from ffmpegio import video, probe, utils

import tempfile

import re

from os import path

def test_create():

# make sure rgb channels are mapped properly

A = video.create("mandelbrot", r=25, size="320x240", t_in=10)[1]

assert A["shape"] == (250, 240, 320, 3)

# B = image.create("allrgb")

# B = image.create("allyuv")

# B = image.create("gradients=s=1920x1080:c0=000000:c1=434343:x0=0:x1=0:y0=0:y1=1080")

# B = image.create("gradients")

# B = image.create("mandelbrot")

# B = image.create("mptestsrc=t=dc_luma")

# B = image.create("mptestsrc", t="ring1")

# B = image.create("life",life_color='red')

# B = image.create("haldclutsrc",16)

# A = image.create("testsrc")

# B = image.create("testsrc2",alpha=0)

# B = image.create("rgbtestsrc")

# B = image.create("smptebars")

# B = image.create("smptehdbars")

# B = image.create("pal100bars")

# B = image.create("pal75bars")

# B = image.create("yuvtestsrc")

# B = image.create("sierpinski")

# print(A['dtype'], A['shape'])

# plt.subplot(1,2,1)

# plt.imshow(A)

# plt.subplot(1,2,2)

# plt.imshow(B)

# plt.show()

def test_read_write():

url = "tests/assets/testvideo-1m.mp4"

outext = ".mp4"

info = probe.video_streams_basic(url)[0]

# info = probe.inquire(url)

print(info)

fs, A = video.read(url, vframes=10)

print(fs)

print(A["shape"])

with tempfile.TemporaryDirectory() as tmpdirname:

out_url = path.join(tmpdirname, re.sub(r"\..*?$", outext, path.basename(url)))

print(out_url)

video.write(out_url, fs, A)

print(probe.video_streams_basic(out_url))

fs, A = video.read(out_url, vframes=10)

print(fs)

print(A["shape"])

def test_read():

url = "tests/assets/testvideo-1m.mp4"

outext = ".mp4"

info = probe.video_streams_basic(url)[0]

# info = probe.inquire(url)

print(info)

fs, A = video.read(url, vframes=10)

T = 10 / fs

n0 = 2

N = 5

fs, B = video.read(url, vframes=10, ss_in=float(n0 / fs))

print(B["shape"], A["shape"])

nbytes = utils.get_samplesize(A["shape"][-3:], A["dtype"])

assert A["buffer"][n0 * nbytes :] == B["buffer"][: (10 - n0) * nbytes]

fs, C = video.read(url, ss_in=float(n0 / fs), t_in=float(N / fs))

print(C["shape"])

assert A["buffer"][n0 * nbytes : (n0 + N) * nbytes] == C["buffer"]

# fs, D = video.read(url, ss_in=n0, t_in=N, units='frames')

# assert np.array_equal(D, C)

def test_filter():

r_in, input = video.create("life", life_color="Red", t_in=1)

print("input", input["shape"], input["dtype"])

expr = "edgedetect"

print(r_in, input["shape"], input["dtype"])

r, output = video.filter(expr, r_in, input)

print(r, output["shape"], output["dtype"])

def test_two_pass_write():

url = "tests/assets/testmulti-1m.mp4"

fs, A = video.read(url, vframes=100)

with tempfile.TemporaryDirectory() as tmpdirname:

out_url = path.join(tmpdirname, path.basename(url))

video.write(

out_url,

fs,

A,

two_pass=True,

**{"c:v": "libx264", "b:v": "500k"},

show_log=True,

)

if __name__ == "__main__":

# test_create()

# ffmpeg -y -i input -c:v libx264 -b:v 2600k -pass 1 -an -f null /dev/null && \

# ffmpeg -i input -c:v libx264 -b:v 2600k -pass 2 -c:a aac -b:a 128k output.mp4

import logging

logging.basicConfig(level=logging.DEBUG)

# B = video.read(url, show_log=True, s=(100, -2))

# print(B["shape"])

# url = "tests/assets/ffmpeg-logo.png"

# B = video.read(

# url,

# show_log=True,

# fill_color="red",

# )

# B = video.read(url, show_log=True, fill_color="red", pix_fmt="rgb24")