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//===-- TypeSynthetic.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_TypeSynthetic_h_
#define lldb_TypeSynthetic_h_
// C Includes
#include <stdint.h>
// C++ Includes
#include <functional>
#include <initializer_list>
#include <memory>
#include <string>
#include <vector>
// Other libraries and framework includes
// Project includes
#include "lldb/lldb-enumerations.h"
#include "lldb/lldb-public.h"
#include "lldb/Core/ValueObject.h"
#include "lldb/Utility/StructuredData.h"
namespace lldb_private {
class SyntheticChildrenFrontEnd {
protected:
ValueObject &m_backend;
void SetValid(bool valid) { m_valid = valid; }
bool IsValid() { return m_valid; }
public:
SyntheticChildrenFrontEnd(ValueObject &backend)
: m_backend(backend), m_valid(true) {}
virtual ~SyntheticChildrenFrontEnd() = default;
virtual size_t CalculateNumChildren() = 0;
virtual size_t CalculateNumChildren(uint32_t max) {
auto count = CalculateNumChildren();
return count <= max ? count : max;
}
virtual lldb::ValueObjectSP GetChildAtIndex(size_t idx) = 0;
virtual size_t GetIndexOfChildWithName(const ConstString &name) = 0;
// this function is assumed to always succeed and it if fails, the front-end
// should know to deal with it in the correct way (most probably, by refusing
// to return any children) the return value of Update() should actually be
// interpreted as "ValueObjectSyntheticFilter cache is good/bad" if =true,
// ValueObjectSyntheticFilter is allowed to use the children it fetched
// previously and cached if =false, ValueObjectSyntheticFilter must throw
// away its cache, and query again for children
virtual bool Update() = 0;
// if this function returns false, then CalculateNumChildren() MUST return 0
// since UI frontends might validly decide not to inquire for children given
// a false return value from this call if it returns true, then
// CalculateNumChildren() can return any number >= 0 (0 being valid) it
// should if at all possible be more efficient than CalculateNumChildren()
virtual bool MightHaveChildren() = 0;
// if this function returns a non-null ValueObject, then the returned
// ValueObject will stand for this ValueObject whenever a "value" request is
// made to this ValueObject
virtual lldb::ValueObjectSP GetSyntheticValue() { return nullptr; }
// if this function returns a non-empty ConstString, then clients are
// expected to use the return as the name of the type of this ValueObject for
// display purposes
virtual ConstString GetSyntheticTypeName() { return ConstString(); }
typedef std::shared_ptr<SyntheticChildrenFrontEnd> SharedPointer;
typedef std::unique_ptr<SyntheticChildrenFrontEnd> AutoPointer;
protected:
lldb::ValueObjectSP
CreateValueObjectFromExpression(llvm::StringRef name,
llvm::StringRef expression,
const ExecutionContext &exe_ctx);
lldb::ValueObjectSP
CreateValueObjectFromAddress(llvm::StringRef name, uint64_t address,
const ExecutionContext &exe_ctx,
CompilerType type);
lldb::ValueObjectSP CreateValueObjectFromData(llvm::StringRef name,
const DataExtractor &data,
const ExecutionContext &exe_ctx,
CompilerType type);
private:
bool m_valid;
DISALLOW_COPY_AND_ASSIGN(SyntheticChildrenFrontEnd);
};
class SyntheticValueProviderFrontEnd : public SyntheticChildrenFrontEnd {
public:
SyntheticValueProviderFrontEnd(ValueObject &backend)
: SyntheticChildrenFrontEnd(backend) {}
~SyntheticValueProviderFrontEnd() override = default;
size_t CalculateNumChildren() override { return 0; }
lldb::ValueObjectSP GetChildAtIndex(size_t idx) override { return nullptr; }
size_t GetIndexOfChildWithName(const ConstString &name) override {
return UINT32_MAX;
}
bool Update() override { return false; }
bool MightHaveChildren() override { return false; }
lldb::ValueObjectSP GetSyntheticValue() override = 0;
private:
DISALLOW_COPY_AND_ASSIGN(SyntheticValueProviderFrontEnd);
};
class SyntheticChildren {
public:
class Flags {
public:
Flags() : m_flags(lldb::eTypeOptionCascade) {}
Flags(const Flags &other) : m_flags(other.m_flags) {}
Flags(uint32_t value) : m_flags(value) {}
Flags &operator=(const Flags &rhs) {
if (&rhs != this)
m_flags = rhs.m_flags;
return *this;
}
Flags &operator=(const uint32_t &rhs) {
m_flags = rhs;
return *this;
}
Flags &Clear() {
m_flags = 0;
return *this;
}
bool GetCascades() const {
return (m_flags & lldb::eTypeOptionCascade) == lldb::eTypeOptionCascade;
}
Flags &SetCascades(bool value = true) {
if (value)
m_flags |= lldb::eTypeOptionCascade;
else
m_flags &= ~lldb::eTypeOptionCascade;
return *this;
}
bool GetSkipPointers() const {
return (m_flags & lldb::eTypeOptionSkipPointers) ==
lldb::eTypeOptionSkipPointers;
}
Flags &SetSkipPointers(bool value = true) {
if (value)
m_flags |= lldb::eTypeOptionSkipPointers;
else
m_flags &= ~lldb::eTypeOptionSkipPointers;
return *this;
}
bool GetSkipReferences() const {
return (m_flags & lldb::eTypeOptionSkipReferences) ==
lldb::eTypeOptionSkipReferences;
}
Flags &SetSkipReferences(bool value = true) {
if (value)
m_flags |= lldb::eTypeOptionSkipReferences;
else
m_flags &= ~lldb::eTypeOptionSkipReferences;
return *this;
}
bool GetNonCacheable() const {
return (m_flags & lldb::eTypeOptionNonCacheable) ==
lldb::eTypeOptionNonCacheable;
}
Flags &SetNonCacheable(bool value = true) {
if (value)
m_flags |= lldb::eTypeOptionNonCacheable;
else
m_flags &= ~lldb::eTypeOptionNonCacheable;
return *this;
}
bool GetFrontEndWantsDereference() const {
return (m_flags & lldb::eTypeOptionFrontEndWantsDereference) ==
lldb::eTypeOptionFrontEndWantsDereference;
}
Flags &SetFrontEndWantsDereference(bool value = true) {
if (value)
m_flags |= lldb::eTypeOptionFrontEndWantsDereference;
else
m_flags &= ~lldb::eTypeOptionFrontEndWantsDereference;
return *this;
}
uint32_t GetValue() { return m_flags; }
void SetValue(uint32_t value) { m_flags = value; }
private:
uint32_t m_flags;
};
SyntheticChildren(const Flags &flags) : m_flags(flags) {}
virtual ~SyntheticChildren() = default;
bool Cascades() const { return m_flags.GetCascades(); }
bool SkipsPointers() const { return m_flags.GetSkipPointers(); }
bool SkipsReferences() const { return m_flags.GetSkipReferences(); }
bool NonCacheable() const { return m_flags.GetNonCacheable(); }
bool WantsDereference() const { return m_flags.GetFrontEndWantsDereference();}
void SetCascades(bool value) { m_flags.SetCascades(value); }
void SetSkipsPointers(bool value) { m_flags.SetSkipPointers(value); }
void SetSkipsReferences(bool value) { m_flags.SetSkipReferences(value); }
void SetNonCacheable(bool value) { m_flags.SetNonCacheable(value); }
uint32_t GetOptions() { return m_flags.GetValue(); }
void SetOptions(uint32_t value) { m_flags.SetValue(value); }
virtual bool IsScripted() = 0;
virtual std::string GetDescription() = 0;
virtual SyntheticChildrenFrontEnd::AutoPointer
GetFrontEnd(ValueObject &backend) = 0;
typedef std::shared_ptr<SyntheticChildren> SharedPointer;
uint32_t &GetRevision() { return m_my_revision; }
protected:
uint32_t m_my_revision;
Flags m_flags;
private:
DISALLOW_COPY_AND_ASSIGN(SyntheticChildren);
};
class TypeFilterImpl : public SyntheticChildren {
std::vector<std::string> m_expression_paths;
public:
TypeFilterImpl(const SyntheticChildren::Flags &flags)
: SyntheticChildren(flags), m_expression_paths() {}
TypeFilterImpl(const SyntheticChildren::Flags &flags,
const std::initializer_list<const char *> items)
: SyntheticChildren(flags), m_expression_paths() {
for (auto path : items)
AddExpressionPath(path);
}
void AddExpressionPath(const char *path) {
AddExpressionPath(std::string(path));
}
void Clear() { m_expression_paths.clear(); }
size_t GetCount() const { return m_expression_paths.size(); }
const char *GetExpressionPathAtIndex(size_t i) const {
return m_expression_paths[i].c_str();
}
bool SetExpressionPathAtIndex(size_t i, const char *path) {
return SetExpressionPathAtIndex(i, std::string(path));
}
void AddExpressionPath(const std::string &path);
bool SetExpressionPathAtIndex(size_t i, const std::string &path);
bool IsScripted() override { return false; }
std::string GetDescription() override;
class FrontEnd : public SyntheticChildrenFrontEnd {
public:
FrontEnd(TypeFilterImpl *flt, ValueObject &backend)
: SyntheticChildrenFrontEnd(backend), filter(flt) {}
~FrontEnd() override = default;
size_t CalculateNumChildren() override { return filter->GetCount(); }
lldb::ValueObjectSP GetChildAtIndex(size_t idx) override {
if (idx >= filter->GetCount())
return lldb::ValueObjectSP();
return m_backend.GetSyntheticExpressionPathChild(
filter->GetExpressionPathAtIndex(idx), true);
}
bool Update() override { return false; }
bool MightHaveChildren() override { return filter->GetCount() > 0; }
size_t GetIndexOfChildWithName(const ConstString &name) override;
typedef std::shared_ptr<SyntheticChildrenFrontEnd> SharedPointer;
private:
TypeFilterImpl *filter;
DISALLOW_COPY_AND_ASSIGN(FrontEnd);
};
SyntheticChildrenFrontEnd::AutoPointer
GetFrontEnd(ValueObject &backend) override {
return SyntheticChildrenFrontEnd::AutoPointer(new FrontEnd(this, backend));
}
typedef std::shared_ptr<TypeFilterImpl> SharedPointer;
private:
DISALLOW_COPY_AND_ASSIGN(TypeFilterImpl);
};
class CXXSyntheticChildren : public SyntheticChildren {
public:
typedef std::function<SyntheticChildrenFrontEnd *(CXXSyntheticChildren *,
lldb::ValueObjectSP)>
CreateFrontEndCallback;
CXXSyntheticChildren(const SyntheticChildren::Flags &flags,
const char *description, CreateFrontEndCallback callback)
: SyntheticChildren(flags), m_create_callback(callback),
m_description(description ? description : "") {}
bool IsScripted() override { return false; }
std::string GetDescription() override;
SyntheticChildrenFrontEnd::AutoPointer
GetFrontEnd(ValueObject &backend) override {
return SyntheticChildrenFrontEnd::AutoPointer(
m_create_callback(this, backend.GetSP()));
}
protected:
CreateFrontEndCallback m_create_callback;
std::string m_description;
private:
DISALLOW_COPY_AND_ASSIGN(CXXSyntheticChildren);
};
#ifndef LLDB_DISABLE_PYTHON
class ScriptedSyntheticChildren : public SyntheticChildren {
std::string m_python_class;
std::string m_python_code;
public:
ScriptedSyntheticChildren(const SyntheticChildren::Flags &flags,
const char *pclass, const char *pcode = nullptr)
: SyntheticChildren(flags), m_python_class(), m_python_code() {
if (pclass)
m_python_class = pclass;
if (pcode)
m_python_code = pcode;
}
const char *GetPythonClassName() { return m_python_class.c_str(); }
const char *GetPythonCode() { return m_python_code.c_str(); }
void SetPythonClassName(const char *fname) {
m_python_class.assign(fname);
m_python_code.clear();
}
void SetPythonCode(const char *script) { m_python_code.assign(script); }
std::string GetDescription() override;
bool IsScripted() override { return true; }
class FrontEnd : public SyntheticChildrenFrontEnd {
public:
FrontEnd(std::string pclass, ValueObject &backend);
~FrontEnd() override;
bool IsValid();
size_t CalculateNumChildren() override;
size_t CalculateNumChildren(uint32_t max) override;
lldb::ValueObjectSP GetChildAtIndex(size_t idx) override;
bool Update() override;
bool MightHaveChildren() override;
size_t GetIndexOfChildWithName(const ConstString &name) override;
lldb::ValueObjectSP GetSyntheticValue() override;
ConstString GetSyntheticTypeName() override;
typedef std::shared_ptr<SyntheticChildrenFrontEnd> SharedPointer;
private:
std::string m_python_class;
StructuredData::ObjectSP m_wrapper_sp;
ScriptInterpreter *m_interpreter;
DISALLOW_COPY_AND_ASSIGN(FrontEnd);
};
SyntheticChildrenFrontEnd::AutoPointer
GetFrontEnd(ValueObject &backend) override {
auto synth_ptr = SyntheticChildrenFrontEnd::AutoPointer(
new FrontEnd(m_python_class, backend));
if (synth_ptr && ((FrontEnd *)synth_ptr.get())->IsValid())
return synth_ptr;
return nullptr;
}
private:
DISALLOW_COPY_AND_ASSIGN(ScriptedSyntheticChildren);
};
#endif
} // namespace lldb_private
#endif // lldb_TypeSynthetic_h_