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@@ -249,129 +249,56 @@ impl Sudoku {
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group_process(self, &g);
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group_process(self, &g);
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}
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}
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- /*
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- for i in 0..MAX_SIZE {
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- let (x, y) = xy(i);
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-
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- if (x % 3 == 0) && (y % 3 == 0) {
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- g.for_block(x, y);
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- group_process(self, &g);
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- }
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-
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- if y == 0 {
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- g.for_column(x, y);
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- group_process(self, &g);
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- }
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-
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- if x == 0 {
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- g.for_row(x, y);
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- group_process(self, &g);
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- }
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- }
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- */
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-
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- /*
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- // Code currently isn't working.
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- // It seems to eat items that I want and need.
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- // Notably 1 from the 0,7.
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-
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- // Look for single possibility in a group
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- let mut g = Group::new();
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- for i in 0..SIZE {
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- let (x, y) = xy(i);
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- let mut values: HashSet<u8> = HashSet::new();
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-
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-
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- g.for_block(x, y);
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-
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- // collect all the possible values within these sets.
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- values.clear();
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- for gidx in 0..SIZE {
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- for v in g.items[gidx as usize] {
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- values.insert(v);
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- }
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- // values.extend(self.possible[g.items[gidx as usize] as usize].clone());
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- }
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-
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- // Ok! Now, check for singles:
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- for v in values.iter() {
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- let mut count = 0;
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- let mut pos = 0;
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- for gidx in 0..SIZE {
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- if self.possible[g.items[gidx as usize] as usize].contains(&v) {
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- count += 1;
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- pos = g.items[gidx as usize];
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- }
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- }
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- if count == 1 {
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- let value = self.possible[pos as usize].iter().next().cloned().unwrap();
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- println!("Set2 {:?} to {}", xy(pos), value);
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- self.set(xy(pos).0, xy(pos).1, value);
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- found_something = true;
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- }
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- }
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-
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- g.for_row(x, y);
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-
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- // collect all the possible values within these sets.
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- values.clear();
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- for gidx in 0..SIZE {
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- for v in g.items[gidx as usize] {
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- values.insert(v);
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- }
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-
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- // values.extend(self.possible[g.items[gidx as usize] as usize].clone());
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- }
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-
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- // Ok! Now, check for singles:
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- for v in values.iter() {
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- let mut count = 0;
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- let mut pos = 0;
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- for gidx in 0..SIZE {
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- if self.possible[g.items[gidx as usize] as usize].contains(&v) {
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- count += 1;
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- pos = g.items[gidx as usize];
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- }
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- }
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- if count == 1 {
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- let value = self.possible[pos as usize].iter().next().cloned().unwrap();
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- println!("Set2 {:?} to {}", xy(pos), value);
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- self.set(xy(pos).0, xy(pos).1, value);
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- found_something = true;
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- }
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- }
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-
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- g.for_column(x, y);
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-
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- // collect all the possible values within these sets.
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- values.clear();
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- for gidx in 0..SIZE {
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- for v in g.items[gidx as usize] {
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- values.insert(v);
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- }
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-
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- // values.extend(self.possible[g.items[gidx as usize] as usize].clone());
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- }
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+ println!("Looking for pairs...");
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+ // PAIR processing.
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+ for i in 0..SIZE {
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+ g.for_iter(i);
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- // Ok! Now, check for singles:
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- for v in values.iter() {
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- let mut count = 0;
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- let mut pos = 0;
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- for gidx in 0..SIZE {
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- if self.possible[g.items[gidx as usize] as usize].contains(&v) {
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- count += 1;
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- pos = g.items[gidx as usize];
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+ for gidx in 0..SIZE - 1 {
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+ let gpos = g.items[gidx as usize];
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+ if self.possible[gpos as usize].len() == 2 {
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+ // Found a pair
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+ for fidx in gidx + 1..SIZE {
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+ let fpos = g.items[fidx as usize];
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+ if self.possible[fpos as usize].len() == 2 {
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+ // Ok, there's another pair
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+ if self.possible[gpos as usize].is_subset(&self.possible[fpos as usize])
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+ {
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+ // Ok, they have the same values!
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+ println!(
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+ "Pair found! {} {}: {} {:?} and {} {:?}",
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+ gidx,
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+ fidx,
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+ gpos,
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+ xy(gpos),
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+ fpos,
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+ xy(fpos)
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+ );
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+ // Ok, remove the items in the pair from the cell.
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+ // Don't touch the gpos/fpos records. Keep those!
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+ let mut values: [u8; 2] = [0,0];
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+ let mut vpos = 0;
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+ for z in self.possible[gpos as usize].iter() {
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+ values[vpos] = *z;
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+ vpos +=1;
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+ }
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+
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+ for remove in 0..SIZE {
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+ if (gidx == remove) || (fidx == remove) {
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+ continue;
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+ }
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+ // Ok, these aren't the ones to save, so:
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+ let rpos = g.items[remove as usize];
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+ self.possible[rpos as usize].take(&values[0]);
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+ self.possible[rpos as usize].take(&values[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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- if count == 1 {
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- let value = self.possible[pos as usize].iter().next().cloned().unwrap();
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- println!("Set2 {:?} to {}", xy(pos), value);
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- self.set(xy(pos).0, xy(pos).1, value);
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- found_something = true;
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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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+ }
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+
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found_something
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found_something
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}
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}
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}
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}
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@@ -432,7 +359,7 @@ impl Group {
|
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|
|
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fn for_iter(&mut self, i: u8) {
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fn for_iter(&mut self, i: u8) {
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let sb_x = (i % 3) * 3;
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let sb_x = (i % 3) * 3;
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- let sb_y = (i % 3) * 3;
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+ let sb_y = (i / 3) * 3;
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self.for_block(sb_x, sb_y);
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self.for_block(sb_x, sb_y);
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}
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}
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