Remove Dim0F32Stream and Dim1F32Stream
This commit is contained in:
Dominik Werder
304
disk/src/agg.rs
304
disk/src/agg.rs
@@ -99,125 +99,6 @@ pub trait FitsInside {
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fn fits_inside(&self, range: NanoRange) -> Fits;
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}
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pub struct Dim0F32Stream<S>
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where
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S: Stream<Item = Result<EventFull, Error>>,
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{
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inp: S,
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errored: bool,
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completed: bool,
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}
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impl<S> Dim0F32Stream<S>
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where
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S: Stream<Item = Result<EventFull, Error>>,
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{
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pub fn new(inp: S) -> Self {
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Self {
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inp,
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errored: false,
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completed: false,
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}
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}
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}
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impl<S> Stream for Dim0F32Stream<S>
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where
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S: Stream<Item = Result<EventFull, Error>> + Unpin,
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{
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type Item = Result<ValuesDim0, Error>;
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fn poll_next(mut self: Pin<&mut Self>, cx: &mut Context) -> Poll<Option<Self::Item>> {
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use Poll::*;
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if self.completed {
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panic!("Dim0F32Stream poll_next on completed");
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}
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if self.errored {
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self.completed = true;
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return Ready(None);
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}
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match self.inp.poll_next_unpin(cx) {
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Ready(Some(Ok(k))) => {
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// TODO implement here for dim-0
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let mut ret = ValuesDim0 {
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tss: vec![],
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values: vec![],
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};
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use ScalarType::*;
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for i1 in 0..k.tss.len() {
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// TODO iterate sibling arrays after single bounds check
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let ty = &k.scalar_types[i1];
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let decomp = k.decomps[i1].as_ref().unwrap();
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match ty {
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F64 => {
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const BY: usize = 8;
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// do the conversion
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// TODO only a scalar!
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err::todoval::<u32>();
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let n1 = decomp.len();
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assert!(n1 % ty.bytes() as usize == 0);
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let ele_count = n1 / ty.bytes() as usize;
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let mut j = Vec::with_capacity(ele_count);
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// this is safe for ints and floats
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unsafe {
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j.set_len(ele_count);
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}
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let mut p1 = 0;
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for i1 in 0..ele_count {
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let u = unsafe {
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let mut r = [0u8; BY];
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std::ptr::copy_nonoverlapping(&decomp[p1], r.as_mut_ptr(), BY);
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f64::from_be_bytes(r)
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//f64::from_be_bytes(std::mem::transmute::<_, [u8; 8]>(&decomp[p1]))
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};
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j[i1] = u as f32;
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p1 += BY;
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}
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ret.tss.push(k.tss[i1]);
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ret.values.push(j);
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}
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_ => err::todoval(),
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}
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}
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self.errored = true;
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Ready(Some(Err(Error::with_msg(format!("TODO not yet implemented")))))
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}
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Ready(Some(Err(e))) => {
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self.errored = true;
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Ready(Some(Err(e)))
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}
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Ready(None) => {
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self.completed = true;
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Ready(None)
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}
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Pending => Pending,
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}
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}
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}
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pub trait IntoDim0F32Stream {
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fn into_dim_0_f32_stream(self) -> Dim0F32Stream<Self>
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where
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Self: Stream<Item = Result<EventFull, Error>> + Sized;
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}
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impl<T> IntoDim0F32Stream for T
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where
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T: Stream<Item = Result<EventFull, Error>>,
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{
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fn into_dim_0_f32_stream(self) -> Dim0F32Stream<T> {
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Dim0F32Stream::new(self)
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}
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}
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pub struct Dim1F32Stream<S> {
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inp: S,
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errored: bool,
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completed: bool,
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}
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trait NumEx {
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const BY: usize;
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}
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@@ -287,188 +168,3 @@ make_get_values!(get_values_i32_be, i32, from_be_bytes, 4);
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make_get_values!(get_values_i64_be, i64, from_be_bytes, 8);
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make_get_values!(get_values_f32_be, f32, from_be_bytes, 4);
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make_get_values!(get_values_f64_be, f64, from_be_bytes, 8);
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impl<S> Dim1F32Stream<S> {
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pub fn new(inp: S) -> Self {
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Self {
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inp,
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errored: false,
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completed: false,
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}
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}
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fn process_event_data(&mut self, k: &EventFull) -> Result<ValuesDim1, Error> {
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let mut ret = ValuesDim1::empty();
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use ScalarType::*;
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for i1 in 0..k.tss.len() {
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// TODO iterate sibling arrays after single bounds check
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let ty = &k.scalar_types[i1];
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let be = k.be[i1];
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let decomp = k.decomps[i1].as_ref().unwrap();
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match ty {
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U8 => {
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let value = if be {
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get_values_u8_be(decomp, ty)?
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} else {
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get_values_u8_le(decomp, ty)?
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};
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ret.tss.push(k.tss[i1]);
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ret.values.push(value);
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}
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U16 => {
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let value = if be {
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get_values_u16_be(decomp, ty)?
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} else {
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get_values_u16_le(decomp, ty)?
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};
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ret.tss.push(k.tss[i1]);
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ret.values.push(value);
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}
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U32 => {
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let value = if be {
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get_values_u32_be(decomp, ty)?
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} else {
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get_values_u32_le(decomp, ty)?
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};
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ret.tss.push(k.tss[i1]);
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ret.values.push(value);
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}
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U64 => {
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let value = if be {
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get_values_u64_be(decomp, ty)?
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} else {
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get_values_u64_le(decomp, ty)?
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};
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ret.tss.push(k.tss[i1]);
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ret.values.push(value);
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}
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I8 => {
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let value = if be {
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get_values_i8_be(decomp, ty)?
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} else {
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get_values_i8_le(decomp, ty)?
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};
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ret.tss.push(k.tss[i1]);
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ret.values.push(value);
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}
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I16 => {
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let value = if be {
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get_values_i16_be(decomp, ty)?
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} else {
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get_values_i16_le(decomp, ty)?
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};
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ret.tss.push(k.tss[i1]);
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ret.values.push(value);
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}
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I32 => {
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let value = if be {
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get_values_i32_be(decomp, ty)?
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} else {
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get_values_i32_le(decomp, ty)?
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};
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ret.tss.push(k.tss[i1]);
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ret.values.push(value);
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}
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I64 => {
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let value = if be {
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get_values_i64_be(decomp, ty)?
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} else {
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get_values_i64_le(decomp, ty)?
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};
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ret.tss.push(k.tss[i1]);
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ret.values.push(value);
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}
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F32 => {
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let value = if be {
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get_values_f32_be(decomp, ty)?
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} else {
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get_values_f32_le(decomp, ty)?
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};
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ret.tss.push(k.tss[i1]);
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ret.values.push(value);
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}
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F64 => {
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let value = if be {
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get_values_f64_be(decomp, ty)?
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} else {
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get_values_f64_le(decomp, ty)?
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};
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ret.tss.push(k.tss[i1]);
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ret.values.push(value);
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}
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}
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}
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Ok(ret)
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}
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}
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impl<S> Stream for Dim1F32Stream<S>
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where
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S: Stream<Item = Result<StreamItem<RangeCompletableItem<EventFull>>, Error>> + Unpin,
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{
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type Item = Result<StreamItem<RangeCompletableItem<ValuesDim1>>, Error>;
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fn poll_next(mut self: Pin<&mut Self>, cx: &mut Context) -> Poll<Option<Self::Item>> {
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use Poll::*;
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if self.completed {
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panic!("Dim1F32Stream poll_next on completed");
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}
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if self.errored {
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self.completed = true;
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return Ready(None);
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}
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match self.inp.poll_next_unpin(cx) {
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Ready(Some(Ok(k))) => {
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let inst1 = Instant::now();
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let u = match k {
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StreamItem::DataItem(item) => match item {
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RangeCompletableItem::RangeComplete => {
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Ready(Some(Ok(StreamItem::DataItem(RangeCompletableItem::RangeComplete))))
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}
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RangeCompletableItem::Data(item) => match self.process_event_data(&item) {
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Ok(item) => {
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let ret = RangeCompletableItem::Data(item);
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let ret = StreamItem::DataItem(ret);
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Ready(Some(Ok(ret)))
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}
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Err(e) => {
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self.errored = true;
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Ready(Some(Err(e)))
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}
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},
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},
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StreamItem::Log(item) => Ready(Some(Ok(StreamItem::Log(item)))),
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StreamItem::Stats(item) => Ready(Some(Ok(StreamItem::Stats(item)))),
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};
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let inst2 = Instant::now();
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// TODO do something with the measured time.
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let _ = inst2.duration_since(inst1);
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u
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}
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Ready(Some(Err(e))) => {
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self.errored = true;
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Ready(Some(Err(e)))
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}
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Ready(None) => {
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self.completed = true;
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Ready(None)
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}
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Pending => Pending,
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}
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}
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}
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pub trait IntoDim1F32Stream {
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fn into_dim_1_f32_stream(self) -> Dim1F32Stream<Self>
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where
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Self: Stream<Item = Result<StreamItem<RangeCompletableItem<EventFull>>, Error>> + Sized;
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}
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impl<T> IntoDim1F32Stream for T
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where
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T: Stream<Item = Result<StreamItem<RangeCompletableItem<EventFull>>, Error>>,
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{
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fn into_dim_1_f32_stream(self) -> Dim1F32Stream<T> {
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Dim1F32Stream::new(self)
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}
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}
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@@ -1,4 +1,3 @@
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use super::agg::IntoDim1F32Stream;
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use crate::binned::BinnedStreamKindScalar;
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use crate::eventblobs::EventBlobsComplete;
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use crate::eventchunker::EventChunkerConf;
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@@ -111,16 +110,6 @@ async fn agg_x_dim_1_inner() {
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0,
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query.buffer_size as usize,
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event_chunker_conf,
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)
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.into_dim_1_f32_stream()
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//.take(1000)
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.map(|q| {
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if false {
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if let Ok(ref k) = q {
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info!("vals: {:?}", k);
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}
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}
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q
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});
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);
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// TODO add the binning and expectation and await the result.
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}
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@@ -1,7 +1,6 @@
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use crate::agg::enp::{Identity, WaveXBinner};
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use crate::agg::eventbatch::MinMaxAvgScalarEventBatch;
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use crate::agg::streams::StreamItem;
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use crate::agg::IntoDim1F32Stream;
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use crate::binned::{BinnedStreamKindScalar, EventsNodeProcessor, NumOps, RangeCompletableItem, StreamKind};
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use crate::decode::{
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BigEndian, Endianness, EventValueFromBytes, EventValueShape, EventValuesDim0Case, EventValuesDim1Case,
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