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flashcards.py
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flashcards.py
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#!/opt/local/bin/python2.7
'''
Make pdf flashcards for printing on Moo MiniCards.
'''
# 2017-07-25 - Shaun L. Cloherty <s.cloherty@ieee.org>
import os, sys, csv;
from reportlab.pdfgen import canvas;
from reportlab.lib.units import mm;
from reportlab.pdfbase import pdfmetrics;
from reportlab.pdfbase.ttfonts import TTFont;
from reportlab.lib.colors import Color;
from argparse import ArgumentParser;
import argparse;
import logging;
class MooMini(object):
# Moo MiniCard dimensions are as follows:
#
# bleed: 74x32mm
# trim: 72x30mm (i.e., finished size)
# safe: 66x24mm
#
# Min. line thickness is 0.5pt.
def __init__(self,filename):
self.filename = filename;
self.width = 74.0; # mm
self.height = 32.0;
self.margin = 4.0; # mm
self.showBleed = False;
# create the canvas object
self.canvas = canvas.Canvas(filename,pagesize=(self.width*mm,self.height*mm));
self.canvas.translate(self.margin*mm,self.margin*mm);
def drawBleed(self):
# draw bleed boundary
red15 = Color(1.0,0.0,0.0,alpha = 0.15);
self.canvas.saveState();
self.canvas.translate(-1*self.margin*mm,-1*self.margin*mm);
self.canvas.setStrokeColor(red15);
self.canvas.setLineWidth(self.margin*mm);
self.canvas.rect(0.5*self.margin*mm,0.5*self.margin*mm,(self.width-self.margin)*mm,(self.height-self.margin)*mm,stroke=1,fill=0);
self.canvas.restoreState();
def save(self):
self.draw();
self.canvas.save();
class FlashCard(MooMini):
# Class for creating a flashcard suitable for printing on Moo MiniCards
def __init__(self,filename,txt,head = [],foot = []):
super(FlashCard,self).__init__(filename);
self.txt = txt;
self.head = head;
self.foot = foot;
self.gray = Color(0.7,0.7,0.7);
self.fontSize = 24;
def drawHeader(self,head):
self.canvas.saveState();
self.canvas.translate(0+1,(self.height-2*self.margin)*mm);
self.canvas.setFont("Helvetica-Italic",10);
self.canvas.setFillColor(self.gray);
self.canvas.drawString(0,-10,head);
self.canvas.restoreState();
def drawFooter(self,foot):
self.canvas.saveState();
self.canvas.translate((self.width-2*self.margin)*mm-1,0.0);
self.canvas.setFont("Helvetica-Italic",10);
self.canvas.setFillColor(self.gray);
self.canvas.drawRightString(0,0,foot);
self.canvas.restoreState();
def drawText(self,txt):
self.canvas.saveState();
self.canvas.translate((0.5*self.width-self.margin)*mm,(0.5*self.height-self.margin)*mm);
self.canvas.setFont("Helvetica-Bold",self.fontSize);
self.canvas.drawCentredString(0,-8,txt);
self.canvas.restoreState();
def draw(self):
self.drawHeader(self.head);
self.drawText(self.txt);
self.drawFooter(self.foot);
if self.showBleed:
self.drawBleed();
self.canvas.showPage();
class ZigZag(MooMini):
def __init__(self,filename,label = "",colour = Color(0.5,0.5,0.5)):
super(ZigZag,self).__init__(filename);
self.label = label;
self.colour = colour;
self.lineWidth = 1.5; # pt
self.red = Color();
def draw(self):
# draw the zig-zag pattern
x = int(round(0.5*self.width/5)*5+10);
x = range(-1*x,x,5);
y = [2*(k % 2)-1 for k in x];
y0 = int(round(0.5*self.height))+10;
self.canvas.saveState();
self.canvas.setLineWidth(self.lineWidth);
self.canvas.setLineCap(1); # 1 = round cap, 2 = square cap
self.canvas.setStrokeColor(self.colour);
self.canvas.translate((0.5*self.width-self.margin)*mm,(0.5*self.height-self.margin)*mm); # center
self.canvas.saveState();
self.canvas.translate(0.0,-1*y0*mm); # bottom
for jj in range(0,2*y0,1):
self.canvas.translate(0.0,1.5*mm);
for ii in range(len(x)-1):
self.canvas.line(x[ii]*mm,y[ii]*mm,x[ii+1]*mm,y[ii+1]*mm);
self.canvas.restoreState(); # center
# draw the label
self.canvas.setFillColor(Color(1.0,1.0,1.0)); # white
self.canvas.circle(0.0,0.0,10*mm+2,stroke=0,fill=1);
self.canvas.circle(0.0,0.0,10*mm,stroke=1,fill=1);
self.canvas.setFillColor(self.colour);
self.canvas.circle(0.0,0.0,10*mm-2,stroke=0,fill=1);
self.canvas.setFillColor(Color(1.0,1.0,1.0)); # white
self.canvas.setFont("Helvetica-Italic",12);
self.canvas.drawCentredString(0,-4,self.label);
self.canvas.restoreState();
def main(args):
logging.basicConfig(stream = sys.stderr,
format='%(levelname)s:%(message)s',
level = args.loglevel or logging.INFO);
logging.debug("args = %s", args);
logging.debug("path = %s", getattr(args,"path"));
# register TrueType fonts for embedding... as required by moo.com
# pdfmetrics.registerFont(TTFont('Helvetica','Helvetica.ttf'));
pdfmetrics.registerFont(TTFont('Helvetica-Bold','HelveticaBold.ttf'));
pdfmetrics.registerFont(TTFont('Helvetica-Italic','HelveticaOblique.ttf'));
with getattr(args,'csvfile') as fid:
# import pdb; pdb.set_trace();
logging.info("Reading input from %s...", fid.name);
dialect = 'excel';
# note: cannot seek() on stdin, so don't attempt to
# determine the dialect and just use the default
# 'excel' dialect
if fid is not sys.stdin:
logging.info('Sniffing csv dialect...');
dialect = csv.Sniffer().sniff(fid.read(2*1024));
# dialect.skipinitialspace = True;
# csv.register_dialect(ns,dialect)
fid.seek(0); # reset file pointer?
reader = csv.DictReader(fid,dialect=dialect);
cnt = 0; mx = ""; imx = 0;
for row in reader:
logging.debug("%i:row = %s", cnt, row);
rank = row["Rank:"]; # rank
word = row["Word:"]; # word
if len(rank) == 0:
rank = 0;
fname = "{0}_{1}.pdf".format(rank,word);
fname = os.path.join(getattr(args,'path'),fname);
myCard = FlashCard(fname,word,"",rank);
# myCard.showBleed = True;
myCard.save();
cnt = cnt + 1;
logging.info("Ok. Wrote %i cards.", cnt);
return(0);
if __name__ == "__main__":
prog = os.path.basename(sys.argv[0]);
rev = 0.1; # increment this if modifying the script
version = "%s v%s" % (prog, rev);
p = ArgumentParser(usage = "%(prog)s [options] PATH",
description = __doc__,
conflict_handler = "resolve");
# add arguments here
p.add_argument("--version", action = "version", version = version);
# control debugging output/verbosity
group = p.add_mutually_exclusive_group();
group.add_argument("-v","--verbose",
action = "store_const", const = logging.DEBUG,
dest = "loglevel",
help = "increase verbosity");
group.add_argument("-q","--quiet",
action = "store_const", const = logging.WARN,
dest = "loglevel",
help = "suppress non-error messages");
# optional arguments
p.add_argument("path", action = "store",
help = argparse.SUPPRESS);
# required arguments
p.add_argument("-i","--input",
action = 'store', type = argparse.FileType('r', 0),
default = sys.stdin,
metavar = "FILE",
dest = "csvfile",
help = "read text from FILE in csv format");
# p.add_argument("-o","--output",
# action = 'store',
# default = ".",
# metavar = "PATH",
# dest = "path",
# help = "save output in PATH");
args = p.parse_args();
exit(main(args));