Dashboard des compétences

import os import datetime import requests import textwrap from offres_emploi import Api from offres_emploi.utils import dt_to_str_iso from dash import Dash, html, dcc, callback, Output, Input, dash_table, State, _dash_renderer, clientside_callback import dash_bootstrap_components as dbc import plotly.express as px import plotly.graph_objects as go import dash_mantine_components as dmc from dash_iconify import DashIconify import pandas as pd from dotenv import load_dotenv _dash_renderer._set_react_version("18.2.0") import plotly.io as pio from langchain_community.llms import HuggingFaceEndpoint from langchain_core.prompts import ChatPromptTemplate, PromptTemplate from langchain.schema.output_parser import StrOutputParser from pinecone import Pinecone from bs4 import BeautifulSoup from flask import Flask server = Flask(__name__) # external JavaScript files external_scripts = [ 'https://datacipen-eventia.hf.space/copilot/index.js' ] # Create a customized version of the plotly_dark theme with a modified background color custom_plotly_dark_theme = { "layout": { "paper_bgcolor": "#1E1E1E", # Update the paper background color "plot_bgcolor": "#1E1E1E", # Update the plot background color "font": { "color": "#FFFFFF" # Update the font color }, "xaxis": { "gridcolor": "#333333", # Update the x-axis grid color "zerolinecolor": "#666666" # Update the x-axis zero line color }, "yaxis": { "gridcolor": "#333333", # Update the y-axis grid color "zerolinecolor": "#666666" # Update the y-axis zero line color } } } # Apply the customized theme to your Plotly figures pio.templates["custom_plotly_dark"] = custom_plotly_dark_theme pio.templates.default = "custom_plotly_dark" load_dotenv() def removeTags(all): for data in all(['style', 'script']): data.decompose() return ''.join(all.stripped_strings) def htmlToDataframe(htmlTable): data = [] list_header = [] soup = BeautifulSoup(htmlTable,'html.parser') header = soup.find_all("table")[0].find("tr") for items in header: try: list_header.append(items.get_text()) except: continue HTML_data = soup.find_all("table")[0].find_all("tr")[1:] for element in HTML_data: sub_data = [] for sub_element in element: try: sub_data.append(sub_element.get_text()) except: continue data.append(sub_data) dataFrame = pd.DataFrame(data = data, columns = list_header) return dataFrame def getSavoirFaireFromHTMLMetier(url): response = requests.get(url) soup = BeautifulSoup(response.text, "html.parser") allSavoirFaire = soup.select('ul[data-cy="liste-savoir-faire-metier"] > li') if len(allSavoirFaire) != 0: allSF = "" for i in range(0,len(allSavoirFaire)): blockSavoirFaire = allSavoirFaire[i] try: soupSavoirFaire = BeautifulSoup(str(blockSavoirFaire), "html.parser") titleSavoirFaire = soupSavoirFaire.select('h4.fm-block-form-title') descriptSavoirFaire = soupSavoirFaire.select('div.fm-block-form-collapse-content') if removeTags(titleSavoirFaire[0]) != None: for j in range(0,len(descriptSavoirFaire)): ssblockSavoirFaire = descriptSavoirFaire[j] soupssSavoirFaire = BeautifulSoup(str(ssblockSavoirFaire), "html.parser") sstitleSavoirFaire = soupssSavoirFaire.select('h5.fm-block-form-subtitle') listSavoirFaire = soupssSavoirFaire.select('ul.list-unstyled > li') if len(listSavoirFaire) != 0: for k in range(0,len(listSavoirFaire)): blockListSavoirFaire = removeTags(listSavoirFaire[k]) allSF += "" except: print("Pas de Savoir-Faire!") allSF += "

Savoir-faire	Libelle	Type	Categorie
" + removeTags(titleSavoirFaire[0]) + "	" + blockListSavoirFaire + "	" + removeTags(sstitleSavoirFaire[0]) + "	1

" return allSF def getSavoirFromHTMLMetier(url): response = requests.get(url) soup = BeautifulSoup(response.text, "html.parser") allSavoirFaire = soup.select('ul[data-cy="liste-savoir-metier"] > li') if len(allSavoirFaire) != 0: allSF = "" for i in range(0,len(allSavoirFaire)): blockSavoirFaire = allSavoirFaire[i] try: soupSavoirFaire = BeautifulSoup(str(blockSavoirFaire), "html.parser") titleSavoirFaire = soupSavoirFaire.select('h4.fm-block-form-title') descriptSavoirFaire = soupSavoirFaire.select('div.fm-block-form-collapse-content') if removeTags(titleSavoirFaire[0]) != None: for j in range(0,len(descriptSavoirFaire)): ssblockSavoirFaire = descriptSavoirFaire[j] soupssSavoirFaire = BeautifulSoup(str(ssblockSavoirFaire), "html.parser") listSavoirFaire = soupssSavoirFaire.select('ul.list-unstyled > li') if len(listSavoirFaire) != 0: for k in range(0,len(listSavoirFaire)): blockListSavoirFaire = removeTags(listSavoirFaire[k]) allSF += "" except: print("Pas de Savoir-Faire!") allSF += "

Savoir-faire	Libelle	Categorie
" + removeTags(titleSavoirFaire[0]) + "	" + blockListSavoirFaire + "	1

" return allSF def getContextFromHTMLMetier(url): response = requests.get(url) soup = BeautifulSoup(response.text, "html.parser") allContext = soup.select('div[data-cy="liste-contextes"] > div.fm-context') count = 0 if len(allContext) != 0: allSF = "" for i in range(0,len(allContext)): count = count + 1 blockContext = allContext[i] try: soupContext = BeautifulSoup(str(blockContext), "html.parser") titleSavoirFaire = soupContext.select('h3.fm-context-title') descriptSavoirFaire = soupContext.select('ul > li') if removeTags(titleSavoirFaire[0]) != None: for j in range(0,len(descriptSavoirFaire)): ssblockSavoirFaire = descriptSavoirFaire[j] if len(ssblockSavoirFaire) != 0: allSF += "" except: print("Pas de Savoir-Faire!") allSF += "

Savoir-faire	Libelle	Categorie
" + removeTags(titleSavoirFaire[0]) + "	" + removeTags(ssblockSavoirFaire) + "	1

" return allSF def datavisualisation_skills_context(df, template, paper_bgcolor, plot_bgcolor, title_template, codeRome): train = df array_df = list(df.columns) if any(x == "Type" for x in array_df): df1 = train.groupby(['Savoir-faire', 'Type'])['Categorie'].count().reset_index() df1.columns = ['source', 'target', 'value'] df2 = train.groupby(['Type', 'Libelle'])['Categorie'].count().reset_index() df2.columns = ['source', 'target', 'value'] all_links = pd.concat([df1, df2], axis=0) else: df1 = train.groupby(['Savoir-faire', 'Libelle'])['Categorie'].count().reset_index() df1.columns = ['source', 'target', 'value'] all_links = df1 unique_source_target = list(pd.unique(all_links[['source', 'target']].values.ravel('K'))) mapping_dict = {k: v for v, k in enumerate(unique_source_target)} all_links['source'] = all_links['source'].map(mapping_dict) all_links['target'] = all_links['target'].map(mapping_dict) links_dict = all_links.to_dict(orient='list') #Sankey Diagram Code colors = [ "blue","blueviolet","brown","burlywood","cadetblue", "chartreuse","chocolate","coral","cornflowerblue", "cornsilk","crimson","cyan","darkblue","darkcyan", "darkgoldenrod","darkgray","darkgrey","darkgreen", "darkkhaki","darkmagenta","darkolivegreen","darkorange", "darkorchid","darkred","darksalmon","darkseagreen", "darkslateblue","darkslategray","darkslategrey", "darkturquoise","darkviolet","deeppink","deepskyblue", "dimgray","dimgrey","dodgerblue","firebrick", "floralwhite","forestgreen","fuchsia","gainsboro", "ghostwhite","gold","goldenrod","gray","grey","green", "greenyellow","honeydew","hotpink","indianred","indigo", "ivory","khaki","lavender","lavenderblush","lawngreen", "lemonchiffon","lightblue","lightcoral","lightcyan", "lightgoldenrodyellow","lightgray","lightgrey", "lightgreen","lightpink","lightsalmon","lightseagreen", "lightskyblue","lightslategray","lightslategrey", "lightsteelblue","lightyellow", "lime","limegreen", "linen","magenta","maroon","mediumaquamarine", "mediumblue","mediumorchid","mediumpurple", "mediumseagreen","mediumslateblue","mediumspringgreen", "mediumturquoise","mediumvioletred","midnightblue", "mintcream","mistyrose","moccasin","navajowhite","navy", "oldlace","olive","olivedrab","orange","orangered", "orchid","palegoldenrod","palegreen","paleturquoise", "palevioletred","papayawhip","peachpuff","peru","pink", "plum","powderblue","purple","red","rosybrown", "royalblue","rebeccapurple","saddlebrown","salmon", "sandybrown","seagreen","seashell","sienna","silver", "skyblue","slateblue","slategray","slategrey","snow", "aliceblue","antiquewhite","aqua","aquamarine","azure", "beige","bisque","black","blanchedalmond" ] array_label_rome = searchByRome(codeRome) fig = go.Figure(data=[go.Sankey( node = dict( pad = 15, thickness = 20, line = dict(color = "black", width = 0.5), label = unique_source_target, color = colors ), link = dict( source = links_dict["source"], target = links_dict["target"], value = links_dict["value"], color="lightgrey" ))]).update_layout(template=template, paper_bgcolor=paper_bgcolor, plot_bgcolor=plot_bgcolor, title_text=title_template + " du code ROME : " + array_label_rome[0]['label'], font_size=10,width=1000, height=800) return fig def datavisualisation_chiffres_cles_emplois(url): response = requests.get(url) soup = BeautifulSoup(response.text, "lxml") alldemandeurs = '' allsalaires = '' alldifficultes = '' allrepartitions = '' allentreprises = '' allembauches = soup.select('p.population_category') allnumembauchesfirst = soup.select('p.population_main-num.data') allnumembauches = removeTags(allnumembauchesfirst[0]).split('\xa0') allnumembauches = ''.join(allnumembauches) allnumoffres = removeTags(allnumembauchesfirst[1]).split('\xa0') allnumoffres = ''.join(allnumoffres) alldetailembauches = soup.select('p.hiring_text.ng-star-inserted') allnumevolutionembauches = soup.select('p.main.ng-star-inserted') alldetailevolutionembauches = soup.select('p.population_bubble-title') alldemandeurs = "" else: alldemandeurs += "" alldemandeurs += "" alldemandeurs += "" else: alldemandeurs += "" alldemandeurs += "" alldemandeurs += "

Indicateur	Valeur
" + removeTags(allembauches[0]) + " (" + removeTags(alldetailembauches[0]) + ");" if len(alldetailevolutionembauches) >= 1 and len(allnumevolutionembauches) >= 1: alldemandeurs += "\nÉvolution demandeurs d'emploi (" + removeTags(alldetailevolutionembauches[0]) + ": " + removeTags(allnumevolutionembauches[0]) + ")	" + allnumembauches + "
" + removeTags(allembauches[1]) + " (" + removeTags(alldetailembauches[1]) + ");" if len(alldetailevolutionembauches) >= 2 and len(allnumevolutionembauches) >= 2: alldemandeurs += "\nÉvolution offres d'emploi (" + removeTags(alldetailevolutionembauches[1]) + ": " + removeTags(allnumevolutionembauches[1]) + ")	" + allnumoffres + "

" allFAP = soup.select('tr.sectorTable__line.ng-star-inserted') allcategorie = soup.select('td.sectorTable__cell') alltypesalaires = soup.select('th.sectorTable__cell') allFAPsalaires = soup.select('p.sectorTable__cellValue') if len(allFAPsalaires) >= 3: allsalaires = "" allsalaires += "" allsalaires += "" allsalaires += "" if len(allFAP) >= 2 and len(allFAPsalaires) == 6: allsalaires += "" allsalaires += "" allsalaires += "" allsalaires += "

categorie	emploi	salaire
" + removeTags(alltypesalaires[1]) + "	" + removeTags(allcategorie[0]) + "	" + removeTags(allFAPsalaires[0]).replace('\xa0','').replace(' ','').replace('€','') + "
" + removeTags(alltypesalaires[2]) + "	" + removeTags(allcategorie[0]) + "	" + removeTags(allFAPsalaires[1]).replace('\xa0','').replace(' ','').replace('€','') + "
" + removeTags(alltypesalaires[3]) + "	" + removeTags(allcategorie[0]) + "	" + removeTags(allFAPsalaires[2]).replace('\xa0','').replace(' ','').replace('€','') + "
" + removeTags(alltypesalaires[1]) + "	" + removeTags(allcategorie[4]) + "	" + removeTags(allFAPsalaires[3]).replace('\xa0','').replace(' ','').replace('€','') + "
" + removeTags(alltypesalaires[2]) + "	" + removeTags(allcategorie[4]) + "	" + removeTags(allFAPsalaires[4]).replace('\xa0','').replace(' ','').replace('€','') + "
" + removeTags(alltypesalaires[3]) + "	" + removeTags(allcategorie[4]) + "	" + removeTags(allFAPsalaires[5]).replace('\xa0','').replace(' ','').replace('€','') + "

" alltypedifficultes = soup.select('.tabs-main-content_persp-col2-bar.ng-star-inserted') alldifficulte = soup.select('p.horizontal-graph_title') allpcdifficulte = soup.select('div.horizontal-graph_data') alldifficultes = "" for i in range(0,len(alltypedifficultes)): alldifficultes += "" alldifficultes += "

Indicateur	Valeur
" + removeTags(alldifficulte[i]) + "	" + removeTags(allpcdifficulte[i]).replace('Pour le territoire principal FRANCE pour les ' + removeTags(alldifficulte[i]),'').replace('%','') + "

" alltyperepartitions = soup.select('div.hiring-contract_legende_item.ng-star-inserted') allrepartition = soup.select('p.hiring-contract_legende_item_label') allpcrepartition = soup.select('span.hiring-contract_legende_item-first') allrepartitions = "" for i in range(0,len(alltyperepartitions)): allrepartitions += "" allrepartitions += "

Indicateur	Valeur
" + removeTags(allrepartition[i]).replace('(' + removeTags(allpcrepartition[i]) + ')','') + "	" + removeTags(allpcrepartition[i]).replace('%','').replace(',','.') + "

" allentrepriserepartitions = soup.select('div.horizontal-graph_pattern.sm-bubble_wrapper > span') allentreprise = soup.select('span.sr-only') allpcentreprise = soup.select('span.data.ng-star-inserted') allentreprises = "" for i in range(0,len(allentrepriserepartitions)): allentreprises += "" allentreprises += "

Indicateur	Valeur
" + removeTags(allentrepriserepartitions[i])[0:-4] + "	" + removeTags(allentrepriserepartitions[i])[-4:].replace('%','').replace(',','.') + "

" return [alldemandeurs, allsalaires, alldifficultes, allrepartitions, allentreprises] def localisation(): ListCentroids = [ { "ID": "01", "Longitude": 5.3245259, "Latitude":46.0666003 }, { "ID": "02", "Longitude": 3.5960246, "Latitude": 49.5519632 }, { "ID": "03", "Longitude": 3.065278, "Latitude": 46.4002783 }, { "ID": "04", "Longitude": 6.2237688, "Latitude": 44.1105837 }, { "ID": "05", "Longitude": 6.2018836, "Latitude": 44.6630487 }, { "ID": "06", "Longitude": 7.0755745, "Latitude":43.9463082 }, { "ID": "07", "Longitude": 4.3497308, "Latitude": 44.7626044 }, { "ID": "08", "Longitude": 4.6234893, "Latitude": 49.6473884 }, { "ID": "09", "Longitude": 1.6037147, "Latitude": 42.9696091 }, { "ID": "10", "Longitude": 4.1394954, "Latitude": 48.2963286 }, { "ID": "11", "Longitude": 2.3140163, "Latitude": 43.1111427 }, { "ID": "12", "Longitude": 2.7365234, "Latitude": 44.2786323 }, { "ID": "13", "Longitude": 5.0515492, "Latitude": 43.5539098 }, { "ID": "14", "Longitude": -0.3930779, "Latitude": 49.1024215 }, { "ID": "15", "Longitude": 2.6367657, "Latitude": 44.9643217 }, { "ID": "16", "Longitude": 0.180475, "Latitude": 45.706264 }, { "ID": "17", "Longitude": -0.7082589, "Latitude": 45.7629699 }, { "ID": "18", "Longitude": 2.5292424, "Latitude": 47.0926687 }, { "ID": "19", "Longitude": 1.8841811, "Latitude": 45.3622055 }, { "ID": "2A", "Longitude": 8.9906834, "Latitude": 41.8619761 }, { "ID": "2B", "Longitude": 9.275489, "Latitude": 42.372014 }, { "ID": "21", "Longitude": 4.7870471, "Latitude": 47.4736746 }, { "ID": "22", "Longitude": -2.9227591, "Latitude": 48.408402 }, { "ID": "23", "Longitude": 2.0265508, "Latitude": 46.0837382 }, { "ID": "24", "Longitude": 0.7140145, "Latitude": 45.1489678 }, { "ID": "25", "Longitude": 6.3991355, "Latitude": 47.1879451 }, { "ID": "26", "Longitude": 5.1717552, "Latitude": 44.8055408 }, { "ID": "27", "Longitude": 0.9488116, "Latitude": 49.1460288 }, { "ID": "28", "Longitude": 1.2793491, "Latitude": 48.3330017 }, { "ID": "29", "Longitude": -4.1577074, "Latitude": 48.2869945 }, { "ID": "30", "Longitude": 4.2650329, "Latitude": 43.9636468 }, { "ID": "31", "Longitude": 1.2728958, "Latitude": 43.3671081 }, { "ID": "32", "Longitude": 0.4220039, "Latitude": 43.657141 }, { "ID": "33", "Longitude": -0.5760716, "Latitude": 44.8406068 }, { "ID": "34", "Longitude": 3.4197556, "Latitude": 43.62585 }, { "ID": "35", "Longitude": -1.6443812, "Latitude": 48.1801254 }, { "ID": "36", "Longitude": 1.6509938, "Latitude": 46.7964222 }, { "ID": "37", "Longitude": 0.7085619, "Latitude": 47.2802601 }, { "ID": "38", "Longitude": 5.6230772, "Latitude": 45.259805 }, { "ID": "39", "Longitude": 5.612871, "Latitude": 46.7398138 }, { "ID": "40", "Longitude": -0.8771738, "Latitude": 44.0161251 }, { "ID": "41", "Longitude": 1.3989178, "Latitude": 47.5866519 }, { "ID": "42", "Longitude": 4.2262355, "Latitude": 45.7451186 }, { "ID": "43", "Longitude": 3.8118151, "Latitude": 45.1473029 }, { "ID": "44", "Longitude": -1.7642949, "Latitude": 47.4616509 }, { "ID": "45", "Longitude": 2.2372695, "Latitude": 47.8631395 }, { "ID": "46", "Longitude": 1.5732157, "Latitude": 44.6529284 }, { "ID": "47", "Longitude": 0.4788052, "Latitude": 44.4027215 }, { "ID": "48", "Longitude": 3.4991239, "Latitude": 44.5191573 }, { "ID": "49", "Longitude": -0.5136056, "Latitude": 47.3945201 }, { "ID": "50", "Longitude": -1.3203134, "Latitude": 49.0162072 }, { "ID": "51", "Longitude": 4.2966555, "Latitude": 48.9479636 }, { "ID": "52", "Longitude": 5.1325796, "Latitude": 48.1077196 }, { "ID": "53", "Longitude": -0.7073921, "Latitude": 48.1225795 }, { "ID": "54", "Longitude": 6.144792, "Latitude": 48.7995163 }, { "ID": "55", "Longitude": 5.2888292, "Latitude": 49.0074545 }, { "ID": "56", "Longitude": -2.8746938, "Latitude": 47.9239486 }, { "ID": "57", "Longitude": 6.5610683, "Latitude": 49.0399233 }, { "ID": "58", "Longitude": 3.5544332, "Latitude": 47.1122301 }, { "ID": "59", "Longitude": 3.2466616, "Latitude": 50.4765414 }, { "ID": "60", "Longitude": 2.4161734, "Latitude": 49.3852913 }, { "ID": "61", "Longitude": 0.2248368, "Latitude": 48.5558919 }, { "ID": "62", "Longitude": 2.2555152, "Latitude": 50.4646795 }, { "ID": "63", "Longitude": 3.1322144, "Latitude": 45.7471805 }, { "ID": "64", "Longitude": -0.793633, "Latitude": 43.3390984 }, { "ID": "65", "Longitude": 0.1478724, "Latitude": 43.0526238 }, { "ID": "66", "Longitude": 2.5239855, "Latitude": 42.5825094 }, { "ID": "67", "Longitude": 7.5962225, "Latitude": 48.662515 }, { "ID": "68", "Longitude": 7.2656284, "Latitude": 47.8586205 }, { "ID": "69", "Longitude": 4.6859896, "Latitude": 45.8714754 }, { "ID": "70", "Longitude": 6.1388571, "Latitude": 47.5904191 }, { "ID": "71", "Longitude": 4.6394021, "Latitude": 46.5951234 }, { "ID": "72", "Longitude": 0.1947322, "Latitude": 48.0041421 }, { "ID": "73", "Longitude": 6.4662232, "Latitude": 45.4956055 }, { "ID": "74", "Longitude": 6.3609606, "Latitude": 46.1045902 }, { "ID": "75", "Longitude": 2.3416082, "Latitude": 48.8626759 }, { "ID": "76", "Longitude": 1.025579, "Latitude": 49.6862911 }, { "ID": "77", "Longitude": 2.8977309, "Latitude": 48.5957831 }, { "ID": "78", "Longitude": 1.8080138, "Latitude": 48.7831982 }, { "ID": "79", "Longitude": -0.3159014, "Latitude": 46.5490257 }, { "ID": "80", "Longitude": 2.3380595, "Latitude": 49.9783317 }, { "ID": "81", "Longitude": 2.2072751, "Latitude": 43.8524305 }, { "ID": "82", "Longitude": 1.2649374, "Latitude": 44.1254902 }, { "ID": "83", "Longitude": 6.1486127, "Latitude": 43.5007903 }, { "ID": "84", "Longitude": 5.065418, "Latitude": 44.0001599 }, { "ID": "85", "Longitude": -1.3956692, "Latitude": 46.5929102 }, { "ID": "86", "Longitude": 0.4953679, "Latitude": 46.5719095 }, { "ID": "87", "Longitude": 1.2500647, "Latitude": 45.9018644 }, { "ID": "88", "Longitude": 6.349702, "Latitude": 48.1770451 }, { "ID": "89", "Longitude": 3.5634078, "Latitude": 47.8474664 }, { "ID": "90", "Longitude": 6.9498114, "Latitude": 47.6184394 }, { "ID": "91", "Longitude": 2.2714555, "Latitude": 48.5203114 }, { "ID": "92", "Longitude": 2.2407148, "Latitude": 48.835321 }, { "ID": "93", "Longitude": 2.4811577, "Latitude": 48.9008719 }, { "ID": "94", "Longitude": 2.4549766, "Latitude": 48.7832368 }, { "ID": "95", "Longitude": 2.1802056, "Latitude": 49.076488 }, { "ID": "974", "Longitude": 55.536384, "Latitude": -21.115141 }, { "ID": "973", "Longitude": -53.125782, "Latitude": 3.933889 }, { "ID": "972", "Longitude": -61.024174, "Latitude": 14.641528 }, { "ID": "971", "Longitude": -61.551, "Latitude": 16.265 } ] return ListCentroids def vectorDatabase_connexion(): pc = Pinecone(api_key=os.environ['PINECONE_API_KEY']) index_name = "all-skills" index = pc.Index(index_name) return index def searchByRome(codeRome): index = vectorDatabase_connexion() allRome = [] if codeRome: all_docs = index.query( top_k=1500, vector= [0] * 768, # embedding dimension namespace='', filter={"categorie": {"$eq": "rome"},"rome": {"$eq": codeRome}}, include_metadata=True ) else: all_docs = index.query( top_k=1500, vector= [0] * 768, # embedding dimension namespace='', filter={"categorie": {"$eq": "rome"}}, include_metadata=True ) for refRome in all_docs['matches']: allRome.append({"value": refRome['metadata']['rome'], "label": refRome['metadata']['rome'] + " - " + refRome['metadata']['libelle_rome']}) return sorted(allRome, key=lambda element:element["value"]) def connexion_France_Travail(): client = Api(client_id=os.getenv('POLE_EMPLOI_CLIENT_ID'), client_secret=os.getenv('POLE_EMPLOI_CLIENT_SECRET')) return client def API_France_Travail(romeListArray): client = connexion_France_Travail() todayDate = datetime.datetime.today() month, year = (todayDate.month-1, todayDate.year) if todayDate.month != 1 else (12, todayDate.year-1) start_dt = todayDate.replace(day=1, month=month, year=year) end_dt = datetime.datetime.today() results = [] for k in romeListArray: if k[0:1] == ' ': k = k[1:] params = {"motsCles": k.replace('/', '').replace('-', '').replace(',', '').replace(' ', ','),'minCreationDate': dt_to_str_iso(start_dt),'maxCreationDate': dt_to_str_iso(end_dt),'range':'0-149'} try: search_on_big_data = client.search(params=params) results += search_on_big_data["resultats"] except: print("Il n'y a pas d'offres d'emploi.") results_df = pd.DataFrame(results) return results_df theme_toggle = dmc.Tooltip( dmc.ActionIcon( [ dmc.Paper(DashIconify(icon="radix-icons:sun", width=25), darkHidden=True), dmc.Paper(DashIconify(icon="radix-icons:moon", width=25), lightHidden=True), ], variant="transparent", color="yellow", id="color-scheme-toggle", size="lg", ms="auto", ), label="Changez de thème", position="left", withArrow=True, arrowSize=6, ) styleRefresh = { "color": "lightgrey", "textDecoration" : "none" } styleTitle = { "textAlign": "center" } styleUSERIA = { "textAlign": "right", "marginBottom" : "5px" } styleSUBMITIA = { "marginLeft":"auto", "marginRight":"auto", "marginTop": "5px", "marginBottom" : "5px" } styleSYSIA = { "marginTop":"10px", "marginBottom":"120px", } styleTopvar = { "display": "none" } styleToggle = { "marginTop":"25px", "textAlign": "right", } styleIcon = { "marginTop":"10px", } styleSubmitBox = { "position":"fixed", "width": "100%", "top": "calc(100vh - 100px)", "right": "0" } #datadefault = [ # {"value": "K2105", "label": "K2105"}, # {"value": "L1101", "label": "L1101"}, # {"value": "L1202", "label": "L1202"}, # {"value": "L1507", "label": "L1507"}, # {"value": "L1508", "label": "L1508"}, # {"value": "L1509", "label": "L1509"}, #] def custom_error_handler(err): # This function defines what we want to happen when an exception occurs # For now, we just print the exception to the terminal with additional text print(f"The app raised the following exception: {err}") def textbox(text, box="AI", name="Philippe"): text = text.replace(f"{name}:", "").replace("You:", "") #text = textile.textile(text) style = { "max-width": "60%", "width": "max-content", "padding": "5px 10px", "border-radius": 25, "margin-bottom": 20, } if box == "user": style["margin-left"] = "auto" style["margin-right"] = 0 #return dbc.Card(text, style=style, body=True, color="primary", inverse=True) return html.Div(dmc.Button(text, variant="gradient", gradient={"from": "grape", "to": "pink", "deg": 35}), style=styleUSERIA) elif box == "AI": style["margin-left"] = 0 style["margin-right"] = "auto" thumbnail = html.Img( src=app.get_asset_url("sparkles.gif"), style={ "border-radius": 50, "height": 36, "margin-right": 5, "float": "left", }, ) #textbox = dbc.Card(text, style=style, body=True, color="light", inverse=False) #textbox = dmc.Blockquote(text, style=styleSYSIA) textbox = dmc.Card(children=[dmc.Text(text,size="sm",c="dimmed")],withBorder=False,w="100%", style=styleSYSIA) return html.Div([thumbnail, textbox]) else: raise ValueError("Incorrect option for `box`.") #description = """ #Philippe is the principal architect at a condo-development firm in Paris. He lives with his girlfriend of five years in a 2-bedroom condo, with a small dog named Coco. Since the pandemic, his firm has seen a significant drop in condo requests. As such, he’s been spending less time designing and more time on cooking, his favorite hobby. He loves to cook international foods, venturing beyond French cuisine. But, he is eager to get back to architecture and combine his hobby with his occupation. That’s why he’s looking to create a new design for the kitchens in the company’s current inventory. Can you give him advice on how to do that? #""" # Authentication #openai.api_key = os.getenv("OPENAI_KEY") # Define Layout conversation = html.Div( html.Div(id="display-conversation"), style={ "overflow-y": "auto", "display": "flex", "height": "calc(100vh - 100px)", "flex-direction": "column-reverse", }, ) controls = dbc.InputGroup( children=[ dmc.TextInput(id="user-input", placeholder="Ecrire votre requête...", w="400", style=styleSUBMITIA), dbc.InputGroupAddon(dmc.Button(leftSection=DashIconify("Envoyer", icon="tabler:send", width=20), id="submit"), addon_type="append", style=styleTitle), #dbc.Input(id="user-input", placeholder="Ecrire votre requête...", type="text"), #dbc.InputGroupAddon(dbc.Button("Submit", id="submit"), addon_type="append"), ],style=styleSubmitBox ) class CustomDash(Dash): def interpolate_index(self, **kwargs): # Inspect the arguments by printing them return ''' Dashboard des compétences {app_entry} {config} {scripts} {renderer} '''.format( app_entry=kwargs['app_entry'], config=kwargs['config'], scripts=kwargs['scripts'], renderer=kwargs['renderer']) #app = Dash(__name__, external_scripts=external_scripts, external_stylesheets=dmc.styles.ALL, on_error=custom_error_handler) app = CustomDash(__name__, server=server, external_scripts=external_scripts, external_stylesheets=dmc.styles.ALL, on_error=custom_error_handler) app.layout = dmc.MantineProvider( [ html.Div( children=[ dmc.Container( children=[ dmc.Grid( children=[ dmc.GridCol(html.Div( children=[ dmc.MultiSelect( placeholder="Selectionnez vos Codes ROME", id="framework-multi-select", value=['K2105', 'L1101', 'L1202', 'L1507', 'L1508', 'L1509'], data=searchByRome(''), w=600, mt=10, styles={ "input": {"borderColor": "grey"}, "label": {"color": dmc.DEFAULT_THEME["colors"]["orange"][4]}, }, ), dmc.Drawer( title="Mistral répond à vos questions sur les datas de l'emploi et des compétences.", children=[dbc.Container( fluid=False, children=[ dcc.Store(id="store-conversation", data=""), html.Div(dmc.Button("Bonjour, Mistral est à votre écoute!", variant="gradient", gradient={"from": "grape", "to": "pink", "deg": 35}), style=styleUSERIA), conversation, dcc.Loading(html.Div(id="loading-component"),type="default"), controls, #dbc.Spinner(html.Div(id="loading-component")), ], ) ], id="drawer-simple", padding="md", size="50%", position="right" ),] ), span=5), dmc.GridCol(html.Div(dmc.Title(f"Le marché et les statistiques de l'emploi", order=1, size="30", my="20", id="chainlit-call-fn", style=styleTitle)), span=5), dmc.GridCol(html.Div(theme_toggle, style=styleToggle), span=1), dmc.GridCol(html.Div(dmc.Tooltip(dmc.Button(leftSection=DashIconify(icon="tabler:sparkles", width=30), id="drawer-demo-button"), label="IA générative sur les données",position="left",withArrow=True,arrowSize=6,), style=styleToggle), span=1), dmc.GridCol(html.A(DashIconify(icon="tabler:restore", width=20), href='/', style=styleRefresh), p=0,style=styleUSERIA, span=12), dmc.GridCol(dmc.Tabs( [ dmc.TabsList(mx="auto",grow=True, children=[ dmc.TabsTab("Marché de l'emploi", leftSection=DashIconify(icon="tabler:graph"), value="1"), dmc.TabsTab("Statistiques de l'emploi", leftSection=DashIconify(icon="tabler:chart-pie"), value="2"), dmc.TabsTab("Savoir-faire, Savoirs et Contexte des métiers", leftSection=DashIconify(icon="tabler:ikosaedr"), value="3"), ] ), dmc.TabsPanel( dmc.Grid( children=[ dmc.GridCol(html.Div( dcc.Loading( id="loadingRepartition", children=(dcc.Graph(id="figRepartition",selectedData={'points': [{'hovertext': ['01','02','03','04','05','06','07','08','09','10','11','12','13','14','15','16','17','18','19','2A','2B','21','22','23','24','25','26','27','28','29','30','31','32','33','34','35','36','37','38','39','40','41','42','43','44','45','46','47','48','49','50','51','52','53','54','55','56','57','58','59','60','61','62','63','64','65','66','67','68','69','70','71','72','73','74','75','76','77','78','79','80','81','82','83','84','85','86','87','88','89','90','91','92','93','94','95','971','972','973','974']}]})), type="default", ) ), span=6), dmc.GridCol(html.Div( dcc.Loading( id="loadingEmplois", children=(dcc.Graph(id="figEmplois")), type="default", ) ), span=6), dmc.GridCol(html.Div( dcc.Loading( id="loadingContrats", children=(dcc.Graph(id="figContrats")), type="default", ) ), span=6), dmc.GridCol(html.Div( dcc.Loading( id="loadingExperiences", children=(dcc.Graph(id="figExperiences")), type="default", ) ), span=6), dmc.GridCol(html.Div( dcc.Loading( id="loadingCompetences", children=(dcc.Graph(id="figCompetences")), type="default", ) ), span=6), dmc.GridCol(html.Div( dcc.Loading( id="loadingTransversales", children=(dcc.Graph(id="figTransversales")), type="default", ) ), span=6), dmc.GridCol(html.Div( dcc.Loading( id="loadingNiveau", children=(dcc.Graph(id="figNiveau")), type="default", ) ), span=6), dmc.GridCol(html.Div( dcc.Loading( id="loadingSecteur", children=(dcc.Graph(id="figSecteur")), type="default", ) ), span=6), dmc.GridCol(html.Div( dcc.Loading( id="loadingTableau", children=(dbc.Container(id="tableauEmplois")), type="default", ) ), span=12), ] ) , value="1"), dmc.TabsPanel( children=[ dmc.Button("Afficher les statistiques des métiers", mt=10, ml="auto", id="loading-button", leftSection=DashIconify(icon="tabler:chart-pie")), html.Div(id="clicked-output"), html.Div(id="clicked-output-tabs"), ], value="2"), dmc.TabsPanel( children=[ dmc.Button("Afficher les savoirs des métiers", mt=10, ml="auto", id="loading-skills", leftSection=DashIconify(icon="tabler:ikosaedr")), html.Div(id="clicked-output-skills"), html.Div(id="clicked-output-skills-tabs"), ], value="3"), ], value="1", ), span=12), ], gutter="xs", ) ],size="xxl",fluid=True ), ] ) ], id="mantine-provider", forceColorScheme="light", theme={ "primaryColor": "indigo", "fontFamily": "'Inter', sans-serif", "components": { "Button": {"defaultProps": {"fw": 400}}, "Alert": {"styles": {"title": {"fontWeight": 500}}}, "AvatarGroup": {"styles": {"truncated": {"fontWeight": 500}}}, "Badge": {"styles": {"root": {"fontWeight": 500}}}, "Progress": {"styles": {"label": {"fontWeight": 500}}}, "RingProgress": {"styles": {"label": {"fontWeight": 500}}}, "CodeHighlightTabs": {"styles": {"file": {"padding": 12}}}, "Table": { "defaultProps": { "highlightOnHover": True, "withTableBorder": True, "verticalSpacing": "sm", "horizontalSpacing": "md", } }, }, # add your colors "colors": { "deepBlue": ["#E9EDFC", "#C1CCF6", "#99ABF0"], # 10 color elements }, "shadows": { # other shadows (xs, sm, lg) will be merged from default theme "md": "1px 1px 3px rgba(0,0,0,.25)", "xl": "5px 5px 3px rgba(0,0,0,.25)", }, "headings": { "fontFamily": "Roboto, sans-serif", "sizes": { "h1": {"fontSize": 30}, }, }, }, ) @callback( Output("mantine-provider", "forceColorScheme"), Input("color-scheme-toggle", "n_clicks"), State("mantine-provider", "forceColorScheme"), prevent_initial_call=True, ) def switch_theme(_, theme): return "dark" if theme == "light" else "light" @callback( Output("drawer-simple", "opened"), Input("drawer-demo-button", "n_clicks"), prevent_initial_call=True, ) def drawer_demo(n_clicks): return True @callback( Output(component_id='figRepartition', component_property='figure'), Output(component_id='figCompetences', component_property='figure'), Output(component_id='figTransversales', component_property='figure'), Output(component_id='figNiveau', component_property='figure'), Output(component_id='figSecteur', component_property='figure'), Input(component_id='framework-multi-select', component_property='value'), Input('figEmplois', 'selectedData'), Input("mantine-provider", "forceColorScheme"), ) def create_repartition(array_value, selectedData, theme): if theme == "dark": template = "plotly_dark" paper_bgcolor = 'rgba(36, 36, 36, 1)' plot_bgcolor = 'rgba(36, 36, 36, 1)' else: template = "ggplot2" paper_bgcolor = 'rgba(255, 255, 255, 1)' plot_bgcolor = 'rgba(255, 255, 255, 1)' df_FT = API_France_Travail(array_value) ######## localisation ######## df = df_FT[['intitule','typeContratLibelle','experienceLibelle','lieuTravail','secteurActiviteLibelle']].copy() df["lieuTravail"] = df["lieuTravail"].apply(lambda x: x['libelle']).apply(lambda x: x[0:3]).apply(lambda x: x.strip()) df.drop(df[df['lieuTravail'] == 'Fra'].index, inplace = True) df.drop(df[df['lieuTravail'] == 'FRA'].index, inplace = True) df.drop(df[df['lieuTravail'] == 'Ile'].index, inplace = True) df.drop(df[df['lieuTravail'] == 'Mar'].index, inplace = True) df.drop(df[df['lieuTravail'] == 'Bou'].index, inplace = True) df.drop(df[df['lieuTravail'] == '976'].index, inplace = True) ######## Filtre Emplois ######## options = [] if selectedData != None: if type(selectedData['points'][0]['y']) == str: options.append(selectedData['points'][0]['y'][:-3]) else: options = selectedData['points'][0]['y'][:-3] else: options = df['intitule'].values.tolist() df = df[df['intitule'].isin(options)] ######## localisation ######## ListCentroids = localisation() df_localisation = df.groupby('lieuTravail').size().reset_index(name='obs') df_localisation = df_localisation.sort_values(by=['lieuTravail']) df_localisation['longitude'] = df_localisation['lieuTravail'] df_localisation['latitude'] = df_localisation['lieuTravail'] df_localisation["longitude"] = df_localisation['longitude'].apply(lambda x:[loc['Longitude'] for loc in ListCentroids if loc['ID'] == x]).apply(lambda x:''.join(map(str, x))) df_localisation["longitude"] = pd.to_numeric(df_localisation["longitude"], downcast="float") df_localisation["latitude"] = df_localisation['latitude'].apply(lambda x:[loc['Latitude'] for loc in ListCentroids if loc['ID'] == x]).apply(lambda x:''.join(map(str, x))) df_localisation["latitude"] = pd.to_numeric(df_localisation["latitude"], downcast="float") res = requests.get( "https://raw.githubusercontent.com/codeforgermany/click_that_hood/main/public/data/france-regions.geojson" ) fig_localisation = px.scatter_mapbox(df_localisation, lat="latitude", lon="longitude", height=600, template=template, title="La répartition géographique des emplois", hover_name="lieuTravail", size="obs").update_layout( mapbox={ "style": "carto-positron", "center": {"lon": 2, "lat" : 47}, "zoom": 4.5, "layers": [ { "source": res.json(), "type": "line", "color": "green", "line": {"width": 0}, } ], },font=dict(size=10),paper_bgcolor=paper_bgcolor,autosize=True,clickmode='event+select' ) ######## Compétences professionnelles ######## df_FT.dropna(subset=['qualitesProfessionnelles','formations','competences'], inplace=True) df_FT["competences"] = df_FT["competences"].apply(lambda x:[str(e['libelle']) for e in x]).apply(lambda x:'; '.join(map(str, x))) df_FT["qualitesProfessionnelles"] = df_FT["qualitesProfessionnelles"].apply(lambda x:[str(e['libelle']) + ": " + str(e['description']) for e in x]).apply(lambda x:'; '.join(map(str, x))) df_comp = df_FT df_comp['competences'] = df_FT['competences'].str.split(';') df_comp = df_comp.explode('competences') df_comp = df_comp.groupby('competences').size().reset_index(name='obs') df_comp = df_comp.sort_values(by=['obs']) df_comp = df_comp.iloc[-25:] fig_competences = px.bar(df_comp, x='obs', y='competences', orientation='h', color='obs', height=600, template=template, title="Les principales compétences professionnelles", labels={'obs':'nombre'}, color_continuous_scale="Teal", text_auto=True).update_layout(font=dict(size=10),paper_bgcolor=paper_bgcolor,plot_bgcolor=plot_bgcolor,clickmode='event+select',autosize=True).update_traces(hovertemplate=df_comp["competences"] + '
Nombre : %{x}', y=[y[:100] + "..." for y in df_comp['competences']], showlegend=False) ######## Compétences transversales ######## df_transversales = df_FT df_transversales['qualitesProfessionnelles'] = df_FT['qualitesProfessionnelles'].str.split(';') df_comptransversales = df_transversales.explode('qualitesProfessionnelles') df_comptransversales = df_comptransversales.groupby('qualitesProfessionnelles').size().reset_index(name='obs') df_comptransversales = df_comptransversales.sort_values(by=['obs']) df_comptransversales = df_comptransversales.iloc[-25:] fig_transversales = px.bar(df_comptransversales, x='obs', y='qualitesProfessionnelles', orientation='h', color='obs', height=600, template=template, title="Les principales compétences transversales", labels={'obs':'nombre'}, color_continuous_scale="Teal", text_auto=True).update_layout(font=dict(size=10),paper_bgcolor=paper_bgcolor,plot_bgcolor=plot_bgcolor,autosize=True).update_traces(hovertemplate=df_comptransversales["qualitesProfessionnelles"] + '
Nombre : %{x}', y=[y[:80] + "..." for y in df_comptransversales["qualitesProfessionnelles"]], showlegend=False) ######## Niveaux de qualification ######## df_niveau = df_FT df_niveau["formations"] = df_niveau["formations"].apply(lambda x:[str(e['niveauLibelle']) for e in x]).apply(lambda x:'; '.join(map(str, x))) df_niveau = df_niveau.groupby('formations').size().reset_index(name='obs') fig_niveau = px.pie(df_niveau, names='formations', height=600, values='obs', color='obs', template=template, title="Les niveaux de qualification", labels={'obs':'nombre'}, color_discrete_sequence=px.colors.qualitative.Safe).update_traces(textposition='inside', textinfo='percent+label').update_layout(font=dict(size=10),paper_bgcolor=paper_bgcolor) ######## Secteurs ######## df_secteur = df.groupby('secteurActiviteLibelle').size().reset_index(name='obs') df_secteur = df_secteur.sort_values(by=['obs']) df_secteur = df_secteur.iloc[-25:] fig_secteur = px.bar(df_secteur, x='obs', y='secteurActiviteLibelle', height=600, orientation='h', color='obs', template=template, title="Les principaux secteurs d'activités", labels={'obs':'nombre'}, color_continuous_scale="Teal", text_auto=True).update_layout(font=dict(size=10),paper_bgcolor=paper_bgcolor,plot_bgcolor=plot_bgcolor,autosize=True).update_traces(hovertemplate=df_secteur["secteurActiviteLibelle"] + '
Nombre : %{x}', y=[y[:80] + "..." for y in df_secteur["secteurActiviteLibelle"]], showlegend=False) return fig_localisation, fig_competences, fig_transversales, fig_niveau, fig_secteur def create_emploi(df, theme): if theme == "dark": template = "plotly_dark" paper_bgcolor = 'rgba(36, 36, 36, 1)' plot_bgcolor = 'rgba(36, 36, 36, 1)' else: template = "ggplot2" paper_bgcolor = 'rgba(255, 255, 255, 1)' plot_bgcolor = 'rgba(255, 255, 255, 1)' ######## Emplois ######## df_intitule = df.groupby('intitule').size().reset_index(name='obs') df_intitule = df_intitule.sort_values(by=['obs']) df_intitule = df_intitule.iloc[-25:] fig_intitule = px.bar(df_intitule, x='obs', y='intitule', height=600, orientation='h', color='obs', template=template, title="Les principaux emplois", labels={'obs':'nombre'}, color_continuous_scale="Teal", text_auto=True).update_layout(font=dict(size=10),paper_bgcolor=paper_bgcolor,plot_bgcolor=plot_bgcolor,clickmode='event+select',autosize=True).update_traces(hovertemplate=df_intitule["intitule"] + '
Nombre : %{x}', y=[y[:100] + "..." for y in df_intitule["intitule"]], showlegend=False) return fig_intitule def create_contrat(df, theme): if theme == "dark": template = "plotly_dark" paper_bgcolor = 'rgba(36, 36, 36, 1)' else: template = "ggplot2" paper_bgcolor = 'rgba(255, 255, 255, 1)' ######## Types de contrat ######## df_contrat = df.groupby('typeContratLibelle').size().reset_index(name='obs') fig_contrat = px.pie(df_contrat, names='typeContratLibelle', values='obs', color='obs', height=600, template=template, title="Les types de contrat", labels={'obs':'nombre'}, color_discrete_sequence=px.colors.qualitative.Safe).update_traces(textposition='inside', textinfo='percent+label').update_layout(font=dict(size=10),paper_bgcolor=paper_bgcolor) return fig_contrat def create_experience(df, theme): if theme == "dark": template = "plotly_dark" paper_bgcolor = 'rgba(36, 36, 36, 1)' else: template = "ggplot2" paper_bgcolor = 'rgba(255, 255, 255, 1)' ######## Expériences professionnelles ######## df_experience = df.groupby('experienceLibelle').size().reset_index(name='obs') fig_experience = px.pie(df_experience, names='experienceLibelle', values='obs', color='obs', height=600, template=template, title="Les expériences professionnelles", labels={'obs':'nombre'}, color_discrete_sequence=px.colors.qualitative.Safe).update_traces(textposition='inside', textinfo='percent+label').update_layout(font=dict(size=10),paper_bgcolor=paper_bgcolor) return fig_experience def create_tableau(df, theme): if theme == "dark": style_header = { 'fontFamily': "'Inter', sans-serif", 'fontSize': '10px', 'backgroundColor': 'rgb(30, 30, 30)', 'color': 'white' } style_data={ 'fontFamily': "'Inter', sans-serif", 'fontSize': '10px', 'backgroundColor': 'rgb(50, 50, 50)', 'color': 'white' } style_tooltip='background-color: lightgrey; font-family: "Inter", sans-serif; font-size:10px; color: white' else: style_header = { 'fontFamily': "'Inter', sans-serif", 'fontSize': '10px', 'backgroundColor': 'transparent', 'color': 'black' } style_data={ 'fontFamily': "'Inter', sans-serif", 'fontSize': '10px', 'backgroundColor': 'transparent', 'color': 'black' } style_tooltip='background-color: lightgrey; font-family: "Inter", sans-serif; font-size:10px; color: black' ######## Tableau des emplois ######## #df = df.fillna('N/A').replace('', 'N/A') df_tableau = df[['origineOffre','intitule','typeContratLibelle','experienceLibelle','description','lieuTravail']].copy() dictHeader = {'origineOffre': 'Lien','intitule': 'Offre','typeContratLibelle': 'Type de contrat','experienceLibelle':'Expérience','description':'Détail','lieuTravail':'Département'} df_tableau.rename(columns=dictHeader,inplace=True) tableau_Emplois = dash_table.DataTable( data=df_tableau.to_dict('records'), sort_action='native', columns=[{'id': c, 'name': c, 'presentation': 'markdown'} if c == 'Lien' else {'id': c, 'name': c} for c in df_tableau.columns], filter_action="native", filter_options={"placeholder_text": "Filtrer les valeurs de la colonne..."}, page_action='native', page_current= 0, page_size= 10, style_header=style_header, style_data=style_data, style_table={'overflowX': 'auto'}, style_cell={ 'overflow': 'hidden', 'textOverflow': 'ellipsis', 'maxWidth': 0, }, tooltip_data=[ { column: {'value': str(value), 'type': 'markdown'} for column, value in row.items() } for row in df_tableau.to_dict('records') ], css=[{ 'selector': '.dash-table-tooltip', 'rule': style_tooltip },{ 'selector': '.dash-table-tooltip > p', 'rule': style_tooltip }], tooltip_delay=0, tooltip_duration=None ) return tableau_Emplois @callback( Output(component_id='figEmplois', component_property='figure'), Input('figRepartition', 'selectedData'), Input(component_id='framework-multi-select', component_property='value'), Input("mantine-provider", "forceColorScheme"), ) def update_emploi(selectedData, array_value, theme): options = [] if selectedData != None: if type(selectedData['points'][0]['hovertext']) == str: options.append(selectedData['points'][0]['hovertext']) else: options = selectedData['points'][0]['hovertext'] else: options = ['01','02','03','04','05','06','07','08','09','10','11','12','13','14','15','16','17','18','19','2A','2B','21','22','23','24','25','26','27','28','29','30','31','32','33','34','35','36','37','38','39','40','41','42','43','44','45','46','47','48','49','50','51','52','53','54','55','56','57','58','59','60','61','62','63','64','65','66','67','68','69','70','71','72','73','74','75','76','77','78','79','80','81','82','83','84','85','86','87','88','89','90','91','92','93','94','95','971','972','973','974'] df_FT = API_France_Travail(array_value) df = df_FT[['intitule','typeContratLibelle','experienceLibelle','lieuTravail']].copy() df["lieuTravail"] = df["lieuTravail"].apply(lambda x: x['libelle']).apply(lambda x: x[0:3]).apply(lambda x: x.strip()) df.drop(df[df['lieuTravail'] == 'Fra'].index, inplace = True) df.drop(df[df['lieuTravail'] == 'FRA'].index, inplace = True) df.drop(df[df['lieuTravail'] == 'Ile'].index, inplace = True) df.drop(df[df['lieuTravail'] == 'Mar'].index, inplace = True) df.drop(df[df['lieuTravail'] == 'Bou'].index, inplace = True) df.drop(df[df['lieuTravail'] == '976'].index, inplace = True) df = df[df['lieuTravail'].isin(options)] return create_emploi(df, theme) @callback( Output(component_id='figContrats', component_property='figure'), Input('figRepartition', 'selectedData'), Input(component_id='framework-multi-select', component_property='value'), Input("mantine-provider", "forceColorScheme"), ) def update_contrat(selectedData, array_value, theme): options = [] if selectedData != None: if type(selectedData['points'][0]['hovertext']) == str: options.append(selectedData['points'][0]['hovertext']) else: options = selectedData['points'][0]['hovertext'] else: options = ['01','02','03','04','05','06','07','08','09','10','11','12','13','14','15','16','17','18','19','2A','2B','21','22','23','24','25','26','27','28','29','30','31','32','33','34','35','36','37','38','39','40','41','42','43','44','45','46','47','48','49','50','51','52','53','54','55','56','57','58','59','60','61','62','63','64','65','66','67','68','69','70','71','72','73','74','75','76','77','78','79','80','81','82','83','84','85','86','87','88','89','90','91','92','93','94','95','971','972','973','974'] df_FT = API_France_Travail(array_value) df = df_FT[['intitule','typeContratLibelle','experienceLibelle','lieuTravail']].copy() df["lieuTravail"] = df["lieuTravail"].apply(lambda x: x['libelle']).apply(lambda x: x[0:3]).apply(lambda x: x.strip()) df.drop(df[df['lieuTravail'] == 'Fra'].index, inplace = True) df.drop(df[df['lieuTravail'] == 'FRA'].index, inplace = True) df.drop(df[df['lieuTravail'] == 'Ile'].index, inplace = True) df.drop(df[df['lieuTravail'] == 'Mar'].index, inplace = True) df.drop(df[df['lieuTravail'] == 'Bou'].index, inplace = True) df.drop(df[df['lieuTravail'] == '976'].index, inplace = True) df = df[df['lieuTravail'].isin(options)] return create_contrat(df, theme) @callback( Output(component_id='figExperiences', component_property='figure'), Input('figRepartition', 'selectedData'), Input(component_id='framework-multi-select', component_property='value'), Input("mantine-provider", "forceColorScheme"), ) def update_experience(selectedData, array_value, theme): options = [] if selectedData != None: if type(selectedData['points'][0]['hovertext']) == str: options.append(selectedData['points'][0]['hovertext']) else: options = selectedData['points'][0]['hovertext'] else: options = ['01','02','03','04','05','06','07','08','09','10','11','12','13','14','15','16','17','18','19','2A','2B','21','22','23','24','25','26','27','28','29','30','31','32','33','34','35','36','37','38','39','40','41','42','43','44','45','46','47','48','49','50','51','52','53','54','55','56','57','58','59','60','61','62','63','64','65','66','67','68','69','70','71','72','73','74','75','76','77','78','79','80','81','82','83','84','85','86','87','88','89','90','91','92','93','94','95','971','972','973','974'] df_FT = API_France_Travail(array_value) df = df_FT[['intitule','typeContratLibelle','experienceLibelle','lieuTravail']].copy() df["lieuTravail"] = df["lieuTravail"].apply(lambda x: x['libelle']).apply(lambda x: x[0:3]).apply(lambda x: x.strip()) df.drop(df[df['lieuTravail'] == 'Fra'].index, inplace = True) df.drop(df[df['lieuTravail'] == 'FRA'].index, inplace = True) df.drop(df[df['lieuTravail'] == 'Ile'].index, inplace = True) df.drop(df[df['lieuTravail'] == 'Mar'].index, inplace = True) df.drop(df[df['lieuTravail'] == 'Bou'].index, inplace = True) df.drop(df[df['lieuTravail'] == '976'].index, inplace = True) df = df[df['lieuTravail'].isin(options)] return create_experience(df, theme) @callback( Output(component_id='tableauEmplois', component_property='children'), Input('figRepartition', 'selectedData'), Input(component_id='framework-multi-select', component_property='value'), Input("mantine-provider", "forceColorScheme"), ) def update_tableau(selectedData, array_value, theme): options = [] if selectedData != None: if type(selectedData['points'][0]['hovertext']) == str: options.append(selectedData['points'][0]['hovertext']) else: options = selectedData['points'][0]['hovertext'] else: options = ['01','02','03','04','05','06','07','08','09','10','11','12','13','14','15','16','17','18','19','2A','2B','21','22','23','24','25','26','27','28','29','30','31','32','33','34','35','36','37','38','39','40','41','42','43','44','45','46','47','48','49','50','51','52','53','54','55','56','57','58','59','60','61','62','63','64','65','66','67','68','69','70','71','72','73','74','75','76','77','78','79','80','81','82','83','84','85','86','87','88','89','90','91','92','93','94','95','971','972','973','974'] df_FT = API_France_Travail(array_value) df_FT["origineOffre"] = df_FT["origineOffre"].apply(lambda x: "[Voir l'offre sur le site web de France Travail](" + x['urlOrigine'] + ")") df_FT["lieuTravail"] = df_FT["lieuTravail"].apply(lambda x: x['libelle']).apply(lambda x: x[0:3]).apply(lambda x: x.strip()) df_FT.drop(df_FT[df_FT['lieuTravail'] == 'Fra'].index, inplace = True) df_FT.drop(df_FT[df_FT['lieuTravail'] == 'FRA'].index, inplace = True) df_FT.drop(df_FT[df_FT['lieuTravail'] == 'Ile'].index, inplace = True) df_FT.drop(df_FT[df_FT['lieuTravail'] == 'Mar'].index, inplace = True) df_FT.drop(df_FT[df_FT['lieuTravail'] == 'Bou'].index, inplace = True) df_FT.drop(df_FT[df_FT['lieuTravail'] == '976'].index, inplace = True) df_FT = df_FT[df_FT['lieuTravail'].isin(options)] return create_tableau(df_FT, theme) clientside_callback( """ function updateLoadingState(n_clicks) { return true } """, Output("loading-button", "loading", allow_duplicate=True), Input("loading-button", "n_clicks"), prevent_initial_call=True, ) @callback( Output("clicked-output", "children"), Output("clicked-output-tabs", "children"), Output("loading-button", "loading"), Input("loading-button", "n_clicks"), Input(component_id='framework-multi-select', component_property='value'), Input("mantine-provider", "forceColorScheme"), prevent_initial_call=True, ) def load_from_stats(n_clicks, array_value, theme): if theme == "dark": template = "plotly_dark" paper_bgcolor = 'rgba(36, 36, 36, 1)' plot_bgcolor = 'rgba(36, 36, 36, 1)' style_header = { 'fontFamily': "'Inter', sans-serif", 'fontSize': '10px', 'backgroundColor': 'rgb(30, 30, 30)', 'color': 'white' } style_data={ 'fontFamily': "'Inter', sans-serif", 'fontSize': '10px', 'backgroundColor': 'rgb(50, 50, 50)', 'color': 'white' } else: template = "ggplot2" paper_bgcolor = 'rgba(255, 255, 255, 1)' plot_bgcolor = 'rgba(255, 255, 255, 1)' style_header = { 'fontFamily': "'Inter', sans-serif", 'fontSize': '10px', 'backgroundColor': 'transparent', 'color': 'black' } style_data={ 'fontFamily': "'Inter', sans-serif", 'fontSize': '10px', 'backgroundColor': 'transparent', 'color': 'black' } children = [] children_tabs = [] for j in range(0, len(array_value)): table = datavisualisation_chiffres_cles_emplois("https://dataemploi.pole-emploi.fr/metier/chiffres-cles/NAT/FR/" + array_value[j]) array_label_rome = searchByRome(array_value[j]) df_demandeur = htmlToDataframe(table[0]) df_demandeur = df_demandeur.sort_values(by=['Indicateur']) fig_demandeur = px.histogram(df_demandeur, x='Indicateur', y='Valeur', height=800, template=template, title="Demandeurs d'emploi et offres d'emploi du code ROME : " + array_label_rome[0]['label'], color='Indicateur', labels={'Valeur':'Nombre'}, text_auto=True).update_layout(font=dict(size=9),paper_bgcolor=paper_bgcolor,plot_bgcolor=plot_bgcolor,autosize=True) children.append(dmc.GridCol(html.Div(dcc.Loading(id="loadingPlot",children=(dcc.Graph(figure=fig_demandeur)),type="default")), span=6),) children_tabs.append(dmc.GridCol(html.Div(dcc.Loading(id="loadingPlot",children=[dbc.Label("Demandeurs d'emploi et offres d'emploi du code ROME : " + array_label_rome[0]['label']),dash_table.DataTable(data=df_demandeur.to_dict('records'),sort_action='native', columns=[{'id': c, 'name': c} for c in df_demandeur.columns],page_action='native', page_current= 0,page_size= 10,style_header=style_header,style_data=style_data,style_table={'overflowX': 'auto'},style_cell={'overflow': 'hidden','textOverflow': 'ellipsis','maxWidth': 0,})],type="default")), span=12),) if len(table[1]) > 0: df_salaire = htmlToDataframe(table[1]) df_salaire = df_salaire.sort_values(by=['salaire']) fig_salaire = px.histogram(df_salaire, x='emploi', y='salaire', height=600, template=template, barmode='group', title="Salaires médians du code ROME : " + array_label_rome[0]['label'], color='categorie', text_auto=True).update_layout(font=dict(size=9),paper_bgcolor=paper_bgcolor,plot_bgcolor=plot_bgcolor,autosize=True) children.append(dmc.GridCol(html.Div(dcc.Loading(id="loadingPlot",children=(dcc.Graph(figure=fig_salaire)),type="default")), span=6),) children_tabs.append(dmc.GridCol(html.Div(dcc.Loading(id="loadingPlot",children=[dbc.Label("Salaires médians du code ROME : " + array_label_rome[0]['label']),dash_table.DataTable(data=df_salaire.to_dict('records'),sort_action='native', columns=[{'id': c, 'name': c} for c in df_salaire.columns],page_action='native', page_current= 0,page_size= 10,style_header=style_header,style_data=style_data,style_table={'overflowX': 'auto'},style_cell={'overflow': 'hidden','textOverflow': 'ellipsis','maxWidth': 0,})],type="default")), span=12),) df_difficulte = htmlToDataframe(table[2]) if len(df_difficulte) == 0: title = "Aucune donnée difficulté de recrutement renseignée!" else: title = "Difficulté de recrutement du code ROME : " + array_label_rome[0]['label'] df_difficulte = df_difficulte.sort_values(by=['Valeur']) fig_difficulte = px.histogram(df_difficulte, x='Indicateur', y='Valeur', height=600, template=template, title=title, color='Indicateur', labels={'Valeur':'Pourcentage'}, text_auto=True).update_layout(font=dict(size=9),paper_bgcolor=paper_bgcolor,plot_bgcolor=plot_bgcolor,autosize=True) children.append(dmc.GridCol(html.Div(dcc.Loading(id="loadingPlot",children=(dcc.Graph(figure=fig_difficulte)),type="default")), span=6)) children_tabs.append(dmc.GridCol(html.Div(dcc.Loading(id="loadingPlot",children=[dbc.Label(title),dash_table.DataTable(data=df_difficulte.to_dict('records'),sort_action='native', columns=[{'id': c, 'name': c} for c in df_difficulte.columns],page_action='native', page_current= 0,page_size= 10,style_header=style_header,style_data=style_data,style_table={'overflowX': 'auto'},style_cell={'overflow': 'hidden','textOverflow': 'ellipsis','maxWidth': 0,})],type="default")), span=12),) df_repartitionContrat = htmlToDataframe(table[3]) df_repartitionContrat = df_repartitionContrat.sort_values(by=['Valeur']) fig_repartitionContrat = px.pie(df_repartitionContrat, names='Indicateur', values='Valeur', color='Indicateur', template=template, title="Répartition des embauches du métier : type de contrat du code ROME : " + array_label_rome[0]['label'], labels={'Valeur':'pourcentage'}, color_discrete_sequence=px.colors.qualitative.Safe).update_traces(textposition='inside', textinfo='percent+label').update_layout(font=dict(size=10),paper_bgcolor=paper_bgcolor) children.append(dmc.GridCol(html.Div(dcc.Loading(id="loadingPlot",children=(dcc.Graph(figure=fig_repartitionContrat)),type="default")), span=6)) children_tabs.append(dmc.GridCol(html.Div(dcc.Loading(id="loadingPlot",children=[dbc.Label("Répartition des embauches du métier : type de contrat du code ROME : " + array_label_rome[0]['label']),dash_table.DataTable(data=df_repartitionContrat.to_dict('records'),sort_action='native', columns=[{'id': c, 'name': c} for c in df_repartitionContrat.columns],page_action='native', page_current= 0,page_size= 10,style_header=style_header,style_data=style_data,style_table={'overflowX': 'auto'},style_cell={'overflow': 'hidden','textOverflow': 'ellipsis','maxWidth': 0,})],type="default")), span=12),) df_repartitionEntreprise = htmlToDataframe(table[4]) df_repartitionEntreprise = df_repartitionEntreprise.sort_values(by=['Valeur']) fig_repartitionEntreprise = px.pie(df_repartitionEntreprise, names='Indicateur', values='Valeur', color='Indicateur', template=template, title="Répartition des embauches du métier : type entreprise du code ROME : " + array_label_rome[0]['label'], labels={'Valeur':'pourcentage'}, color_discrete_sequence=px.colors.qualitative.Safe).update_traces(textposition='inside', textinfo='percent+label').update_layout(font=dict(size=10),paper_bgcolor=paper_bgcolor) children.append(dmc.GridCol(html.Div(dcc.Loading(id="loadingPlot",children=(dcc.Graph(figure=fig_repartitionEntreprise)),type="default")), span=6)) children_tabs.append(dmc.GridCol(html.Div(dcc.Loading(id="loadingPlot",children=[dbc.Label("Répartition des embauches du métier : type entreprise du code ROME : " + array_label_rome[0]['label']),dash_table.DataTable(data=df_repartitionEntreprise.to_dict('records'),sort_action='native', columns=[{'id': c, 'name': c} for c in df_repartitionEntreprise.columns],page_action='native', page_current= 0,page_size= 10,style_header=style_header,style_data=style_data,style_table={'overflowX': 'auto'},style_cell={'overflow': 'hidden','textOverflow': 'ellipsis','maxWidth': 0,})],type="default")), span=12),) return dmc.Grid(children=children), dmc.Grid(children=children_tabs), False clientside_callback( """ function updateLoadingState(n_clicks) { return true } """, Output("loading-skills", "loading", allow_duplicate=True), Input("loading-skills", "n_clicks"), prevent_initial_call=True, ) @callback( Output("clicked-output-skills", "children"), Output("loading-skills", "loading"), Input("loading-skills", "n_clicks"), Input(component_id='framework-multi-select', component_property='value'), Input("mantine-provider", "forceColorScheme"), prevent_initial_call=True, ) def load_from_skills(n_clicks, array_value, theme): if theme == "dark": template = "plotly_dark" paper_bgcolor = 'rgba(36, 36, 36, 1)' plot_bgcolor = 'rgba(36, 36, 36, 1)' else: template = "ggplot2" paper_bgcolor = 'rgba(255, 255, 255, 1)' plot_bgcolor = 'rgba(255, 255, 255, 1)' children = [] for j in range(0, len(array_value)): ficheSF = getSavoirFaireFromHTMLMetier("https://candidat.francetravail.fr/metierscope/fiche-metier/" + array_value[j]) fig_SF = datavisualisation_skills_context(htmlToDataframe(ficheSF), template, paper_bgcolor, plot_bgcolor, "Savoir-faire", array_value[j]) ficheSavoir = getSavoirFromHTMLMetier("https://candidat.francetravail.fr/metierscope/fiche-metier/" + array_value[j]) fig_Savoir = datavisualisation_skills_context(htmlToDataframe(ficheSavoir), template, paper_bgcolor, plot_bgcolor, "Savoirs", array_value[j]) ficheContext = getContextFromHTMLMetier("https://candidat.francetravail.fr/metierscope/fiche-metier/" + array_value[j]) fig_Context = datavisualisation_skills_context(htmlToDataframe(ficheContext), template, paper_bgcolor, plot_bgcolor, "Contexte", array_value[j]) children.append(dmc.GridCol(html.Div(dcc.Loading(id="loadingPlot",children=(dcc.Graph(figure=fig_SF)), type="default"), style=styleTitle), span=12),) children.append(dmc.GridCol(html.Div(dcc.Loading(id="loadingPlot",children=(dcc.Graph(figure=fig_Savoir)), type="default"), style=styleTitle), span=12),) children.append(dmc.GridCol(html.Div(dcc.Loading(id="loadingPlot",children=(dcc.Graph(figure=fig_Context)), type="default"), style=styleTitle), span=12),) return dmc.Grid(children=children), False ########### IA Chatbot ########### @app.callback( Output("display-conversation", "children"), [Input("store-conversation", "data")] ) def update_display(chat_history): return [ textbox(x, box="user") if i % 2 == 0 else textbox(x, box="AI") for i, x in enumerate(chat_history.split("")[:-1]) ] @app.callback( Output("user-input", "value"), [Input("submit", "n_clicks"), Input("user-input", "n_submit")], ) def clear_input(n_clicks, n_submit): return "" @app.callback( [Output("store-conversation", "data"), Output("loading-component", "children")], [Input("submit", "n_clicks"), Input("user-input", "n_submit")], [State("user-input", "value"), State("store-conversation", "data")], Input(component_id='framework-multi-select', component_property='value'), ) def run_chatbot(n_clicks, n_submit, user_input, chat_history, array_value): if n_clicks == 0 and n_submit is None: return "", None if user_input is None or user_input == "": return chat_history, None df_FT = API_France_Travail(array_value) df_FT_Select = df_FT[['intitule','typeContratLibelle','experienceLibelle','competences','description','qualitesProfessionnelles','salaire','lieuTravail','formations']].copy() list_FT = df_FT_Select.values.tolist() context = '' for i in range(0,len(list_FT)): context += "\n✔️ Emploi : " + str(list_FT[i][0]) + ";\n◉ Contrat : " + str(list_FT[i][1]) + ";\n◉ Compétences professionnelles : " + str(list_FT[i][3]).replace("{","").replace("}","").replace("[","").replace("]","").replace("code","").replace("libelle","") + ";\n" + "◉ Salaire : " + str(list_FT[i][6]).replace("{","").replace("}","").replace("[","").replace("]","") + ";\n◉ Qualification : " + str(list_FT[i][5]).replace("'libelle'","\n• 'libelle").replace("{","").replace("}","").replace("[","").replace("]","").replace("code","") + ";\n◉ Localisation : " + str(list_FT[i][7]).replace("{","").replace("}","").replace("[","").replace("]","") + ";\n◉ Expérience : " + str(list_FT[i][2]) + ";\n◉ Niveau de qualification : " + str(list_FT[i][8]).replace("{","").replace("}","").replace("[","").replace("]","") + ";\n◉ Description de l'emploi : " + str(list_FT[i][4]) + "\n" #context = df_FT.to_string(index=False) template = """[INST] Vous êtes un ingénieur pédagogique de l'enseignement supérieur et vous êtes doué pour faire des analyses des formations de l'enseignement supérieur et de faire le rapprochement entre les compétences académiques et les compétences professionnelles attendues par le marché de l'emploi et les les recruteurs, en fonction des critères définis ci-avant. En fonction des informations suivantes et du contexte suivant seulement et strictement, répondez en langue française strictement à la question ci-dessous, en 5000 mots au moins. Lorsque cela est possible, cite les sources du contexte. Si vous ne pouvez pas répondre à la question sur la base des informations, dites que vous ne trouvez pas de réponse ou que vous ne parvenez pas à trouver de réponse. Essayez donc de comprendre en profondeur le contexte et répondez uniquement en vous basant sur les informations fournies. Ne générez pas de réponses non pertinentes. Répondez à la question ci-dessous à partir du contexte ci-dessous : {context} {question} [/INST] """ context_p = context[:28500] name = "Mistral" chat_history += f"Vous: {user_input}{name}:" model_input = template + chat_history.replace("", "\n") #model_input = template prompt = PromptTemplate(template=model_input, input_variables=["question","context"]) #prompt = dedent( # f""" #{description} #Vous: Bonjour {name}! #{name}: Bonjour! Ravi de parler avec vous aujourd'hui. #""" #) # First add the user input to the chat history os.environ['HUGGINGFACEHUB_API_TOKEN'] = os.environ['HUGGINGFACEHUB_API_TOKEN'] #repo_id = "mistralai/Mistral-7B-Instruct-v0.3" repo_id = "mistralai/Mixtral-8x7B-Instruct-v0.1" #repo_id = "microsoft/Phi-3.5-mini-instruct" #mistral_url = "https://api-inference.huggingface.co/models/mistralai/Mixtral-8x22B-Instruct-v0.1" llm = HuggingFaceEndpoint( repo_id=repo_id, task="text2text-generation", max_new_tokens=8000, temperature=0.3, streaming=True ) model_output = "" chain = prompt | llm for s in chain.stream({"question":"D'après le contexte, " + user_input,"context":context_p}): model_output = model_output + s print(s, end="", flush=True) #response = openai.Completion.create( # engine="davinci", # prompt=model_input, # max_tokens=250, # stop=["You:"], # temperature=0.9, #) #model_output = response.choices[0].text.strip() chat_history += f"{model_output}" return chat_history, None if __name__ == '__main__': app.run_server(debug=True)