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#include "main.hpp"
#include "compat/assert.hpp"
#include "compat/sysexits.hpp"
#include "compat/fix-argv0.hpp"
#include "compat/format.hpp"
#include "compat/debug.hpp"
#include "src/tile-constants.hpp"
#include "src/wall-atlas.hpp"
#include "serialize/wall-atlas.hpp"
#include "loader/loader.hpp"
#include <utility>
#include <tuple>
#include <Corrade/Containers/GrowableArray.h>
#include <Corrade/Containers/StringView.h>
#include <Corrade/Containers/String.h>
#include <Corrade/Containers/StringIterable.h>
#include <Corrade/Utility/Path.h>
#include <Corrade/Utility/DebugStl.h>
#include <Corrade/Utility/Arguments.h>
#include <Magnum/Math/Functions.h>
#include <opencv2/core/mat.hpp>
#include <opencv2/imgproc/imgproc.hpp>
#include <opencv2/imgcodecs/imgcodecs.hpp>
namespace floormat::wall_tool {
using Corrade::Utility::Arguments;
using namespace std::string_literals;
using namespace floormat::Wall;
namespace {
struct resolution : Vector2i { using Vector2i::Vector2i; };
constexpr inline int max_image_dimension = 4096;
const Direction& get_direction(const wall_atlas_def& atlas, size_t i)
{
fm_assert(atlas.direction_mask[i]);
auto idx = atlas.direction_map[i];
fm_assert(idx);
fm_assert(idx.val < atlas.direction_array.size());
return atlas.direction_array[idx.val];
}
template<typename Fmt, typename... Xs>
auto asformat(Fmt&& fmt, Xs&&... args)
{
auto result = fmt::format_to_n((char*)nullptr, 0, forward<Fmt>(fmt), forward<Xs>(args)...);
std::string ret;
ret.resize(result.size);
auto result2 = fmt::format_to_n(ret.data(), ret.size(), forward<Fmt>(fmt), forward<Xs>(args)...);
fm_assert(result2.size == result.size);
return ret;
}
Debug& operator<<(Debug& dbg, resolution res)
{
auto flags = dbg.flags();
dbg << "";
dbg.setFlags(flags | Debug::Flag::NoSpace);
dbg << res.x() << "x"_s << res.y();
dbg.setFlags(flags);
return dbg;
}
template<size_t N> constexpr bool any_bit_of(const std::array<bool, N>& array)
{
for (auto x : array)
if (x)
return true;
return false;
}
bool convert_to_bgra32(const cv::Mat& src, cv::Mat4b& dest)
{
fm_assert(dest.empty() || dest.size == src.size);
switch (src.type())
{
default:
return false;
case CV_8U:
cv::cvtColor(src, dest, cv::COLOR_GRAY2BGRA);
return true;
case CV_8UC3:
cv::cvtColor(src, dest, cv::COLOR_BGR2BGRA);
return true;
case CV_8UC4:
src.copyTo(dest);
return true;
}
}
bool save_image(state st)
{
fm_assert(st.new_atlas.frames.isEmpty());
arrayReserve(st.new_atlas.frames, 64);
uint32_t max_height = 0;
for (const auto& group : st.groups)
{
const auto expected_size = wall_atlas::expected_size(st.new_atlas.header.depth, group.G);
max_height = std::max(max_height, expected_size.y());
}
fm_assert(max_height > 0);
fm_assert(max_height == (uint32_t)iTILE_SIZE.z()); // todo?
uint32_t xpos = 0;
Vector2ui max;
for (auto& group : st.groups)
{
const auto size = wall_atlas::expected_size(st.new_atlas.header.depth, group.G);
const auto width = size.x(), height = size.y();
uint32_t ypos = 0;
bool started = false;
for (auto& frame : group.frames)
{
frame.offset = {xpos, ypos};
max = Math::max(max, frame.offset + size);
started = true;
fm_assert(max <= Vector2ui{(unsigned)max_image_dimension});
fm_assert(frame.size == size);
if (ypos + height*2 <= max_height)
ypos += height;
else
{
ypos = 0;
xpos += width;
started = false;
}
}
if (started)
xpos += width;
}
fm_assert(max.product() > 0);
st.dest.create((int)max.y(), (int)max.x());
st.dest.setTo(cv::Scalar{255, 0, 255, 0});
for (const auto& group : st.groups)
{
for (const auto& frame : group.frames)
{
//Debug{} << "g" << (int)group.G << frame.offset << frame.size;
auto rect = cv::Rect{(int)frame.offset.x(), (int)frame.offset.y(),
(int)frame.size.x(), (int)frame.size.y()};
frame.mat.copyTo(st.dest(rect));
arrayAppend(st.new_atlas.frames, Wall::Frame {
.offset = frame.offset, .size = frame.size
});
}
}
auto filename = ""_s.join({Path::join(st.opts.output_dir, st.new_atlas.header.name), ".png"_s});
if (!st.opts.use_alpha)
{
cv::Mat3b img;
cv::cvtColor(st.dest, img, cv::COLOR_BGRA2BGR);
cv::imwrite(filename, img);
}
else
cv::imwrite(filename, st.dest);
return true;
}
bool save_json(state st)
{
using namespace floormat::Wall::detail;
fm_assert(!st.new_atlas.frames.isEmpty());
fm_assert(st.new_atlas.header.depth > 0);
auto filename = ""_s.join({Path::join(st.opts.output_dir, st.new_atlas.header.name), ".json"_s});
st.new_atlas.serialize(filename);
return true;
}
bool do_group(state st, size_t i, size_t j, Group& new_group)
{
const auto group_name = Direction::groups[j].name;
const wall_atlas_def& old_atlas = st.old_atlas;
wall_atlas_def& new_atlas = st.new_atlas;
const auto& old_dir = get_direction(old_atlas, (size_t)i);
const auto& old_group = old_dir.group(j);
//auto& new_dir = get_direction(new_atlas, (size_t)i);
const auto dir_name = wall_atlas::directions[i].name;
const auto path = Path::join({ st.opts.input_dir, dir_name, group_name });
const auto expected_size = wall_atlas::expected_size(new_atlas.header.depth, (Group_)j);
DBG << " group" << quoted2(group_name);
fm_debug_assert(expected_size > Vector2ui{0});
fm_assert(Math::max(expected_size.x(), expected_size.y()) < max_image_dimension);
fm_assert((size_t)st.groups.at(j).G == j);
auto& frames = [&]() -> auto&& {
for (auto& g : st.groups)
if ((size_t)g.G == j)
return g.frames;
fm_abort("can't find ground '%d'", (int)j);
}();
uint32_t count = 0, start = st.n_frames;
new_group = old_group;
new_group.is_defined = true;
new_group.pixel_size = Vector2ui(expected_size);
for (;;)
{
auto filename = asformat("{}/{:04}.png"_cf, path, count+1);
if (!Path::exists(filename))
break;
if (Path::isDirectory(filename)) [[unlikely]]
{
ERR << "fatal: path" << quoted(filename) << "is a directory!";
return false;
}
count++;
st.n_frames++;
cv::Mat mat = cv::imread(filename, cv::IMREAD_ANYCOLOR), mat2;
if ((Group_)j == Group_::top)
{
cv::rotate(mat, mat2, cv::ROTATE_90_COUNTERCLOCKWISE);
swap(mat, mat2);
}
const auto size = Vector2ui{(unsigned)mat.cols, (unsigned)mat.rows};
if (size != expected_size) [[unlikely]]
{
ERR << "fatal: wrong image size, expected"
<< resolution{expected_size} << colon(',')
<< "actual" << resolution{size}
<< "-- file" << filename;
return false;
}
cv::Mat4b buf;
if (mat.channels() == 4)
st.opts.use_alpha = true;
if (!convert_to_bgra32(mat, buf)) [[unlikely]]
{
ERR << "fatal: unknown image pixel format:"
<< "channels" << mat.channels() << colon(',')
<< "depth" << cv::depthToString(mat.depth()) << colon(',')
<< "type" << cv::typeToString(mat.type()) << colon(',')
<< "for" << quoted(filename);
return false;
}
frames.push_back({
.mat = move(buf),
.size = {(unsigned)mat.cols, (unsigned)mat.rows},
});
}
if (count == 0)
{
ERR << "fatal: no files found for" << quoted2(dir_name) << "/" << quoted2(group_name);
return false;
}
DBG << " " << Debug::nospace << count << (count == 1 ? "frame" : "frames");
fm_assert(start + count == st.n_frames);
new_group.count = count;
new_group.index = start;
return true;
}
bool do_direction(state& st, size_t i)
{
const auto name = wall_atlas::directions[i].name;
auto& atlas = st.new_atlas;
DBG << " direction" << quoted2(name);
const auto& old_dir = get_direction(st.old_atlas, i);
fm_assert(!atlas.direction_mask[i]);
fm_assert(!atlas.direction_map[i]);
const auto dir_idx = atlas.direction_array.size();
fm_assert(dir_idx == (uint8_t)dir_idx);
atlas.direction_mask[i] = true;
atlas.direction_map[i] = DirArrayIndex{(uint8_t)dir_idx};
auto dir = Direction{};
for (auto [_str, ptr, tag] : Direction::groups)
{
const auto& old_group = old_dir.*ptr;
if (!old_group.is_defined)
continue;
if (!do_group(st, i, (size_t)tag, dir.*ptr))
return false;
}
arrayAppend(st.new_atlas.direction_array, move(dir));
return true;
}
bool do_input_file(state& st)
{
DBG << "input" << quoted(st.old_atlas.header.name) << colon(',') << quoted(st.opts.input_file);
fm_assert(loader.check_atlas_name(st.old_atlas.header.name));
fm_assert(any_bit_of(st.old_atlas.direction_mask));
auto& atlas = st.new_atlas;
atlas.header = move(const_cast<wall_atlas_def&>(st.old_atlas).header);
fm_assert(!atlas.frames.size());
fm_assert(!any_bit_of(atlas.direction_mask));
fm_assert(atlas.direction_map == std::array<Wall::DirArrayIndex, Direction_COUNT>{});
fm_assert(atlas.direction_array.isEmpty());
arrayReserve(atlas.direction_array, Direction_COUNT);
for (auto i = 0uz; i < Direction_COUNT; i++)
{
if (!st.old_atlas.direction_mask[i])
continue;
if (!do_direction(st, i))
return false;
}
return true;
}
inline String fixsep(String str)
{
#ifdef _WIN32
for (char& c : str)
if (c == '\\')
c = '/';
#endif
return str;
}
struct argument_tuple
{
options opts{};
Arguments args{};
bool ok = false;
};
argument_tuple parse_cmdline(int argc, const char* const* argv) noexcept
{
Corrade::Utility::Arguments args{};
args.addOption('o', "output"s, "\0"_s).setHelp("output"s, ""_s, "DIR"s);
args.addArgument("input.json"s);
args.parse(argc, argv);
options opts;
opts.input_file = Path::join(loader.startup_directory(), fixsep(args.value<StringView>("input.json")));
opts.input_dir = Path::split(opts.input_file).first();
if (auto val = args.value<StringView>("output"); val != "\0"_s)
opts.output_dir = Path::join(loader.startup_directory(), fixsep(args.value<StringView>("output")));
else
opts.output_dir = opts.input_dir;
if (opts.output_dir.isEmpty())
opts.output_dir = opts.input_dir;
//DBG << "input-dir" << opts.input_dir;
//DBG << "output-dir" << opts.output_dir;
if (!Path::exists(opts.input_file))
Error{Error::Flag::NoSpace} << "fatal: input file '" << opts.input_file << "' doesn't exist";
else if (!Path::isDirectory(opts.output_dir))
Error{Error::Flag::NoSpace} << "fatal: output directory '" << opts.output_dir << "' doesn't exist";
else if (Path::isDirectory(opts.input_file))
Error{Error::Flag::NoSpace} << "fatal: input file '" << opts.input_file << "' is a directory";
else
{
fm_assert(opts.output_dir);
fm_assert(opts.input_file);
fm_assert(opts.input_dir);
return { .opts = move(opts), .args = move(args), .ok = true };
}
return {};
}
[[nodiscard]] int usage(const Arguments& args) noexcept
{
Error{Error::Flag::NoNewlineAtTheEnd} << args.usage();
return EX_USAGE;
}
} // namespace
} // namespace floormat::wall_tool
using namespace floormat;
using namespace floormat::wall_tool;
int main(int argc, char** argv)
{
argv[0] = fix_argv0(argv[0]);
auto [opts, args, opts_ok] = parse_cmdline(argc, argv);
if (!opts_ok)
return usage(args);
auto old_atlas = wall_atlas_def::deserialize(opts.input_file);
auto new_atlas = wall_atlas_def{};
auto dest = cv::Mat4b{};
auto error = EX_DATAERR;
uint32_t n_frames = 0;
auto groups = std::vector<group>{};
groups.reserve(Wall::Group_COUNT);
for (auto [name, ptr, val] : Wall::Direction::groups)
{
groups.push_back({
.frames = std::vector<frame>{},
.G = val,
});
}
auto st = state {
.opts = opts,
.old_atlas = old_atlas,
.new_atlas = new_atlas,
.groups = groups,
.n_frames = n_frames,
.dest = dest,
.error = error,
};
if (!do_input_file(st) || !save_image(st) || !save_json(st))
{
fm_assert(error);
return error;
}
return 0;
}
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