Fix replicate with destination interleave
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74fa50bc0c
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7A3F8997BFE894E0
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@ -75,13 +75,11 @@ pub fn TransferMenu() -> Html {
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dispatch.reduce_mut(|state| {
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state.interleave_x = num;
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});
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if let Some((_,y)) = ct_state.transfer.interleave_dest {
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ct_dispatch.reduce_mut(|state| {
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state.transfer.interleave_dest = Some((num, y));
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state.transfer.interleave_dest = (num, state.transfer.interleave_dest.1);
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});
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}
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}
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}
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})
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};
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let on_dest_interleave_y_change = {
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@ -97,13 +95,11 @@ pub fn TransferMenu() -> Html {
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dispatch.reduce_mut(|state| {
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state.interleave_y = num;
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});
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if let Some((x,_)) = ct_state.transfer.interleave_dest {
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ct_dispatch.reduce_mut(|state| {
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state.transfer.interleave_dest = Some((x, num));
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state.transfer.interleave_dest = (state.transfer.interleave_dest.0, num);
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});
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}
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}
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}
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})
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};
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@ -24,14 +24,27 @@ impl TryFrom<Region> for ((u8, u8), (u8, u8)) {
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}
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}
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#[derive(PartialEq, Eq, Default, Clone, Copy, Serialize, Deserialize, Debug)]
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#[derive(PartialEq, Eq, Clone, Copy, Serialize, Deserialize, Debug)]
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pub struct TransferRegion {
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pub source_plate: Plate,
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pub source_region: Region, // Even if it is just a point, we don't want corners.
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pub dest_plate: Plate,
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pub dest_region: Region,
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pub interleave_source: Option<(i8, i8)>,
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pub interleave_dest: Option<(i8, i8)>,
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pub interleave_source: (i8, i8),
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pub interleave_dest: (i8, i8),
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}
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impl Default for TransferRegion {
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fn default() -> Self {
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TransferRegion {
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source_plate: Plate::default(),
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source_region: Region::default(),
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dest_plate: Plate::default(),
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dest_region: Region::default(),
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interleave_source: (1,1),
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interleave_dest: (1,1)
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}
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}
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}
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impl TransferRegion {
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@ -40,7 +53,7 @@ impl TransferRegion {
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Region::Rect(c1, c2) => {
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let mut wells = Vec::<(u8, u8)>::new();
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let (ul, br) = standardize_rectangle(&c1, &c2);
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let (interleave_i, interleave_j) = self.interleave_source.unwrap_or((1, 1));
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let (interleave_i, interleave_j) = self.interleave_source;
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// NOTE: This will panic if either is 0!
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// We'll reassign these values (still not mutable) just in case.
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// This behaviour shouldn't be replicated for destination wells
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@ -82,16 +95,17 @@ impl TransferRegion {
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pub fn calculate_map(&self) -> Box<dyn Fn((u8, u8)) -> Option<Vec<(u8, u8)>> + '_> {
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// By validating first, we have a stronger guarantee that
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// this function will not panic. :)
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log::debug!("Validating: {:?}", self.validate());
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if let Err(msg) = self.validate() {
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eprintln!("{}", msg);
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log::debug!("{}", msg);
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eprintln!("This transfer will be empty.");
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return Box::new(|(_, _)| None);
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}
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log::debug!("What is ild? {:?}", self);
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let source_wells = self.get_source_wells();
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let il_dest = self.interleave_dest.unwrap_or((1, 1));
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let il_source = self.interleave_source.unwrap_or((1, 1));
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let il_dest = self.interleave_dest;
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let il_source = self.interleave_source;
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let source_corners: ((u8, u8), (u8, u8)) = match self.source_region {
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Region::Point((x,y)) => ((x,y),(x,y)),
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@ -130,32 +144,56 @@ impl TransferRegion {
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}
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Region::Rect(c1, c2) => {
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return Box::new(move |(i, j)| {
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// Because of our call to validate,
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// we can assume that our destination region contains
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// an integer number of our source regions.
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if source_wells.contains(&(i, j)) {
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// Find points by checking congruence class
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let possible_destination_wells = create_dense_rectangle(&c1, &c2);
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let (ds1, _) = standardize_rectangle(&c1, &c2);
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let (s1, s2) = standardize_rectangle(&source_corners.0, &source_corners.1);
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let dims = (
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s2.0.checked_sub(s1.0).unwrap() + 1,
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s2.1.checked_sub(s1.1).unwrap() + 1,
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let (d_ul, d_br) = standardize_rectangle(&c1, &c2);
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let (s_ul, s_br) = standardize_rectangle(&source_corners.0, &source_corners.1);
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let s_dims = (
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s_br.0.checked_sub(s_ul.0).unwrap() + 1,
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s_br.1.checked_sub(s_ul.1).unwrap() + 1,
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);
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let d_dims = (
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d_br.0.checked_sub(d_ul.0).unwrap() + 1,
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d_br.1.checked_sub(d_ul.1).unwrap() + 1,
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);
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let N_s = ( // Number of used source wells
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s_dims.0.div_euclid(il_source.0.abs() as u8),
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s_dims.1.div_euclid(il_source.1.abs() as u8),
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);
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let D_per_replicate = ( // How many wells are used per replicate?
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(s_dims.0 * (il_dest.0.abs() as u8))
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// Conditionally subtract one to ignore the trailing interleave well
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.saturating_sub(if il_dest.0.abs() > 1 {1} else {0}),
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(s_dims.1 * (il_dest.1.abs() as u8))
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.saturating_sub(if il_dest.1.abs() > 1 {1} else {0}),
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);
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let count = ( // How many times can we replicate?
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d_dims.0.div_euclid(D_per_replicate.0),
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d_dims.1.div_euclid(D_per_replicate.1),
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);
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Some(
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possible_destination_wells
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.into_iter()
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.filter(|(x, y)| {
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i * il_dest.0.abs() as u8 % dims.0
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== (x.checked_sub(ds1.0).unwrap() + 1) % dims.0
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&& j * il_dest.1.abs() as u8 % dims.1
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== (y.checked_sub(ds1.1).unwrap() + 1) % dims.1
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.filter(|(x, _)| {
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x.checked_sub(d_ul.0).unwrap()
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% (N_s.0 * il_dest.0.abs() as u8) // Counter along x
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== ((il_dest.0.abs() as u8 *(i).checked_sub(1u8).unwrap()))
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% (N_s.0 * il_dest.0.abs() as u8)
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})
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.filter(|(_, y)| {
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y.checked_sub(d_ul.1).unwrap()
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% (N_s.1 * il_dest.1.abs() as u8) // Counter along u
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== ((il_dest.1.abs() as u8 *(j).checked_sub(1u8).unwrap()))
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% (N_s.1 * il_dest.1.abs() as u8)
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})
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.filter(|(x,y)| {
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(x.checked_sub(ds1.0).unwrap()) % il_dest.0.abs() as u8 == 0
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&& (y.checked_sub(ds1.1).unwrap()) % il_dest.1.abs() as u8
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== 0
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// How many times have we replicated? < How many are we allowed
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// to replicate?
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x.checked_sub(d_ul.0).unwrap().div_euclid(N_s.0 * il_dest.0.abs() as u8)
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< count.0 &&
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y.checked_sub(d_ul.1).unwrap().div_euclid(N_s.1 * il_dest.1.abs() as u8)
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< count.1
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})
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.collect(),
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)
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@ -176,8 +214,8 @@ impl TransferRegion {
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// - Are the wells in the source really there?
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// - In a replication region, do the source lengths divide the destination lengths?
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// - Are the interleaves valid?
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let il_source = self.interleave_source.unwrap_or((1, 1));
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let il_dest = self.interleave_dest.unwrap_or((1, 1));
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let il_source = self.interleave_source;
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let il_dest = self.interleave_dest;
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match self.source_region {
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Region::Point(_) => return Ok(()), // Should make sure it's actually in the plate, leave for
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@ -233,11 +271,9 @@ impl TransferRegion {
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}
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}
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if let Some(source_il) = self.interleave_source {
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if source_il.0 == 0 || source_il.1 == 0 {
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if il_source.0 == 0 || il_dest.1 == 0 {
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return Err("Source interleave cannot be zero!");
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}
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}
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// Check if all destination wells exist:
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// NOT IMPLEMENTED
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@ -341,8 +377,8 @@ mod tests {
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source_region: Region::Rect((1, 1), (3, 3)),
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dest_plate: destination,
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dest_region: Region::Point((3,3)),
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interleave_source: None,
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interleave_dest: None,
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interleave_source: (1,1),
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interleave_dest: (1,1),
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};
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let transfer1_map = transfer1.calculate_map();
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assert_eq!(transfer1_map((1,1)), Some(vec!{(3,3)}), "Failed basic shift transfer 1");
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@ -354,8 +390,8 @@ mod tests {
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source_region: Region::Rect((1, 1), (3, 3)),
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dest_plate: destination,
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dest_region: Region::Point((3,3)),
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interleave_source: Some((2,2)),
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interleave_dest: None,
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interleave_source: (2,2),
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interleave_dest: (1,1),
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};
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let transfer2_map = transfer2.calculate_map();
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assert_eq!(transfer2_map((1,1)), Some(vec!{(3,3)}), "Failed source interleave, type simple 1");
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@ -368,8 +404,8 @@ mod tests {
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source_region: Region::Rect((1, 1), (3, 3)),
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dest_plate: destination,
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dest_region: Region::Point((3,3)),
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interleave_source: None,
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interleave_dest: Some((2,3)),
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interleave_source: (1,1),
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interleave_dest: (2,3),
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};
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let transfer3_map = transfer3.calculate_map();
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assert_eq!(transfer3_map((1,1)), Some(vec!{(3,3)}), "Failed destination interleave, type simple 1");
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@ -388,8 +424,8 @@ mod tests {
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source_region: Region::Rect((1, 1), (2, 2)),
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dest_plate: destination,
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dest_region: Region::Rect((2,2),(11,11)),
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interleave_source: None,
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interleave_dest: Some((3,3)),
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interleave_source: (1,1),
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interleave_dest: (3,3),
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};
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let transfer1_map = transfer1.calculate_map();
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assert_eq!(transfer1_map((1,1)), Some(vec!{(2, 2), (2, 8), (8, 2), (8, 8)}), "Failed type replicate 1");
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@ -25,8 +25,8 @@ pub fn plate_test() {
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source_region: transfer_region::Region::Rect((1, 1), (2, 2)),
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dest_plate: destination,
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dest_region: transfer_region::Region::Rect((2,2),(11,11)),
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interleave_source: None,
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interleave_dest: Some((3,3)),
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interleave_source: (1,1),
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interleave_dest: (3,3),
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};
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println!("{}", transfer);
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let sws = transfer.get_source_wells();
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