# Python bindings for Yasm: Pyrex input file for symrec.h # # Copyright (C) 2006 Michael Urman, Peter Johnson # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions # are met: # 1. Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # 2. Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in the # documentation and/or other materials provided with the distribution. # # THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND OTHER CONTRIBUTORS ``AS IS'' # AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE # IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE # ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR OTHER CONTRIBUTORS BE # LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR # CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF # SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS # INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN # CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) # ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE # POSSIBILITY OF SUCH DAMAGE. cdef class Symbol: cdef yasm_symrec *sym def __new__(self, symrec): self.sym = NULL if PyCObject_Check(symrec): self.sym = __get_voidp(symrec, Symbol) else: raise NotImplementedError # no deref or destroy necessary property name: def __get__(self): return yasm_symrec_get_name(self.sym) property status: def __get__(self): cdef yasm_sym_status status s = set() status = yasm_symrec_get_status(self.sym) if status & SYM_USED: s.add('used') if status & SYM_DEFINED: s.add('defined') if status & SYM_VALUED: s.add('valued') return s property in_table: def __get__(self): return bool(yasm_symrec_get_status(self.sym) & SYM_NOTINTABLE) property visibility: def __get__(self): cdef yasm_sym_vis vis s = set() vis = yasm_symrec_get_visibility(self.sym) if vis & YASM_SYM_GLOBAL: s.add('global') if vis & YASM_SYM_COMMON: s.add('common') if vis & YASM_SYM_EXTERN: s.add('extern') if vis & YASM_SYM_DLOCAL: s.add('dlocal') return s property equ: def __get__(self): cdef yasm_expr *e e = yasm_symrec_get_equ(self.sym) if not e: raise AttributeError("not an EQU") return __make_expression(yasm_expr_copy(e)) property label: def __get__(self): cdef yasm_symrec_get_label_bytecodep bc if yasm_symrec_get_label(self.sym, &bc): return None #Bytecode(bc) else: raise AttributeError("not a label or not defined") property is_special: def __get__(self): return bool(yasm_symrec_is_special(self.sym)) property is_curpos: def __get__(self): return bool(yasm_symrec_is_curpos(self.sym)) def get_data(self): pass # TODO #return (yasm_symrec_get_data(self.sym, PyYasmAssocData)) def set_data(self, data): pass # TODO #yasm_symrec_set_data(self.sym, PyYasmAssocData, data) # # Use associated data mechanism to keep Symbol reference paired with symrec. # cdef void __python_symrec_cb_destroy(void *data): Py_DECREF(data) cdef void __python_symrec_cb_print(void *data, FILE *f, int indent_level): pass __python_symrec_cb = __assoc_data_callback( PyCObject_FromVoidPtr(&__python_symrec_cb_destroy, NULL), PyCObject_FromVoidPtr(&__python_symrec_cb_print, NULL)) cdef object __make_symbol(yasm_symrec *symrec): cdef void *data __error_check() data = yasm_symrec_get_data(symrec, (<__assoc_data_callback>__python_symrec_cb).cb) if data != NULL: return data symbol = Symbol(__pass_voidp(symrec, Symbol)) yasm_symrec_add_data(symrec, (<__assoc_data_callback>__python_symrec_cb).cb, symbol) Py_INCREF(symbol) # We're keeping a reference on the C side! return symbol cdef class Bytecode cdef class SymbolTable cdef class SymbolTableKeyIterator: cdef yasm_symtab_iter *iter def __new__(self, symtab): if not isinstance(symtab, SymbolTable): raise TypeError self.iter = yasm_symtab_first((symtab).symtab) def __iter__(self): return self def __next__(self): if self.iter == NULL: raise StopIteration rv = yasm_symrec_get_name(yasm_symtab_iter_value(self.iter)) self.iter = yasm_symtab_next(self.iter) return rv cdef class SymbolTableValueIterator: cdef yasm_symtab_iter *iter def __new__(self, symtab): if not isinstance(symtab, SymbolTable): raise TypeError self.iter = yasm_symtab_first((symtab).symtab) def __iter__(self): return self def __next__(self): if self.iter == NULL: raise StopIteration rv = __make_symbol(yasm_symtab_iter_value(self.iter)) self.iter = yasm_symtab_next(self.iter) return rv cdef class SymbolTableItemIterator: cdef yasm_symtab_iter *iter def __new__(self, symtab): if not isinstance(symtab, SymbolTable): raise TypeError self.iter = yasm_symtab_first((symtab).symtab) def __iter__(self): return self def __next__(self): cdef yasm_symrec *sym if self.iter == NULL: raise StopIteration sym = yasm_symtab_iter_value(self.iter) rv = (yasm_symrec_get_name(sym), __make_symbol(sym)) self.iter = yasm_symtab_next(self.iter) return rv cdef int __parse_vis(vis) except -1: if not vis or vis == 'local': return YASM_SYM_LOCAL if vis == 'global': return YASM_SYM_GLOBAL if vis == 'common': return YASM_SYM_COMMON if vis == 'extern': return YASM_SYM_EXTERN if vis == 'dlocal': return YASM_SYM_DLOCAL msg = "bad visibility value %r" % vis PyErr_SetString(ValueError, msg) return -1 cdef class SymbolTable: cdef yasm_symtab *symtab def __new__(self): self.symtab = yasm_symtab_create() def __dealloc__(self): if self.symtab != NULL: yasm_symtab_destroy(self.symtab) def use(self, name, line): return __make_symbol(yasm_symtab_use(self.symtab, name, line)) def define_equ(self, name, expr, line): if not isinstance(expr, Expression): raise TypeError return __make_symbol(yasm_symtab_define_equ(self.symtab, name, yasm_expr_copy((expr).expr), line)) def define_label(self, name, precbc, in_table, line): if not isinstance(precbc, Bytecode): raise TypeError return __make_symbol(yasm_symtab_define_label(self.symtab, name, (precbc).bc, in_table, line)) def define_special(self, name, vis): return __make_symbol( yasm_symtab_define_special(self.symtab, name, __parse_vis(vis))) def declare(self, name, vis, line): return __make_symbol( yasm_symtab_declare(self.symtab, name, __parse_vis(vis), line)) # # Methods to make SymbolTable behave like a dictionary of Symbols. # def __getitem__(self, key): cdef yasm_symrec *symrec symrec = yasm_symtab_get(self.symtab, key) if symrec == NULL: raise KeyError return __make_symbol(symrec) def __contains__(self, key): cdef yasm_symrec *symrec symrec = yasm_symtab_get(self.symtab, key) return symrec != NULL def keys(self): cdef yasm_symtab_iter *iter l = [] iter = yasm_symtab_first(self.symtab) while iter != NULL: l.append(yasm_symrec_get_name(yasm_symtab_iter_value(iter))) iter = yasm_symtab_next(iter) return l def values(self): cdef yasm_symtab_iter *iter l = [] iter = yasm_symtab_first(self.symtab) while iter != NULL: l.append(__make_symbol(yasm_symtab_iter_value(iter))) iter = yasm_symtab_next(iter) return l def items(self): cdef yasm_symtab_iter *iter cdef yasm_symrec *sym l = [] iter = yasm_symtab_first(self.symtab) while iter != NULL: sym = yasm_symtab_iter_value(iter) l.append((yasm_symrec_get_name(sym), __make_symbol(sym))) iter = yasm_symtab_next(iter) return l def has_key(self, key): cdef yasm_symrec *symrec symrec = yasm_symtab_get(self.symtab, key) return symrec != NULL def get(self, key, x): cdef yasm_symrec *symrec symrec = yasm_symtab_get(self.symtab, key) if symrec == NULL: return x return __make_symbol(symrec) def iterkeys(self): return SymbolTableKeyIterator(self) def itervalues(self): return SymbolTableValueIterator(self) def iteritems(self): return SymbolTableItemIterator(self) def __iter__(self): return SymbolTableKeyIterator(self)