onmap.md 5.1 KB
最后效果可参见
##EXIF##
可交换图像文件常被简称为EXIF(Exchangeable image file format),是专门为数码相机的照片设定的,可以记录数码照片的属性信息和拍摄数据。
EXIF信息以0xFFE1作为开头标记,后两个字节表示EXIF信息的长度。所以EXIF信息最大为64 kB,而内部采用TIFF格式。
###ExifRead###
来自官方的简述
Python library to extract EXIF data from tiff and jpeg files.
###ExifRead安装###
pip install exifread
###ExifRead Exif.py###
官方写了一个exif.py的command可直接查看照片信息
EXIF.py images.jpg
##CartoDB##
###简介 ###
Create dynamic maps, analyze and build location aware and geospatial applications with your data using the power using the power of PostGIS in the cloud.
简单的来说,就是我们可以创建包含位置信息的内容到上面去。
##打造自己的照片地图## 主要步骤如下
- 需要遍历自己的全部图片文件,
- 解析照片信息
- 生成地理信息文件
- 上传到cartodb
###python 遍历文件### 代码如下,来自于《python cookbook》
import os, fnmatch
def all_files(root, patterns='*', single_level=False, yield_folders=False):
patterns = patterns.split(';')
for path, subdirs, files in os.walk(root):
if yield_folders:
files.extend(subdirs)
files.sort()
for name in files:
for pattern in patterns:
if fnmatch.fnmatch(name, pattern):
yield os.path.join(path, name)
break
if single_level:
break
###python 解析照片信息### 由于直接从照片中提取的信息是
[34, 12, 51513/1000]
也就是
N 34� 13' 12.718
几度几分几秒的形式,我们需要转换为
34.2143091667
具体的大致就是
def parse_gps(titude):
first_number = titude.split(',')[0]
second_number = titude.split(',')[1]
third_number = titude.split(',')[2]
third_number_parent = third_number.split('/')[0]
third_number_child = third_number.split('/')[1]
third_number_result = float(third_number_parent) / float(third_number_child)
return float(first_number) + float(second_number)/60 + third_number_result/3600
也就是我们需要将second/60,还有minutes/3600。
###python 提取照片信息生成文件###
import json
import exifread
import os, fnmatch
from exifread.tags import DEFAULT_STOP_TAG, FIELD_TYPES
from exifread import process_file, __version__
def all_files(root, patterns='*', single_level=False, yield_folders=False):
patterns = patterns.split(';')
for path, subdirs, files in os.walk(root):
if yield_folders:
files.extend(subdirs)
files.sort()
for name in files:
for pattern in patterns:
if fnmatch.fnmatch(name, pattern):
yield os.path.join(path, name)
break
if single_level:
break
def parse_gps(titude):
first_number = titude.split(',')[0]
second_number = titude.split(',')[1]
third_number = titude.split(',')[2]
third_number_parent = third_number.split('/')[0]
third_number_child = third_number.split('/')[1]
third_number_result = float(third_number_parent) / float(third_number_child)
return float(first_number) + float(second_number)/60 + third_number_result/3600
jsonFile = open("gps.geojson", "w")
jsonFile.writelines('{\n"type": "FeatureCollection","features": [\n')
def write_data(paths):
index = 1
for path in all_files('./' + paths, '*.jpg'):
f = open(path[2:], 'rb')
tags = exifread.process_file(f)
# jsonFile.writelines('"type": "Feature","properties": {"cartodb_id":"'+str(index)+'"},"geometry": {"type": "Point","coordinates": [')
latitude = tags['GPS GPSLatitude'].printable[1:-1]
longitude = tags['GPS GPSLongitude'].printable[1:-1]
print latitude
print parse_gps(latitude)
# print tags['GPS GPSLongitudeRef']
# print tags['GPS GPSLatitudeRef']
jsonFile.writelines('{"type": "Feature","properties": {"cartodb_id":"' + str(index) + '"')
jsonFile.writelines(',"OS":"' + str(tags['Image Software']) + '","Model":"' + str(tags['Image Model']) + '","Picture":"'+str(path[7:])+'"')
jsonFile.writelines('},"geometry": {"type": "Point","coordinates": [' + str(parse_gps(longitude)) + ',' + str(
parse_gps(latitude)) + ']}},\n')
index += 1
write_data('imgs')
jsonFile.writelines(']}\n')
jsonFile.close()
最终代码可见python cartodb
###上传到cartodb###