#include <xbt/base.h>
-#include "src/mc/remote_ptr.hpp"
-#include "src/mc/PageStore.hpp"
#include "src/mc/AddressSpace.hpp"
#include "src/mc/ChunkedData.hpp"
+#include "src/mc/PageStore.hpp"
+#include "src/mc/remote/RemotePtr.hpp"
namespace simgrid {
namespace mc {
Data = 2
};
-// TODO, use Boost.Variant instead of this
enum class StorageType {
NoData = 0,
Flat = 1,
Privatized = 3
};
-class data_deleter {
-public:
- enum Type {
- Free,
- Munmap
- };
+class Buffer {
private:
- Type type_;
+ enum class Type {
+ Malloc,
+ Mmap
+ };
+ void* data_ = nullptr;
std::size_t size_;
+ Type type_ = Type::Malloc;
+private:
+ Buffer(std::size_t size, Type type = Type::Malloc);
+ Buffer(void* data, std::size_t size, Type type = Type::Malloc) :
+ data_(data), size_(size), type_(type) {}
public:
- data_deleter() : type_(Free) {}
- data_deleter(Type type, std::size_t size) : type_(type), size_(size) {}
- void operator()(void* p) const;
-};
+ Buffer() {}
+ void clear() noexcept;
+ ~Buffer() noexcept { clear(); }
-typedef std::unique_ptr<char[], data_deleter> unique_data_ptr;
+ static Buffer malloc(std::size_t size)
+ {
+ return Buffer(size, Type::Malloc);
+ }
+ static Buffer mmap(std::size_t size)
+ {
+ return Buffer(size, Type::Mmap);
+ }
+
+ // No copy
+ Buffer(Buffer const& buffer) = delete;
+ Buffer& operator=(Buffer const& buffer) = delete;
+
+ // Move
+ Buffer(Buffer&& that) noexcept
+ : data_(that.data_), size_(that.size_), type_(that.type_)
+ {
+ that.data_ = nullptr;
+ that.size_ = 0;
+ that.type_ = Type::Malloc;
+ }
+ Buffer& operator=(Buffer&& that) noexcept
+ {
+ clear();
+ data_ = that.data_;
+ size_ = that.size_;
+ type_ = that.type_;
+ that.data_ = nullptr;
+ that.size_ = 0;
+ that.type_ = Type::Malloc;
+ return *this;
+ }
+
+ void* get() { return data_; }
+ const void* get() const { return data_; }
+ std::size_t size() const { return size_; }
+};
/** A copy/snapshot of a given memory region
*
*
* * privatized (SMPI global variable privatisation).
*
- * This is handled with a variant based approch:
+ * This is handled with a variant based approach:
*
* * `storage_type` identified the type of storage;
*
static const RegionType UnknownRegion = RegionType::Unknown;
static const RegionType HeapRegion = RegionType::Heap;
static const RegionType DataRegion = RegionType::Data;
-public:
- typedef unique_data_ptr flat_data_ptr;
private:
RegionType region_type_;
StorageType storage_type_;
* */
void *permanent_addr_;
- flat_data_ptr flat_data_;
+ Buffer flat_data_;
ChunkedData page_numbers_;
std::vector<RegionSnapshot> privatized_regions_;
public:
storage_type_ = StorageType::NoData;
privatized_regions_.clear();
page_numbers_.clear();
- flat_data_.reset();
+ flat_data_.clear();
object_info_ = nullptr;
start_addr_ = nullptr;
size_ = 0;
void clear_data()
{
storage_type_ = StorageType::NoData;
- flat_data_.reset();
+ flat_data_.clear();
page_numbers_.clear();
privatized_regions_.clear();
}
- void flat_data(flat_data_ptr data)
+ void flat_data(Buffer data)
{
storage_type_ = StorageType::Flat;
flat_data_ = std::move(data);
page_numbers_.clear();
privatized_regions_.clear();
}
- const char* flat_data() const { return flat_data_.get(); }
+ const Buffer& flat_data() const { return flat_data_; }
+ Buffer& flat_data() { return flat_data_; }
void page_data(ChunkedData page_data)
{
storage_type_ = StorageType::Chunked;
- flat_data_.reset();
+ flat_data_.clear();
page_numbers_ = std::move(page_data);
privatized_regions_.clear();
}
void privatized_data(std::vector<RegionSnapshot> data)
{
storage_type_ = StorageType::Privatized;
- flat_data_.reset();
+ flat_data_.clear();
page_numbers_.clear();
privatized_regions_ = std::move(data);
}
// Other getters
- remote_ptr<void> start() const { return remote(start_addr_); }
- remote_ptr<void> end() const { return remote((char*)start_addr_ + size_); }
- remote_ptr<void> permanent_address() const { return remote(permanent_addr_); }
+ RemotePtr<void> start() const { return remote(start_addr_); }
+ RemotePtr<void> end() const { return remote((char*)start_addr_ + size_); }
+ RemotePtr<void> permanent_address() const { return remote(permanent_addr_); }
std::size_t size() const { return size_; }
StorageType storage_type() const { return storage_type_; }
RegionType region_type() const { return region_type_; }
- bool contain(remote_ptr<void> p) const
+ bool contain(RemotePtr<void> p) const
{
return p >= start() && p < end();
}
RegionSnapshot privatized_region(
RegionType region_type, void *start_addr, void* permanent_addr,
- std::size_t size, const RegionSnapshot* ref_region);
+ std::size_t size);
RegionSnapshot dense_region(
RegionType type, void *start_addr, void* data_addr, std::size_t size);
simgrid::mc::RegionSnapshot sparse_region(
- RegionType type, void *start_addr, void* data_addr, std::size_t size,
- RegionSnapshot const* ref_region);
+ RegionType type, void *start_addr, void* data_addr, std::size_t size);
simgrid::mc::RegionSnapshot region(
- RegionType type, void *start_addr, void* data_addr, std::size_t size,
- RegionSnapshot const* ref_region);
+ RegionType type, void *start_addr, void* data_addr, std::size_t size);
}
}