Groovy基础总结
2016-05-27 14:51
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这里就先整理一下基础的groovy东西
1 字符串类型的方法:
def firstname='Kate'
def surname='Bush'
//打印字符串的连接
println firstname*2
def fullname="$firstname $surname"
println fullname
println fullname-firstname
//凑足15个字符,不够就在左边补充空格
println fullname.padLeft(15)
//关于字符串的截取
println fullname[0..3]
println fullname[-4..-1]
//下面的方式比较特别,取第5个字符,以及3,2,1位置字符连接起来
assert fullname[5,3..1]=='Beta'
ff='aaaabbccadvbasd'
lines=ff.split('a')
//下面assert在后面表达式为false情况下抛出异常
assert lines.size()==7
//注意字符串中的特殊字符
def plain='\n\r\t\b\\\f\$'
assert plain.size()==7
//关于字符串的闭包(注意下面的括号的使用方法!)
fullname="${-> firstname} $surname"
println fullname
firstname = 'li'
surname='shuiqing'
println fullname
//关于字符串的运算符
fullname = fullname -'qing'-'l'+' hello world'
assert fullname=='i Bush hello world'
//字符串替换
string = 'hippopotamus'
assert string.replace('ppopotam','bisc') == 'hibiscus'
//字符串反转,转换为list
assert'apple'.toList() == ['a', 'p', 'p', 'l', 'e']
//下面把字符串里面去掉重复数字,并排序.
string = "an apple a day"
assert string.toList().unique().sort().join() == ' adelnpy'
//下面方法取出得到字符串里面的各个单词,并进行反转
string = 'Yoda said, "can you see this?"'
revwords= string.split(' ').toList().reverse().join(' ')
assert revwords== 'this?" see you "can said, Yoda'
println revwords
//对数组进行筛选,找出反转之后还等于原来字符串并且长度大于5的字符串
words = ['bob', 'alpha', 'rotator', 'omega', 'reviver']
bigPalindromes= words.findAll{w-> w == w.reverse() && w.size() > 5}
assert bigPalindromes== ['rotator', 'reviver']
println bigPalindromes
数字函数:
def x=3
def y=4
println x+y
println x.plus(y)
println x instanceof Integer //输出true
def a=2/3
//进行小数的取三位小数运算.
def b = a.setScale(3,BigDecimal.ROUND_HALF_UP)
assert b.toString() == '0.667'
//进行不等于的比较
println 4<=>3 //输出1
4!=3
println 4**3 //4的3次方,等于4.power(3)
println 4/3 //输出1.3333333333,等于4.div(3)
println 8.intdiv(3) //输出1
println 8%3 //取余,等于8.mod(3)
日期函数:
import static java.util.Calendar.getInstance as now
import org.codehaus.groovy.runtime.TimeCategory
import java.text.SimpleDateFormat
def date = new Date()+1
println date
input = '1998-06-03'
df1 = new SimpleDateFormat("yyyy-MM-dd")
date = df1.parse(input)
df2 = new SimpleDateFormat("MMM/dd/yyyy")
println 'Date was '+df2.format(date)
println now().time
println df1.format(now().time)
//进行时间的计算
use(TimeCategory){
date3 = new Date()+1.year+3.hours-2.days
println df1.format(date3)
}
/*
Tue Apr 10 14:59:33 CST 2012
Date was 六月/03/1998
Mon Apr 09 14:59:33 CST 2012
2012-04-09
2013-04-07
*/
操作符重载:
//下面演示对字符串实现了操作符++的重载.++对应的方法名是next
for ( i='a';i<'d';i++)
print i +", "
println ''
for( i in 'a'..'d')
print i+", "
//下面演示的对于集合,重载了操作符<<,对应的方法名是leftShift()
lst = ['hello']
lst << 'there'
println lst
//下面演示对一个自定义类实现的+的重载。
class ComplexNumber{
def real,imaginary
def plus(other){
new ComplexNumber(real:real+other.real,
imaginary:imaginary+other.imaginary)
}
String toString(){
"$real ${imaginary>0 ? '+':''}${imaginary}i"
}
}
c1 = new ComplexNumber(real:1,imaginary:2)
c2 = new ComplexNumber(real:4,imaginary:-31)
println c1+c2
操作数据库:
import groovy.sql.Sql
def testYear = '2011'
//下面的Driver类找不到!修改配置文件就可以了。
def sql = Sql.newInstance("jdbc:mysql://localhost:3306/dwz","root","123456"
,"com.mysql.jdbc.Driver")
println '数据库名:'+sql.connection.catalog
sql.execute("delete from testtable where name like ? or name like ? or name like ?",['ls%','lish%','%dataSet%'])
println '插入我的数据之前,数据库:'
sql.eachRow("select * from testtable"){
println "id = ${it.id} year = ${it.name} "+it.name
}
println '--------------------------------------'
wid = 123
wname = 'lishuiqing'
//下面必须使用双引号!
sql.execute("insert into testtable(id,name) values (${wid},${wname})")
sql.execute("update testtable set name =? where name = ?",['lsq','lishuiqing'])
//下面使用预定义参数的查询语句
sql.eachRow("select * from testtable where name like ?",["%a%"]){
println "id = ${it.id} year = ${it.name} "+it.name
}
println '--------------------------------------'
println '下面练习使用dataset'
testtable = sql.dataSet('testtable')
/*def anycity = testtable.findAll{ it.id>1 }
anycity.each{
println 1
}*/
2.times{
testtable.add(id:it,name:'使用dataSet添加'+it)
}
println "testtable.getSql():"+testtable.getSql()
println '总行数:'+testtable.rows().size()
num = 0
testtable.each{
//println it[0]----也可以输出指定位置的元素!!
num = num+1
println it.id+",year="+it.name
}
//注意要使用${}输出参数的话,必须使用双引号。。。
println "${num}"
println '--------------------------------------'
println "下面显示当前数据库的运行实时状态"
sql.eachRow("show status "){
//下面在{}里面定义的变量,在外面也找到,也就是作用域是全部的范围!!
if(it.variable_name=="Uptime")
uptime = it[1]
else if (it.variable_name =='Questions')
questions = it[1]
}
println "数据库运行时间Uptime for Database:${uptime}"
println "数据库查询的条目Number of Queries:${questions}"
println "每分钟的查询条目Queties per Minutes = "+Integer.valueOf(questions)/Integer.valueOf(uptime)
sql.eachRow("show status like 'Com_%'"){
if(it.variable_name=="Com_insert")
insertnum = Integer.valueOf(it[1])
else if (it.variable_name == "Com_select")
selectnum = Integer.valueOf(it[1])
else if (it.variable_name == "Com_update")
updatenum = Integer.valueOf(it[1])
}
println "查询语句有${selectnum},百分比:"+100*(selectnum/Integer.valueOf(uptime))+"%"
println "插入语句有${insertnum},百分比:"+100*(insertnum/Integer.valueOf(uptime))+"%"
println "更新语句有${updatenum},百分比:"+100*(updatenum/Integer.valueOf(uptime))+"%"
println '--------------------------------------'
println '下面将数据库里面的值保存到xml文件'
bldr = new groovy.xml.MarkupBuilder()
bldr.testtable{
sql.eachRow('select * from testtable'){
data(id:it.id,name:it.name)
}
}
println bldr.text()
List 和 Map:
List
assert [1,2,3,4] ==(1..4)
//集合是有顺序的!!
assert [1,2,3,4] !=[1,2,4,3]
assert [1,2,3]+[1] ==[1,2,3,1]
//将一个元素添加到已经存在的list中
assert [1,2,3]<<1 ==[1,2,3,1]
//从已有的list中删除元素
assert [1,2,3,1]-[1] ==[2,3]
assert [1,2,3]*2 ==[1,2,3,1,2,3]
//flatten:扁平的意思
assert [1,[2,3]].flatten() ==[1,2,3]
assert [1,2,3].reverse()==[3,2,1]
//测试两个集合是否有交叉
assert [1,2,3].disjoint([4,5,6])
//intersect:得到两个集合中的交集
assert [1,2,3].intersect([4,3,1]) ==[3,1]
//对集合进行循环处理
assert [1,2,3].collect{it+3} ==[4,5,6]
assert [1,2,3,1].unique().size()==3
assert [1,2,3,1].count(1) ==2
assert [1,2,3,4].min() ==1
assert [1,2,3,4].max() ==4
assert [1,2,3,4].sum() ==10
assert [4,2,1,3].sort() ==[1,2,3,4]
//对集合进行循环处理判断,并返回结果
assert [4,2,1,3].findAll{it%2==0} ==[4,2]
//对集合的迭代
def expected = [1,2,3,'test']
expected.each{test -> println test}
Map:
def map = [a:1,'b':2]
println map //[a:1, b:2]
println map.a
println map['a']
println map.keySet() //[a, b]
map = [:]
map[1] = 'a';map[2]='b'
map[true] = 'p'
map[false] = 'q'
map[null]='x';map['null'] = 'z'
assert map ==[1:'a',2:'b',(true):'p',(false):'q',(null):'x'
,'null':'z']
//下面的例子很有用,对map进行了很快速的循环输出!!
def sb = new StringBuffer();
[1:'a',2:'b',3:'c'].each{k,v->sb << "$k:$v, "}
//下面是输出字符串
[1:'a',2:'b',3:'c'].each{k,v-> println "$k:$v, "}
assert sb.toString() =='1:a, 2:b, 3:c, '
//下面又是一种快速的输出map为字符串形式的方法
map = [1:'a',2:'b',3:'c']
def string = map.collect{k,v -> "$k:$v"}.join(', ')
assert string == '1:a, 2:b, 3:c'
//下面演示一个对city进行分类的例子
assert [
[name:'C',city:'London'],
[name:'S',city:'London'],
[name:'M',city:'LA'],
[name:'Z',city:'HK'],
[name:'A',city:'HK']
].groupBy{it.city}==[
London:[ [name:'C',city:'London'],
[name:'S',city:'London']],
LA:[ [name:'M',city:'LA']],
HK:[ [name:'Z',city:'HK'] ,
[name:'A',city:'HK'] ]
]
//map中顺序也是有关系的!顺序不对的map也不相等
assert [ [name:1,city:'L'],[name:2,city:'H']] != [ [name:2,city:'H'],[name:1,city:'L']]
闭包:
闭包的一个例子:
import static java.lang.Math.*
//闭包例子1
piA = { 22/7 }
piB = { 333/106 }
piC = { 355/113 }
piD = { 0.6*(3+sqrt(5))}
piE = { 22/7 +37/47 +888/83}
piF = { sqrt(sqrt(2143/22)) }
//这里就是闭包的实际算法部分。
howCloseToPI = { abs(it.value() - PI) }
algorithms = ['piA':piA,'piB':piB,'piC':piC,'piD':piD,'piE':piE,'piF':piF]
findBestPI(algorithms)
def findBestPI(map){
map.entrySet().sort(howCloseToPI).each{
entry ->//下面调用了闭包的函数
def diff = howCloseToPI(entry)
println "Alorithm $entry.key differs by $diff"
}
}
doubleNum = {num ->num*2}
println doubleNum(3)
//闭包例子2
//下面的方法定义就是使用了闭包。传入了num,closure,其中closure是函数类型。
processThenPrint = {num,closure->
num = closure(num);println "num is $num"
}
//下面传入了函数名作为第二个参数
processThenPrint(3,doubleNum)
//下面传入第二个参数是匿名函数
processThenPrint(10){it/2}
//闭包例子3
//下面又是一个闭包的例子
def houston(Closure doit){
(10..1).each{
count -> doit(count)
}
}
houston{ println it}
//闭包例子4,用于迭代
3.times{println 'Hi'}
[0,1,2].each{number -> println number}
//注意下面的it!!
[1,3,5].each{ println it}
def println = {println it}
[4,5,6].each println
map = ['a':1,'b':2]
map.each{key,value -> map[key]=value*2 }
assert map == ['a':2,'b':4]
//注意下面的each后面是小括号,不是大括号了!
doubler = {key,value -> map[key] = value*2}
map.each(doubler)
assert map == ['a':4,'b':8]
def doubleMethod(entry){
map[entry.key] = entry.value *2;
}
doubler = this.&doubleMethod
map.each(doubler)
assert map == ['a':8,'b':16]
//下面对集合的一些操作很容易的结合了闭包方法的使用
//查询子元素
assert [1,2,3].grep{it<3} ==[1,2]
//判断是否有一个满足条件
assert [1,2,3].any{ it%2==0 }
//判断是否全部满足条件
assert [1,2,3].every{ it <4}
//将集合中全部元素join
assert (1..9).collect{it}.join() == '123456789'
assert (1..4).collect{it*2}.join() == '2468'
//闭包例子5:新的函数curry!以及演示一个通过闭包将list进行修改的例子!!
def add = {x,y -> x+y}
def mult = {x,y -> x*y}
assert add(1,3) == 4
assert mult(1,3) == 3
def min = {x,y -> [x,y].min()}
def max = {x,y -> [x,y].max()}
def sub = {x,y -> return 'x - y = '+(x-y)}
//注意下面的curry函数,意思是默认的传入参数到原有的函数的第一个位置,并将结果返回为一个新的函数
//例如下面的triple就是得到一个数值的三倍!!
def triple = mult.curry(3);assert triple(2) ==6
def atLeastTen = max.curry(10)
def subTen = sub.curry(10)
assert atLeastTen(5)==10
assert atLeastTen(15) == 15
assert subTen(13) == 'x - y = -3'
//
def pairWise(list ,invoke){
if(list.size()<2) return []
def next = invoke(list[0],list[1])
return [next]+pairWise(list[1..-1],invoke)
}
assert pairWise(1..5,add) == [3,5,7,9]
assert pairWise(1..5,mult) == [2,6,12,20]
assert pairWise(1..5,min) == [1,2,3,4]
assert pairWise(1..5,max) == [2,3,4,5]
//inject--参数是初始值,然后放在一个闭包里面对list的每个元素进行迭代操作!
assert 'cbaxabc' == ['a','b','c'].inject('x'){
result,item -> item +result+item
}
对xml的操作
对xml的解析
def CAR_RECORDS = '''
<records>
<car name='HSV Maloo' make='Holden' year='2006'>
<country>Australia</country>
<record type='speed'>Production Pickup Truck with speed of 271kph</record>
</car>
<car name='P50' make='Peel' year='1962'>
<country>Isle of Man</country>
<record type='size'>Smallest Street-Legal Car at 99cm wide and 59 kg in weight</record>
</car>
<car name='Royale' make='Bugatti' year='1931'>
<country>France</country>
<record type='price'>Most Valuable Car at $15 million</record>
</car>
</records>
'''
//解析xml的第一步,进行分析--注意这里的找到的是根节点<records>,所以后面的car。size()就有值。
def records = new XmlSlurper().parseText(CAR_RECORDS)
//得到节点的数目
assert 3 == records.car.size()
//注意下面的得到car里面的country的条目,而不是直接进行records.country!!
assert 3 == records.car.country.size()
//depthFirst():计算全部的节点的数目
assert 10 == records.depthFirst().collect{it}.size()
def firstRecord = records.car[0]
//得到一个节点里面的属性name
assert 'car' == firstRecord.name()
//得到一个节点里面的自定义属性,使用@属性名
assert 'Holden' == firstRecord.@make.toString()
//text():得到节点里面的文本信息!不是属性。
assert 'Australia' == firstRecord.country.text()
//对节点进行判断,找到make属性含有e的条目数量
assert 2 == records.car.findAll {it.@make.toString().contains('e')}.size()
//使用正则表达式进行节点筛选
assert 2 == records.car.findAll{it.@make=~'.*e.*'}.size()
//找到全部的国家符合正则表达式的record节点的make属性!
assert ['Holden','Peel'] == records.car.findAll{ it.country =~ '.*s.*a.*'}
.@make.collect{it.toString()}
//找到全部的type非空的record节点的type属性!!
assert ['speed','size','price'] == records.depthFirst().grep{it.@type!=''}.'@type'*.toString()
def countryOne = records.car[1].country
//查找父节点的两个方法!parent和使用路径表达式
assert 'Peel' == countryOne.parent().@make.toString()
assert 'Peel' == countryOne.'..'.@make.toString()
//将所有的节点按照指定顺序排序之后,再按顺序输出name属性!注意后面的一个×号!
def names = records.car.list().sort{ it.@year.toInteger()}.'@name'*.toString()
assert ['Royale','P50','HSV Maloo'] == names
操作文件,属性文件
myFileDir = "d:\\"
myFileName = 'mytest.txt'
myFile = new File(myFileDir + myFileName)
printFileLine = { println "File line:"+it}
myFile.eachLine ( printFileLine )
myFile.write('123')
myFile.append('123')
读取属性文件:
Properties properties = new Properties()
properties.load(new FileInputStream("d:\\conf.properties"))
println properties.getProperty("filename")
正则表达式:
正则表达式:
assert 'Hello World!' =~ /Hello/
assert 'Hello World!' ==~ /Hello\b.*/
def p = ~/Hello\b.*/
assert p.class.name == 'java.util.regex.Pattern'
//下面的next方法是返回的下一个字符!
assert "1.23".replaceAll(/./){ch-> ch.next()}== "2/34"
assert "1.23".replaceAll(/\d/){num -> num.toInteger()+1}=='2.34'
//下面的 == 不可以换行!否则就是语法错误!!为什么??因为每一行后面默认就是有一个分号的!!
assert "1.23".replaceAll(/\d+/){num ->
num.toInteger()+1} == '2.24'
1 字符串类型的方法:
def firstname='Kate'
def surname='Bush'
//打印字符串的连接
println firstname*2
def fullname="$firstname $surname"
println fullname
println fullname-firstname
//凑足15个字符,不够就在左边补充空格
println fullname.padLeft(15)
//关于字符串的截取
println fullname[0..3]
println fullname[-4..-1]
//下面的方式比较特别,取第5个字符,以及3,2,1位置字符连接起来
assert fullname[5,3..1]=='Beta'
ff='aaaabbccadvbasd'
lines=ff.split('a')
//下面assert在后面表达式为false情况下抛出异常
assert lines.size()==7
//注意字符串中的特殊字符
def plain='\n\r\t\b\\\f\$'
assert plain.size()==7
//关于字符串的闭包(注意下面的括号的使用方法!)
fullname="${-> firstname} $surname"
println fullname
firstname = 'li'
surname='shuiqing'
println fullname
//关于字符串的运算符
fullname = fullname -'qing'-'l'+' hello world'
assert fullname=='i Bush hello world'
//字符串替换
string = 'hippopotamus'
assert string.replace('ppopotam','bisc') == 'hibiscus'
//字符串反转,转换为list
assert'apple'.toList() == ['a', 'p', 'p', 'l', 'e']
//下面把字符串里面去掉重复数字,并排序.
string = "an apple a day"
assert string.toList().unique().sort().join() == ' adelnpy'
//下面方法取出得到字符串里面的各个单词,并进行反转
string = 'Yoda said, "can you see this?"'
revwords= string.split(' ').toList().reverse().join(' ')
assert revwords== 'this?" see you "can said, Yoda'
println revwords
//对数组进行筛选,找出反转之后还等于原来字符串并且长度大于5的字符串
words = ['bob', 'alpha', 'rotator', 'omega', 'reviver']
bigPalindromes= words.findAll{w-> w == w.reverse() && w.size() > 5}
assert bigPalindromes== ['rotator', 'reviver']
println bigPalindromes
数字函数:
def x=3
def y=4
println x+y
println x.plus(y)
println x instanceof Integer //输出true
def a=2/3
//进行小数的取三位小数运算.
def b = a.setScale(3,BigDecimal.ROUND_HALF_UP)
assert b.toString() == '0.667'
//进行不等于的比较
println 4<=>3 //输出1
4!=3
println 4**3 //4的3次方,等于4.power(3)
println 4/3 //输出1.3333333333,等于4.div(3)
println 8.intdiv(3) //输出1
println 8%3 //取余,等于8.mod(3)
日期函数:
import static java.util.Calendar.getInstance as now
import org.codehaus.groovy.runtime.TimeCategory
import java.text.SimpleDateFormat
def date = new Date()+1
println date
input = '1998-06-03'
df1 = new SimpleDateFormat("yyyy-MM-dd")
date = df1.parse(input)
df2 = new SimpleDateFormat("MMM/dd/yyyy")
println 'Date was '+df2.format(date)
println now().time
println df1.format(now().time)
//进行时间的计算
use(TimeCategory){
date3 = new Date()+1.year+3.hours-2.days
println df1.format(date3)
}
/*
Tue Apr 10 14:59:33 CST 2012
Date was 六月/03/1998
Mon Apr 09 14:59:33 CST 2012
2012-04-09
2013-04-07
*/
操作符重载:
//下面演示对字符串实现了操作符++的重载.++对应的方法名是next
for ( i='a';i<'d';i++)
print i +", "
println ''
for( i in 'a'..'d')
print i+", "
//下面演示的对于集合,重载了操作符<<,对应的方法名是leftShift()
lst = ['hello']
lst << 'there'
println lst
//下面演示对一个自定义类实现的+的重载。
class ComplexNumber{
def real,imaginary
def plus(other){
new ComplexNumber(real:real+other.real,
imaginary:imaginary+other.imaginary)
}
String toString(){
"$real ${imaginary>0 ? '+':''}${imaginary}i"
}
}
c1 = new ComplexNumber(real:1,imaginary:2)
c2 = new ComplexNumber(real:4,imaginary:-31)
println c1+c2
操作数据库:
import groovy.sql.Sql
def testYear = '2011'
//下面的Driver类找不到!修改配置文件就可以了。
def sql = Sql.newInstance("jdbc:mysql://localhost:3306/dwz","root","123456"
,"com.mysql.jdbc.Driver")
println '数据库名:'+sql.connection.catalog
sql.execute("delete from testtable where name like ? or name like ? or name like ?",['ls%','lish%','%dataSet%'])
println '插入我的数据之前,数据库:'
sql.eachRow("select * from testtable"){
println "id = ${it.id} year = ${it.name} "+it.name
}
println '--------------------------------------'
wid = 123
wname = 'lishuiqing'
//下面必须使用双引号!
sql.execute("insert into testtable(id,name) values (${wid},${wname})")
sql.execute("update testtable set name =? where name = ?",['lsq','lishuiqing'])
//下面使用预定义参数的查询语句
sql.eachRow("select * from testtable where name like ?",["%a%"]){
println "id = ${it.id} year = ${it.name} "+it.name
}
println '--------------------------------------'
println '下面练习使用dataset'
testtable = sql.dataSet('testtable')
/*def anycity = testtable.findAll{ it.id>1 }
anycity.each{
println 1
}*/
2.times{
testtable.add(id:it,name:'使用dataSet添加'+it)
}
println "testtable.getSql():"+testtable.getSql()
println '总行数:'+testtable.rows().size()
num = 0
testtable.each{
//println it[0]----也可以输出指定位置的元素!!
num = num+1
println it.id+",year="+it.name
}
//注意要使用${}输出参数的话,必须使用双引号。。。
println "${num}"
println '--------------------------------------'
println "下面显示当前数据库的运行实时状态"
sql.eachRow("show status "){
//下面在{}里面定义的变量,在外面也找到,也就是作用域是全部的范围!!
if(it.variable_name=="Uptime")
uptime = it[1]
else if (it.variable_name =='Questions')
questions = it[1]
}
println "数据库运行时间Uptime for Database:${uptime}"
println "数据库查询的条目Number of Queries:${questions}"
println "每分钟的查询条目Queties per Minutes = "+Integer.valueOf(questions)/Integer.valueOf(uptime)
sql.eachRow("show status like 'Com_%'"){
if(it.variable_name=="Com_insert")
insertnum = Integer.valueOf(it[1])
else if (it.variable_name == "Com_select")
selectnum = Integer.valueOf(it[1])
else if (it.variable_name == "Com_update")
updatenum = Integer.valueOf(it[1])
}
println "查询语句有${selectnum},百分比:"+100*(selectnum/Integer.valueOf(uptime))+"%"
println "插入语句有${insertnum},百分比:"+100*(insertnum/Integer.valueOf(uptime))+"%"
println "更新语句有${updatenum},百分比:"+100*(updatenum/Integer.valueOf(uptime))+"%"
println '--------------------------------------'
println '下面将数据库里面的值保存到xml文件'
bldr = new groovy.xml.MarkupBuilder()
bldr.testtable{
sql.eachRow('select * from testtable'){
data(id:it.id,name:it.name)
}
}
println bldr.text()
List 和 Map:
List
assert [1,2,3,4] ==(1..4)
//集合是有顺序的!!
assert [1,2,3,4] !=[1,2,4,3]
assert [1,2,3]+[1] ==[1,2,3,1]
//将一个元素添加到已经存在的list中
assert [1,2,3]<<1 ==[1,2,3,1]
//从已有的list中删除元素
assert [1,2,3,1]-[1] ==[2,3]
assert [1,2,3]*2 ==[1,2,3,1,2,3]
//flatten:扁平的意思
assert [1,[2,3]].flatten() ==[1,2,3]
assert [1,2,3].reverse()==[3,2,1]
//测试两个集合是否有交叉
assert [1,2,3].disjoint([4,5,6])
//intersect:得到两个集合中的交集
assert [1,2,3].intersect([4,3,1]) ==[3,1]
//对集合进行循环处理
assert [1,2,3].collect{it+3} ==[4,5,6]
assert [1,2,3,1].unique().size()==3
assert [1,2,3,1].count(1) ==2
assert [1,2,3,4].min() ==1
assert [1,2,3,4].max() ==4
assert [1,2,3,4].sum() ==10
assert [4,2,1,3].sort() ==[1,2,3,4]
//对集合进行循环处理判断,并返回结果
assert [4,2,1,3].findAll{it%2==0} ==[4,2]
//对集合的迭代
def expected = [1,2,3,'test']
expected.each{test -> println test}
Map:
def map = [a:1,'b':2]
println map //[a:1, b:2]
println map.a
println map['a']
println map.keySet() //[a, b]
map = [:]
map[1] = 'a';map[2]='b'
map[true] = 'p'
map[false] = 'q'
map[null]='x';map['null'] = 'z'
assert map ==[1:'a',2:'b',(true):'p',(false):'q',(null):'x'
,'null':'z']
//下面的例子很有用,对map进行了很快速的循环输出!!
def sb = new StringBuffer();
[1:'a',2:'b',3:'c'].each{k,v->sb << "$k:$v, "}
//下面是输出字符串
[1:'a',2:'b',3:'c'].each{k,v-> println "$k:$v, "}
assert sb.toString() =='1:a, 2:b, 3:c, '
//下面又是一种快速的输出map为字符串形式的方法
map = [1:'a',2:'b',3:'c']
def string = map.collect{k,v -> "$k:$v"}.join(', ')
assert string == '1:a, 2:b, 3:c'
//下面演示一个对city进行分类的例子
assert [
[name:'C',city:'London'],
[name:'S',city:'London'],
[name:'M',city:'LA'],
[name:'Z',city:'HK'],
[name:'A',city:'HK']
].groupBy{it.city}==[
London:[ [name:'C',city:'London'],
[name:'S',city:'London']],
LA:[ [name:'M',city:'LA']],
HK:[ [name:'Z',city:'HK'] ,
[name:'A',city:'HK'] ]
]
//map中顺序也是有关系的!顺序不对的map也不相等
assert [ [name:1,city:'L'],[name:2,city:'H']] != [ [name:2,city:'H'],[name:1,city:'L']]
闭包:
闭包的一个例子:
import static java.lang.Math.*
//闭包例子1
piA = { 22/7 }
piB = { 333/106 }
piC = { 355/113 }
piD = { 0.6*(3+sqrt(5))}
piE = { 22/7 +37/47 +888/83}
piF = { sqrt(sqrt(2143/22)) }
//这里就是闭包的实际算法部分。
howCloseToPI = { abs(it.value() - PI) }
algorithms = ['piA':piA,'piB':piB,'piC':piC,'piD':piD,'piE':piE,'piF':piF]
findBestPI(algorithms)
def findBestPI(map){
map.entrySet().sort(howCloseToPI).each{
entry ->//下面调用了闭包的函数
def diff = howCloseToPI(entry)
println "Alorithm $entry.key differs by $diff"
}
}
doubleNum = {num ->num*2}
println doubleNum(3)
//闭包例子2
//下面的方法定义就是使用了闭包。传入了num,closure,其中closure是函数类型。
processThenPrint = {num,closure->
num = closure(num);println "num is $num"
}
//下面传入了函数名作为第二个参数
processThenPrint(3,doubleNum)
//下面传入第二个参数是匿名函数
processThenPrint(10){it/2}
//闭包例子3
//下面又是一个闭包的例子
def houston(Closure doit){
(10..1).each{
count -> doit(count)
}
}
houston{ println it}
//闭包例子4,用于迭代
3.times{println 'Hi'}
[0,1,2].each{number -> println number}
//注意下面的it!!
[1,3,5].each{ println it}
def println = {println it}
[4,5,6].each println
map = ['a':1,'b':2]
map.each{key,value -> map[key]=value*2 }
assert map == ['a':2,'b':4]
//注意下面的each后面是小括号,不是大括号了!
doubler = {key,value -> map[key] = value*2}
map.each(doubler)
assert map == ['a':4,'b':8]
def doubleMethod(entry){
map[entry.key] = entry.value *2;
}
doubler = this.&doubleMethod
map.each(doubler)
assert map == ['a':8,'b':16]
//下面对集合的一些操作很容易的结合了闭包方法的使用
//查询子元素
assert [1,2,3].grep{it<3} ==[1,2]
//判断是否有一个满足条件
assert [1,2,3].any{ it%2==0 }
//判断是否全部满足条件
assert [1,2,3].every{ it <4}
//将集合中全部元素join
assert (1..9).collect{it}.join() == '123456789'
assert (1..4).collect{it*2}.join() == '2468'
//闭包例子5:新的函数curry!以及演示一个通过闭包将list进行修改的例子!!
def add = {x,y -> x+y}
def mult = {x,y -> x*y}
assert add(1,3) == 4
assert mult(1,3) == 3
def min = {x,y -> [x,y].min()}
def max = {x,y -> [x,y].max()}
def sub = {x,y -> return 'x - y = '+(x-y)}
//注意下面的curry函数,意思是默认的传入参数到原有的函数的第一个位置,并将结果返回为一个新的函数
//例如下面的triple就是得到一个数值的三倍!!
def triple = mult.curry(3);assert triple(2) ==6
def atLeastTen = max.curry(10)
def subTen = sub.curry(10)
assert atLeastTen(5)==10
assert atLeastTen(15) == 15
assert subTen(13) == 'x - y = -3'
//
def pairWise(list ,invoke){
if(list.size()<2) return []
def next = invoke(list[0],list[1])
return [next]+pairWise(list[1..-1],invoke)
}
assert pairWise(1..5,add) == [3,5,7,9]
assert pairWise(1..5,mult) == [2,6,12,20]
assert pairWise(1..5,min) == [1,2,3,4]
assert pairWise(1..5,max) == [2,3,4,5]
//inject--参数是初始值,然后放在一个闭包里面对list的每个元素进行迭代操作!
assert 'cbaxabc' == ['a','b','c'].inject('x'){
result,item -> item +result+item
}
对xml的操作
对xml的解析
def CAR_RECORDS = '''
<records>
<car name='HSV Maloo' make='Holden' year='2006'>
<country>Australia</country>
<record type='speed'>Production Pickup Truck with speed of 271kph</record>
</car>
<car name='P50' make='Peel' year='1962'>
<country>Isle of Man</country>
<record type='size'>Smallest Street-Legal Car at 99cm wide and 59 kg in weight</record>
</car>
<car name='Royale' make='Bugatti' year='1931'>
<country>France</country>
<record type='price'>Most Valuable Car at $15 million</record>
</car>
</records>
'''
//解析xml的第一步,进行分析--注意这里的找到的是根节点<records>,所以后面的car。size()就有值。
def records = new XmlSlurper().parseText(CAR_RECORDS)
//得到节点的数目
assert 3 == records.car.size()
//注意下面的得到car里面的country的条目,而不是直接进行records.country!!
assert 3 == records.car.country.size()
//depthFirst():计算全部的节点的数目
assert 10 == records.depthFirst().collect{it}.size()
def firstRecord = records.car[0]
//得到一个节点里面的属性name
assert 'car' == firstRecord.name()
//得到一个节点里面的自定义属性,使用@属性名
assert 'Holden' == firstRecord.@make.toString()
//text():得到节点里面的文本信息!不是属性。
assert 'Australia' == firstRecord.country.text()
//对节点进行判断,找到make属性含有e的条目数量
assert 2 == records.car.findAll {it.@make.toString().contains('e')}.size()
//使用正则表达式进行节点筛选
assert 2 == records.car.findAll{it.@make=~'.*e.*'}.size()
//找到全部的国家符合正则表达式的record节点的make属性!
assert ['Holden','Peel'] == records.car.findAll{ it.country =~ '.*s.*a.*'}
.@make.collect{it.toString()}
//找到全部的type非空的record节点的type属性!!
assert ['speed','size','price'] == records.depthFirst().grep{it.@type!=''}.'@type'*.toString()
def countryOne = records.car[1].country
//查找父节点的两个方法!parent和使用路径表达式
assert 'Peel' == countryOne.parent().@make.toString()
assert 'Peel' == countryOne.'..'.@make.toString()
//将所有的节点按照指定顺序排序之后,再按顺序输出name属性!注意后面的一个×号!
def names = records.car.list().sort{ it.@year.toInteger()}.'@name'*.toString()
assert ['Royale','P50','HSV Maloo'] == names
操作文件,属性文件
myFileDir = "d:\\"
myFileName = 'mytest.txt'
myFile = new File(myFileDir + myFileName)
printFileLine = { println "File line:"+it}
myFile.eachLine ( printFileLine )
myFile.write('123')
myFile.append('123')
读取属性文件:
Properties properties = new Properties()
properties.load(new FileInputStream("d:\\conf.properties"))
println properties.getProperty("filename")
正则表达式:
正则表达式:
assert 'Hello World!' =~ /Hello/
assert 'Hello World!' ==~ /Hello\b.*/
def p = ~/Hello\b.*/
assert p.class.name == 'java.util.regex.Pattern'
//下面的next方法是返回的下一个字符!
assert "1.23".replaceAll(/./){ch-> ch.next()}== "2/34"
assert "1.23".replaceAll(/\d/){num -> num.toInteger()+1}=='2.34'
//下面的 == 不可以换行!否则就是语法错误!!为什么??因为每一行后面默认就是有一个分号的!!
assert "1.23".replaceAll(/\d+/){num ->
num.toInteger()+1} == '2.24'
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