I need to write a code which would convert JSON file to CSV. The problem is in a format that the CSV file should look like.
Input json:
{
"strings":{
"1level1":{
"1level2":{
"1label1":"1value1",
"1label2":"1value2"
}
},
"2level1":{
"2level2":{
"2level3":{
"2label1":"2value1"
},
"2label2":"2value2"
}
}
}
}
And this is expected csv file for this json:
Keys,Default
1level1.1level2.1label1,1value1
1level1.1level2.1label2,1value2
2level1.2level2.2level3.2label1,2value1
2level1.2level2.2label2,2value2
I was trying to go through JSON file using recursion but this didn't work for me because of rewriting JSON object on each iteration and code was working only till the first value. Are there any suggestions about how can it be done?
Note: have tried to use different JSON libraries, so for now can be used any of them
UPDATE #1:
Non-working code example I was trying to use to go through JSON tree:
public static void jsonToCsv() throws JSONException {
InputStream is = MainClass.class.getResourceAsStream("/fromJson.json");
JSONTokener jsonTokener = new JSONTokener(is);
JSONObject jsonObject = new JSONObject(jsonTokener);
stepInto(jsonObject);
}
private static void stepInto(JSONObject jsonObject) {
JSONObject object = jsonObject;
try {
Set < String > keySet = object.keySet();
for (String key: keySet) {
object = object.getJSONObject(key);
stepInto(object);
}
} catch (JSONException e) {
Set < String > keySet = object.keySet();
for (String key: keySet) {
System.out.println(object.get(key));
}
e.printStackTrace();
}
}
UPDATE #2:
Another issue is that I will never know the names of the JSON object and count of child objects (update JSON and CSV examples as well to make the image more clear). All that is known, that it will always start with strings object.
Library used:
<dependency>
<groupId>org.json</groupId>
<artifactId>json</artifactId>
<version>20180813</version>
</dependency>
So found a solution by myself:
public static void jsonToCsv() throws JSONException, IOException {
InputStream is = MainClass.class.getResourceAsStream("/fromJson.json");
JSONTokener jsonTokener = new JSONTokener(is);
JSONObject jsonObject = new JSONObject(jsonTokener).getJSONObject("strings");
builder = new StringBuilder();
while (!jsonObject.isEmpty()) {
stepInto(jsonObject);
}
String[] lines = builder.toString().split("\n"); // builder lines are in reverse order from expected so this array is used to reverse them
FileWriter csvWriter = new FileWriter("src/main/resources/toCsv.csv");
csvWriter.append("Keys,Default (en_US)\n");
for (int i = lines.length - 1; i >= 0; i--) {
csvWriter.append(lines[i]).append("\n");
}
csvWriter.flush();
csvWriter.close();
}
private static void stepInto(JSONObject jsonObject) {
for (String key: jsonObject.keySet()) {
Object object = jsonObject.get(key);
if (object instanceof JSONObject) {
builder.append(key).append(".");
stepInto(jsonObject.getJSONObject(key));
} else {
builder.append(key).append(",").append(object).append("\n");
jsonObject.remove(key);
break;
}
if (jsonObject.getJSONObject(key).isEmpty()) {
jsonObject.remove(key);
}
break;
}
}
I think you just missed keeping track of your result, otherwise it looks good.
Let's say your result is a simple string. Then you have to concatenate all keys while traversing the json object until you reach a primitive value (like a number or a string).
(I am writing this out of my head, so please forgive me for incorrect syntax)
private static String stepInto(JSONObject jsonObject) { // we change "void" to "String" so we can record the results of each recursive "stepInto" call
//JSONObject object = jsonObject; // we don't need that. Both variables are the same object
String result ="";
try {
for (String key: jsonObject.keySet()) { // shorter version
Object object = jsonObject.get(key); // Attention! we get a simple Java Object
if(object instanceof JSONObject){
result+= key+"."+stepInto(jsonObject.getJSONObject(key)); // the recursive call, returning all keys concatenated to "level1.level2.level3" until we reach a primitive value
}
if(object instanceof JSONArray){
result+= key+", "+ ... // notice how we use the csv separator (comma) here, because we reached a value. For you to decide how you want to represent arrays
}
result+= key +", "+ object +"\n"; // here I am not sure. It may well be that you need to check if object is a String an Integer, Float or anything.
}
} catch (JSONException e) {
for (String key: jsonObject.keySet()) {
System.out.println(object.get(key));
}
e.printStackTrace();
result+= "\n"; // I added this fallback so your program can terminate even when an error occurs.
}
return result; // sorry, I forgot to accumulate all results and return them. So now we have only one actual "return" statement that will terminate the call and return all results.
}
As you can see, I didn't change much of your original method. The only difference is that now we keep track of the keys ("level1.level2...") for each recursive call.
EDIT
I added a +"\n"; so everytime we reach a value so we can terminate that "line".
AND more importantly, instead of returning everytime, I add the result of each call to a string, so we continue looping over the keys and concatenate all results. Each call of the method will return only once all keys are looped over. (sorry that missed that)
In your calling method you could print out the result, something like that:
JSONObject jsonObject = new JSONObject(jsonTokener);
String result = stepInto(jsonObject);
System.out.println(result);
How do I convert some JSON to a POJO when I don't know the name of a key?
This is my POJO:
public class Summoner {
private Details summonerDetails;
public Details getSummonerDetails() {
return summonerDetails;
}
public void setSummonerDetails(Details summonerDetails) {
this.summonerDetails = summonerDetails;
}
}
The Details class have variables like id, name, etc. -> No issues here
This is the line in my Main class where I try to map the JSON to a POJO:
Summoner test = new ObjectMapper().readValue(json, Summoner.class);
this is a JSON response example I receive:
{
"randomName":{
"id":22600348,
"name":"Ateuzz",
"profileIconId":546,
"summonerLevel":30,
"revisionDate":1378316614000
}
}
if my POJO Details member variable name is "randomName", above code will work. but when I get a response with a different name than "randomName", it doesn't. How do I make my code work for random names?
I'm using Jackson
I'm sorry I can't make a little more clear my issue.
I have solution using not only jackson API but with the use of org.json API also.
String str = "{\"randomName\":{\"id\":22600348,\"name\":\"Ateuzz\",\"profileIconId\":546,\"summonerLevel\":30,\"revisionDate\":1378316614000}}";
JSONObject json = new JSONObject(str);
Iterator<?> keys = json.keys();
while(keys.hasNext())
{
String key = (String)keys.next();
Details test = new ObjectMapper().readValue(json.getJSONObject(key).toString(), Details.class);
}
Here i have use another JAVA Json API to convert your string into jsonObject and than iterate it to get your first key value and map that to your class Details.
I assume that your json format is same as you have mention in your question.
May this will help you.
Using Jackson:
String json = "{\"randomName\":{\"id\":22600348,\"name\":\"Ateuzz\",\"profileIconId\":546,\"summonerLevel\":30,\"revisionDate\":1378316614000}}";
try
{
#SuppressWarnings("unchecked")
Map<String, Map<String, Object>> map = (Map) new ObjectMapper().readValue(json, Map.class);
for(String key : map.keySet())
{
Map<String, Object> submap = map.get(key);
System.out.println(key + ":");
for(String k : submap.keySet())
{
System.out.println("\t" + k + ": " + submap.get(k));
}
}
}
catch(IOException e)
{
e.printStackTrace();
}
I have a JSON string that I get from a database which contains repeated keys. I want to remove the repeated keys by combining their values into an array.
For example
Input
{
"a":"b",
"c":"d",
"c":"e",
"f":"g"
}
Output
{
"a":"b",
"c":["d","e"],
"f":"g"
}
The actual data is a large file that may be nested. I will not know ahead of time what or how many pairs there are.
I need to use Java for this. org.json throws an exception because of the repeated keys, gson can parse the string but each repeated key overwrites the last one. I need to keep all the data.
If possible, I'd like to do this without editing any library code
As of today the org.json library version 20170516 provides accumulate() method that stores the duplicate key entries into JSONArray
JSONObject jsonObject = new JSONObject();
jsonObject.accumulate("a", "b");
jsonObject.accumulate("c", "d");
jsonObject.accumulate("c", "e");
jsonObject.accumulate("f", "g");
System.out.println(jsonObject);
Output:
{
"a":"b",
"c":["d","e"],
"f":"g"
}
I want to remove the repeated keys by combining their values into an array.
Think other than JSON parsing library. It's very simple Java Program using String.split() method that convert Json String into Map<String, List<String>> without using any library.
Sample code:
String jsonString = ...
// remove enclosing braces and double quotes
jsonString = jsonString.substring(2, jsonString.length() - 2);
Map<String, List<String>> map = new HashMap<String, List<String>>();
for (String values : jsonString.split("\",\"")) {
String[] keyValue = values.split("\":\"");
String key = keyValue[0];
String value = keyValue[1];
if (!map.containsKey(key)) {
map.put(key, new ArrayList<String>());
}
map.get(key).add(value);
}
output:
{
"f": ["g"],
"c": ["d","e"],
"a": ["b"]
}
In order to accomplish what you want, you need to create some sort of custom class since JSON cannot technically have 2 values at one key. Below is an example:
public class SomeClass {
Map<String, List<Object>> values = new HashMap<String, List<Object>>();
public void add(String key, Object o) {
List<Object> value = new ArrayList<Object>();
if (values.containsKey(key)) {
value = values.get(key);
}
value.add(o);
values.put(key, value);
}
public JSONObject toJson() throws JSONException {
JSONObject json = new JSONObject();
JSONArray tempArray = null;
for (Entry<String, List<Object>> en : values.entrySet()) {
tempArray = new JSONArray();
for (Object o : en.getValue()) {
tempArray.add(o);
}
json.put(en.getKey(), tempArray);
}
return json;
}
}
You can then retrieve the values from the database, call the .add(String key, Object o) function with the column name from the database, and the value (as the Object param). Then call .toJson() when you are finished.
Thanks to Mike Elofson and Braj for helping me in the right direction. I only wanted to have the keys with multiple values become arrays so I had to modify the code a bit. Eventually I want it to work for nested JSON as well, as it currently assumes it is flat. However, the following code works for what I need it for at the moment.
public static String repeatedKeysToArrays(String jsonIn) throws JSONException
{
//This assumes that the json is flat
String jsonString = jsonIn.substring(2, jsonIn.length() - 2);
JSONObject obj = new JSONObject();
for (String values : jsonString.split("\",\"")) {
String[] keyValue = values.split("\":\"");
String key = keyValue[0];
String value = "";
if (keyValue.length>1) value = keyValue[1];
if (!obj.has(key)) {
obj.put(key, value);
} else {
Object Oold = obj.get(key);
ArrayList<String> newlist = new ArrayList<String>();
//Try to cast as JSONArray. Otherwise, assume it is a String
if (Oold.getClass().equals(JSONArray.class)) {
JSONArray old = (JSONArray)Oold;
//Build replacement value
for (int i=0; i<old.length(); i++) {
newlist.add( old.getString(i) );
}
}
else if (Oold.getClass().equals(String.class)) newlist = new ArrayList<String>(Arrays.asList(new String[] {(String)Oold}));
newlist.add(value);
JSONArray newarr = new JSONArray( newlist );
obj.put(key,newarr);
}
}
return obj.toString();
}
Java EE has ServletRequest.getParameterValues().
On non-EE platforms, URL.getQuery() simply returns a string.
What's the normal way to properly parse the query string in a URL when not on Java EE?
It is popular in the answers to try and make your own parser. This is very interesting and exciting micro-coding project, but I cannot say that it is a good idea.
The code snippets below are generally flawed or broken. Breaking them is an interesting exercise for the reader. And to the hackers attacking the websites that use them.
Parsing query strings is a well defined problem but reading the spec and understanding the nuances is non-trivial. It is far better to let some platform library coder do the hard work, and do the fixing, for you!
On Android:
import android.net.Uri;
[...]
Uri uri=Uri.parse(url_string);
uri.getQueryParameter("para1");
Since Android M things have got more complicated. The answer of android.net.URI.getQueryParameter() has a bug which breaks spaces before JellyBean.
Apache URLEncodedUtils.parse() worked, but was deprecated in L, and removed in M.
So the best answer now is UrlQuerySanitizer. This has existed since API level 1 and still exists. It also makes you think about the tricky issues like how do you handle special characters, or repeated values.
The simplest code is
UrlQuerySanitizer.ValueSanitizer sanitizer = UrlQuerySanitizer.getAllButNullLegal();
// remember to decide if you want the first or last parameter with the same name
// If you want the first call setPreferFirstRepeatedParameter(true);
sanitizer.parseUrl(url);
String value = sanitizer.getValue("paramName");
If you are happy with the default parsing behavior you can do:
new UrlQuerySanitizer(url).getValue("paramName")
but you should make sure you understand what the default parsing behavor is, as it might not be what you want.
On Android, the Apache libraries provide a Query parser:
http://developer.android.com/reference/org/apache/http/client/utils/URLEncodedUtils.html and http://hc.apache.org/httpcomponents-client-ga/httpclient/apidocs/org/apache/http/client/utils/URLEncodedUtils.html
public static Map<String, List<String>> getUrlParameters(String url)
throws UnsupportedEncodingException {
Map<String, List<String>> params = new HashMap<String, List<String>>();
String[] urlParts = url.split("\\?");
if (urlParts.length > 1) {
String query = urlParts[1];
for (String param : query.split("&")) {
String pair[] = param.split("=", 2);
String key = URLDecoder.decode(pair[0], "UTF-8");
String value = "";
if (pair.length > 1) {
value = URLDecoder.decode(pair[1], "UTF-8");
}
List<String> values = params.get(key);
if (values == null) {
values = new ArrayList<String>();
params.put(key, values);
}
values.add(value);
}
}
return params;
}
If you have jetty (server or client) libs on your classpath you can use the jetty util classes (see javadoc), e.g.:
import org.eclipse.jetty.util.*;
URL url = new URL("www.example.com/index.php?foo=bar&bla=blub");
MultiMap<String> params = new MultiMap<String>();
UrlEncoded.decodeTo(url.getQuery(), params, "UTF-8");
assert params.getString("foo").equals("bar");
assert params.getString("bla").equals("blub");
If you're using Spring 3.1 or greater (yikes, was hoping that support went back further), you can use the UriComponents and UriComponentsBuilder:
UriComponents components = UriComponentsBuilder.fromUri(uri).build();
List<String> myParam = components.getQueryParams().get("myParam");
components.getQueryParams() returns a MultiValueMap<String, String>
Here's some more documentation.
I have methods to achieve this:
1):
public static String getQueryString(String url, String tag) {
String[] params = url.split("&");
Map<String, String> map = new HashMap<String, String>();
for (String param : params) {
String name = param.split("=")[0];
String value = param.split("=")[1];
map.put(name, value);
}
Set<String> keys = map.keySet();
for (String key : keys) {
if(key.equals(tag)){
return map.get(key);
}
System.out.println("Name=" + key);
System.out.println("Value=" + map.get(key));
}
return "";
}
2) and the easiest way to do this Using Uri class:
public static String getQueryString(String url, String tag) {
try {
Uri uri=Uri.parse(url);
return uri.getQueryParameter(tag);
}catch(Exception e){
Log.e(TAG,"getQueryString() " + e.getMessage());
}
return "";
}
and this is an example of how to use either of two methods:
String url = "http://www.jorgesys.com/advertisements/publicidadmobile.htm?position=x46&site=reform&awidth=800&aheight=120";
String tagValue = getQueryString(url,"awidth");
the value of tagValue is 800
For a servlet or a JSP page you can get querystring key/value pairs by using request.getParameter("paramname")
String name = request.getParameter("name");
There are other ways of doing it but that's the way I do it in all the servlets and jsp pages that I create.
On Android, I tried using #diyism answer but I encountered the space character issue raised by #rpetrich, for example:
I fill out a form where username = "us+us" and password = "pw pw" causing a URL string to look like:
http://somewhere?username=us%2Bus&password=pw+pw
However, #diyism code returns "us+us" and "pw+pw", i.e. it doesn't detect the space character. If the URL was rewritten with %20 the space character gets identified:
http://somewhere?username=us%2Bus&password=pw%20pw
This leads to the following fix:
Uri uri = Uri.parse(url_string.replace("+", "%20"));
uri.getQueryParameter("para1");
Parsing the query string is a bit more complicated than it seems, depending on how forgiving you want to be.
First, the query string is ascii bytes. You read in these bytes one at a time and convert them to characters. If the character is ? or & then it signals the start of a parameter name. If the character is = then it signals the start of a paramter value. If the character is % then it signals the start of an encoded byte. Here is where it gets tricky.
When you read in a % char you have to read the next two bytes and interpret them as hex digits. That means the next two bytes will be 0-9, a-f or A-F. Glue these two hex digits together to get your byte value. But remember, bytes are not characters. You have to know what encoding was used to encode the characters. The character é does not encode the same in UTF-8 as it does in ISO-8859-1. In general it's impossible to know what encoding was used for a given character set. I always use UTF-8 because my web site is configured to always serve everything using UTF-8 but in practice you can't be certain. Some user-agents will tell you the character encoding in the request; you can try to read that if you have a full HTTP request. If you just have a url in isolation, good luck.
Anyway, assuming you are using UTF-8 or some other multi-byte character encoding, now that you've decoded one encoded byte you have to set it aside until you capture the next byte. You need all the encoded bytes that are together because you can't url-decode properly one byte at a time. Set aside all the bytes that are together then decode them all at once to reconstruct your character.
Plus it gets more fun if you want to be lenient and account for user-agents that mangle urls. For example, some webmail clients double-encode things. Or double up the ?&= chars (for example: http://yoursite.com/blah??p1==v1&&p2==v2). If you want to try to gracefully deal with this, you will need to add more logic to your parser.
On Android its simple as the code below:
UrlQuerySanitizer sanitzer = new UrlQuerySanitizer(url);
String value = sanitzer.getValue("your_get_parameter");
Also if you don't want to register each expected query key use:
sanitzer.setAllowUnregisteredParamaters(true)
Before calling:
sanitzer.parseUrl(yourUrl)
On Android, you can use the Uri.parse static method of the android.net.Uri class to do the heavy lifting. If you're doing anything with URIs and Intents you'll want to use it anyways.
Just for reference, this is what I've ended up with (based on URLEncodedUtils, and returning a Map).
Features:
it accepts the query string part of the url (you can use request.getQueryString())
an empty query string will produce an empty Map
a parameter without a value (?test) will be mapped to an empty List<String>
Code:
public static Map<String, List<String>> getParameterMapOfLists(String queryString) {
Map<String, List<String>> mapOfLists = new HashMap<String, List<String>>();
if (queryString == null || queryString.length() == 0) {
return mapOfLists;
}
List<NameValuePair> list = URLEncodedUtils.parse(URI.create("http://localhost/?" + queryString), "UTF-8");
for (NameValuePair pair : list) {
List<String> values = mapOfLists.get(pair.getName());
if (values == null) {
values = new ArrayList<String>();
mapOfLists.put(pair.getName(), values);
}
if (pair.getValue() != null) {
values.add(pair.getValue());
}
}
return mapOfLists;
}
A compatibility helper (values are stored in a String array just as in ServletRequest.getParameterMap()):
public static Map<String, String[]> getParameterMap(String queryString) {
Map<String, List<String>> mapOfLists = getParameterMapOfLists(queryString);
Map<String, String[]> mapOfArrays = new HashMap<String, String[]>();
for (String key : mapOfLists.keySet()) {
mapOfArrays.put(key, mapOfLists.get(key).toArray(new String[] {}));
}
return mapOfArrays;
}
This works for me..
I'm not sure why every one was after a Map, List>
All I needed was a simple name value Map.
To keep things simple I used the build in URI.getQuery();
public static Map<String, String> getUrlParameters(URI uri)
throws UnsupportedEncodingException {
Map<String, String> params = new HashMap<String, String>();
for (String param : uri.getQuery().split("&")) {
String pair[] = param.split("=");
String key = URLDecoder.decode(pair[0], "UTF-8");
String value = "";
if (pair.length > 1) {
value = URLDecoder.decode(pair[1], "UTF-8");
}
params.put(new String(key), new String(value));
}
return params;
}
Guava's Multimap is better suited for this. Here is a short clean version:
Multimap<String, String> getUrlParameters(String url) {
try {
Multimap<String, String> ret = ArrayListMultimap.create();
for (NameValuePair param : URLEncodedUtils.parse(new URI(url), "UTF-8")) {
ret.put(param.getName(), param.getValue());
}
return ret;
} catch (URISyntaxException e) {
throw new RuntimeException(e);
}
}
Origanally answered here
On Android, there is Uri class in package android.net . Note that Uri is part of android.net, while URI is part of java.net .
Uri class has many functions to extract query key-value pairs.
Following function returns key-value pairs in the form of HashMap.
In Java:
Map<String, String> getQueryKeyValueMap(Uri uri){
HashMap<String, String> keyValueMap = new HashMap();
String key;
String value;
Set<String> keyNamesList = uri.getQueryParameterNames();
Iterator iterator = keyNamesList.iterator();
while (iterator.hasNext()){
key = (String) iterator.next();
value = uri.getQueryParameter(key);
keyValueMap.put(key, value);
}
return keyValueMap;
}
In Kotlin:
fun getQueryKeyValueMap(uri: Uri): HashMap<String, String> {
val keyValueMap = HashMap<String, String>()
var key: String
var value: String
val keyNamesList = uri.queryParameterNames
val iterator = keyNamesList.iterator()
while (iterator.hasNext()) {
key = iterator.next() as String
value = uri.getQueryParameter(key) as String
keyValueMap.put(key, value)
}
return keyValueMap
}
Apache AXIS2 has a self-contained implementation of QueryStringParser.java. If you are not using Axis2, just download the sourcecode and test case from here -
http://svn.apache.org/repos/asf/axis/axis2/java/core/trunk/modules/kernel/src/org/apache/axis2/transport/http/util/QueryStringParser.java
http://svn.apache.org/repos/asf/axis/axis2/java/core/trunk/modules/kernel/test/org/apache/axis2/transport/http/util/QueryStringParserTest.java
if (queryString != null)
{
final String[] arrParameters = queryString.split("&");
for (final String tempParameterString : arrParameters)
{
final String[] arrTempParameter = tempParameterString.split("=");
if (arrTempParameter.length >= 2)
{
final String parameterKey = arrTempParameter[0];
final String parameterValue = arrTempParameter[1];
//do something with the parameters
}
}
}
I don't think there is one in JRE. You can find similar functions in other packages like Apache HttpClient. If you don't use any other packages, you just have to write your own. It's not that hard. Here is what I use,
public class QueryString {
private Map<String, List<String>> parameters;
public QueryString(String qs) {
parameters = new TreeMap<String, List<String>>();
// Parse query string
String pairs[] = qs.split("&");
for (String pair : pairs) {
String name;
String value;
int pos = pair.indexOf('=');
// for "n=", the value is "", for "n", the value is null
if (pos == -1) {
name = pair;
value = null;
} else {
try {
name = URLDecoder.decode(pair.substring(0, pos), "UTF-8");
value = URLDecoder.decode(pair.substring(pos+1, pair.length()), "UTF-8");
} catch (UnsupportedEncodingException e) {
// Not really possible, throw unchecked
throw new IllegalStateException("No UTF-8");
}
}
List<String> list = parameters.get(name);
if (list == null) {
list = new ArrayList<String>();
parameters.put(name, list);
}
list.add(value);
}
}
public String getParameter(String name) {
List<String> values = parameters.get(name);
if (values == null)
return null;
if (values.size() == 0)
return "";
return values.get(0);
}
public String[] getParameterValues(String name) {
List<String> values = parameters.get(name);
if (values == null)
return null;
return (String[])values.toArray(new String[values.size()]);
}
public Enumeration<String> getParameterNames() {
return Collections.enumeration(parameters.keySet());
}
public Map<String, String[]> getParameterMap() {
Map<String, String[]> map = new TreeMap<String, String[]>();
for (Map.Entry<String, List<String>> entry : parameters.entrySet()) {
List<String> list = entry.getValue();
String[] values;
if (list == null)
values = null;
else
values = (String[]) list.toArray(new String[list.size()]);
map.put(entry.getKey(), values);
}
return map;
}
}
public static Map <String, String> parseQueryString (final URL url)
throws UnsupportedEncodingException
{
final Map <String, String> qps = new TreeMap <String, String> ();
final StringTokenizer pairs = new StringTokenizer (url.getQuery (), "&");
while (pairs.hasMoreTokens ())
{
final String pair = pairs.nextToken ();
final StringTokenizer parts = new StringTokenizer (pair, "=");
final String name = URLDecoder.decode (parts.nextToken (), "ISO-8859-1");
final String value = URLDecoder.decode (parts.nextToken (), "ISO-8859-1");
qps.put (name, value);
}
return qps;
}
Use Apache HttpComponents and wire it up with some collection code to access params by value: http://www.joelgerard.com/2012/09/14/parsing-query-strings-in-java-and-accessing-values-by-key/
using Guava:
Multimap<String,String> parseQueryString(String queryString, String encoding) {
LinkedListMultimap<String, String> result = LinkedListMultimap.create();
for(String entry : Splitter.on("&").omitEmptyStrings().split(queryString)) {
String pair [] = entry.split("=", 2);
try {
result.put(URLDecoder.decode(pair[0], encoding), pair.length == 2 ? URLDecoder.decode(pair[1], encoding) : null);
} catch (UnsupportedEncodingException e) {
throw new RuntimeException(e);
}
}
return result;
}
Answering here because this is a popular thread. This is a clean solution in Kotlin that uses the recommended UrlQuerySanitizer api. See the official documentation. I have added a string builder to concatenate and display the params.
var myURL: String? = null
// if the url is sent from a different activity where you set it to a value
if (intent.hasExtra("my_value")) {
myURL = intent.extras.getString("my_value")
} else {
myURL = intent.dataString
}
val sanitizer = UrlQuerySanitizer(myURL)
// We don't want to manually define every expected query *key*, so we set this to true
sanitizer.allowUnregisteredParamaters = true
val parameterNamesToValues: List<UrlQuerySanitizer.ParameterValuePair> = sanitizer.parameterList
val parameterIterator: Iterator<UrlQuerySanitizer.ParameterValuePair> = parameterNamesToValues.iterator()
// Helper simply so we can display all values on screen
val stringBuilder = StringBuilder()
while (parameterIterator.hasNext()) {
val parameterValuePair: UrlQuerySanitizer.ParameterValuePair = parameterIterator.next()
val parameterName: String = parameterValuePair.mParameter
val parameterValue: String = parameterValuePair.mValue
// Append string to display all key value pairs
stringBuilder.append("Key: $parameterName\nValue: $parameterValue\n\n")
}
// Set a textView's text to display the string
val paramListString = stringBuilder.toString()
val textView: TextView = findViewById(R.id.activity_title) as TextView
textView.text = "Paramlist is \n\n$paramListString"
// to check if the url has specific keys
if (sanitizer.hasParameter("type")) {
val type = sanitizer.getValue("type")
println("sanitizer has type param $type")
}
this method takes the uri and return map of par name and par value
public static Map<String, String> getQueryMap(String uri) {
String queryParms[] = uri.split("\\?");
Map<String, String> map = new HashMap<>();//
if (queryParms == null || queryParms.length == 0) return map;
String[] params = queryParms[1].split("&");
for (String param : params) {
String name = param.split("=")[0];
String value = param.split("=")[1];
map.put(name, value);
}
return map;
}
You say "Java" but "not Java EE". Do you mean you are using JSP and/or servlets but not a full Java EE stack? If that's the case, then you should still have request.getParameter() available to you.
If you mean you are writing Java but you are not writing JSPs nor servlets, or that you're just using Java as your reference point but you're on some other platform that doesn't have built-in parameter parsing ... Wow, that just sounds like an unlikely question, but if so, the principle would be:
xparm=0
word=""
loop
get next char
if no char
exit loop
if char=='='
param_name[xparm]=word
word=""
else if char=='&'
param_value[xparm]=word
word=""
xparm=xparm+1
else if char=='%'
read next two chars
word=word+interpret the chars as hex digits to make a byte
else
word=word+char
(I could write Java code but that would be pointless, because if you have Java available, you can just use request.getParameters.)