/*

* Copyright (c) Facebook, Inc. and its affiliates.

*

* This source code is licensed under the MIT license found in the

* LICENSE file in the root directory of this source tree.

*/

#include "hermes/VM/Metadata.h"

namespace hermes {

namespace vm {

using std::size_t;

using std::uintptr_t;

using ArrayData = Metadata::ArrayData;

using ArrayType = ArrayData::ArrayType;

Metadata::Metadata(Builder &&mb)

: pointers_(mb.pointers_.size()),

values_(mb.values_.size()),

symbols_(mb.symbols_.size()),

array_(std::move(mb.array_)) {

auto copier =

[](const std::map<offset_t, std::pair<const char *, size_t>> &map,

Fields &insertionPoint) {

std::transform(

map.cbegin(),

map.cend(),

std::begin(insertionPoint.offsets),

[](const OffsetAndNameAndSize &p) { return p.first; });

std::transform(

map.cbegin(),

map.cend(),

std::begin(insertionPoint.names),

[](const OffsetAndNameAndSize &p) { return p.second.first; });

};

copier(mb.pointers_, pointers_);

copier(mb.values_, values_);

copier(mb.symbols_, symbols_);

}

Metadata::Metadata(Metadata &&that)

: pointers_(std::move(that.pointers_)),

values_(std::move(that.values_)),

symbols_(std::move(that.symbols_)),

array_(std::move(that.array_)) {}

Metadata::Builder::Builder(const void *base)

: base_(reinterpret_cast<const char *>(base)),

pointers_(),

values_(),

symbols_(),

array_() {}

void Metadata::Builder::addField(const GCPointerBase *fieldLocation) {

addField(nullptr, fieldLocation);

}

void Metadata::Builder::addField(

const char *name,

const GCPointerBase *fieldLocation) {

offset_t offset = reinterpret_cast<const char *>(fieldLocation) - base_;

size_t size = sizeof(GCPointerBase);

assert(!fieldConflicts(offset, size) && "fields should not overlap");

pointers_[offset] = std::make_pair(name, size);

}

void Metadata::Builder::addField(const GCHermesValue *fieldLocation) {

addField(nullptr, fieldLocation);

}

void Metadata::Builder::addField(

const char *name,

const GCHermesValue *fieldLocation) {

offset_t offset = reinterpret_cast<const char *>(fieldLocation) - base_;

size_t size = sizeof(GCHermesValue);

assert(!fieldConflicts(offset, size) && "fields should not overlap");

values_[offset] = std::make_pair(name, size);

}

void Metadata::Builder::addField(const SymbolID *fieldLocation) {

addField(nullptr, fieldLocation);

}

void Metadata::Builder::addField(

const char *name,

const SymbolID *fieldLocation) {

offset_t offset = reinterpret_cast<const char *>(fieldLocation) - base_;

size_t size = sizeof(SymbolID);

assert(!fieldConflicts(offset, size) && "fields should not overlap");

symbols_[offset] = std::make_pair(name, size);

}

Metadata Metadata::Builder::build() {

return Metadata(std::move(*this));

}

#ifndef NDEBUG

bool Metadata::Builder::fieldConflicts(offset_t offset, size_t size) {

size_t end = offset + size;

coveredOffsets_.resize(std::max(coveredOffsets_.size(), end));

for (offset_t i = offset; i < end; ++i) {

if (coveredOffsets_[i])

return true;

coveredOffsets_[i] = true;

}

return false;

}

#endif

/// @name Formatters

/// @{

llvh::raw_ostream &operator<<(llvh::raw_ostream &os, const Metadata &meta) {

os << "Metadata: {\n\tfieldsAndNames: [";

auto printOffsetAndNameAndSizes = [](llvh::raw_ostream &os,

const Metadata::Fields &vec) {

bool first = true;

for (size_t i = 0; i < vec.size(); ++i) {

if (!first) {

os << ",";

} else {

first = false;

}

os << "\n\t\t";

os << "{ offset: " << vec.offsets[i] << ", name: " << vec.names[i] << "}";

}

if (!vec.empty()) {

os << "\n\t";

}

};

printOffsetAndNameAndSizes(os, meta.pointers_);

printOffsetAndNameAndSizes(os, meta.values_);

printOffsetAndNameAndSizes(os, meta.symbols_);

os << "]";

if (meta.array_) {

os << ",\n\tarray: " << *meta.array_ << ",\n";

} else {

os << "\n";

}

return os << "}";

}

llvh::raw_ostream &operator<<(llvh::raw_ostream &os, ArrayData array) {

return os << "ArrayData: {type: {" << array.type

<< "}, lengthOffset: " << array.lengthOffset

<< ", stride: " << array.stride << "}";

}

llvh::raw_ostream &operator<<(llvh::raw_ostream &os, ArrayType arraytype) {

os << "ArrayType: {";

switch (arraytype) {

case ArrayType::Pointer:

os << "Pointer";

break;

case ArrayType::HermesValue:

os << "HermesValue";

break;

case ArrayType::Symbol:

os << "Symbol";

break;

}

return os << "}";

}

/// @}

} // namespace vm

} // namespace hermes