android bitmap compress(图片压缩)代码
android的照相功能随着手机硬件的发展,变得越来越强大,能够找出很高分辨率的图片。
有些场景中,需要照相并且上传到服务,但是由于图片的大小太大,那么就上传就会很慢(在有些网络情况下),而且很耗流量,要想速度快,那么就需要减小图片的大小。减少图片的大小有两种方法,1. 照小图片; 2. 压缩大图片。 照相时获取小图片一般不太符合要求,因为,图片的清晰度会很差,但是这种情况有个好处就是应用速度会快些; 压缩图片,就是把大图片压缩小,降低图片的质量,在一定范围内,降低图片的大小,并且满足需求(图片仍就清晰)。下面组要是介绍图片的压缩:
1. 照相请查看 ->想要保存图片到制定目录,启动camera应用时,需要指定文件
2. 压缩过程:
2.1 从图片路径中读取图片(图片很大,不能全部加在到内存中处理,要是全部加载到内存中会内存溢出)
[java]
final bitmapfactory.options options = new bitmapfactory.options();
options.injustdecodebounds = true;
bitmapfactory.decodefile(filepath, options);
// calculate insamplesize
options.insamplesize = calculateinsamplesize(options, 480, 800);
// decode bitmap with insamplesize set
options.injustdecodebounds = false;
bitmap bm = bitmapfactory.decodefile(filepath, options);
final bitmapfactory.options options = new bitmapfactory.options();
options.injustdecodebounds = true;
bitmapfactory.decodefile(filepath, options);
// calculate insamplesize
options.insamplesize = calculateinsamplesize(options, 480, 800);
// decode bitmap with insamplesize set
options.injustdecodebounds = false;
bitmap bm = bitmapfactory.decodefile(filepath, options);
2.2 处理图片旋转
[java]
int degree = readpicturedegree(filepath);
bm = rotatebitmap(bm,degree) ;
int degree = readpicturedegree(filepath);
bm = rotatebitmap(bm,degree) ;[java] view plaincopyprint?private static int readpicturedegree(string path) {
int degree = 0;
try {
exifinterface exifinterface = new exifinterface(path);
int orientation = exifinterface.getattributeint(exifinterface.tag_orientation, exifinterface.orientation_normal);
switch (orientation) {
case exifinterface.orientation_rotate_90:
degree = 90;
break;
case exifinterface.orientation_rotate_180:
degree = 180;
break;
case exifinterface.orientation_rotate_270:
degree = 270;
break;
}
} catch (ioexception e) {
e.printstacktrace();
}
return degree;
}
private static int readpicturedegree(string path) {
int degree = 0;
try {
exifinterface exifinterface = new exifinterface(path);
int orientation = exifinterface.getattributeint(exifinterface.tag_orientation, exifinterface.orientation_normal);
switch (orientation) {
case exifinterface.orientation_rotate_90:
degree = 90;
break;
case exifinterface.orientation_rotate_180:
degree = 180;
break;
case exifinterface.orientation_rotate_270:
degree = 270;
break;
}
} catch (ioexception e) {
e.printstacktrace();
}
return degree;
}
[java]
view plaincopyprint?private static bitmap rotatebitmap(bitmap bitmap, int rotate){
if(bitmap == null)
return null ;
int w = bitmap.getwidth();
int h = bitmap.getheight();
// setting post rotate to 90
matrix mtx = new matrix();
mtx.postrotate(rotate);
return bitmap.createbitmap(bitmap, 0, 0, w, h, mtx, true);
}
private static bitmap rotatebitmap(bitmap bitmap, int rotate){
if(bitmap == null)
return null ;
int w = bitmap.getwidth();
int h = bitmap.getheight();
// setting post rotate to 90
matrix mtx = new matrix();
mtx.postrotate(rotate);
return bitmap.createbitmap(bitmap, 0, 0, w, h, mtx, true);
}
2.3压缩图片
[java]
bm.compress(bitmap.compressformat.jpeg, 30, baos);//30 是压缩率,表示压缩70%; 如果不压缩是100,表示压缩率为0
bm.compress(bitmap.compressformat.jpeg, 30, baos);//30 是压缩率,表示压缩70%; 如果不压缩是100,表示压缩率为0
完整的方法代码:
[java]
public static bitmap getsmallbitmap(string filepath) {
final bitmapfactory.options options = new bitmapfactory.options();
options.injustdecodebounds = true;
bitmapfactory.decodefile(filepath, options);
// calculate insamplesize
options.insamplesize = calculateinsamplesize(options, 480, 800);
// decode bitmap with insamplesize set
options.injustdecodebounds = false;
bitmap bm = bitmapfactory.decodefile(filepath, options);
if(bm == null){
return null;
}
int degree = readpicturedegree(filepath);
bm = rotatebitmap(bm,degree) ;
bytearrayoutputstream baos = null ;
try{
baos = new bytearrayoutputstream();
bm.compress(bitmap.compressformat.jpeg, 30, baos);
}finally{
try {
if(baos != null)
baos.close() ;
} catch (ioexception e) {
e.printstacktrace();
}
}
return bm ;
}
public static bitmap getsmallbitmap(string filepath) {
final bitmapfactory.options options = new bitmapfactory.options();
options.injustdecodebounds = true;
bitmapfactory.decodefile(filepath, options);
// calculate insamplesize
options.insamplesize = calculateinsamplesize(options, 480, 800);
// decode bitmap with insamplesize set
options.injustdecodebounds = false;
bitmap bm = bitmapfactory.decodefile(filepath, options);
if(bm == null){
return null;
}
int degree = readpicturedegree(filepath);
bm = rotatebitmap(bm,degree) ;
bytearrayoutputstream baos = null ;
try{
baos = new bytearrayoutputstream();
bm.compress(bitmap.compressformat.jpeg, 30, baos);
}finally{
try {
if(baos != null)
baos.close() ;
} catch (ioexception e) {
e.printstacktrace();
}
}
return bm ;
}
[java]
view plaincopyprint?private static int calculateinsamplesize(bitmapfactory.options options,
int reqwidth, int reqheight) {
// raw height and width of image
final int height = options.outheight;
final int width = options.outwidth;
int insamplesize = 1;
if (height > reqheight || width > reqwidth) {
// calculate ratios of height and width to requested height and
// width
final int heightratio = math.round((float) height
/ (float) reqheight);
final int widthratio = math.round((float) width / (float) reqwidth);
// choose the smallest ratio as insamplesize value, this will
// guarantee
// a final image with both dimensions larger than or equal to the
// requested height and width.
insamplesize = heightratio < widthratio ? widthratio : heightratio;
}
return insamplesize;
}
private static int calculateinsamplesize(bitmapfactory.options options,
int reqwidth, int reqheight) {
// raw height and width of image
final int height = options.outheight;
final int width = options.outwidth;
int insamplesize = 1;
if (height > reqheight || width > reqwidth) {
// calculate ratios of height and width to requested height and
// width
final int heightratio = math.round((float) height
/ (float) reqheight);
final int widthratio = math.round((float) width / (float) reqwidth);
// choose the smallest ratio as insamplesize value, this will
// guarantee
// a final image with both dimensions larger than or equal to the
// requested height and width.
insamplesize = heightratio < widthratio ? widthratio : heightratio;
}
return insamplesize;
}