这篇文章将为大家详细讲解有关Python中PIL库有什么用,小编觉得挺实用的,因此分享给大家做个参考,希望大家阅读完这篇文章后可以有所收获。
首先,给出Image模块中的一个简单的例子。例子实现的功能是:读取图片,并进行45°旋转,然后进行可视化。
# -*- coding:utf-8 -*- # Image模块开篇例子 from PIL import Image im = Image.open('test.bmp') # 读取图片 im.rotate(45).show() # 将图片旋转,并用系统自带的图片工具显示图片
创建缩略图
# -*- coding:utf-8 -*- # PIL中创建缩略图(create thumbnails) from PIL import Image import glob,os size = 128,128 for infile in glob.glob("*.jpg"): # glob的作用是文件搜索,返回的是一个列表 file,ext = os.path.splitext(infile) # 将文件的文件名和拓展名分开,用于之后的保存重命名 im = Image.open(infile) im.thumbnail(size,Image.ANTIALIAS) # 等比例缩放 im.save(file+".thumbnail","JPEG") #im.show() # 显示缩略图 #print im.size,im.mode
缩略图不能直接双击打开,而可以使用PIL.image的open读取,然后使用show()方法进行显示。
图像处理
PIL.image.alpha_composite(im1,im2) PIL.image.blend(im1,im2,alpha) PIL.Image.composite(im1,im2,mask)
这三个方法都属于图片的合成或者融合。都要求im1和im2的mode和size要一致,alpha代表图片占比的意思,而mask是mode可以为”1”,”L”或者”RGBA”的size和im1、im2一致的。
# coding:utf-8 -*- from PIL import Image # 图片合成 # PIL的alpha_composite(im1,im2) 图像通道融合 # im2要和im1的size和mode一致,且要求格式为RGBA im1 = Image.open("test.png") im2 = Image.open("test2.png") newim1 = Image.alpha_composite(im1,im2) # 将im2合成到im1中,如果其一是透明的, # 才能看到结果,不然最终结果只会显示出im2 newim1.show() #print(im1.mode) # ----------------------------------------- # image.blend(im1,im2,alpha) # alpha为透明度 newim2 = Image.blend(im1,im2,0.5) newim2.show() # ----------------------------------------- mask = Image.open("mask.png") newim3 = Image.composite(im2,im1,mask) newim3.show()
PIL.image.eval(image,*args)
程序:
# -*- coding:utf-8 -*- from PIL import Image im = Image.open("test.png") imnew = Image.eval(im,lambda i:i*2) # 将原图片的像素点,都乘2,返回的是一个Image对象 #print imnew.mode imnew.show() im.show()
创建图像
(1) PIL.image.new(mode,size,color=0)
使用模式和大小,创建一个新的图像。其中,mode可以是”L”,”RGB”,”RGBA”;而size则是一个tuple(元组),color应该和mode相对应。
下面例子,分别创建”L”、”RGB”和”RGBA”的图片。
# -*- coding:utf-8 -*- from PIL import Image # 创建图像 # 创建一个灰度图像 newL = Image.new("L",(28,28),255) newL.show() # 创建一个RGb图像 newrgb = Image.new("RGB",(28,28),(20,200,45)) newrgb.show() newrgba = Image.new("RGBA",(28,28),(20,200,45,255)) newrgba.show() print "The frist image:",newL.size,newL.mode print "The second image:",newrgb.size,newrgb.mode print "The third image:",newrgba.size,newrgba.mode
(2)以其他形式创建图像
a. 以数组的形式创建图像,PIL.image.fromarray(obj,mode=None)
obj - 图像的数组,类型可以是numpy.array()
mode - 如果不给出,会自动判断
本人觉得这个功能还是挺实用的,可以将一个数组(具体一点就是像素数组)转换为图像,从图像的本质去处理图像。
下面一段程序,就是用fromarray()函数实现图像的灰度化(使用了两种方法)。
# -*- coding:utf-8 -*- from PIL import Image import numpy as np a = Image.open("fromimg.png") a.show() b = a.resize((28,28)) datab = list(b.getdata()) #print type(datab) obj1 = [] obj2 = [] for i in range(len(datab)): obj1.append([sum(datab[i])/3]) # 灰度化方法1:RGB三个分量的均值 obj2.append([0.3*datab[i][0]+0.59*datab[i][1]+0.11*datab[i][2]]) #灰度化方法2:根据亮度与RGB三个分量的对应关系:Y=0.3*R+0.59*G+0.11*B obj1 = np.array(obj1).reshape((28,28)) obj2 = np.array(obj2).reshape((28,28)) print obj1 print obj2 arrayimg1 = Image.fromarray(obj1) arrayimg2 = Image.fromarray(obj2) arrayimg1.show() arrayimg2.show()
显然,两种方法都能成功灰度化。
还有:
PIL.Image.frombytes(mode,size,data,decoder_name='raw',*args) PIL.Image.fromstring(*args,**kw) PIL.Image.frombuffer(mode,size,data,decoder_name='raw',*args)
感觉不常用,没有仔细研究。
Image模块下的Image类
下面的Image是一个图像对象,而不是模块!
(1) Image.convert(mode=None,matrix=None,dither=None,palette=0,color=256)
该方法,同样可以实现上面的灰度化处理。
# -*- coding:utf-8 -*- from PIL import Image img = Image.open("test.png") # 灰度化:将RGB/RGBA -> L img = img.convert("L") img.show()
(2) Image.copy()
将读取的图片复制一份。
# -*- coding:utf-8 -*- from PIL import Image img = Image.open("test.png") # 灰度化:将RGB/RGBA -> L img = img.convert("L") #img.show() # ------ copy()---------- img1 = img.copy() img1.show()
将灰度化的图片复制一份,因此该程序的运行结果和之前的一致。
(3) Image.filter(filter)
该函数是用于图像滤波的,PIL中自带了很多的滤波器,就是括号中的filter的参数。filter应该是一个ImaageFilter模块下的对象。这里把ImageFilter模块讲了。其实,该模块就是提供滤波器。自带的滤波器有:
使用中值滤波:
# -*- coding:utf-8 -*- from PIL import Image from PIL import ImageFilter # BLUR - 模糊处理 # CONTOUR - 轮廓处理 # DETAIL - 增强 # EDGE_ENHANCE - 将图像的边缘描绘得更清楚 # EDGE_ENHANCE_NORE - 程度比EDGE_ENHANCE更强 # EMBOSS - 产生浮雕效果 # SMOOTH - 效果与EDGE_ENHANCE相反,将轮廓柔和 # SMOOTH_MORE - 更柔和 # SHARPEN - 效果有点像DETAIL testimg = Image.open("filter1.png") testimg.show() filterimg = testimg.filter(ImageFilter.MedianFilter) filterimg.show()
(4) 使用各种方法/函数获取图片的基本信息
Image.getbands()
Image.geebbox()
Image.getcolors(maxcolor=256)
Image.getdata(band=None)(一般和list()结合使用)
Image.getextrema()
Image.getpixel((x,y))
Image.histogram(mask=None,extrema=None)
# -*- coding:utf-8 -*- from PIL import Image img1 = Image.open("test.png") img1.show() # getbands() - 显示该图像的所有通道,返回一个tuple bands = img1.getbands() print bands # getbbox() - 返回一个像素坐标,4个元素的tuple bboxs = img1.getbbox() print bboxs # getcolors() - 返回像素信息,是一个含有元素的列表[(该种像素的数量,(该种像素)),(...),...] colors = img1.getcolors() print colors # getdata() - 返回图片所有的像素值,要使用list()才能显示出具体数值 #data = list(img1.getdata()) #print data # getextrema() - 获取图像中每个通道的像素最小和最大值,是一个tuple类型 extremas = img1.getextrema() print extremas # getpixel() - 获取该坐标 pixels = img1.getpixel((87,180)) print pixels # histogram() - 返回图片的像素直方图 print(img1.histogram())
运行结果:
('R', 'G', 'B', 'A')
(0, 0, 338, 238)
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((163, 255), (73, 255), (14, 255), (255, 255))
(255, 127, 39, 255)
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(5) 图像粘贴操作(paste)
Image.paste(im,box=None,maske=None)
使用im粘贴到原图片中。注意:两个图片的mode和size要求一致,不一致可以使用convert()和resize()进行调整。
# -*- coding:utf-8 -*- from PIL import Image rawimg = Image.open("qqtou.png") print rawimg.size im = Image.open("number.png") print im.size # rawimg的size和im的size要相同,不然不能匹配 # paste(用来粘贴的图片,(位置坐标)),可以通过设置位置坐标来确定粘贴图片的位置 # 该方法没有返回值,直接作用于原图片 rawimg.paste(im,(75,-90)) rawimg.show()
(6) 各种put操作
Image.putalpha(alpha) - 添加多一层alpha层,没看出具体效果
Image.putdata(data,scale=1.0,offset=0.0) - 添加一个像素序列到原图像。
# -*- coding:utf-8 -*- from PIL import Image img = Image.open("qqtou.png") img = img.convert("L") img.show() imgdata = list(img.getdata()) print imgdata addlist = [] for i in range(len(imgdata)): if imgdata[i]>250: addlist.append(imgdata[i]-100) else: addlist.append(imgdata[i]) # putdata - 将一个序列添加进原图像,没有返回值,直接作用在原图像中 img.putdata(addlist) img.show()
显然,原始图像(左图)已经发生了改变。
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