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annexeterr
26
OCI.sty
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@ -7,8 +7,9 @@
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%--------------------------------------------------------------------------------
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%--------------------------------------------------------------------------------
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\ProvidesPackage{OCI}
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\ProvidesPackage{OCI}
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\usepackage[utf8]{inputenc}
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\usepackage[utf8]{inputenc}
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\usepackage[french]{babel}
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\usepackage[francais]{babel}
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\usepackage[T1]{fontenc}
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\usepackage[T1]{fontenc}
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\usepackage{hyperref}
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\usepackage{hyperref}
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\usepackage{amsmath}
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\usepackage{amsmath}
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@ -21,8 +22,8 @@
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\usepackage{float} % pour placer exactement les figure (utilisation de H)
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\usepackage{float} % pour placer exactement les figure (utilisation de H)
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%\usepackage[hyphens]{url}
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%\usepackage[hyphens]{url}
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\usepackage{breakurl}
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\usepackage{breakurl}
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%\usepackage{natbib}
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\usepackage{comment}
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\usepackage{comment}
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\usepackage{natbib}
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\usepackage{xcolor}
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\usepackage{xcolor}
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\definecolor{editorGray}{rgb}{0.95, 0.95, 0.95}
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\definecolor{editorGray}{rgb}{0.95, 0.95, 0.95}
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@ -342,23 +343,4 @@ literate=
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backgroundcolor=\color{lightgray!20!white}
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backgroundcolor=\color{lightgray!20!white}
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}
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}
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\renewcommand{\tablename}{Tableau}
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\renewcommand{\tablename}{Tableau}
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\usepackage[backend=biber,sortcites,hyperref=true,backref=true,labeldate=long]{biblatex}
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\addbibresource{geographie-informatique.bib}
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%\usepackage[dvips,ps2pdf]{hyperref}
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\usepackage{hyperref}
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\hypersetup{
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breaklinks=true,
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plainpages=false,
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colorlinks=true,
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linkcolor=blue,
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citecolor=blue,
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urlcolor=blue,
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hypertexnames=true
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}
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%\usepackage[hyphenbreaks]{breakurl}
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\usepackage{color} % Couleurs
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\usepackage{xcolor}
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\pagestyle{headings}
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@ -1,4 +1,3 @@
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# Cartographie informatique
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# Cartographie informatique
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Un document de préparation pour un module d'informatique sur la cartographie.
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Un document de préparation pour un module d'informatique sur la cartographie.
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Le corps du document est fini, mais pas certaines annexes.
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@ -1,130 +0,0 @@
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''' Programme de placement de tags images sur un fond OpenStreetMap
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On place des images géotaguées dans un répertoire
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Le programme en extrait les coordonnées GPS et la date
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Il crée des tags avec comme titre le nom des fichiers et la date
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et les place sur le fond de carte aux coordonnées GPS
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'''
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#importation des module
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import os(*@\label{ligne:lemoduleos}@*)
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import folium(*@\label{ligne:modulefolium}@*)
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import exifread(*@\label{ligne:exifread}@*)
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def lalatitude(ref,GPSLatitude):
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'''
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Convertit les coordonnées GPS EXIF en degrés à virgule flottante
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:param ref, GPSLongitude:
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:type ref: string, GPSLongitude: exifread.utils.Ratio
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:rtype: float
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'''
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d = GPSLatitude.values[0].num(*@\label{ligne:num1}@*)
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m = GPSLatitude.values[1].num
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s = GPSLatitude.values[2].num(*@\label{ligne:num2}@*)
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if ref == 'N':
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latitude = d + (m / 60.) + (s / 3600.)
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elif ref == 'S':
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latitude = -1*(d + (m / 60.0) + (s / 3600.0))
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else:
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print('La latitude est fausse !')
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return latitude
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def lalongitude(ref,GPSLongitude):
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'''
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Convertit les coordonnées GPS EXIF en degrés à virgule flottante
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:param ref, GPSLongitude:
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:type ref: string, GPSLongitude: exifread.utils.Ratio
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:rtype: float
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'''
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d = GPSLongitude.values[0].num(*@\label{ligne:num3}@*)
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m = GPSLongitude.values[1].num
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s = GPSLongitude.values[2].num(*@\label{ligne:num4}@*)
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if ref == 'W':
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longitude = -1*(d + (m / 60.0) + (s / 3600.0))
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elif ref == 'E':
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longitude = d + (m / 60.0) + (s / 3600.0)
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else:
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print('La longitude est fausse !')
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return longitude
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# Récupération du facteur de zoom
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print('Facteur de zoom (nombre entier) :\n\
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9 : grande zone\n\
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11 : zone\n\
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13 : village ou ville\n\
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16 : petite route')
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facteurZoom = input('Veuillez entrer le facteur de zoom : ')(*@\label{ligne:input}@*)
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print('Facteur de zoom : {}'.format(facteurZoom))
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# Ouverture de l'image en mode de lecture binaire
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path = './images/'
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fichiers=os.listdir(path)(*@\label{ligne:listdir}@*)
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i = 0 #indice des images(*@\label{ligne:compteurimages}@*)
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for nom in fichiers:(*@\label{ligne:boucleprincipale}@*)
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print("{} : {}".format(i,nom))
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adresseImage = "./images/"+nom
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titre = nom.split('.')[0]
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f = open(adresseImage, 'rb')
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# Récupération des tags EXIF
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tags = exifread.process_file(f, details=False)
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for tag in tags.keys():
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if tag in ('GPS GPSLatitudeRef',
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'GPS GPSLatitude',
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'GPS GPSLongitudeRef',
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'GPS GPSLongitude',
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'Image ImageDateTime'):
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latitude = lalatitude(tags['GPS GPSLatitudeRef'].values,
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tags['GPS GPSLatitude'])
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longitude = lalongitude(tags['GPS GPSLongitudeRef'].values,
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tags['GPS GPSLongitude'])
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date = tags['EXIF DateTimeOriginal']
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try:(*@\label{ligne:try1}@*)
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print("Latitude : {}, longitude : {}, date : {}".format(latitude,
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longitude, date))(*@\label{ligne:try2}@*)
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except NameError:(*@\label{ligne:except}@*)
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print('Fichier sans données GPS : ',nom)
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else:(*@\label{ligne:else}@*)
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#création de l'objet Python carte, centrée sur les coordonnées
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#latitude et longitude de la première image
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if i == 0:
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carte = folium.Map(location=[latitude, longitude],zoom_start=facteurZoom)(*@\label{ligne:carte}@*)
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#création d'un marqueur
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folium.Marker([latitude, longitude],(*@\label{ligne:markgoutte}@*)
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popup="<h4>{}</h4> <br> <i>{}</i> <br><br> <img src='{}' width='300'"
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.format(titre,date,adresseImage)).add_to(carte)(*@\label{ligne:gouttepopup}@*)
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#création d'un simple cercle
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folium.Circle(
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radius=100,
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location=[latitude, longitude],
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popup='Gallet Park',(*@\label{ligne:cerclepopup}@*)
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color='crimson',
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fill=False,
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).add_to(carte)
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#création d'un marqueur en forme de cercle
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folium.CircleMarker((*@\label{ligne:markcerclepopup}@*)
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location=[latitude, longitude],
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radius=50,
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popup=titre,
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color='#3186cc',
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fill=True,
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fill_color='#3186cc'
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).add_to(carte)
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#dereferencement des variables pour lever l'exception
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del latitude, longitude(*@\label{ligne:deref}@*)
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#changement d'image
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i = i + 1
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#création du fichier HTML
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carte.save('ma_carte.html')(*@\label{ligne:sauvegarde}@*)
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@ -1,130 +0,0 @@
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''' Programme de placement de tags images sur un fond OpenStreetMap
|
|
||||||
On place des images géotaguées dans un répertoire
|
|
||||||
Le programme en extrait les coordonnées GPS et la date
|
|
||||||
Il crée des tags avec comme titre le nom des fichiers et la date
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||||||
et les place sur le fond de carte aux coordonnées GPS
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'''
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#importation des module
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import os
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import folium
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import exifread
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def lalatitude(ref,GPSLatitude):
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'''
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Convertit les coordonnées GPS EXIF en degrés à virgule flottante
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:param ref, GPSLongitude:
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:type ref: string, GPSLongitude: exifread.utils.Ratio
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:rtype: float
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'''
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d = GPSLatitude.values[0].num
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m = GPSLatitude.values[1].num
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s = GPSLatitude.values[2].num
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if ref == 'N':
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latitude = d + (m / 60.) + (s / 3600.)
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elif ref == 'S':
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latitude = -1*(d + (m / 60.0) + (s / 3600.0))
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else:
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print('La latitude est fausse !')
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return latitude
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def lalongitude(ref,GPSLongitude):
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'''
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Convertit les coordonnées GPS EXIF en degrés à virgule flottante
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:param ref, GPSLongitude:
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:type ref: string, GPSLongitude: exifread.utils.Ratio
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:rtype: float
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'''
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d = GPSLongitude.values[0].num
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m = GPSLongitude.values[1].num
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s = GPSLongitude.values[2].num
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if ref == 'W':
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longitude = -1*(d + (m / 60.0) + (s / 3600.0))
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elif ref == 'E':
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longitude = d + (m / 60.0) + (s / 3600.0)
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else:
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print('La longitude est fausse !')
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return longitude
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# Récupération du facteur de zoom
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print('Facteur de zoom (nombre entier) :\n\
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9 : grande zone\n\
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11 : zone\n\
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13 : village ou ville\n\
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16 : petite route')
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facteurZoom = input('Veuillez entrer le facteur de zoom : ')
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print('Facteur de zoom : {}'.format(facteurZoom))
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# Ouverture de l'image en mode de lecture binaire
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path = './images/'
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fichiers=os.listdir(path)
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i = 0 #indice des images
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for nom in fichiers:
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print("{} : {}".format(i,nom))
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adresseImage = "./images/"+nom
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titre = nom.split('.')[0]
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f = open(adresseImage, 'rb')
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# Récupération des tags EXIF
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tags = exifread.process_file(f, details=False)
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for tag in tags.keys():
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if tag in ('GPS GPSLatitudeRef',
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'GPS GPSLatitude',
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'GPS GPSLongitudeRef',
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'GPS GPSLongitude',
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'Image ImageDateTime'):
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latitude = lalatitude(tags['GPS GPSLatitudeRef'].values,
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tags['GPS GPSLatitude'])
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longitude = lalongitude(tags['GPS GPSLongitudeRef'].values,
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tags['GPS GPSLongitude'])
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date = tags['EXIF DateTimeOriginal']
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try:
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print("Latitude : {}, longitude : {}, date : {}".format(latitude,
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longitude, date))
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except NameError:
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print('Fichier sans données GPS : ',nom)
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else:
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#création de l'objet Python carte, centrée sur les coordonnées
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|
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#latitude et longitude de la première image
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|
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if i == 0:
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carte = folium.Map(location=[latitude, longitude],zoom_start=facteurZoom)
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#création d'un marqueur
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folium.Marker([latitude, longitude],
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popup="<h4>{}</h4> <br> <i>{}</i> <br><br> <img src='{}' width='300'"
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.format(titre,date,adresseImage)).add_to(carte)
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|
|
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#création d'un simple cercle
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|
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folium.Circle(
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|
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radius=100,
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|
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location=[latitude, longitude],
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|
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popup='Gallet Park',
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|
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color='crimson',
|
|
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fill=False,
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|
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).add_to(carte)
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|
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|
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#création d'un marqueur en forme de cercle
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|
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folium.CircleMarker(
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|
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location=[latitude, longitude],
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|
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radius=50,
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|
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popup=titre,
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color='#3186cc',
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fill=True,
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fill_color='#3186cc'
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).add_to(carte)
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|
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|
||||||
#dereferencement des variables pour lever l'exception
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|
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del latitude, longitude
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|
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#changement d'image
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|
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i = i + 1
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|
||||||
|
|
||||||
#création du fichier HTML
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|
||||||
carte.save('ma_carte.html')
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|
|
@ -1,99 +0,0 @@
|
||||||
''' Programme de placement de tags images sur un fond OpenStreetMap
|
|
||||||
On place des images géotaguées dans un répertoire
|
|
||||||
Le programme en extrait les coordonnées GPS et la date
|
|
||||||
Il crée des tags avec comme titre le nom des fichiers et la date
|
|
||||||
et les place sur le fond de carte aux coordonnées GPS
|
|
||||||
'''
|
|
||||||
|
|
||||||
#importation des module
|
|
||||||
import os
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|
||||||
import folium
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|
||||||
import exifread
|
|
||||||
|
|
||||||
def lalatitude(ref,GPSLatitude):
|
|
||||||
'''
|
|
||||||
Convertit les coordonnées GPS EXIF en degrés à virgule flottante
|
|
||||||
:param ref, GPSLatitude:
|
|
||||||
:type ref: string, GPSLongitude: exifread.utils.Ratio
|
|
||||||
:rtype: float
|
|
||||||
num signifie numérateur et den dénominateur, car les données
|
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sont sous forme de fractions
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|
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'''
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d = GPSLatitude.values[0].num/GPSLatitude.values[0].den
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m = GPSLatitude.values[1].num/GPSLatitude.values[1].den
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s = GPSLatitude.values[2].num/GPSLatitude.values[2].den
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# print("Degrés : ",d," Minutes : ",m," Secondes : ",s)
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if ref == 'N':
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latitude = d + (m / 60.) + (s / 3600.)
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elif ref == 'S':
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latitude = -1*(d + (m / 60.0) + (s / 3600.0))
|
|
||||||
else:
|
|
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print('La latitude est fausse !')
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||||||
return latitude
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|
||||||
|
|
||||||
def lalongitude(ref,GPSLongitude):
|
|
||||||
'''
|
|
||||||
Convertit les coordonnées GPS EXIF en degrés à virgule flottante
|
|
||||||
:param ref, GPSLongitude:
|
|
||||||
:type ref: string, GPSLongitude: exifread.utils.Ratio
|
|
||||||
:rtype: float
|
|
||||||
num signifie numérateur et den dénominateur, car les données
|
|
||||||
sont sous forme de fractions
|
|
||||||
'''
|
|
||||||
|
|
||||||
d = GPSLongitude.values[0].num/GPSLongitude.values[0].den
|
|
||||||
m = GPSLongitude.values[1].num/GPSLongitude.values[1].den
|
|
||||||
s = GPSLongitude.values[2].num/GPSLongitude.values[2].den
|
|
||||||
# print("Degrés : ",d," Minutes : ",m," Secondes : ",s)
|
|
||||||
|
|
||||||
if ref == 'W':
|
|
||||||
longitude = -1*(d + (m / 60.0) + (s / 3600.0))
|
|
||||||
elif ref == 'E':
|
|
||||||
longitude = d + (m / 60.0) + (s / 3600.0)
|
|
||||||
else:
|
|
||||||
print('La longitude est fausse !')
|
|
||||||
return longitude
|
|
||||||
|
|
||||||
#--------------- Programme principal -----------------------#
|
|
||||||
|
|
||||||
description = "Test"
|
|
||||||
# Ouverture du fichier csv en mode écriture
|
|
||||||
lefichiercsv = open(r"Tags.csv", "w")
|
|
||||||
lefichiercsv.write("name,description,Lat,Lon\n")
|
|
||||||
# Ouverture de l'image en mode de lecture binaire
|
|
||||||
path = './images/'
|
|
||||||
fichiers=os.listdir(path)
|
|
||||||
i = 0 #indice des images
|
|
||||||
for nom in fichiers:
|
|
||||||
print("{} : {}".format(i,nom))
|
|
||||||
|
|
||||||
adresseImage = "./images_reduites/"+nom
|
|
||||||
titre = nom.split('.')[0]
|
|
||||||
f = open(adresseImage, 'rb')
|
|
||||||
|
|
||||||
# Récupération des tags EXIF
|
|
||||||
tags = exifread.process_file(f, details=False)
|
|
||||||
|
|
||||||
for tag in tags.keys():
|
|
||||||
if tag in ('GPS GPSLatitudeRef','GPS GPSLatitude','GPS GPSLongitudeRef','GPS GPSLongitude','Image ImageDateTime'):
|
|
||||||
latitude = lalatitude(tags['GPS GPSLatitudeRef'].values,tags['GPS GPSLatitude'])
|
|
||||||
longitude = lalongitude(tags['GPS GPSLongitudeRef'].values,tags['GPS GPSLongitude'])
|
|
||||||
date = tags['EXIF DateTimeOriginal']
|
|
||||||
|
|
||||||
try:
|
|
||||||
print("Latitude : {}, longitude : {}, date : {}".format(latitude,
|
|
||||||
longitude, date))
|
|
||||||
except NameError:
|
|
||||||
print('Fichier sans données GPS : ',nom)
|
|
||||||
else:
|
|
||||||
# création de la ligne du fichier csv
|
|
||||||
# {{url_du_fichier}}, description, latitude, longitude et date
|
|
||||||
#lefichiercsv.write("{{{{{}}}}}, {}, {}, {}, {}\n".format(nom,description, latitude,longitude, date))
|
|
||||||
lefichiercsv.write("{},{} {{{{http://www.cvgg.org/MontRacine/HautGeneveysSagne/{}}}}},{},{}\n".format(nom,description, nom, latitude,longitude))
|
|
||||||
#dereferencement des variables pour lever l'exception
|
|
||||||
del latitude, longitude
|
|
||||||
#changement d'image
|
|
||||||
i = i + 1
|
|
||||||
lefichiercsv.close()
|
|
|
@ -1,32 +0,0 @@
|
||||||
import os (*@\label{creationcarteumap2:ligne:num1}@*)
|
|
||||||
import exifread(*@\label{creationcarteumap2:ligne:num2}@*)
|
|
||||||
from creation_carte_umap2_coord import *(*@\label{creationcarteumap2:ligne:num3}@*)
|
|
||||||
|
|
||||||
path = './images/'
|
|
||||||
fichiers=os.listdir(path)
|
|
||||||
description = "Description de l'image"
|
|
||||||
|
|
||||||
lefichiercsv = open(r"Tags.csv", "w")
|
|
||||||
lefichiercsv.write("name,description,Lat,Lon\n")
|
|
||||||
i = 0 #indice des images
|
|
||||||
for nom in fichiers:
|
|
||||||
adresseImage = "./images_reduites/"+nom
|
|
||||||
titre = nom.split('.')[0]
|
|
||||||
f = open(adresseImage, 'rb')
|
|
||||||
tags = exifread.process_file(f, details=False)
|
|
||||||
for tag in tags.keys():
|
|
||||||
if tag in ('GPS GPSLatitudeRef','GPS GPSLatitude','GPS GPSLongitudeRef','GPS GPSLongitude','Image ImageDateTime'):
|
|
||||||
latitude = lalatitude(tags['GPS GPSLatitudeRef'].values,tags['GPS GPSLatitude'])
|
|
||||||
longitude = lalongitude(tags['GPS GPSLongitudeRef'].values,tags['GPS GPSLongitude'])
|
|
||||||
date = tags['EXIF DateTimeOriginal']
|
|
||||||
try:
|
|
||||||
print("{} Fichier traité : {}, Latitude : {}, longitude : {}, date : {}"
|
|
||||||
.format(i,nom,latitude,longitude, date))
|
|
||||||
except NameError:
|
|
||||||
print('Fichier sans données GPS : ',nom)
|
|
||||||
else:
|
|
||||||
lefichiercsv.write("{},{} {{{{http://urldelimagesanssonnom/{}}}}},{},{}\n"
|
|
||||||
.format(nom,description, nom, latitude,longitude))
|
|
||||||
del latitude, longitude
|
|
||||||
i = i + 1
|
|
||||||
lefichiercsv.close()
|
|
|
@ -1,22 +0,0 @@
|
||||||
def lalatitude(ref,GPSLatitude):
|
|
||||||
d = GPSLatitude.values[0].num/GPSLatitude.values[0].den
|
|
||||||
m = GPSLatitude.values[1].num/GPSLatitude.values[1].den
|
|
||||||
s = GPSLatitude.values[2].num/GPSLatitude.values[2].den
|
|
||||||
if ref == 'N':
|
|
||||||
latitude = d + (m / 60.0) + (s / 3600.0)
|
|
||||||
elif ref == 'S':
|
|
||||||
latitude = -1*(d + (m / 60.0) + (s / 3600.0))
|
|
||||||
else:
|
|
||||||
print('La latitude est fausse !')
|
|
||||||
return latitude
|
|
||||||
def lalongitude(ref,GPSLongitude):
|
|
||||||
d = GPSLongitude.values[0].num/GPSLongitude.values[0].den
|
|
||||||
m = GPSLongitude.values[1].num/GPSLongitude.values[1].den
|
|
||||||
s = GPSLongitude.values[2].num/GPSLongitude.values[2].den
|
|
||||||
if ref == 'W':
|
|
||||||
longitude = -1*(d + (m / 60.0) + (s / 3600.0))
|
|
||||||
elif ref == 'E':
|
|
||||||
longitude = d + (m / 60.0) + (s / 3600.0)
|
|
||||||
else:
|
|
||||||
print('La longitude est fausse !')
|
|
||||||
return longitude
|
|
|
@ -1,4 +1,3 @@
|
||||||
% Encoding: UTF-8
|
|
||||||
@Book{FA2019,
|
@Book{FA2019,
|
||||||
author = {Aït-Touati, Frédérique and Arènes, Alexandra and Grégoire, Axelle},
|
author = {Aït-Touati, Frédérique and Arènes, Alexandra and Grégoire, Axelle},
|
||||||
title = {Terra Forma, Manuel de cartographies potentielles},
|
title = {Terra Forma, Manuel de cartographies potentielles},
|
||||||
|
@ -93,18 +92,3 @@ author = {Allali, G.},
|
||||||
title = {Apprendre QGIS par l'exemple},
|
title = {Apprendre QGIS par l'exemple},
|
||||||
year = {2015}
|
year = {2015}
|
||||||
}
|
}
|
||||||
|
|
||||||
@incollection{LOW,
|
|
||||||
author = {Casilli, A.},
|
|
||||||
title = {L’automate et le tâcheron},
|
|
||||||
booktitle = {Low tech : face au tout-numérique, se réapproprier les technologies},
|
|
||||||
year = {2020},
|
|
||||||
editor = {Ritimo}
|
|
||||||
}
|
|
||||||
|
|
||||||
@online{Ballade,
|
|
||||||
author = {Enseignants SNT du Lycée La Martinière Diderot à Lyon},
|
|
||||||
title = {Création d'une balade de photos géolocalisées},
|
|
||||||
url = {http://portail.lyc-la-martiniere-diderot.ac-lyon.fr/srv20/co/AA4_-_Creation_Balade.html},
|
|
||||||
dateurl = {2021-02-28}
|
|
||||||
}
|
|
||||||
|
|
|
@ -1,4 +1,3 @@
|
||||||
% Encoding: UTF-8
|
|
||||||
@Book{FA2019,
|
@Book{FA2019,
|
||||||
author = {Aït-Touati, Frédérique and Arènes, Alexandra and Grégoire, Axelle},
|
author = {Aït-Touati, Frédérique and Arènes, Alexandra and Grégoire, Axelle},
|
||||||
title = {Terra Forma, Manuel de cartographies potentielles},
|
title = {Terra Forma, Manuel de cartographies potentielles},
|
||||||
|
@ -32,30 +31,22 @@ year = {2014},
|
||||||
note = {Ouvrage libre publié sous licence CC By-SA 3.0}
|
note = {Ouvrage libre publié sous licence CC By-SA 3.0}
|
||||||
}
|
}
|
||||||
|
|
||||||
@Book{BR86,
|
@Book{BRsd1,
|
||||||
author = {Brunet, R},
|
author = {Brunet, R},
|
||||||
title = {La carte-modèle et les chorèmes},
|
title = {La carte-modèle et les chorèmes},
|
||||||
publisher = {Mappemonde},
|
publisher = {Mappemonde},
|
||||||
year = {1986},
|
year = {sd},
|
||||||
note = {86(4)}
|
note = {86(4)}
|
||||||
}
|
}
|
||||||
|
|
||||||
@Book{BR87,
|
@Book{BRsd2,
|
||||||
author = {Brunet, R},
|
author = {Brunet, R},
|
||||||
title = {La carte mode d'emploi},
|
title = {Le monde des cartes},
|
||||||
publisher = {Fayard/Reclus},
|
publisher = {s.n.},
|
||||||
year = {1987},
|
year = {sd},
|
||||||
note = {s.l.}
|
note = {s.l.}
|
||||||
}
|
}
|
||||||
|
|
||||||
@Book{BR93,
|
|
||||||
author = {Brunet, R},
|
|
||||||
title = {Les mots de la géographie},
|
|
||||||
publisher = {Reclus - La Documentation française},
|
|
||||||
year = {1993},
|
|
||||||
note = {Montpellier/Paris}
|
|
||||||
}
|
|
||||||
|
|
||||||
@Book{DDF92,
|
@Book{DDF92,
|
||||||
author = {Durand-Dastès, F},
|
author = {Durand-Dastès, F},
|
||||||
title = {Les modèles en géographie},
|
title = {Les modèles en géographie},
|
||||||
|
@ -78,28 +69,4 @@ title = {Pratiques de la cartographie},
|
||||||
publisher = {Armad Colin},
|
publisher = {Armad Colin},
|
||||||
year = {2000},
|
year = {2000},
|
||||||
note = {Paris}
|
note = {Paris}
|
||||||
}
|
}
|
||||||
|
|
||||||
@Book{PD,
|
|
||||||
author = {Poidevin, D.},
|
|
||||||
title = {Manuel de cartographie},
|
|
||||||
publisher = {Ellipses},
|
|
||||||
year = {s.d.},
|
|
||||||
note = {s.l.}
|
|
||||||
}
|
|
||||||
|
|
||||||
@Book{GA15,
|
|
||||||
author = {Allali, G.},
|
|
||||||
title = {Apprendre QGIS par l'exemple},
|
|
||||||
year = {2015}
|
|
||||||
}
|
|
||||||
|
|
||||||
@incollection{LOW,
|
|
||||||
author = {Casilli, A.},
|
|
||||||
title = {L’automate et le tâcheron},
|
|
||||||
booktitle = {Low tech : face au tout-numérique, se réapproprier les technologies},
|
|
||||||
year = {2020},
|
|
||||||
editor = {Ritimo}
|
|
||||||
}
|
|
||||||
|
|
||||||
@Comment{jabref-meta: databaseType:biblatex;}
|
|
|
@ -1,85 +0,0 @@
|
||||||
<?xml version="1.0" standalone="yes"?>
|
|
||||||
<!-- logreq request file -->
|
|
||||||
<!-- logreq version 1.0 / dtd version 1.0 -->
|
|
||||||
<!-- Do not edit this file! -->
|
|
||||||
<!DOCTYPE requests [
|
|
||||||
<!ELEMENT requests (internal | external)*>
|
|
||||||
<!ELEMENT internal (generic, (provides | requires)*)>
|
|
||||||
<!ELEMENT external (generic, cmdline?, input?, output?, (provides | requires)*)>
|
|
||||||
<!ELEMENT cmdline (binary, (option | infile | outfile)*)>
|
|
||||||
<!ELEMENT input (file)+>
|
|
||||||
<!ELEMENT output (file)+>
|
|
||||||
<!ELEMENT provides (file)+>
|
|
||||||
<!ELEMENT requires (file)+>
|
|
||||||
<!ELEMENT generic (#PCDATA)>
|
|
||||||
<!ELEMENT binary (#PCDATA)>
|
|
||||||
<!ELEMENT option (#PCDATA)>
|
|
||||||
<!ELEMENT infile (#PCDATA)>
|
|
||||||
<!ELEMENT outfile (#PCDATA)>
|
|
||||||
<!ELEMENT file (#PCDATA)>
|
|
||||||
<!ATTLIST requests
|
|
||||||
version CDATA #REQUIRED
|
|
||||||
>
|
|
||||||
<!ATTLIST internal
|
|
||||||
package CDATA #REQUIRED
|
|
||||||
priority (9) #REQUIRED
|
|
||||||
active (0 | 1) #REQUIRED
|
|
||||||
>
|
|
||||||
<!ATTLIST external
|
|
||||||
package CDATA #REQUIRED
|
|
||||||
priority (1 | 2 | 3 | 4 | 5 | 6 | 7 | 8) #REQUIRED
|
|
||||||
active (0 | 1) #REQUIRED
|
|
||||||
>
|
|
||||||
<!ATTLIST provides
|
|
||||||
type (static | dynamic | editable) #REQUIRED
|
|
||||||
>
|
|
||||||
<!ATTLIST requires
|
|
||||||
type (static | dynamic | editable) #REQUIRED
|
|
||||||
>
|
|
||||||
<!ATTLIST file
|
|
||||||
type CDATA #IMPLIED
|
|
||||||
>
|
|
||||||
]>
|
|
||||||
<requests version="1.0">
|
|
||||||
<internal package="biblatex" priority="9" active="0">
|
|
||||||
<generic>latex</generic>
|
|
||||||
<provides type="dynamic">
|
|
||||||
<file>geographie-informatique.bcf</file>
|
|
||||||
</provides>
|
|
||||||
<requires type="dynamic">
|
|
||||||
<file>geographie-informatique.bbl</file>
|
|
||||||
</requires>
|
|
||||||
<requires type="static">
|
|
||||||
<file>blx-dm.def</file>
|
|
||||||
<file>blx-compat.def</file>
|
|
||||||
<file>biblatex.def</file>
|
|
||||||
<file>standard.bbx</file>
|
|
||||||
<file>numeric.bbx</file>
|
|
||||||
<file>numeric.cbx</file>
|
|
||||||
<file>biblatex.cfg</file>
|
|
||||||
<file>french.lbx</file>
|
|
||||||
</requires>
|
|
||||||
</internal>
|
|
||||||
<external package="biblatex" priority="5" active="0">
|
|
||||||
<generic>biber</generic>
|
|
||||||
<cmdline>
|
|
||||||
<binary>biber</binary>
|
|
||||||
<infile>geographie-informatique</infile>
|
|
||||||
</cmdline>
|
|
||||||
<input>
|
|
||||||
<file>geographie-informatique.bcf</file>
|
|
||||||
</input>
|
|
||||||
<output>
|
|
||||||
<file>geographie-informatique.bbl</file>
|
|
||||||
</output>
|
|
||||||
<provides type="dynamic">
|
|
||||||
<file>geographie-informatique.bbl</file>
|
|
||||||
</provides>
|
|
||||||
<requires type="dynamic">
|
|
||||||
<file>geographie-informatique.bcf</file>
|
|
||||||
</requires>
|
|
||||||
<requires type="editable">
|
|
||||||
<file>geographie-informatique.bib</file>
|
|
||||||
</requires>
|
|
||||||
</external>
|
|
||||||
</requests>
|
|
11979
images/ArbresEPO.eps
12889
images/AvecArbres.eps
2382
images/Canopee.eps
23014
images/CanopeeChxFds.eps
54507
images/Decalage.eps
6811
images/Europe.eps
10468
images/ExportParcs.eps
27703
images/Exporter.eps
|
@ -1,88 +0,0 @@
|
||||||
%% Creator: Inkscape inkscape 0.92.4, www.inkscape.org
|
|
||||||
%% PDF/EPS/PS + LaTeX output extension by Johan Engelen, 2010
|
|
||||||
%% Accompanies image file 'KiosqueAMusiqueParcGallet.eps' (pdf, eps, ps)
|
|
||||||
%%
|
|
||||||
%% To include the image in your LaTeX document, write
|
|
||||||
%% \input{<filename>.pdf_tex}
|
|
||||||
%% instead of
|
|
||||||
%% \includegraphics{<filename>.pdf}
|
|
||||||
%% To scale the image, write
|
|
||||||
%% \def\svgwidth{<desired width>}
|
|
||||||
%% \input{<filename>.pdf_tex}
|
|
||||||
%% instead of
|
|
||||||
%% \includegraphics[width=<desired width>]{<filename>.pdf}
|
|
||||||
%%
|
|
||||||
%% Images with a different path to the parent latex file can
|
|
||||||
%% be accessed with the `import' package (which may need to be
|
|
||||||
%% installed) using
|
|
||||||
%% \usepackage{import}
|
|
||||||
%% in the preamble, and then including the image with
|
|
||||||
%% \import{<path to file>}{<filename>.pdf_tex}
|
|
||||||
%% Alternatively, one can specify
|
|
||||||
%% \graphicspath{{<path to file>/}}
|
|
||||||
%%
|
|
||||||
%% For more information, please see info/svg-inkscape on CTAN:
|
|
||||||
%% http://tug.ctan.org/tex-archive/info/svg-inkscape
|
|
||||||
%%
|
|
||||||
\begingroup%
|
|
||||||
\makeatletter%
|
|
||||||
\providecommand\color[2][]{%
|
|
||||||
\errmessage{(Inkscape) Color is used for the text in Inkscape, but the package 'color.sty' is not loaded}%
|
|
||||||
\renewcommand\color[2][]{}%
|
|
||||||
}%
|
|
||||||
\providecommand\transparent[1]{%
|
|
||||||
\errmessage{(Inkscape) Transparency is used (non-zero) for the text in Inkscape, but the package 'transparent.sty' is not loaded}%
|
|
||||||
\renewcommand\transparent[1]{}%
|
|
||||||
}%
|
|
||||||
\providecommand\rotatebox[2]{#2}%
|
|
||||||
\newcommand*\fsize{\dimexpr\f@size pt\relax}%
|
|
||||||
\newcommand*\lineheight[1]{\fontsize{\fsize}{#1\fsize}\selectfont}%
|
|
||||||
\ifx\svgwidth\undefined%
|
|
||||||
\setlength{\unitlength}{617.6328983bp}%
|
|
||||||
\ifx\svgscale\undefined%
|
|
||||||
\relax%
|
|
||||||
\else%
|
|
||||||
\setlength{\unitlength}{\unitlength * \real{\svgscale}}%
|
|
||||||
\fi%
|
|
||||||
\else%
|
|
||||||
\setlength{\unitlength}{\svgwidth}%
|
|
||||||
\fi%
|
|
||||||
\global\let\svgwidth\undefined%
|
|
||||||
\global\let\svgscale\undefined%
|
|
||||||
\makeatother%
|
|
||||||
\begin{picture}(1,0.75287429)%
|
|
||||||
\lineheight{1}%
|
|
||||||
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27791
images/ParcGalletHD.eps
3313
images/ParcSmart.eps
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|
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||||||
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|
||||||
%% in the preamble, and then including the image with
|
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||||||
%% \import{<path to file>}{<filename>.pdf_tex}
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||||||
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|
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|
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|
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1890
images/QuickOSM.eps
11702
images/RondeQGIS.eps
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