def test_add_subregion(self):
vs = VideoSequence(1,4)
self.assertEqual(len(vs.subregions), 0)
vs.add_subregion(Subregion(0,0.1))
self.assertEqual(len(vs.subregions), 1)
vs.add_subregion(Subregion(0.1,0.2))
self.assertEqual(len(vs.subregions), 2)
vs.add_subregion(Subregion(0.2,0.3))
self.assertEqual(len(vs.subregions), 3)
vs.add_subregion(Subregion(0.9,1))
self.assertEqual(len(vs.subregions), 4)
def test_relative_pos(self):
vs = VideoSequence(1,1)
self.assertEqual(vs.relative_pos(0), 0.0)
self.assertEqual(vs.relative_pos(0.4), 0.4)
self.assertEqual(vs.relative_pos(0.5), 0.5)
self.assertEqual(vs.relative_pos(0.6), 0.6)
self.assertEqual(vs.relative_pos(1), 1.0)
vs = VideoSequence(5,5)
self.assertEqual(vs.relative_pos(0), 0.0)
self.assertEqual(vs.relative_pos(2.4), 0.48)
self.assertEqual(vs.relative_pos(2.5), 0.5)
self.assertEqual(vs.relative_pos(2.6), 0.52)
self.assertEqual(vs.relative_pos(5), 1.0)
def test_nearest_fr_min_max(self):
vs = VideoSequence(1, 1)
self.assertEqual(vs.nearest_fr(0), 1 - 1)
self.assertEqual(vs.nearest_fr(1.1), 1 - 1)
vs = VideoSequence(1, 3)
self.assertEqual(vs.nearest_fr(0), 1 - 1)
self.assertEqual(vs.nearest_fr(1.1), 3 - 1)
def sequence_from_input_str(s, src_duration, src_frs):
seq = VideoSequence(src_duration, src_frs)
if not s:
seq.subregions[0].skip = False
return seq
src_duration = str(datetime.timedelta(seconds=src_duration / 1000.0))
partition = list(src_duration.partition('.'))
partition[-1] = partition[-1][:3] # keep secs.xxx...
src_duration = ''.join(partition)
s = re.sub(sr_ful_pattern,
'a=0,b={}'.format(src_duration), re.sub(sr_end_pattern,
src_duration, s))
subs = re.split(':a', s)
new_subs = []
if len(subs) > 1:
for sub in subs:
if not sub.startswith('a'):
new_subs.append('a'+sub)
else:
new_subs.append(sub)
subs = new_subs
for sub in subs:
match = re.match(sr_pattern, sub)
if match:
substr = str(sub)
try:
sub = Subregion(
time_str_to_milliseconds(match.groupdict()['tm_a']),
time_str_to_milliseconds(match.groupdict()['tm_b']))
except AttributeError as e:
raise AttributeError("Bad subregion: {} ({})".format(substr, e))
target = match.groupdict()['target']
val = match.groupdict()['val']
if target == 'fps':
val = rate_from_input_str(val, -1)
elif target == 'dur':
val = float(val)*1000.0
elif target == 'spd':
val = float(val)
setattr(sub, 'target_'+target, val)
try:
seq.add_subregion(sub)
except ValueError as e:
raise ValueError("Bad subregion: {} ({})".format(substr, e))
else:
raise ValueError('Unknown subregion syntax: {}'.format(sub))
return seq
def sequence_from_str(duration, frames, string):
# return a vid sequence from -s <subregion>:<subregion>...
seq = VideoSequence(duration, frames)
if string is None:
return seq
# check for bad separators
# if there is a char before `a` that is not `:` like `,`
def find_char(str, ch):
idxs = []
for i, ltr in enumerate(str):
if ltr == ch:
idxs.append(i)
return idxs
idxs_of_a = find_char(string, 'a')
for i in idxs_of_a:
if i == 0:
continue
else:
ch_before_a = string[i - 1]
if ch_before_a != ':':
msg = 'invalid separator `{}` at idx={}'.format(ch_before_a, i)
raise ValueError(msg)
# look for `:a` which is the start of a new subregion
newsubstrs = []
substrs = string.split(':a')
if len(substrs) > 1:
# replace `a` character that was stripped when split
for substr in substrs:
if not substr.startswith('a'):
newsubstrs.append('a' + substr)
else:
newsubstrs.append(substr)
substrs = newsubstrs
for substr in substrs:
sub = None
# has the full key
if 'full' in substr:
sub = sub_from_str_full_key(substr, duration)
# has the end key
elif 'end' in substr:
sub = sub_from_str_end_key(substr, duration)
else:
sub = sub_from_str(substr)
seq.add_subregion(sub)
return seq
def sequence_from_str(duration, frames, string):
# return a vid sequence from -s <subregion>:<subregion>...
seq = VideoSequence(duration, frames)
if string is None:
return seq
# check for bad separators
# if there is a char before `a` that is not `:` like `,`
def find_char(str, ch):
idxs = []
for i, ltr in enumerate(str):
if ltr == ch:
idxs.append(i)
return idxs
idxs_of_a = find_char(string, 'a')
for i in idxs_of_a:
if i == 0:
continue
else:
ch_before_a = string[i - 1]
if ch_before_a != ':':
msg = 'invalid separator `{}` at idx={}'.format(ch_before_a, i)
raise ValueError(msg)
# look for `:a` which is the start of a new subregion
newsubstrs = []
substrs = string.split(':a')
if len(substrs) > 1:
# replace `a` character that was stripped when split
for substr in substrs:
if not substr.startswith('a'):
newsubstrs.append('a' + substr)
else:
newsubstrs.append(substr)
substrs = newsubstrs
for substr in substrs:
sub = None
# has the full key
if 'full' in substr:
sub = sub_from_str_full_key(substr, duration)
# has the end key
elif 'end' in substr:
sub = sub_from_str_end_key(substr, duration)
else:
sub = sub_from_str(substr)
seq.add_subregion(sub)
return seq
def test_nearest_fr_min_max(self):
vs = VideoSequence(1,1)
self.assertEqual(vs.nearest_fr(0), 1-1)
self.assertEqual(vs.nearest_fr(1.1), 1-1)
vs = VideoSequence(1,3)
self.assertEqual(vs.nearest_fr(0), 1-1)
self.assertEqual(vs.nearest_fr(1.1), 3-1)
def test_validate(self):
vs = VideoSequence(1,10)
s1 = Subregion(0, 0.1)
vs.add_subregion(s1)
self.assertTrue(vs.validate(Subregion(0.2, 0.3)))
self.assertTrue(vs.validate(Subregion(0.4, 0.8)))
self.assertTrue(vs.validate(Subregion(0.9, 1.0)))
def sequence_from_input_str(s, src_dur, src_nfrs):
seq = VideoSequence(src_dur, src_nfrs)
if not s:
return seq
src_dur = str(datetime.timedelta(seconds=src_dur / 1000.0))
partition = list(src_dur.partition('.'))
partition[-1] = partition[-1][:3] # keep secs.xxx...
src_dur = ''.join(partition)
s = re.sub(sr_ful_pattern, 'a=0,b={}'.format(src_dur),
re.sub(sr_end_pattern, src_dur, s))
subs = re.split(':a', s)
new_subs = []
if len(subs) > 1:
for sub in subs:
if not sub.startswith('a'):
new_subs.append('a' + sub)
else:
new_subs.append(sub)
subs = new_subs
for sub in subs:
match = re.match(sr_pattern, sub)
if match:
sub = Subregion(
time_str_to_milliseconds(match.groupdict()['tm_a']),
time_str_to_milliseconds(match.groupdict()['tm_b']))
target = match.groupdict()['target']
val = match.groupdict()['val']
if target == 'fps':
val = rate_from_input_str(val, -1)
elif target == 'dur':
val = float(val) * 1000.0
elif target == 'spd':
val = float(val)
setattr(sub, 'target_' + target, val)
seq.add_subregion(sub)
else:
raise RuntimeError
return seq
def test_add_subregion_ordering(self):
vs = VideoSequence(1,10)
s1 = Subregion(0, 0.1)
s2 = Subregion(0.3, 0.4)
s3 = Subregion(0.4, 0.5)
s4 = Subregion(0.5, 0.6)
s5 = Subregion(0.9, 1)
vs.add_subregion(s5)
vs.add_subregion(s1)
vs.add_subregion(s4)
vs.add_subregion(s2)
vs.add_subregion(s3)
self.assertEqual(vs.subregions[0], s1)
self.assertEqual(vs.subregions[1], s2)
self.assertEqual(vs.subregions[2], s3)
self.assertEqual(vs.subregions[3], s4)
self.assertEqual(vs.subregions[4], s5)
def test_validate_fails_out_of_bounds(self):
vs = VideoSequence(1,1)
s = Subregion(0,1.1)
with self.assertRaises(RuntimeError):
vs.add_subregion(s)
s = Subregion(0,2)
s.fa = 1
s.fb = 2
with self.assertRaises(RuntimeError):
vs.add_subregion(s)
def test_add_subregion(self):
cnt_skip_subs = lambda x: \
len([s for s in x.subregions if s.skip])
cnt_usr_subs = lambda x: \
len(x.subregions) - cnt_skip_subs(x)
vs = VideoSequence(1,1)
self.assertEqual(cnt_usr_subs(vs), 0)
self.assertEqual(cnt_skip_subs(vs), 1)
vs.add_subregion(Subregion(0,0.1))
self.assertEqual(cnt_usr_subs(vs), 1)
self.assertEqual(cnt_skip_subs(vs), 1)
vs = VideoSequence(1,1)
vs.add_subregion(Subregion(0.9,1))
self.assertEqual(cnt_usr_subs(vs), 1)
self.assertEqual(cnt_skip_subs(vs), 1)
vs = VideoSequence(1,1)
vs.add_subregion(Subregion(0,1))
self.assertEqual(cnt_usr_subs(vs), 1)
self.assertEqual(cnt_skip_subs(vs), 0)
vs = VideoSequence(1,2)
vs.add_subregion(Subregion(0,0.5))
vs.add_subregion(Subregion(0.5,0.6))
self.assertEqual(cnt_usr_subs(vs), 2)
self.assertEqual(cnt_skip_subs(vs), 1)
vs = VideoSequence(1,2)
vs.add_subregion(Subregion(0.5,0.6))
vs.add_subregion(Subregion(0,0.1))
self.assertEqual(cnt_usr_subs(vs), 2)
self.assertEqual(cnt_skip_subs(vs), 2)
vs = VideoSequence(1,3)
vs.add_subregion(Subregion(0,0.1))
self.assertEqual(cnt_usr_subs(vs), 1)
self.assertEqual(cnt_skip_subs(vs), 1)
vs.add_subregion(Subregion(0.9,1))
self.assertEqual(cnt_usr_subs(vs), 2)
self.assertEqual(cnt_skip_subs(vs), 1)
vs.add_subregion(Subregion(0.66,0.66))
self.assertEqual(cnt_usr_subs(vs), 3)
self.assertEqual(cnt_skip_subs(vs), 2)
vs = VideoSequence(1,3)
vs.add_subregion(Subregion(0.66,0.66))
self.assertEqual(cnt_usr_subs(vs), 1)
self.assertEqual(cnt_skip_subs(vs), 2)
vs.add_subregion(Subregion(0,0.1))
self.assertEqual(cnt_usr_subs(vs), 2)
self.assertEqual(cnt_skip_subs(vs), 2)
vs.add_subregion(Subregion(0.9,1))
self.assertEqual(cnt_usr_subs(vs), 3)
self.assertEqual(cnt_skip_subs(vs), 2)
vs = VideoSequence(1,4)
vs.add_subregion(Subregion(0.25,0.5))
vs.add_subregion(Subregion(0.5,0.75))
self.assertEqual(cnt_usr_subs(vs), 2)
self.assertEqual(cnt_skip_subs(vs), 2)
vs.add_subregion(Subregion(0,0.25))
self.assertEqual(cnt_usr_subs(vs), 3)
self.assertEqual(cnt_skip_subs(vs), 1)
vs.add_subregion(Subregion(0.75,1))
self.assertEqual(cnt_usr_subs(vs), 4)
self.assertEqual(cnt_skip_subs(vs), 0)
vs = VideoSequence(1,5)
vs.add_subregion(Subregion(0.2,0.4))
vs.add_subregion(Subregion(0.6,0.8))
self.assertEqual(cnt_usr_subs(vs), 2)
self.assertEqual(cnt_skip_subs(vs), 3)
vs.add_subregion(Subregion(0.4,0.6))
self.assertEqual(cnt_usr_subs(vs), 3)
self.assertEqual(cnt_skip_subs(vs), 2)
vs.add_subregion(Subregion(0.8,1))
self.assertEqual(cnt_usr_subs(vs), 4)
self.assertEqual(cnt_skip_subs(vs), 1)
vs.add_subregion(Subregion(0,0.2))
self.assertEqual(cnt_usr_subs(vs), 5)
self.assertEqual(cnt_skip_subs(vs), 0)
def test_nearest_fr(self):
vs = VideoSequence(1,1)
self.assertEqual(vs.nearest_fr(0), 1-1)
self.assertEqual(vs.nearest_fr(0.5), 1-1)
self.assertEqual(vs.nearest_fr(1), 1-1)
vs = VideoSequence(1,2)
self.assertEqual(vs.nearest_fr(0), 1-1)
self.assertEqual(vs.nearest_fr(0.49), 1-1)
self.assertEqual(vs.nearest_fr(0.5), 2-1)
self.assertEqual(vs.nearest_fr(0.51), 2-1)
self.assertEqual(vs.nearest_fr(1), 2-1)
vs = VideoSequence(1,4)
self.assertEqual(vs.nearest_fr(0), 1-1)
self.assertEqual(vs.nearest_fr(0.24), 1-1)
self.assertEqual(vs.nearest_fr(0.25), 2-1)
self.assertEqual(vs.nearest_fr(0.26), 2-1)
self.assertEqual(vs.nearest_fr(0.49), 2-1)
self.assertEqual(vs.nearest_fr(0.5), 3-1)
self.assertEqual(vs.nearest_fr(0.51), 3-1)
self.assertEqual(vs.nearest_fr(0.74), 3-1)
self.assertEqual(vs.nearest_fr(0.75), 4-1)
self.assertEqual(vs.nearest_fr(0.76), 4-1)
self.assertEqual(vs.nearest_fr(0.9), 4-1)
self.assertEqual(vs.nearest_fr(1), 4-1)
def test_add_subregion(self):
cnt_skip_subs = lambda x: \
len([s for s in x.subregions if s.skip])
cnt_usr_subs = lambda x: \
len(x.subregions) - cnt_skip_subs(x)
vs = VideoSequence(1, 1)
self.assertEqual(cnt_usr_subs(vs), 0)
self.assertEqual(cnt_skip_subs(vs), 1)
vs.add_subregion(Subregion(0, 0.1))
self.assertEqual(cnt_usr_subs(vs), 1)
self.assertEqual(cnt_skip_subs(vs), 1)
vs = VideoSequence(1, 1)
vs.add_subregion(Subregion(0.9, 1))
self.assertEqual(cnt_usr_subs(vs), 1)
self.assertEqual(cnt_skip_subs(vs), 1)
vs = VideoSequence(1, 1)
vs.add_subregion(Subregion(0, 1))
self.assertEqual(cnt_usr_subs(vs), 1)
self.assertEqual(cnt_skip_subs(vs), 0)
vs = VideoSequence(1, 2)
vs.add_subregion(Subregion(0, 0.5))
vs.add_subregion(Subregion(0.5, 0.6))
self.assertEqual(cnt_usr_subs(vs), 2)
self.assertEqual(cnt_skip_subs(vs), 1)
vs = VideoSequence(1, 2)
vs.add_subregion(Subregion(0.5, 0.6))
vs.add_subregion(Subregion(0, 0.1))
self.assertEqual(cnt_usr_subs(vs), 2)
self.assertEqual(cnt_skip_subs(vs), 2)
vs = VideoSequence(1, 3)
vs.add_subregion(Subregion(0, 0.1))
self.assertEqual(cnt_usr_subs(vs), 1)
self.assertEqual(cnt_skip_subs(vs), 1)
vs.add_subregion(Subregion(0.9, 1))
self.assertEqual(cnt_usr_subs(vs), 2)
self.assertEqual(cnt_skip_subs(vs), 1)
vs.add_subregion(Subregion(0.66, 0.66))
self.assertEqual(cnt_usr_subs(vs), 3)
self.assertEqual(cnt_skip_subs(vs), 2)
vs = VideoSequence(1, 3)
vs.add_subregion(Subregion(0.66, 0.66))
self.assertEqual(cnt_usr_subs(vs), 1)
self.assertEqual(cnt_skip_subs(vs), 2)
vs.add_subregion(Subregion(0, 0.1))
self.assertEqual(cnt_usr_subs(vs), 2)
self.assertEqual(cnt_skip_subs(vs), 2)
vs.add_subregion(Subregion(0.9, 1))
self.assertEqual(cnt_usr_subs(vs), 3)
self.assertEqual(cnt_skip_subs(vs), 2)
vs = VideoSequence(1, 4)
vs.add_subregion(Subregion(0.25, 0.5))
vs.add_subregion(Subregion(0.5, 0.75))
self.assertEqual(cnt_usr_subs(vs), 2)
self.assertEqual(cnt_skip_subs(vs), 2)
vs.add_subregion(Subregion(0, 0.25))
self.assertEqual(cnt_usr_subs(vs), 3)
self.assertEqual(cnt_skip_subs(vs), 1)
vs.add_subregion(Subregion(0.75, 1))
self.assertEqual(cnt_usr_subs(vs), 4)
self.assertEqual(cnt_skip_subs(vs), 0)
vs = VideoSequence(1, 5)
vs.add_subregion(Subregion(0.2, 0.4))
vs.add_subregion(Subregion(0.6, 0.8))
self.assertEqual(cnt_usr_subs(vs), 2)
self.assertEqual(cnt_skip_subs(vs), 3)
vs.add_subregion(Subregion(0.4, 0.6))
self.assertEqual(cnt_usr_subs(vs), 3)
self.assertEqual(cnt_skip_subs(vs), 2)
vs.add_subregion(Subregion(0.8, 1))
self.assertEqual(cnt_usr_subs(vs), 4)
self.assertEqual(cnt_skip_subs(vs), 1)
vs.add_subregion(Subregion(0, 0.2))
self.assertEqual(cnt_usr_subs(vs), 5)
self.assertEqual(cnt_skip_subs(vs), 0)
def test_nearest_fr(self):
vs = VideoSequence(1, 1)
self.assertEqual(vs.nearest_fr(0), 1 - 1)
self.assertEqual(vs.nearest_fr(0.5), 1 - 1)
self.assertEqual(vs.nearest_fr(1), 1 - 1)
vs = VideoSequence(1, 2)
self.assertEqual(vs.nearest_fr(0), 1 - 1)
self.assertEqual(vs.nearest_fr(0.49), 1 - 1)
self.assertEqual(vs.nearest_fr(0.5), 2 - 1)
self.assertEqual(vs.nearest_fr(0.51), 2 - 1)
self.assertEqual(vs.nearest_fr(1), 2 - 1)
vs = VideoSequence(1, 4)
self.assertEqual(vs.nearest_fr(0), 1 - 1)
self.assertEqual(vs.nearest_fr(0.24), 1 - 1)
self.assertEqual(vs.nearest_fr(0.25), 2 - 1)
self.assertEqual(vs.nearest_fr(0.26), 2 - 1)
self.assertEqual(vs.nearest_fr(0.49), 2 - 1)
self.assertEqual(vs.nearest_fr(0.5), 3 - 1)
self.assertEqual(vs.nearest_fr(0.51), 3 - 1)
self.assertEqual(vs.nearest_fr(0.74), 3 - 1)
self.assertEqual(vs.nearest_fr(0.75), 4 - 1)
self.assertEqual(vs.nearest_fr(0.76), 4 - 1)
self.assertEqual(vs.nearest_fr(0.9), 4 - 1)
self.assertEqual(vs.nearest_fr(1), 4 - 1)
def test_nearest_frame(self):
vs = VideoSequence(1,1)
self.assertEqual(vs.nearest_frame(0), 1-1)
self.assertEqual(vs.nearest_frame(0.5), 1-1)
self.assertEqual(vs.nearest_frame(1), 1-1)
vs = VideoSequence(1,3)
self.assertEqual(vs.nearest_frame(0), 1-1)
self.assertEqual(vs.nearest_frame(0.1), 1-1)
self.assertEqual(vs.nearest_frame(0.4), 1-1)
self.assertEqual(vs.nearest_frame(0.5), 2-1)
self.assertEqual(vs.nearest_frame(0.55), 2-1)
self.assertEqual(vs.nearest_frame(0.6), 2-1)
self.assertEqual(vs.nearest_frame(0.9), 3-1)
self.assertEqual(vs.nearest_frame(1), 3-1)
vs = VideoSequence(1,10)
self.assertEqual(vs.nearest_frame(0), 1-1)
self.assertEqual(vs.nearest_frame(0.1), 1-1)
self.assertEqual(vs.nearest_frame(0.4), 4-1)
self.assertEqual(vs.nearest_frame(0.5), 5-1)
self.assertEqual(vs.nearest_frame(0.55), 6-1)
self.assertEqual(vs.nearest_frame(0.6), 6-1)
self.assertEqual(vs.nearest_frame(0.9), 9-1)
self.assertEqual(vs.nearest_frame(1), 10-1)
vs = VideoSequence(5,5)
self.assertEqual(vs.nearest_frame(2), 2-1)
self.assertEqual(vs.nearest_frame(2.4), 2-1)
self.assertEqual(vs.nearest_frame(2.5), 3-1)
self.assertEqual(vs.nearest_frame(2.6), 3-1)
def test_relative_pos_min_max(self):
vs = VideoSequence(1, 3)
self.assertEqual(vs.relative_pos(1.1), 1.0)
self.assertEqual(vs.relative_pos(0), 0.0)
def get_renderable_sequence(self):
# this method will fill holes in the sequence with dummy subregions
dur = self.vid_info['duration']
frs = self.vid_info['frames']
new_subregions = []
if self.sequence.subregions is None or \
len(self.sequence.subregions) == 0:
# make a subregion from 0 to vid duration if there are no regions
# in the video sequence. only the framerate could be changing
fa, ta = (0, 0)
fb, tb = (frs - 1, dur)
s = RenderSubregion(ta, tb)
s.fa = fa
s.fb = fb
s.fps = self.playback_rate
s.dur = tb - ta
s.spd = 1.0
setattr(s, 'trim', False)
new_subregions.append(s)
else:
# create placeholder/dummy subregions that fill holes in the video
# sequence where subregions were not explicity specified
cut_points = set([])
# add start and end of video cutting points
# (fr index, dur in milliseconds)
cut_points.add((0, 0)) # frame 0 and time 0
cut_points.add((frs - 1, dur)) # last frame and end time
# add current subregions
for s in self.sequence.subregions:
cut_points.add((s.fa, s.ta))
cut_points.add((s.fb, s.tb))
# sort them out
cut_points = list(cut_points)
cut_points = sorted(cut_points,
key=lambda x: (x[0], x[1]),
reverse=False)
# make dummy regions
to_make = len(cut_points) - 1
for x in range(0, to_make):
fa, ta = cut_points[x] # get start of region
fb, tb = cut_points[x + 1] # get end
sub_for_range = None # matching subregion in range
# look for matching subregion
for s in self.sequence.subregions:
if s.fa == fa and s.fb == fb:
sub_for_range = s
setattr(s, 'trim', False) # found it, won't trim it
break
# if subregion isnt found, make a dummy region
if sub_for_range is None:
s = RenderSubregion(ta, tb)
s.fa = fa
s.fb = fb
s.fps = self.playback_rate
s.dur = tb - ta
s.spd = 1.0
sub_for_range = s
setattr(s, 'trim', self.trim)
new_subregions.append(sub_for_range)
# create a new video sequence w/ original plus dummy regions
# they will automatically be validated and sorted as they are added in
seq = VideoSequence(dur, frs)
for s in new_subregions:
seq.add_subregion(s)
return seq
def get_renderable_sequence(self):
# this method will fill holes in the sequence with dummy subregions
dur = self.vid_info['duration']
frs = self.vid_info['frames']
new_subregions = []
if self.sequence.subregions is None or \
len(self.sequence.subregions) == 0:
# make a subregion from 0 to vid duration if there are no regions
# in the video sequence. only the framerate could be changing
fa, ta = (0, 0)
fb, tb = (frs - 1, dur)
s = RenderSubregion(ta, tb)
s.fa = fa
s.fb = fb
s.fps = self.playback_rate
s.dur = tb - ta
s.spd = 1.0
setattr(s, 'trim', False)
new_subregions.append(s)
else:
# create placeholder/dummy subregions that fill holes in the video
# sequence where subregions were not explicity specified
cut_points = set([])
# add start and end of video cutting points
# (fr index, dur in milliseconds)
cut_points.add((0, 0)) # frame 0 and time 0
cut_points.add((frs - 1, dur)) # last frame and end time
# add current subregions
for s in self.sequence.subregions:
cut_points.add((s.fa, s.ta))
cut_points.add((s.fb, s.tb))
# sort them out
cut_points = list(cut_points)
cut_points = sorted(cut_points,
key=lambda x: (x[0], x[1]),
reverse=False)
# make dummy regions
to_make = len(cut_points) - 1
for x in range(0, to_make):
fa, ta = cut_points[x] # get start of region
fb, tb = cut_points[x + 1] # get end
sub_for_range = None # matching subregion in range
# look for matching subregion
for s in self.sequence.subregions:
if s.fa == fa and s.fb == fb:
sub_for_range = s
setattr(s, 'trim', False) # found it, won't trim it
break
# if subregion isnt found, make a dummy region
if sub_for_range is None:
s = RenderSubregion(ta, tb)
s.fa = fa
s.fb = fb
s.fps = self.playback_rate
s.dur = tb - ta
s.spd = 1.0
sub_for_range = s
setattr(s, 'trim', self.trim)
new_subregions.append(sub_for_range)
# create a new video sequence w/ original plus dummy regions
# they will automatically be validated and sorted as they are added in
seq = VideoSequence(dur, frs)
for s in new_subregions:
seq.add_subregion(s)
return seq
def test_relative_pos_min_max(self):
vs = VideoSequence(1,3)
self.assertEqual(vs.relative_pos(1.1), 1.0)
self.assertEqual(vs.relative_pos(0), 0.0)
def test_relative_pos(self):
vs = VideoSequence(1, 1)
self.assertEqual(vs.relative_pos(0), 0.0)
self.assertEqual(vs.relative_pos(0.4), 0.4)
self.assertEqual(vs.relative_pos(0.5), 0.5)
self.assertEqual(vs.relative_pos(0.6), 0.6)
self.assertEqual(vs.relative_pos(1), 1.0)
vs = VideoSequence(5, 5)
self.assertEqual(vs.relative_pos(0), 0.0)
self.assertEqual(vs.relative_pos(2.4), 0.48)
self.assertEqual(vs.relative_pos(2.5), 0.5)
self.assertEqual(vs.relative_pos(2.6), 0.52)
self.assertEqual(vs.relative_pos(5), 1.0)
def test_validate_fails_intersects(self):
vs = VideoSequence(1,10)
s1 = Subregion(0.1,0.2)
s2 = Subregion(0.15,0.25)
vs.add_subregion(s1)
with self.assertRaises(RuntimeError):
vs.add_subregion(s2)
vs = VideoSequence(5,1)
s1 = Subregion(1,1)
s2 = Subregion(0,5)
with self.assertRaises(RuntimeError):
vs.add_subregion(s1)
vs.add_subregion(s2)
with self.assertRaises(RuntimeError):
vs.add_subregion(s2)
vs.add_subregion(s1)
