flatbuffers/tests/monster_test_generated.h

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// automatically generated by the FlatBuffers compiler, do not modify
#ifndef FLATBUFFERS_GENERATED_MONSTERTEST_MYGAME_EXAMPLE_H_
#define FLATBUFFERS_GENERATED_MONSTERTEST_MYGAME_EXAMPLE_H_
#include "flatbuffers/flatbuffers.h"
namespace MyGame {
namespace Example2 {
struct Monster;
struct MonsterT;
} // namespace Example2
namespace Example {
struct Test;
struct TestSimpleTableWithEnum;
struct TestSimpleTableWithEnumT;
struct Vec3;
struct Stat;
struct StatT;
struct Monster;
struct MonsterT;
enum Color {
Color_Red = 1,
Color_Green = 2,
Color_Blue = 8,
Color_NONE = 0,
Color_ANY = 11
};
inline const char **EnumNamesColor() {
static const char *names[] = { "Red", "Green", "", "", "", "", "", "Blue", nullptr };
return names;
}
inline const char *EnumNameColor(Color e) { return EnumNamesColor()[static_cast<int>(e) - static_cast<int>(Color_Red)]; }
enum Any {
Any_NONE = 0,
Any_Monster = 1,
Any_TestSimpleTableWithEnum = 2,
Any_MyGame_Example2_Monster = 3,
Any_MIN = Any_NONE,
Any_MAX = Any_MyGame_Example2_Monster
};
struct AnyUnion {
Any type;
flatbuffers::NativeTable *table;
AnyUnion() : type(Any_NONE), table(nullptr) {}
AnyUnion(const AnyUnion &);
AnyUnion &operator=(const AnyUnion &);
~AnyUnion();
static flatbuffers::NativeTable *UnPack(const void *union_obj, Any type);
flatbuffers::Offset<void> Pack(flatbuffers::FlatBufferBuilder &_fbb) const;
MonsterT *AsMonster() { return type == Any_Monster ? reinterpret_cast<MonsterT *>(table) : nullptr; }
TestSimpleTableWithEnumT *AsTestSimpleTableWithEnum() { return type == Any_TestSimpleTableWithEnum ? reinterpret_cast<TestSimpleTableWithEnumT *>(table) : nullptr; }
MyGame::Example2::MonsterT *AsMyGame_Example2_Monster() { return type == Any_MyGame_Example2_Monster ? reinterpret_cast<MyGame::Example2::MonsterT *>(table) : nullptr; }
};
inline const char **EnumNamesAny() {
static const char *names[] = { "NONE", "Monster", "TestSimpleTableWithEnum", "MyGame_Example2_Monster", nullptr };
return names;
}
inline const char *EnumNameAny(Any e) { return EnumNamesAny()[static_cast<int>(e)]; }
inline bool VerifyAny(flatbuffers::Verifier &verifier, const void *union_obj, Any type);
MANUALLY_ALIGNED_STRUCT(2) Test FLATBUFFERS_FINAL_CLASS {
private:
int16_t a_;
int8_t b_;
int8_t __padding0;
public:
Test() { memset(this, 0, sizeof(Test)); }
Test(const Test &_o) { memcpy(this, &_o, sizeof(Test)); }
Test(int16_t _a, int8_t _b)
: a_(flatbuffers::EndianScalar(_a)), b_(flatbuffers::EndianScalar(_b)), __padding0(0) { (void)__padding0; }
int16_t a() const { return flatbuffers::EndianScalar(a_); }
void mutate_a(int16_t _a) { flatbuffers::WriteScalar(&a_, _a); }
int8_t b() const { return flatbuffers::EndianScalar(b_); }
void mutate_b(int8_t _b) { flatbuffers::WriteScalar(&b_, _b); }
};
STRUCT_END(Test, 4);
MANUALLY_ALIGNED_STRUCT(16) Vec3 FLATBUFFERS_FINAL_CLASS {
private:
float x_;
float y_;
float z_;
int32_t __padding0;
double test1_;
int8_t test2_;
int8_t __padding1;
Test test3_;
int16_t __padding2;
public:
Vec3() { memset(this, 0, sizeof(Vec3)); }
Vec3(const Vec3 &_o) { memcpy(this, &_o, sizeof(Vec3)); }
Vec3(float _x, float _y, float _z, double _test1, Color _test2, const Test &_test3)
: x_(flatbuffers::EndianScalar(_x)), y_(flatbuffers::EndianScalar(_y)), z_(flatbuffers::EndianScalar(_z)), __padding0(0), test1_(flatbuffers::EndianScalar(_test1)), test2_(flatbuffers::EndianScalar(static_cast<int8_t>(_test2))), __padding1(0), test3_(_test3), __padding2(0) { (void)__padding0; (void)__padding1; (void)__padding2; }
float x() const { return flatbuffers::EndianScalar(x_); }
void mutate_x(float _x) { flatbuffers::WriteScalar(&x_, _x); }
float y() const { return flatbuffers::EndianScalar(y_); }
void mutate_y(float _y) { flatbuffers::WriteScalar(&y_, _y); }
float z() const { return flatbuffers::EndianScalar(z_); }
void mutate_z(float _z) { flatbuffers::WriteScalar(&z_, _z); }
double test1() const { return flatbuffers::EndianScalar(test1_); }
void mutate_test1(double _test1) { flatbuffers::WriteScalar(&test1_, _test1); }
Color test2() const { return static_cast<Color>(flatbuffers::EndianScalar(test2_)); }
void mutate_test2(Color _test2) { flatbuffers::WriteScalar(&test2_, static_cast<int8_t>(_test2)); }
const Test &test3() const { return test3_; }
Test &mutable_test3() { return test3_; }
};
STRUCT_END(Vec3, 32);
} // namespace Example
namespace Example2 {
struct MonsterT : public flatbuffers::NativeTable {
};
struct Monster FLATBUFFERS_FINAL_CLASS : private flatbuffers::Table {
bool Verify(flatbuffers::Verifier &verifier) const {
return VerifyTableStart(verifier) &&
verifier.EndTable();
}
std::unique_ptr<MonsterT> UnPack() const;
};
struct MonsterBuilder {
flatbuffers::FlatBufferBuilder &fbb_;
flatbuffers::uoffset_t start_;
MonsterBuilder(flatbuffers::FlatBufferBuilder &_fbb) : fbb_(_fbb) { start_ = fbb_.StartTable(); }
MonsterBuilder &operator=(const MonsterBuilder &);
flatbuffers::Offset<Monster> Finish() {
auto o = flatbuffers::Offset<Monster>(fbb_.EndTable(start_, 0));
return o;
}
};
inline flatbuffers::Offset<Monster> CreateMonster(flatbuffers::FlatBufferBuilder &_fbb) {
MonsterBuilder builder_(_fbb);
return builder_.Finish();
}
inline flatbuffers::Offset<Monster> CreateMonster(flatbuffers::FlatBufferBuilder &_fbb, const MonsterT *_o);
} // namespace Example2
namespace Example {
struct TestSimpleTableWithEnumT : public flatbuffers::NativeTable {
Color color;
};
struct TestSimpleTableWithEnum FLATBUFFERS_FINAL_CLASS : private flatbuffers::Table {
enum {
VT_COLOR = 4
};
Color color() const { return static_cast<Color>(GetField<int8_t>(VT_COLOR, 2)); }
bool mutate_color(Color _color) { return SetField(VT_COLOR, static_cast<int8_t>(_color)); }
bool Verify(flatbuffers::Verifier &verifier) const {
return VerifyTableStart(verifier) &&
VerifyField<int8_t>(verifier, VT_COLOR) &&
verifier.EndTable();
}
std::unique_ptr<TestSimpleTableWithEnumT> UnPack() const;
};
struct TestSimpleTableWithEnumBuilder {
flatbuffers::FlatBufferBuilder &fbb_;
flatbuffers::uoffset_t start_;
void add_color(Color color) { fbb_.AddElement<int8_t>(TestSimpleTableWithEnum::VT_COLOR, static_cast<int8_t>(color), 2); }
TestSimpleTableWithEnumBuilder(flatbuffers::FlatBufferBuilder &_fbb) : fbb_(_fbb) { start_ = fbb_.StartTable(); }
TestSimpleTableWithEnumBuilder &operator=(const TestSimpleTableWithEnumBuilder &);
flatbuffers::Offset<TestSimpleTableWithEnum> Finish() {
auto o = flatbuffers::Offset<TestSimpleTableWithEnum>(fbb_.EndTable(start_, 1));
return o;
}
};
inline flatbuffers::Offset<TestSimpleTableWithEnum> CreateTestSimpleTableWithEnum(flatbuffers::FlatBufferBuilder &_fbb,
Color color = Color_Green) {
TestSimpleTableWithEnumBuilder builder_(_fbb);
builder_.add_color(color);
return builder_.Finish();
}
inline flatbuffers::Offset<TestSimpleTableWithEnum> CreateTestSimpleTableWithEnum(flatbuffers::FlatBufferBuilder &_fbb, const TestSimpleTableWithEnumT *_o);
struct StatT : public flatbuffers::NativeTable {
std::string id;
int64_t val;
uint16_t count;
};
struct Stat FLATBUFFERS_FINAL_CLASS : private flatbuffers::Table {
enum {
VT_ID = 4,
VT_VAL = 6,
VT_COUNT = 8
};
const flatbuffers::String *id() const { return GetPointer<const flatbuffers::String *>(VT_ID); }
flatbuffers::String *mutable_id() { return GetPointer<flatbuffers::String *>(VT_ID); }
int64_t val() const { return GetField<int64_t>(VT_VAL, 0); }
bool mutate_val(int64_t _val) { return SetField(VT_VAL, _val); }
uint16_t count() const { return GetField<uint16_t>(VT_COUNT, 0); }
bool mutate_count(uint16_t _count) { return SetField(VT_COUNT, _count); }
bool Verify(flatbuffers::Verifier &verifier) const {
return VerifyTableStart(verifier) &&
VerifyField<flatbuffers::uoffset_t>(verifier, VT_ID) &&
verifier.Verify(id()) &&
VerifyField<int64_t>(verifier, VT_VAL) &&
VerifyField<uint16_t>(verifier, VT_COUNT) &&
verifier.EndTable();
}
std::unique_ptr<StatT> UnPack() const;
};
struct StatBuilder {
flatbuffers::FlatBufferBuilder &fbb_;
flatbuffers::uoffset_t start_;
void add_id(flatbuffers::Offset<flatbuffers::String> id) { fbb_.AddOffset(Stat::VT_ID, id); }
void add_val(int64_t val) { fbb_.AddElement<int64_t>(Stat::VT_VAL, val, 0); }
void add_count(uint16_t count) { fbb_.AddElement<uint16_t>(Stat::VT_COUNT, count, 0); }
StatBuilder(flatbuffers::FlatBufferBuilder &_fbb) : fbb_(_fbb) { start_ = fbb_.StartTable(); }
StatBuilder &operator=(const StatBuilder &);
flatbuffers::Offset<Stat> Finish() {
auto o = flatbuffers::Offset<Stat>(fbb_.EndTable(start_, 3));
return o;
}
};
inline flatbuffers::Offset<Stat> CreateStat(flatbuffers::FlatBufferBuilder &_fbb,
flatbuffers::Offset<flatbuffers::String> id = 0,
int64_t val = 0,
uint16_t count = 0) {
StatBuilder builder_(_fbb);
builder_.add_val(val);
builder_.add_id(id);
builder_.add_count(count);
return builder_.Finish();
}
inline flatbuffers::Offset<Stat> CreateStatDirect(flatbuffers::FlatBufferBuilder &_fbb,
const char *id = nullptr,
int64_t val = 0,
uint16_t count = 0) {
return CreateStat(_fbb, id ? _fbb.CreateString(id) : 0, val, count);
}
inline flatbuffers::Offset<Stat> CreateStat(flatbuffers::FlatBufferBuilder &_fbb, const StatT *_o);
struct MonsterT : public flatbuffers::NativeTable {
std::unique_ptr<Vec3> pos;
int16_t mana;
int16_t hp;
std::string name;
std::vector<uint8_t> inventory;
Color color;
AnyUnion test;
std::vector<Test> test4;
std::vector<std::string> testarrayofstring;
std::vector<std::unique_ptr<MonsterT>> testarrayoftables;
std::unique_ptr<MonsterT> enemy;
std::vector<uint8_t> testnestedflatbuffer;
std::unique_ptr<StatT> testempty;
bool testbool;
int32_t testhashs32_fnv1;
uint32_t testhashu32_fnv1;
int64_t testhashs64_fnv1;
uint64_t testhashu64_fnv1;
int32_t testhashs32_fnv1a;
uint32_t testhashu32_fnv1a;
int64_t testhashs64_fnv1a;
uint64_t testhashu64_fnv1a;
std::vector<bool> testarrayofbools;
float testf;
float testf2;
float testf3;
std::vector<std::string> testarrayofstring2;
};
/// an example documentation comment: monster object
struct Monster FLATBUFFERS_FINAL_CLASS : private flatbuffers::Table {
enum {
VT_POS = 4,
VT_MANA = 6,
VT_HP = 8,
VT_NAME = 10,
VT_INVENTORY = 14,
VT_COLOR = 16,
VT_TEST_TYPE = 18,
VT_TEST = 20,
VT_TEST4 = 22,
VT_TESTARRAYOFSTRING = 24,
VT_TESTARRAYOFTABLES = 26,
VT_ENEMY = 28,
VT_TESTNESTEDFLATBUFFER = 30,
VT_TESTEMPTY = 32,
VT_TESTBOOL = 34,
VT_TESTHASHS32_FNV1 = 36,
VT_TESTHASHU32_FNV1 = 38,
VT_TESTHASHS64_FNV1 = 40,
VT_TESTHASHU64_FNV1 = 42,
VT_TESTHASHS32_FNV1A = 44,
VT_TESTHASHU32_FNV1A = 46,
VT_TESTHASHS64_FNV1A = 48,
VT_TESTHASHU64_FNV1A = 50,
VT_TESTARRAYOFBOOLS = 52,
VT_TESTF = 54,
VT_TESTF2 = 56,
VT_TESTF3 = 58,
VT_TESTARRAYOFSTRING2 = 60
};
const Vec3 *pos() const { return GetStruct<const Vec3 *>(VT_POS); }
Vec3 *mutable_pos() { return GetStruct<Vec3 *>(VT_POS); }
int16_t mana() const { return GetField<int16_t>(VT_MANA, 150); }
bool mutate_mana(int16_t _mana) { return SetField(VT_MANA, _mana); }
int16_t hp() const { return GetField<int16_t>(VT_HP, 100); }
bool mutate_hp(int16_t _hp) { return SetField(VT_HP, _hp); }
const flatbuffers::String *name() const { return GetPointer<const flatbuffers::String *>(VT_NAME); }
flatbuffers::String *mutable_name() { return GetPointer<flatbuffers::String *>(VT_NAME); }
bool KeyCompareLessThan(const Monster *o) const { return *name() < *o->name(); }
int KeyCompareWithValue(const char *val) const { return strcmp(name()->c_str(), val); }
const flatbuffers::Vector<uint8_t> *inventory() const { return GetPointer<const flatbuffers::Vector<uint8_t> *>(VT_INVENTORY); }
flatbuffers::Vector<uint8_t> *mutable_inventory() { return GetPointer<flatbuffers::Vector<uint8_t> *>(VT_INVENTORY); }
Color color() const { return static_cast<Color>(GetField<int8_t>(VT_COLOR, 8)); }
bool mutate_color(Color _color) { return SetField(VT_COLOR, static_cast<int8_t>(_color)); }
Any test_type() const { return static_cast<Any>(GetField<uint8_t>(VT_TEST_TYPE, 0)); }
bool mutate_test_type(Any _test_type) { return SetField(VT_TEST_TYPE, static_cast<uint8_t>(_test_type)); }
const void *test() const { return GetPointer<const void *>(VT_TEST); }
void *mutable_test() { return GetPointer<void *>(VT_TEST); }
const flatbuffers::Vector<const Test *> *test4() const { return GetPointer<const flatbuffers::Vector<const Test *> *>(VT_TEST4); }
flatbuffers::Vector<const Test *> *mutable_test4() { return GetPointer<flatbuffers::Vector<const Test *> *>(VT_TEST4); }
const flatbuffers::Vector<flatbuffers::Offset<flatbuffers::String>> *testarrayofstring() const { return GetPointer<const flatbuffers::Vector<flatbuffers::Offset<flatbuffers::String>> *>(VT_TESTARRAYOFSTRING); }
flatbuffers::Vector<flatbuffers::Offset<flatbuffers::String>> *mutable_testarrayofstring() { return GetPointer<flatbuffers::Vector<flatbuffers::Offset<flatbuffers::String>> *>(VT_TESTARRAYOFSTRING); }
/// an example documentation comment: this will end up in the generated code
/// multiline too
const flatbuffers::Vector<flatbuffers::Offset<Monster>> *testarrayoftables() const { return GetPointer<const flatbuffers::Vector<flatbuffers::Offset<Monster>> *>(VT_TESTARRAYOFTABLES); }
flatbuffers::Vector<flatbuffers::Offset<Monster>> *mutable_testarrayoftables() { return GetPointer<flatbuffers::Vector<flatbuffers::Offset<Monster>> *>(VT_TESTARRAYOFTABLES); }
const Monster *enemy() const { return GetPointer<const Monster *>(VT_ENEMY); }
Monster *mutable_enemy() { return GetPointer<Monster *>(VT_ENEMY); }
const flatbuffers::Vector<uint8_t> *testnestedflatbuffer() const { return GetPointer<const flatbuffers::Vector<uint8_t> *>(VT_TESTNESTEDFLATBUFFER); }
flatbuffers::Vector<uint8_t> *mutable_testnestedflatbuffer() { return GetPointer<flatbuffers::Vector<uint8_t> *>(VT_TESTNESTEDFLATBUFFER); }
const MyGame::Example::Monster *testnestedflatbuffer_nested_root() const { return flatbuffers::GetRoot<MyGame::Example::Monster>(testnestedflatbuffer()->Data()); }
const Stat *testempty() const { return GetPointer<const Stat *>(VT_TESTEMPTY); }
Stat *mutable_testempty() { return GetPointer<Stat *>(VT_TESTEMPTY); }
bool testbool() const { return GetField<uint8_t>(VT_TESTBOOL, 0) != 0; }
bool mutate_testbool(bool _testbool) { return SetField(VT_TESTBOOL, static_cast<uint8_t>(_testbool)); }
int32_t testhashs32_fnv1() const { return GetField<int32_t>(VT_TESTHASHS32_FNV1, 0); }
bool mutate_testhashs32_fnv1(int32_t _testhashs32_fnv1) { return SetField(VT_TESTHASHS32_FNV1, _testhashs32_fnv1); }
uint32_t testhashu32_fnv1() const { return GetField<uint32_t>(VT_TESTHASHU32_FNV1, 0); }
bool mutate_testhashu32_fnv1(uint32_t _testhashu32_fnv1) { return SetField(VT_TESTHASHU32_FNV1, _testhashu32_fnv1); }
int64_t testhashs64_fnv1() const { return GetField<int64_t>(VT_TESTHASHS64_FNV1, 0); }
bool mutate_testhashs64_fnv1(int64_t _testhashs64_fnv1) { return SetField(VT_TESTHASHS64_FNV1, _testhashs64_fnv1); }
uint64_t testhashu64_fnv1() const { return GetField<uint64_t>(VT_TESTHASHU64_FNV1, 0); }
bool mutate_testhashu64_fnv1(uint64_t _testhashu64_fnv1) { return SetField(VT_TESTHASHU64_FNV1, _testhashu64_fnv1); }
int32_t testhashs32_fnv1a() const { return GetField<int32_t>(VT_TESTHASHS32_FNV1A, 0); }
bool mutate_testhashs32_fnv1a(int32_t _testhashs32_fnv1a) { return SetField(VT_TESTHASHS32_FNV1A, _testhashs32_fnv1a); }
uint32_t testhashu32_fnv1a() const { return GetField<uint32_t>(VT_TESTHASHU32_FNV1A, 0); }
bool mutate_testhashu32_fnv1a(uint32_t _testhashu32_fnv1a) { return SetField(VT_TESTHASHU32_FNV1A, _testhashu32_fnv1a); }
int64_t testhashs64_fnv1a() const { return GetField<int64_t>(VT_TESTHASHS64_FNV1A, 0); }
bool mutate_testhashs64_fnv1a(int64_t _testhashs64_fnv1a) { return SetField(VT_TESTHASHS64_FNV1A, _testhashs64_fnv1a); }
uint64_t testhashu64_fnv1a() const { return GetField<uint64_t>(VT_TESTHASHU64_FNV1A, 0); }
bool mutate_testhashu64_fnv1a(uint64_t _testhashu64_fnv1a) { return SetField(VT_TESTHASHU64_FNV1A, _testhashu64_fnv1a); }
const flatbuffers::Vector<uint8_t> *testarrayofbools() const { return GetPointer<const flatbuffers::Vector<uint8_t> *>(VT_TESTARRAYOFBOOLS); }
flatbuffers::Vector<uint8_t> *mutable_testarrayofbools() { return GetPointer<flatbuffers::Vector<uint8_t> *>(VT_TESTARRAYOFBOOLS); }
float testf() const { return GetField<float>(VT_TESTF, 3.14159f); }
bool mutate_testf(float _testf) { return SetField(VT_TESTF, _testf); }
float testf2() const { return GetField<float>(VT_TESTF2, 3.0f); }
bool mutate_testf2(float _testf2) { return SetField(VT_TESTF2, _testf2); }
float testf3() const { return GetField<float>(VT_TESTF3, 0.0f); }
bool mutate_testf3(float _testf3) { return SetField(VT_TESTF3, _testf3); }
const flatbuffers::Vector<flatbuffers::Offset<flatbuffers::String>> *testarrayofstring2() const { return GetPointer<const flatbuffers::Vector<flatbuffers::Offset<flatbuffers::String>> *>(VT_TESTARRAYOFSTRING2); }
flatbuffers::Vector<flatbuffers::Offset<flatbuffers::String>> *mutable_testarrayofstring2() { return GetPointer<flatbuffers::Vector<flatbuffers::Offset<flatbuffers::String>> *>(VT_TESTARRAYOFSTRING2); }
bool Verify(flatbuffers::Verifier &verifier) const {
return VerifyTableStart(verifier) &&
VerifyField<Vec3>(verifier, VT_POS) &&
VerifyField<int16_t>(verifier, VT_MANA) &&
VerifyField<int16_t>(verifier, VT_HP) &&
VerifyFieldRequired<flatbuffers::uoffset_t>(verifier, VT_NAME) &&
verifier.Verify(name()) &&
VerifyField<flatbuffers::uoffset_t>(verifier, VT_INVENTORY) &&
verifier.Verify(inventory()) &&
VerifyField<int8_t>(verifier, VT_COLOR) &&
VerifyField<uint8_t>(verifier, VT_TEST_TYPE) &&
VerifyField<flatbuffers::uoffset_t>(verifier, VT_TEST) &&
VerifyAny(verifier, test(), test_type()) &&
VerifyField<flatbuffers::uoffset_t>(verifier, VT_TEST4) &&
verifier.Verify(test4()) &&
VerifyField<flatbuffers::uoffset_t>(verifier, VT_TESTARRAYOFSTRING) &&
verifier.Verify(testarrayofstring()) &&
verifier.VerifyVectorOfStrings(testarrayofstring()) &&
VerifyField<flatbuffers::uoffset_t>(verifier, VT_TESTARRAYOFTABLES) &&
verifier.Verify(testarrayoftables()) &&
verifier.VerifyVectorOfTables(testarrayoftables()) &&
VerifyField<flatbuffers::uoffset_t>(verifier, VT_ENEMY) &&
verifier.VerifyTable(enemy()) &&
VerifyField<flatbuffers::uoffset_t>(verifier, VT_TESTNESTEDFLATBUFFER) &&
verifier.Verify(testnestedflatbuffer()) &&
VerifyField<flatbuffers::uoffset_t>(verifier, VT_TESTEMPTY) &&
verifier.VerifyTable(testempty()) &&
VerifyField<uint8_t>(verifier, VT_TESTBOOL) &&
VerifyField<int32_t>(verifier, VT_TESTHASHS32_FNV1) &&
VerifyField<uint32_t>(verifier, VT_TESTHASHU32_FNV1) &&
VerifyField<int64_t>(verifier, VT_TESTHASHS64_FNV1) &&
VerifyField<uint64_t>(verifier, VT_TESTHASHU64_FNV1) &&
VerifyField<int32_t>(verifier, VT_TESTHASHS32_FNV1A) &&
VerifyField<uint32_t>(verifier, VT_TESTHASHU32_FNV1A) &&
VerifyField<int64_t>(verifier, VT_TESTHASHS64_FNV1A) &&
VerifyField<uint64_t>(verifier, VT_TESTHASHU64_FNV1A) &&
VerifyField<flatbuffers::uoffset_t>(verifier, VT_TESTARRAYOFBOOLS) &&
verifier.Verify(testarrayofbools()) &&
VerifyField<float>(verifier, VT_TESTF) &&
VerifyField<float>(verifier, VT_TESTF2) &&
VerifyField<float>(verifier, VT_TESTF3) &&
VerifyField<flatbuffers::uoffset_t>(verifier, VT_TESTARRAYOFSTRING2) &&
verifier.Verify(testarrayofstring2()) &&
verifier.VerifyVectorOfStrings(testarrayofstring2()) &&
verifier.EndTable();
}
std::unique_ptr<MonsterT> UnPack() const;
};
struct MonsterBuilder {
flatbuffers::FlatBufferBuilder &fbb_;
flatbuffers::uoffset_t start_;
void add_pos(const Vec3 *pos) { fbb_.AddStruct(Monster::VT_POS, pos); }
void add_mana(int16_t mana) { fbb_.AddElement<int16_t>(Monster::VT_MANA, mana, 150); }
void add_hp(int16_t hp) { fbb_.AddElement<int16_t>(Monster::VT_HP, hp, 100); }
void add_name(flatbuffers::Offset<flatbuffers::String> name) { fbb_.AddOffset(Monster::VT_NAME, name); }
void add_inventory(flatbuffers::Offset<flatbuffers::Vector<uint8_t>> inventory) { fbb_.AddOffset(Monster::VT_INVENTORY, inventory); }
void add_color(Color color) { fbb_.AddElement<int8_t>(Monster::VT_COLOR, static_cast<int8_t>(color), 8); }
void add_test_type(Any test_type) { fbb_.AddElement<uint8_t>(Monster::VT_TEST_TYPE, static_cast<uint8_t>(test_type), 0); }
void add_test(flatbuffers::Offset<void> test) { fbb_.AddOffset(Monster::VT_TEST, test); }
void add_test4(flatbuffers::Offset<flatbuffers::Vector<const Test *>> test4) { fbb_.AddOffset(Monster::VT_TEST4, test4); }
void add_testarrayofstring(flatbuffers::Offset<flatbuffers::Vector<flatbuffers::Offset<flatbuffers::String>>> testarrayofstring) { fbb_.AddOffset(Monster::VT_TESTARRAYOFSTRING, testarrayofstring); }
void add_testarrayoftables(flatbuffers::Offset<flatbuffers::Vector<flatbuffers::Offset<Monster>>> testarrayoftables) { fbb_.AddOffset(Monster::VT_TESTARRAYOFTABLES, testarrayoftables); }
void add_enemy(flatbuffers::Offset<Monster> enemy) { fbb_.AddOffset(Monster::VT_ENEMY, enemy); }
void add_testnestedflatbuffer(flatbuffers::Offset<flatbuffers::Vector<uint8_t>> testnestedflatbuffer) { fbb_.AddOffset(Monster::VT_TESTNESTEDFLATBUFFER, testnestedflatbuffer); }
void add_testempty(flatbuffers::Offset<Stat> testempty) { fbb_.AddOffset(Monster::VT_TESTEMPTY, testempty); }
void add_testbool(bool testbool) { fbb_.AddElement<uint8_t>(Monster::VT_TESTBOOL, static_cast<uint8_t>(testbool), 0); }
void add_testhashs32_fnv1(int32_t testhashs32_fnv1) { fbb_.AddElement<int32_t>(Monster::VT_TESTHASHS32_FNV1, testhashs32_fnv1, 0); }
void add_testhashu32_fnv1(uint32_t testhashu32_fnv1) { fbb_.AddElement<uint32_t>(Monster::VT_TESTHASHU32_FNV1, testhashu32_fnv1, 0); }
void add_testhashs64_fnv1(int64_t testhashs64_fnv1) { fbb_.AddElement<int64_t>(Monster::VT_TESTHASHS64_FNV1, testhashs64_fnv1, 0); }
void add_testhashu64_fnv1(uint64_t testhashu64_fnv1) { fbb_.AddElement<uint64_t>(Monster::VT_TESTHASHU64_FNV1, testhashu64_fnv1, 0); }
void add_testhashs32_fnv1a(int32_t testhashs32_fnv1a) { fbb_.AddElement<int32_t>(Monster::VT_TESTHASHS32_FNV1A, testhashs32_fnv1a, 0); }
void add_testhashu32_fnv1a(uint32_t testhashu32_fnv1a) { fbb_.AddElement<uint32_t>(Monster::VT_TESTHASHU32_FNV1A, testhashu32_fnv1a, 0); }
void add_testhashs64_fnv1a(int64_t testhashs64_fnv1a) { fbb_.AddElement<int64_t>(Monster::VT_TESTHASHS64_FNV1A, testhashs64_fnv1a, 0); }
void add_testhashu64_fnv1a(uint64_t testhashu64_fnv1a) { fbb_.AddElement<uint64_t>(Monster::VT_TESTHASHU64_FNV1A, testhashu64_fnv1a, 0); }
void add_testarrayofbools(flatbuffers::Offset<flatbuffers::Vector<uint8_t>> testarrayofbools) { fbb_.AddOffset(Monster::VT_TESTARRAYOFBOOLS, testarrayofbools); }
void add_testf(float testf) { fbb_.AddElement<float>(Monster::VT_TESTF, testf, 3.14159f); }
void add_testf2(float testf2) { fbb_.AddElement<float>(Monster::VT_TESTF2, testf2, 3.0f); }
void add_testf3(float testf3) { fbb_.AddElement<float>(Monster::VT_TESTF3, testf3, 0.0f); }
void add_testarrayofstring2(flatbuffers::Offset<flatbuffers::Vector<flatbuffers::Offset<flatbuffers::String>>> testarrayofstring2) { fbb_.AddOffset(Monster::VT_TESTARRAYOFSTRING2, testarrayofstring2); }
MonsterBuilder(flatbuffers::FlatBufferBuilder &_fbb) : fbb_(_fbb) { start_ = fbb_.StartTable(); }
MonsterBuilder &operator=(const MonsterBuilder &);
flatbuffers::Offset<Monster> Finish() {
auto o = flatbuffers::Offset<Monster>(fbb_.EndTable(start_, 29));
fbb_.Required(o, Monster::VT_NAME); // name
return o;
}
};
inline flatbuffers::Offset<Monster> CreateMonster(flatbuffers::FlatBufferBuilder &_fbb,
const Vec3 *pos = 0,
int16_t mana = 150,
int16_t hp = 100,
flatbuffers::Offset<flatbuffers::String> name = 0,
flatbuffers::Offset<flatbuffers::Vector<uint8_t>> inventory = 0,
Color color = Color_Blue,
Any test_type = Any_NONE,
flatbuffers::Offset<void> test = 0,
flatbuffers::Offset<flatbuffers::Vector<const Test *>> test4 = 0,
flatbuffers::Offset<flatbuffers::Vector<flatbuffers::Offset<flatbuffers::String>>> testarrayofstring = 0,
flatbuffers::Offset<flatbuffers::Vector<flatbuffers::Offset<Monster>>> testarrayoftables = 0,
flatbuffers::Offset<Monster> enemy = 0,
flatbuffers::Offset<flatbuffers::Vector<uint8_t>> testnestedflatbuffer = 0,
flatbuffers::Offset<Stat> testempty = 0,
bool testbool = false,
int32_t testhashs32_fnv1 = 0,
uint32_t testhashu32_fnv1 = 0,
int64_t testhashs64_fnv1 = 0,
uint64_t testhashu64_fnv1 = 0,
int32_t testhashs32_fnv1a = 0,
uint32_t testhashu32_fnv1a = 0,
int64_t testhashs64_fnv1a = 0,
uint64_t testhashu64_fnv1a = 0,
flatbuffers::Offset<flatbuffers::Vector<uint8_t>> testarrayofbools = 0,
float testf = 3.14159f,
float testf2 = 3.0f,
float testf3 = 0.0f,
flatbuffers::Offset<flatbuffers::Vector<flatbuffers::Offset<flatbuffers::String>>> testarrayofstring2 = 0) {
MonsterBuilder builder_(_fbb);
builder_.add_testhashu64_fnv1a(testhashu64_fnv1a);
builder_.add_testhashs64_fnv1a(testhashs64_fnv1a);
builder_.add_testhashu64_fnv1(testhashu64_fnv1);
builder_.add_testhashs64_fnv1(testhashs64_fnv1);
builder_.add_testarrayofstring2(testarrayofstring2);
builder_.add_testf3(testf3);
builder_.add_testf2(testf2);
builder_.add_testf(testf);
builder_.add_testarrayofbools(testarrayofbools);
builder_.add_testhashu32_fnv1a(testhashu32_fnv1a);
builder_.add_testhashs32_fnv1a(testhashs32_fnv1a);
builder_.add_testhashu32_fnv1(testhashu32_fnv1);
builder_.add_testhashs32_fnv1(testhashs32_fnv1);
builder_.add_testempty(testempty);
builder_.add_testnestedflatbuffer(testnestedflatbuffer);
builder_.add_enemy(enemy);
builder_.add_testarrayoftables(testarrayoftables);
builder_.add_testarrayofstring(testarrayofstring);
builder_.add_test4(test4);
builder_.add_test(test);
builder_.add_inventory(inventory);
builder_.add_name(name);
builder_.add_pos(pos);
builder_.add_hp(hp);
builder_.add_mana(mana);
builder_.add_testbool(testbool);
builder_.add_test_type(test_type);
builder_.add_color(color);
return builder_.Finish();
}
inline flatbuffers::Offset<Monster> CreateMonsterDirect(flatbuffers::FlatBufferBuilder &_fbb,
const Vec3 *pos = 0,
int16_t mana = 150,
int16_t hp = 100,
const char *name = nullptr,
const std::vector<uint8_t> *inventory = nullptr,
Color color = Color_Blue,
Any test_type = Any_NONE,
flatbuffers::Offset<void> test = 0,
const std::vector<const Test *> *test4 = nullptr,
const std::vector<flatbuffers::Offset<flatbuffers::String>> *testarrayofstring = nullptr,
const std::vector<flatbuffers::Offset<Monster>> *testarrayoftables = nullptr,
flatbuffers::Offset<Monster> enemy = 0,
const std::vector<uint8_t> *testnestedflatbuffer = nullptr,
flatbuffers::Offset<Stat> testempty = 0,
bool testbool = false,
int32_t testhashs32_fnv1 = 0,
uint32_t testhashu32_fnv1 = 0,
int64_t testhashs64_fnv1 = 0,
uint64_t testhashu64_fnv1 = 0,
int32_t testhashs32_fnv1a = 0,
uint32_t testhashu32_fnv1a = 0,
int64_t testhashs64_fnv1a = 0,
uint64_t testhashu64_fnv1a = 0,
const std::vector<uint8_t> *testarrayofbools = nullptr,
float testf = 3.14159f,
float testf2 = 3.0f,
float testf3 = 0.0f,
const std::vector<flatbuffers::Offset<flatbuffers::String>> *testarrayofstring2 = nullptr) {
return CreateMonster(_fbb, pos, mana, hp, name ? _fbb.CreateString(name) : 0, inventory ? _fbb.CreateVector<uint8_t>(*inventory) : 0, color, test_type, test, test4 ? _fbb.CreateVector<const Test *>(*test4) : 0, testarrayofstring ? _fbb.CreateVector<flatbuffers::Offset<flatbuffers::String>>(*testarrayofstring) : 0, testarrayoftables ? _fbb.CreateVector<flatbuffers::Offset<Monster>>(*testarrayoftables) : 0, enemy, testnestedflatbuffer ? _fbb.CreateVector<uint8_t>(*testnestedflatbuffer) : 0, testempty, testbool, testhashs32_fnv1, testhashu32_fnv1, testhashs64_fnv1, testhashu64_fnv1, testhashs32_fnv1a, testhashu32_fnv1a, testhashs64_fnv1a, testhashu64_fnv1a, testarrayofbools ? _fbb.CreateVector<uint8_t>(*testarrayofbools) : 0, testf, testf2, testf3, testarrayofstring2 ? _fbb.CreateVector<flatbuffers::Offset<flatbuffers::String>>(*testarrayofstring2) : 0);
}
inline flatbuffers::Offset<Monster> CreateMonster(flatbuffers::FlatBufferBuilder &_fbb, const MonsterT *_o);
} // namespace Example
namespace Example2 {
inline std::unique_ptr<MonsterT> Monster::UnPack() const {
auto _o = new MonsterT();
return std::unique_ptr<MonsterT>(_o);
}
inline flatbuffers::Offset<Monster> CreateMonster(flatbuffers::FlatBufferBuilder &_fbb, const MonsterT *_o) {
(void)_o;
return CreateMonster(_fbb);
}
} // namespace Example2
namespace Example {
inline std::unique_ptr<TestSimpleTableWithEnumT> TestSimpleTableWithEnum::UnPack() const {
auto _o = new TestSimpleTableWithEnumT();
{ auto _e = color(); _o->color = _e; };
return std::unique_ptr<TestSimpleTableWithEnumT>(_o);
}
inline flatbuffers::Offset<TestSimpleTableWithEnum> CreateTestSimpleTableWithEnum(flatbuffers::FlatBufferBuilder &_fbb, const TestSimpleTableWithEnumT *_o) {
return CreateTestSimpleTableWithEnum(_fbb,
_o->color);
}
inline std::unique_ptr<StatT> Stat::UnPack() const {
auto _o = new StatT();
{ auto _e = id(); if (_e) _o->id = _e->str(); };
{ auto _e = val(); _o->val = _e; };
{ auto _e = count(); _o->count = _e; };
return std::unique_ptr<StatT>(_o);
}
inline flatbuffers::Offset<Stat> CreateStat(flatbuffers::FlatBufferBuilder &_fbb, const StatT *_o) {
return CreateStat(_fbb,
_o->id.size() ? _fbb.CreateString(_o->id) : 0,
_o->val,
_o->count);
}
inline std::unique_ptr<MonsterT> Monster::UnPack() const {
auto _o = new MonsterT();
{ auto _e = pos(); if (_e) _o->pos = std::unique_ptr<Vec3>(new Vec3(*_e)); };
{ auto _e = mana(); _o->mana = _e; };
{ auto _e = hp(); _o->hp = _e; };
{ auto _e = name(); if (_e) _o->name = _e->str(); };
{ auto _e = inventory(); if (_e) { for (flatbuffers::uoffset_t _i = 0; _i < _e->size(); _i++) { _o->inventory.push_back(_e->Get(_i)); } } };
{ auto _e = color(); _o->color = _e; };
{ auto _e = test_type(); _o->test.type = _e; };
{ auto _e = test(); if (_e) _o->test.table = AnyUnion::UnPack(_e, test_type()); };
{ auto _e = test4(); if (_e) { for (flatbuffers::uoffset_t _i = 0; _i < _e->size(); _i++) { _o->test4.push_back(*_e->Get(_i)); } } };
{ auto _e = testarrayofstring(); if (_e) { for (flatbuffers::uoffset_t _i = 0; _i < _e->size(); _i++) { _o->testarrayofstring.push_back(_e->Get(_i)->str()); } } };
{ auto _e = testarrayoftables(); if (_e) { for (flatbuffers::uoffset_t _i = 0; _i < _e->size(); _i++) { _o->testarrayoftables.push_back(_e->Get(_i)->UnPack()); } } };
{ auto _e = enemy(); if (_e) _o->enemy = _e->UnPack(); };
{ auto _e = testnestedflatbuffer(); if (_e) { for (flatbuffers::uoffset_t _i = 0; _i < _e->size(); _i++) { _o->testnestedflatbuffer.push_back(_e->Get(_i)); } } };
{ auto _e = testempty(); if (_e) _o->testempty = _e->UnPack(); };
{ auto _e = testbool(); _o->testbool = _e; };
{ auto _e = testhashs32_fnv1(); _o->testhashs32_fnv1 = _e; };
{ auto _e = testhashu32_fnv1(); _o->testhashu32_fnv1 = _e; };
{ auto _e = testhashs64_fnv1(); _o->testhashs64_fnv1 = _e; };
{ auto _e = testhashu64_fnv1(); _o->testhashu64_fnv1 = _e; };
{ auto _e = testhashs32_fnv1a(); _o->testhashs32_fnv1a = _e; };
{ auto _e = testhashu32_fnv1a(); _o->testhashu32_fnv1a = _e; };
{ auto _e = testhashs64_fnv1a(); _o->testhashs64_fnv1a = _e; };
{ auto _e = testhashu64_fnv1a(); _o->testhashu64_fnv1a = _e; };
{ auto _e = testarrayofbools(); if (_e) { for (flatbuffers::uoffset_t _i = 0; _i < _e->size(); _i++) { _o->testarrayofbools.push_back(_e->Get(_i)!=0); } } };
{ auto _e = testf(); _o->testf = _e; };
{ auto _e = testf2(); _o->testf2 = _e; };
{ auto _e = testf3(); _o->testf3 = _e; };
{ auto _e = testarrayofstring2(); if (_e) { for (flatbuffers::uoffset_t _i = 0; _i < _e->size(); _i++) { _o->testarrayofstring2.push_back(_e->Get(_i)->str()); } } };
return std::unique_ptr<MonsterT>(_o);
}
inline flatbuffers::Offset<Monster> CreateMonster(flatbuffers::FlatBufferBuilder &_fbb, const MonsterT *_o) {
return CreateMonster(_fbb,
_o->pos ? _o->pos.get() : 0,
_o->mana,
_o->hp,
_fbb.CreateString(_o->name),
_o->inventory.size() ? _fbb.CreateVector(_o->inventory) : 0,
_o->color,
_o->test.type,
_o->test.Pack(_fbb),
_o->test4.size() ? _fbb.CreateVectorOfStructs(_o->test4) : 0,
_o->testarrayofstring.size() ? _fbb.CreateVectorOfStrings(_o->testarrayofstring) : 0,
_o->testarrayoftables.size() ? _fbb.CreateVector<flatbuffers::Offset<Monster>>(_o->testarrayoftables.size(), [&](size_t i) { return CreateMonster(_fbb, _o->testarrayoftables[i].get()); }) : 0,
_o->enemy ? CreateMonster(_fbb, _o->enemy.get()) : 0,
_o->testnestedflatbuffer.size() ? _fbb.CreateVector(_o->testnestedflatbuffer) : 0,
_o->testempty ? CreateStat(_fbb, _o->testempty.get()) : 0,
_o->testbool,
_o->testhashs32_fnv1,
_o->testhashu32_fnv1,
_o->testhashs64_fnv1,
_o->testhashu64_fnv1,
_o->testhashs32_fnv1a,
_o->testhashu32_fnv1a,
_o->testhashs64_fnv1a,
_o->testhashu64_fnv1a,
_o->testarrayofbools.size() ? _fbb.CreateVector(_o->testarrayofbools) : 0,
_o->testf,
_o->testf2,
_o->testf3,
_o->testarrayofstring2.size() ? _fbb.CreateVectorOfStrings(_o->testarrayofstring2) : 0);
}
inline bool VerifyAny(flatbuffers::Verifier &verifier, const void *union_obj, Any type) {
switch (type) {
case Any_NONE: return true;
case Any_Monster: return verifier.VerifyTable(reinterpret_cast<const Monster *>(union_obj));
case Any_TestSimpleTableWithEnum: return verifier.VerifyTable(reinterpret_cast<const TestSimpleTableWithEnum *>(union_obj));
case Any_MyGame_Example2_Monster: return verifier.VerifyTable(reinterpret_cast<const MyGame::Example2::Monster *>(union_obj));
default: return false;
}
}
inline flatbuffers::NativeTable *AnyUnion::UnPack(const void *union_obj, Any type) {
switch (type) {
case Any_NONE: return nullptr;
case Any_Monster: return reinterpret_cast<const Monster *>(union_obj)->UnPack().release();
case Any_TestSimpleTableWithEnum: return reinterpret_cast<const TestSimpleTableWithEnum *>(union_obj)->UnPack().release();
case Any_MyGame_Example2_Monster: return reinterpret_cast<const MyGame::Example2::Monster *>(union_obj)->UnPack().release();
default: return nullptr;
}
}
inline flatbuffers::Offset<void> AnyUnion::Pack(flatbuffers::FlatBufferBuilder &_fbb) const {
switch (type) {
case Any_NONE: return 0;
case Any_Monster: return CreateMonster(_fbb, reinterpret_cast<const MonsterT *>(table)).Union();
case Any_TestSimpleTableWithEnum: return CreateTestSimpleTableWithEnum(_fbb, reinterpret_cast<const TestSimpleTableWithEnumT *>(table)).Union();
case Any_MyGame_Example2_Monster: return CreateMonster(_fbb, reinterpret_cast<const MyGame::Example2::MonsterT *>(table)).Union();
default: return 0;
}
}
inline AnyUnion::~AnyUnion() {
switch (type) {
case Any_Monster: delete reinterpret_cast<MonsterT *>(table); break;
case Any_TestSimpleTableWithEnum: delete reinterpret_cast<TestSimpleTableWithEnumT *>(table); break;
case Any_MyGame_Example2_Monster: delete reinterpret_cast<MyGame::Example2::MonsterT *>(table); break;
default:;
}
}
inline const MyGame::Example::Monster *GetMonster(const void *buf) { return flatbuffers::GetRoot<MyGame::Example::Monster>(buf); }
inline Monster *GetMutableMonster(void *buf) { return flatbuffers::GetMutableRoot<Monster>(buf); }
inline const char *MonsterIdentifier() { return "MONS"; }
inline bool MonsterBufferHasIdentifier(const void *buf) { return flatbuffers::BufferHasIdentifier(buf, MonsterIdentifier()); }
2016-07-14 17:15:06 +00:00
inline bool VerifyMonsterBuffer(flatbuffers::Verifier &verifier) { return verifier.VerifyBuffer<MyGame::Example::Monster>(MonsterIdentifier()); }
inline const char *MonsterExtension() { return "mon"; }
inline void FinishMonsterBuffer(flatbuffers::FlatBufferBuilder &fbb, flatbuffers::Offset<MyGame::Example::Monster> root) { fbb.Finish(root, MonsterIdentifier()); }
} // namespace Example
} // namespace MyGame
#endif // FLATBUFFERS_GENERATED_MONSTERTEST_MYGAME_EXAMPLE_H_