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|
#include "binary-writer.inl"
#include "binary-reader.inl"
#include "compat/defs.hpp"
#include "compat/strerror.hpp"
#include "compat/int-hash.hpp"
#include "compat/exception.hpp"
#include "src/ground-atlas.hpp"
#include "src/wall-atlas.hpp"
#include "src/anim-atlas.hpp"
#include "src/scenery.hpp"
#include "src/critter.hpp"
#include "src/light.hpp"
#include "src/world.hpp"
#include "loader/loader.hpp"
#include "loader/vobj-cell.hpp"
#include "atlas-type.hpp"
#include <cstring>
#include <cstdio>
#include <compare>
#include <concepts>
#include <memory>
#include <vector>
#include <algorithm>
#include <Corrade/Utility/Path.h>
//#include <Magnum/Math/Functions.h>
#include <tsl/robin_map.h>
// ReSharper disable CppDFAUnreachableCode
// ReSharper disable CppDFAUnreachableFunctionCall
// zzReSharper disable CppUseStructuredBinding
/*
NOLINTBEGIN(
*-missing-std-forward, *-avoid-const-or-ref-data-members,
*-redundant-member-init, *-redundant-inline-specifier,
*-rvalue-reference-param-not-moved, *-redundant-casting
)
*/
namespace floormat {
using floormat::Serialize::binary_reader;
using floormat::Serialize::binary_writer;
using floormat::Serialize::atlas_type;
using floormat::Serialize::maybe_byteswap;
using floormat::Hash::fnvhash_buf;
namespace {
struct FILE_raii final
{
explicit FILE_raii(FILE* s) noexcept : s{s} {}
~FILE_raii() noexcept { close(); }
operator FILE*() noexcept { return s; }
void close() noexcept { if (s) std::fclose(s); s = nullptr; }
private:
FILE* s;
};
struct string_hasher { CORRADE_ALWAYS_INLINE size_t operator()(StringView s) const { return fnvhash_buf(s.data(), s.size()); } };
template<typename T> concept Number = std::is_arithmetic_v<std::remove_cvref_t<T>>;
template<typename T> concept Enum = std::is_enum_v<std::remove_cvref_t<T>>;
template<typename T> concept Vector = Math::IsVector<std::remove_cvref_t<T>>::value;
template<typename T> [[maybe_unused]] T& non_const(const T& value) { return const_cast<T&>(value); }
template<typename T> [[maybe_unused]] T& non_const(T& value) = delete;
template<typename T> [[maybe_unused]] T& non_const(T&&) = delete;
template<typename T> [[maybe_unused]] T& non_const(const T&& value) = delete;
template<typename T> [[maybe_unused]] T& non_const_(const T& value) { return const_cast<T&>(value); }
template<typename T> [[maybe_unused]] T& non_const_(T& value) { return value; }
template<typename T> [[maybe_unused]] T& non_const_(T&& value) { return static_cast<T&>(value); }
template<typename T> [[maybe_unused]] T& non_const_(const T&& value) { return static_cast<T&>(const_cast<T&&>(value)); }
struct buffer
{
std::unique_ptr<char[]> data;
size_t size;
operator ArrayView<const char>() const { return {&data[0], size}; }
bool empty() const { return size == 0; }
buffer() : data{nullptr}, size{0} {}
buffer(size_t len) : // todo use allocator
data{std::make_unique<char[]>(len)},
size{len}
{
#if !fm_ASAN
std::memset(&data[0], 0xfe, size);
#endif
}
};
struct size_counter
{
size_t& size;
template<typename T> requires (std::is_arithmetic_v<T> && std::is_fundamental_v<T>)
CORRADE_ALWAYS_INLINE void operator()(T) { size += sizeof(T); }
};
struct byte_writer
{
binary_writer<char*>& s;
template<typename T> requires (std::is_fundamental_v<T> && std::is_arithmetic_v<T>)
CORRADE_ALWAYS_INLINE void operator()(T value) { s << value; }
};
struct byte_reader
{
binary_reader<const char*>& s;
template<typename T> requires (std::is_fundamental_v<T> && std::is_arithmetic_v<T>)
CORRADE_ALWAYS_INLINE void operator()(T& value) { value << s; }
};
struct object_header_s
{
object_id& id;
object_type& type;
chunk* const& ch;
local_coords& tile;
};
struct critter_header_s
{
uint16_t& offset_frac;
};
using proto_t = uint16_t;
template<typename Derived, bool IsWriter>
struct visitor_
{
explicit visitor_() = default;
fm_DECLARE_DELETED_COPY_ASSIGNMENT(visitor_);
fm_DECLARE_DELETED_MOVE_ASSIGNMENT(visitor_);
// ---------- proto versions ----------
// 19: see old-savegame.cpp
// 20: complete rewrite
// 21: oops, forgot the object counter
// 22: add object::speed
// 23: switch object::delta to 32-bit
// 24: switch object::offset_frac from Vector2us to uint16_t
static constexpr proto_t proto_version = 24;
static constexpr size_t string_max = 512;
static constexpr proto_t proto_version_min = 20;
static constexpr auto file_magic = ".floormat.save"_s;
static constexpr auto chunk_magic = maybe_byteswap((uint16_t)0xadde);
static constexpr auto object_magic = maybe_byteswap((uint16_t)0x0bb0);
using tilemeta = uint8_t;
using atlasid = uint32_t;
using chunksiz = uint32_t;
template<std::unsigned_integral T> static constexpr T highbit = (T{1} << sizeof(T)*8-1);
template<std::unsigned_integral T> static constexpr T null = T(~highbit<T>);
template<typename T, typename U> using qual2 = std::conditional_t<IsWriter, const T, U>;
template<typename T> using qual = std::conditional_t<IsWriter, const T, T>;
using o_object = qual2<object, object_proto>;
using o_critter = qual2<critter, critter_proto>;
using o_scenery = qual2<scenery, scenery_proto>;
using o_light = qual2<light, light_proto>;
using o_sc_g = qual2<generic_scenery, generic_scenery_proto>;
using o_sc_door = qual2<door_scenery, door_scenery_proto>;
template<Number T, typename F> requires (!IsWriter) static CORRADE_ALWAYS_INLINE void visit(T& x, F&& f) { f(x); }
template<Number T, typename F> requires (IsWriter) static CORRADE_ALWAYS_INLINE void visit(T x, F&& f) { f(x); }
CORRADE_ALWAYS_INLINE Derived& derived() { return static_cast<Derived&>(*this); }
template<Enum E, typename F> requires (!IsWriter) CORRADE_ALWAYS_INLINE void visit(E& x, F&& f)
{ using U = std::underlying_type_t<std::remove_cvref_t<E>>; auto xʹ = U(0); f(xʹ); x = E(xʹ); }
template<Enum E, typename F> requires (IsWriter) CORRADE_ALWAYS_INLINE void visit(E x, F&& f)
{ using U = std::underlying_type_t<E>; f(static_cast<U>(x)); }
template<Vector T, typename F> void visit(T&& x, F&& f)
{
constexpr auto N = std::remove_cvref_t<T>::Size;
for (uint32_t i = 0; i < N; i++)
visit(forward<T>(x).data()[i], f);
}
template<typename F>
void visit_object_header(o_object& obj, const object_header_s& s, F&& f)
{
auto& self = derived();
visit(s.id, f);
fm_soft_assert(s.id != 0);
visit(s.type, f);
if (s.type >= object_type::COUNT || s.type == object_type::none) [[unlikely]]
fm_throw("invalid object type {}"_cf, (int)s.type);
switch (s.type)
{
case object_type::none:
case object_type::COUNT: std::unreachable();
case object_type::light:
self.visit(obj.atlas, atlas_type::vobj, f);
break;
case object_type::scenery:
case object_type::critter:
self.visit(obj.atlas, atlas_type::anim, f);
break;
}
fm_debug_assert(obj.atlas);
self.visit(s.tile, f);
visit(non_const_(obj.offset), f);
visit(non_const_(obj.bbox_offset), f);
visit(non_const_(obj.bbox_size), f);
if (self.PROTO >= 23) [[likely]]
visit(obj.delta, f);
else
{
fm_assert(IsWriter);
auto delta_ = uint16_t(obj.delta >> 16);
visit(delta_, f);
if constexpr(IsWriter)
non_const_(obj.delta) = delta_ * 65536u;
}
visit(obj.frame, f);
visit(obj.r, f);
visit(obj.pass, f);
// todo!
// immediately after this function's return, read sc_type and then read scenery_proto
}
template<typename F> static inline void visit(tile_ref c, F&& f)
{
do_visit(c.ground(), f);
do_visit(c.wall_north(), f);
do_visit(c.wall_west(), f);
}
template<typename F> static inline void visit(qual<chunk_coords_>& coord, F&& f)
{
visit(coord.x, f);
visit(coord.y, f);
visit(coord.z, f);
}
enum : uint8_t {
flag_playable = 1 << 0,
};
enum : uint8_t {
flag_active = 1 << 0,
flag_closing = 1 << 1,
flag_interactive = 1 << 2,
};
template<typename F> void visit_scenery_proto(o_sc_g& s, F&& f)
{
using T = std::conditional_t<IsWriter, generic_scenery, generic_scenery_proto>;
// todo! make bitmask reader/writer
constexpr struct {
uint8_t bits;
bool(*getter)(const T&);
void(*setter)(T&, bool);
} pairs[] = {
{ flag_active,
[](const T& sc) { return !!sc.active; },
[](T& sc, bool value) { sc.active = value; }
},
{ flag_interactive,
[](const T& sc) { return !!sc.interactive; },
[](T& sc, bool value) { sc.interactive = value; }
},
};
// todo! make function
if constexpr(IsWriter)
{
uint8_t flags = 0;
for (auto [bits, getter, setter] : pairs)
flags |= bits * getter(s);
visit(flags, f);
}
else
{
uint8_t flags = 0;
visit(flags, f);
for (auto [bits, getter, setter] : pairs)
setter(s, flags & bits);
}
}
template<typename F> void visit_scenery_proto(o_sc_door& s, F&& f)
{
using T = std::conditional_t<IsWriter, door_scenery, door_scenery_proto>;
constexpr struct {
uint8_t bits;
bool(*getter)(const T&);
void(*setter)(T&, bool);
} pairs[] = {
{ flag_active,
[](const T& sc) { return !!sc.active; },
[](T& sc, bool value) { sc.active = value; }
},
{ flag_closing,
[](const auto& sc) { return !!sc.closing; },
[](T& sc, bool value) { sc.closing = value; }
},
{ flag_interactive,
[](const T& sc) { return !!sc.interactive; },
[](T& sc, bool value) { sc.interactive = value; }
},
};
if constexpr(IsWriter)
{
uint8_t flags = 0;
for (auto [bits, getter, setter] : pairs)
flags |= bits * getter(s);
visit(flags, f);
}
else
{
uint8_t flags = 0;
visit(flags, f);
for (auto [bits, getter, setter] : pairs)
setter(s, flags & bits);
}
}
template<typename F> void visit_object_proto(o_critter& obj, critter_header_s&& s, F&& f)
{
auto& self = derived();
self.visit(obj.name, f);
if (self.PROTO >= 22) [[likely]]
visit(obj.speed, f);
fm_soft_assert(obj.speed >= 0);
if (self.PROTO >= 24) [[likely]]
visit(s.offset_frac, f);
else
{
Vector2us foo1;
visit(foo1, f);
s.offset_frac = 0;
}
visit(obj.playable, f);
}
template<typename F>
void visit_object_proto(o_light& s, std::nullptr_t, F&& f)
{
visit(s.max_distance, f);
visit(s.color, f);
visit(s.falloff, f);
visit(s.enabled, f);
}
};
constexpr size_t vector_initial_size = 128, hash_initial_size = vector_initial_size*2;
struct writer final : visitor_<writer, true>
{
using visitor_<writer, true>::visit;
struct serialized_atlas
{
[[maybe_unused]] buffer buf;
[[maybe_unused]] const void* atlas;
[[maybe_unused]] atlas_type type;
};
struct serialized_chunk
{
buffer buf{};
chunk* c;
};
static constexpr proto_t PROTO = proto_version_min;
const world& w;
std::vector<StringView> string_array{};
tsl::robin_map<StringView, uint32_t, string_hasher> string_map{hash_initial_size};
std::vector<serialized_atlas> atlas_array{};
tsl::robin_map<const void*, uint32_t> atlas_map{hash_initial_size};
std::vector<serialized_chunk> chunk_array{};
buffer header_buf{}, string_buf{};
explicit writer(const world& w) : w{ w } {}
template<typename F> static void visit(const local_coords& pt, F&& f) { visit(pt.to_index(), f); }
template<typename F> void visit(StringView name, F&& f) { visit(intern_string(name), f); }
template<typename F> void visit(qual<std::shared_ptr<anim_atlas>>& a, atlas_type type, F&& f)
{ atlasid id = intern_atlas(a, type); visit(id, f); }
template<typename F> void write_scenery_proto(const scenery& obj, F&& f) // todo! replace scenery::subtype with inheritance!
{
auto sc_type = obj.scenery_type();
fm_debug_assert(sc_type != scenery_type::none);
visit(sc_type, f);
std::visit(
[&](auto& subtype) { visit_scenery_proto(subtype, f); },
obj.subtype
);
}
template<typename F> void write_object(o_object& obj, chunk* c, F&& f)
{
auto id = obj.id;
auto type = obj.type();
auto tile = obj.coord.local();
const object_header_s s{
.id = id,
.type = type,
.ch = c,
.tile = tile,
};
visit_object_header(obj, s, f);
fm_assert(s.id != 0);
switch (type)
{
case object_type::none:
case object_type::COUNT:
break;
case object_type::critter:
{
uint16_t offset_frac = 0;
critter_header_s cr = {
.offset_frac = offset_frac,
};
visit_object_proto(static_cast<const critter&>(obj), move(cr), f);
goto ok;
}
case object_type::light:
visit_object_proto(static_cast<const light&>(obj), {}, f);
goto ok;
case object_type::scenery:
write_scenery_proto(static_cast<const scenery&>(obj), f);
goto ok;
}
fm_assert(false);
ok: void();
}
template<typename F> void intern_atlas_(const void* atlas, atlas_type type, F&& f)
{
visit(type, f);
StringView name;
if (type >= atlas_type::COUNT || type == atlas_type::none) [[unlikely]]
fm_abort("invalid atlas type '%d'", (int)type);
switch (type)
{
case atlas_type::ground:
name = static_cast<const ground_atlas*>(atlas)->name(); break;
case atlas_type::wall:
name = static_cast<const wall_atlas*>(atlas)->name(); break;
case atlas_type::vobj:
case atlas_type::anim:
name = static_cast<const anim_atlas*>(atlas)->name(); break;
case atlas_type::none:
case atlas_type::COUNT: std::unreachable();
}
visit(intern_string(name), f);
}
template<typename T> [[nodiscard]] atlasid intern_atlas(const std::shared_ptr<T>& atlas_, atlas_type type)
{
const void* atlas = atlas_.get();
atlas_array.reserve(vector_initial_size);
fm_assert(atlas != nullptr);
auto [kv, fresh] = atlas_map.try_emplace(atlas, (uint32_t)-1);
if (!fresh)
{
fm_debug_assert(kv.value() != (uint32_t)-1);
return kv->second;
}
else
{
size_t len = 0;
intern_atlas_(atlas, type, size_counter{len});
fm_assert(len > 0);
buffer buf{len};
binary_writer<char*> s{&buf.data[0], buf.size};
intern_atlas_(atlas, type, byte_writer{s});
auto id = (uint32_t)atlas_array.size();
fm_assert(s.bytes_written() == s.bytes_allocated());
atlas_array.emplace_back(move(buf), atlas, type);
kv.value() = id;
fm_assert(id < null<atlasid>);
return atlasid{id};
}
}
template<typename T> atlasid maybe_intern_atlas(const std::shared_ptr<T>& atlas, atlas_type type)
{
if (!atlas)
return null<atlasid>;
else
return intern_atlas(atlas, type);
}
atlasid intern_string(StringView str)
{
string_array.reserve(vector_initial_size);
fm_assert(!str.find('\0'));
auto [pair, fresh] = string_map.try_emplace(str, (uint32_t)string_array.size());
if (fresh)
string_array.emplace_back(str);
return pair->second;
}
template<typename F> void serialize_objects_(chunk& c, F&& f)
{
uint32_t count = 0;
for (const std::shared_ptr<object>& obj : c.objects())
{
if (obj->ephemeral)
continue;
count++;
}
visit(count, f);
for (const std::shared_ptr<object>& obj : c.objects())
{
fm_assert(obj != nullptr);
if (obj->ephemeral)
continue;
auto magic = object_magic;
visit(magic, f);
write_object(*obj, &obj->chunk(), f);
}
}
void serialize_tile_(auto&& g, uint32_t& i, auto&& f)
{
using INT = std::decay_t<decltype(g(i))>;
static_assert(std::is_unsigned_v<INT>);
constexpr auto highbit = writer::highbit<INT>;
constexpr auto null = writer::null<INT>;
const auto a = INT{ g(i) };
fm_assert(a == null || a < null);
uint_fast16_t num_idempotent = 0;
for (uint32_t j = i+1; j < TILE_COUNT; j++)
if (a != g(j))
break;
else if ((size_t)num_idempotent + 1uz == (size_t)null)
break;
else
num_idempotent++;
if (num_idempotent)
{
INT num = highbit | INT(num_idempotent);
visit(num, f);
}
visit(a, f);
i += num_idempotent;
fm_debug_assert(i <= TILE_COUNT);
}
void serialize_chunk_(chunk& c, buffer& buf)
{
const auto fn = [this](chunk& ch, auto&& f)
{
static_assert(null<uint8_t> == 127 && highbit<uint8_t> == 128);
static_assert(null<uint32_t> == 0x7fffffff && highbit<uint32_t> == 0x80000000);
auto magic = chunk_magic;
visit(magic, f);
visit(ch.coord(), f);
for (uint32_t i = 0; i < TILE_COUNT; i++)
serialize_tile_([&](uint32_t index) {
return maybe_intern_atlas(ch[index].ground_atlas(), atlas_type::ground);
}, i, f);
for (uint32_t i = 0; i < TILE_COUNT; i++)
serialize_tile_([&](uint32_t index) {
return maybe_intern_atlas(ch[index].wall_north_atlas(), atlas_type::wall);
}, i, f);
for (uint32_t i = 0; i < TILE_COUNT; i++)
serialize_tile_([&](uint32_t index) {
return maybe_intern_atlas(ch[index].wall_west_atlas(), atlas_type::wall);
}, i, f);
for (uint32_t i = 0; i < TILE_COUNT; i++)
serialize_tile_([&](uint32_t index) {
auto v = ch[index].ground().variant; return v == (variant_t)-1 ? null<variant_t> : v;
}, i, f);
for (uint32_t i = 0; i < TILE_COUNT; i++)
serialize_tile_([&ch](uint32_t index) {
auto v = ch[index].wall_north().variant; return v == (variant_t)-1 ? null<variant_t> : v;
}, i, f);
for (uint32_t i = 0; i < TILE_COUNT; i++)
serialize_tile_([&ch](uint32_t index) {
auto v = ch[index].wall_west().variant; return v == (variant_t)-1 ? null<variant_t> : v;
}, i, f);
serialize_objects_(ch, f);
};
size_t len = 0;
auto ctr = size_counter{len};
fn(c, ctr);
fm_assert(len > 0);
buf = buffer{len};
binary_writer<char*> s{&buf.data[0], buf.size};
byte_writer b{s};
fn(c, b);
fm_assert(s.bytes_written() == s.bytes_allocated());
}
template<typename F> void serialize_header_(F&& f)
{
fm_assert(header_buf.empty());
for (char c : file_magic)
visit(c, f);
visit(proto_version, f);
visit(w.object_counter(), f);
auto nstrings = (uint32_t)string_array.size(),
natlases = (uint32_t)atlas_array.size(),
nchunks = (uint32_t)chunk_array.size();
visit(nstrings, f);
visit(natlases, f);
visit(nchunks, f);
}
void serialize_strings_()
{
fm_assert(string_buf.empty());
size_t len = 0;
for (const auto& s : string_array)
len += s.size() + 1;
buffer buf{len};
binary_writer b{&buf.data[0], buf.size};
for (const auto& s : string_array)
{
fm_assert(s.size() < string_max);
b.write_asciiz_string(s);
}
fm_assert(b.bytes_written() == b.bytes_allocated());
string_buf = move(buf);
}
void serialize_world()
{
fm_assert(string_array.empty());
fm_assert(header_buf.empty());
fm_assert(string_buf.empty());
fm_assert(atlas_array.empty());
fm_assert(chunk_array.empty());
for (auto& [coord, c] : non_const(w.chunks()))
chunk_array.push_back({.c = &c });
std::sort(chunk_array.begin(), chunk_array.end(), [](const auto& c1, const auto& c2) {
auto a = c1.c->coord(), b = c2.c->coord();
return std::tuple{a.z, a.y, a.x} <=> std::tuple{b.z, b.y, b.x} == std::strong_ordering::less;
});
for (uint32_t i = 0; auto& [coord, c] : chunk_array)
serialize_chunk_(*c, chunk_array[i++].buf);
{
size_t len = 0;
serialize_header_(size_counter{len});
fm_assert(len > 0);
buffer hdr{len};
binary_writer s{&hdr.data[0], hdr.size};
serialize_header_(byte_writer{s});
fm_assert(s.bytes_written() == s.bytes_allocated());
header_buf = move(hdr);
}
serialize_strings_();
}
};
template struct visitor_<writer, true>;
void my_fwrite(FILE_raii& f, const buffer& buf, char(&errbuf)[128])
{
auto len = std::fwrite(&buf.data[0], buf.size, 1, f);
int error = errno;
if (len != 1)
fm_abort("fwrite: %s", get_error_string(errbuf, error).data());
}
} // namespace
void world::serialize(StringView filename)
{
collect(true);
char errbuf[128];
fm_assert(filename.flags() & StringViewFlag::NullTerminated);
if (Path::exists(filename))
Path::remove(filename);
FILE_raii file{std::fopen(filename.data(), "wb")};
if (!file)
{
int error = errno;
fm_abort("fopen(\"%s\", \"w\"): %s", filename.data(), get_error_string(errbuf, error).data());
}
{
struct writer writer{*this};
const bool is_empty = chunks().empty();
writer.serialize_world();
fm_assert(!writer.header_buf.empty());
if (!is_empty)
{
fm_assert(!writer.string_buf.empty());
fm_assert(!writer.string_array.empty());
fm_assert(!writer.string_map.empty());
fm_assert(!writer.atlas_array.empty());
fm_assert(!writer.atlas_map.empty());
fm_assert(!writer.chunk_array.empty());
}
my_fwrite(file, writer.header_buf, errbuf);
my_fwrite(file, writer.string_buf, errbuf);
for (const auto& x : writer.atlas_array)
{
fm_assert(!x.buf.empty());
my_fwrite(file, x.buf, errbuf);
}
for (const auto& x : writer.chunk_array)
{
fm_assert(!x.buf.empty());
my_fwrite(file, x.buf, errbuf);
}
}
if (int ret = std::fflush(file); ret != 0)
{
int error = errno;
fm_abort("fflush: %s", get_error_string(errbuf, error).data());
}
}
namespace {
template<atlas_type Type> struct atlas_from_type;
template<> struct atlas_from_type<atlas_type::ground> { using Type = ground_atlas; };
template<> struct atlas_from_type<atlas_type::wall> { using Type = wall_atlas; };
template<> struct atlas_from_type<atlas_type::anim> { using Type = anim_atlas; };
template<> struct atlas_from_type<atlas_type::vobj> { using Type = anim_atlas; };
struct reader final : visitor_<reader, false>
{
using visitor_<reader, false>::visit;
using visitor_<reader, false>::visit_object_proto;
struct atlas_pair
{
void* atlas;
atlas_type type;
};
std::vector<StringView> strings;
std::vector<atlas_pair> atlases;
proto_t PROTO = (proto_t)-1;
object_id object_counter = world::object_counter_init;
uint32_t nstrings = 0, natlases = 0, nchunks = 0;
class world& w;
loader_policy asset_policy;
reader(class world& w, loader_policy policy) : w{w}, asset_policy{policy} {}
template<typename F> void visit(String& str, F&& f)
{ atlasid id; f(id); str = get_string(id); }
template<typename F> static void visit(local_coords& pt, F&& f)
{ uint8_t i; f(i); pt = local_coords{i}; }
template<typename F> void visit(std::shared_ptr<anim_atlas>& a, atlas_type type, F&& f)
{
atlasid id = (atlasid)-1;
f(id);
switch (type)
{
case atlas_type::ground:
case atlas_type::wall:
case atlas_type::none:
default:
fm_throw("invalid atlas type {}"_cf, (int)type);
case atlas_type::anim:
a = loader.anim_atlas(get_atlas<atlas_type::anim>(id), {}, loader_policy::warn);
break;
case atlas_type::vobj:
a = loader.vobj(get_atlas<atlas_type::vobj>(id)).atlas;
break;
}
}
template<typename F> void visit_object_proto(o_scenery& obj, std::nullptr_t, F&& f)
{
auto sc_type = scenery_type::none;
visit(sc_type, f);
switch (sc_type)
{
case scenery_type::none:
case scenery_type::COUNT:
break;
case scenery_type::generic: {
generic_scenery_proto p;
visit_scenery_proto(p, f);
obj.subtype = move(p);
break;
}
case scenery_type::door: {
door_scenery_proto p;
visit_scenery_proto(p, f);
obj.subtype = move(p);
break;
}
}
fm_throw("invalid sc_type {}"_cf, (int)sc_type);
}
template<typename Obj, typename Proto, typename Header>
std::shared_ptr<object> make_object(const object_header_s& h0, object_proto&& p0, Header&& h, auto&& f)
{
fm_soft_assert(h0.id != 0);
const auto coord = global_coords{h0.ch->coord(), h0.tile};
Proto p{};
static_cast<object_proto&>(p) = move(p0);
visit_object_proto(p, move(h), f);
return w.make_object<Obj>(h0.id, coord, move(p));
}
template<typename F> [[nodiscard]] std::shared_ptr<object> read_object(chunk* ch, F&& f)
{
std::shared_ptr<object> obj;
object_id id = 0;
auto type = object_type::none;
local_coords tile;
object_header_s s{
.id = id,
.type = type,
.ch = ch,
.tile = tile,
};
object_proto pʹ;
visit_object_header(pʹ, s, f);
switch (type)
{
case object_type::none:
case object_type::COUNT:
break;
case object_type::critter: {
uint16_t offset_frac = 0;
critter_header_s h{
.offset_frac = offset_frac,
};
obj = make_object<critter, critter_proto, critter_header_s>(s, move(pʹ), move(h), f);
goto ok;
}
case object_type::light:
obj = make_object<light, light_proto, std::nullptr_t>(s, move(pʹ), {}, f);
goto ok;
case object_type::scenery:
obj = make_object<scenery, scenery_proto, std::nullptr_t>(s, move(pʹ), {}, f);
goto ok;
}
fm_throw("invalid sc_type {}"_cf, (int)type);
ok:
fm_assert(obj);
fm_debug_assert(obj->c == ch);
//non_const(obj->id) = id;
//non_const(obj->c) = ch;
non_const(obj->coord) = {ch->coord(), tile};
if (PROTO >= 21) [[likely]]
fm_soft_assert(object_counter >= id);
else if (PROTO == 20) [[unlikely]]
object_counter = Math::max(object_counter, id);
return obj;
}
bool deserialize_header_(binary_reader<const char*>& s, ArrayView<const char> buf)
{
fm_assert(PROTO == (proto_t)-1);
auto magic = s.read<file_magic.size()>();
fm_soft_assert(StringView{magic.data(), magic.size()} == file_magic);
PROTO << s;
if (PROTO < proto_version_min && PROTO > 0)
{
w.deserialize_old(w, buf.exceptPrefix(s.bytes_read()), PROTO, asset_policy);
return true;
}
else
{
fm_soft_assert(PROTO >= proto_version_min);
fm_soft_assert(PROTO <= proto_version);
if (PROTO >= 21) [[likely]]
{
object_counter << s;
fm_soft_assert(object_counter >= world::object_counter_init);
}
nstrings << s;
natlases << s;
nchunks << s;
return false;
}
}
StringView get_string(atlasid id)
{
fm_soft_assert(id < strings.size());
return strings[id];
}
template<atlas_type Type> StringView get_atlas(atlasid id)
{
using atlas_type = typename atlas_from_type<Type>::Type;
auto [atlas, type] = atlases[id];
fm_soft_assert(id < atlases.size());
fm_soft_assert(type == Type);
const auto* atlasʹ = static_cast<const atlas_type*>(atlas);
return atlasʹ->name();
}
void deserialize_strings_(binary_reader<const char*>& s)
{
fm_assert(strings.empty());
strings.reserve(nstrings);
for (uint32_t i = 0; i < nstrings; i++)
{
auto str = s.read_asciiz_string_();
strings.emplace_back(str);
}
}
void deserialize_atlases(binary_reader<const char*>& s)
{
for (uint32_t i = 0; i < natlases; i++)
{
auto type = (atlas_type)s.read<std::underlying_type_t<atlas_type>>();
atlasid id; id << s;
auto str = get_string(id);
void* atlas = nullptr;
switch (type)
{
default: fm_throw("invalid atlas_type {}"_cf, (size_t)type);
case atlas_type::none: break;
case atlas_type::ground:
atlas = loader.ground_atlas(str, loader_policy::warn).get();
break;
case atlas_type::wall:
atlas = loader.wall_atlas(str, loader_policy::warn).get();
break;
case atlas_type::anim:
atlas = loader.anim_atlas(str, {}, loader_policy::warn).get();
break;
case atlas_type::vobj:
atlas = loader.vobj(str).atlas.get();
break;
}
atlases.push_back({.atlas = atlas, .type = type });
}
}
template<typename INT> void deserialize_tile_part(auto&& g, uint32_t& i, byte_reader& r)
{
constexpr auto highbit = reader::highbit<INT>;
constexpr auto null = reader::null<INT>;
INT num;
uint32_t num_idempotent = 0;
visit(num, r);
if (num & highbit)
{
num_idempotent = num & ~highbit;
visit(num, r);
}
if (num != null)
for (uint32_t j = 0; j <= num_idempotent; j++)
g(i+j, num);
i += num_idempotent;
}
void deserialize_objects_(chunk& c, byte_reader& r)
{
uint32_t count;
visit(count, r);
for (uint32_t i = 0; i < count; i++)
{
using magic_type = std::decay_t<decltype(object_magic)>;
magic_type magic;
r(magic);
fm_soft_assert(magic == object_magic);
(void)read_object(&c, r);
}
c.sort_objects();
fm_assert(count == c.objects().size());
}
void deserialize_chunk_(binary_reader<const char*>& s)
{
auto r = byte_reader{s};
using magic_type = std::decay_t<decltype(chunk_magic)>;
magic_type magic; magic << s;
fm_soft_assert(magic == chunk_magic);
chunk_coords_ coord;
visit(coord, r);
auto& c = w[coord];
for (uint32_t i = 0; i < TILE_COUNT; i++)
deserialize_tile_part<atlasid>([&](uint32_t t, uint32_t id) {
auto name = get_atlas<atlas_type::ground>(id);
auto a = loader.ground_atlas(name, loader_policy::warn);
c[t].ground() = { move(a), (variant_t)-1 };
}, i, r);
for (uint32_t i = 0; i < TILE_COUNT; i++)
deserialize_tile_part<atlasid>([&](uint32_t t, uint32_t id) {
auto name = get_atlas<atlas_type::wall>(id);
auto a = loader.wall_atlas(name, loader_policy::warn);
c[t].wall_north() = { move(a), (variant_t)-1 };
}, i, r);
for (uint32_t i = 0; i < TILE_COUNT; i++)
deserialize_tile_part<atlasid>([&](uint32_t t, uint32_t id) {
auto name = get_atlas<atlas_type::wall>(id);
auto a = loader.wall_atlas(name, loader_policy::warn);
c[t].wall_west() = { move(a), (variant_t)-1 };
}, i, r);
for (uint32_t i = 0; i < TILE_COUNT; i++)
deserialize_tile_part<variant_t>([&](uint32_t t, variant_t id) {
c[t].ground().variant = id;
}, i, r);
for (uint32_t i = 0; i < TILE_COUNT; i++)
deserialize_tile_part<variant_t>([&](uint32_t t, variant_t id) {
c[t].wall_north().variant = id;
}, i, r);
for (uint32_t i = 0; i < TILE_COUNT; i++)
deserialize_tile_part<variant_t>([&](uint32_t t, variant_t id) {
c[t].wall_west().variant = id;
}, i, r);
deserialize_objects_(c, r);
}
void deserialize_world(ArrayView<const char> buf)
{
binary_reader s{buf.data(), buf.data() + buf.size()};
if (deserialize_header_(s, buf))
return;
deserialize_strings_(s);
deserialize_atlases(s);
for (uint32_t i = 0; i < nchunks; i++)
deserialize_chunk_(s);
fm_soft_assert(object_counter);
w.set_object_counter(object_counter);
s.assert_end();
}
};
template struct visitor_<reader, false>;
} // namespace
class world world::deserialize(StringView filename, loader_policy asset_policy) noexcept(false)
{
buffer buf;
fm_soft_assert(filename.flags() & StringViewFlag::NullTerminated);
{
FILE_raii f{std::fopen(filename.data(), "rb")};
char errbuf[128];
if (!f)
fm_throw("fopen(\"{}\", \"r\"): {}"_cf, filename, get_error_string(errbuf));
if (int ret = std::fseek(f, 0, SEEK_END); ret != 0)
fm_throw("fseek(SEEK_END): {}"_cf, get_error_string(errbuf));
size_t len;
if (auto len_ = std::ftell(f); len_ >= 0)
len = (size_t)len_;
else
fm_throw("ftell: {}"_cf, get_error_string(errbuf));
if (int ret = std::fseek(f, 0, SEEK_SET); ret != 0)
fm_throw("fseek(SEEK_SET): {}"_cf, get_error_string(errbuf));
auto buf_ = std::make_unique<char[]>(len+1);
if (auto ret = std::fread(&buf_[0], 1, len+1, f); ret != len)
fm_throw("fread short read: {}"_cf, get_error_string(errbuf));
buf.data = move(buf_);
buf.size = len;
}
class world w;
struct reader r{w, asset_policy};
r.deserialize_world(buf);
//fm_assert("t o d o && false);
return w;
}
} // namespace floormat
/*
NOLINTEND(
*-missing-std-forward, *-avoid-const-or-ref-data-members,
*-redundant-member-init, *-redundant-inline-specifier,
*-rvalue-reference-param-not-moved, *-redundant-casting
)
*/
|