// automatically generated by the FlatBuffers compiler, do not modify // @generated #[allow(unused_imports, dead_code)] use core::cmp::Ordering; #[allow(unused_imports, dead_code)] use core::mem; extern crate flatbuffers; #[allow(unused_imports, dead_code)] use self::flatbuffers::{EndianScalar, Follow}; #[allow(unused_imports, dead_code)] pub mod my_game { use core::cmp::Ordering; use core::mem; extern crate flatbuffers; use self::flatbuffers::{EndianScalar, Follow}; #[allow(unused_imports, dead_code)] pub mod sample { use core::cmp::Ordering; use core::mem; extern crate flatbuffers; use self::flatbuffers::{EndianScalar, Follow}; #[deprecated( since = "2.0.0", note = "Use associated constants instead. This will no longer be generated in 2021." )] pub const ENUM_MIN_COLOR: i8 = 0; #[deprecated( since = "2.0.0", note = "Use associated constants instead. This will no longer be generated in 2021." )] pub const ENUM_MAX_COLOR: i8 = 2; #[deprecated( since = "2.0.0", note = "Use associated constants instead. This will no longer be generated in 2021." )] #[allow(non_camel_case_types)] pub const ENUM_VALUES_COLOR: [Color; 3] = [Color::Red, Color::Green, Color::Blue]; #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, Default)] #[repr(transparent)] pub struct Color(pub i8); #[allow(non_upper_case_globals)] impl Color { pub const Red: Self = Self(0); pub const Green: Self = Self(1); pub const Blue: Self = Self(2); pub const ENUM_MIN: i8 = 0; pub const ENUM_MAX: i8 = 2; pub const ENUM_VALUES: &'static [Self] = &[Self::Red, Self::Green, Self::Blue]; /// Returns the variant's name or "" if unknown. pub fn variant_name(self) -> Option<&'static str> { match self { Self::Red => Some("Red"), Self::Green => Some("Green"), Self::Blue => Some("Blue"), _ => None, } } } impl core::fmt::Debug for Color { fn fmt(&self, f: &mut core::fmt::Formatter) -> core::fmt::Result { if let Some(name) = self.variant_name() { f.write_str(name) } else { f.write_fmt(format_args!("", self.0)) } } } impl<'a> flatbuffers::Follow<'a> for Color { type Inner = Self; #[inline] unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner { let b = flatbuffers::read_scalar_at::(buf, loc); Self(b) } } impl flatbuffers::Push for Color { type Output = Color; #[inline] unsafe fn push(&self, dst: &mut [u8], _written_len: usize) { flatbuffers::emplace_scalar::(dst, self.0); } } impl flatbuffers::EndianScalar for Color { type Scalar = i8; #[inline] fn to_little_endian(self) -> i8 { self.0.to_le() } #[inline] #[allow(clippy::wrong_self_convention)] fn from_little_endian(v: i8) -> Self { let b = i8::from_le(v); Self(b) } } impl<'a> flatbuffers::Verifiable for Color { #[inline] fn run_verifier( v: &mut flatbuffers::Verifier, pos: usize, ) -> Result<(), flatbuffers::InvalidFlatbuffer> { use self::flatbuffers::Verifiable; i8::run_verifier(v, pos) } } impl flatbuffers::SimpleToVerifyInSlice for Color {} #[deprecated( since = "2.0.0", note = "Use associated constants instead. This will no longer be generated in 2021." )] pub const ENUM_MIN_EQUIPMENT: u8 = 0; #[deprecated( since = "2.0.0", note = "Use associated constants instead. This will no longer be generated in 2021." )] pub const ENUM_MAX_EQUIPMENT: u8 = 1; #[deprecated( since = "2.0.0", note = "Use associated constants instead. This will no longer be generated in 2021." )] #[allow(non_camel_case_types)] pub const ENUM_VALUES_EQUIPMENT: [Equipment; 2] = [Equipment::NONE, Equipment::Weapon]; #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, Default)] #[repr(transparent)] pub struct Equipment(pub u8); #[allow(non_upper_case_globals)] impl Equipment { pub const NONE: Self = Self(0); pub const Weapon: Self = Self(1); pub const ENUM_MIN: u8 = 0; pub const ENUM_MAX: u8 = 1; pub const ENUM_VALUES: &'static [Self] = &[Self::NONE, Self::Weapon]; /// Returns the variant's name or "" if unknown. pub fn variant_name(self) -> Option<&'static str> { match self { Self::NONE => Some("NONE"), Self::Weapon => Some("Weapon"), _ => None, } } } impl core::fmt::Debug for Equipment { fn fmt(&self, f: &mut core::fmt::Formatter) -> core::fmt::Result { if let Some(name) = self.variant_name() { f.write_str(name) } else { f.write_fmt(format_args!("", self.0)) } } } impl<'a> flatbuffers::Follow<'a> for Equipment { type Inner = Self; #[inline] unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner { let b = flatbuffers::read_scalar_at::(buf, loc); Self(b) } } impl flatbuffers::Push for Equipment { type Output = Equipment; #[inline] unsafe fn push(&self, dst: &mut [u8], _written_len: usize) { flatbuffers::emplace_scalar::(dst, self.0); } } impl flatbuffers::EndianScalar for Equipment { type Scalar = u8; #[inline] fn to_little_endian(self) -> u8 { self.0.to_le() } #[inline] #[allow(clippy::wrong_self_convention)] fn from_little_endian(v: u8) -> Self { let b = u8::from_le(v); Self(b) } } impl<'a> flatbuffers::Verifiable for Equipment { #[inline] fn run_verifier( v: &mut flatbuffers::Verifier, pos: usize, ) -> Result<(), flatbuffers::InvalidFlatbuffer> { use self::flatbuffers::Verifiable; u8::run_verifier(v, pos) } } impl flatbuffers::SimpleToVerifyInSlice for Equipment {} pub struct EquipmentUnionTableOffset {} // struct Vec3, aligned to 4 #[repr(transparent)] #[derive(Clone, Copy, PartialEq)] pub struct Vec3(pub [u8; 12]); impl Default for Vec3 { fn default() -> Self { Self([0; 12]) } } impl core::fmt::Debug for Vec3 { fn fmt(&self, f: &mut core::fmt::Formatter) -> core::fmt::Result { f.debug_struct("Vec3") .field("x", &self.x()) .field("y", &self.y()) .field("z", &self.z()) .finish() } } impl flatbuffers::SimpleToVerifyInSlice for Vec3 {} impl<'a> flatbuffers::Follow<'a> for Vec3 { type Inner = &'a Vec3; #[inline] unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner { <&'a Vec3>::follow(buf, loc) } } impl<'a> flatbuffers::Follow<'a> for &'a Vec3 { type Inner = &'a Vec3; #[inline] unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner { flatbuffers::follow_cast_ref::(buf, loc) } } impl<'b> flatbuffers::Push for Vec3 { type Output = Vec3; #[inline] unsafe fn push(&self, dst: &mut [u8], _written_len: usize) { let src = ::core::slice::from_raw_parts(self as *const Vec3 as *const u8, Self::size()); dst.copy_from_slice(src); } } impl<'a> flatbuffers::Verifiable for Vec3 { #[inline] fn run_verifier( v: &mut flatbuffers::Verifier, pos: usize, ) -> Result<(), flatbuffers::InvalidFlatbuffer> { use self::flatbuffers::Verifiable; v.in_buffer::(pos) } } impl<'a> Vec3 { #[allow(clippy::too_many_arguments)] pub fn new(x: f32, y: f32, z: f32) -> Self { let mut s = Self([0; 12]); s.set_x(x); s.set_y(y); s.set_z(z); s } pub fn x(&self) -> f32 { let mut mem = core::mem::MaybeUninit::<::Scalar>::uninit(); // Safety: // Created from a valid Table for this object // Which contains a valid value in this slot EndianScalar::from_little_endian(unsafe { core::ptr::copy_nonoverlapping( self.0[0..].as_ptr(), mem.as_mut_ptr() as *mut u8, core::mem::size_of::<::Scalar>(), ); mem.assume_init() }) } pub fn set_x(&mut self, x: f32) { let x_le = x.to_little_endian(); // Safety: // Created from a valid Table for this object // Which contains a valid value in this slot unsafe { core::ptr::copy_nonoverlapping( &x_le as *const _ as *const u8, self.0[0..].as_mut_ptr(), core::mem::size_of::<::Scalar>(), ); } } pub fn y(&self) -> f32 { let mut mem = core::mem::MaybeUninit::<::Scalar>::uninit(); // Safety: // Created from a valid Table for this object // Which contains a valid value in this slot EndianScalar::from_little_endian(unsafe { core::ptr::copy_nonoverlapping( self.0[4..].as_ptr(), mem.as_mut_ptr() as *mut u8, core::mem::size_of::<::Scalar>(), ); mem.assume_init() }) } pub fn set_y(&mut self, x: f32) { let x_le = x.to_little_endian(); // Safety: // Created from a valid Table for this object // Which contains a valid value in this slot unsafe { core::ptr::copy_nonoverlapping( &x_le as *const _ as *const u8, self.0[4..].as_mut_ptr(), core::mem::size_of::<::Scalar>(), ); } } pub fn z(&self) -> f32 { let mut mem = core::mem::MaybeUninit::<::Scalar>::uninit(); // Safety: // Created from a valid Table for this object // Which contains a valid value in this slot EndianScalar::from_little_endian(unsafe { core::ptr::copy_nonoverlapping( self.0[8..].as_ptr(), mem.as_mut_ptr() as *mut u8, core::mem::size_of::<::Scalar>(), ); mem.assume_init() }) } pub fn set_z(&mut self, x: f32) { let x_le = x.to_little_endian(); // Safety: // Created from a valid Table for this object // Which contains a valid value in this slot unsafe { core::ptr::copy_nonoverlapping( &x_le as *const _ as *const u8, self.0[8..].as_mut_ptr(), core::mem::size_of::<::Scalar>(), ); } } } pub enum MonsterOffset {} #[derive(Copy, Clone, PartialEq)] pub struct Monster<'a> { pub _tab: flatbuffers::Table<'a>, } impl<'a> flatbuffers::Follow<'a> for Monster<'a> { type Inner = Monster<'a>; #[inline] unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner { Self { _tab: flatbuffers::Table::new(buf, loc), } } } impl<'a> Monster<'a> { pub const VT_POS: flatbuffers::VOffsetT = 4; pub const VT_MANA: flatbuffers::VOffsetT = 6; pub const VT_HP: flatbuffers::VOffsetT = 8; pub const VT_NAME: flatbuffers::VOffsetT = 10; pub const VT_INVENTORY: flatbuffers::VOffsetT = 14; pub const VT_COLOR: flatbuffers::VOffsetT = 16; pub const VT_WEAPONS: flatbuffers::VOffsetT = 18; pub const VT_EQUIPPED_TYPE: flatbuffers::VOffsetT = 20; pub const VT_EQUIPPED: flatbuffers::VOffsetT = 22; pub const VT_PATH: flatbuffers::VOffsetT = 24; #[inline] pub unsafe fn init_from_table(table: flatbuffers::Table<'a>) -> Self { Monster { _tab: table } } #[allow(unused_mut)] pub fn create<'bldr: 'args, 'args: 'mut_bldr, 'mut_bldr>( _fbb: &'mut_bldr mut flatbuffers::FlatBufferBuilder<'bldr>, args: &'args MonsterArgs<'args>, ) -> flatbuffers::WIPOffset> { let mut builder = MonsterBuilder::new(_fbb); if let Some(x) = args.path { builder.add_path(x); } if let Some(x) = args.equipped { builder.add_equipped(x); } if let Some(x) = args.weapons { builder.add_weapons(x); } if let Some(x) = args.inventory { builder.add_inventory(x); } if let Some(x) = args.name { builder.add_name(x); } if let Some(x) = args.pos { builder.add_pos(x); } builder.add_hp(args.hp); builder.add_mana(args.mana); builder.add_equipped_type(args.equipped_type); builder.add_color(args.color); builder.finish() } #[inline] pub fn pos(&self) -> Option<&'a Vec3> { // Safety: // Created from valid Table for this object // which contains a valid value in this slot unsafe { self._tab.get::(Monster::VT_POS, None) } } #[inline] pub fn mana(&self) -> i16 { // Safety: // Created from valid Table for this object // which contains a valid value in this slot unsafe { self._tab.get::(Monster::VT_MANA, Some(150)).unwrap() } } #[inline] pub fn hp(&self) -> i16 { // Safety: // Created from valid Table for this object // which contains a valid value in this slot unsafe { self._tab.get::(Monster::VT_HP, Some(100)).unwrap() } } #[inline] pub fn name(&self) -> Option<&'a str> { // Safety: // Created from valid Table for this object // which contains a valid value in this slot unsafe { self._tab .get::>(Monster::VT_NAME, None) } } #[inline] pub fn inventory(&self) -> Option> { // Safety: // Created from valid Table for this object // which contains a valid value in this slot unsafe { self._tab .get::>>( Monster::VT_INVENTORY, None, ) } } #[inline] pub fn color(&self) -> Color { // Safety: // Created from valid Table for this object // which contains a valid value in this slot unsafe { self._tab .get::(Monster::VT_COLOR, Some(Color::Blue)) .unwrap() } } #[inline] pub fn weapons( &self, ) -> Option>>> { // Safety: // Created from valid Table for this object // which contains a valid value in this slot unsafe { self._tab.get::>, >>(Monster::VT_WEAPONS, None) } } #[inline] pub fn equipped_type(&self) -> Equipment { // Safety: // Created from valid Table for this object // which contains a valid value in this slot unsafe { self._tab .get::(Monster::VT_EQUIPPED_TYPE, Some(Equipment::NONE)) .unwrap() } } #[inline] pub fn equipped(&self) -> Option> { // Safety: // Created from valid Table for this object // which contains a valid value in this slot unsafe { self._tab .get::>>( Monster::VT_EQUIPPED, None, ) } } #[inline] pub fn path(&self) -> Option> { // Safety: // Created from valid Table for this object // which contains a valid value in this slot unsafe { self._tab .get::>>( Monster::VT_PATH, None, ) } } #[inline] #[allow(non_snake_case)] pub fn equipped_as_weapon(&self) -> Option> { if self.equipped_type() == Equipment::Weapon { self.equipped().map(|t| { // Safety: // Created from a valid Table for this object // Which contains a valid union in this slot unsafe { Weapon::init_from_table(t) } }) } else { None } } } impl flatbuffers::Verifiable for Monster<'_> { #[inline] fn run_verifier( v: &mut flatbuffers::Verifier, pos: usize, ) -> Result<(), flatbuffers::InvalidFlatbuffer> { use self::flatbuffers::Verifiable; v.visit_table(pos)? .visit_field::("pos", Self::VT_POS, false)? .visit_field::("mana", Self::VT_MANA, false)? .visit_field::("hp", Self::VT_HP, false)? .visit_field::>( "name", Self::VT_NAME, false, )? .visit_field::>>( "inventory", Self::VT_INVENTORY, false, )? .visit_field::("color", Self::VT_COLOR, false)? .visit_field::>, >>("weapons", Self::VT_WEAPONS, false)? .visit_union::( "equipped_type", Self::VT_EQUIPPED_TYPE, "equipped", Self::VT_EQUIPPED, false, |key, v, pos| match key { Equipment::Weapon => v .verify_union_variant::>( "Equipment::Weapon", pos, ), _ => Ok(()), }, )? .visit_field::>>( "path", Self::VT_PATH, false, )? .finish(); Ok(()) } } pub struct MonsterArgs<'a> { pub pos: Option<&'a Vec3>, pub mana: i16, pub hp: i16, pub name: Option>, pub inventory: Option>>, pub color: Color, pub weapons: Option< flatbuffers::WIPOffset< flatbuffers::Vector<'a, flatbuffers::ForwardsUOffset>>, >, >, pub equipped_type: Equipment, pub equipped: Option>, pub path: Option>>, } impl<'a> Default for MonsterArgs<'a> { #[inline] fn default() -> Self { MonsterArgs { pos: None, mana: 150, hp: 100, name: None, inventory: None, color: Color::Blue, weapons: None, equipped_type: Equipment::NONE, equipped: None, path: None, } } } pub struct MonsterBuilder<'a: 'b, 'b> { fbb_: &'b mut flatbuffers::FlatBufferBuilder<'a>, start_: flatbuffers::WIPOffset, } impl<'a: 'b, 'b> MonsterBuilder<'a, 'b> { #[inline] pub fn add_pos(&mut self, pos: &Vec3) { self.fbb_.push_slot_always::<&Vec3>(Monster::VT_POS, pos); } #[inline] pub fn add_mana(&mut self, mana: i16) { self.fbb_.push_slot::(Monster::VT_MANA, mana, 150); } #[inline] pub fn add_hp(&mut self, hp: i16) { self.fbb_.push_slot::(Monster::VT_HP, hp, 100); } #[inline] pub fn add_name(&mut self, name: flatbuffers::WIPOffset<&'b str>) { self.fbb_ .push_slot_always::>(Monster::VT_NAME, name); } #[inline] pub fn add_inventory( &mut self, inventory: flatbuffers::WIPOffset>, ) { self.fbb_.push_slot_always::>( Monster::VT_INVENTORY, inventory, ); } #[inline] pub fn add_color(&mut self, color: Color) { self.fbb_ .push_slot::(Monster::VT_COLOR, color, Color::Blue); } #[inline] pub fn add_weapons( &mut self, weapons: flatbuffers::WIPOffset< flatbuffers::Vector<'b, flatbuffers::ForwardsUOffset>>, >, ) { self.fbb_ .push_slot_always::>(Monster::VT_WEAPONS, weapons); } #[inline] pub fn add_equipped_type(&mut self, equipped_type: Equipment) { self.fbb_.push_slot::( Monster::VT_EQUIPPED_TYPE, equipped_type, Equipment::NONE, ); } #[inline] pub fn add_equipped( &mut self, equipped: flatbuffers::WIPOffset, ) { self.fbb_ .push_slot_always::>(Monster::VT_EQUIPPED, equipped); } #[inline] pub fn add_path( &mut self, path: flatbuffers::WIPOffset>, ) { self.fbb_ .push_slot_always::>(Monster::VT_PATH, path); } #[inline] pub fn new(_fbb: &'b mut flatbuffers::FlatBufferBuilder<'a>) -> MonsterBuilder<'a, 'b> { let start = _fbb.start_table(); MonsterBuilder { fbb_: _fbb, start_: start, } } #[inline] pub fn finish(self) -> flatbuffers::WIPOffset> { let o = self.fbb_.end_table(self.start_); flatbuffers::WIPOffset::new(o.value()) } } impl core::fmt::Debug for Monster<'_> { fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { let mut ds = f.debug_struct("Monster"); ds.field("pos", &self.pos()); ds.field("mana", &self.mana()); ds.field("hp", &self.hp()); ds.field("name", &self.name()); ds.field("inventory", &self.inventory()); ds.field("color", &self.color()); ds.field("weapons", &self.weapons()); ds.field("equipped_type", &self.equipped_type()); match self.equipped_type() { Equipment::Weapon => { if let Some(x) = self.equipped_as_weapon() { ds.field("equipped", &x) } else { ds.field( "equipped", &"InvalidFlatbuffer: Union discriminant does not match value.", ) } } _ => { let x: Option<()> = None; ds.field("equipped", &x) } }; ds.field("path", &self.path()); ds.finish() } } pub enum WeaponOffset {} #[derive(Copy, Clone, PartialEq)] pub struct Weapon<'a> { pub _tab: flatbuffers::Table<'a>, } impl<'a> flatbuffers::Follow<'a> for Weapon<'a> { type Inner = Weapon<'a>; #[inline] unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner { Self { _tab: flatbuffers::Table::new(buf, loc), } } } impl<'a> Weapon<'a> { pub const VT_NAME: flatbuffers::VOffsetT = 4; pub const VT_DAMAGE: flatbuffers::VOffsetT = 6; #[inline] pub unsafe fn init_from_table(table: flatbuffers::Table<'a>) -> Self { Weapon { _tab: table } } #[allow(unused_mut)] pub fn create<'bldr: 'args, 'args: 'mut_bldr, 'mut_bldr>( _fbb: &'mut_bldr mut flatbuffers::FlatBufferBuilder<'bldr>, args: &'args WeaponArgs<'args>, ) -> flatbuffers::WIPOffset> { let mut builder = WeaponBuilder::new(_fbb); if let Some(x) = args.name { builder.add_name(x); } builder.add_damage(args.damage); builder.finish() } #[inline] pub fn name(&self) -> Option<&'a str> { // Safety: // Created from valid Table for this object // which contains a valid value in this slot unsafe { self._tab .get::>(Weapon::VT_NAME, None) } } #[inline] pub fn damage(&self) -> i16 { // Safety: // Created from valid Table for this object // which contains a valid value in this slot unsafe { self._tab.get::(Weapon::VT_DAMAGE, Some(0)).unwrap() } } } impl flatbuffers::Verifiable for Weapon<'_> { #[inline] fn run_verifier( v: &mut flatbuffers::Verifier, pos: usize, ) -> Result<(), flatbuffers::InvalidFlatbuffer> { use self::flatbuffers::Verifiable; v.visit_table(pos)? .visit_field::>( "name", Self::VT_NAME, false, )? .visit_field::("damage", Self::VT_DAMAGE, false)? .finish(); Ok(()) } } pub struct WeaponArgs<'a> { pub name: Option>, pub damage: i16, } impl<'a> Default for WeaponArgs<'a> { #[inline] fn default() -> Self { WeaponArgs { name: None, damage: 0, } } } pub struct WeaponBuilder<'a: 'b, 'b> { fbb_: &'b mut flatbuffers::FlatBufferBuilder<'a>, start_: flatbuffers::WIPOffset, } impl<'a: 'b, 'b> WeaponBuilder<'a, 'b> { #[inline] pub fn add_name(&mut self, name: flatbuffers::WIPOffset<&'b str>) { self.fbb_ .push_slot_always::>(Weapon::VT_NAME, name); } #[inline] pub fn add_damage(&mut self, damage: i16) { self.fbb_.push_slot::(Weapon::VT_DAMAGE, damage, 0); } #[inline] pub fn new(_fbb: &'b mut flatbuffers::FlatBufferBuilder<'a>) -> WeaponBuilder<'a, 'b> { let start = _fbb.start_table(); WeaponBuilder { fbb_: _fbb, start_: start, } } #[inline] pub fn finish(self) -> flatbuffers::WIPOffset> { let o = self.fbb_.end_table(self.start_); flatbuffers::WIPOffset::new(o.value()) } } impl core::fmt::Debug for Weapon<'_> { fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { let mut ds = f.debug_struct("Weapon"); ds.field("name", &self.name()); ds.field("damage", &self.damage()); ds.finish() } } #[inline] /// Verifies that a buffer of bytes contains a `Monster` /// and returns it. /// Note that verification is still experimental and may not /// catch every error, or be maximally performant. For the /// previous, unchecked, behavior use /// `root_as_monster_unchecked`. pub fn root_as_monster(buf: &[u8]) -> Result { flatbuffers::root::(buf) } #[inline] /// Verifies that a buffer of bytes contains a size prefixed /// `Monster` and returns it. /// Note that verification is still experimental and may not /// catch every error, or be maximally performant. For the /// previous, unchecked, behavior use /// `size_prefixed_root_as_monster_unchecked`. pub fn size_prefixed_root_as_monster( buf: &[u8], ) -> Result { flatbuffers::size_prefixed_root::(buf) } #[inline] /// Verifies, with the given options, that a buffer of bytes /// contains a `Monster` and returns it. /// Note that verification is still experimental and may not /// catch every error, or be maximally performant. For the /// previous, unchecked, behavior use /// `root_as_monster_unchecked`. pub fn root_as_monster_with_opts<'b, 'o>( opts: &'o flatbuffers::VerifierOptions, buf: &'b [u8], ) -> Result, flatbuffers::InvalidFlatbuffer> { flatbuffers::root_with_opts::>(opts, buf) } #[inline] /// Verifies, with the given verifier options, that a buffer of /// bytes contains a size prefixed `Monster` and returns /// it. Note that verification is still experimental and may not /// catch every error, or be maximally performant. For the /// previous, unchecked, behavior use /// `root_as_monster_unchecked`. pub fn size_prefixed_root_as_monster_with_opts<'b, 'o>( opts: &'o flatbuffers::VerifierOptions, buf: &'b [u8], ) -> Result, flatbuffers::InvalidFlatbuffer> { flatbuffers::size_prefixed_root_with_opts::>(opts, buf) } #[inline] /// Assumes, without verification, that a buffer of bytes contains a Monster and returns it. /// # Safety /// Callers must trust the given bytes do indeed contain a valid `Monster`. pub unsafe fn root_as_monster_unchecked(buf: &[u8]) -> Monster { flatbuffers::root_unchecked::(buf) } #[inline] /// Assumes, without verification, that a buffer of bytes contains a size prefixed Monster and returns it. /// # Safety /// Callers must trust the given bytes do indeed contain a valid size prefixed `Monster`. pub unsafe fn size_prefixed_root_as_monster_unchecked(buf: &[u8]) -> Monster { flatbuffers::size_prefixed_root_unchecked::(buf) } #[inline] pub fn finish_monster_buffer<'a, 'b>( fbb: &'b mut flatbuffers::FlatBufferBuilder<'a>, root: flatbuffers::WIPOffset>, ) { fbb.finish(root, None); } #[inline] pub fn finish_size_prefixed_monster_buffer<'a, 'b>( fbb: &'b mut flatbuffers::FlatBufferBuilder<'a>, root: flatbuffers::WIPOffset>, ) { fbb.finish_size_prefixed(root, None); } } // pub mod Sample } // pub mod MyGame