llvm-project/lldb/scripts/Python/python-extensions.swig

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%extend lldb::SBAddress {
PyObject *lldb::SBAddress::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBBlock {
PyObject *lldb::SBBlock::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBBreakpoint {
PyObject *lldb::SBBreakpoint::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
%pythoncode %{
def __eq__(self, rhs):
if not isinstance(rhs, type(self)):
return False
return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs)
def __ne__(self, rhs):
if not isinstance(rhs, type(self)):
return True
return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs)
%}
}
%extend lldb::SBBreakpointLocation {
PyObject *lldb::SBBreakpointLocation::__str__ (){
lldb::SBStream description;
$self->GetDescription (description, lldb::eDescriptionLevelFull);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBBreakpointName {
PyObject *lldb::SBBreakpointName::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBBroadcaster {
%pythoncode %{
def __eq__(self, rhs):
if not isinstance(rhs, type(self)):
return False
return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs)
def __ne__(self, rhs):
if not isinstance(rhs, type(self)):
return True
return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs)
%}
}
%extend lldb::SBCommandReturnObject {
PyObject *lldb::SBCommandReturnObject::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
/* the write() and flush() calls are not part of the SB API proper, and are solely for Python usage
they are meant to make an SBCommandReturnObject into a file-like object so that instructions of the sort
print >>sb_command_return_object, "something"
will work correctly */
void lldb::SBCommandReturnObject::write (const char* str)
{
if (str)
$self->Printf("%s",str);
}
void lldb::SBCommandReturnObject::flush ()
{}
}
%extend lldb::SBCompileUnit {
PyObject *lldb::SBCompileUnit::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
%pythoncode %{
def __eq__(self, rhs):
if not isinstance(rhs, type(self)):
return False
return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs)
def __ne__(self, rhs):
if not isinstance(rhs, type(self)):
return True
return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs)
%}
}
Redesign of the interaction between Python and frozen objects: - introduced two new classes ValueObjectConstResultChild and ValueObjectConstResultImpl: the first one is a ValueObjectChild obtained from a ValueObjectConstResult, the second is a common implementation backend for VOCR and VOCRCh of method calls meant to read through pointers stored in frozen objects ; now such reads transparently move from host to target as required - as a consequence of the above, removed code that made target-memory copies of expression results in several places throughout LLDB, and also removed code that enabled to recognize an expression result VO as such - introduced a new GetPointeeData() method in ValueObject that lets you read a given amount of objects of type T from a VO representing a T* or T[], and doing dereferences transparently in private layer it returns a DataExtractor ; in public layer it returns an instance of a newly created lldb::SBData - as GetPointeeData() does the right thing for both frozen and non-frozen ValueObject's, reimplemented ReadPointedString() to use it en lieu of doing the raw read itself - introduced a new GetData() method in ValueObject that lets you get a copy of the data that backs the ValueObject (for pointers, this returns the address without any previous dereferencing steps ; for arrays it actually reads the whole chunk of memory) in public layer this returns an SBData, just like GetPointeeData() - introduced a new CreateValueFromData() method in SBValue that lets you create a new SBValue from a chunk of data wrapped in an SBData the limitation to remember for this kind of SBValue is that they have no address: extracting the address-of for these objects (with any of GetAddress(), GetLoadAddress() and AddressOf()) will return invalid values - added several tests to check that "p"-ing objects (STL classes, char* and char[]) will do the right thing Solved a bug where global pointers to global variables were not dereferenced correctly for display New target setting "max-string-summary-length" gives the maximum number of characters to show in a string when summarizing it, instead of the hardcoded 128 Solved a bug where the summary for char[] and char* would not be shown if the ValueObject's were dumped via the "p" command Removed m_pointers_point_to_load_addrs from ValueObject. Introduced a new m_address_type_of_children, which each ValueObject can set to tell the address type of any pointers and/or references it creates. In the current codebase, this is load address most of the time (the only notable exception being file addresses that generate file address children UNLESS we have a live process) Updated help text for summary-string Fixed an issue in STL formatters where std::stlcontainer::iterator would match the container's synthetic children providers Edited the syntax and help for some commands to have proper argument types llvm-svn: 139160
2011-09-07 03:20:51 +08:00
%extend lldb::SBData {
PyObject *lldb::SBData::__str__ (){
Redesign of the interaction between Python and frozen objects: - introduced two new classes ValueObjectConstResultChild and ValueObjectConstResultImpl: the first one is a ValueObjectChild obtained from a ValueObjectConstResult, the second is a common implementation backend for VOCR and VOCRCh of method calls meant to read through pointers stored in frozen objects ; now such reads transparently move from host to target as required - as a consequence of the above, removed code that made target-memory copies of expression results in several places throughout LLDB, and also removed code that enabled to recognize an expression result VO as such - introduced a new GetPointeeData() method in ValueObject that lets you read a given amount of objects of type T from a VO representing a T* or T[], and doing dereferences transparently in private layer it returns a DataExtractor ; in public layer it returns an instance of a newly created lldb::SBData - as GetPointeeData() does the right thing for both frozen and non-frozen ValueObject's, reimplemented ReadPointedString() to use it en lieu of doing the raw read itself - introduced a new GetData() method in ValueObject that lets you get a copy of the data that backs the ValueObject (for pointers, this returns the address without any previous dereferencing steps ; for arrays it actually reads the whole chunk of memory) in public layer this returns an SBData, just like GetPointeeData() - introduced a new CreateValueFromData() method in SBValue that lets you create a new SBValue from a chunk of data wrapped in an SBData the limitation to remember for this kind of SBValue is that they have no address: extracting the address-of for these objects (with any of GetAddress(), GetLoadAddress() and AddressOf()) will return invalid values - added several tests to check that "p"-ing objects (STL classes, char* and char[]) will do the right thing Solved a bug where global pointers to global variables were not dereferenced correctly for display New target setting "max-string-summary-length" gives the maximum number of characters to show in a string when summarizing it, instead of the hardcoded 128 Solved a bug where the summary for char[] and char* would not be shown if the ValueObject's were dumped via the "p" command Removed m_pointers_point_to_load_addrs from ValueObject. Introduced a new m_address_type_of_children, which each ValueObject can set to tell the address type of any pointers and/or references it creates. In the current codebase, this is load address most of the time (the only notable exception being file addresses that generate file address children UNLESS we have a live process) Updated help text for summary-string Fixed an issue in STL formatters where std::stlcontainer::iterator would match the container's synthetic children providers Edited the syntax and help for some commands to have proper argument types llvm-svn: 139160
2011-09-07 03:20:51 +08:00
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
Redesign of the interaction between Python and frozen objects: - introduced two new classes ValueObjectConstResultChild and ValueObjectConstResultImpl: the first one is a ValueObjectChild obtained from a ValueObjectConstResult, the second is a common implementation backend for VOCR and VOCRCh of method calls meant to read through pointers stored in frozen objects ; now such reads transparently move from host to target as required - as a consequence of the above, removed code that made target-memory copies of expression results in several places throughout LLDB, and also removed code that enabled to recognize an expression result VO as such - introduced a new GetPointeeData() method in ValueObject that lets you read a given amount of objects of type T from a VO representing a T* or T[], and doing dereferences transparently in private layer it returns a DataExtractor ; in public layer it returns an instance of a newly created lldb::SBData - as GetPointeeData() does the right thing for both frozen and non-frozen ValueObject's, reimplemented ReadPointedString() to use it en lieu of doing the raw read itself - introduced a new GetData() method in ValueObject that lets you get a copy of the data that backs the ValueObject (for pointers, this returns the address without any previous dereferencing steps ; for arrays it actually reads the whole chunk of memory) in public layer this returns an SBData, just like GetPointeeData() - introduced a new CreateValueFromData() method in SBValue that lets you create a new SBValue from a chunk of data wrapped in an SBData the limitation to remember for this kind of SBValue is that they have no address: extracting the address-of for these objects (with any of GetAddress(), GetLoadAddress() and AddressOf()) will return invalid values - added several tests to check that "p"-ing objects (STL classes, char* and char[]) will do the right thing Solved a bug where global pointers to global variables were not dereferenced correctly for display New target setting "max-string-summary-length" gives the maximum number of characters to show in a string when summarizing it, instead of the hardcoded 128 Solved a bug where the summary for char[] and char* would not be shown if the ValueObject's were dumped via the "p" command Removed m_pointers_point_to_load_addrs from ValueObject. Introduced a new m_address_type_of_children, which each ValueObject can set to tell the address type of any pointers and/or references it creates. In the current codebase, this is load address most of the time (the only notable exception being file addresses that generate file address children UNLESS we have a live process) Updated help text for summary-string Fixed an issue in STL formatters where std::stlcontainer::iterator would match the container's synthetic children providers Edited the syntax and help for some commands to have proper argument types llvm-svn: 139160
2011-09-07 03:20:51 +08:00
}
}
%extend lldb::SBDebugger {
PyObject *lldb::SBDebugger::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBDeclaration {
PyObject *lldb::SBDeclaration::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
%pythoncode %{
def __eq__(self, rhs):
if not isinstance(rhs, type(self)):
return False
return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs)
def __ne__(self, rhs):
if not isinstance(rhs, type(self)):
return True
return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs)
%}
}
%extend lldb::SBError {
PyObject *lldb::SBError::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBFileSpec {
PyObject *lldb::SBFileSpec::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBFrame {
PyObject *lldb::SBFrame::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBFunction {
PyObject *lldb::SBFunction::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
%pythoncode %{
def __eq__(self, rhs):
if not isinstance(rhs, type(self)):
return False
return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs)
def __ne__(self, rhs):
if not isinstance(rhs, type(self)):
return True
return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs)
%}
}
%extend lldb::SBInstruction {
PyObject *lldb::SBInstruction::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBInstructionList {
PyObject *lldb::SBInstructionList::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBLineEntry {
PyObject *lldb::SBLineEntry::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
%pythoncode %{
def __eq__(self, rhs):
if not isinstance(rhs, type(self)):
return False
return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs)
def __ne__(self, rhs):
if not isinstance(rhs, type(self)):
return True
return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs)
%}
}
%extend lldb::SBMemoryRegionInfo {
PyObject *lldb::SBMemoryRegionInfo::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBModule {
PyObject *lldb::SBModule::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
%pythoncode %{
def __eq__(self, rhs):
if not isinstance(rhs, type(self)):
return False
return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs)
def __ne__(self, rhs):
if not isinstance(rhs, type(self)):
return True
return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs)
%}
}
%extend lldb::SBModuleSpec {
PyObject *lldb::SBModuleSpec::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBModuleSpecList {
PyObject *lldb::SBModuleSpecList::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBProcess {
PyObject *lldb::SBProcess::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBSection {
PyObject *lldb::SBSection::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
%pythoncode %{
def __eq__(self, rhs):
if not isinstance(rhs, type(self)):
return False
return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs)
def __ne__(self, rhs):
if not isinstance(rhs, type(self)):
return True
return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs)
%}
}
%extend lldb::SBStream {
/* the write() and flush() calls are not part of the SB API proper, and are solely for Python usage
they are meant to make an SBStream into a file-like object so that instructions of the sort
print >>sb_stream, "something"
will work correctly */
void lldb::SBStream::write (const char* str)
{
if (str)
$self->Printf("%s",str);
}
void lldb::SBStream::flush ()
{}
}
%extend lldb::SBSymbol {
PyObject *lldb::SBSymbol::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
%pythoncode %{
def __eq__(self, rhs):
if not isinstance(rhs, type(self)):
return False
return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs)
def __ne__(self, rhs):
if not isinstance(rhs, type(self)):
return True
return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs)
%}
}
%extend lldb::SBSymbolContext {
PyObject *lldb::SBSymbolContext::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
Removed all of the "#ifndef SWIG" from the SB header files since we are using interface (.i) files for each class. Changed the FindFunction class from: uint32_t SBTarget::FindFunctions (const char *name, uint32_t name_type_mask, bool append, lldb::SBSymbolContextList& sc_list) uint32_t SBModule::FindFunctions (const char *name, uint32_t name_type_mask, bool append, lldb::SBSymbolContextList& sc_list) To: lldb::SBSymbolContextList SBTarget::FindFunctions (const char *name, uint32_t name_type_mask = lldb::eFunctionNameTypeAny); lldb::SBSymbolContextList SBModule::FindFunctions (const char *name, uint32_t name_type_mask = lldb::eFunctionNameTypeAny); This makes the API easier to use from python. Also added the ability to append a SBSymbolContext or a SBSymbolContextList to a SBSymbolContextList. Exposed properties for lldb.SBSymbolContextList in python: lldb.SBSymbolContextList.modules => list() or all lldb.SBModule objects in the list lldb.SBSymbolContextList.compile_units => list() or all lldb.SBCompileUnits objects in the list lldb.SBSymbolContextList.functions => list() or all lldb.SBFunction objects in the list lldb.SBSymbolContextList.blocks => list() or all lldb.SBBlock objects in the list lldb.SBSymbolContextList.line_entries => list() or all lldb.SBLineEntry objects in the list lldb.SBSymbolContextList.symbols => list() or all lldb.SBSymbol objects in the list This allows a call to the SBTarget::FindFunctions(...) and SBModule::FindFunctions(...) and then the result can be used to extract the desired information: sc_list = lldb.target.FindFunctions("erase") for function in sc_list.functions: print function for symbol in sc_list.symbols: print symbol Exposed properties for the lldb.SBSymbolContext objects in python: lldb.SBSymbolContext.module => lldb.SBModule lldb.SBSymbolContext.compile_unit => lldb.SBCompileUnit lldb.SBSymbolContext.function => lldb.SBFunction lldb.SBSymbolContext.block => lldb.SBBlock lldb.SBSymbolContext.line_entry => lldb.SBLineEntry lldb.SBSymbolContext.symbol => lldb.SBSymbol Exposed properties for the lldb.SBBlock objects in python: lldb.SBBlock.parent => lldb.SBBlock for the parent block that contains lldb.SBBlock.sibling => lldb.SBBlock for the sibling block to the current block lldb.SBBlock.first_child => lldb.SBBlock for the first child block to the current block lldb.SBBlock.call_site => for inline functions, return a lldb.declaration object that gives the call site file, line and column lldb.SBBlock.name => for inline functions this is the name of the inline function that this block represents lldb.SBBlock.inlined_block => returns the inlined function block that contains this block (might return itself if the current block is an inlined block) lldb.SBBlock.range[int] => access the address ranges for a block by index, a list() with start and end address is returned lldb.SBBlock.ranges => an array or all address ranges for this block lldb.SBBlock.num_ranges => the number of address ranges for this blcok SBFunction objects can now get the SBType and the SBBlock that represents the top scope of the function. SBBlock objects can now get the variable list from the current block. The value list returned allows varaibles to be viewed prior with no process if code wants to check the variables in a function. There are two ways to get a variable list from a SBBlock: lldb::SBValueList SBBlock::GetVariables (lldb::SBFrame& frame, bool arguments, bool locals, bool statics, lldb::DynamicValueType use_dynamic); lldb::SBValueList SBBlock::GetVariables (lldb::SBTarget& target, bool arguments, bool locals, bool statics); When a SBFrame is used, the values returned will be locked down to the frame and the values will be evaluated in the context of that frame. When a SBTarget is used, global an static variables can be viewed without a running process. llvm-svn: 149853
2012-02-06 09:44:54 +08:00
%extend lldb::SBSymbolContextList {
PyObject *lldb::SBSymbolContextList::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
Removed all of the "#ifndef SWIG" from the SB header files since we are using interface (.i) files for each class. Changed the FindFunction class from: uint32_t SBTarget::FindFunctions (const char *name, uint32_t name_type_mask, bool append, lldb::SBSymbolContextList& sc_list) uint32_t SBModule::FindFunctions (const char *name, uint32_t name_type_mask, bool append, lldb::SBSymbolContextList& sc_list) To: lldb::SBSymbolContextList SBTarget::FindFunctions (const char *name, uint32_t name_type_mask = lldb::eFunctionNameTypeAny); lldb::SBSymbolContextList SBModule::FindFunctions (const char *name, uint32_t name_type_mask = lldb::eFunctionNameTypeAny); This makes the API easier to use from python. Also added the ability to append a SBSymbolContext or a SBSymbolContextList to a SBSymbolContextList. Exposed properties for lldb.SBSymbolContextList in python: lldb.SBSymbolContextList.modules => list() or all lldb.SBModule objects in the list lldb.SBSymbolContextList.compile_units => list() or all lldb.SBCompileUnits objects in the list lldb.SBSymbolContextList.functions => list() or all lldb.SBFunction objects in the list lldb.SBSymbolContextList.blocks => list() or all lldb.SBBlock objects in the list lldb.SBSymbolContextList.line_entries => list() or all lldb.SBLineEntry objects in the list lldb.SBSymbolContextList.symbols => list() or all lldb.SBSymbol objects in the list This allows a call to the SBTarget::FindFunctions(...) and SBModule::FindFunctions(...) and then the result can be used to extract the desired information: sc_list = lldb.target.FindFunctions("erase") for function in sc_list.functions: print function for symbol in sc_list.symbols: print symbol Exposed properties for the lldb.SBSymbolContext objects in python: lldb.SBSymbolContext.module => lldb.SBModule lldb.SBSymbolContext.compile_unit => lldb.SBCompileUnit lldb.SBSymbolContext.function => lldb.SBFunction lldb.SBSymbolContext.block => lldb.SBBlock lldb.SBSymbolContext.line_entry => lldb.SBLineEntry lldb.SBSymbolContext.symbol => lldb.SBSymbol Exposed properties for the lldb.SBBlock objects in python: lldb.SBBlock.parent => lldb.SBBlock for the parent block that contains lldb.SBBlock.sibling => lldb.SBBlock for the sibling block to the current block lldb.SBBlock.first_child => lldb.SBBlock for the first child block to the current block lldb.SBBlock.call_site => for inline functions, return a lldb.declaration object that gives the call site file, line and column lldb.SBBlock.name => for inline functions this is the name of the inline function that this block represents lldb.SBBlock.inlined_block => returns the inlined function block that contains this block (might return itself if the current block is an inlined block) lldb.SBBlock.range[int] => access the address ranges for a block by index, a list() with start and end address is returned lldb.SBBlock.ranges => an array or all address ranges for this block lldb.SBBlock.num_ranges => the number of address ranges for this blcok SBFunction objects can now get the SBType and the SBBlock that represents the top scope of the function. SBBlock objects can now get the variable list from the current block. The value list returned allows varaibles to be viewed prior with no process if code wants to check the variables in a function. There are two ways to get a variable list from a SBBlock: lldb::SBValueList SBBlock::GetVariables (lldb::SBFrame& frame, bool arguments, bool locals, bool statics, lldb::DynamicValueType use_dynamic); lldb::SBValueList SBBlock::GetVariables (lldb::SBTarget& target, bool arguments, bool locals, bool statics); When a SBFrame is used, the values returned will be locked down to the frame and the values will be evaluated in the context of that frame. When a SBTarget is used, global an static variables can be viewed without a running process. llvm-svn: 149853
2012-02-06 09:44:54 +08:00
else
return lldb_private::PythonString("").release();
Removed all of the "#ifndef SWIG" from the SB header files since we are using interface (.i) files for each class. Changed the FindFunction class from: uint32_t SBTarget::FindFunctions (const char *name, uint32_t name_type_mask, bool append, lldb::SBSymbolContextList& sc_list) uint32_t SBModule::FindFunctions (const char *name, uint32_t name_type_mask, bool append, lldb::SBSymbolContextList& sc_list) To: lldb::SBSymbolContextList SBTarget::FindFunctions (const char *name, uint32_t name_type_mask = lldb::eFunctionNameTypeAny); lldb::SBSymbolContextList SBModule::FindFunctions (const char *name, uint32_t name_type_mask = lldb::eFunctionNameTypeAny); This makes the API easier to use from python. Also added the ability to append a SBSymbolContext or a SBSymbolContextList to a SBSymbolContextList. Exposed properties for lldb.SBSymbolContextList in python: lldb.SBSymbolContextList.modules => list() or all lldb.SBModule objects in the list lldb.SBSymbolContextList.compile_units => list() or all lldb.SBCompileUnits objects in the list lldb.SBSymbolContextList.functions => list() or all lldb.SBFunction objects in the list lldb.SBSymbolContextList.blocks => list() or all lldb.SBBlock objects in the list lldb.SBSymbolContextList.line_entries => list() or all lldb.SBLineEntry objects in the list lldb.SBSymbolContextList.symbols => list() or all lldb.SBSymbol objects in the list This allows a call to the SBTarget::FindFunctions(...) and SBModule::FindFunctions(...) and then the result can be used to extract the desired information: sc_list = lldb.target.FindFunctions("erase") for function in sc_list.functions: print function for symbol in sc_list.symbols: print symbol Exposed properties for the lldb.SBSymbolContext objects in python: lldb.SBSymbolContext.module => lldb.SBModule lldb.SBSymbolContext.compile_unit => lldb.SBCompileUnit lldb.SBSymbolContext.function => lldb.SBFunction lldb.SBSymbolContext.block => lldb.SBBlock lldb.SBSymbolContext.line_entry => lldb.SBLineEntry lldb.SBSymbolContext.symbol => lldb.SBSymbol Exposed properties for the lldb.SBBlock objects in python: lldb.SBBlock.parent => lldb.SBBlock for the parent block that contains lldb.SBBlock.sibling => lldb.SBBlock for the sibling block to the current block lldb.SBBlock.first_child => lldb.SBBlock for the first child block to the current block lldb.SBBlock.call_site => for inline functions, return a lldb.declaration object that gives the call site file, line and column lldb.SBBlock.name => for inline functions this is the name of the inline function that this block represents lldb.SBBlock.inlined_block => returns the inlined function block that contains this block (might return itself if the current block is an inlined block) lldb.SBBlock.range[int] => access the address ranges for a block by index, a list() with start and end address is returned lldb.SBBlock.ranges => an array or all address ranges for this block lldb.SBBlock.num_ranges => the number of address ranges for this blcok SBFunction objects can now get the SBType and the SBBlock that represents the top scope of the function. SBBlock objects can now get the variable list from the current block. The value list returned allows varaibles to be viewed prior with no process if code wants to check the variables in a function. There are two ways to get a variable list from a SBBlock: lldb::SBValueList SBBlock::GetVariables (lldb::SBFrame& frame, bool arguments, bool locals, bool statics, lldb::DynamicValueType use_dynamic); lldb::SBValueList SBBlock::GetVariables (lldb::SBTarget& target, bool arguments, bool locals, bool statics); When a SBFrame is used, the values returned will be locked down to the frame and the values will be evaluated in the context of that frame. When a SBTarget is used, global an static variables can be viewed without a running process. llvm-svn: 149853
2012-02-06 09:44:54 +08:00
}
}
%extend lldb::SBTarget {
PyObject *lldb::SBTarget::__str__ (){
lldb::SBStream description;
$self->GetDescription (description, lldb::eDescriptionLevelBrief);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
%pythoncode %{
def __eq__(self, rhs):
if not isinstance(rhs, type(self)):
return False
return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs)
def __ne__(self, rhs):
if not isinstance(rhs, type(self)):
return True
return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs)
%}
}
%extend lldb::SBType {
PyObject *lldb::SBType::__str__ (){
lldb::SBStream description;
$self->GetDescription (description, lldb::eDescriptionLevelBrief);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBTypeCategory {
PyObject *lldb::SBTypeCategory::__str__ (){
lldb::SBStream description;
$self->GetDescription (description, lldb::eDescriptionLevelBrief);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBTypeFilter {
PyObject *lldb::SBTypeFilter::__str__ (){
lldb::SBStream description;
$self->GetDescription (description, lldb::eDescriptionLevelBrief);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
%pythoncode %{
def __eq__(self, rhs):
if not isinstance(rhs, type(self)):
return False
return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs)
def __ne__(self, rhs):
if not isinstance(rhs, type(self)):
return True
return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs)
%}
}
%extend lldb::SBTypeFormat {
PyObject *lldb::SBTypeFormat::__str__ (){
lldb::SBStream description;
$self->GetDescription (description, lldb::eDescriptionLevelBrief);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBTypeMember {
PyObject *lldb::SBTypeMember::__str__ (){
lldb::SBStream description;
$self->GetDescription (description, lldb::eDescriptionLevelBrief);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBTypeMemberFunction {
PyObject *lldb::SBTypeMemberFunction::__str__ (){
lldb::SBStream description;
$self->GetDescription (description, lldb::eDescriptionLevelBrief);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBTypeEnumMember {
PyObject *lldb::SBTypeEnumMember::__str__ (){
lldb::SBStream description;
$self->GetDescription (description, lldb::eDescriptionLevelBrief);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
%extend lldb::SBTypeNameSpecifier {
PyObject *lldb::SBTypeNameSpecifier::__str__ (){
lldb::SBStream description;
$self->GetDescription (description, lldb::eDescriptionLevelBrief);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
%pythoncode %{
def __eq__(self, rhs):
if not isinstance(rhs, type(self)):
return False
return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs)
def __ne__(self, rhs):
if not isinstance(rhs, type(self)):
return True
return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs)
%}
}
%extend lldb::SBTypeSummary {
PyObject *lldb::SBTypeSummary::__str__ (){
lldb::SBStream description;
$self->GetDescription (description, lldb::eDescriptionLevelBrief);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
%pythoncode %{
def __eq__(self, rhs):
if not isinstance(rhs, type(self)):
return False
return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs)
def __ne__(self, rhs):
if not isinstance(rhs, type(self)):
return True
return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs)
%}
}
%extend lldb::SBTypeSynthetic {
PyObject *lldb::SBTypeSynthetic::__str__ (){
lldb::SBStream description;
$self->GetDescription (description, lldb::eDescriptionLevelBrief);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
%pythoncode %{
def __eq__(self, rhs):
if not isinstance(rhs, type(self)):
return False
return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs)
def __ne__(self, rhs):
if not isinstance(rhs, type(self)):
return True
return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs)
%}
}
%extend lldb::SBThread {
PyObject *lldb::SBThread::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
%pythoncode %{
def __eq__(self, rhs):
if not isinstance(rhs, type(self)):
return False
return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs)
def __ne__(self, rhs):
if not isinstance(rhs, type(self)):
return True
return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs)
%}
}
%extend lldb::SBValue {
PyObject *lldb::SBValue::__str__ (){
lldb::SBStream description;
$self->GetDescription (description);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
Expose more convenience functionality in the python classes. lldb.SBValueList now exposes the len() method and also allows item access: lldb.SBValueList[<int>] - where <int> is an integer index into the list, returns a single lldb.SBValue which might be empty if the index is out of range lldb.SBValueList[<str>] - where <str> is the name to look for, returns a list() of lldb.SBValue objects with any matching values (the list might be empty if nothing matches) lldb.SBValueList[<re>] - where <re> is a compiles regular expression, returns a list of lldb.SBValue objects for containing any matches or a empty list if nothing matches lldb.SBFrame now exposes: lldb.SBFrame.variables => SBValueList of all variables that are in scope lldb.SBFrame.vars => see lldb.SBFrame.variables lldb.SBFrame.locals => SBValueList of all variables that are locals in the current frame lldb.SBFrame.arguments => SBValueList of all variables that are arguments in the current frame lldb.SBFrame.args => see lldb.SBFrame.arguments lldb.SBFrame.statics => SBValueList of all static variables lldb.SBFrame.registers => SBValueList of all registers for the current frame lldb.SBFrame.regs => see lldb.SBFrame.registers Combine any of the above properties with the new lldb.SBValueList functionality and now you can do: y = lldb.frame.vars['rect.origin.y'] or vars = lldb.frame.vars for i in range len(vars): print vars[i] Also expose "lldb.SBFrame.var(<str>)" where <str> can be en expression path for any variable or child within the variable. This makes it easier to get a value from the current frame like "rect.origin.y". The resulting value is also not a constant result as expressions will return, but a live value that will continue to track the current value for the variable expression path. lldb.SBValue now exposes: lldb.SBValue.unsigned => unsigned integer for the value lldb.SBValue.signed => a signed integer for the value llvm-svn: 149684
2012-02-03 15:02:37 +08:00
%extend lldb::SBValueList {
PyObject *lldb::SBValueList::__str__ (){
Expose more convenience functionality in the python classes. lldb.SBValueList now exposes the len() method and also allows item access: lldb.SBValueList[<int>] - where <int> is an integer index into the list, returns a single lldb.SBValue which might be empty if the index is out of range lldb.SBValueList[<str>] - where <str> is the name to look for, returns a list() of lldb.SBValue objects with any matching values (the list might be empty if nothing matches) lldb.SBValueList[<re>] - where <re> is a compiles regular expression, returns a list of lldb.SBValue objects for containing any matches or a empty list if nothing matches lldb.SBFrame now exposes: lldb.SBFrame.variables => SBValueList of all variables that are in scope lldb.SBFrame.vars => see lldb.SBFrame.variables lldb.SBFrame.locals => SBValueList of all variables that are locals in the current frame lldb.SBFrame.arguments => SBValueList of all variables that are arguments in the current frame lldb.SBFrame.args => see lldb.SBFrame.arguments lldb.SBFrame.statics => SBValueList of all static variables lldb.SBFrame.registers => SBValueList of all registers for the current frame lldb.SBFrame.regs => see lldb.SBFrame.registers Combine any of the above properties with the new lldb.SBValueList functionality and now you can do: y = lldb.frame.vars['rect.origin.y'] or vars = lldb.frame.vars for i in range len(vars): print vars[i] Also expose "lldb.SBFrame.var(<str>)" where <str> can be en expression path for any variable or child within the variable. This makes it easier to get a value from the current frame like "rect.origin.y". The resulting value is also not a constant result as expressions will return, but a live value that will continue to track the current value for the variable expression path. lldb.SBValue now exposes: lldb.SBValue.unsigned => unsigned integer for the value lldb.SBValue.signed => a signed integer for the value llvm-svn: 149684
2012-02-03 15:02:37 +08:00
lldb::SBStream description;
const size_t n = $self->GetSize();
if (n)
{
for (size_t i=0; i<n; ++i)
$self->GetValueAtIndex(i).GetDescription(description);
}
else
{
description.Printf("<empty> lldb.SBValueList()");
}
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
Expose more convenience functionality in the python classes. lldb.SBValueList now exposes the len() method and also allows item access: lldb.SBValueList[<int>] - where <int> is an integer index into the list, returns a single lldb.SBValue which might be empty if the index is out of range lldb.SBValueList[<str>] - where <str> is the name to look for, returns a list() of lldb.SBValue objects with any matching values (the list might be empty if nothing matches) lldb.SBValueList[<re>] - where <re> is a compiles regular expression, returns a list of lldb.SBValue objects for containing any matches or a empty list if nothing matches lldb.SBFrame now exposes: lldb.SBFrame.variables => SBValueList of all variables that are in scope lldb.SBFrame.vars => see lldb.SBFrame.variables lldb.SBFrame.locals => SBValueList of all variables that are locals in the current frame lldb.SBFrame.arguments => SBValueList of all variables that are arguments in the current frame lldb.SBFrame.args => see lldb.SBFrame.arguments lldb.SBFrame.statics => SBValueList of all static variables lldb.SBFrame.registers => SBValueList of all registers for the current frame lldb.SBFrame.regs => see lldb.SBFrame.registers Combine any of the above properties with the new lldb.SBValueList functionality and now you can do: y = lldb.frame.vars['rect.origin.y'] or vars = lldb.frame.vars for i in range len(vars): print vars[i] Also expose "lldb.SBFrame.var(<str>)" where <str> can be en expression path for any variable or child within the variable. This makes it easier to get a value from the current frame like "rect.origin.y". The resulting value is also not a constant result as expressions will return, but a live value that will continue to track the current value for the variable expression path. lldb.SBValue now exposes: lldb.SBValue.unsigned => unsigned integer for the value lldb.SBValue.signed => a signed integer for the value llvm-svn: 149684
2012-02-03 15:02:37 +08:00
}
}
%extend lldb::SBWatchpoint {
PyObject *lldb::SBWatchpoint::__str__ (){
lldb::SBStream description;
$self->GetDescription (description, lldb::eDescriptionLevelVerbose);
const char *desc = description.GetData();
size_t desc_len = description.GetSize();
if (desc_len > 0 && (desc[desc_len-1] == '\n' || desc[desc_len-1] == '\r'))
--desc_len;
if (desc_len > 0)
return lldb_private::PythonString(llvm::StringRef(desc, desc_len)).release();
else
return lldb_private::PythonString("").release();
}
}
// %extend lldb::SBDebugger {
// // FIXME: We can't get the callback and baton
// PyObject *lldb::SBDebugger (){
// // Only call Py_XDECREF if we have a Python object (or NULL)
// if (LLDBSwigPythonCallPythonLogOutputCallback == $self->GetLogOutPutCallback())
// Py_XDECREF($self->GetCallbackBaton());
// }
// }
%pythoncode %{
def command(*args, **kwargs):
import lldb
import inspect
"""A decorator function that registers an LLDB command line
command that is bound to the function it is attached to."""
class obj(object):
"""The object that tracks adding the command to LLDB one time and handles
calling the function on subsequent calls."""
def __init__(self, function, command_name, doc = None):
if doc:
function.__doc__ = doc
command = "command script add -f %s.%s %s" % (function.__module__, function.__name__, command_name)
lldb.debugger.HandleCommand(command)
self.function = function
def __call__(self, debugger, command, exe_ctx, result, dict):
if len(inspect.getargspec(self.function).args) == 5:
self.function(debugger, command, exe_ctx, result, dict)
else:
self.function(debugger, command, result, dict)
def callable(function):
"""Creates a callable object that gets used."""
f = obj(function, *args, **kwargs)
return f.__call__
return callable
Removed all of the "#ifndef SWIG" from the SB header files since we are using interface (.i) files for each class. Changed the FindFunction class from: uint32_t SBTarget::FindFunctions (const char *name, uint32_t name_type_mask, bool append, lldb::SBSymbolContextList& sc_list) uint32_t SBModule::FindFunctions (const char *name, uint32_t name_type_mask, bool append, lldb::SBSymbolContextList& sc_list) To: lldb::SBSymbolContextList SBTarget::FindFunctions (const char *name, uint32_t name_type_mask = lldb::eFunctionNameTypeAny); lldb::SBSymbolContextList SBModule::FindFunctions (const char *name, uint32_t name_type_mask = lldb::eFunctionNameTypeAny); This makes the API easier to use from python. Also added the ability to append a SBSymbolContext or a SBSymbolContextList to a SBSymbolContextList. Exposed properties for lldb.SBSymbolContextList in python: lldb.SBSymbolContextList.modules => list() or all lldb.SBModule objects in the list lldb.SBSymbolContextList.compile_units => list() or all lldb.SBCompileUnits objects in the list lldb.SBSymbolContextList.functions => list() or all lldb.SBFunction objects in the list lldb.SBSymbolContextList.blocks => list() or all lldb.SBBlock objects in the list lldb.SBSymbolContextList.line_entries => list() or all lldb.SBLineEntry objects in the list lldb.SBSymbolContextList.symbols => list() or all lldb.SBSymbol objects in the list This allows a call to the SBTarget::FindFunctions(...) and SBModule::FindFunctions(...) and then the result can be used to extract the desired information: sc_list = lldb.target.FindFunctions("erase") for function in sc_list.functions: print function for symbol in sc_list.symbols: print symbol Exposed properties for the lldb.SBSymbolContext objects in python: lldb.SBSymbolContext.module => lldb.SBModule lldb.SBSymbolContext.compile_unit => lldb.SBCompileUnit lldb.SBSymbolContext.function => lldb.SBFunction lldb.SBSymbolContext.block => lldb.SBBlock lldb.SBSymbolContext.line_entry => lldb.SBLineEntry lldb.SBSymbolContext.symbol => lldb.SBSymbol Exposed properties for the lldb.SBBlock objects in python: lldb.SBBlock.parent => lldb.SBBlock for the parent block that contains lldb.SBBlock.sibling => lldb.SBBlock for the sibling block to the current block lldb.SBBlock.first_child => lldb.SBBlock for the first child block to the current block lldb.SBBlock.call_site => for inline functions, return a lldb.declaration object that gives the call site file, line and column lldb.SBBlock.name => for inline functions this is the name of the inline function that this block represents lldb.SBBlock.inlined_block => returns the inlined function block that contains this block (might return itself if the current block is an inlined block) lldb.SBBlock.range[int] => access the address ranges for a block by index, a list() with start and end address is returned lldb.SBBlock.ranges => an array or all address ranges for this block lldb.SBBlock.num_ranges => the number of address ranges for this blcok SBFunction objects can now get the SBType and the SBBlock that represents the top scope of the function. SBBlock objects can now get the variable list from the current block. The value list returned allows varaibles to be viewed prior with no process if code wants to check the variables in a function. There are two ways to get a variable list from a SBBlock: lldb::SBValueList SBBlock::GetVariables (lldb::SBFrame& frame, bool arguments, bool locals, bool statics, lldb::DynamicValueType use_dynamic); lldb::SBValueList SBBlock::GetVariables (lldb::SBTarget& target, bool arguments, bool locals, bool statics); When a SBFrame is used, the values returned will be locked down to the frame and the values will be evaluated in the context of that frame. When a SBTarget is used, global an static variables can be viewed without a running process. llvm-svn: 149853
2012-02-06 09:44:54 +08:00
class declaration(object):
'''A class that represents a source declaration location with file, line and column.'''
def __init__(self, file, line, col):
self.file = file
self.line = line
self.col = col
class value_iter(object):
def __iter__(self):
return self
def next(self):
if self.index >= self.length:
raise StopIteration()
child_sbvalue = self.sbvalue.GetChildAtIndex(self.index)
self.index += 1
return value(child_sbvalue)
def __init__(self,value):
self.index = 0
self.sbvalue = value
if type(self.sbvalue) is value:
self.sbvalue = self.sbvalue.sbvalue
self.length = self.sbvalue.GetNumChildren()
class value(object):
'''A class designed to wrap lldb.SBValue() objects so the resulting object
can be used as a variable would be in code. So if you have a Point structure
variable in your code in the current frame named "pt", you can initialize an instance
of this class with it:
pt = lldb.value(lldb.frame.FindVariable("pt"))
print pt
print pt.x
print pt.y
pt = lldb.value(lldb.frame.FindVariable("rectangle_array"))
print rectangle_array[12]
print rectangle_array[5].origin.x'''
def __init__(self, sbvalue):
self.sbvalue = sbvalue
def __nonzero__(self):
return self.sbvalue.__nonzero__()
def __str__(self):
return self.sbvalue.__str__()
def __getitem__(self, key):
# Allow array access if this value has children...
if type(key) is value:
key = int(key)
if type(key) is int:
child_sbvalue = (self.sbvalue.GetValueForExpressionPath("[%i]" % key))
if child_sbvalue and child_sbvalue.IsValid():
return value(child_sbvalue)
raise IndexError("Index '%d' is out of range" % key)
raise TypeError("No array item of type %s" % str(type(key)))
def __iter__(self):
return value_iter(self.sbvalue)
def __getattr__(self, name):
child_sbvalue = self.sbvalue.GetChildMemberWithName (name)
if child_sbvalue and child_sbvalue.IsValid():
return value(child_sbvalue)
raise AttributeError("Attribute '%s' is not defined" % name)
def __add__(self, other):
return int(self) + int(other)
def __sub__(self, other):
return int(self) - int(other)
def __mul__(self, other):
return int(self) * int(other)
def __floordiv__(self, other):
return int(self) // int(other)
def __mod__(self, other):
return int(self) % int(other)
def __divmod__(self, other):
return int(self) % int(other)
def __pow__(self, other):
return int(self) ** int(other)
def __lshift__(self, other):
return int(self) << int(other)
def __rshift__(self, other):
return int(self) >> int(other)
def __and__(self, other):
return int(self) & int(other)
def __xor__(self, other):
return int(self) ^ int(other)
def __or__(self, other):
return int(self) | int(other)
def __div__(self, other):
return int(self) / int(other)
def __truediv__(self, other):
return int(self) / int(other)
def __iadd__(self, other):
result = self.__add__(other)
self.sbvalue.SetValueFromCString (str(result))
return result
def __isub__(self, other):
result = self.__sub__(other)
self.sbvalue.SetValueFromCString (str(result))
return result
def __imul__(self, other):
result = self.__mul__(other)
self.sbvalue.SetValueFromCString (str(result))
return result
def __idiv__(self, other):
result = self.__div__(other)
self.sbvalue.SetValueFromCString (str(result))
return result
def __itruediv__(self, other):
result = self.__truediv__(other)
self.sbvalue.SetValueFromCString (str(result))
return result
def __ifloordiv__(self, other):
result = self.__floordiv__(self, other)
self.sbvalue.SetValueFromCString (str(result))
return result
def __imod__(self, other):
result = self.__and__(self, other)
self.sbvalue.SetValueFromCString (str(result))
return result
def __ipow__(self, other):
result = self.__pow__(self, other)
self.sbvalue.SetValueFromCString (str(result))
return result
def __ipow__(self, other, modulo):
result = self.__pow__(self, other, modulo)
self.sbvalue.SetValueFromCString (str(result))
return result
def __ilshift__(self, other):
result = self.__lshift__(other)
self.sbvalue.SetValueFromCString (str(result))
return result
def __irshift__(self, other):
result = self.__rshift__(other)
self.sbvalue.SetValueFromCString (str(result))
return result
def __iand__(self, other):
result = self.__and__(self, other)
self.sbvalue.SetValueFromCString (str(result))
return result
def __ixor__(self, other):
result = self.__xor__(self, other)
self.sbvalue.SetValueFromCString (str(result))
return result
def __ior__(self, other):
result = self.__ior__(self, other)
self.sbvalue.SetValueFromCString (str(result))
return result
def __neg__(self):
return -int(self)
def __pos__(self):
return +int(self)
def __abs__(self):
return abs(int(self))
def __invert__(self):
return ~int(self)
def __complex__(self):
return complex (int(self))
def __int__(self):
is_num,is_sign = is_numeric_type(self.sbvalue.GetType().GetCanonicalType().GetBasicType())
if is_num and not is_sign: return self.sbvalue.GetValueAsUnsigned()
return self.sbvalue.GetValueAsSigned()
def __long__(self):
return self.__int__()
def __float__(self):
return float (self.sbvalue.GetValueAsSigned())
def __oct__(self):
return '0%o' % self.sbvalue.GetValueAsUnsigned()
def __hex__(self):
return '0x%x' % self.sbvalue.GetValueAsUnsigned()
def __len__(self):
return self.sbvalue.GetNumChildren()
def __eq__(self, other):
if type(other) is int:
return int(self) == other
elif type(other) is str:
return str(self) == other
elif type(other) is value:
self_err = SBError()
other_err = SBError()
self_val = self.sbvalue.GetValueAsUnsigned(self_err)
if self_err.fail:
raise ValueError("unable to extract value of self")
other_val = other.sbvalue.GetValueAsUnsigned(other_err)
if other_err.fail:
raise ValueError("unable to extract value of other")
return self_val == other_val
raise TypeError("Unknown type %s, No equality operation defined." % str(type(other)))
def __ne__(self, other):
return not self.__eq__(other)
%}
%pythoncode %{
class SBSyntheticValueProvider(object):
def __init__(self,valobj):
pass
def num_children(self):
return 0
def get_child_index(self,name):
return None
def get_child_at_index(self,idx):
return None
def update(self):
pass
def has_children(self):
return False
%}
%pythoncode %{
# given an lldb.SBBasicType it returns a tuple
# (is_numeric, is_signed)
# the value of is_signed is undefined if is_numeric == false
def is_numeric_type(basic_type):
if basic_type == eBasicTypeInvalid: return (False,False)
if basic_type == eBasicTypeVoid: return (False,False)
if basic_type == eBasicTypeChar: return (True,False)
if basic_type == eBasicTypeSignedChar: return (True,True)
if basic_type == eBasicTypeUnsignedChar: return (True,False)
if basic_type == eBasicTypeWChar: return (True,False)
if basic_type == eBasicTypeSignedWChar: return (True,True)
if basic_type == eBasicTypeUnsignedWChar: return (True,False)
if basic_type == eBasicTypeChar16: return (True,False)
if basic_type == eBasicTypeChar32: return (True,False)
if basic_type == eBasicTypeShort: return (True,True)
if basic_type == eBasicTypeUnsignedShort: return (True,False)
if basic_type == eBasicTypeInt: return (True,True)
if basic_type == eBasicTypeUnsignedInt: return (True,False)
if basic_type == eBasicTypeLong: return (True,True)
if basic_type == eBasicTypeUnsignedLong: return (True,False)
if basic_type == eBasicTypeLongLong: return (True,True)
if basic_type == eBasicTypeUnsignedLongLong: return (True,False)
if basic_type == eBasicTypeInt128: return (True,True)
if basic_type == eBasicTypeUnsignedInt128: return (True,False)
if basic_type == eBasicTypeBool: return (False,False)
if basic_type == eBasicTypeHalf: return (True,True)
if basic_type == eBasicTypeFloat: return (True,True)
if basic_type == eBasicTypeDouble: return (True,True)
if basic_type == eBasicTypeLongDouble: return (True,True)
if basic_type == eBasicTypeFloatComplex: return (True,True)
if basic_type == eBasicTypeDoubleComplex: return (True,True)
if basic_type == eBasicTypeLongDoubleComplex: return (True,True)
if basic_type == eBasicTypeObjCID: return (False,False)
if basic_type == eBasicTypeObjCClass: return (False,False)
if basic_type == eBasicTypeObjCSel: return (False,False)
if basic_type == eBasicTypeNullPtr: return (False,False)
#if basic_type == eBasicTypeOther:
return (False,False)
%}