self.gdbval = gdbval
def is_nonnull(self):
- return long(self.gdbval)
+ return int(self.gdbval)
def TREE_CODE(self):
"""
# like gcc/print-tree.c:print_node_brief
# #define TREE_CODE(NODE) ((enum tree_code) (NODE)->base.code)
# tree_code_name[(int) TREE_CODE (node)])
- if long(self.gdbval) == 0:
+ if int(self.gdbval) == 0:
return '<tree 0x0>'
val_TREE_CODE = self.node.TREE_CODE()
val_tclass = val_tree_code_type[val_TREE_CODE]
val_tree_code_name = gdb.parse_and_eval('tree_code_name')
- val_code_name = val_tree_code_name[long(val_TREE_CODE)]
- #print val_code_name.string()
+ val_code_name = val_tree_code_name[int(val_TREE_CODE)]
+ #print(val_code_name.string())
- result = '<%s 0x%x' % (val_code_name.string(), long(self.gdbval))
- if long(val_tclass) == tcc_declaration:
+ result = '<%s 0x%x' % (val_code_name.string(), int(self.gdbval))
+ if int(val_tclass) == tcc_declaration:
tree_DECL_NAME = self.node.DECL_NAME()
if tree_DECL_NAME.is_nonnull():
result += ' %s' % tree_DECL_NAME.IDENTIFIER_POINTER()
else:
pass # TODO: labels etc
- elif long(val_tclass) == tcc_type:
+ elif int(val_tclass) == tcc_type:
tree_TYPE_NAME = Tree(self.gdbval['type_common']['name'])
if tree_TYPE_NAME.is_nonnull():
if tree_TYPE_NAME.TREE_CODE() == IDENTIFIER_NODE:
self.gdbval = gdbval
def to_string (self):
- result = '<cgraph_node* 0x%x' % long(self.gdbval)
- if long(self.gdbval):
+ result = '<cgraph_node* 0x%x' % int(self.gdbval)
+ if int(self.gdbval):
# symtab_node::name calls lang_hooks.decl_printable_name
# default implementation (lhd_decl_printable_name) is:
# return IDENTIFIER_POINTER (DECL_NAME (decl));
self.gdbval = gdbval
def to_string (self):
- if long(self.gdbval) == 0:
+ if int(self.gdbval) == 0:
return '<dw_die_ref 0x0>'
- result = '<dw_die_ref 0x%x' % long(self.gdbval)
+ result = '<dw_die_ref 0x%x' % int(self.gdbval)
result += ' %s' % self.gdbval['die_tag']
- if long(self.gdbval['die_parent']) != 0:
- result += ' <parent=0x%x %s>' % (long(self.gdbval['die_parent']),
+ if int(self.gdbval['die_parent']) != 0:
+ result += ' <parent=0x%x %s>' % (int(self.gdbval['die_parent']),
self.gdbval['die_parent']['die_tag'])
result += '>'
self.gdbval = gdbval
def to_string (self):
- if long(self.gdbval) == 0:
+ if int(self.gdbval) == 0:
return '<gimple 0x0>'
val_gimple_code = self.gdbval['code']
val_gimple_code_name = gdb.parse_and_eval('gimple_code_name')
- val_code_name = val_gimple_code_name[long(val_gimple_code)]
+ val_code_name = val_gimple_code_name[int(val_gimple_code)]
result = '<%s 0x%x' % (val_code_name.string(),
- long(self.gdbval))
+ int(self.gdbval))
result += '>'
return result
self.gdbval = gdbval
def to_string (self):
- result = '<basic_block 0x%x' % long(self.gdbval)
- if long(self.gdbval):
- result += ' (%s)' % bb_index_to_str(long(self.gdbval['index']))
+ result = '<basic_block 0x%x' % int(self.gdbval)
+ if int(self.gdbval):
+ result += ' (%s)' % bb_index_to_str(int(self.gdbval['index']))
result += '>'
return result
self.gdbval = gdbval
def to_string (self):
- result = '<edge 0x%x' % long(self.gdbval)
- if long(self.gdbval):
- src = bb_index_to_str(long(self.gdbval['src']['index']))
- dest = bb_index_to_str(long(self.gdbval['dest']['index']))
+ result = '<edge 0x%x' % int(self.gdbval)
+ if int(self.gdbval):
+ src = bb_index_to_str(int(self.gdbval['src']['index']))
+ dest = bb_index_to_str(int(self.gdbval['dest']['index']))
result += ' (%s -> %s)' % (src, dest)
result += '>'
return result
def GET_RTX_LENGTH(code):
val_rtx_length = gdb.parse_and_eval('rtx_length')
- return long(val_rtx_length[code])
+ return int(val_rtx_length[code])
def GET_RTX_NAME(code):
val_rtx_name = gdb.parse_and_eval('rtx_name')
"""
# We use print_inline_rtx to avoid a trailing newline
gdb.execute('call print_inline_rtx (stderr, (const_rtx) %s, 0)'
- % long(self.gdbval))
+ % int(self.gdbval))
return ''
# or by hand; based on gcc/print-rtl.c:print_rtx
result = ('<rtx_def 0x%x'
- % (long(self.gdbval)))
+ % (int(self.gdbval)))
code = self.rtx.GET_CODE()
result += ' (%s' % GET_RTX_NAME(code)
format_ = GET_RTX_FORMAT(code)
for i in range(GET_RTX_LENGTH(code)):
- print format_[i]
+ print(format_[i])
result += ')>'
return result
self.gdbval = gdbval
def to_string (self):
- result = '<opt_pass* 0x%x' % long(self.gdbval)
- if long(self.gdbval):
+ result = '<opt_pass* 0x%x' % int(self.gdbval)
+ if int(self.gdbval):
result += (' "%s"(%i)'
% (self.gdbval['name'].string(),
- long(self.gdbval['static_pass_number'])))
+ int(self.gdbval['static_pass_number'])))
result += '>'
return result
def to_string (self):
# A trivial implementation; prettyprinting the contents is done
# by gdb calling the "children" method below.
- return '0x%x' % long(self.gdbval)
+ return '0x%x' % int(self.gdbval)
def children (self):
- if long(self.gdbval) == 0:
+ if int(self.gdbval) == 0:
return
m_vecpfx = self.gdbval['m_vecpfx']
m_num = m_vecpfx['m_num']
projects / gcc.git / commitdiff