ACIL FM
Dark
Refresh
Current DIR:
/usr/lib/python3.9/site-packages/pycparser
/
usr
lib
python3.9
site-packages
pycparser
Upload
Zip Selected
Delete Selected
Pilih semua
Nama
Ukuran
Permission
Aksi
__pycache__
-
chmod
Open
Rename
Delete
ast_transforms.py
3.56 MB
chmod
View
DL
Edit
Rename
Delete
c_ast.py
29.52 MB
chmod
View
DL
Edit
Rename
Delete
c_generator.py
15 MB
chmod
View
DL
Edit
Rename
Delete
c_lexer.py
15.83 MB
chmod
View
DL
Edit
Rename
Delete
c_parser.py
68.11 MB
chmod
View
DL
Edit
Rename
Delete
lextab.py
7.11 MB
chmod
View
DL
Edit
Rename
Delete
plyparser.py
4.76 MB
chmod
View
DL
Edit
Rename
Delete
yacctab.py
167.97 MB
chmod
View
DL
Edit
Rename
Delete
_ast_gen.py
10.36 MB
chmod
View
DL
Edit
Rename
Delete
_build_tables.py
1.01 MB
chmod
View
DL
Edit
Rename
Delete
_c_ast.cfg
4.11 MB
chmod
View
DL
Edit
Rename
Delete
__init__.py
2.75 MB
chmod
View
DL
Edit
Rename
Delete
Edit file: /usr/lib/python3.9/site-packages/pycparser/c_generator.py
#------------------------------------------------------------------------------ # pycparser: c_generator.py # # C code generator from pycparser AST nodes. # # Eli Bendersky [https://eli.thegreenplace.net/] # License: BSD #------------------------------------------------------------------------------ from . import c_ast class CGenerator(object): """ Uses the same visitor pattern as c_ast.NodeVisitor, but modified to return a value from each visit method, using string accumulation in generic_visit. """ def __init__(self): # Statements start with indentation of self.indent_level spaces, using # the _make_indent method # self.indent_level = 0 def _make_indent(self): return ' ' * self.indent_level def visit(self, node): method = 'visit_' + node.__class__.__name__ return getattr(self, method, self.generic_visit)(node) def generic_visit(self, node): #~ print('generic:', type(node)) if node is None: return '' else: return ''.join(self.visit(c) for c_name, c in node.children()) def visit_Constant(self, n): return n.value def visit_ID(self, n): return n.name def visit_Pragma(self, n): ret = '#pragma' if n.string: ret += ' ' + n.string return ret def visit_ArrayRef(self, n): arrref = self._parenthesize_unless_simple(n.name) return arrref + '[' + self.visit(n.subscript) + ']' def visit_StructRef(self, n): sref = self._parenthesize_unless_simple(n.name) return sref + n.type + self.visit(n.field) def visit_FuncCall(self, n): fref = self._parenthesize_unless_simple(n.name) return fref + '(' + self.visit(n.args) + ')' def visit_UnaryOp(self, n): operand = self._parenthesize_unless_simple(n.expr) if n.op == 'p++': return '%s++' % operand elif n.op == 'p--': return '%s--' % operand elif n.op == 'sizeof': # Always parenthesize the argument of sizeof since it can be # a name. return 'sizeof(%s)' % self.visit(n.expr) else: return '%s%s' % (n.op, operand) def visit_BinaryOp(self, n): lval_str = self._parenthesize_if(n.left, lambda d: not self._is_simple_node(d)) rval_str = self._parenthesize_if(n.right, lambda d: not self._is_simple_node(d)) return '%s %s %s' % (lval_str, n.op, rval_str) def visit_Assignment(self, n): rval_str = self._parenthesize_if( n.rvalue, lambda n: isinstance(n, c_ast.Assignment)) return '%s %s %s' % (self.visit(n.lvalue), n.op, rval_str) def visit_IdentifierType(self, n): return ' '.join(n.names) def _visit_expr(self, n): if isinstance(n, c_ast.InitList): return '{' + self.visit(n) + '}' elif isinstance(n, c_ast.ExprList): return '(' + self.visit(n) + ')' else: return self.visit(n) def visit_Decl(self, n, no_type=False): # no_type is used when a Decl is part of a DeclList, where the type is # explicitly only for the first declaration in a list. # s = n.name if no_type else self._generate_decl(n) if n.bitsize: s += ' : ' + self.visit(n.bitsize) if n.init: s += ' = ' + self._visit_expr(n.init) return s def visit_DeclList(self, n): s = self.visit(n.decls[0]) if len(n.decls) > 1: s += ', ' + ', '.join(self.visit_Decl(decl, no_type=True) for decl in n.decls[1:]) return s def visit_Typedef(self, n): s = '' if n.storage: s += ' '.join(n.storage) + ' ' s += self._generate_type(n.type) return s def visit_Cast(self, n): s = '(' + self._generate_type(n.to_type, emit_declname=False) + ')' return s + ' ' + self._parenthesize_unless_simple(n.expr) def visit_ExprList(self, n): visited_subexprs = [] for expr in n.exprs: visited_subexprs.append(self._visit_expr(expr)) return ', '.join(visited_subexprs) def visit_InitList(self, n): visited_subexprs = [] for expr in n.exprs: visited_subexprs.append(self._visit_expr(expr)) return ', '.join(visited_subexprs) def visit_Enum(self, n): return self._generate_struct_union_enum(n, name='enum') def visit_Enumerator(self, n): if not n.value: return '{indent}{name},\n'.format( indent=self._make_indent(), name=n.name, ) else: return '{indent}{name} = {value},\n'.format( indent=self._make_indent(), name=n.name, value=self.visit(n.value), ) def visit_FuncDef(self, n): decl = self.visit(n.decl) self.indent_level = 0 body = self.visit(n.body) if n.param_decls: knrdecls = ';\n'.join(self.visit(p) for p in n.param_decls) return decl + '\n' + knrdecls + ';\n' + body + '\n' else: return decl + '\n' + body + '\n' def visit_FileAST(self, n): s = '' for ext in n.ext: if isinstance(ext, c_ast.FuncDef): s += self.visit(ext) elif isinstance(ext, c_ast.Pragma): s += self.visit(ext) + '\n' else: s += self.visit(ext) + ';\n' return s def visit_Compound(self, n): s = self._make_indent() + '{\n' self.indent_level += 2 if n.block_items: s += ''.join(self._generate_stmt(stmt) for stmt in n.block_items) self.indent_level -= 2 s += self._make_indent() + '}\n' return s def visit_CompoundLiteral(self, n): return '(' + self.visit(n.type) + '){' + self.visit(n.init) + '}' def visit_EmptyStatement(self, n): return ';' def visit_ParamList(self, n): return ', '.join(self.visit(param) for param in n.params) def visit_Return(self, n): s = 'return' if n.expr: s += ' ' + self.visit(n.expr) return s + ';' def visit_Break(self, n): return 'break;' def visit_Continue(self, n): return 'continue;' def visit_TernaryOp(self, n): s = '(' + self._visit_expr(n.cond) + ') ? ' s += '(' + self._visit_expr(n.iftrue) + ') : ' s += '(' + self._visit_expr(n.iffalse) + ')' return s def visit_If(self, n): s = 'if (' if n.cond: s += self.visit(n.cond) s += ')\n' s += self._generate_stmt(n.iftrue, add_indent=True) if n.iffalse: s += self._make_indent() + 'else\n' s += self._generate_stmt(n.iffalse, add_indent=True) return s def visit_For(self, n): s = 'for (' if n.init: s += self.visit(n.init) s += ';' if n.cond: s += ' ' + self.visit(n.cond) s += ';' if n.next: s += ' ' + self.visit(n.next) s += ')\n' s += self._generate_stmt(n.stmt, add_indent=True) return s def visit_While(self, n): s = 'while (' if n.cond: s += self.visit(n.cond) s += ')\n' s += self._generate_stmt(n.stmt, add_indent=True) return s def visit_DoWhile(self, n): s = 'do\n' s += self._generate_stmt(n.stmt, add_indent=True) s += self._make_indent() + 'while (' if n.cond: s += self.visit(n.cond) s += ');' return s def visit_Switch(self, n): s = 'switch (' + self.visit(n.cond) + ')\n' s += self._generate_stmt(n.stmt, add_indent=True) return s def visit_Case(self, n): s = 'case ' + self.visit(n.expr) + ':\n' for stmt in n.stmts: s += self._generate_stmt(stmt, add_indent=True) return s def visit_Default(self, n): s = 'default:\n' for stmt in n.stmts: s += self._generate_stmt(stmt, add_indent=True) return s def visit_Label(self, n): return n.name + ':\n' + self._generate_stmt(n.stmt) def visit_Goto(self, n): return 'goto ' + n.name + ';' def visit_EllipsisParam(self, n): return '...' def visit_Struct(self, n): return self._generate_struct_union_enum(n, 'struct') def visit_Typename(self, n): return self._generate_type(n.type) def visit_Union(self, n): return self._generate_struct_union_enum(n, 'union') def visit_NamedInitializer(self, n): s = '' for name in n.name: if isinstance(name, c_ast.ID): s += '.' + name.name else: s += '[' + self.visit(name) + ']' s += ' = ' + self._visit_expr(n.expr) return s def visit_FuncDecl(self, n): return self._generate_type(n) def visit_ArrayDecl(self, n): return self._generate_type(n, emit_declname=False) def visit_TypeDecl(self, n): return self._generate_type(n, emit_declname=False) def visit_PtrDecl(self, n): return self._generate_type(n, emit_declname=False) def _generate_struct_union_enum(self, n, name): """ Generates code for structs, unions, and enums. name should be 'struct', 'union', or 'enum'. """ if name in ('struct', 'union'): members = n.decls body_function = self._generate_struct_union_body else: assert name == 'enum' members = None if n.values is None else n.values.enumerators body_function = self._generate_enum_body s = name + ' ' + (n.name or '') if members is not None: # None means no members # Empty sequence means an empty list of members s += '\n' s += self._make_indent() self.indent_level += 2 s += '{\n' s += body_function(members) self.indent_level -= 2 s += self._make_indent() + '}' return s def _generate_struct_union_body(self, members): return ''.join(self._generate_stmt(decl) for decl in members) def _generate_enum_body(self, members): # `[:-2] + '\n'` removes the final `,` from the enumerator list return ''.join(self.visit(value) for value in members)[:-2] + '\n' def _generate_stmt(self, n, add_indent=False): """ Generation from a statement node. This method exists as a wrapper for individual visit_* methods to handle different treatment of some statements in this context. """ typ = type(n) if add_indent: self.indent_level += 2 indent = self._make_indent() if add_indent: self.indent_level -= 2 if typ in ( c_ast.Decl, c_ast.Assignment, c_ast.Cast, c_ast.UnaryOp, c_ast.BinaryOp, c_ast.TernaryOp, c_ast.FuncCall, c_ast.ArrayRef, c_ast.StructRef, c_ast.Constant, c_ast.ID, c_ast.Typedef, c_ast.ExprList): # These can also appear in an expression context so no semicolon # is added to them automatically # return indent + self.visit(n) + ';\n' elif typ in (c_ast.Compound,): # No extra indentation required before the opening brace of a # compound - because it consists of multiple lines it has to # compute its own indentation. # return self.visit(n) else: return indent + self.visit(n) + '\n' def _generate_decl(self, n): """ Generation from a Decl node. """ s = '' if n.funcspec: s = ' '.join(n.funcspec) + ' ' if n.storage: s += ' '.join(n.storage) + ' ' s += self._generate_type(n.type) return s def _generate_type(self, n, modifiers=[], emit_declname = True): """ Recursive generation from a type node. n is the type node. modifiers collects the PtrDecl, ArrayDecl and FuncDecl modifiers encountered on the way down to a TypeDecl, to allow proper generation from it. """ typ = type(n) #~ print(n, modifiers) if typ == c_ast.TypeDecl: s = '' if n.quals: s += ' '.join(n.quals) + ' ' s += self.visit(n.type) nstr = n.declname if n.declname and emit_declname else '' # Resolve modifiers. # Wrap in parens to distinguish pointer to array and pointer to # function syntax. # for i, modifier in enumerate(modifiers): if isinstance(modifier, c_ast.ArrayDecl): if (i != 0 and isinstance(modifiers[i - 1], c_ast.PtrDecl)): nstr = '(' + nstr + ')' nstr += '[' if modifier.dim_quals: nstr += ' '.join(modifier.dim_quals) + ' ' nstr += self.visit(modifier.dim) + ']' elif isinstance(modifier, c_ast.FuncDecl): if (i != 0 and isinstance(modifiers[i - 1], c_ast.PtrDecl)): nstr = '(' + nstr + ')' nstr += '(' + self.visit(modifier.args) + ')' elif isinstance(modifier, c_ast.PtrDecl): if modifier.quals: nstr = '* %s%s' % (' '.join(modifier.quals), ' ' + nstr if nstr else '') else: nstr = '*' + nstr if nstr: s += ' ' + nstr return s elif typ == c_ast.Decl: return self._generate_decl(n.type) elif typ == c_ast.Typename: return self._generate_type(n.type, emit_declname = emit_declname) elif typ == c_ast.IdentifierType: return ' '.join(n.names) + ' ' elif typ in (c_ast.ArrayDecl, c_ast.PtrDecl, c_ast.FuncDecl): return self._generate_type(n.type, modifiers + [n], emit_declname = emit_declname) else: return self.visit(n) def _parenthesize_if(self, n, condition): """ Visits 'n' and returns its string representation, parenthesized if the condition function applied to the node returns True. """ s = self._visit_expr(n) if condition(n): return '(' + s + ')' else: return s def _parenthesize_unless_simple(self, n): """ Common use case for _parenthesize_if """ return self._parenthesize_if(n, lambda d: not self._is_simple_node(d)) def _is_simple_node(self, n): """ Returns True for nodes that are "simple" - i.e. nodes that always have higher precedence than operators. """ return isinstance(n, (c_ast.Constant, c_ast.ID, c_ast.ArrayRef, c_ast.StructRef, c_ast.FuncCall))
Simpan
Batal
Isi Zip:
Unzip
Create
Buat Folder
Buat File
Terminal / Execute
Run
Chmod Bulk
All File
All Folder
All File dan Folder
Apply