openpose-docker-python/app/break_on_scale.py
Ruben van de Ven 9ceb71286c First PoC
2022-10-31 14:37:33 +01:00

112 lines
3.9 KiB
Python

# From Python
import sys
import cv2
import os
import argparse
import subprocess
import numpy as np
import pyopenpose as op
# Flags
parser = argparse.ArgumentParser()
parser.add_argument("--image_path", default="/data/human.jpg", help="Process an image. Read all standard formats (jpg, png, bmp, etc.).")
parser.add_argument("--steps", default=100, type=int, help="Frames to render by stretching")
args, unknown_args = parser.parse_known_args()
# Custom Params (refer to include/openpose/flags.hpp for more parameters)
# here: https://github.com/CMU-Perceptual-Computing-Lab/openpose/blob/fc7813cfbb93552905a7190e6805fd01a9c101a2/include/openpose/flags.hpp
params = dict()
params["model_folder"] = "/openpose/models/"
# params["face"] = True
# params["hand"] = True
# params["heatmaps_add_parts"] = True
# params["heatmaps_add_bkg"] = True
# params["heatmaps_add_PAFs"] = True
# params["heatmaps_scale"] = 3
# params["upsampling_ratio"] = 1
# params["body"] = 1
# Add others in path?
for i in range(0, len(unknown_args)):
curr_item = unknown_args[i]
if i != len(unknown_args)-1: next_item = unknown_args[i+1]
else: next_item = "1"
if "--" in curr_item and "--" in next_item:
key = curr_item.replace('-','')
if key not in params: params[key] = "1"
elif "--" in curr_item and "--" not in next_item:
key = curr_item.replace('-','')
if key not in params: params[key] = next_item
# Construct it from system arguments
# op.init_argv(unknown_args)
# oppython = op.OpenposePython()
original_image = cv2.imread(args.image_path)
# Starting OpenPose
opWrapper = op.WrapperPython()
opWrapper.configure(params)
opWrapper.start()
# for i in range(args.steps):
# factor = (i/args.steps)
# mask = np.zeros(original_image.shape[:2], dtype="uint8")
# cv2.rectangle(mask, (0, 0), (original_image.shape[1], int(original_image.shape[0] - original_image.shape[0] * factor)), 255, -1)
# # cv2.imshow("Rectangular Mask", mask)
# frame = cv2.bitwise_and(original_image, original_image, mask=mask)
# # Process Image
# datum = op.Datum()
# datum.cvInputData = frame
# opWrapper.emplaceAndPop(op.VectorDatum([datum]))
# # Display Image
# # print("Body keypoints: \n" + str(datum.poseKeypoints))
# # print("Face keypoints: \n" + str(datum.faceKeypoints))
# # print("Left hand keypoints: \n" + str(datum.handKeypoints[0]))
# # print("Right hand keypoints: \n" + str(datum.handKeypoints[1]))
# print(i, datum.poseKeypoints is not None)
# cv2.imwrite(f"/data/out/result_body_obscure{i:03d}.jpg",datum.cvOutputData)
# subprocess.call([
# 'ffmpeg', '-i', '/data/out/result_body_obscure%3d.jpg', '-y','/data/out/result_body_obscure.mp4'
# ])
for i in range(args.steps):
scale = 1 - (i/args.steps)
frame = np.zeros(original_image.shape, dtype="uint8")
width = int(original_image.shape[1] * scale)
height = int(original_image.shape[0])
partial_frame = cv2.resize(original_image, (width, height))
# frame[y_start:y_end,x_start:x_end] = partial_frame
offset = int((frame.shape[1] - width) / 2)
# print(offset)
frame[0:height,offset:(offset+width)] = partial_frame
# Process Image
datum = op.Datum()
# print(frame.shape)
datum.cvInputData = frame
opWrapper.emplaceAndPop(op.VectorDatum([datum]))
# Display Image
# print("Body keypoints: \n" + str(datum.poseKeypoints))
# print("Face keypoints: \n" + str(datum.faceKeypoints))
# print("Left hand keypoints: \n" + str(datum.handKeypoints[0]))
# print("Right hand keypoints: \n" + str(datum.handKeypoints[1]))
print(i, datum.poseKeypoints is not None)
cv2.imwrite(f"/data/out/result_body_scale{i:03d}.jpg",datum.cvOutputData)
subprocess.call([
'ffmpeg', '-i', '/data/out/result_body_scale%3d.jpg', '-y','/data/out/result_body_scale.mp4'
])
print("done")
# cv2.imshow("OpenPose 1.7.0 - Tutorial Python API", datum.cvOutputData)
# cv2.waitKey(0)