//# This file is a part of toml++ and is subject to the the terms of the MIT license. //# Copyright (c) 2019-2020 Mark Gillard //# See https://github.com/marzer/tomlplusplus/blob/master/LICENSE for the full license text. #pragma once #include "toml_array.h" TOML_START { TOML_INLINE_FUNC_IMPL void array::preinsertion_resize(size_t idx, size_t count) noexcept { const auto new_size = values.size() + count; const auto inserting_at_end = idx == values.size(); values.resize(new_size); if (!inserting_at_end) { for (size_t r = new_size, e = idx + count, l = e; r-- > e; l--) values[r] = std::move(values[l]); } } TOML_INLINE_FUNC_IMPL array::array() noexcept = default; TOML_INLINE_FUNC_IMPL array::array(array&& other) noexcept : node{ std::move(other) }, values{ std::move(other.values) } {} TOML_INLINE_FUNC_IMPL array& array::operator= (array&& rhs) noexcept { node::operator=(std::move(rhs)); values = std::move(rhs.values); return *this; } TOML_INLINE_FUNC_IMPL node_type array::type() const noexcept { return node_type::array; } TOML_INLINE_FUNC_IMPL bool array::is_table() const noexcept { return false; } TOML_INLINE_FUNC_IMPL bool array::is_array() const noexcept { return true; } TOML_INLINE_FUNC_IMPL bool array::is_value() const noexcept { return false; } TOML_INLINE_FUNC_IMPL array* array::as_array() noexcept { return this; } TOML_INLINE_FUNC_IMPL const array* array::as_array() const noexcept { return this; } TOML_INLINE_FUNC_IMPL node& array::operator[] (size_t index) noexcept { return *values[index]; } TOML_INLINE_FUNC_IMPL const node& array::operator[] (size_t index) const noexcept { return *values[index]; } TOML_INLINE_FUNC_IMPL node& array::front() noexcept { return *values.front(); } TOML_INLINE_FUNC_IMPL const node& array::front() const noexcept { return *values.front(); } TOML_INLINE_FUNC_IMPL node& array::back() noexcept { return *values.back(); } TOML_INLINE_FUNC_IMPL const node& array::back() const noexcept { return *values.back(); } TOML_INLINE_FUNC_IMPL array::iterator array::begin() noexcept { return { values.begin() }; } TOML_INLINE_FUNC_IMPL array::const_iterator array::begin() const noexcept { return { values.begin() }; } TOML_INLINE_FUNC_IMPL array::const_iterator array::cbegin() const noexcept { return { values.cbegin() }; } TOML_INLINE_FUNC_IMPL array::iterator array::end() noexcept { return { values.end() }; } TOML_INLINE_FUNC_IMPL array::const_iterator array::end() const noexcept { return { values.end() }; } TOML_INLINE_FUNC_IMPL array::const_iterator array::cend() const noexcept { return { values.cend() }; } TOML_INLINE_FUNC_IMPL bool array::empty() const noexcept { return values.empty(); } TOML_INLINE_FUNC_IMPL size_t array::size() const noexcept { return values.size(); } TOML_INLINE_FUNC_IMPL void array::reserve(size_t new_capacity) TOML_MAY_THROW { values.reserve(new_capacity); } TOML_INLINE_FUNC_IMPL void array::clear() noexcept { values.clear(); } TOML_INLINE_FUNC_IMPL array::iterator array::erase(const_iterator pos) noexcept { return { values.erase(pos.raw_) }; } TOML_INLINE_FUNC_IMPL array::iterator array::erase(const_iterator first, const_iterator last) noexcept { return { values.erase(first.raw_, last.raw_) }; } TOML_INLINE_FUNC_IMPL void array::pop_back() noexcept { values.pop_back(); } TOML_INLINE_FUNC_IMPL node* array::get(size_t index) noexcept { return index < values.size() ? values[index].get() : nullptr; } TOML_INLINE_FUNC_IMPL const node* array::get(size_t index) const noexcept { return index < values.size() ? values[index].get() : nullptr; } TOML_API TOML_INLINE_FUNC_IMPL bool operator == (const array& lhs, const array& rhs) noexcept { if (&lhs == &rhs) return true; if (lhs.values.size() != rhs.values.size()) return false; for (size_t i = 0, e = lhs.values.size(); i < e; i++) { const auto lhs_type = lhs.values[i]->type(); const node& rhs_ = *rhs.values[i]; const auto rhs_type = rhs_.type(); if (lhs_type != rhs_type) return false; const bool equal = lhs.values[i]->visit([&](const auto& lhs_) noexcept { return lhs_ == *reinterpret_cast*>(&rhs_); }); if (!equal) return false; } return true; } TOML_API TOML_INLINE_FUNC_IMPL bool operator != (const array& lhs, const array& rhs) noexcept { return !(lhs == rhs); } TOML_INLINE_FUNC_IMPL size_t array::total_leaf_count() const noexcept { size_t leaves{}; for (size_t i = 0, e = values.size(); i < e; i++) { auto arr = values[i]->as_array(); leaves += arr ? arr->total_leaf_count() : 1_sz; } return leaves; } TOML_INLINE_FUNC_IMPL void array::flatten_child(array&& child, size_t& dest_index) noexcept { for (size_t i = 0, e = child.size(); i < e; i++) { auto type = child.values[i]->type(); if (type == node_type::array) { array& arr = *reinterpret_cast(child.values[i].get()); if (!arr.empty()) flatten_child(std::move(arr), dest_index); } else values[dest_index++] = std::move(child.values[i]); } } TOML_INLINE_FUNC_IMPL void array::flatten() TOML_MAY_THROW { if (values.empty()) return; bool requires_flattening = false; size_t size_after_flattening = values.size(); for (size_t i = values.size(); i --> 0_sz;) { auto arr = values[i]->as_array(); if (!arr) continue; size_after_flattening--; //discount the array itself const auto leaf_count = arr->total_leaf_count(); if (leaf_count > 0_sz) { requires_flattening = true; size_after_flattening += leaf_count; } else values.erase(values.cbegin() + static_cast(i)); } if (!requires_flattening) return; values.reserve(size_after_flattening); size_t i = 0; while (i < values.size()) { auto arr = values[i]->as_array(); if (!arr) { i++; continue; } std::unique_ptr arr_storage = std::move(values[i]); const auto leaf_count = arr->total_leaf_count(); if (leaf_count > 1_sz) preinsertion_resize(i + 1_sz, leaf_count - 1_sz); flatten_child(std::move(*arr), i); //increments i } } } TOML_END