jq命令安装与使用

- 一、简介
- 二、下载及安装
- - 1.Linux 安装
  - 2.Windows 安装
  - 3.测试安装结果
- 三、jq用法
- - 1.基本语法
  - 2.常见用法
  - - 1）格式化 JSON
    - 2）获取属性
    - 3）属性不存在情况处理
    - 4）数组遍历、截取、展开
    - 5）管道、逗号、加号
    - 6）数据构造
    - 7）基础函数
    - 8）过滤、排序、分组函数
    - 9）字符串操作函数
    - 10）日期函数
    - 11）高级用法

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官网地址： https://stedolan.github.io/jq/
官方文档： https://jqlang.github.io/jq/manual/
GitHub： https://github.com/stedolan/jq
在线测试： https://jqplay.org/

一、简介

jq 是一个强大的命令行工具，用于处理 JSON 格式的数据。它可以帮助你查询、过滤、修改和处理 JSON 数据，使得再命令行环境下处理 JSON 变得非常方便。

二、下载及安装

官方下载地址： https://jqlang.github.io/jq/download/

1.Linux 安装

方式一：yum 命令

sudo yum install epel-releaseyum install -y jq

方式二：apt-get 命令

sudo apt-get install jq

方式三：dnf 命令

sudo dnf install jq

方式四：zypper 命令

sudo zypper install jq

方式五：pacman 命令

sudo pacman -S jq

2.Windows 安装

Windows 安装，虽然下面命令很多，其实本质上都是从官网下载 exe 文件后，放到指定目录下，重命名为 jq.exe，然后再配置环境变量，自己手动操作也可以。

官方下载地址： https://jqlang.github.io/jq/download/

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方式一：winget 命令

winget 是 Windows 自带的安装工具，可以直接在 PowerShell 或 CMD 控制台执行。

winget install jqlang.jq

需要注意的是，官方的下载地址国内无法访问，提示 InternetOpenUrl() failed. 这是网络问题导致的，需要自由发挥下。

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网络问题解决后，正常安装流程如下：

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到这里还没完，因为默认安装的命令不是 jq，而是 jq-windows-amd64：

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需要先去环境变量所在路径修改一下文件名为 jq.exe ：

C:\Users\用户名\AppData\Local\Microsoft\WinGet\Packages\jqlang.jq_Microsoft.Winget.Source_8wekyb3d8bbwe

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然后去 C:\Windows\Prefetch\ 下面删除 JQ-WINDOWS-AMD64 开头的文件，这是 Windows 操作系统生成缓存文件，需要清理下。

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删除后，我们就可以去命令行里面执行 jq 命令了：

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方式二：GitBash 命令

curl -L -o /usr/bin/jq.exe https://github.com/stedolan/jq/releases/latest/download/jq-win64.exe

这行命令主要做了以下操作：

1）下载 exe 执行文件；

2）重命名为 jq.exe；

3）将重命名后的文件放到 /usr/bin/ 目录下，也就是 Windows 的 C:\Users\用户名\Git\usr\bin\ 目录。（也可以放在 /mingw64/bin/ 目录下，对应 C:\Program Files\Git\mingw64\bin\，效果一样）

注意：这种方式安装之后，只能

方式三：Chocolatey 命令

choco install jq -y

方式四：scoop 命令

scoop install jq

3.测试安装结果

检查是否安装成功，执行如下命令：

jq --version

执行结果如下，则说明安装成功：

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三、jq用法

在线测试地址： https://jqplay.org/

1.基本语法

jq [options] filter [file]

options：

-r：将结果按行分割，而不是 JSON 编码。
-c：输出时，输出原始格式。
-s：用于处理多个 JSON 对象的数组。

filter：

.：表示当前对象，用于访问字段或属性。例如 .fieldName 表示访问当前对象的 filedName 属性。
[]：用于遍历数组元素。
select(condition)：根据条件选择元素。
map(transform)：对数组中的每个元素进行转换操作。

2.常见用法

1）格式化 JSON

按照 JSON 格式输出到多行：

echo '{"name":"ACGkaka"}' | jq

执行结果：

{"name": "ACGkaka"
}

将 JSON 格式输出到一行：

<<eof 操作可以理解为：临时创建了一个文件并写入内容。

jq -c <<eof
{"name": "ACGkaka"
}
eof

执行结果：

{"name":"ACGkaka"}

2）获取属性

获取对象属性：

$ echo '{"name":"ACGkaka"}' | jq .name
"ACGkaka"

获取对象属性，并去掉双引号：

$ echo '{"name":"ACGkaka"}' | jq -r .name
ACGkaka

获取数组中每个对象的属性：

$ echo '[{"name":"ACGkaka1"},{"name":"ACGkaka2"}]' | jq .[].name
"ACGkaka1"
"ACGkaka2"

获取数组中第1个对象的属性：

$ echo '[{"name":"ACGkaka1"},{"name":"ACGkaka2"}]' | jq .[0].name
"ACGkaka1"

3）属性不存在情况处理

# 从非对象类型中提取字段，会报错
$ echo -n '{"id":1, "name":"zhangsan", "attr":{"height":1.78,"weight":"60kg"}}'|jq '.name.alias'
jq: error (at <stdin>:0): Cannot index string with string "alias"# 使用?号可以避免这种报错
$ echo -n '{"id":1, "name":"zhangsan", "attr":{"height":1.78,"weight":"60kg"}}'|jq '.name.alias?'# //符号用于，当前面的表达式取不到值时，执行后面的表达式
$ echo -n '{"id":1, "name":"zhangsan", "attr":{"height":1.78,"weight":"60kg"}}'|jq '.alias//.name'
"zhangsan"

4）数组遍历、截取、展开

输出所有人的年龄：

$ echo '[{"name":"ACGkaka1","age":15},{"name":"ACGkaka2","age":20}]' | jq '.[] | .age'
15
20

截取前两位数字：

$ echo '[75, 85, 90, 95]' | jq .[:2]
[75,85
]

截取第2、3位数字：

（留头去尾）

$ echo '[75, 85, 90, 95]' | jq .[1:3]
[85,90
]

数组展开：

$ echo '[75, 85, 90]' | jq .[]
75
85
90

5）管道、逗号、加号

# 管道1.可以将值从前一个命令传送到后一个命令
$ echo '{"id":1, "name":"ACGkaka", "attr":{"height":1.78,"weight":"60kg"}}'|jq '.attr|.height'
1.78
# 管道2.可以做一些简单的运算
$ echo '{"id":1, "name":"ACGkaka", "attr":{"height":1.78,"weight":"60kg"}}'|jq '.attr|.height*100|tostring + "cm"'
"178cm"# 逗号可以输出多个结果
$ echo '{"id":1, "name":"ACGkaka", "attr":{"height":1.78,"weight":"60kg"}}'|jq -r '.attr.height,.attr.weight'
1.78
60kg# 加号可以进行拼接
$ echo '{"name":"ACGkaka", "city":"Beijing"}' | jq -r '.name+", "+.city'
ACGkaka, Beijing

6）数据构造

$ cat data.txt
id  name      age  score
1   zhangsan  17   75
2   lisi      16   80
3   wangwu    18   85
4   zhaoliu   18   90# 每行分割成数组，[]构造新的数组输出
$ tail -n+2 data.txt|jq -R '[splits("\\s+")]' -c
["1","zhangsan","17","75"]
["2","lisi","16","80"]
["3","wangwu","18","85"]
["4","zhaoliu","18","90"]$ jq -n '{id:1, name:"zhangsan"}' -c
{"id":1,"name":"zhangsan"}# 每行转换为对象，{}构造新的对象格式输出
$ tail -n+2 data.txt|jq -R '[splits("\\s+")] | {id:.[0]|tonumber, name:.[1], age:.[2], score:.[3]}' -c
{"id":1,"name":"zhangsan","age":"17","score":"75"}
{"id":2,"name":"lisi","age":"16","score":"80"}
{"id":3,"name":"wangwu","age":"18","score":"85"}
{"id":4,"name":"zhaoliu","age":"18","score":"90"}# \()字符串占位变量替换
$ cat data.json
{"id":1,"name":"zhangsan","age":"17","score":"75"}
{"id":2,"name":"lisi","age":"16","score":"80"}
{"id":3,"name":"wangwu","age":"18","score":"85"}
{"id":4,"name":"zhaoliu","age":"18","score":"90"}$ cat data.json |jq '"id:\(.id),name:\(.name),age:\(.age),score:\(.score)"' -r
id:1,name:zhangsan,age:17,score:75
id:2,name:lisi,age:16,score:80
id:3,name:wangwu,age:18,score:85
id:4,name:zhaoliu,age:18,score:90

7）基础函数

# has函数，检测对象是否包含key
$ echo -n '{"id":1,"name":"zhangsan","age":"17","score":"75"}'|jq 'has("id")'
true# del函数，删除某个属性
$ echo -n '{"id":1,"name":"zhangsan","age":"17","score":"75"}'|jq 'del(.id)' -c
{"name":"zhangsan","age":"17","score":"75"}# map函数，对数组中每个元素执行表达式计算，计算结果组织成新数组
$ seq 4|jq -s 'map(. * 2)' -c
[2,4,6,8]# 上面map函数写法，其实等价于这个写法
$ seq 4|jq -s '[.[]|.*2]' -c
[2,4,6,8]# keys函数，列出对象属性
$ echo -n '{"id":1,"name":"zhangsan","age":"17","score":"75"}'|jq 'keys' -c
["age","id","name","score"]# to_entries函数，列出对象键值对
$ echo -n '{"id":1,"name":"zhangsan","age":"17","score":"75"}'|jq 'to_entries' -c
[{"key":"id","value":1},{"key":"name","value":"zhangsan"},{"key":"age","value":"17"},{"key":"score","value":"75"}]# length函数，计算数组或字符串长度
$ jq -n '[1,2,3,4]|length'
4# add函数，计算数组中数值之和
$ seq 4|jq -s 'add'
10# tostring与tonumber，类型转换
$ seq 4|jq 'tostring|tonumber'
1
2
3
4# type函数，获取元素类型
$ jq 'type' <<eof
1
"zhangsan"
true
null
{"id":1}
[75, 80, 85]
eof"number"
"string"
"boolean"
"null"
"object"
"array"

8）过滤、排序、分组函数

$ cat data.json
{"id":1,"name":"zhangsan","sex": 0, "age":"17","score":"75"}
{"id":2,"name":"lisi","sex": 1, "age":"16","score":"80"}
{"id":3,"name":"wangwu","sex": 0, "age":"18","score":"85"}
{"id":4,"name":"zhaoliu","sex": 0, "age":"18","score":"90"}# select函数用于过滤，类似SQL中的where
$ cat data.json |jq 'select( (.id>1) and (.age|IN("16","17","18")) and (.name != "lisi") or (has("attr")|not) and (.score|tonumber >= 90) )' -c
{"id":3,"name":"wangwu","sex":0,"age":"18","score":"85"}
{"id":4,"name":"zhaoliu","sex":0,"age":"18","score":"90"}# 有一些简化的过滤函数，如arrays, objects, iterables, booleans, numbers, normals, finites, strings, nulls, values, scalars
# 它们根据类型过滤，如objects过滤出对象，values过滤出非null值等
$ jq -c 'objects' <<eof
1
"zhangsan"
true
null
{"id":1}
[75, 80, 85]
eof{"id":1}$ jq -c 'values' <<eof
1
"zhangsan"
true
null
{"id":1}
[75, 80, 85]
eof1
"zhangsan"
true
{"id":1}
[75,80,85]# 选择出id与name字段，类似SQL中的select id,name
$ cat data.json|jq -s 'map({id,name})[]' -c
{"id":1,"name":"zhangsan"}
{"id":2,"name":"lisi"}
{"id":3,"name":"wangwu"}
{"id":4,"name":"zhaoliu"}# 提取前2行，类似SQL中的limit 2
$ cat data.json|jq -s 'limit(2; map({id,name})[])' -c
{"id":1,"name":"zhangsan"}
{"id":2,"name":"lisi"}# 按照age、id排序，类似SQL中的order by age,id
$ cat data.json|jq -s 'sort_by((.age|tonumber), .id)[]' -c
{"id":2,"name":"lisi","sex":1,"age":"16","score":"80"}
{"id":1,"name":"zhangsan","sex":0,"age":"17","score":"75"}
{"id":3,"name":"wangwu","sex":0,"age":"18","score":"85"}
{"id":4,"name":"zhaoliu","sex":0,"age":"18","score":"90"}# 根据sex与age分组，并每组聚合计算count(*)、avg(score)、max(id)
$ cat data.json |jq -s 'group_by(.sex, .age)[]' -c
[{"id":1,"name":"zhangsan","sex":0,"age":"17","score":"75"}]
[{"id":3,"name":"wangwu","sex":0,"age":"18","score":"85"},{"id":4,"name":"zhaoliu","sex":0,"age":"18","score":"90"}]
[{"id":2,"name":"lisi","sex":1,"age":"16","score":"80"}]$ cat data.json |jq -s 'group_by(.sex, .age)[]|{sex:.[0].sex, age:.[0].age, count:length, avg_score:map(.score|tonumber)|(add/length), scores:map(.score)|join(","), max_id:map(.id)|max }' -c                
{"sex":0,"age":"17","count":1,"avg_score":75,"scores":"75","max_id":1}
{"sex":0,"age":"18","count":2,"avg_score":87.5,"scores":"85,90","max_id":4}
{"sex":1,"age":"16","count":1,"avg_score":80,"scores":"80","max_id":2}

9）字符串操作函数

# contains函数，判断是否包含，实际也可用于判断数组是否包含某个元素
$ echo hello | jq -R 'contains("he")'
true# 判断是否以he开头
$ echo hello | jq -R 'startswith("he")'
true# 判断是否以llo结尾
$ echo hello | jq -R 'endswith("llo")'
true# 去掉起始空格
$ echo ' hello '|jq -R 'ltrimstr(" ")|rtrimstr(" ")'
"hello"# 大小写转换
$ echo hello|jq -R 'ascii_upcase'
"HELLO"$ echo HELLO|jq -R 'ascii_downcase'
"hello"# 字符串数组，通过逗号拼接成一个字符串
$ seq 4|jq -s 'map(tostring)|join(",")'
"1,2,3,4"# json字符串转换为json对象
$ echo -n '{"id":1,"name":"zhangsan","age":"17","attr":"{\"weight\":56,\"height\":178}"}'|jq '.attr = (.attr|fromjson)' -c
{"id":1,"name":"zhangsan","age":"17","attr":{"weight":56,"height":178}}# json对象转换为json字符串
$ echo -n '{"id":1,"name":"zhangsan","age":"17","attr":{"weight":56,"height":178}}'|jq '.attr = (.attr|tojson)'
{"id": 1,"name": "zhangsan","age": "17","attr": "{\"weight\":56,\"height\":178}"
}$ cat data.txt
id:1,name:zhangsan,age:17,score:75
id:2,name:lisi,age:16,score:80
id:3,name:wangwu,age:18,score:85
id:4,name:zhaoliu,age:18,score:90# 正则表达式过滤，jq使用的是PCRE
$ cat data.txt|jq -R 'select(test("id:\\d+,name:\\w+,age:\\d+,score:8\\d+"))' -r
id:2,name:lisi,age:16,score:80
id:3,name:wangwu,age:18,score:85# 正则拆分字符串
$ cat data.txt|jq -R '[splits(",")]' -cr
["id:1","name:zhangsan","age:17","score:75"]
["id:2","name:lisi","age:16","score:80"]
["id:3","name:wangwu","age:18","score:85"]
["id:4","name:zhaoliu","age:18","score:90"]# 正则替换字符串
$ cat data.txt |jq -R 'gsub("name"; "nick")' -r
id:1,nick:zhangsan,age:17,score:75
id:2,nick:lisi,age:16,score:80
id:3,nick:wangwu,age:18,score:85
id:4,nick:zhaoliu,age:18,score:90# 正则表达式捕获数据
$ cat data.txt|jq -R 'match("id:(?<id>\\d+),name:(?<name>\\w+),age:\\d+,score:8\\d+")' -cr
{"offset":0,"length":30,"string":"id:2,name:lisi,age:16,score:80","captures":[{"offset":3,"length":1,"string":"2","name":"id"},{"offset":10,"length":4,"string":"lisi","name":"name"}]}
{"offset":0,"length":32,"string":"id:3,name:wangwu,age:18,score:85","captures":[{"offset":3,"length":1,"string":"3","name":"id"},{"offset":10,"length":6,"string":"wangwu","name":"name"}]}# capture命名捕获，生成key是捕获组名称，value是捕获值的对象
$ cat data.txt|jq -R 'capture("id:(?<id>\\d+),name:(?<name>\\w+),age:\\d+,score:8\\d+")' -rc
{"id":"2","name":"lisi"}
{"id":"3","name":"wangwu"}# 正则扫描输入字符串
$ cat data.txt|jq -R '[scan("\\w+:\\w+")]' -rc
["id:1","name:zhangsan","age:17","score:75"]
["id:2","name:lisi","age:16","score:80"]
["id:3","name:wangwu","age:18","score:85"]
["id:4","name:zhaoliu","age:18","score:90"]

10）日期函数

# 当前时间缀
$ jq -n 'now'
1653820640.939947# 将时间缀转换为0时区的分解时间(broken down time)，形式为 年 月 日 时 分 秒 dayOfWeek dayOfYear
$ jq -n 'now|gmtime' -c
[2022,4,29,10,45,5.466768980026245,0,148]# 将时间缀转换为本地时区的分解时间(broken down time)
$ jq -n 'now|localtime' -c
[2022,4,29,18,46,5.386353015899658,0,148]# 分解时间转换为时间串
$ jq -n 'now|localtime|strftime("%Y-%m-%dT%H:%M:%S")' -c
"2022-05-29T18:50:33"# 与上面等效
$ jq -n 'now|strflocaltime("%Y-%m-%dT%H:%M:%SZ")'
"2022-05-29T19:00:40Z"# 时间串解析为分解时间
$ date +%FT%T|jq -R 'strptime("%Y-%m-%dT%H:%M:%S")' -c
[2022,4,29,18,51,27,0,148]# 分解时间转换为时间缀
$ date +%FT%T|jq -R 'strptime("%Y-%m-%dT%H:%M:%S")|mktime'
1653850310

11）高级用法

$ cat data.json
{"id":1,"name":"zhangsan","sex": 0, "age":"17","score":"75"}
{"id":2,"name":"lisi","sex": 1, "age":"16","score":"80"}
{"id":3,"name":"wangwu","sex": 0, "age":"18","score":"85"}
{"id":4,"name":"zhaoliu","sex": 0, "age":"18","score":"90"}# 单变量定义
$ cat data.json| jq '.id as $id|$id'
1
2
3
4# 对象展开式变量定义
$ cat data.json |jq '. as {id:$id,name:$name}|"id:\($id),name:\($name)"'
"id:1,name:zhangsan"
"id:2,name:lisi"
"id:3,name:wangwu"
"id:4,name:zhaoliu"$ cat data.json
["1","zhangsan","17","75"]
["2","lisi","16","80"]
["3","wangwu","18","85"]
["4","zhaoliu","18","90"]# 数组展开式变量定义
$ cat data.json|jq '. as [$id,$name]|"id:\($id),name:\($name)"'
"id:1,name:zhangsan"
"id:2,name:lisi"
"id:3,name:wangwu"
"id:4,name:zhaoliu"# 分支结构
$ cat data.json|jq '. as [$id,$name]|if ($id>"1") then "id:\($id),name:\($name)" else empty end'
"id:2,name:lisi"
"id:3,name:wangwu"
"id:4,name:zhaoliu"# 循环结构，第一个表达式条件满足时，执行只每二个表达式
# 循环结构除了while，还有until、recurse等
$ echo 1|jq 'while(.<100; .*2)'
1
2
4
8
16
32
64# 自定义计算3次方的函数
$ echo 2|jq 'def cube: .*.*. ; cube'
8