LBRACE trait_modifiers_list RBRACE
                       | USE fully_qualified_class_name SEMI'''
    if len(p) == 9:
        p[0] = ast.Method(p[4], p[1], p[6], p[8], p[3], lineno=p.lineno(2))
    elif len(p) == 6:
        p[0] = ast.TraitUse(p[2], p[4], lineno=p.lineno(1))
    else:
        if p[1] == 'use':
            p[0] = ast.TraitUse(p[2], [], lineno=p.lineno(1))
        else:
            p[0] = ast.ClassVariables(p[1], p[2], lineno=p.lineno(3))

def p_class_statement_list(p):
    '''class_statement_list : class_statement_list class_statement
                            | empty'''

    if len(p) == 3:
        p[0] = p[1] + [p[2]]
    else:
        p[0] = []

def p_class_statement(p):
    '''class_statement : method_modifiers FUNCTION is_reference STRING LPAREN parameter_list RPAREN method_body
                       | variable_modifiers class_variable_declaration SEMI
                       | class_constant_declaration SEMI
                       | USE fully_qualified_class_name LBRACE trait_modifiers_list RBRACE
                       | USE fully_qualified_class_name SEMI'''
    if len(p) == 9:
        p[0] = ast.Method(p[4], p[1], p[6], p[8], p[3], lineno=p.lineno(2))
    elif len(p) == 6:
        p[0] = ast.TraitUse(p[2], p[4], lineno=p.lineno(1))
    elif len(p) == 4:
        if p[1] == 'use':
            p[0] = ast.TraitUse(p[2], [], lineno=p.lineno(1))
        else:
            p[0] = ast.ClassVariables(p[1], p[2], lineno=p.lineno(3))
    else:
        p[0] = ast.ClassConstants(p[1], lineno=p.lineno(2))

def p_class_variable_declaration_initial(p):
    '''class_variable_declaration : class_variable_declaration COMMA VARIABLE EQUALS static_scalar
                                  | VARIABLE EQUALS static_scalar'''
    if len(p) == 6:
        p[0] = p[1] + [ast.ClassVariable(p[3], p[5], lineno=p.lineno(2))]
    else:
        p[0] = [ast.ClassVariable(p[1], p[3], lineno=p.lineno(1))]

def p_class_variable_declaration_no_initial(p):
    '''class_variable_declaration : class_variable_declaration COMMA VARIABLE
                                  | VARIABLE'''
    if len(p) == 4:
        p[0] = p[1] + [ast.ClassVariable(p[3], None, lineno=p.lineno(2))]
    else:
        p[0] = [ast.ClassVariable(p[1], None, lineno=p.lineno(1))]

def p_class_constant_declaration(p):
    '''class_constant_declaration : class_constant_declaration COMMA STRING EQUALS static_expr
                                  | CONST STRING EQUALS static_expr'''
    if len(p) == 6:
        p[0] = p[1] + [ast.ClassConstant(p[3], p[5], lineno=p.lineno(2))]
    else:
        p[0] = [ast.ClassConstant(p[2], p[4], lineno=p.lineno(1))]

def p_interface_list(p):
    '''interface_list : interface_list COMMA fully_qualified_class_name
                      | fully_qualified_class_name'''
    if len(p) == 4:
        p[0] = p[1] + [p[3]]
    else:
        p[0] = [p[1]]

def p_interface_extends_list(p):
    '''interface_extends_list : EXTENDS interface_list
                              | empty'''
    if len(p) == 3:
        p[0] = p[2]

def p_variable_modifiers_non_empty(p):
    'variable_modifiers : non_empty_member_modifiers'
    p[0] = p[1]

def p_variable_modifiers_var(p):
    'variable_modifiers : VAR'
    p[0] = []

def p_method_modifiers_non_empty(p):
    'method_modifiers : non_empty_member_modifiers'
    p[0] = p[1]

def p_method_modifiers_empty(p):
    'method_modifiers : empty'
    p[0] = []

def p_method_body(p):
    '''method_body : LBRACE inner_statement_list RBRACE
                   | SEMI'''
    if len(p) == 4:
        p[0] = p[2]
    else:
        p[0] = []

def p_non_empty_member_modifiers(p):
    '''non_empty_member_modifiers : non_empty_member_modifiers member_modifier
                                  | member_modifier'''
    if len(p) == 3:
        p[0] = p[1] + [p[2]]
    else:
        p[0] = [p[1]]

def p_visibility_modifier(p):
    '''visibility_modifier : PUBLIC
                           | PROTECTED
                           | PRIVATE'''
    p[0] = p[1].lower()

def p_member_modifier(p):
    '''member_modifier : visibility_modifier
                       | STATIC
                       | ABSTRACT
                       | FINAL'''
    p[0] = p[1].lower()

def p_is_reference(p):
    '''is_reference : AND
                    | empty'''
    p[0] = p[1] is not None

def p_parameter_list(p):
    '''parameter_list : parameter_list COMMA parameter
                      | parameter'''
    if len(p) == 4:
        p[0] = p[1] + [p[3]]
    else:
        p[0] = [p[1]]

def p_parameter_list_empty(p):
    'parameter_list : empty'
    p[0] = []

def p_parameter(p):
    '''parameter : VARIABLE
                 | class_name VARIABLE
                 | AND VARIABLE
                 | class_name AND VARIABLE
                 | VARIABLE EQUALS static_scalar
                 | class_name VARIABLE EQUALS static_scalar
                 | AND VARIABLE EQUALS static_scalar
                 | class_name AND VARIABLE EQUALS static_scalar'''
    if len(p) == 2: # VARIABLE
        p[0] = ast.FormalParameter(p[1], None, False, None, lineno=p.lineno(1))
    elif len(p) == 3 and p[1] == '&': # AND VARIABLE
        p[0] = ast.FormalParameter(p[2], None, True, None, lineno=p.lineno(1))
    elif len(p) == 3 and p[1] != '&': # STRING VARIABLE
        p[0] = ast.FormalParameter(p[2], None, False, p[1], lineno=p.lineno(1))
    elif len(p) == 4 and p[2] != '&': # VARIABLE EQUALS static_scalar
        p[0] = ast.FormalParameter(p[1], p[3], False, None, lineno=p.lineno(1))
    elif len(p) == 4 and p[2] == '&': # STRING AND VARIABLE
        p[0] = ast.FormalParameter(p[3], None, True, p[1], lineno=p.lineno(1))
    elif len(p) == 5 and p[1] == '&': # AND VARIABLE EQUALS static_scalar
        p[0] = ast.FormalParameter(p[2], p[4], True, None, lineno=p.lineno(1))
    elif len(p) == 5 and p[1] != '&': # class_name VARIABLE EQUALS static_scalar
        p[0] = ast.FormalParameter(p[2], p[4], False, p[1], lineno=p.lineno(1))
    else: # STRING AND VARIABLE EQUALS static_scalar
        p[0] = ast.FormalParameter(p[3], p[5], True, p[1], lineno=p.lineno(1))

def p_expr_variable(p):
    'expr : variable'
    p[0] = p[1]

def p_expr_assign(p):
    '''expr : variable EQUALS expr
            | variable EQUALS AND expr'''
    if len(p) == 5:
        p[0] = ast.Assignment(p[1], p[4], True, lineno=p.lineno(2))
    else:
        p[0] = ast.Assignment(p[1], p[3], False, lineno=p.lineno(2))

def p_expr_new(p):
    'expr : NEW class_name_reference ctor_arguments'
    p[0] = ast.New(p[2], p[3], lineno=p.lineno(1))

def p_expr_objectop(p):
    'expr : expr OBJECT_OPERATOR object_property method_or_not'
    name, _dims = p[3]
    assert _dims == []
    params = p[4]
    if params is not None:
        p[0] = ast.MethodCall(p[1], name, params, lineno=p.lineno(3))
    else:
        p[0] = ast.ObjectProperty(p[1], name, lineno=p.lineno(3))

def p_class_name_reference(p):
    '''class_name_reference : class_name
                            | dynamic_class_name_reference'''
    p[0] = p[1]

def p_class_name(p):
    '''class_name : namespace_name
                  | NS_SEPARATOR namespace_name
                  | NAMESPACE NS_SEPARATOR namespace_name'''
    if len(p) == 2:
        p[0] = p[1]
    elif len(p) == 3:
        p[0] = p[1] + p[2]
    else:
        p[0] = p[1] + p[2] + p[3]

def p_class_name_static(p):
    'class_name : STATIC'
    p[0] = p[1].lower()

def p_dynamic_class_name_reference(p):
    '''dynamic_class_name_reference : base_variable OBJECT_OPERATOR object_property dynamic_class_name_variable_properties
                                    | base_variable'''
    if len(p) == 5:
        name, dims = p[3]
        p[0] = ast.ObjectProperty(p[1], name, lineno=p.lineno(2))
        for class_, dim, lineno in dims:
            p[0] = class_(p[0], dim, lineno=lineno)
        for name, dims in p[4]:
            p[0] = ast.ObjectProperty(p[0], name, lineno=p.lineno(2))
            for class_, dim, lineno in dims:
                p[0] = class_(p[0], dim, lineno=lineno)
    else:
        p[0] = p[1]

def p_dynamic_class_name_variable_properties(p):
    '''dynamic_class_name_variable_properties : dynamic_class_name_variable_properties dynamic_class_name_variable_property
                                              | empty'''
    if len(p) == 3:
        p[0] = p[1] + [p[2]]
    else:
        p[0] = []

def p_dynamic_class_name_variable_property(p):
    'dynamic_class_name_variable_property : OBJECT_OPERATOR object_property'
    p[0] = p[2]

def p_ctor_arguments(p):
    '''ctor_arguments : LPAREN function_call_parameter_list RPAREN
                      | empty'''
    if len(p) == 4:
        p[0] = p[2]
    else:
        p[0] = []

def p_expr_clone(p):
    'expr : CLONE expr'
    p[0] = ast.Clone(p[2], lineno=p.lineno(1))

def p_expr_list_assign(p):
    'expr : LIST LPAREN assignment_list RPAREN EQUALS expr'
    p[0] = ast.ListAssignment(p[3], p[6], lineno=p.lineno(1))

def p_assignment_list(p):
    '''assignment_list : assignment_list COMMA assignment_list_element
                       | assignment_list_element'''
    if len(p) == 4:
        p[0] = p[1] + [p[3]]
    else:
        p[0] = [p[1]]

def p_assignment_list_element(p):
    '''assignment_list_element : variable
                               | empty
                               | LIST LPAREN assignment_list RPAREN'''
    if len(p) == 2:
        p[0] = p[1]
    else:
        p[0] = p[3]

def p_variable(p):
    '''variable : base_variable_with_function_calls OBJECT_OPERATOR object_property method_or_not variable_properties
                | base_variable_with_function_calls'''
    if len(p) == 6:
        name, dims = p[3]
        params = p[4]
        if params is not None:
            p[0] = ast.MethodCall(p[1], name, params, lineno=p.lineno(2))
        else:
            p[0] = ast.ObjectProperty(p[1], name, lineno=p.lineno(2))
        for class_, dim, lineno in dims:
            p[0] = class_(p[0], dim, lineno=lineno)
        for (name, dims), params in p[5]:
            if params is not None:
                p[0] = ast.MethodCall(p[0], name, params, lineno=p.lineno(2))
            else:
                p[0] = ast.ObjectProperty(p[0], name, lineno=p.lineno(2))
            for class_, dim, lineno in dims:
                p[0] = class_(p[0], dim, lineno=lineno)
    else:
        p[0] = p[1]

def p_base_variable_with_function_calls(p):
    '''base_variable_with_function_calls : base_variable
                                         | function_call'''
    p[0] = p[1]

def p_function_call(p):
    '''function_call : namespace_name LPAREN function_call_parameter_list RPAREN
                     | NS_SEPARATOR namespace_name LPAREN function_call_parameter_list RPAREN
                     | NAMESPACE NS_SEPARATOR namespace_name LPAREN function_call_parameter_list RPAREN'''
    if len(p) == 5:
        p[0] = ast.FunctionCall(p[1], p[3], lineno=p.lineno(2))
    elif len(p) == 6:
        p[0] = ast.FunctionCall(p[1] + p[2], p[4], lineno=p.lineno(1))
    else:
        p[0] = ast.FunctionCall(p[1] + p[2] + p[3], p[5], lineno=p.lineno(1))

def p_function_call_static(p):
    '''function_call : class_name DOUBLE_COLON STRING LPAREN function_call_parameter_list RPAREN
                     | class_name DOUBLE_COLON variable_without_objects LPAREN function_call_parameter_list RPAREN
                     | variable_class_name DOUBLE_COLON STRING LPAREN function_call_parameter_list RPAREN
                     | variable_class_name DOUBLE_COLON variable_without_objects LPAREN function_call_parameter_list RPAREN'''
    p[0] = ast.StaticMethodCall(p[1], p[3], p[5], lineno=p.lineno(2))

def p_function_call_static_dynamic_name(p):
    '''function_call : class_name DOUBLE_COLON LBRACE expr RBRACE LPAREN function_call_parameter_list RPAREN
                     | variable_class_name DOUBLE_COLON LBRACE expr RBRACE LPAREN function_call_parameter_list RPAREN'''
    p[0] = ast.StaticMethodCall(p[1], p[4], p[7], lineno=p.lineno(2))

def p_function_call_variable(p):
    'function_call : variable_without_objects LPAREN function_call_parameter_list RPAREN'
    p[0] = ast.FunctionCall(p[1], p[3], lineno=p.lineno(2))

def p_function_call_backtick_shell_exec(p):
    'function_call : BACKTICK encaps_list BACKTICK'
    p[0] = ast.FunctionCall('shell_exec', [ast.Parameter(p[2], False)], lineno=p.lineno(1))

def p_method_or_not(p):
    '''method_or_not : LPAREN function_call_parameter_list RPAREN
                     | empty'''
    if len(p) == 4:
        p[0] = p[2]

def p_variable_properties(p):
    '''variable_properties : variable_properties variable_property
                           | empty'''
    if len(p) == 3:
        p[0] = p[1] + [p[2]]
    else:
        p[0] = []

def p_variable_property(p):
    'variable_property : OBJECT_OPERATOR object_property method_or_not'
    p[0] = (p[2], p[3])

def p_base_variable(p):
    '''base_variable : simple_indirect_reference
                     | static_member'''
    p[0] = p[1]

def p_simple_indirect_reference(p):
    '''simple_indirect_reference : DOLLAR simple_indirect_reference
                                 | reference_variable'''
    if len(p) == 3:
        p[0] = ast.Variable(p[2], lineno=p.lineno(1))
    else:
        p[0] = p[1]

def p_static_member(p):
    '''static_member : class_name DOUBLE_COLON variable_without_objects
                     | variable_class_name DOUBLE_COLON variable_without_objects
                     | class_name DOUBLE_COLON LBRACE expr RBRACE
                     | variable_class_name DOUBLE_COLON LBRACE expr RBRACE'''
    if len(p) == 4:
        p[0] = ast.StaticProperty(p[1], p[3], lineno=p.lineno(2))
    else:
        p[0] = ast.StaticProperty(p[1], p[4], lineno=p.lineno(2))

def p_variable_class_name(p):
    'variable_class_name : reference_variable'
    p[0] = p[1]

def p_variable_array_offset(p):
    'variable : variable LBRACKET dim_offset RBRACKET'
    p[0] = ast.ArrayOffset(p[1], p[3], lineno=p.lineno(2))

def p_reference_variable_array_offset(p):
    'reference_variable : reference_variable LBRACKET dim_offset RBRACKET'
    p[0] = ast.ArrayOffset(p[1], p[3], lineno=p.lineno(2))

def p_reference_variable_string_offset(p):
    'reference_variable : reference_variable LBRACE expr RBRACE'
    p[0] = ast.StringOffset(p[1], p[3], lineno=p.lineno(2))

def p_reference_variable_compound_variable(p):
    'reference_variable : compound_variable'
    p[0] = p[1]

def p_expr_string_offset(p):
    'expr : expr LBRACE dim_offset RBRACE'
    p[0] = ast.StringOffset(p[1], p[3], lineno=p.lineno(2))

def p_compound_variable(p):
    '''compound_variable : VARIABLE
                         | DOLLAR LBRACE expr RBRACE'''
    if len(p) == 2:
        p[0] = ast.Variable(p[1], lineno=p.lineno(1))
    else:
        p[0] = ast.Variable(p[3], lineno=p.lineno(1))

def p_dim_offset(p):
    '''dim_offset : expr
                  | empty'''
    p[0] = p[1]

def p_object_property(p):
    '''object_property : variable_name object_dim_list
                       | variable_without_objects'''
    if len(p) == 3:
        p[0] = (p[1], p[2])
    else:
        p[0] = (p[1], [])

def p_object_dim_list_empty(p):
    'object_dim_list : empty'
    p[0] = []

def p_object_dim_list_array_offset(p):
    'object_dim_list : object_dim_list LBRACKET dim_offset RBRACKET'
    p[0] = p[1] + [(ast.ArrayOffset, p[3], p.lineno(2))]

def p_object_dim_list_string_offset(p):
    'object_dim_list : object_dim_list LBRACE expr RBRACE'
    p[0] = p[1] + [(ast.StringOffset, p[3], p.lineno(2))]

def p_variable_name(p):
    '''variable_name : STRING
                     | LBRACE expr RBRACE'''
    if len(p) == 2:
        p[0] = p[1]
    else:
        p[0] = p[2]

def p_variable_without_objects(p):
    'variable_without_objects : simple_indirect_reference'
    p[0] = p[1]

def p_expr_scalar(p):
    'expr : scalar'
    p[0] = p[1]

def p_expr_array(p):
    '''expr : ARRAY LPAREN array_pair_list RPAREN
            | LBRACKET array_pair_list RBRACKET'''
    if len(p) == 5:
        contents = p[3]
    else:
        contents = p[2]

    p[0] = ast.Array(contents, lineno=p.lineno(1))

def p_array_pair_list(p):
    '''array_pair_list : empty
                       | non_empty_array_pair_list possible_comma'''
    if len(p) == 2:
        p[0] = []
    else:
        p[0] = p[1]

def p_non_empty_array_pair_list_item(p):
    '''non_empty_array_pair_list : non_empty_array_pair_list COMMA AND variable
                                 | non_empty_array_pair_list COMMA expr
                                 | AND variable
                                 | expr'''
    if len(p) == 5:
        p[0] = p[1] + [ast.ArrayElement(None, p[4], True, lineno=p.lineno(2))]
    elif len(p) == 4:
        p[0] = p[1] + [ast.ArrayElement(None, p[3], False, lineno=p.lineno(2))]
    elif len(p) == 3:
        p[0] = [ast.ArrayElement(None, p[2], True, lineno=p.lineno(1))]
    else:
        p[0] = [ast.ArrayElement(None, p[1], False, lineno=p.lineno(1))]

def p_non_empty_array_pair_list_pair(p):
    '''non_empty_array_pair_list : non_empty_array_pair_list COMMA expr DOUBLE_ARROW AND variable
                                 | non_empty_array_pair_list COMMA expr DOUBLE_ARROW expr
                                 | expr DOUBLE_ARROW AND variable
                                 | expr DOUBLE_ARROW expr'''
    if len(p) == 7:
        p[0] = p[1] + [ast.ArrayElement(p[3], p[6], True, lineno=p.lineno(2))]
    elif len(p) == 6:
        p[0] = p[1] + [ast.ArrayElement(p[3], p[5], False, lineno=p.lineno(2))]
    elif len(p) == 5:
        p[0] = [ast.ArrayElement(p[1], p[4], True, lineno=p.lineno(2))]
    else:
        p[0] = [ast.ArrayElement(p[1], p[3], False, lineno=p.lineno(2))]

def p_possible_comma(p):
    '''possible_comma : empty
                      | COMMA'''
    pass

def p_function_call_parameter_list(p):
    '''function_call_parameter_list : function_call_parameter_list COMMA function_call_parameter
                                    | function_call_parameter'''
    if len(p) == 4:
        p[0] = p[1] + [p[3]]
    else:
        p[0] = [p[1]]

def p_function_call_parameter_list_empty(p):
    'function_call_parameter_list : empty'
    p[0] = []

def p_function_call_parameter(p):
    '''function_call_parameter : expr
                               | AND variable'''
    if len(p) == 2:
        p[0] = ast.Parameter(p[1], False, lineno=p.lineno(1))
    else:
        p[0] = ast.Parameter(p[2], True, lineno=p.lineno(1))

def p_expr_function(p):
    'expr : FUNCTION is_reference LPAREN parameter_list RPAREN lexical_vars LBRACE inner_statement_list RBRACE'
    p[0] = ast.Closure(p[4], p[6], p[8], p[2], lineno=p.lineno(1))

def p_lexical_vars(p):
    '''lexical_vars : USE LPAREN lexical_var_list RPAREN
                    | empty'''
    if len(p) == 5:
        p[0] = p[3]
    else:
        p[0] = []

def p_lexical_var_list(p):
    '''lexical_var_list : lexical_var_list COMMA AND VARIABLE
                        | lexical_var_list COMMA VARIABLE
                        | AND VARIABLE
                        | VARIABLE'''
    if len(p) == 5:
        p[0] = p[1] + [ast.LexicalVariable(p[4], True, lineno=p.lineno(2))]
    elif len(p) == 4:
        p[0] = p[1] + [ast.LexicalVariable(p[3], False, lineno=p.lineno(2))]
    elif len(p) == 3:
        p[0] = [ast.LexicalVariable(p[2], True, lineno=p.lineno(1))]
    else:
        p[0] = [ast.LexicalVariable(p[1], False, lineno=p.lineno(1))]

def p_expr_assign_op(p):
    '''expr : variable PLUS_EQUAL expr
            | variable MINUS_EQUAL expr
            | variable MUL_EQUAL expr
            | variable DIV_EQUAL expr
            | variable CONCAT_EQUAL expr
            | variable MOD_EQUAL expr
            | variable AND_EQUAL expr
            | variable OR_EQUAL expr
            | variable XOR_EQUAL expr
            | variable SL_EQUAL expr
            | variable SR_EQUAL expr'''
    p[0] = ast.AssignOp(p[2], p[1], p[3], lineno=p.lineno(2))

def p_expr_binary_op(p):
    '''expr : expr BOOLEAN_AND expr
            | expr BOOLEAN_OR expr
            | expr LOGICAL_AND expr
            | expr LOGICAL_OR expr
            | expr LOGICAL_XOR expr
            | expr AND expr
            | expr OR expr
            | expr XOR expr
            | expr CONCAT expr
            | expr PLUS expr
            | expr MINUS expr
            | expr MUL expr
            | expr DIV expr
            | expr SL expr
            | expr SR expr
            | expr MOD expr
            | expr IS_IDENTICAL expr
            | expr IS_NOT_IDENTICAL expr
            | expr IS_EQUAL expr
            | expr IS_NOT_EQUAL expr
            | expr IS_SMALLER expr
            | expr IS_SMALLER_OR_EQUAL expr
            | expr IS_GREATER expr
            | expr IS_GREATER_OR_EQUAL expr
            | expr INSTANCEOF expr
            | expr INSTANCEOF STATIC'''
    p[0] = ast.BinaryOp(p[2].lower(), p[1], p[3], lineno=p.lineno(2))

def p_expr_unary_op(p):
    '''expr : PLUS expr
            | MINUS expr
            | NOT expr
            | BOOLEAN_NOT expr'''
    p[0] = ast.UnaryOp(p[1], p[2], lineno=p.lineno(1))

def p_expr_ternary_op(p):
    'expr : expr QUESTION expr COLON expr'
    p[0] = ast.TernaryOp(p[1], p[3], p[5], lineno=p.lineno(2))

def p_expr_short_ternary_op(p):
    'expr : expr QUESTION COLON expr'
    p[0] = ast.TernaryOp(p[1], p[1], p[4], lineno=p.lineno(2))

def p_expr_pre_incdec(p):
    '''expr : INC variable
            | DEC variable'''
    p[0] = ast.PreIncDecOp(p[1], p[2], lineno=p.lineno(1))

def p_expr_post_incdec(p):
    '''expr : variable INC
            | variable DEC'''
    p[0] = ast.PostIncDecOp(p[2], p[1], lineno=p.lineno(2))

def p_expr_cast_int(p):
    'expr : INT_CAST expr'
    p[0] = ast.Cast('int', p[2], lineno=p.lineno(1))

def p_expr_cast_double(p):
    'expr : DOUBLE_CAST expr'
    p[0] = ast.Cast('double', p[2], lineno=p.lineno(1))

def p_expr_cast_string(p):
    'expr : STRING_CAST expr'
    p[0] = ast.Cast('string', p[2], lineno=p.lineno(1))

def p_expr_cast_array(p):
    'expr : ARRAY_CAST expr'
    p[0] = ast.Cast('array', p[2], lineno=p.lineno(1))

def p_expr_cast_object(p):
    'expr : OBJECT_CAST expr'
    p[0] = ast.Cast('object', p[2], lineno=p.lineno(1))

def p_expr_cast_bool(p):
    'expr : BOOL_CAST expr'
    p[0] = ast.Cast('bool', p[2], lineno=p.lineno(1))

def p_expr_cast_unset(p):
    'expr : UNSET_CAST expr'
    p[0] = ast.Cast('unset', p[2], lineno=p.lineno(1))

def p_expr_cast_binary(p):
    'expr : BINARY_CAST expr'
    p[0] = ast.Cast('binary', p[2], lineno=p.lineno(1))

def p_expr_isset(p):
    'expr : ISSET LPAREN isset_variables RPAREN'
    p[0] = ast.IsSet(p[3], lineno=p.lineno(1))

def p_isset_variables(p):
    '''isset_variables : isset_variables COMMA variable
                       | variable'''
    if len(p) == 4:
        p[0] = p[1] + [p[3]]
    else:
        p[0] = [p[1]]

def p_expr_empty(p):
    'expr : EMPTY LPAREN expr RPAREN'
    p[0] = ast.Empty(p[3], lineno=p.lineno(1))

def p_expr_eval(p):
    'expr : EVAL LPAREN expr RPAREN'
    p[0] = ast.Eval(p[3], lineno=p.lineno(1))

def p_expr_include(p):
    'expr : INCLUDE expr'
    p[0] = ast.Include(p[2], False, lineno=p.lineno(1))

def p_expr_include_once(p):
    'expr : INCLUDE_ONCE expr'
    p[0] = ast.Include(p[2], True, lineno=p.lineno(1))

def p_expr_require(p):
    'expr : REQUIRE expr'
    p[0] = ast.Require(p[2], False, lineno=p.lineno(1))

def p_expr_require_once(p):
    'expr : REQUIRE_ONCE expr'
    p[0] = ast.Require(p[2], True, lineno=p.lineno(1))

def p_exit_or_die(p):
    '''exit_or_die : EXIT
                   | DIE'''
    p[0] = p[1]
    p.set_lineno(0, p.lineno(1))

def p_expr_exit(p):
    '''expr : exit_or_die
            | exit_or_die LPAREN RPAREN
            | exit_or_die LPAREN expr RPAREN'''
    # although they're treated the same in PHP itself, annotate the exit type
    # (die/exit) so that apps can create better user experience
    if len(p) == 5:
        p[0] = ast.Exit(p[3], p[1], lineno=p.lineno(1))
    else:
        p[0] = ast.Exit(None, p[1], lineno=p.lineno(1))

def p_expr_print(p):
    'expr : PRINT expr'
    p[0] = ast.Print(p[2], lineno=p.lineno(1))

def p_expr_silence(p):
    'expr : AT expr'
    p[0] = ast.Silence(p[2], lineno=p.lineno(1))

def p_expr_group(p):
    'expr : LPAREN expr RPAREN'
    p[0] = p[2]

def p_scalar(p):
    '''scalar : class_constant
              | common_scalar
              | QUOTE encaps_list QUOTE
              | STRING QUOTE encaps_list QUOTE
              | scalar_heredoc
              | nowdoc
              | class_name_constant'''
    if len(p) == 4:
        p[0] = p[2]
    elif len(p) == 5:
        if p[1] == 'b':
            p[0] = p[3]
    else:
        p[0] = p[1]

def p_scalar_heredoc(p):
    'scalar_heredoc : START_HEREDOC encaps_list END_HEREDOC'
    if isinstance(p[2], ast.BinaryOp):
        # due to how lexer works, the last operation is joining an unnecessary
        # newline character
        assert isinstance(p[2].right, string_type)
        p[2].right = p[2].right[:-1]
        if p[2].right:
            p[0] = p[2]
        else:
            p[0] = p[2].left
    else:
        # due to how lexer works, the last operation is joining an unnecessary
        # newline character
        p[0] = p[2][:-1]

def p_nowdoc(p):
    'nowdoc : START_NOWDOC nowdoc_text_content END_NOWDOC'
    # due to how lexer works, the last operation is joining an unnecessary
    # newline character
    p[0] = p[2][:-1]

def p_nowdoc_text_content(p):
    '''nowdoc_text_content : nowdoc_text_content ENCAPSED_AND_WHITESPACE
                           | empty'''
    if len(p) == 3:
        p[0] = p[1] + p[2]
    else:
        p[0] = ''

def p_scalar_string_varname(p):
    'scalar : STRING_VARNAME'
    p[0] = ast.Variable('$' + p[1], lineno=p.lineno(1))

def p_scalar_namespace_name(p):
    '''scalar : namespace_name
              | NS_SEPARATOR namespace_name
              | NAMESPACE NS_SEPARATOR namespace_name'''
    if len(p) == 2:
        p[0] = ast.Constant(p[1], lineno=p.lineno(1))
    elif len(p) == 3:
        p[0] = ast.Constant(p[1] + p[2], lineno=p.lineno(1))
    else:
        p[0] = ast.Constant(p[1] + p[2] + p[3], lineno=p.lineno(1))

def p_class_constant(p):
    '''class_constant : class_name DOUBLE_COLON STRING
                      | variable_class_name DOUBLE_COLON STRING'''
    p[0] = ast.StaticProperty(p[1], p[3], lineno=p.lineno(2))

def p_common_scalar_lnumber(p):
    'common_scalar : LNUMBER'
    if p[1].startswith('0x'):
        p[0] = int(p[1], 16)
    elif p[1].startswith('0b'):
        p[0] = int(p[1], 2)
    elif p[1].startswith('0'):
        p[0] = int(p[1], 8)
    else:
        p[0] = int(p[1])

def p_common_scalar_dnumber(p):
    'common_scalar : DNUMBER'
    p[0] = float(p[1])

def p_common_scalar_string(p):
    '''common_scalar : CONSTANT_ENCAPSED_STRING
                     | STRING CONSTANT_ENCAPSED_STRING'''
    if len(p) == 3:
        if p[1] == 'b':
            p[0] = p[2][1:-1].replace("\\'", "'").replace('\\\\', '\\')
    else:
        p[0] = p[1][1:-1].replace("\\'", "'").replace('\\\\', '\\')

def p_common_scalar_magic_line(p):
    'common_scalar : LINE'
    p[0] = ast.MagicConstant(p[1].upper(), p.lineno(1), lineno=p.lineno(1))

def p_common_scalar_magic_file(p):
    'common_scalar : FILE'
    value = getattr(p.lexer, 'filename', None)
    p[0] = ast.MagicConstant(p[1].upper(), value, lineno=p.lineno(1))

def p_common_scalar_magic_dir(p):
    'common_scalar : DIR'
    value = getattr(p.lexer, 'filename', None)
    if value is not None:
        value = os.path.dirname(value)
    p[0] = ast.MagicConstant(p[1].upper(), value, lineno=p.lineno(1))

def p_common_scalar_magic_class(p):
    'common_scalar : CLASS_C'
    p[0] = ast.MagicConstant(p[1].upper(), None, lineno=p.lineno(1))

def p_common_scalar_magic_method(p):
    'common_scalar : METHOD_C'
    p[0] = ast.MagicConstant(p[1].upper(), None, lineno=p.lineno(1))

def p_common_scalar_magic_func(p):
    'common_scalar : FUNC_C'
    p[0] = ast.MagicConstant(p[1].upper(), None, lineno=p.lineno(1))

def p_common_scalar_magic_ns(p):
    'common_scalar : NS_C'
    p[0] = ast.MagicConstant(p[1].upper(), None, lineno=p.lineno(1))

def p_static_scalar(p):
    '''static_scalar : common_scalar
                     | class_constant
                     | QUOTE QUOTE
                     | QUOTE ENCAPSED_AND_WHITESPACE QUOTE
                     | static_heredoc
                     | nowdoc
                     | class_name_constant'''
    if len(p) == 2:
        p[0] = p[1]
    elif len(p) == 3:
        p[0] = ''
    else:
        p[0] = process_php_string_escapes(p[2])

def p_class_name_constant(p):
    'class_name_constant : class_name DOUBLE_COLON CLASS'
    # no special treatment needed - in practice php doesn't even check if the
    # class exists
    p[0] = p[1]

def p_static_heredoc(p):
    'static_heredoc : START_HEREDOC multiple_encapsed END_HEREDOC'
    # the last character is a newline because of how the lexer works, but it
    # doesn't belong in the result so drop it
    p[0] = p[2][:-1]

def p_multiple_encapsed(p):
    '''multiple_encapsed : multiple_encapsed ENCAPSED_AND_WHITESPACE
                         | empty'''
    if len(p) == 3:
        p[0] = p[1] + p[2]
    else:
        p[0] = ''

def p_static_scalar_namespace_name(p):
    '''static_scalar : namespace_name
                     | NS_SEPARATOR namespace_name
                     | NAMESPACE NS_SEPARATOR namespace_name'''
    if len(p) == 2:
        p[0] = ast.Constant(p[1], lineno=p.lineno(1))
    elif len(p) == 3:
        p[0] = ast.Constant(p[1] + p[2], lineno=p.lineno(1))
    else:
        p[0] = ast.Constant(p[1] + p[2] + p[3], lineno=p.lineno(1))

def p_static_scalar_unary_op(p):
    '''static_scalar : PLUS static_scalar
                     | MINUS static_scalar'''
    p[0] = ast.UnaryOp(p[1], p[2], lineno=p.lineno(1))

def p_static_scalar_array(p):
    '''static_scalar : ARRAY LPAREN static_array_pair_list RPAREN
                     | LBRACKET static_array_pair_list RBRACKET'''
    if len(p) == 5:
        contents = p[3]
    else:
        contents = p[2]
    p[0] = ast.Array(contents, lineno=p.lineno(1))

def p_static_array_pair_list(p):
    '''static_array_pair_list : empty
                              | static_non_empty_array_pair_list possible_comma'''
    if len(p) == 2:
        p[0] = []
    else:
        p[0] = p[1]

def p_static_non_empty_array_pair_list_item(p):
    '''static_non_empty_array_pair_list : static_non_empty_array_pair_list COMMA static_expr
                                        | static_expr'''
    if len(p) == 4:
        p[0] = p[1] + [ast.ArrayElement(None, p[3], False, lineno=p.lineno(2))]
    else:
        p[0] = [ast.ArrayElement(None, p[1], False, lineno=p.lineno(1))]

def p_static_non_empty_array_pair_list_pair(p):
    '''static_non_empty_array_pair_list : static_non_empty_array_pair_list COMMA static_scalar DOUBLE_ARROW static_expr
                                        | static_scalar DOUBLE_ARROW static_expr'''
    if len(p) == 6:
        p[0] = p[1] + [ast.ArrayElement(p[3], p[5], False, lineno=p.lineno(2))]
    else:
        p[0] = [ast.ArrayElement(p[1], p[3], False, lineno=p.lineno(2))]

def p_static_expr(p):
    '''static_expr : static_scalar
                   | static_expr BOOLEAN_AND static_expr
                   | static_expr BOOLEAN_OR static_expr
                   | static_expr LOGICAL_AND static_expr
                   | static_expr LOGICAL_OR static_expr
                   | static_expr LOGICAL_XOR static_expr
                   | static_expr AND static_expr
                   | static_expr OR static_expr
                   | static_expr XOR static_expr
                   | static_expr CONCAT static_expr
                   | static_expr PLUS static_expr
                   | static_expr MINUS static_expr
                   | static_expr MUL static_expr
                   | static_expr DIV static_expr
                   | static_expr SL static_expr
                   | static_expr SR static_expr
                   | static_expr MOD static_expr
                   | static_expr IS_IDENTICAL static_expr
                   | static_expr IS_NOT_IDENTICAL static_expr
                   | static_expr IS_EQUAL static_expr
                   | static_expr IS_NOT_EQUAL static_expr
                   | static_expr IS_SMALLER static_expr
                   | static_expr IS_SMALLER_OR_EQUAL static_expr
                   | static_expr IS_GREATER static_expr
                   | static_expr IS_GREATER_OR_EQUAL static_expr'''
    if len(p) == 2:
        # just the scalar
        p[0] = p[1]
    else:
        p[0] = ast.BinaryOp(p[2].lower(), p[1], p[3], lineno=p.lineno(2))

def p_static_expr_group(p):
    'static_expr : LPAREN static_expr RPAREN'
    p[0] = p[2]

def p_namespace_name(p):
    '''namespace_name : namespace_name NS_SEPARATOR STRING
                      | STRING
                      | ARRAY'''
    if len(p) == 4:
        p[0] = p[1] + p[2] + p[3]
    else:
        p[0] = p[1]

def p_encaps_list(p):
    '''encaps_list : encaps_list encaps_var
                   | empty'''
    if len(p) == 3:
        if p[1] == '':
            p[0] = p[2]
        else:
            p[0] = ast.BinaryOp('.', p[1], p[2], lineno=p.lineno(2))
    else:
        p[0] = ''

def p_encaps_list_string(p):
    'encaps_list : encaps_list ENCAPSED_AND_WHITESPACE'
    p2 = process_php_string_escapes(p[2])
    if p[1] == '':
        p[0] = process_php_string_escapes(p[2])
    else:
        if isinstance(p[1], string_type):
            # if it's only a string so far, just append the contents
            p[0] = p[1] + process_php_string_escapes(p[2])
        elif isinstance(p[1], ast.BinaryOp) and isinstance(p[1].right, string_type):
            # if the last right leaf is a string, extend previous binop
            p[0] = ast.BinaryOp('.', p[1].left, p[1].right + process_php_string_escapes(p[2]),
                                lineno=p[1].lineno)
        else:
            # worst case - insert a binaryop
            p[0] = ast.BinaryOp('.', p[1], process_php_string_escapes(p[2]),
                                lineno=p.lineno(2))

def p_encaps_var(p):
    'encaps_var : VARIABLE'
    p[0] = ast.Variable(p[1], lineno=p.lineno(1))

def p_encaps_var_array_offset(p):
    'encaps_var : VARIABLE LBRACKET encaps_var_offset RBRACKET'
    p[0] = ast.ArrayOffset(ast.Variable(p[1], lineno=p.lineno(1)), p[3],
                           lineno=p.lineno(2))

def p_encaps_var_object_property(p):
    'encaps_var : VARIABLE OBJECT_OPERATOR STRING'
    p[0] = ast.ObjectProperty(ast.Variable(p[1], lineno=p.lineno(1)), p[3],
                              lineno=p.lineno(2))

def p_encaps_var_dollar_curly_expr(p):
    'encaps_var : DOLLAR_OPEN_CURLY_BRACES expr RBRACE'
    p[0] = p[2]

def p_encaps_var_dollar_curly_array_offset(p):
    'encaps_var : DOLLAR_OPEN_CURLY_BRACES STRING_VARNAME LBRACKET expr RBRACKET RBRACE'
    p[0] = ast.ArrayOffset(ast.Variable('$' + p[2], lineno=p.lineno(2)), p[4],
                           lineno=p.lineno(3))

def p_encaps_var_curly_variable(p):
    'encaps_var : CURLY_OPEN variable RBRACE'
    p[0] = p[2]

def p_encaps_var_offset_string(p):
    'encaps_var_offset : STRING'
    p[0] = p[1]

def p_encaps_var_offset_num_string(p):
    'encaps_var_offset : NUM_STRING'
    p[0] = int(p[1])

def p_encaps_var_offset_variable(p):
    'encaps_var_offset : VARIABLE'
    p[0] = ast.Variable(p[1], lineno=p.lineno(1))

def p_empty(p):
    'empty : '
    pass

# Error rule for syntax errors
def p_error(t):
    if t:
        raise SyntaxError('invalid syntax', (None, t.lineno, None, t.value))
    else:
        raise SyntaxError('unexpected EOF while parsing', (None, None, None, None))

# Build the grammar
def make_parser(debug=False):
    return yacc.yacc(debug=debug)

def main():
    import argparse
    import os
    ap = argparse.ArgumentParser(description="Parser test tool")
    ap.add_argument('-g', '--generate', dest='generate', action='store_true')
    ap.add_argument('-r', '--recursive', dest='recursive', action='store_true')
    ap.add_argument('-q', '--quiet', dest='quiet', action='store_true')
    ap.add_argument('-d', '--debug', dest='debug', action='store_true')
    ap.add_argument('path', metavar='PATH', nargs='?', type=str)
    args = ap.parse_args()

    if args.generate:
        make_parser(args.debug)
        return

    parser = make_parser(args.debug)
    if args.path is None:
        run_parser(parser, sys.stdin, args.quiet, args.debug)
    elif os.path.isfile(args.path):
        with open(args.path, 'r') as f:
            run_parser(parser, f, args.quiet, args.debug)
    elif os.path.isdir(args.path):
        if not args.recursive:
            print('directory path given, use -r for recursive processing')
        else:
            for root, dirs, files in os.walk(args.path):
                for fpath in files:
                    if not fpath.endswith('.php'):
                        continue
                    with open(os.path.join(root, fpath), 'r') as f:
                        run_parser(parser, f, args.quiet, args.debug)

def run_parser(parser, source, quiet, debug):
    s = source.read()
    lexer = phplex.lexer
    lexer.lineno = 1

    try:
        result = parser.parse(s, lexer=lexer.clone(), debug=debug)
    except SyntaxError as e:
        if e.lineno is not None:
            print(source.name, e, 'near', repr(e.text))
        else:
            print(source.name, e)
        sys.exit(1)
    except:
        print("Critical error in:", source.name)
        raise

    if not quiet:
        import pprint
        for item in result:
            if hasattr(item, 'generic'):
                item = item.generic()
            pprint.pprint(item)

    parser.restart()