spacedatastandards-org 1.73.12

Space data standards framework based on CCSDS standards and Google FlatBuffers.
Documentation 
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// automatically generated by the FlatBuffers compiler, do not modify


// @generated

use core::mem;
use core::cmp::Ordering;

extern crate flatbuffers;
use self::flatbuffers::{EndianScalar, Follow};

pub enum RFEOffset {}
#[derive(Copy, Clone, PartialEq)]

/// RF Emitter
pub struct RFE<'a> {
  pub _tab: flatbuffers::Table<'a>,
}

impl<'a> flatbuffers::Follow<'a> for RFE<'a> {
  type Inner = RFE<'a>;
  #[inline]
  unsafe fn follow(buf: &'a [u8], loc: usize) -> Self::Inner {
    Self { _tab: flatbuffers::Table::new(buf, loc) }
  }
}

impl<'a> RFE<'a> {
  pub const VT_ID: flatbuffers::VOffsetT = 4;
  pub const VT_ID_ENTITY: flatbuffers::VOffsetT = 6;
  pub const VT_NAME: flatbuffers::VOffsetT = 8;
  pub const VT_TYPE: flatbuffers::VOffsetT = 10;
  pub const VT_ENTITY: flatbuffers::VOffsetT = 12;
  pub const VT_RF_EMITTER_DETAILS: flatbuffers::VOffsetT = 14;

  #[inline]
  pub unsafe fn init_from_table(table: flatbuffers::Table<'a>) -> Self {
    RFE { _tab: table }
  }
  #[allow(unused_mut)]
  pub fn create<'bldr: 'args, 'args: 'mut_bldr, 'mut_bldr, A: flatbuffers::Allocator + 'bldr>(
    _fbb: &'mut_bldr mut flatbuffers::FlatBufferBuilder<'bldr, A>,
    args: &'args RFEArgs<'args>
  ) -> flatbuffers::WIPOffset<RFE<'bldr>> {
    let mut builder = RFEBuilder::new(_fbb);
    if let Some(x) = args.RF_EMITTER_DETAILS { builder.add_RF_EMITTER_DETAILS(x); }
    if let Some(x) = args.ENTITY { builder.add_ENTITY(x); }
    if let Some(x) = args.TYPE { builder.add_TYPE(x); }
    if let Some(x) = args.NAME { builder.add_NAME(x); }
    if let Some(x) = args.ID_ENTITY { builder.add_ID_ENTITY(x); }
    if let Some(x) = args.ID { builder.add_ID(x); }
    builder.finish()
  }

  pub fn unpack(&self) -> RFET {
    let ID = self.ID().map(|x| {
      x.to_string()
    });
    let ID_ENTITY = self.ID_ENTITY().map(|x| {
      x.to_string()
    });
    let NAME = self.NAME().map(|x| {
      x.to_string()
    });
    let TYPE = self.TYPE().map(|x| {
      x.to_string()
    });
    let ENTITY = self.ENTITY().map(|x| {
      x.to_string()
    });
    let RF_EMITTER_DETAILS = self.RF_EMITTER_DETAILS().map(|x| {
      x.iter().map(|s| s.to_string()).collect()
    });
    RFET {
      ID,
      ID_ENTITY,
      NAME,
      TYPE,
      ENTITY,
      RF_EMITTER_DETAILS,
    }
  }

  #[inline]
  pub fn ID(&self) -> Option<&'a str> {
    // Safety:
    // Created from valid Table for this object
    // which contains a valid value in this slot
    unsafe { self._tab.get::<flatbuffers::ForwardsUOffset<&str>>(RFE::VT_ID, None)}
  }
  #[inline]
  pub fn ID_ENTITY(&self) -> Option<&'a str> {
    // Safety:
    // Created from valid Table for this object
    // which contains a valid value in this slot
    unsafe { self._tab.get::<flatbuffers::ForwardsUOffset<&str>>(RFE::VT_ID_ENTITY, None)}
  }
  #[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::<flatbuffers::ForwardsUOffset<&str>>(RFE::VT_NAME, None)}
  }
  #[inline]
  pub fn TYPE(&self) -> Option<&'a str> {
    // Safety:
    // Created from valid Table for this object
    // which contains a valid value in this slot
    unsafe { self._tab.get::<flatbuffers::ForwardsUOffset<&str>>(RFE::VT_TYPE, None)}
  }
  #[inline]
  pub fn ENTITY(&self) -> Option<&'a str> {
    // Safety:
    // Created from valid Table for this object
    // which contains a valid value in this slot
    unsafe { self._tab.get::<flatbuffers::ForwardsUOffset<&str>>(RFE::VT_ENTITY, None)}
  }
  #[inline]
  pub fn RF_EMITTER_DETAILS(&self) -> Option<flatbuffers::Vector<'a, flatbuffers::ForwardsUOffset<&'a str>>> {
    // Safety:
    // Created from valid Table for this object
    // which contains a valid value in this slot
    unsafe { self._tab.get::<flatbuffers::ForwardsUOffset<flatbuffers::Vector<'a, flatbuffers::ForwardsUOffset<&'a str>>>>(RFE::VT_RF_EMITTER_DETAILS, None)}
  }
}

impl flatbuffers::Verifiable for RFE<'_> {
  #[inline]
  fn run_verifier(
    v: &mut flatbuffers::Verifier, pos: usize
  ) -> Result<(), flatbuffers::InvalidFlatbuffer> {
    use self::flatbuffers::Verifiable;
    v.visit_table(pos)?
     .visit_field::<flatbuffers::ForwardsUOffset<&str>>("ID", Self::VT_ID, false)?
     .visit_field::<flatbuffers::ForwardsUOffset<&str>>("ID_ENTITY", Self::VT_ID_ENTITY, false)?
     .visit_field::<flatbuffers::ForwardsUOffset<&str>>("NAME", Self::VT_NAME, false)?
     .visit_field::<flatbuffers::ForwardsUOffset<&str>>("TYPE", Self::VT_TYPE, false)?
     .visit_field::<flatbuffers::ForwardsUOffset<&str>>("ENTITY", Self::VT_ENTITY, false)?
     .visit_field::<flatbuffers::ForwardsUOffset<flatbuffers::Vector<'_, flatbuffers::ForwardsUOffset<&'_ str>>>>("RF_EMITTER_DETAILS", Self::VT_RF_EMITTER_DETAILS, false)?
     .finish();
    Ok(())
  }
}
pub struct RFEArgs<'a> {
    pub ID: Option<flatbuffers::WIPOffset<&'a str>>,
    pub ID_ENTITY: Option<flatbuffers::WIPOffset<&'a str>>,
    pub NAME: Option<flatbuffers::WIPOffset<&'a str>>,
    pub TYPE: Option<flatbuffers::WIPOffset<&'a str>>,
    pub ENTITY: Option<flatbuffers::WIPOffset<&'a str>>,
    pub RF_EMITTER_DETAILS: Option<flatbuffers::WIPOffset<flatbuffers::Vector<'a, flatbuffers::ForwardsUOffset<&'a str>>>>,
}
impl<'a> Default for RFEArgs<'a> {
  #[inline]
  fn default() -> Self {
    RFEArgs {
      ID: None,
      ID_ENTITY: None,
      NAME: None,
      TYPE: None,
      ENTITY: None,
      RF_EMITTER_DETAILS: None,
    }
  }
}

pub struct RFEBuilder<'a: 'b, 'b, A: flatbuffers::Allocator + 'a> {
  fbb_: &'b mut flatbuffers::FlatBufferBuilder<'a, A>,
  start_: flatbuffers::WIPOffset<flatbuffers::TableUnfinishedWIPOffset>,
}
impl<'a: 'b, 'b, A: flatbuffers::Allocator + 'a> RFEBuilder<'a, 'b, A> {
  #[inline]
  pub fn add_ID(&mut self, ID: flatbuffers::WIPOffset<&'b  str>) {
    self.fbb_.push_slot_always::<flatbuffers::WIPOffset<_>>(RFE::VT_ID, ID);
  }
  #[inline]
  pub fn add_ID_ENTITY(&mut self, ID_ENTITY: flatbuffers::WIPOffset<&'b  str>) {
    self.fbb_.push_slot_always::<flatbuffers::WIPOffset<_>>(RFE::VT_ID_ENTITY, ID_ENTITY);
  }
  #[inline]
  pub fn add_NAME(&mut self, NAME: flatbuffers::WIPOffset<&'b  str>) {
    self.fbb_.push_slot_always::<flatbuffers::WIPOffset<_>>(RFE::VT_NAME, NAME);
  }
  #[inline]
  pub fn add_TYPE(&mut self, TYPE: flatbuffers::WIPOffset<&'b  str>) {
    self.fbb_.push_slot_always::<flatbuffers::WIPOffset<_>>(RFE::VT_TYPE, TYPE);
  }
  #[inline]
  pub fn add_ENTITY(&mut self, ENTITY: flatbuffers::WIPOffset<&'b  str>) {
    self.fbb_.push_slot_always::<flatbuffers::WIPOffset<_>>(RFE::VT_ENTITY, ENTITY);
  }
  #[inline]
  pub fn add_RF_EMITTER_DETAILS(&mut self, RF_EMITTER_DETAILS: flatbuffers::WIPOffset<flatbuffers::Vector<'b , flatbuffers::ForwardsUOffset<&'b  str>>>) {
    self.fbb_.push_slot_always::<flatbuffers::WIPOffset<_>>(RFE::VT_RF_EMITTER_DETAILS, RF_EMITTER_DETAILS);
  }
  #[inline]
  pub fn new(_fbb: &'b mut flatbuffers::FlatBufferBuilder<'a, A>) -> RFEBuilder<'a, 'b, A> {
    let start = _fbb.start_table();
    RFEBuilder {
      fbb_: _fbb,
      start_: start,
    }
  }
  #[inline]
  pub fn finish(self) -> flatbuffers::WIPOffset<RFE<'a>> {
    let o = self.fbb_.end_table(self.start_);
    flatbuffers::WIPOffset::new(o.value())
  }
}

impl core::fmt::Debug for RFE<'_> {
  fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
    let mut ds = f.debug_struct("RFE");
      ds.field("ID", &self.ID());
      ds.field("ID_ENTITY", &self.ID_ENTITY());
      ds.field("NAME", &self.NAME());
      ds.field("TYPE", &self.TYPE());
      ds.field("ENTITY", &self.ENTITY());
      ds.field("RF_EMITTER_DETAILS", &self.RF_EMITTER_DETAILS());
      ds.finish()
  }
}
#[non_exhaustive]
#[derive(Debug, Clone, PartialEq)]
pub struct RFET {
  pub ID: Option<String>,
  pub ID_ENTITY: Option<String>,
  pub NAME: Option<String>,
  pub TYPE: Option<String>,
  pub ENTITY: Option<String>,
  pub RF_EMITTER_DETAILS: Option<Vec<String>>,
}
impl Default for RFET {
  fn default() -> Self {
    Self {
      ID: None,
      ID_ENTITY: None,
      NAME: None,
      TYPE: None,
      ENTITY: None,
      RF_EMITTER_DETAILS: None,
    }
  }
}
impl RFET {
  pub fn pack<'b, A: flatbuffers::Allocator + 'b>(
    &self,
    _fbb: &mut flatbuffers::FlatBufferBuilder<'b, A>
  ) -> flatbuffers::WIPOffset<RFE<'b>> {
    let ID = self.ID.as_ref().map(|x|{
      _fbb.create_string(x)
    });
    let ID_ENTITY = self.ID_ENTITY.as_ref().map(|x|{
      _fbb.create_string(x)
    });
    let NAME = self.NAME.as_ref().map(|x|{
      _fbb.create_string(x)
    });
    let TYPE = self.TYPE.as_ref().map(|x|{
      _fbb.create_string(x)
    });
    let ENTITY = self.ENTITY.as_ref().map(|x|{
      _fbb.create_string(x)
    });
    let RF_EMITTER_DETAILS = self.RF_EMITTER_DETAILS.as_ref().map(|x|{
      let w: Vec<_> = x.iter().map(|s| _fbb.create_string(s)).collect();_fbb.create_vector(&w)
    });
    RFE::create(_fbb, &RFEArgs{
      ID,
      ID_ENTITY,
      NAME,
      TYPE,
      ENTITY,
      RF_EMITTER_DETAILS,
    })
  }
}
#[inline]
/// Verifies that a buffer of bytes contains a `RFE`
/// 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_RFE_unchecked`.
pub fn root_as_RFE(buf: &[u8]) -> Result<RFE, flatbuffers::InvalidFlatbuffer> {
  flatbuffers::root::<RFE>(buf)
}
#[inline]
/// Verifies that a buffer of bytes contains a size prefixed
/// `RFE` 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_RFE_unchecked`.
pub fn size_prefixed_root_as_RFE(buf: &[u8]) -> Result<RFE, flatbuffers::InvalidFlatbuffer> {
  flatbuffers::size_prefixed_root::<RFE>(buf)
}
#[inline]
/// Verifies, with the given options, that a buffer of bytes
/// contains a `RFE` 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_RFE_unchecked`.
pub fn root_as_RFE_with_opts<'b, 'o>(
  opts: &'o flatbuffers::VerifierOptions,
  buf: &'b [u8],
) -> Result<RFE<'b>, flatbuffers::InvalidFlatbuffer> {
  flatbuffers::root_with_opts::<RFE<'b>>(opts, buf)
}
#[inline]
/// Verifies, with the given verifier options, that a buffer of
/// bytes contains a size prefixed `RFE` 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_RFE_unchecked`.
pub fn size_prefixed_root_as_RFE_with_opts<'b, 'o>(
  opts: &'o flatbuffers::VerifierOptions,
  buf: &'b [u8],
) -> Result<RFE<'b>, flatbuffers::InvalidFlatbuffer> {
  flatbuffers::size_prefixed_root_with_opts::<RFE<'b>>(opts, buf)
}
#[inline]
/// Assumes, without verification, that a buffer of bytes contains a RFE and returns it.
/// # Safety
/// Callers must trust the given bytes do indeed contain a valid `RFE`.
pub unsafe fn root_as_RFE_unchecked(buf: &[u8]) -> RFE {
  flatbuffers::root_unchecked::<RFE>(buf)
}
#[inline]
/// Assumes, without verification, that a buffer of bytes contains a size prefixed RFE and returns it.
/// # Safety
/// Callers must trust the given bytes do indeed contain a valid size prefixed `RFE`.
pub unsafe fn size_prefixed_root_as_RFE_unchecked(buf: &[u8]) -> RFE {
  flatbuffers::size_prefixed_root_unchecked::<RFE>(buf)
}
pub const RFE_IDENTIFIER: &str = "$RFE";

#[inline]
pub fn RFE_buffer_has_identifier(buf: &[u8]) -> bool {
  flatbuffers::buffer_has_identifier(buf, RFE_IDENTIFIER, false)
}

#[inline]
pub fn RFE_size_prefixed_buffer_has_identifier(buf: &[u8]) -> bool {
  flatbuffers::buffer_has_identifier(buf, RFE_IDENTIFIER, true)
}

#[inline]
pub fn finish_RFE_buffer<'a, 'b, A: flatbuffers::Allocator + 'a>(
    fbb: &'b mut flatbuffers::FlatBufferBuilder<'a, A>,
    root: flatbuffers::WIPOffset<RFE<'a>>) {
  fbb.finish(root, Some(RFE_IDENTIFIER));
}

#[inline]
pub fn finish_size_prefixed_RFE_buffer<'a, 'b, A: flatbuffers::Allocator + 'a>(fbb: &'b mut flatbuffers::FlatBufferBuilder<'a, A>, root: flatbuffers::WIPOffset<RFE<'a>>) {
  fbb.finish_size_prefixed(root, Some(RFE_IDENTIFIER));
}