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# PuyoTikZ package for LaTeX.
# Created by amosborne (GitHub) / terramyst (Twitter).
# MIT License
import numpy as np
import itertools
import string
import re
# Wraps a function which returns a string. Prints the result with a ";".
def print_tikz(func):
def wrapper(*args, **kwargs):
print(func(*args, **kwargs) + ";")
return wrapper
PUYO_RADIUS, PUYO_JOIN = 0.45, 0.25
COLORS = {
"r": "red",
"y": "yellow",
"g": "green",
"b": "blue",
"p": "purple",
"n": "gray",
}
for key, value in COLORS.items():
COLORS[key] = value + "puyo"
def puyoboard(cols, rows, hrows, boardpuyos, nextpuyos, label):
if not cols > 0:
raise UserWarning("{0} columns must be atleast 1.".format(cols))
if not rows > 0:
raise UserWarning("{0} rows must be atleast 1.".format(rows))
if hrows < 0:
raise UserWarning("{0} hidden rows must be atleast 0.".format(hrows))
draw_board(cols, rows, hrows, boardpuyos)
draw_nextpuyos(cols, rows, nextpuyos)
if label:
draw_labels(cols, rows, hrows, nextpuyos)
def puyomarker(config):
pattern = "^([a-z]+)(\d+)([rygbpn])([A-Z])$"
@print_tikz
def singlemark(subconfig):
match = re.search(pattern, subconfig)
if match is None:
raise UserWarning("Bad puyo marker format string.")
else:
colid, rowid, puyo, lid = match.groups()
rowidx = int(rowid) - 1
colidx = next(
idx for idx, x in enumerate(excel_cols(upper=False)) if x == colid
)
pos = colidx + 0.5, rowidx + 0.5
tikz = "\\draw[{0},thick]".format("dark" + COLORS[puyo])
tikz += " ({0},{1}) circle ({2});".format(*pos, PUYO_RADIUS)
tikz += " \\node[anchor=center, font=\sffamily]"
tikz += " at ({0},{1}) {{\\small {2}}}".format(*pos, lid)
return tikz
subconfigs = config.split("/")
if subconfigs == [""]:
return
else:
for subconfig in subconfigs:
singlemark(subconfig)
def draw_board(cols, rows, hrows, boardpuyos):
# draw the board grid
draw_grid(params=["gray", "ultra thin"], size=(cols, rows))
draw_grid(
params=["gray", "ultra thin", "line cap=round"],
origin=(0, rows),
size=(cols, hrows),
)
draw_grid(
params=["black", "line cap=round"], stepsize=(cols, rows), size=(cols, rows)
)
# draw the puyos on the board
draw_puyos(puyos=boardpuyos.split("/"), size=(cols, rows), nhidden=hrows)
def draw_nextpuyos(cols, rows, nextpuyos):
nextpuyos = nextpuyos.split("/")
if nextpuyos == [""]:
return
for idx, puyos in enumerate(nextpuyos):
if not len(puyos) == 2:
raise UserWarning("Next puyos must be of length 2.")
draw_puyos(
puyos=[puyos], origin=(cols + 0.75, rows - 1.5 - 3 * idx), size=(1, 2)
)
def draw_labels(cols, rows, hrows, nextpuyos):
@print_tikz
def draw_label(pos, text, size="\\normalsize", style="\\rmfamily"):
return "\\node[anchor=mid, font={4}] at ({0},{1}) {{{3} {2}}}".format(
*pos, text, size, style
)
for idx in range(0, rows + hrows):
draw_label((-0.5, 0.5 + idx), idx + 1)
for idx, label in zip(range(0, cols), excel_cols(upper=False)):
draw_label((0.5 + idx, -0.5), label)
nextpuyoscount = len(nextpuyos.split("/"))
if nextpuyos.split("/") == [""]:
return
for idx, label in zip(range(0, nextpuyoscount), excel_cols(upper=True)):
draw_label((cols + 0.75, rows - 1.5 - 3 * idx), label, "\\small", "\\sffamily")
@print_tikz
def draw_grid(params=[], origin=(0, 0), stepsize=(1, 1), size=(6, 12)):
extent = tuple([x + y for x, y in zip(origin, size)])
tikz = "\\draw"
tikz += "[" + ",".join(params) + "]"
tikz += " ({0},{1})".format(*origin)
tikz += " grid [xstep={0},ystep={1}]".format(*stepsize)
tikz += " ({0},{1})".format(*extent)
return tikz
def draw_puyos(puyos=[], origin=(0, 0), size=(6, 12), nhidden=0):
# construct a 2D matrix of strings (representing puyos)
board = np.full((size[0], size[1] + nhidden), "")
for ridx, col in enumerate(puyos):
for cidx, puyo in enumerate(list(col)):
if puyo not in COLORS.keys():
raise UserWarning(
"{0} is not a valid puyo identifier (rygbpn).".format(puyo)
)
try:
board[ridx, cidx] = puyo
except IndexError:
raise UserWarning("Puyo layout string has too many rows or columns.")
# helper function for converting true position
def true_pos(pos):
return tuple([x + y + 0.5 for x, y in zip(pos, origin)])
# draw all the puyo circles
for pos, puyo in np.ndenumerate(board):
if puyo:
draw_puyo(true_pos(pos), puyo)
# connect to adjacent puyos (except nuisance and hidden row)
for pos, puyo in np.ndenumerate(board):
for direc in {(1, 0), (-1, 0), (0, 1), (0, -1)}:
if not 0 <= pos[0] + direc[0] < board.shape[0]:
continue
elif not 0 <= pos[1] + direc[1] < board.shape[1] - nhidden:
continue
elif not 0 <= pos[1] < board.shape[1] - nhidden:
continue
other = board[pos[0] + direc[0], pos[1] + direc[1]]
if puyo and other == puyo and puyo != "n":
connect_puyo(true_pos(pos), direc, puyo)
# draw all the puyo faces
for pos, puyo in np.ndenumerate(board):
if puyo:
draw_face(true_pos(pos), puyo)
# outline the puyos with a darker color
for pos, puyo in np.ndenumerate(board):
for direc in {(1, 0), (-1, 0), (0, 1), (0, -1)}:
if not 0 <= pos[0] + direc[0] < board.shape[0]:
if puyo:
outline_puyo(true_pos(pos), direc, puyo, join=False)
continue
elif not 0 <= pos[1] + direc[1] < board.shape[1] - nhidden:
if puyo:
outline_puyo(true_pos(pos), direc, puyo, join=False)
continue
elif not 0 <= pos[1] < board.shape[1] - nhidden:
if puyo:
outline_puyo(true_pos(pos), direc, puyo, join=False)
continue
other = board[pos[0] + direc[0], pos[1] + direc[1]]
if puyo and other == puyo and puyo != "n":
outline_puyo(true_pos(pos), direc, puyo, join=True)
elif puyo:
outline_puyo(true_pos(pos), direc, puyo, join=False)
@print_tikz
def draw_face(pos=(0, 0), puyo="r"):
def tikz_shift(shift=(0, 0)):
total_shift = pos[0] + shift[0], pos[1] + shift[1]
return "[xshift={0}cm,yshift={1}cm]".format(*total_shift)
tikz = "\\draw[white,semithick]"
if puyo == "p":
tikz += " ({0}150:{1}) -- ({0}-30:{1});".format(tikz_shift(), PUYO_RADIUS)
elif puyo == "r":
tikz += " ({0}150:{1}) -- ({0}0,0) -- ({0}30:{1});".format(
tikz_shift(), PUYO_RADIUS
)
elif puyo == "g":
tikz += " ({0}-90:{1}) arc (-90:0:{1})".format(
tikz_shift((-PUYO_RADIUS, PUYO_RADIUS)), PUYO_RADIUS
)
tikz += " ({0}-90:{1}) arc (-90:-180:{1});".format(
tikz_shift((PUYO_RADIUS, PUYO_RADIUS)), PUYO_RADIUS
)
elif puyo == "b":
tikz += " ({0}180:{1}) -- ({0}90:{2}) -- ({0}0:{1});".format(
tikz_shift(), PUYO_RADIUS, PUYO_RADIUS * np.sin(np.deg2rad(30))
)
elif puyo == "y":
tikz += " ({0}150:{1}) -- ({0}30:{1});".format(tikz_shift(), PUYO_RADIUS)
elif puyo == "n":
tikz += " ({0}210:{1}) -- ({0}-30:{1});".format(tikz_shift(), PUYO_RADIUS)
else:
tikz = ""
return tikz
@print_tikz
def draw_puyo(pos=(0, 0), puyo="r"):
tikz = "\\draw[{0},fill={0}]".format(COLORS[puyo])
tikz += " ({0},{1}) circle ({2})".format(*pos, PUYO_RADIUS)
return tikz
@print_tikz
def connect_puyo(pos=(0, 0), direc=(1, 0), puyo="r"):
phi, join1, join2 = connect_puyo_params(pos, direc)
tikz = "\\draw[{0},fill={0}]".format(COLORS[puyo])
tikz += " ([xshift={0}cm,yshift={1}cm]".format(*pos)
tikz += "{0}:{2}) arc ({0}:{1}:{2})".format(phi - 45, phi + 45, PUYO_RADIUS)
tikz += " to[out={0},in={1}] ({2},{3})".format(phi - 45, phi - 180, *join1)
tikz += " -- ({0},{1})".format(*join2)
tikz += " to[out={0},in={1}] cycle".format(phi - 180, phi + 45)
return tikz
@print_tikz
def outline_puyo(pos=(0, 0), direc=(1, 0), puyo="r", join=False):
phi, join1, join2 = connect_puyo_params(pos, direc)
tikz = "\\draw[{0}]".format("dark" + COLORS[puyo])
if join:
tikz += " ([xshift={0}cm,yshift={1}cm]".format(*pos)
tikz += "{0}:{1})".format(phi + 45, PUYO_RADIUS)
tikz += " to[out={0},in={1}] ({2},{3})".format(phi - 45, phi - 180, *join1)
tikz += " ({0},{1})".format(*join2)
tikz += " to[out={0},in={1}]".format(phi - 180, phi + 45)
tikz += " ([xshift={0}cm,yshift={1}cm]".format(*pos)
tikz += "{0}:{1})".format(phi - 45, PUYO_RADIUS)
else:
tikz += " ([xshift={0}cm,yshift={1}cm]".format(*pos)
tikz += "{0}:{2}) arc ({0}:{1}:{2})".format(phi - 45, phi + 45, PUYO_RADIUS)
return tikz
def connect_puyo_params(pos, direc):
"""Determine the path angle and midpoint locations."""
phi = np.rad2deg(np.arctan2(direc[1], direc[0])) % 360
x, y1, y2 = 0.5, PUYO_JOIN, -PUYO_JOIN
c, s = np.cos(np.deg2rad(phi)), np.sin(np.deg2rad(-phi))
j = np.matrix([[c, s], [-s, c]])
def rotate_point(y):
m = np.dot(j, [x, y])
return float(m.T[0]) + pos[0], float(m.T[1]) + pos[1]
return phi, rotate_point(y1), rotate_point(y2)
def excel_cols(upper=True):
n = 1
letters = string.ascii_uppercase if upper else string.ascii_lowercase
while True:
yield from ("".join(group) for group in itertools.product(letters, repeat=n))
n += 1
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