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fuchsia / fuchsia / refs/heads/main / . / tools / fidl / fidlgen_rust / goldens / doc_comments_common.rs.golden
blob: 5ae2e1a845d4f0e49d0d6099fa3a6fd2fc617ce3 [file] [log] [blame] [edit]
// WARNING: This file is machine generated by fidlgen.
// fidl_experiment = output_index_json
#![warn(clippy::all)]
#![allow(unused_parens, unused_mut, unused_imports, nonstandard_style)]
use bitflags::bitflags;
use fidl::encoding::{MessageBufFor, ProxyChannelBox, ResourceDialect};
use futures::future::{self, MaybeDone, TryFutureExt};
use zx_status;
/// const comment #1
///
/// const comment #3
pub const C: i32 = 4;
bitflags! {
/// flexible bits comment #1
///
/// flexible bits comment #2
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct MyFlexibleBits: u32 {
/// MY_FIRST_BIT member comment #1
///
/// MY_FIRST_BIT member comment #3
const MY_FIRST_BIT = 1;
/// MY_OTHER_BIT member comment #1
///
/// MY_OTHER_BIT member comment #3
const MY_OTHER_BIT = 2;
}
}
impl MyFlexibleBits {
#[inline(always)]
pub fn from_bits_allow_unknown(bits: u32) -> Self {
Self::from_bits_retain(bits)
}
#[inline(always)]
pub fn has_unknown_bits(&self) -> bool {
self.get_unknown_bits() != 0
}
#[inline(always)]
pub fn get_unknown_bits(&self) -> u32 {
self.bits() & !Self::all().bits()
}
}
bitflags! {
/// strict bits comment #1
///
/// strict bits comment #2
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct MyStrictBits: u32 {
/// MY_FIRST_BIT member comment #1
///
/// MY_FIRST_BIT member comment #3
const MY_FIRST_BIT = 1;
/// MY_OTHER_BIT member comment #1
///
/// MY_OTHER_BIT member comment #3
const MY_OTHER_BIT = 2;
}
}
impl MyStrictBits {}
/// flexible enum comment #1.
///
/// flexible enum comment #2.
#[derive(Copy, Clone, Debug, Eq, PartialEq, Ord, PartialOrd, Hash)]
pub enum MyFlexibleEnum {
/// FOO member comment #1
///
/// FOO member comment #3
Foo,
/// BAR member comment #1
///
/// BAR member comment #3
Bar,
#[doc(hidden)]
__SourceBreaking { unknown_ordinal: u32 },
}
/// Pattern that matches an unknown `MyFlexibleEnum` member.
#[macro_export]
macro_rules! MyFlexibleEnumUnknown {
() => {
_
};
}
impl MyFlexibleEnum {
#[inline]
pub fn from_primitive(prim: u32) -> Option<Self> {
match prim {
1 => Some(Self::Foo),
2 => Some(Self::Bar),
_ => None,
}
}
#[inline]
pub fn from_primitive_allow_unknown(prim: u32) -> Self {
match prim {
1 => Self::Foo,
2 => Self::Bar,
unknown_ordinal => Self::__SourceBreaking { unknown_ordinal },
}
}
#[inline]
pub fn unknown() -> Self {
Self::__SourceBreaking { unknown_ordinal: 0xffffffff }
}
#[inline]
pub const fn into_primitive(self) -> u32 {
match self {
Self::Foo => 1,
Self::Bar => 2,
Self::__SourceBreaking { unknown_ordinal } => unknown_ordinal,
}
}
#[inline]
pub fn is_unknown(&self) -> bool {
match self {
Self::__SourceBreaking { unknown_ordinal: _ } => true,
_ => false,
}
}
}
/// strict enum comment #1.
///
/// strict enum comment #2.
#[derive(Copy, Clone, Debug, Eq, PartialEq, Ord, PartialOrd, Hash)]
#[repr(u32)]
pub enum MyStrictEnum {
/// FOO member comment #1
///
/// FOO member comment #3
Foo = 1,
/// BAR member comment #1
///
/// BAR member comment #3
Bar = 2,
}
impl MyStrictEnum {
#[inline]
pub fn from_primitive(prim: u32) -> Option<Self> {
match prim {
1 => Some(Self::Foo),
2 => Some(Self::Bar),
_ => None,
}
}
#[inline]
pub const fn into_primitive(self) -> u32 {
self as u32
}
}
/// struct comment #1
///
/// struct comment #3
#[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)]
#[repr(C)]
pub struct Struct {
/// struct member comment #1
///
/// struct member comment #3
pub field: i32,
}
impl fidl::Persistable for Struct {}
/// table comment #1
///
/// table comment #3
#[derive(Clone, Debug, Default, PartialEq)]
pub struct Table {
/// table field comment #1
///
/// table field comment #3
pub field: Option<i32>,
#[doc(hidden)]
pub __source_breaking: fidl::marker::SourceBreaking,
}
impl fidl::Persistable for Table {}
/// flexible union comment #1
///
/// flexible union comment #3
#[derive(Clone, Debug)]
pub enum FlexibleUnion {
/// union member comment #1
///
/// union member comment #3
Field(i32),
#[doc(hidden)]
__SourceBreaking { unknown_ordinal: u64 },
}
/// Pattern that matches an unknown `FlexibleUnion` member.
#[macro_export]
macro_rules! FlexibleUnionUnknown {
() => {
_
};
}
// Custom PartialEq so that unknown variants are not equal to themselves.
impl PartialEq for FlexibleUnion {
fn eq(&self, other: &Self) -> bool {
match (self, other) {
(Self::Field(x), Self::Field(y)) => *x == *y,
_ => false,
}
}
}
impl FlexibleUnion {
#[inline]
pub fn ordinal(&self) -> u64 {
match *self {
Self::Field(_) => 1,
Self::__SourceBreaking { unknown_ordinal } => unknown_ordinal,
}
}
#[inline]
pub fn unknown_variant_for_testing() -> Self {
Self::__SourceBreaking { unknown_ordinal: 0 }
}
#[inline]
pub fn is_unknown(&self) -> bool {
match self {
Self::__SourceBreaking { .. } => true,
_ => false,
}
}
}
impl fidl::Persistable for FlexibleUnion {}
/// strict union comment #1
///
/// strict union comment #3
#[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)]
pub enum StrictUnion {
/// union member comment #1
///
/// union member comment #3
Field(i32),
}
impl StrictUnion {
#[inline]
pub fn ordinal(&self) -> u64 {
match *self {
Self::Field(_) => 1,
}
}
}
impl fidl::Persistable for StrictUnion {}
pub mod interface_ordinals {
pub const METHOD: u64 = 0x45a0257b7cd8f999;
pub const ON_EVENT: u64 = 0x663f6d5971bef0;
}
mod internal {
use super::*;
unsafe impl fidl::encoding::TypeMarker for MyFlexibleBits {
type Owned = Self;
#[inline(always)]
fn inline_align(_context: fidl::encoding::Context) -> usize {
4
}
#[inline(always)]
fn inline_size(_context: fidl::encoding::Context) -> usize {
4
}
}
impl fidl::encoding::ValueTypeMarker for MyFlexibleBits {
type Borrowed<'a> = Self;
#[inline(always)]
fn borrow(value: &<Self as fidl::encoding::TypeMarker>::Owned) -> Self::Borrowed<'_> {
*value
}
}
unsafe impl<D: fidl::encoding::ResourceDialect> fidl::encoding::Encode<Self, D> for MyFlexibleBits {
#[inline]
unsafe fn encode(
self,
encoder: &mut fidl::encoding::Encoder<'_, D>,
offset: usize,
_depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
encoder.debug_check_bounds::<Self>(offset);
encoder.write_num(self.bits(), offset);
Ok(())
}
}
impl<D: fidl::encoding::ResourceDialect> fidl::encoding::Decode<Self, D> for MyFlexibleBits {
#[inline(always)]
fn new_empty() -> Self {
Self::empty()
}
#[inline]
unsafe fn decode(
&mut self,
decoder: &mut fidl::encoding::Decoder<'_, D>,
offset: usize,
_depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
decoder.debug_check_bounds::<Self>(offset);
let prim = decoder.read_num::<u32>(offset);
*self = Self::from_bits_allow_unknown(prim);
Ok(())
}
}
unsafe impl fidl::encoding::TypeMarker for MyStrictBits {
type Owned = Self;
#[inline(always)]
fn inline_align(_context: fidl::encoding::Context) -> usize {
4
}
#[inline(always)]
fn inline_size(_context: fidl::encoding::Context) -> usize {
4
}
}
impl fidl::encoding::ValueTypeMarker for MyStrictBits {
type Borrowed<'a> = Self;
#[inline(always)]
fn borrow(value: &<Self as fidl::encoding::TypeMarker>::Owned) -> Self::Borrowed<'_> {
*value
}
}
unsafe impl<D: fidl::encoding::ResourceDialect> fidl::encoding::Encode<Self, D> for MyStrictBits {
#[inline]
unsafe fn encode(
self,
encoder: &mut fidl::encoding::Encoder<'_, D>,
offset: usize,
_depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
encoder.debug_check_bounds::<Self>(offset);
if self.bits() & Self::all().bits() != self.bits() {
return Err(fidl::Error::InvalidBitsValue);
}
encoder.write_num(self.bits(), offset);
Ok(())
}
}
impl<D: fidl::encoding::ResourceDialect> fidl::encoding::Decode<Self, D> for MyStrictBits {
#[inline(always)]
fn new_empty() -> Self {
Self::empty()
}
#[inline]
unsafe fn decode(
&mut self,
decoder: &mut fidl::encoding::Decoder<'_, D>,
offset: usize,
_depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
decoder.debug_check_bounds::<Self>(offset);
let prim = decoder.read_num::<u32>(offset);
*self = Self::from_bits(prim).ok_or(fidl::Error::InvalidBitsValue)?;
Ok(())
}
}
unsafe impl fidl::encoding::TypeMarker for MyFlexibleEnum {
type Owned = Self;
#[inline(always)]
fn inline_align(_context: fidl::encoding::Context) -> usize {
std::mem::align_of::<u32>()
}
#[inline(always)]
fn inline_size(_context: fidl::encoding::Context) -> usize {
std::mem::size_of::<u32>()
}
#[inline(always)]
fn encode_is_copy() -> bool {
false
}
#[inline(always)]
fn decode_is_copy() -> bool {
false
}
}
impl fidl::encoding::ValueTypeMarker for MyFlexibleEnum {
type Borrowed<'a> = Self;
#[inline(always)]
fn borrow(value: &<Self as fidl::encoding::TypeMarker>::Owned) -> Self::Borrowed<'_> {
*value
}
}
unsafe impl<D: fidl::encoding::ResourceDialect> fidl::encoding::Encode<Self, D> for MyFlexibleEnum {
#[inline]
unsafe fn encode(
self,
encoder: &mut fidl::encoding::Encoder<'_, D>,
offset: usize,
_depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
encoder.debug_check_bounds::<Self>(offset);
encoder.write_num(self.into_primitive(), offset);
Ok(())
}
}
impl<D: fidl::encoding::ResourceDialect> fidl::encoding::Decode<Self, D> for MyFlexibleEnum {
#[inline(always)]
fn new_empty() -> Self {
Self::unknown()
}
#[inline]
unsafe fn decode(
&mut self,
decoder: &mut fidl::encoding::Decoder<'_, D>,
offset: usize,
_depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
decoder.debug_check_bounds::<Self>(offset);
let prim = decoder.read_num::<u32>(offset);
*self = Self::from_primitive_allow_unknown(prim);
Ok(())
}
}
unsafe impl fidl::encoding::TypeMarker for MyStrictEnum {
type Owned = Self;
#[inline(always)]
fn inline_align(_context: fidl::encoding::Context) -> usize {
std::mem::align_of::<u32>()
}
#[inline(always)]
fn inline_size(_context: fidl::encoding::Context) -> usize {
std::mem::size_of::<u32>()
}
#[inline(always)]
fn encode_is_copy() -> bool {
true
}
#[inline(always)]
fn decode_is_copy() -> bool {
false
}
}
impl fidl::encoding::ValueTypeMarker for MyStrictEnum {
type Borrowed<'a> = Self;
#[inline(always)]
fn borrow(value: &<Self as fidl::encoding::TypeMarker>::Owned) -> Self::Borrowed<'_> {
*value
}
}
unsafe impl<D: fidl::encoding::ResourceDialect> fidl::encoding::Encode<Self, D> for MyStrictEnum {
#[inline]
unsafe fn encode(
self,
encoder: &mut fidl::encoding::Encoder<'_, D>,
offset: usize,
_depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
encoder.debug_check_bounds::<Self>(offset);
encoder.write_num(self.into_primitive(), offset);
Ok(())
}
}
impl<D: fidl::encoding::ResourceDialect> fidl::encoding::Decode<Self, D> for MyStrictEnum {
#[inline(always)]
fn new_empty() -> Self {
Self::Foo
}
#[inline]
unsafe fn decode(
&mut self,
decoder: &mut fidl::encoding::Decoder<'_, D>,
offset: usize,
_depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
decoder.debug_check_bounds::<Self>(offset);
let prim = decoder.read_num::<u32>(offset);
*self = Self::from_primitive(prim).ok_or(fidl::Error::InvalidEnumValue)?;
Ok(())
}
}
impl fidl::encoding::ValueTypeMarker for Struct {
type Borrowed<'a> = &'a Self;
fn borrow(value: &<Self as fidl::encoding::TypeMarker>::Owned) -> Self::Borrowed<'_> {
value
}
}
unsafe impl fidl::encoding::TypeMarker for Struct {
type Owned = Self;
#[inline(always)]
fn inline_align(_context: fidl::encoding::Context) -> usize {
4
}
#[inline(always)]
fn inline_size(_context: fidl::encoding::Context) -> usize {
4
}
#[inline(always)]
fn encode_is_copy() -> bool {
true
}
#[inline(always)]
fn decode_is_copy() -> bool {
true
}
}
unsafe impl<D: fidl::encoding::ResourceDialect> fidl::encoding::Encode<Struct, D> for &Struct {
#[inline]
unsafe fn encode(
self,
encoder: &mut fidl::encoding::Encoder<'_, D>,
offset: usize,
_depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
encoder.debug_check_bounds::<Struct>(offset);
unsafe {
// Copy the object into the buffer.
let buf_ptr = encoder.buf.as_mut_ptr().add(offset);
(buf_ptr as *mut Struct).write_unaligned((self as *const Struct).read());
// Zero out padding regions. Unlike `fidl_struct_impl_noncopy!`, this must be
// done second because the memcpy will write garbage to these bytes.
}
Ok(())
}
}
unsafe impl<D: fidl::encoding::ResourceDialect, T0: fidl::encoding::Encode<i32, D>>
fidl::encoding::Encode<Struct, D> for (T0,)
{
#[inline]
unsafe fn encode(
self,
encoder: &mut fidl::encoding::Encoder<'_, D>,
offset: usize,
depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
encoder.debug_check_bounds::<Struct>(offset);
// Zero out padding regions. There's no need to apply masks
// because the unmasked parts will be overwritten by fields.
// Write the fields.
self.0.encode(encoder, offset + 0, depth)?;
Ok(())
}
}
impl<D: fidl::encoding::ResourceDialect> fidl::encoding::Decode<Self, D> for Struct {
#[inline(always)]
fn new_empty() -> Self {
Self { field: fidl::new_empty!(i32, D) }
}
#[inline]
unsafe fn decode(
&mut self,
decoder: &mut fidl::encoding::Decoder<'_, D>,
offset: usize,
_depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
decoder.debug_check_bounds::<Self>(offset);
let buf_ptr = unsafe { decoder.buf.as_ptr().add(offset) };
// Verify that padding bytes are zero.
// Copy from the buffer into the object.
unsafe {
std::ptr::copy_nonoverlapping(buf_ptr, self as *mut Self as *mut u8, 4);
}
Ok(())
}
}
impl Table {
#[inline(always)]
fn max_ordinal_present(&self) -> u64 {
if let Some(_) = self.field {
return 1;
}
0
}
}
impl fidl::encoding::ValueTypeMarker for Table {
type Borrowed<'a> = &'a Self;
fn borrow(value: &<Self as fidl::encoding::TypeMarker>::Owned) -> Self::Borrowed<'_> {
value
}
}
unsafe impl fidl::encoding::TypeMarker for Table {
type Owned = Self;
#[inline(always)]
fn inline_align(_context: fidl::encoding::Context) -> usize {
8
}
#[inline(always)]
fn inline_size(_context: fidl::encoding::Context) -> usize {
16
}
}
unsafe impl<D: fidl::encoding::ResourceDialect> fidl::encoding::Encode<Table, D> for &Table {
unsafe fn encode(
self,
encoder: &mut fidl::encoding::Encoder<'_, D>,
offset: usize,
mut depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
encoder.debug_check_bounds::<Table>(offset);
// Vector header
let max_ordinal: u64 = self.max_ordinal_present();
encoder.write_num(max_ordinal, offset);
encoder.write_num(fidl::encoding::ALLOC_PRESENT_U64, offset + 8);
// Calling encoder.out_of_line_offset(0) is not allowed.
if max_ordinal == 0 {
return Ok(());
}
depth.increment()?;
let envelope_size = 8;
let bytes_len = max_ordinal as usize * envelope_size;
#[allow(unused_variables)]
let offset = encoder.out_of_line_offset(bytes_len);
let mut _prev_end_offset: usize = 0;
if 1 > max_ordinal {
return Ok(());
}
// Write at offset+(ordinal-1)*envelope_size, since ordinals are one-based and envelopes
// are envelope_size bytes.
let cur_offset: usize = (1 - 1) * envelope_size;
// Zero reserved fields.
encoder.padding(offset + _prev_end_offset, cur_offset - _prev_end_offset);
// Safety:
// - bytes_len is calculated to fit envelope_size*max(member.ordinal).
// - Since cur_offset is envelope_size*(member.ordinal - 1) and the envelope takes
// envelope_size bytes, there is always sufficient room.
fidl::encoding::encode_in_envelope_optional::<i32, D>(
self.field.as_ref().map(<i32 as fidl::encoding::ValueTypeMarker>::borrow),
encoder,
offset + cur_offset,
depth,
)?;
_prev_end_offset = cur_offset + envelope_size;
Ok(())
}
}
impl<D: fidl::encoding::ResourceDialect> fidl::encoding::Decode<Self, D> for Table {
#[inline(always)]
fn new_empty() -> Self {
Self::default()
}
unsafe fn decode(
&mut self,
decoder: &mut fidl::encoding::Decoder<'_, D>,
offset: usize,
mut depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
decoder.debug_check_bounds::<Self>(offset);
let len = match fidl::encoding::decode_vector_header(decoder, offset)? {
None => return Err(fidl::Error::NotNullable),
Some(len) => len,
};
// Calling decoder.out_of_line_offset(0) is not allowed.
if len == 0 {
return Ok(());
};
depth.increment()?;
let envelope_size = 8;
let bytes_len = len * envelope_size;
let offset = decoder.out_of_line_offset(bytes_len)?;
// Decode the envelope for each type.
let mut _next_ordinal_to_read = 0;
let mut next_offset = offset;
let end_offset = offset + bytes_len;
_next_ordinal_to_read += 1;
if next_offset >= end_offset {
return Ok(());
}
// Decode unknown envelopes for gaps in ordinals.
while _next_ordinal_to_read < 1 {
fidl::encoding::decode_unknown_envelope(decoder, next_offset, depth)?;
_next_ordinal_to_read += 1;
next_offset += envelope_size;
}
let next_out_of_line = decoder.next_out_of_line();
let handles_before = decoder.remaining_handles();
if let Some((inlined, num_bytes, num_handles)) =
fidl::encoding::decode_envelope_header(decoder, next_offset)?
{
let member_inline_size =
<i32 as fidl::encoding::TypeMarker>::inline_size(decoder.context);
if inlined != (member_inline_size <= 4) {
return Err(fidl::Error::InvalidInlineBitInEnvelope);
}
let inner_offset;
let mut inner_depth = depth.clone();
if inlined {
decoder.check_inline_envelope_padding(next_offset, member_inline_size)?;
inner_offset = next_offset;
} else {
inner_offset = decoder.out_of_line_offset(member_inline_size)?;
inner_depth.increment()?;
}
let val_ref = self.field.get_or_insert_with(|| fidl::new_empty!(i32, D));
fidl::decode!(i32, D, val_ref, decoder, inner_offset, inner_depth)?;
if !inlined && decoder.next_out_of_line() != next_out_of_line + (num_bytes as usize)
{
return Err(fidl::Error::InvalidNumBytesInEnvelope);
}
if handles_before != decoder.remaining_handles() + (num_handles as usize) {
return Err(fidl::Error::InvalidNumHandlesInEnvelope);
}
}
next_offset += envelope_size;
// Decode the remaining unknown envelopes.
while next_offset < end_offset {
_next_ordinal_to_read += 1;
fidl::encoding::decode_unknown_envelope(decoder, next_offset, depth)?;
next_offset += envelope_size;
}
Ok(())
}
}
impl fidl::encoding::ValueTypeMarker for FlexibleUnion {
type Borrowed<'a> = &'a Self;
fn borrow(value: &<Self as fidl::encoding::TypeMarker>::Owned) -> Self::Borrowed<'_> {
value
}
}
unsafe impl fidl::encoding::TypeMarker for FlexibleUnion {
type Owned = Self;
#[inline(always)]
fn inline_align(_context: fidl::encoding::Context) -> usize {
8
}
#[inline(always)]
fn inline_size(_context: fidl::encoding::Context) -> usize {
16
}
}
unsafe impl<D: fidl::encoding::ResourceDialect> fidl::encoding::Encode<FlexibleUnion, D>
for &FlexibleUnion
{
#[inline]
unsafe fn encode(
self,
encoder: &mut fidl::encoding::Encoder<'_, D>,
offset: usize,
_depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
encoder.debug_check_bounds::<FlexibleUnion>(offset);
encoder.write_num::<u64>(self.ordinal(), offset);
match self {
FlexibleUnion::Field(ref val) => fidl::encoding::encode_in_envelope::<i32, D>(
<i32 as fidl::encoding::ValueTypeMarker>::borrow(val),
encoder,
offset + 8,
_depth,
),
FlexibleUnion::__SourceBreaking { .. } => Err(fidl::Error::UnknownUnionTag),
}
}
}
impl<D: fidl::encoding::ResourceDialect> fidl::encoding::Decode<Self, D> for FlexibleUnion {
#[inline(always)]
fn new_empty() -> Self {
Self::__SourceBreaking { unknown_ordinal: 0 }
}
#[inline]
unsafe fn decode(
&mut self,
decoder: &mut fidl::encoding::Decoder<'_, D>,
offset: usize,
mut depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
decoder.debug_check_bounds::<Self>(offset);
#[allow(unused_variables)]
let next_out_of_line = decoder.next_out_of_line();
let handles_before = decoder.remaining_handles();
let (ordinal, inlined, num_bytes, num_handles) =
fidl::encoding::decode_union_inline_portion(decoder, offset)?;
let member_inline_size = match ordinal {
1 => <i32 as fidl::encoding::TypeMarker>::inline_size(decoder.context),
0 => return Err(fidl::Error::UnknownUnionTag),
_ => num_bytes as usize,
};
if inlined != (member_inline_size <= 4) {
return Err(fidl::Error::InvalidInlineBitInEnvelope);
}
let _inner_offset;
if inlined {
decoder.check_inline_envelope_padding(offset + 8, member_inline_size)?;
_inner_offset = offset + 8;
} else {
depth.increment()?;
_inner_offset = decoder.out_of_line_offset(member_inline_size)?;
}
match ordinal {
1 => {
#[allow(irrefutable_let_patterns)]
if let FlexibleUnion::Field(_) = self {
// Do nothing, read the value into the object
} else {
// Initialize `self` to the right variant
*self = FlexibleUnion::Field(fidl::new_empty!(i32, D));
}
#[allow(irrefutable_let_patterns)]
if let FlexibleUnion::Field(ref mut val) = self {
fidl::decode!(i32, D, val, decoder, _inner_offset, depth)?;
} else {
unreachable!()
}
}
#[allow(deprecated)]
ordinal => {
for _ in 0..num_handles {
decoder.drop_next_handle()?;
}
*self = FlexibleUnion::__SourceBreaking { unknown_ordinal: ordinal };
}
}
if !inlined && decoder.next_out_of_line() != next_out_of_line + (num_bytes as usize) {
return Err(fidl::Error::InvalidNumBytesInEnvelope);
}
if handles_before != decoder.remaining_handles() + (num_handles as usize) {
return Err(fidl::Error::InvalidNumHandlesInEnvelope);
}
Ok(())
}
}
impl fidl::encoding::ValueTypeMarker for StrictUnion {
type Borrowed<'a> = &'a Self;
fn borrow(value: &<Self as fidl::encoding::TypeMarker>::Owned) -> Self::Borrowed<'_> {
value
}
}
unsafe impl fidl::encoding::TypeMarker for StrictUnion {
type Owned = Self;
#[inline(always)]
fn inline_align(_context: fidl::encoding::Context) -> usize {
8
}
#[inline(always)]
fn inline_size(_context: fidl::encoding::Context) -> usize {
16
}
}
unsafe impl<D: fidl::encoding::ResourceDialect> fidl::encoding::Encode<StrictUnion, D>
for &StrictUnion
{
#[inline]
unsafe fn encode(
self,
encoder: &mut fidl::encoding::Encoder<'_, D>,
offset: usize,
_depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
encoder.debug_check_bounds::<StrictUnion>(offset);
encoder.write_num::<u64>(self.ordinal(), offset);
match self {
StrictUnion::Field(ref val) => fidl::encoding::encode_in_envelope::<i32, D>(
<i32 as fidl::encoding::ValueTypeMarker>::borrow(val),
encoder,
offset + 8,
_depth,
),
}
}
}
impl<D: fidl::encoding::ResourceDialect> fidl::encoding::Decode<Self, D> for StrictUnion {
#[inline(always)]
fn new_empty() -> Self {
Self::Field(fidl::new_empty!(i32, D))
}
#[inline]
unsafe fn decode(
&mut self,
decoder: &mut fidl::encoding::Decoder<'_, D>,
offset: usize,
mut depth: fidl::encoding::Depth,
) -> fidl::Result<()> {
decoder.debug_check_bounds::<Self>(offset);
#[allow(unused_variables)]
let next_out_of_line = decoder.next_out_of_line();
let handles_before = decoder.remaining_handles();
let (ordinal, inlined, num_bytes, num_handles) =
fidl::encoding::decode_union_inline_portion(decoder, offset)?;
let member_inline_size = match ordinal {
1 => <i32 as fidl::encoding::TypeMarker>::inline_size(decoder.context),
_ => return Err(fidl::Error::UnknownUnionTag),
};
if inlined != (member_inline_size <= 4) {
return Err(fidl::Error::InvalidInlineBitInEnvelope);
}
let _inner_offset;
if inlined {
decoder.check_inline_envelope_padding(offset + 8, member_inline_size)?;
_inner_offset = offset + 8;
} else {
depth.increment()?;
_inner_offset = decoder.out_of_line_offset(member_inline_size)?;
}
match ordinal {
1 => {
#[allow(irrefutable_let_patterns)]
if let StrictUnion::Field(_) = self {
// Do nothing, read the value into the object
} else {
// Initialize `self` to the right variant
*self = StrictUnion::Field(fidl::new_empty!(i32, D));
}
#[allow(irrefutable_let_patterns)]
if let StrictUnion::Field(ref mut val) = self {
fidl::decode!(i32, D, val, decoder, _inner_offset, depth)?;
} else {
unreachable!()
}
}
ordinal => panic!("unexpected ordinal {:?}", ordinal),
}
if !inlined && decoder.next_out_of_line() != next_out_of_line + (num_bytes as usize) {
return Err(fidl::Error::InvalidNumBytesInEnvelope);
}
if handles_before != decoder.remaining_handles() + (num_handles as usize) {
return Err(fidl::Error::InvalidNumHandlesInEnvelope);
}
Ok(())
}
}
}