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#include "wall-atlas.hpp"
#include "magnum-vector.hpp"
#include "corrade-string.hpp"
#include "compat/exception.hpp"
#include "loader/loader.hpp"
#include "pass-mode.hpp"
#include "json-helper.hpp"
#include <utility>
#include <string_view>
#include <Corrade/Containers/ArrayViewStl.h>
#include <Corrade/Containers/StringStl.h>
#include <Magnum/ImageView.h>
#include <Magnum/Trade/ImageData.h>
#include <nlohmann/json.hpp>
namespace floormat::Wall {
NLOHMANN_DEFINE_TYPE_NON_INTRUSIVE(Frame, offset, size)
NLOHMANN_DEFINE_TYPE_NON_INTRUSIVE(Info, name, depth)
} // namespace floormat::Wall
namespace nlohmann {
using floormat::Wall::Frame;
template<>
struct adl_serializer<floormat::Wall::Frame> {
static void to_json(json& j, const Frame& val);
static void from_json(const json& j, Frame& val);
};
void adl_serializer<Frame>::to_json(json& j, const Frame& x) { using nlohmann::to_json; to_json(j, x); }
void adl_serializer<Frame>::from_json(const json& j, Frame& x) { using nlohmann::from_json; from_json(j, x); }
} // namespace nlohmann
namespace floormat {
using namespace floormat::Wall;
using namespace floormat::Wall::detail;
namespace {
struct direction_triple
{
std::vector<Direction> array;
std::array<DirArrayIndex, Direction_COUNT> map;
std::bitset<Direction_COUNT> mask;
};
direction_triple read_all_directions(const json& jroot)
{
size_t count = 0;
for (auto [str, _] : wall_atlas::directions)
if (jroot.contains(str))
count++;
direction_triple ret = { std::vector<Direction>{count},
std::array<DirArrayIndex, Direction_COUNT>{},
std::bitset<Direction_COUNT>{0}, };
auto& [array, map, mask] = ret;
for (uint8_t i = 0, pos = 0; i < std::size(wall_atlas::directions); i++)
{
auto [str, dir] = wall_atlas::directions[i];
if (jroot.contains(str))
{
mask[i] = true;
map[i] = {.val = pos};
array[pos++] = read_direction_metadata(jroot, dir);
}
}
return ret;
}
} // namespace
bool wall_atlas_def::operator==(const wall_atlas_def& other) const noexcept
{
if (header != other.header)
return false;
if (direction_array.size() != other.direction_array.size())
return false;
for (uint8_t i = 0; i < std::size(direction_map); i++)
{
auto i1 = direction_map[i], i2 = other.direction_map[i];
if (!i1 != !i2)
return false;
if (i1)
{
fm_assert(i1.val < direction_array.size());
fm_assert(i2.val < other.direction_array.size());
if (direction_array[i1.val] != other.direction_array[i2.val])
return false;
}
}
if (frames.size() != other.frames.size())
return false;
for (auto i = 0uz; i < frames.size(); i++)
if (frames[i] != other.frames[i])
return false;
return true;
}
wall_atlas_def wall_atlas_def::deserialize(StringView filename)
{
wall_atlas_def atlas;
const auto jroot = json_helper::from_json_(filename);
atlas.header = read_info_header(jroot);
fm_soft_assert(loader.check_atlas_name(atlas.header.name));
atlas.frames = read_all_frames(jroot);
auto [dirs, dir_indexes, mask] = read_all_directions(jroot);
fm_soft_assert(!dirs.empty());
fm_soft_assert(dir_indexes != std::array<Wall::DirArrayIndex, Direction_COUNT>{});
atlas.direction_array = std::move(dirs);
atlas.direction_map = dir_indexes;
atlas.direction_mask = mask;
return atlas;
}
void wall_atlas_def::serialize(StringView filename, const Info& header,
ArrayView<const Frame> frames,
ArrayView<const Direction> dir_array,
std::array<DirArrayIndex, Direction_COUNT> dir_map)
{
auto jroot = json{};
write_info_header(jroot, header);
write_all_frames(jroot, frames);
for (const auto [name_, dir] : wall_atlas::directions)
if (auto idx = dir_map[(size_t)dir])
{
const auto& dir = dir_array[idx.val];
if (is_direction_defined(dir))
{
std::string_view name = {name_.data(), name_.size()};
write_direction_metadata(jroot[name], dir);
}
}
json_helper::to_json_(jroot, filename);
}
void wall_atlas_def::serialize(StringView filename) const
{
serialize(filename, header, frames, direction_array, direction_map);
}
void wall_atlas::serialize(StringView filename) const
{
return wall_atlas_def::serialize(filename, _info, _frame_array, _dir_array, _direction_map);
}
} // namespace floormat
namespace floormat::Wall::detail {
std::vector<Frame> read_all_frames(const json& jroot)
{
if (!jroot.contains("frames"))
return {};
std::vector<Frame> frames;
const auto& jframes = jroot["frames"];
fm_assert(jframes.is_array());
const auto sz = jframes.size();
frames = std::vector<Frame>{sz};
for (auto i = 0uz; i < sz; i++)
{
const auto& jframe = jframes[i];
fm_assert(jframe.is_object());
frames[i] = jframe;
}
return frames;
}
bool is_direction_defined(const Direction& dir)
{
for (auto [str, ptr, tag] : Direction::groups)
{
const auto& group = dir.*ptr;
if (group.is_defined)
return true;
}
return false;
}
// todo add test on dummy files that generates 100% coverage on the j.contains() blocks!
Group read_group_metadata(const json& jgroup)
{
fm_assert(jgroup.is_object());
Group val;
{
int count = 0, index = -1;
bool has_count = jgroup.contains("count") && (count = jgroup["count"]) != 0,
has_index = jgroup.contains("offset") && (index = jgroup["offset"]) != -1;
fm_soft_assert(has_count == has_index);
fm_soft_assert(!has_index || index >= 0 && index < 1 << 20);
fm_soft_assert(count >= 0);
if (has_count)
{
val.index = (uint32_t)index;
val.count = (uint32_t)count;
}
}
val.default_tint = true;
if (jgroup.contains("tint"))
{
val.tint_mult = jgroup["tint"];
val.default_tint = false;
}
if (jgroup.contains("pixel-size"))
val.pixel_size = jgroup["pixel-size"];
if (jgroup.contains("mirrored"))
val.mirrored = !!jgroup["mirrored"];
if (jgroup.contains("from-rotation") && !jgroup["from-rotation"].is_null())
val.from_rotation = direction_index_from_name(jgroup["from-rotation"]);
val.is_defined = true;
return val;
}
Direction read_direction_metadata(const json& jroot, Direction_ dir)
{
const auto s_ = direction_index_to_name((size_t)dir);
fm_assert(s_.size() == 1);
std::string_view s = {s_.data(), s_.size()};
fm_assert(s.size() == 1);
if (!jroot.contains(s))
return {};
const auto& jdir = jroot[s];
Direction val;
for (auto [name, memfn, tag] : Direction::groups)
{
std::string_view s = {name.data(), name.size()};
if (!jdir.contains(s))
continue;
val.*memfn = read_group_metadata(jdir[s]);
}
val.top.pixel_size = val.top.pixel_size.flipped();
return val;
}
Info read_info_header(const json& jroot)
{
fm_soft_assert(jroot.contains(("name")));
fm_soft_assert(jroot.contains(("depth")));
Info val = {std::string{jroot["name"]}, jroot["depth"]};
fm_soft_assert(val.depth > 0);
if (jroot.contains("pass-mode"))
val.passability = jroot["pass-mode"];
return val;
}
void write_all_frames(json& jroot, ArrayView<const Frame> array)
{
auto jframes = json{};
for (const Frame& frame : array)
{
json jframe = frame;
jframes.push_back(std::move(jframe));
}
jroot["frames"] = std::move(jframes);
}
void write_group_metadata(json& jgroup, const Group& val)
{
fm_assert(jgroup.is_null());
fm_assert(val.is_defined);
if (val.index != (uint32_t)-1)
jgroup["offset"] = val.index;
else
jgroup["offset"] = -1;
jgroup["count"] = val.count;
jgroup["pixel-size"] = val.pixel_size;
if (!val.default_tint)
jgroup["tint"] = val.tint_mult;
jgroup["mirrored"] = val.mirrored;
if (val.from_rotation != (uint8_t )-1)
jgroup["from-rotation"] = direction_index_to_name(val.from_rotation);
}
void write_direction_metadata(json& jdir, const Direction& dir)
{
for (auto [name, memfn, tag] : Direction::groups)
{
const auto& group = dir.*memfn;
if (!group.is_defined)
continue;
std::string_view s = {name.data(), name.size()};
write_group_metadata(jdir[s], group);
}
if (jdir.contains("top"))
{
json& top = jdir["top"];
Vector2i vec = top["pixel-size"];
top["pixel-size"] = vec.flipped();
}
}
void write_all_directions(json& jroot, const wall_atlas& a)
{
for (auto [name, i] : wall_atlas::directions)
{
if (const auto* dir = a.direction((size_t)i))
{
auto jdir = json{};
write_direction_metadata(jdir, *dir);
jroot[name] = std::move(jdir);
}
}
}
void write_info_header(json& jroot, const Info& info)
{
jroot["name"] = info.name;
jroot["depth"] = info.depth;
jroot["pass-mode"] = info.passability;
}
} // namespace floormat::Wall::detail
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