introduce bitloops

src/test/java/puzzle/SwedishGeneratorTest.java

@@ -3,6 +3,7 @@ package puzzle;
 import lombok.val;
 import org.junit.jupiter.api.Assertions;
 import org.junit.jupiter.api.Test;
+import puzzle.Export.Gridded;
 import puzzle.Export.IntListDTO;
 import java.nio.charset.StandardCharsets;
 import java.util.Arrays;
@@ -81,9 +82,8 @@ public class SwedishGeneratorTest {
       grid.setLetterLo(0, LETTER_A);
       grid.setLetterLo(1, LETTER_B);
       grid.setLetterLo(2, LETTER_C);
-      var slot    = Slot.from(18 << Slot.BIT_FOR_DIR | (CLUE_RIGHT), 7L, 0L);
-      var pattern = patternForSlot(grid, slot.key(), slot.lo(), slot.hi());
-      
+      var key     = 18 << Slot.BIT_FOR_DIR | (CLUE_RIGHT);
+      var pattern = patternForSlot(grid, key, 7L, 0L);
       assertEquals(1L | (28L << 8) | (55L << 16), pattern);
    }
    
@@ -92,18 +92,16 @@ public class SwedishGeneratorTest {
       var grid = createEmpty();
       grid.setLetterLo(OFF_0_0, LETTER_A);
       grid.setLetterLo(2, LETTER_C);
-      var slot    = Slot.from(1 << Slot.BIT_FOR_DIR | (CLUE_RIGHT), 7L, 0L);
-      var pattern = patternForSlot(grid, slot.key(), slot.lo(), slot.hi());
-      
-      assertEquals(1L | (0L << 8) | (55L << 16), pattern);
+      var key     = 1 << Slot.BIT_FOR_DIR | (CLUE_RIGHT);
+      var pattern = patternForSlot(grid, key, 7L, 0L);
+      assertEquals(1L | (0L) | (55L << 16), pattern);
    }
    
    @Test
    void testPatternForSlotAllDashes() {
       var grid    = createEmpty();
-      var slot    = Slot.from(1 << Slot.BIT_FOR_DIR | (CLUE_RIGHT), 7L, 0L);
-      var pattern = patternForSlot(grid, slot.key(), slot.lo(), slot.hi());
-      
+      var key     = 1 << Slot.BIT_FOR_DIR | (CLUE_RIGHT);
+      var pattern = patternForSlot(grid, key, 7L, 0L);
       assertEquals(0L, pattern);
    }
    
@@ -111,9 +109,8 @@ public class SwedishGeneratorTest {
    void testPatternForSlotSingleLetter() {
       var grid = createEmpty();
       grid.setLetterLo(OFF_0_0, LETTER_A);
-      var slot    = Slot.from(1 << Slot.BIT_FOR_DIR | (CLUE_RIGHT), 7L, 0L);
-      var pattern = patternForSlot(grid, slot.key(), slot.lo(), slot.hi());
-      
+      var key     = 1 << Slot.BIT_FOR_DIR | (CLUE_RIGHT);
+      var pattern = patternForSlot(grid, key, 7L, 0L);
       assertEquals(1L, pattern);
    }
    @Test
@@ -191,12 +188,11 @@ public class SwedishGeneratorTest {
       // pos 2: (4, 5)
       lo |= 1L << OFF_4_5;
       
-      var s = Slot.from(key, lo, 0L);
-      System.out.println("[DEBUG_LOG] s.dir() = " + Slot.dir(s.key()));
-      assertEquals(OFF_2_3, s.clueIndex());
-      assertEquals(CLUE_DOWN, Slot.dir(s.key()));
-      assertFalse(s.horiz());
-      var cells = s.walk().toArray();
+      System.out.println("[DEBUG_LOG] s.dir() = " + Slot.dir(key));
+      assertEquals(OFF_2_3, Slot.clueIndex(key));
+      assertEquals(CLUE_DOWN, Slot.dir(key));
+      assertFalse(Slot.horiz(key));
+      var cells = Gridded.walk((byte) key, lo, 0L).toArray();
       assertEquals(2, SwedishGenerator.IT[cells[0]].r());
       assertEquals(3, SwedishGenerator.IT[cells[1]].r());
       assertEquals(4, SwedishGenerator.IT[cells[2]].r());
@@ -290,7 +286,7 @@ public class SwedishGeneratorTest {
       var s = slots[0];
       
       assertTrue(s.length() >= 2);
-      assertEquals(OFF_0_0, s.clueIndex());
+      assertEquals(OFF_0_0, Slot.clueIndex(s.key()));
       assertEquals(CLUE_RIGHT, Slot.dir(s.key()));
    }
    
@@ -332,21 +328,21 @@ public class SwedishGeneratorTest {
       // Slot at OFF_0_0 length 3, horizontal (right)
       var key = (OFF_0_0 << Slot.BIT_FOR_DIR) | (CLUE_RIGHT);
       var lo  = (1L << OFF_0_0) | (1L << OFF_0_1) | (1L << OFF_0_2);
-      var s   = Slot.from(key, lo, 0L);
+      val hi  = 0L;
       var w1  = ABC;
       
       // 1. Successful placement in empty grid
-      assertTrue(placeWord(grid, s.key(), s.lo(), s.hi(), w1));
+      assertTrue(placeWord(grid, key, lo, hi, w1));
       assertEquals(LETTER_A, grid.letter32At(OFF_0_0));
       assertEquals(LETTER_B, grid.letter32At(OFF_0_1));
       assertEquals(LETTER_C, grid.letter32At(OFF_0_2));
       
       // 2. Successful placement with partial overlap (same characters)
-      assertTrue(placeWord(grid, s.key(), s.lo(), s.hi(), w1));
+      assertTrue(placeWord(grid, key, lo, hi, w1));
       
       // 3. Conflict: place "ABD" where "ABC" is
       var w2 = ABD;
-      assertFalse(placeWord(grid, s.key(), s.lo(), s.hi(), w2));
+      assertFalse(placeWord(grid, key, lo, hi, w2));
       // Verify grid is unchanged (still "ABC")
       assertEquals(LETTER_A, grid.letter32At(OFF_0_0));
       assertEquals(LETTER_B, grid.letter32At(OFF_0_1));
@@ -355,7 +351,7 @@ public class SwedishGeneratorTest {
       // 4. Partial placement then conflict (rollback)
       grid = createEmpty();
       grid.setLetterLo(OFF_0_2, LETTER_X); // Conflict at the end
-      assertFalse(placeWord(grid, s.key(), s.lo(), s.hi(), w1));
+      assertFalse(placeWord(grid, key, lo, hi, w1));
       // Verify grid is still empty (except for 'X')
       assertFalse(grid.lisLetterAtLo(OFF_0_0));
       assertFalse(grid.lisLetterAtLo(OFF_0_1));
@@ -368,11 +364,10 @@ public class SwedishGeneratorTest {
       // Slot at 0,1 length 2
       var key    = (OFF_0_0 << Slot.BIT_FOR_DIR) | (CLUE_RIGHT);
       var lo     = (1L << OFF_0_1) | (1L << OFF_0_2);
-      var s      = Slot.from(key, lo, 0L);
       var w      = AZ;
       val low    = grid.lo;
       val top    = grid.hi;
-      var placed = placeWord(grid, s.key(), s.lo(), s.hi(), w);
+      var placed = placeWord(grid, key, lo, 0L, w);
       assertTrue(placed);
       assertEquals(LETTER_A, grid.letter32At(OFF_0_1));
       assertEquals(LETTER_Z, grid.letter32At(OFF_0_2));
@@ -392,25 +387,21 @@ public class SwedishGeneratorTest {
       assertTrue(Slot.increasing(CLUE_DOWN));  // Down
       assertFalse(Slot.increasing(CLUE_UP)); // Up
       
-      var sInc = Slot.from((0) | CLUE_RIGHT, 1L, 0L);
-      assertTrue(Slot.increasing(sInc.key()));
-      var sDec = Slot.from((0) | CLUE_LEFT, 1L, 0L);
-      assertFalse(Slot.increasing(sDec.key()));
+      assertTrue(Slot.increasing((0) | CLUE_RIGHT));
+      assertFalse(Slot.increasing((0) | CLUE_LEFT));
       
       // 2. Test slotScore
       val counts = new byte[SIZE];
       counts[1] = 2;
       counts[2] = 3;
+      var dict   = new Dict(WORDS);
+      var entry5 = dict.index()[5];
       var sScore = Slot.from(0, (1L << 1) | (1L << 2), 0L);
       // cross = (counts[1]-1) + (counts[2]-1) = 1 + 2 = 3
       // score = 3 * 10 + len(2) = 32
       assertEquals(32, slotScore(counts, sScore));
-      
       // 3. Test candidateCountForPattern
       
-      var dict   = new Dict(WORDS);
-      var entry5 = dict.index()[5];
-      
       var ctx     = Context.get();
       var pattern = packPattern("APP");
       assertEquals(2, candidateCountForPattern(ctx.bitset(), pattern, entry5.posBitsets(), entry5.numlong()));