// Copyright 2016 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef MOJO_PUBLIC_CPP_BINDINGS_WTF_ARRAY_H_
#define MOJO_PUBLIC_CPP_BINDINGS_WTF_ARRAY_H_
#include <stddef.h>
#include <utility>
#include "base/macros.h"
#include "mojo/public/cpp/bindings/lib/array_internal.h"
#include "mojo/public/cpp/bindings/lib/bindings_internal.h"
#include "mojo/public/cpp/bindings/lib/template_util.h"
#include "mojo/public/cpp/bindings/lib/wtf_clone_equals_util.h"
#include "mojo/public/cpp/bindings/type_converter.h"
#include "third_party/WebKit/Source/wtf/Vector.h"
namespace mojo {
// Represents an array backed by WTF::Vector. Comparing with WTF::Vector,
// mojo::WTFArray is move-only and can be null.
// It is easy to convert between WTF::Vector<T> and mojo::WTFArray<T>:
// - constructor WTFArray(WTF::Vector<T>&&) takes the contents of a
// WTF::Vector<T>;
// - method PassStorage() passes the underlying WTF::Vector.
template <typename T>
class WTFArray {
public:
// Constructs an empty array.
WTFArray() : is_null_(false) {}
// Constructs a null array.
WTFArray(std::nullptr_t null_pointer) : is_null_(true) {}
// Constructs a new non-null array of the specified size. The elements will
// be value-initialized (meaning that they will be initialized by their
// default constructor, if any, or else zero-initialized).
explicit WTFArray(size_t size) : vec_(size), is_null_(false) {}
~WTFArray() {}
// Moves the contents of |other| into this array.
WTFArray(WTF::Vector<T>&& other) : vec_(std::move(other)), is_null_(false) {}
WTFArray(WTFArray&& other) : is_null_(true) { Take(&other); }
WTFArray& operator=(WTF::Vector<T>&& other) {
vec_ = std::move(other);
is_null_ = false;
return *this;
}
WTFArray& operator=(WTFArray&& other) {
Take(&other);
return *this;
}
WTFArray& operator=(std::nullptr_t null_pointer) {
is_null_ = true;
vec_.clear();
return *this;
}
// Creates a non-null array of the specified size. The elements will be
// value-initialized (meaning that they will be initialized by their default
// constructor, if any, or else zero-initialized).
static WTFArray New(size_t size) { return WTFArray(size); }
// Creates a new array with a copy of the contents of |other|.
template <typename U>
static WTFArray From(const U& other) {
return TypeConverter<WTFArray, U>::Convert(other);
}
// Copies the contents of this array to a new object of type |U|.
template <typename U>
U To() const {
return TypeConverter<U, WTFArray>::Convert(*this);
}
// Indicates whether the array is null (which is distinct from empty).
bool is_null() const {
// When the array is set to null, the underlying storage |vec_| shouldn't
// contain any elements.
DCHECK(!is_null_ || vec_.isEmpty());
return is_null_;
}
// Indicates whether the array is empty (which is distinct from null).
bool empty() const { return vec_.isEmpty() && !is_null_; }
// Returns a reference to the first element of the array. Calling this on a
// null or empty array causes undefined behavior.
const T& front() const { return vec_.first(); }
T& front() { return vec_.first(); }
// Returns the size of the array, which will be zero if the array is null.
size_t size() const { return vec_.size(); }
// Returns a reference to the element at zero-based |offset|. Calling this on
// an array with size less than |offset|+1 causes undefined behavior.
const T& at(size_t offset) const { return vec_.at(offset); }
const T& operator[](size_t offset) const { return at(offset); }
T& at(size_t offset) { return vec_.at(offset); }
T& operator[](size_t offset) { return at(offset); }
// Resizes the array to |size| and makes it non-null. Otherwise, works just
// like the resize method of |WTF::Vector|.
void resize(size_t size) {
is_null_ = false;
vec_.resize(size);
}
// Sets the array to empty (even if previously it was null.)
void SetToEmpty() { resize(0); }
// Returns a const reference to the |WTF::Vector| managed by this class. If
// the array is null, this will be an empty vector.
const WTF::Vector<T>& storage() const { return vec_; }
// Passes the underlying storage and resets this array to null.
//
// TODO(yzshen): Consider changing this to a rvalue-ref-qualified conversion
// to WTF::Vector<T> after we move to MSVC 2015.
WTF::Vector<T> PassStorage() {
is_null_ = true;
return std::move(vec_);
}
void Swap(WTFArray* other) {
std::swap(is_null_, other->is_null_);
vec_.swap(other->vec_);
}
// Swaps the contents of this array with the specified vector, making this
// array non-null. Since the vector cannot represent null, it will just be
// made empty if this array is null.
void Swap(WTF::Vector<T>* other) {
is_null_ = false;
vec_.swap(*other);
}
// Returns a copy of the array where each value of the new array has been
// "cloned" from the corresponding value of this array. If the element type
// defines a Clone() method, it will be used; otherwise copy
// constructor/assignment will be used.
//
// Please note that calling this method will fail compilation if the element
// type cannot be cloned (which usually means that it is a Mojo handle type or
// a type containing Mojo handles).
WTFArray Clone() const {
WTFArray result;
result.is_null_ = is_null_;
result.vec_ = internal::Clone(vec_);
return result;
}
// Indicates whether the contents of this array are equal to |other|. A null
// array is only equal to another null array. If the element type defines an
// Equals() method, it will be used; otherwise == operator will be used.
bool Equals(const WTFArray& other) const {
if (is_null() != other.is_null())
return false;
return internal::Equals(vec_, other.vec_);
}
private:
// TODO(dcheng): Use an explicit conversion operator.
typedef WTF::Vector<T> WTFArray::*Testable;
public:
operator Testable() const {
// When the array is set to null, the underlying storage |vec_| shouldn't
// contain any elements.
DCHECK(!is_null_ || vec_.isEmpty());
return is_null_ ? 0 : &WTFArray::vec_;
}
private:
// Forbid the == and != operators explicitly, otherwise WTFArray will be
// converted to Testable to do == or != comparison.
template <typename U>
bool operator==(const WTFArray<U>& other) const = delete;
template <typename U>
bool operator!=(const WTFArray<U>& other) const = delete;
void Take(WTFArray* other) {
operator=(nullptr);
Swap(other);
}
WTF::Vector<T> vec_;
bool is_null_;
DISALLOW_COPY_AND_ASSIGN(WTFArray);
};
} // namespace mojo
#endif // MOJO_PUBLIC_CPP_BINDINGS_WTF_ARRAY_H_