def test_3_col_fill_col_2_wrap(self):
cp = ColumnPrinter(cols=[
Column(width=20),
Column(fill=True, max=90, wrap=True),
Column(width=10)
])
s = self.gen_string(100)
cp.printf('test', s, '1234')
def test_margin(self):
cp = ColumnPrinter(cols=[
Column(width=20, lmargin=3),
Column(width=20, rmargin=3, wrap=True),
Column(width=1, rmargin=0)
])
s = self.gen_string(50)
cp.printf('margin3l', s, '$')
def test_cb(self):
cp = ColumnPrinter(cols=[Column(width=20), Column(width=20)])
cb = cp.printf('test', '?', col_updt=True)
for i in range(0, 100):
cb.col_updt_cb(1, str(i))
sleep(0.1)
if i == 70:
cp.printf('interrupt')
cb.col_updt_cp()
cp.printf('done')
def test_ratio_2_col(self):
cp = ColumnPrinter(
cols=[Column(ratio=0.4, fill=True),
Column(ratio=0.6, fill=True)])
s = self.gen_string(100)
cp.printf(s, s)
print('-')
cp = ColumnPrinter(cols=[
Column(ratio=0.4, fill=True),
Column(ratio=0.6, fill=True, wrap=True)
])
cp.printf(s, s + s)
print('-')
cp = ColumnPrinter(cols=[
Column(ratio=0.4, fill=True),
Column(ratio=0.6, fill=True, wrap=True, max=70)
])
cp.printf(s, s + s)
print('-')
cp = ColumnPrinter(
cols=[Column(ratio=0.4, fill=True),
Column(fill=True, wrap=True)])
cp.printf(s, s + s)
def test_align(self):
cp = ColumnPrinter(cols=[
Column(width=20, align='l'),
Column(width=20, align='r'),
Column(width=20, align='c'),
Column(width=20)
])
cp.printf('left', 'right', 'center', 'left')
print('-')
cp = ColumnPrinter(cols=[
Column(width=10, lmargin=1),
Column(width=10, rmargin=0),
Column(width=10, align='r'),
Column(width=10, rmargin=0),
Column(width=10, align='c'),
Column(width=10, rmargin=0)
])
cp.printf('left', '0' * 10, 'right', '0' * 10, 'center12', '0' * 10)
def printf(self,
msg=None,
data=None,
progress=False,
col_updt=False,
verbosity=1):
if verbosity > self._verbosity or sys.stdout is None or not sys.stdout.isatty(
) or self._cp is None:
if progress or col_updt:
return self.empty_callbacks()
else:
return
msg = msg or ''
data = data or ''
try:
if not terminal_utf8():
msg = filter_unicode_chars(msg)
data = filter_unicode_chars(data)
if not progress and not col_updt:
self._cp.printf(msg, data)
elif progress:
try:
progress_cp = ColumnPrinter(cols=[
Column(width=12),
ProgressColumn(pwidth=12),
Column(width=30)
],
row_width=55)
self._cp.printf(msg, progress_cp)
except ColumnPrinterError as e:
pass
return self.empty_callbacks()
cb = progress_cp.printf('?', '?', '', col_updt=True)
pcb = cb.progress_cb
pcp = cb.progress_cp
cb.progress_cb = lambda p: pcb(1, p)
def pcp2():
pcp(1)
progress_cp.done()
cb.progress_cp = pcp2
return cb
else:
return self._cp.printf(msg, data, col_updt=True)
except (UnicodeDecodeError, UnicodeEncodeError) as e:
log.error(e)
def test_with_column_printer(self):
cp = ColumnPrinter(cols=[15, 15, 10])
cb = cp.printf('getting image', progress_col=2, col_cb=True)
hr = HttpRequest()
clc = lambda l: cb.col_cb(1, format_size(l))
pcb = lambda p: cb.progress_cb('%.2f %%' % p)
ro = RequestOptions(progress_cb=pcb,
progress_cp=cb.progress_cp,
content_length_cb=clc)
hr.get('http://i.imgur.com/eFglueb.jpg', ro)
def list(self):
'''List the commands registered for autocomplete.
Key:
[user]: installed for current user
[all]: installed for everyone
[user, all]: installed for current user as well as everyone'''
try:
dstore = DataStore()
autocomp_list = dstore.list_autocomp_commands()
printer = ColumnPrinter(cols=[Column(width=20), Column(width=10), Column(width=10)])
for i in autocomp_list:
c = len(i.access)
printer.printf(i.command, i.access[0], i.version[0] or 'n/a')
if c > 1:
printer.printf('', i.access[1], i.version[1] or 'n/a')
except DataStoreError as e:
print(e)
raise CommandError()
def test_progress_in_inner_cp(self):
cp = ColumnPrinter(cols=[Column(width=20), Column(width=50)])
incp = ColumnPrinter(
cols=[Column(width=20),
ProgressColumn(pwidth=10)], row_width=50)
cp.printf('start')
cp.printf('progress', incp)
cb = incp.printf('downloading', '?')
for i in range(0, 101):
cb.progress_cb(1, i)
sleep(0.05)
cb.progress_cp(1)
incp.done()
cp.printf('done')
def printf(self, album): printer = ColumnPrinter(cols=[Column(width=15), Column(fill=True)]) for field, title in self.fields: printer.printf(title, ignore_u(str_if_not(getattr(album, field, ''))))
def test_default(self):
cp = ColumnPrinter()
cp.printf('test123')
cp.printf('really long string ' * 10)
class Printer:
def __init__(self, verbosity=3):
self._cp = None
try:
self._cp = ColumnPrinter(cols=[
Column(width=30),
SepColumn(),
Column(min=30, fill=True, wrap=True)
])
except ColumnPrinterError as e:
pass
self._verbosity = Config().eget('output.verbosity', default=1)
def printf(self,
msg=None,
data=None,
progress=False,
col_updt=False,
verbosity=1):
if verbosity > self._verbosity or sys.stdout is None or not sys.stdout.isatty(
) or self._cp is None:
if progress or col_updt:
return self.empty_callbacks()
else:
return
msg = msg or ''
data = data or ''
try:
if not terminal_utf8():
msg = filter_unicode_chars(msg)
data = filter_unicode_chars(data)
if not progress and not col_updt:
self._cp.printf(msg, data)
elif progress:
try:
progress_cp = ColumnPrinter(cols=[
Column(width=12),
ProgressColumn(pwidth=12),
Column(width=30)
],
row_width=55)
self._cp.printf(msg, progress_cp)
except ColumnPrinterError as e:
pass
return self.empty_callbacks()
cb = progress_cp.printf('?', '?', '', col_updt=True)
pcb = cb.progress_cb
pcp = cb.progress_cp
cb.progress_cb = lambda p: pcb(1, p)
def pcp2():
pcp(1)
progress_cp.done()
cb.progress_cp = pcp2
return cb
else:
return self._cp.printf(msg, data, col_updt=True)
except (UnicodeDecodeError, UnicodeEncodeError) as e:
log.error(e)
def empty_callbacks(self):
cb = Callbacks()
cb.col_updt_cb = lambda x, y: None
cb.col_updt_cp = lambda: None
cb.progress_cb = lambda x: None
cb.progress_cp = lambda: None
return cb
def test_cp_in_cp(self):
cp = ColumnPrinter(cols=[Column(width=20), Column(width=40)])
incp = ColumnPrinter(cols=[Column(width=20),
Column(width=20)],
row_width=40)
cp.printf('test', incp)
incp.printf('first', '1')
incp.printf('second', '2')
incp.printf('third', '3')
cp.printf('done')
incp.done()
incp.printf('extra') # should not print
def test_2_col_fixed_width(self):
cp = ColumnPrinter(cols=[Column(width=20), Column(width=40)])
cp.printf('test', '123')
cp.printf('test2', 'really long string ' * 10)
def test_2_cp_in_cp(self):
cp = ColumnPrinter(
cols=[Column(width=20),
Column(width=40),
Column(width=40)])
incp = ColumnPrinter(cols=[Column(width=20),
Column(width=20)],
row_width=40)
incp2 = ColumnPrinter(cols=[Column(width=20),
Column(fill=True)],
row_width=40)
cp.printf('test', incp, incp2)
incp.printf('first-1', '1')
incp2.printf('first-2', '1')
incp.printf('second-1', '2')
incp2.printf('second-2', '2')
incp.printf('third-1', '3')
incp.printf('fourth-1', '4')
incp2.printf('third-2', '3')
incp2.done()
incp.printf('more-1', 'm')
incp.printf('more-1', 'm')
incp.printf('more-1', 'm')
incp.done()
cp.printf('done')
def test_2_col_auto_fill(self):
cp = ColumnPrinter(cols=[Column(fill=True), Column(fill=True)])
s = self.gen_string(100)
cp.printf(s, s)
def test_sep_column(self):
cp = ColumnPrinter(cols=[
Column(width=10, wrap=True),
SepColumn(),
Column(width=10, wrap=True)
])
cp.printf('one', '1')
cp.printf('two')
cp.printf('three', '3')
cp.printf('wrap text', 'test ' * 4)
cp.printf('wrap this column', 'text')
cp.printf('wrap both columns', 'text ' * 3) # need to fix
cp.printf()
cp.printf('done', '', 'extra')
def test_2_col_wrap_both(self):
cp = ColumnPrinter(
cols=[Column(width=20, wrap=True),
Column(width=40, wrap=True)])
cp.printf('test', '123')
cp.printf('test2 ' * 5, 'really long string ' * 10)
def stats(self):
'Print wallpaper statistics.'
st = Statistics()
cp = ColumnPrinter(
cols=[Column(
width=30), SepColumn(),
Column(fill=True)])
cp.printf('wallpaper count', str(st.wallpaper_count))
cp.printf('usage time', str(st.usage_time))
cp.printf('avg life of a wallpaper', st.avg_wallpaper_life)
cp.printf('avg image size', format_size(st.avg_downloaded_image_size))
cp.printf()
incp = ColumnPrinter(
cols=[Column(width=30),
SepColumn(),
Column(width=6, align='r')],
row_width=38)
cp.printf('top domains', incp)
for domain, count in st.top_domains:
incp.printf(domain, str(count))
incp.done()