X-Git-Url: https://harishankar.org/repos/?p=getaclue.git;a=blobdiff_plain;f=crosswordpuzzle.py;h=57878b808c6a90ba6f71b0467efae690d7e8a63e;hp=fb9ada55dad410a3e0182d3f076be0db8d6b8cc4;hb=5f68ccac12372c5271c21e9045558d2d03e92a41;hpb=cd153df772f936f9aaed0f75d83f15c05a6ee9b6
diff --git a/crosswordpuzzle.py b/crosswordpuzzle.py
index fb9ada5..57878b8 100644
--- a/crosswordpuzzle.py
+++ b/crosswordpuzzle.py
@@ -4,13 +4,19 @@
# Class for the puzzle data representation
+# for export to PNG image
+import cairo
+
class GridItem:
# initialize the item
- def __init__ (self, item_char='.', across_start = False, down_start = False,
- occupied_across = False, occupied_down = False, num = 0,
- clue_across = None, clue_down = None, revealed = False):
+ def __init__ (self, item_char='.', item_guess = None, across_start = False,
+ down_start = False, occupied_across = False,
+ occupied_down = False, num = 0, clue_across = None,
+ clue_down = None, revealed = False):
# character in the cell
self.char = item_char
+ # guess of character in cell
+ self.guess = item_guess
# is the cell the start of an across word?
self.across_start = across_start
# is the cell the start of a down word?
@@ -28,6 +34,59 @@ class GridItem:
# is the letter revealed or hidden?
self.revealed = revealed
+ # clear the across data
+ def clear_across_data (self):
+ self.across_start = False
+ self.occupied_across = False
+ self.clue_across = None
+ # if no down word starting at item
+ if self.down_start is False:
+ self.numbered = 0
+ # if no down word at the item
+ if self.occupied_down is False:
+ self.char = '.'
+ self.revealed = False
+ self.guess = None
+
+ # clear the down data
+ def clear_down_data (self):
+ self.down_start = False
+ self.occupied_down = False
+ self.clue_down = None
+ # if no across word starting at item
+ if self.across_start is False:
+ self.numbered = 0
+ # if no across word at the item
+ if self.occupied_across is False:
+ self.char = '.'
+ self.revealed = False
+ self.guess = None
+
+ # reset a grid item completely - use only to destroy whole grid, otherwise
+ # use either clear_across_data () or clear_down_data () for erasing single
+ # words
+ def reset (self):
+ # character in the cell
+ self.char = '.'
+ # guess of character in cell
+ self.guess = None
+ # is the cell the start of an across word?
+ self.across_start = False
+ # is the cell the start of a down word?
+ self.down_start = False
+ # is the cell occupied by a letter in an across word?
+ self.occupied_across = False
+ # is the cell occupied by a letter in a down word?
+ self.occupied_down = False
+ # numbering of the cell if it is the start of a word
+ self.numbered = 0
+ # clue across if the cell is the start of an across word
+ self.clue_across = None
+ # clue down if the cell is the start of a down word
+ self.clue_down = None
+ # is the letter revealed or hidden?
+ self.revealed = False
+
# exception for too long words
class TooLongWordException (Exception):
def __init__ (self, word, length):
@@ -45,18 +104,17 @@ class FrozenGridException (Exception):
def __init__ (self):
self.msg = "Grid is frozen and cannot be edited"
-class CrosswordPuzzle:
- # ansi color codes for grid display
- BRICKRED = '\033[44;1;31m'
- # bold
- BOLD = '\033[33m'
- # blue
- BLUE = '\033[34m'
- # grey
- GREY = '\033[30m'
- # disable colors
- ENDCOL = '\033[0m'
+# exception when no word is found at a position
+class NoWordException (Exception):
+ def __init__ (self, row, col):
+ self.pos = (row, col)
+# exception when no words are present in the grid
+class NoWordsException (Exception):
+ def __init__ (self):
+ self.msg = "No words in grid"
+
+class CrosswordPuzzle:
def __init__ (self, rows, cols):
# define number of rows and columns
self.rows = rows
@@ -74,6 +132,244 @@ class CrosswordPuzzle:
for j in range (cols):
self.data[i].append (GridItem ())
+ # export to an image
+ def export_image (self, pngfile, htmlfile=None, puztitle="Crossword Puzzle",
+ solution=True):
+ # don't export if grid is not frozen
+ if self.frozen_grid is False:
+ raise FrozenGridException
+
+ # create cairo image surface and context
+ px = 30
+ surf = cairo.ImageSurface (cairo.FORMAT_RGB24, self.cols*px, self.rows*px)
+ ctx = cairo.Context (surf)
+
+ ctx.set_source_rgb (1, 1, 1)
+ ctx.rectangle (0, 0, self.cols*px, self.rows*px)
+ ctx.fill ()
+
+ # get the clues across and down
+ clues_across = self.get_clues_across ()
+ clues_down = self.get_clues_down ()
+
+
+ # traverse through the grid
+ for row in range (self.rows):
+ for col in range (self.cols):
+ # if grid is un-occupied
+ if (self.data[row][col].occupied_across is False and
+ self.data[row][col].occupied_down is False):
+ ctx.set_source_rgb (0, 0, 0)
+ ctx.rectangle (col*px, row*px, px, px)
+ ctx.fill ()
+ # grid is occupied
+ else:
+ ctx.set_source_rgb (1, 1, 1)
+ ctx.rectangle (col*px, row*px, px, px)
+ ctx.fill ()
+ ctx.set_source_rgb (0, 0, 0)
+ ctx.rectangle (col*px, row*px, px, px)
+ ctx.stroke ()
+ # if solution is not to be provided, number the grid
+ if solution is False:
+ if self.data[row][col].numbered <> 0:
+ ctx.select_font_face ("Serif")
+ ctx.set_font_size (10)
+ ctx.move_to (col*px+5, row*px+10)
+ ctx.show_text (str(self.data[row][col].numbered))
+ # display the words
+ else:
+ ctx.select_font_face ("Serif")
+ ctx.set_font_size (16)
+ ctx.move_to (col*px+10, row*px+20)
+ ctx.show_text (self.data[row][col].char)
+
+ surf.write_to_png (open (pngfile, "wb"))
+
+ # if solution is false, publish the clues and the image in a HTML file
+ if htmlfile and solution is False:
+ html_contents = ["", "", ""]
+ html_contents.append (puztitle)
+ html_contents.append ("")
+ html_contents.append ("")
+ html_contents.append ("")
+ html_contents.append ("" + puztitle + "
")
+ html_contents.append ('
')
+
+ html_contents.append ("Across clues
")
+ html_contents.append ("")
+ for word, clue in clues_across:
+ clue_str = str (self.data[word[1]][word[2]].numbered) + " - " \
+ + clue
+ html_contents.append (clue_str)
+ html_contents.append ("
")
+ html_contents.append ("
")
+
+ html_contents.append ("Down clues
")
+ html_contents.append ("")
+ for word, clue in clues_down:
+ clue_str = str (self.data[word[1]][word[2]].numbered) + " - " \
+ + clue
+ html_contents.append (clue_str)
+ html_contents.append ("
")
+ html_contents.append ("
")
+ html_contents.append ("")
+ html_contents.append ("")
+
+ html_str = "\r\n".join (html_contents)
+
+ fhtml = open (htmlfile, "wb")
+ fhtml.write (html_str)
+ fhtml.close ()
+
+ # get the AcrossLite(TM) data for exporting
+ def export_acrosslite (self, title, author, copyright):
+ # don't export if grid is not frozen
+ if self.frozen_grid is False:
+ raise FrozenGridException
+
+ across_data = []
+ across_data.append ("\r\n")
+ across_data.append ("\r\n")
+ across_data.append (title + "\r\n")
+ across_data.append ("<AUTHOR>\r\n")
+ across_data.append (author + "\r\n")
+ across_data.append ("<COPYRIGHT>\r\n")
+ across_data.append (copyright + "\r\n")
+ across_data.append ("<SIZE>\r\n")
+ str_size = str (self.cols) + "x" + str (self.rows)
+ across_data.append (str_size + "\r\n")
+ across_data.append ("<GRID>\r\n")
+ for row in range (self.rows):
+ for col in range (self.cols):
+ if (self.data[row][col].occupied_across is True or
+ self.data[row][col].occupied_down is True):
+ across_data.append (self.data[row][col].char)
+ else:
+ across_data.append (".")
+ across_data.append ("\r\n")
+
+ across_data.append ("<ACROSS>\r\n")
+ clues_across = self.get_clues_across ()
+ for word, clue in clues_across:
+ if clue:
+ across_data.append (clue + "\r\n")
+ else:
+ across_data.append ("(No clue yet)\r\n")
+
+ across_data.append ("<DOWN>\r\n")
+ clues_down = self.get_clues_down ()
+ for word, clue in clues_down:
+ if clue:
+ across_data.append (clue + "\r\n")
+ else:
+ across_data.append ("(No clue yet\r\n")
+
+ acrosslite_str = "".join (across_data)
+ return acrosslite_str
+
+ # get all the clues for across
+ def get_clues_across (self):
+ clues = []
+ # traverse the grid
+ for row in range (self.rows):
+ for col in range (self.cols):
+ if (self.data[row][col].occupied_across is True and
+ self.data[row][col].across_start is True):
+ word_across = self.get_word_across (row, col)
+ clues.append ((word_across, self.data[row][col].clue_across))
+ # if no across words are found at all
+ if not clues:
+ raise NoWordsException
+
+ return clues
+
+ # get all the clues for down
+ def get_clues_down (self):
+ clues = []
+ # traverse the grid
+ for row in range (self.rows):
+ for col in range (self.cols):
+ if (self.data[row][col].occupied_down is True and
+ self.data[row][col].down_start is True):
+ word_down = self.get_word_down (row, col)
+ clues.append ((word_down, self.data[row][col].clue_down))
+ # if no down words are found at all
+ if not clues:
+ raise NoWordsException
+
+ return clues
+
+ # getting a down word at a position
+ def get_word_down (self, row, col):
+ # if index is out of bounds
+ if row >= self.rows or col >= self.cols:
+ raise NoWordException (row, col)
+
+ # if there is no occupied down letter at that position
+ if self.data[row][col].occupied_down is False:
+ raise NoWordException (row, col)
+
+ # now traverse the grid to find the beginning of the word
+ i = row
+ while i >= 0:
+ # if it is occupied down and is the beginning of the word
+ if (self.data[i][col].occupied_down is True and
+ self.data[i][col].down_start is True):
+ start_row = i
+ break
+ i -= 1
+
+ i = start_row
+ word_chars = []
+ # now seek the end of the word
+ while i < self.rows:
+ if self.data[i][col].occupied_down is True:
+ word_chars.append (self.data[i][col].char)
+ else:
+ break
+ i += 1
+
+ word = "".join (word_chars)
+
+ # return the word, starting row, column and length as a tuple
+ return (word, start_row, col, len(word))
+
+ # getting an across word at a position
+ def get_word_across (self, row, col):
+ # if index is out of bounds
+ if row >= self.rows or col >= self.cols:
+ raise NoWordException (row, col)
+
+ # if there is no occupied across letter at that position
+ if self.data[row][col].occupied_across is False:
+ raise NoWordException (row, col)
+
+ # now traverse the grid to look for the beginning of the word
+ i = col
+ while i >= 0:
+ # if it is occupied across and is the beginning of the word
+ if (self.data[row][i].occupied_across is True and
+ self.data[row][i].across_start is True):
+ start_col = i
+ break
+ i -= 1
+
+ i = start_col
+ word_chars = []
+ # now seek the end of the word
+ while i < self.cols:
+ if self.data[row][i].occupied_across is True:
+ word_chars.append (self.data[row][i].char)
+ else:
+ break
+ i += 1
+
+ word = "".join (word_chars)
+
+ # return the word, starting column, row and length as a tuple
+ return (word, row, start_col, len(word))
+
# setting a down word
def set_word_down (self, row, col, word):
# if the grid is frozen the abort
@@ -89,14 +385,23 @@ class CrosswordPuzzle:
# on the same column
if self.data[row+i][col].occupied_down is True:
raise IntersectWordException (word, len(word))
- # on the previous column
- if col > 0 and self.data[row+i][col-1].occupied_down is True:
- raise IntersectWordException (word, len(word))
- # on the next column
- if (col < (len(word) - 1) and
- (self.data[row+i][col+1].occupied_down is True or
- self.data[row+i][col+1].across_start is True)):
- raise IntersectWordException (word, len(word))
+ # on the previous column except first column
+ if col > 0:
+ # except the first and last col
+ if i > 0 and i < len(word) - 1:
+ if self.data[row+i][col-1].occupied_down is True:
+ raise IntersectWordException (word, len(word))
+ # on the next column except last column
+ if col < len(word) - 1:
+ # except the first and last row check if there is any
+ # down word in previous column
+ if i > 0 and i < len(word) - 1:
+ if self.data[row+i][col+1].occupied_down is True:
+ raise IntersectWordException (word, len(word))
+ # check if there is any across word starting in the
+ # next column
+ if self.data[row+i][col+1].across_start is True:
+ raise IntersectWordException (word, len(word))
# also check the character before and after
if (row > 0 and self.data[row-1][col].occupied_down is True
@@ -127,17 +432,26 @@ class CrosswordPuzzle:
# is the word intersecting any other word?
for i in range (len(word)):
- # on the same line
+ # on the same row
if self.data[row][col+i].occupied_across is True:
raise IntersectWordException (word, len(word))
- # on a previous line except the last column
- if row > 0 and self.data[row-1][col+i].occupied_across is True:
- raise IntersectWordException (word, len(word))
- # on a next line except the last column
- if (row < (self.rows - 1) and
- (self.data[row+1][col+i].down_start is True
- or self.data[row+1][col+i].occupied_across is True)):
- raise IntersectWordException (word, len(word))
+ # on a previous row except first row
+ if row > 0:
+ # if not the first or last col
+ if i > 0 and i < len(word) - 1:
+ if self.data[row-1][col+i].occupied_across is True:
+ raise IntersectWordException (word, len(word))
+ # on a next row
+ if (row < (self.rows - 1)):
+ # except the first and last letter check if there is
+ # any across intersection
+ if i > 0 and i < len (word) - 1:
+ if self.data[row+1][col+i].occupied_across is True:
+ raise IntersectWordException (word, len(word))
+ # if a down word is starting at any column below the
+ # word
+ if self.data[row+1][col+i].down_start is True:
+ raise IntersectWordException (word, len(word))
# also check the character beyond and before and after
if (col > 0 and (self.data[row][col-1].occupied_across is True or
@@ -184,3 +498,14 @@ class CrosswordPuzzle:
self.data[row][col].occupied_down is False):
self.data[row][col].char = '.'
+ self.frozen_grid = False
+
+ # reset the entire grid
+ def reset_grid (self):
+ # run through the grid
+ for row in range (self.rows):
+ for col in range (self.cols):
+ # re-initialize all data
+ self.data[row][col].reset ()
+
+ self.frozen_grid = False