from . import lightcards, progress
-class Display():
+class Display:
def __init__(self, stack, headers, obj):
self.stack = stack
self.headers = headers
def ntotal(self):
"""Get toal number of starred cards"""
- return([card for card in self.stack if card.getStar()])
+ return [card for card in self.stack if card.getStar()]
def disp_bar(self):
"""
if len(self.stack) <= 1:
percent = "100"
else:
- percent = str(round(self.obj.getIdx() /
- len(self.stack) * 100)).zfill(2)
+ percent = str(
+ round(self.obj.getIdx() / len(self.stack) * 100)
+ ).zfill(2)
# Print yellow if starred
if self.stack[self.obj.getIdx()].getStar():
# Create bar component
bar_start = "["
bar_middle = self.stack[self.obj.getIdx()].printStar()
- bar_end = f"] [{len(self.ntotal())}/{str(len(self.stack))} starred] " + \
- f"[{percent}% (" + \
- str(self.obj.getIdx() + 1).zfill(len(str(len(self.stack)))) + \
- f"/{str(len(self.stack))})] [" + \
- f"{self.headers[self.obj.getSide()]} (" + \
- f"{str(self.obj.getSide() + 1)})] "
+ bar_end = (
+ f"] [{len(self.ntotal())}/{str(len(self.stack))} starred] "
+ + f"[{percent}% ("
+ + str(self.obj.getIdx() + 1).zfill(len(str(len(self.stack))))
+ + f"/{str(len(self.stack))})] ["
+ + f"{self.headers[self.obj.getSide()]} ("
+ + f"{str(self.obj.getSide() + 1)})] "
+ )
# Put it all togethor
self.win.addstr(mlines - 1, 0, bar_start, curses.color_pair(1))
self.win.addstr(mlines - 1, len(bar_start), bar_middle, star_color)
- self.win.addstr(mlines - 1, len(bar_start + bar_middle),
- bar_end, curses.color_pair(1))
+ self.win.addstr(
+ mlines - 1,
+ len(bar_start + bar_middle),
+ bar_end,
+ curses.color_pair(1),
+ )
def menu_print(self, string, err=False):
"""Print messages on the menu screen"""
color = curses.color_pair(1)
for i in range(42):
- self.menu_win.addch(15, i+1, " ")
+ self.menu_win.addch(15, i + 1, " ")
self.menu_win.addstr(15, 1, string, color)
self.panel_up()
self.menu_print("All starred!")
elif key == "t":
self.stack.reverse()
- self.menu_print(
- "Stack reversed!")
+ self.menu_print("Stack reversed!")
elif key == "z":
shuffle(self.stack)
self.menu_print("Stack shuffled!")
elif key == "f":
for x in self.stack:
x[0], x[1] = x[1], x[0]
- (self.headers[0], self.headers[1]) = (self.headers[1],
- self.headers[0])
+ (self.headers[0], self.headers[1]) = (
+ self.headers[1],
+ self.headers[0],
+ )
self.menu_print("Cards flipped!")
elif key == "s":
# Check if there are any starred cards before proceeding, and
if quit:
quit_text = "[q]: quit"
- self.menu_win.addstr(1, 1, "LIGHTCARDS MENU", curses.color_pair(1) +
- curses.A_BOLD)
+ self.menu_win.addstr(
+ 1, 1, "LIGHTCARDS MENU", curses.color_pair(1) + curses.A_BOLD
+ )
self.menu_win.hline(2, 1, curses.ACS_HLINE, 15)
- text = ["[y]: reset stack to original state",
- "[a]: alphabetize stack",
- "[z]: shuffle stack",
- "[f]: flip all cards in stack",
- "[t]: reverse stack order",
- "[u]: unstar all",
- "[d]: star all",
- "[s]: update stack to include starred only"]
+ text = [
+ "[y]: reset stack to original state",
+ "[a]: alphabetize stack",
+ "[z]: shuffle stack",
+ "[f]: flip all cards in stack",
+ "[t]: reverse stack order",
+ "[u]: unstar all",
+ "[d]: star all",
+ "[s]: update stack to include starred only",
+ ]
for t in enumerate(text):
self.menu_win.addstr(t[0] + 3, 1, t[1])
multiple options on how to continue.
"""
(mlines, mcols) = self.win.getmaxyx()
- self.menu_win.mvwin(int(mlines/2) - 9, int(mcols/2) - 22)
+ self.menu_win.mvwin(int(mlines / 2) - 9, int(mcols / 2) - 22)
self.menu_panel.show()
self.panel_up()
self.main_win.clear()
# If on the back of the card, show the content of the front side in
# the header
- num_done = str(self.obj.getIdx() +
- 1).zfill(len(str(len(self.stack))))
+ num_done = str(self.obj.getIdx() + 1).zfill(
+ len(str(len(self.stack)))
+ )
if self.obj.getSide() == 0:
top = num_done + " | " + self.headers[self.obj.getSide()]
else:
- top = num_done + " | " + self.headers[self.obj.getSide()] + \
- " | \"" + str(self.stack[self.obj.getIdx()][0]) + "\""
+ top = (
+ num_done
+ + " | "
+ + self.headers[self.obj.getSide()]
+ + ' | "'
+ + str(self.stack[self.obj.getIdx()][0])
+ + '"'
+ )
header_width = mcols
if mcols > 80:
header_width = 80
- self.main_win.addstr(0, 0, textwrap.shorten(top, width=header_width,
- placeholder="…"), curses.A_BOLD)
+ self.main_win.addstr(
+ 0,
+ 0,
+ textwrap.shorten(top, width=header_width, placeholder="…"),
+ curses.A_BOLD,
+ )
# Add horizontal line
lin_width = header_width
self.main_win.hline(1, 0, curses.ACS_HLINE, lin_width)
# Show current side
- self.main_win.addstr(2, 0, textwrap.fill(
- self.stack[self.obj.getIdx()][self.obj.getSide()],
- width=self.wrap_width()))
+ self.main_win.addstr(
+ 2,
+ 0,
+ textwrap.fill(
+ self.stack[self.obj.getIdx()][self.obj.getSide()],
+ width=self.wrap_width(),
+ ),
+ )
self.panel_up()
self.disp_bar()
self.disp_sidebar()
self.help_panel.top()
self.help_panel.hide()
self.help_win.clear()
- self.help_win.addstr(1, 1, "LIGHTCARDS HELP", curses.color_pair(1) +
- curses.A_BOLD)
+ self.help_win.addstr(
+ 1, 1, "LIGHTCARDS HELP", curses.color_pair(1) + curses.A_BOLD
+ )
self.help_win.hline(2, 1, curses.ACS_HLINE, 15)
- text = ["Welcome to lightcards. Here are some keybindings",
- "to get you started:",
- "",
- "h, left previous card",
- "l, right next card",
- "j, k, up, down flip card",
- "i, / star card",
- "0, ^, home go to the start of the deck",
- "$, end go to the end of the deck",
- "H, ? open this screen",
- "e open the input file in $EDITOR",
- "m open the control menu",
- "",
- "More information can be found in the man page, or",
- "by running `lightcards --help`.",
- "",
- "Press [q], [H], or [?] to go back."]
+ text = [
+ "Welcome to lightcards. Here are some keybindings",
+ "to get you started:",
+ "",
+ "h, left previous card",
+ "l, right next card",
+ "j, k, up, down flip card",
+ "i, / star card",
+ "0, ^, home go to the start of the deck",
+ "$, end go to the end of the deck",
+ "H, ? open this screen",
+ "e open the input file in $EDITOR",
+ "m open the control menu",
+ "",
+ "More information can be found in the man page, or",
+ "by running `lightcards --help`.",
+ "",
+ "Press [q], [H], or [?] to go back.",
+ ]
for t in enumerate(text):
self.help_win.addstr(t[0] + 3, 1, t[1])
def disp_help(self):
(mlines, mcols) = self.win.getmaxyx()
- self.help_win.mvwin(int(mlines/2) - 10, int(mcols/2) - 26)
+ self.help_win.mvwin(int(mlines / 2) - 10, int(mcols / 2) - 26)
self.panel_up()
self.help_panel.show()
while True:
key = self.win.getkey()
if key == "q":
self.leave()
+ elif key in ["h", "KEY_LEFT"]:
+ self.obj.back()
+ self.obj.setSide(0)
+ self.disp_card()
elif key in ["l", "KEY_RIGHT"]:
self.obj.forward(self.stack)
self.obj.setSide(0)
(mlines, mcols) = self.win.getmaxyx()
left = mcols - 19
- self.win.addstr(0, mcols - 16, "STARRED CARDS",
- curses.color_pair(3) + curses.A_BOLD)
+ self.win.addstr(
+ 0,
+ mcols - 16,
+ "STARRED CARDS",
+ curses.color_pair(3) + curses.A_BOLD,
+ )
self.win.vline(0, mcols - 20, 0, mlines - 2)
self.win.hline(1, left, 0, mlines)
# TODO: Fix this, some off by one error
newntotal = self.ntotal()
if mlines - 5 < len(self.ntotal()):
- newntotal = self.ntotal()[:mlines - 4]
+ newntotal = self.ntotal()[: mlines - 4]
elif mlines - 5 == len(self.ntotal()):
- newntotal = self.ntotal()[:mlines - 3]
+ newntotal = self.ntotal()[: mlines - 3]
for card in newntotal:
for i in enumerate(newntotal):
term = i[1][0][:18] + "…"
self.win.addstr(2 + i[0], left, term)
if not newntotal == self.ntotal():
- self.win.addstr(mlines - 3, left, f"({len(self.ntotal()) - len(newntotal)} more)")
+ self.win.addstr(
+ mlines - 3,
+ left,
+ f"({len(self.ntotal()) - len(newntotal)} more)",
+ )
break
if len(self.ntotal()) == 0:
def parse_args():
parser = argparse.ArgumentParser(
- description="Terminal flashcards from Markdown")
- parser.add_argument("inp",
- metavar="input file",
- type=str,
- nargs=1)
- parser.add_argument("-a", "--alphabetize",
- action='store_true',
- help="alphabetize card order")
- parser.add_argument("-f", "--flip",
- action='store_true',
- help="show second column first")
- parser.add_argument("-p", "--purge",
- action='store_true',
- help="don't check cached info before starting")
+ description="Terminal flashcards from Markdown"
+ )
+ parser.add_argument("inp", metavar="input file", type=str, nargs=1)
+ parser.add_argument(
+ "-a",
+ "--alphabetize",
+ action="store_true",
+ help="alphabetize card order",
+ )
+ parser.add_argument(
+ "-f", "--flip", action="store_true", help="show second column first"
+ )
+ parser.add_argument(
+ "-p",
+ "--purge",
+ action="store_true",
+ help="don't check cached info before starting",
+ )
# TODO: don't require input file when using -P
- parser.add_argument("-P", "--purge-all",
- action='store_true',
- help="don't check cached info before starting")
- parser.add_argument("-r", "--reverse",
- action='store_true',
- help="reverse card order")
- parser.add_argument("-s", "--shuffle",
- action='store_true',
- help="shuffle card order")
- parser.add_argument("-v", "--version",
- action='version',
- version="lightcards 0.6.0")
+ parser.add_argument(
+ "-P",
+ "--purge-all",
+ action="store_true",
+ help="don't check cached info before starting",
+ )
+ parser.add_argument(
+ "-r", "--reverse", action="store_true", help="reverse card order"
+ )
+ parser.add_argument(
+ "-s", "--shuffle", action="store_true", help="shuffle card order"
+ )
+ parser.add_argument(
+ "-v", "--version", action="version", version="lightcards 0.6.0"
+ )
return parser.parse_args()
def get_orig():
"""Return original header and stack"""
- return((headers, stack))
+ return (headers, stack)
def main(args=sys.argv):