web-services / NLP_tools-EZmaster / test_EZ /
#!/usr/bin/env python3
#  Batterie de test les webservices nlptools
# -*- coding: utf-8 -*-
# usage : 
#    python3
@author: stephane schneider
import requests

outputs=['doc', 'json']
# dev
# uri=""
# prod

#changer la valeur de uri pour pointer vers la dev ou la prod

# parameter
headers = {'content-type': 'application/octet-stream'}
query= {"indent": "true"}
# data :
# -- fonctionne pas
# doc = "../data/data.json"
# test_files = { 'file': open(doc, 'rb')}
# response = ,  params = query, files = test_files , stream=True, headers=headers)

for language in languages:

    if language == "en":
        engines=["postagger", "stemmer", "npchunker", "npchunkerdp", "termmatcher", "ner"]
            {"id":"PhnlUo_d6LoJPLN3YUjh5qBLc","value":"Non-local effects by homogenization or 3D–1D dimension reduction in elastic materials reinforced by stiff fibers.We first consider an elastic thin heterogeneous cylinder of radius of order ε: the interior of the cylinder is occupied by a stiff material (fiber) that is surrounded by a soft material (matrix). By assuming that the elasticity tensor of the fiber does not scale with ε and that of the matrix scales with ε2, we prove that the one dimensional model is a nonlocal system.We then consider a reference configuration domain filled out by periodically distributed rods similar to those described above. We prove that the homogenized model is a second order nonlocal problem.In particular, we show that the homogenization problem is directly connected to the 3D–1D dimensional reduction problem."}
        engines=["postagger", "stemmer"]
            {"id":"xBKeVishRTsAqsdsqJn5YWo0HpuD","value":"Le déplacement chimique des carbones en phase gazeuse et en fonction de la concentration dans dix-neuf solvants dans le but de séparer les différents termes de constante dus aux interactions"}

    for engine in engines:
        for output in outputs:
            url ="{}/v1/{}/{}/analyze".format(uri, language, engine)
            query['output'] = output
            response = , params = query, data = doc.encode('utf-8'), stream=True, headers=headers)
            print("\n------------ {} ({} - {}) :".format(engine,output,language ))
            print("REQUEST STATUS : {}".format(response.status_code))
            print("HEADERS :  {}\n".format(response.headers))
            if response.status_code == 200:
                print("ERROR : nothing found !")