Gericom/teak-llvm
1
Fork 0
mirror of https://github.com/Gericom/teak-llvm.git synced 2025-06-22 04:55:50 -04:00
Code Issues Actions Packages Projects Releases Wiki Activity
c5f28e2a05
teak-llvm/lldb/source/Plugins/ScriptInterpreter/Python/PythonDataObjects.h
Zachary Turner bf9a77305f Move classes from Core -> Utility. 
This moves the following classes from Core -> Utility.

ConstString
Error
RegularExpression
Stream
StreamString

The goal here is to get lldbUtility into a state where it has
no dependendencies except on itself and LLVM, so it can be the
starting point at which to start untangling LLDB's dependencies.
These are all low level and very widely used classes, and
previously lldbUtility had dependencies up to lldbCore in order
to use these classes.  So moving then down to lldbUtility makes
sense from both the short term and long term perspective in
solving this problem.

Differential Revision: https://reviews.llvm.org/D29427

llvm-svn: 293941
2017-02-02 21:39:50 +00:00

474 lines
12 KiB
C++
Raw Blame History

//===-- PythonDataObjects.h--------------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#ifndef LLDB_PLUGINS_SCRIPTINTERPRETER_PYTHON_PYTHONDATAOBJECTS_H
#define LLDB_PLUGINS_SCRIPTINTERPRETER_PYTHON_PYTHONDATAOBJECTS_H
#ifndef LLDB_DISABLE_PYTHON
// LLDB Python header must be included first
#include "lldb-python.h"
// C Includes
// C++ Includes
// Other libraries and framework includes
// Project includes
#include "lldb/Core/Flags.h"
#include "lldb/Core/StructuredData.h"
#include "lldb/Host/File.h"
#include "lldb/Interpreter/OptionValue.h"
#include "lldb/Utility/ConstString.h"
#include "lldb/lldb-defines.h"
#include "llvm/ADT/ArrayRef.h"
namespace lldb_private {
class PythonBytes;
class PythonString;
class PythonList;
class PythonDictionary;
class PythonInteger;
class StructuredPythonObject : public StructuredData::Generic {
public:
StructuredPythonObject() : StructuredData::Generic() {}
StructuredPythonObject(void *obj) : StructuredData::Generic(obj) {
Py_XINCREF(GetValue());
}
~StructuredPythonObject() override {
if (Py_IsInitialized())
Py_XDECREF(GetValue());
SetValue(nullptr);
}
bool IsValid() const override { return GetValue() && GetValue() != Py_None; }
void Dump(Stream &s, bool pretty_print = true) const override;
private:
DISALLOW_COPY_AND_ASSIGN(StructuredPythonObject);
};
enum class PyObjectType {
Unknown,
None,
Integer,
Dictionary,
List,
String,
Bytes,
ByteArray,
Module,
Callable,
Tuple,
File
};
enum class PyRefType {
Borrowed, // We are not given ownership of the incoming PyObject.
// We cannot safely hold it without calling Py_INCREF.
Owned // We have ownership of the incoming PyObject. We should
// not call Py_INCREF.
};
enum class PyInitialValue { Invalid, Empty };
class PythonObject {
public:
PythonObject() : m_py_obj(nullptr) {}
PythonObject(PyRefType type, PyObject *py_obj) : m_py_obj(nullptr) {
Reset(type, py_obj);
}
PythonObject(const PythonObject &rhs) : m_py_obj(nullptr) { Reset(rhs); }
virtual ~PythonObject() { Reset(); }
void Reset() {
// Avoid calling the virtual method since it's not necessary
// to actually validate the type of the PyObject if we're
// just setting to null.
if (Py_IsInitialized())
Py_XDECREF(m_py_obj);
m_py_obj = nullptr;
}
void Reset(const PythonObject &rhs) {
// Avoid calling the virtual method if it's not necessary
// to actually validate the type of the PyObject.
if (!rhs.IsValid())
Reset();
else
Reset(PyRefType::Borrowed, rhs.m_py_obj);
}
// PythonObject is implicitly convertible to PyObject *, which will call the
// wrong overload. We want to explicitly disallow this, since a PyObject
// *always* owns its reference. Therefore the overload which takes a
// PyRefType doesn't make sense, and the copy constructor should be used.
void Reset(PyRefType type, const PythonObject &ref) = delete;
virtual void Reset(PyRefType type, PyObject *py_obj) {
if (py_obj == m_py_obj)
return;
if (Py_IsInitialized())
Py_XDECREF(m_py_obj);
m_py_obj = py_obj;
// If this is a borrowed reference, we need to convert it to
// an owned reference by incrementing it. If it is an owned
// reference (for example the caller allocated it with PyDict_New()
// then we must *not* increment it.
if (Py_IsInitialized() && type == PyRefType::Borrowed)
Py_XINCREF(m_py_obj);
}
void Dump() const {
if (m_py_obj)
_PyObject_Dump(m_py_obj);
else
puts("NULL");
}
void Dump(Stream &strm) const;
PyObject *get() const { return m_py_obj; }
PyObject *release() {
PyObject *result = m_py_obj;
m_py_obj = nullptr;
return result;
}
PythonObject &operator=(const PythonObject &other) {
Reset(PyRefType::Borrowed, other.get());
return *this;
}
PyObjectType GetObjectType() const;
PythonString Repr() const;
PythonString Str() const;
static PythonObject ResolveNameWithDictionary(llvm::StringRef name,
const PythonDictionary &dict);
template <typename T>
static T ResolveNameWithDictionary(llvm::StringRef name,
const PythonDictionary &dict) {
return ResolveNameWithDictionary(name, dict).AsType<T>();
}
PythonObject ResolveName(llvm::StringRef name) const;
template <typename T> T ResolveName(llvm::StringRef name) const {
return ResolveName(name).AsType<T>();
}
bool HasAttribute(llvm::StringRef attribute) const;
PythonObject GetAttributeValue(llvm::StringRef attribute) const;
bool IsValid() const;
bool IsAllocated() const;
bool IsNone() const;
template <typename T> T AsType() const {
if (!T::Check(m_py_obj))
return T();
return T(PyRefType::Borrowed, m_py_obj);
}
StructuredData::ObjectSP CreateStructuredObject() const;
protected:
PyObject *m_py_obj;
};
class PythonBytes : public PythonObject {
public:
PythonBytes();
explicit PythonBytes(llvm::ArrayRef<uint8_t> bytes);
PythonBytes(const uint8_t *bytes, size_t length);
PythonBytes(PyRefType type, PyObject *o);
PythonBytes(const PythonBytes &object);
~PythonBytes() override;
static bool Check(PyObject *py_obj);
// Bring in the no-argument base class version
using PythonObject::Reset;
void Reset(PyRefType type, PyObject *py_obj) override;
llvm::ArrayRef<uint8_t> GetBytes() const;
size_t GetSize() const;
void SetBytes(llvm::ArrayRef<uint8_t> stringbytes);
StructuredData::StringSP CreateStructuredString() const;
};
class PythonByteArray : public PythonObject {
public:
PythonByteArray();
explicit PythonByteArray(llvm::ArrayRef<uint8_t> bytes);
PythonByteArray(const uint8_t *bytes, size_t length);
PythonByteArray(PyRefType type, PyObject *o);
PythonByteArray(const PythonBytes &object);
~PythonByteArray() override;
static bool Check(PyObject *py_obj);
// Bring in the no-argument base class version
using PythonObject::Reset;
void Reset(PyRefType type, PyObject *py_obj) override;
llvm::ArrayRef<uint8_t> GetBytes() const;
size_t GetSize() const;
void SetBytes(llvm::ArrayRef<uint8_t> stringbytes);
StructuredData::StringSP CreateStructuredString() const;
};
class PythonString : public PythonObject {
public:
PythonString();
explicit PythonString(llvm::StringRef string);
explicit PythonString(const char *string);
PythonString(PyRefType type, PyObject *o);
PythonString(const PythonString &object);
~PythonString() override;
static bool Check(PyObject *py_obj);
// Bring in the no-argument base class version
using PythonObject::Reset;
void Reset(PyRefType type, PyObject *py_obj) override;
llvm::StringRef GetString() const;
size_t GetSize() const;
void SetString(llvm::StringRef string);
StructuredData::StringSP CreateStructuredString() const;
};
class PythonInteger : public PythonObject {
public:
PythonInteger();
explicit PythonInteger(int64_t value);
PythonInteger(PyRefType type, PyObject *o);
PythonInteger(const PythonInteger &object);
~PythonInteger() override;
static bool Check(PyObject *py_obj);
// Bring in the no-argument base class version
using PythonObject::Reset;
void Reset(PyRefType type, PyObject *py_obj) override;
int64_t GetInteger() const;
void SetInteger(int64_t value);
StructuredData::IntegerSP CreateStructuredInteger() const;
};
class PythonList : public PythonObject {
public:
PythonList() {}
explicit PythonList(PyInitialValue value);
explicit PythonList(int list_size);
PythonList(PyRefType type, PyObject *o);
PythonList(const PythonList &list);
~PythonList() override;
static bool Check(PyObject *py_obj);
// Bring in the no-argument base class version
using PythonObject::Reset;
void Reset(PyRefType type, PyObject *py_obj) override;
uint32_t GetSize() const;
PythonObject GetItemAtIndex(uint32_t index) const;
void SetItemAtIndex(uint32_t index, const PythonObject &object);
void AppendItem(const PythonObject &object);
StructuredData::ArraySP CreateStructuredArray() const;
};
class PythonTuple : public PythonObject {
public:
PythonTuple() {}
explicit PythonTuple(PyInitialValue value);
explicit PythonTuple(int tuple_size);
PythonTuple(PyRefType type, PyObject *o);
PythonTuple(const PythonTuple &tuple);
PythonTuple(std::initializer_list<PythonObject> objects);
PythonTuple(std::initializer_list<PyObject *> objects);
~PythonTuple() override;
static bool Check(PyObject *py_obj);
// Bring in the no-argument base class version
using PythonObject::Reset;
void Reset(PyRefType type, PyObject *py_obj) override;
uint32_t GetSize() const;
PythonObject GetItemAtIndex(uint32_t index) const;
void SetItemAtIndex(uint32_t index, const PythonObject &object);
StructuredData::ArraySP CreateStructuredArray() const;
};
class PythonDictionary : public PythonObject {
public:
PythonDictionary() {}
explicit PythonDictionary(PyInitialValue value);
PythonDictionary(PyRefType type, PyObject *o);
PythonDictionary(const PythonDictionary &dict);
~PythonDictionary() override;
static bool Check(PyObject *py_obj);
// Bring in the no-argument base class version
using PythonObject::Reset;
void Reset(PyRefType type, PyObject *py_obj) override;
uint32_t GetSize() const;
PythonList GetKeys() const;
PythonObject GetItemForKey(const PythonObject &key) const;
void SetItemForKey(const PythonObject &key, const PythonObject &value);
StructuredData::DictionarySP CreateStructuredDictionary() const;
};
class PythonModule : public PythonObject {
public:
PythonModule();
PythonModule(PyRefType type, PyObject *o);
PythonModule(const PythonModule &dict);
~PythonModule() override;
static bool Check(PyObject *py_obj);
static PythonModule BuiltinsModule();
static PythonModule MainModule();
static PythonModule AddModule(llvm::StringRef module);
static PythonModule ImportModule(llvm::StringRef module);
// Bring in the no-argument base class version
using PythonObject::Reset;
void Reset(PyRefType type, PyObject *py_obj) override;
PythonDictionary GetDictionary() const;
};
class PythonCallable : public PythonObject {
public:
struct ArgInfo {
size_t count;
bool is_bound_method : 1;
bool has_varargs : 1;
bool has_kwargs : 1;
};
PythonCallable();
PythonCallable(PyRefType type, PyObject *o);
PythonCallable(const PythonCallable &dict);
~PythonCallable() override;
static bool Check(PyObject *py_obj);
// Bring in the no-argument base class version
using PythonObject::Reset;
void Reset(PyRefType type, PyObject *py_obj) override;
ArgInfo GetNumArguments() const;
PythonObject operator()();
PythonObject operator()(std::initializer_list<PyObject *> args);
PythonObject operator()(std::initializer_list<PythonObject> args);
template <typename Arg, typename... Args>
PythonObject operator()(const Arg &arg, Args... args) {
return operator()({arg, args...});
}
};
class PythonFile : public PythonObject {
public:
PythonFile();
PythonFile(File &file, const char *mode);
PythonFile(const char *path, const char *mode);
PythonFile(PyRefType type, PyObject *o);
~PythonFile() override;
static bool Check(PyObject *py_obj);
using PythonObject::Reset;
void Reset(PyRefType type, PyObject *py_obj) override;
void Reset(File &file, const char *mode);
static uint32_t GetOptionsFromMode(llvm::StringRef mode);
bool GetUnderlyingFile(File &file) const;
};
} // namespace lldb_private
#endif
#endif // LLDB_PLUGINS_SCRIPTINTERPRETER_PYTHON_PYTHONDATAOBJECTS_H
Reference in New Issue View Git Blame Copy Permalink