import logging

logging.basicConfig(level=logging.INFO)

import operator

import pytest

from ffmpegio import filtergraph as fgb

def test_Filter():

f = fgb.Filter("concat")

print(f)

assert f[0] == "concat"

assert f.name == "concat"

assert f.id is None

print(f.info)

# fgb.Filter('concat',2)

# fgb.Filter('concat')

# fgb.Filter('concat')

@pytest.mark.parametrize(

"filter_spec,option_name,expected",

[

("concat=n=3", "n", 3),

("concat=3", "n", 3),

("concat", "n", 2),

],

)

def test_filter_get_option_value(filter_spec, option_name, expected):

f = fgb.Filter(filter_spec)

try:

assert f.get_option_value(option_name) == expected

except fgb.Filter.InvalidName:

pass # ffmpeg version issue

@pytest.mark.parametrize(

"filter_spec,expected",

[

("overlay", 2),

("overlay=no1", 2),

("hstack=inputs=4", 4),

("afir=nbirs=1", 2),

("concat=n=3", 3),

("decimate=ppsrc=1", 2),

("fieldmatch=ppsrc=1", 2),

("headphone=FL|FR|FC|LFE|BL|BR|SL|SR", 9),

("headphone=FL|FR", 3),

("headphone=map=FL|FR|FC|LFE|BL|BR|SL|SR:hrir=multich", 2),

("interleave=nb_inputs=2", 2),

("mergeplanes=0x001020:yuv444p", 3),

("mergeplanes=0x00010210:yuv444p", 2),

("premultiply=inplace=1", 1),

("unpremultiply=inplace=0", 2),

("signature=nb_inputs=2", 2),

],

)

def test_filter_get_num_inputs(filter_spec, expected):

f = fgb.Filter(filter_spec)

try:

assert f.get_num_inputs() == expected

except fgb.Filter.InvalidName:

logging.warning(f"skipped {filter_spec}: not supported by FFmpeg")

@pytest.mark.parametrize(

"filter_spec,expected",

[

(["split"], 2),

(["split", 3], 3),

(("acrossover", {"split": "1500 8000", "order": "8th"}), 3),

(("afir", {"response": 0}), 1),

(("aiir", {"response": 1}), 2),

(("anequalizer", {"curves": 1}), 2),

(("asegment", {"timestamps": [60, 150]}), 3),

(("segment", "60|150"), 3),

(("astreamselect", {"map": "1 0 2"}), 3),

# (("streamselect",), None),

(("channelsplit", {"channel_layout": "5.1"}), 6),

(("extractplanes", "y+u+v"), 3),

(("ebur128", {"video": 1}), 2),

(("aphasemeter", {"video": 0}), 1),

(("concat", {"n": 3, "v": 1, "a": 2}), 3),

# "amovie": (None, None), # streams(+-separated)

# "movie": (None, None), # streams(+-separated)

(("movie", "dvd.vob", {"s": "v:0+#0x81"}), 2),

],

)

def test_filter_get_num_outputs(filter_spec, expected):

has_kws = isinstance(filter_spec[-1], dict)

if has_kws:

*filter_spec, kwargs = filter_spec

else:

kwargs = {}

f = fgb.Filter(*filter_spec, **kwargs)

try:

assert f.get_num_outputs() == expected

except fgb.Filter.InvalidName:

logging.warning(f"skipped {filter_spec}: not supported by FFmpeg")

@pytest.mark.parametrize(

"expr, pad, filter, chain, exclude_chainable, chainable_first, ret",

[

("color", None, None, None, False, False, []),

("vstack", None, None, None, False, False, [0, 1]),

("vstack", 0, None, None, False, False, [0]),

("vstack", 1, None, None, False, False, [1]),

("vstack", 2, None, None, False, False, None),

("vstack", -1, None, None, False, False, [1]),

("vstack", None, 0, None, False, False, [0, 1]),

("vstack", None, 1, None, False, False, None),

("vstack", None, None, 0, False, False, [0, 1]),

("vstack", None, None, 1, False, False, None),

("vstack", None, None, None, True, False, [0]),

("vstack", None, None, None, False, True, [1, 0]),

("vstack", None, None, None, True, True, []),

],

)

def test_iter_input_pads(

expr,

pad,

filter,

chain,

exclude_chainable,

chainable_first,

ret,

):

fg = fgb.Filter(expr)

it = fg.iter_input_pads(

pad,

filter,

chain,

exclude_chainable=exclude_chainable,

chainable_first=chainable_first,

)

if ret is None:

with pytest.raises(fgb.FiltergraphInvalidIndex):

next(it)

else:

for r in ret:

index, f, out_index = next(it)

assert index == (r,) and f == fg and out_index == None

@pytest.mark.parametrize(

"expr, pad, filter, chain, exclude_chainable, chainable_first, ret",

[

("nullsink", None, None, None, False, False, []),

("split", None, None, None, False, False, [0, 1]),

("split", 0, None, None, False, False, [0]),

("split", 1, None, None, False, False, [1]),

("split", 2, None, None, False, False, None),

("split", -1, None, None, False, False, [1]),

("split", None, 0, None, False, False, [0, 1]),

("split", None, 1, None, False, False, None),

("split", None, None, 0, False, False, [0, 1]),

("split", None, None, 1, False, False, None),

("split", None, None, None, True, False, [0]),

("split", None, None, None, False, True, [1, 0]),

("split", None, None, None, True, True, []),

],

)

def test_iter_output_pads(

expr,

pad,

filter,

chain,

exclude_chainable,

chainable_first,

ret,

):

fg = fgb.Filter(expr)

it = fg.iter_output_pads(

pad,

filter,

chain,

exclude_chainable=exclude_chainable,

chainable_first=chainable_first,

)

if ret is None:

with pytest.raises(fgb.FiltergraphInvalidIndex):

next(it)

else:

for r in ret:

index, f, in_index = next(it)

assert index == (r,) and f == fg and in_index == None

def test_iter_chains():

assert len([*fgb.Filter("fps").iter_chains()]) == 1

def test_apply():

f = fgb.Filter("fade=in:5:20:color=yellow")

print(str(f))

f1 = f.apply({1: "in", 2: 4, "color": "red"})

print(str(f1))

@pytest.mark.parametrize(

"op, lhs,rhs,expected",

[

# fmt:off

(

operator.__add__,

fgb.scale(),

"overlay",

"[UNC0]scale[L0];[L0][UNC1]overlay[UNC2]",

),

(

operator.__add__,

"scale",

fgb.Filter("overlay"),

"[UNC0]scale[L0];[L0][UNC1]overlay[UNC2]",

),

(

operator.__rshift__,

fgb.Filter("split"),

"hflip",

"[UNC0]split[L0][UNC1];[L0]hflip[UNC2]",

),

(

operator.__rshift__,

fgb.Filter("split"),

(1, "overlay"),

"[UNC0]split[UNC2][L0];[L0][UNC1]overlay[UNC3]",

),

(

operator.__rshift__,

fgb.Filter("split"),

(1, "[in]overlay"),

"[UNC0]split[UNC2][L0];[L0][UNC1]overlay[UNC3]",

), # X

(

operator.__rshift__,

fgb.Filter("split"),

(1, 1, "overlay"),

"[UNC0]split[UNC2][L0];[UNC1][L0]overlay[UNC3]",

),

(

operator.__rshift__,

fgb.Filter("split"),

(None, "[over]", "[base][over]overlay"),

"[UNC0]split[L0][UNC1];[base][L0]overlay[UNC2]",

), # X

(

operator.__rshift__,

"hflip",

fgb.Filter("overlay"),

"[UNC0]hflip[L0];[L0][UNC1]overlay[UNC2]",

),

(

operator.__rshift__,

("split", 1),

fgb.Filter("overlay"),

"[UNC0]split[L0][UNC2];[UNC1][L0]overlay[UNC3]",

), # X

(

operator.__rshift__,

("split", (0, 1)),

fgb.Filter("overlay"),

"[UNC0]split[L0][UNC2];[UNC1][L0]overlay[UNC3]",

), # X

(

operator.__rshift__,

("split[out]", 1),

fgb.Filter("overlay"),

"[UNC0]split[L0][UNC2];[UNC1][L0]overlay[UNC3]",

), # X

(

operator.__rshift__,

("split[out]", "[out]", None),

fgb.Filter("overlay"),

"[UNC0]split[L0][UNC2];[L0][UNC1]overlay[UNC3]",

),

# X

# (operator.__rshift__, fgb.Graph("split[out1][out2]"), ('[out1]', '[over]', "[base][over]overlay"), "split[out1][out2];[base][out1]overlay"),

# fmt:on

],

)

def test_ops(op, lhs, rhs, expected):

assert op(lhs, rhs).compose() == expected

if __name__ == "__name__":

test_apply()