WIP 2.

2023/day12.py

@@ -2,6 +2,8 @@ import itertools
 import sys
 from collections import defaultdict
 from dataclasses import dataclass
+from functools import lru_cache
+from multiprocessing.pool import ThreadPool
 from typing import Iterator
 
 from tqdm import tqdm
@@ -9,6 +11,25 @@ from tqdm import tqdm
 lines = sys.stdin.read().splitlines()
 
 
+def v1(pattern: str, counts: list[int]) -> int:
+    count = 0
+    missing = [i for i in range(len(pattern)) if pattern[i] == "?"]
+
+    for replacements in itertools.product(".#", repeat=len(missing)):
+        c_pattern = list(pattern)
+        for i_missing, replacement in zip(missing, replacements):
+            c_pattern[i_missing] = replacement
+
+        parts = [p for p in "".join(c_pattern).split(".") if p]
+
+        if len(parts) == len(counts) and all(
+            len(p) == c for p, c in zip(parts, counts)
+        ):
+            count += 1
+
+    return count
+
+
 def fn1(pattern: str, counts: list[int]) -> Iterator[tuple[str, list[int]]]:
     if not pattern:
         yield "", counts
@@ -23,7 +44,9 @@ def fn1(pattern: str, counts: list[int]) -> Iterator[tuple[str, list[int]]]:
         c_pattern = ".".join("#" * c for c in counts)
         if all(pattern[i] == "?" for i in range(len(pattern)) if c_pattern[i] == "."):
             yield c_pattern, []
-        return
+            for other_pattern, other_rest in fn1(pattern, counts[:-1]):
+                yield other_pattern, other_rest + [counts[-1]]
+            return
 
     if pattern.find("#") == -1:
         yield "." * len(pattern), counts
@@ -33,6 +56,7 @@ def fn1(pattern: str, counts: list[int]) -> Iterator[tuple[str, list[int]]]:
 
     if pattern.find("?") == -1 and counts[0] == len(pattern):
         yield pattern, counts[1:]
+        return
 
     for i in range(len(pattern)):
         c_pattern = "." * i + "#" * counts[0]
@@ -55,7 +79,8 @@ def fn2(
     patterns: list[str], counts: list[int], depth: int = 0
 ) -> Iterator[tuple[str, ...]]:
     if not patterns:
-        yield ()
+        if not counts:
+            yield ()
         return
 
     with_hash = sum(1 for p in patterns[1:] if p.find("#") >= 0)
@@ -65,42 +90,194 @@ def fn2(
     remaining = [] if with_hash == 0 else counts[-with_hash:]
 
     for fp, fc in fn1(patterns[0], to_fit):
-        if depth == 0:
-            ...  # print(fp, fc)
+        # print(f'{"|" * depth} {patterns[0]} ({to_fit}): {fp}, {fc}')
         for fp2 in fn2(patterns[1:], fc + remaining, depth + 1):
-            # print(fp, fc)
+            # if depth == 0:
+            #     print((fp,) + fp2)
             yield (fp,) + fp2
 
 
-# print(list(fn1("??", [1, 1, 3, 1])))
-# exit()
-
-
-repeat = 5
-count = 0
-for i_line, line in enumerate(lines):
-    parts = line.split(" ")
-    pattern = "?".join(parts[0] for _ in range(repeat))
-    counts = [int(c) for c in parts[1].split(",")] * repeat
+def v2(pattern: str, counts: list[int]) -> int:
+    blocks = list(filter(len, pattern.split(".")))
 
     # print("---")
     # print(i_line, parts[0])
     # print("--")
-    print("---")
-    print(parts[0], counts[: len(counts) // 5])
-    r1 = list(fn2(list(filter(len, pattern.split("."))), counts))
-    r2 = set(r1)
-    print(len(r1), len(r2))  # , r2)
-    count += len(r1)
+    # print("---")
+    # print(parts[0], counts[: len(counts) // repeat])
+    fillers = list(fn2(blocks, counts))
 
-    # if i_line == 1:
-    #     break
+    # for filler in fillers:
+    #     assert len(filler) == len(blocks)
+    #     for f, b in zip(filler, blocks):
+    #         assert all(fi == bi or bi == "?" for fi, bi in zip(f, b))
+    #         # print(b, f)
+
+    #     hashes = list(filter(len, ".".join(filler).split(".")))
+    #     print(hashes, counts)
+
+    # print(len(fillers))
+    return len(fillers)
+
+
+@lru_cache
+def fn3p(pattern: str, counts: tuple[int, ...]) -> int:
+    """
+    fn3p tries to fit ALL values in counts() inside the pattern.
+    """
+
+    # no pattern -> ok if nothing to fit, otherwise ko
+    if not pattern:
+        count = 1 if not counts else 0
+
+    # no count -> ok if pattern has no mandatory entry, else ko
+    elif not counts:
+        count = 1 if pattern.find("#") == -1 else 0
+
+    # cannot fit all values -> ko
+    elif len(pattern) < sum(counts) + len(counts) - 1:
+        count = 0
+
+    else:
+        count = 0
+        # if pattern[0] == "?":
+        #     count += fn3p(pattern[1:], counts)
+
+        # count += fn3p(pattern[counts[0] + 1], counts[1:])
+
+        for i in range(len(pattern)):
+            c_pattern = "." * i + "#" * counts[0]
+
+            if len(c_pattern) > len(pattern):
+                break
+
+            if len(c_pattern) < len(pattern):
+                c_pattern += "."
+
+            # print(">", c_pattern, counts[0])
+
+            if all(
+                pattern[i] == "?" for i in range(len(c_pattern)) if c_pattern[i] == "."
+            ):
+                count += fn3p(pattern[len(c_pattern) :], counts[1:])
+
+    return count
+
+
+def fn3(pattern: str, counts: tuple[int, ...]) -> Iterator[tuple[int, tuple[int, ...]]]:
+    # empty pattern
+    if not pattern:
+        yield 1, counts
+        return
+
+    if not counts:
+        if pattern.find("#") == -1:
+            yield 1, ()
+        return
+
+    if pattern.find("#") != -1 and len(pattern) < counts[0]:
+        return
+
+    if pattern.find("?") == -1 and counts[0] == len(pattern):
+        yield 1, counts[1:]
+        return
+
+    for i in range(len(counts) + 1):
+        to_fit = counts[:i]
+
+        yield fn3p(pattern, to_fit), counts[i:]
+
+
+@lru_cache
+def fn4(patterns: tuple[str], counts: tuple[int, ...], depth: int = 0) -> int:
+    if not patterns:
+        if not counts:
+            return 1
+        return 0
+
+    with_hash = sum(1 for p in patterns[1:] if p.find("#") >= 0)
+
+    if with_hash > len(counts):
+        return 0
+
+    to_fit = counts if with_hash == 0 else counts[:-with_hash]
+    remaining = () if with_hash == 0 else counts[-with_hash:]
+
+    count = 0
+    for fp, fc in fn3(patterns[0], to_fit):
+        if fp == 0:
+            continue
+        # print("|" * depth, patterns[0], to_fit, remaining, fp, fc)
+        count += fp * fn4(patterns[1:], fc + remaining, depth + 1)
+
+    return count
+
+
+def v3(pattern: str, counts: list[int]) -> int:
+    blocks = list(filter(len, pattern.split(".")))
+    return fn4(tuple(blocks), tuple(counts))
+
+
+# print(list(fn1("??#?", [2, 1])))
+# print(list(fn2(["??????", "??"], [2, 1, 1])))
+# exit()
+
+# r = 1
+# print(v2("?".join("??.???#.???" for _ in range(r)), [4, 1] * r))
+# print(v3("?".join("??.???#.???" for _ in range(r)), [4, 1] * r))
+# exit()
+
+# r = 3
+# print(v2("?".join(".??..??...?##." for _ in range(r)), [1, 1, 3] * r))
+# print(v3("?".join(".??..??...?##." for _ in range(r)), [1, 1, 3] * r))
+# exit()
+
+all_blocks = []
+set_blocks = set()
+for line in lines:
+    blocks = list(filter(len, (line.split()[0] * 5).split(".")))
+    all_blocks.extend(blocks)
+    set_blocks.update(blocks)
+
+print(len(set_blocks), len(all_blocks))
+
+
+def compute_possible_arrangements(repeat: int) -> int:
+    # with tqdm(total=len(lines)) as pbar:
+
+    #     def _fn(line: str) -> int:
+    #         parts = line.split(" ")
+    #         pattern = "?".join(parts[0] for _ in range(repeat))
+    #         counts = [int(c) for c in parts[1].split(",")] * repeat
+    #         count = v2(pattern, counts)
+    #         pbar.update(1)
+    #         return count
+
+    #     with ThreadPool() as tp:
+    #         return sum(tp.imap_unordered(_fn, lines))
+
+    count = 0
+
+    for i_line, line in enumerate(tqdm(lines)):
+        parts = line.split(" ")
+        pattern = "?".join(parts[0] for _ in range(repeat))
+        counts = [int(c) for c in parts[1].split(",")] * repeat
+        # c1 = v1(pattern, counts)
+        # c2 = v2(pattern, counts)
+        c3 = v3(pattern, counts)
+
+        # if c2 != c3:
+        #     print(i_line, line, counts, c2, c3)
+
+        count += c3
+
+    return count
 
 
 # part 1
-answer_1 = count
+answer_1 = compute_possible_arrangements(1)
 print(f"answer 1 is {answer_1}")
 
 # part 2
-answer_2 = ...
+answer_2 = compute_possible_arrangements(5)
 print(f"answer 2 is {answer_2}")