Json usage in LSL/TestScript
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JSON Test Framework
<lsl> // This is just the framework for creating new tests for LSL JSON functions without the tests.
integer total_number_of_tests; integer total_number_of_fails;
string typeName(string type_flag) {
if (type_flag == JSON_INVALID) return "JSON_INVALID";
/* else */ if (type_flag == JSON_OBJECT) return "JSON_OBJECT"; /* else */ if (type_flag == JSON_ARRAY) return "JSON_ARRAY";
/* else */ if (type_flag == JSON_NUMBER) return "JSON_NUMBER"; /* else */ if (type_flag == JSON_STRING) return "JSON_STRING"; /* else */ if (type_flag == JSON_NULL) return "JSON_NULL";
/* else */ if (type_flag == JSON_TRUE) return "JSON_TRUE"; /* else */ if (type_flag == JSON_FALSE) return "JSON_FALSE";
/* else */ if (type_flag == JSON_DELETE) return "JSON_DELETE";
/* else ...... type_flag unknown */ return type_flag;
}
string listEntryTypeName(integer type) {
list list_type_names = [
"TYPE_INVALID",
"TYPE_INTEGER",
"TYPE_FLOAT",
"TYPE_STRING",
"TYPE_KEY",
"TYPE_VECTOR",
"TYPE_ROTATION"
];
integer length = llGetListLength(list_type_names);
if (length <= type) return "UNKNOWN_LIST_TYPE"; /* else */ return llList2String(list_type_names, type);
}
integer max(integer x, integer y) {
if (x < y) return y; /* else */ return x;
}
integer verify(string message, string result, string expected) {
++total_number_of_tests;
if (result != expected)
{
++total_number_of_fails;
publish("TEST FAILED"
+ "\nexpected: " + typeName(expected)
+ "\nresult: " + typeName(result)
+ "\nJSON string value: " + message
+ "\n ");
return FALSE;
}
/* else */
return TRUE;
}
verify_list(string message, list result, list expected) {
integer length_result = llGetListLength(result); integer length_expected = llGetListLength(expected);
// first verify that the list lengths match before looking at the data types
verify(message + ": list length",
(string)length_result,
(string)length_expected);
// the CSV string comparison is probably enough to verify that the values stored are correct // but I want to check data type too
integer index = max(length_result, length_expected);
while (--index >= 0)
{
verify(message + ": on list entry type comparison on index " + (string)index,
listEntryTypeName(llGetListEntryType(result, index)),
listEntryTypeName(llGetListEntryType(expected, index)));
verify(message + ": on list value comparison on index " + (string)index,
typeName(llList2String(result, index)),
typeName(llList2String(expected, index)));
}
verify(message + ": llList2CSV comparison",
llList2CSV(result),
llList2CSV(expected));
}
run_tests() {
publish("JSON TESTS: started"
+ "\n ");
total_number_of_tests = 0; total_number_of_fails = 0;
// Add new tests here. // ... // ... // ...
publish("JSON TESTS: done\n"
+ (string)total_number_of_fails + " of "
+ (string)total_number_of_tests + " tests failed."
+ "\n ");
}
publish(string message) { // if you want to keep it private //
llOwnerSay(message);
// if you want to make it public // // llSay(PUBLIC_CHANNEL, message);
// if you want to reach the owner wherever she/he is as fast as you can // // key owner = llGetOwner(); // vector ownerSize = llGetAgentSize(owner); // if (ownerSize != ZERO_VECTOR) llRegionSayTo(owner, PUBLIC_CHANNEL, message); // else llInstantMessage(owner, message); }
default {
on_rez(integer start_param)
{
llResetScript();
}
changed(integer change)
{
if (change & (CHANGED_OWNER | CHANGED_INVENTORY))
{
llResetScript();
}
}
state_entry()
{
run_tests();
}
touch_start(integer num_detected)
{
run_tests();
}
} </lsl>
Full Test Script
<lsl> // This is just the framework for creating new tests for LSL JSON functions without the tests.
integer total_number_of_tests; integer total_number_of_fails;
string typeName(string type_flag) {
if (type_flag == JSON_INVALID) return "JSON_INVALID"; /* else */ if (type_flag == JSON_OBJECT) return "JSON_OBJECT"; /* else */ if (type_flag == JSON_ARRAY) return "JSON_ARRAY"; /* else */ if (type_flag == JSON_NUMBER) return "JSON_NUMBER"; /* else */ if (type_flag == JSON_STRING) return "JSON_STRING"; /* else */ if (type_flag == JSON_NULL) return "JSON_NULL"; /* else */ if (type_flag == JSON_TRUE) return "JSON_TRUE"; /* else */ if (type_flag == JSON_FALSE) return "JSON_FALSE"; /* else */ if (type_flag == JSON_DELETE) return "JSON_DELETE"; /* else ...... type_flag unknown */ return type_flag;
}
string listEntryTypeName(integer type) {
list list_type_names = [
"TYPE_INVALID",
"TYPE_INTEGER",
"TYPE_FLOAT",
"TYPE_STRING",
"TYPE_KEY",
"TYPE_VECTOR",
"TYPE_ROTATION"
];
integer length = llGetListLength(list_type_names);
if (length <= type) return "UNKNOWN_LIST_TYPE";
/* else */ return llList2String(list_type_names, type);
}
integer max(integer x, integer y) {
if (x < y) return y; /* else */ return x;
}
integer verify(string message, string result, string expected) {
++total_number_of_tests;
if (result != expected)
{
++total_number_of_fails;
publish("TEST FAILED"
+ "\nexpected: " + typeName(expected)
+ "\nresult: " + typeName(result)
+ "\nJSON string value: " + message
+ "\n ");
return FALSE;
}
/* else */
return TRUE;
}
verify_list(string message, list result, list expected) {
integer length_result = llGetListLength(result); integer length_expected = llGetListLength(expected);
// first verify that the list lengths match before looking at the data types
verify(message + ": list length",
(string)length_result,
(string)length_expected);
// the CSV string comparison is probably enough to verify that the values stored are correct // but I want to check data type too
integer index = max(length_result, length_expected);
while (--index >= 0)
{
verify(message + ": on list entry type comparison on index " + (string)index,
listEntryTypeName(llGetListEntryType(result, index)),
listEntryTypeName(llGetListEntryType(expected, index)));
verify(message + ": on list value comparison on index " + (string)index,
typeName(llList2String(result, index)),
typeName(llList2String(expected, index)));
}
verify(message + ": llList2CSV comparison",
llList2CSV(result),
llList2CSV(expected));
}
run_tests() {
publish("JSON TESTS: started"
+ "\n ");
total_number_of_tests = 0;
total_number_of_fails = 0;
test_types();
test_get_value();
test_set_value();
test_json_to_list();
test_list_to_json();
test_strings_with_escaped_chars();
test_jira_fixes();
publish("JSON TESTS: done\n"
+ (string)total_number_of_fails + " of "
+ (string)total_number_of_tests + " tests failed."
+ "\n ");
}
publish(string message) { // if you want to keep it private //
llOwnerSay(message);
// if you want to make it public // // llSay(PUBLIC_CHANNEL, message);
// if you want to reach the owner wherever she/he is as fast as you can // // key owner = llGetOwner(); // vector ownerSize = llGetAgentSize(owner); // if (ownerSize != ZERO_VECTOR) llRegionSayTo(owner, PUBLIC_CHANNEL, message); // else llInstantMessage(owner, message); }
test_types() {
verify("Type of string",llJsonValueType("\"test\"",[]),JSON_STRING);
verify("Type of string, unquoted",llJsonValueType("test",[]),JSON_INVALID);
verify("Type of invalid",llJsonValueType("test",[]),JSON_INVALID);
verify("Type of integer",llJsonValueType((string)12,[]),JSON_NUMBER);
verify("Type of float",llJsonValueType((string)12.3,[]),JSON_NUMBER);
verify("Type of Inf (is unsupported by JSON standard)",llJsonValueType("Inf",[]),JSON_INVALID);
verify("Type of NaN (is unsupported by JSON standard)",llJsonValueType("NaN",[]),JSON_INVALID);
verify("Type of number",llJsonValueType("-123.4e-5",[]),JSON_NUMBER);
verify("Type of object",llJsonValueType("{\"a\":\"b\"}",[]),JSON_OBJECT);
// Expected to be OBJECT, since we don't do deep validation on input // verify("Type of object, invalid/unquoted key",llJsonValueType("{a:\"b\"}",[]),JSON_INVALID); // Expected to be OBJECT, since we don't do deep validation on input // verify("Type of object, invalid/unquoted value",llJsonValueType("{\"a\":b}",[]),JSON_INVALID);
verify("Type of array",llJsonValueType("[1,2,3]",[]),JSON_ARRAY);
verify("Type of array padded front",llJsonValueType(" [1,2,3]",[]),JSON_ARRAY);
verify("Type of array padded back",llJsonValueType("[1,2,3] ",[]),JSON_ARRAY);
verify("Type of array padded",llJsonValueType(" [1,2,3] ",[]),JSON_ARRAY);
verify("Type of true",llJsonValueType("true",[]),JSON_TRUE);
verify("Type of false",llJsonValueType("false",[]),JSON_FALSE);
verify("Type of null",llJsonValueType("null",[]),JSON_NULL);
// test traversal of llJsonValueType
string json = "[[1,2,3],{\"a\":3,\"b\":[true,\"test\",6],\"c\":\"true\",\"d\":false}]";
verify("Type of [0]",llJsonValueType(json,[0]),JSON_ARRAY);
verify("Type of [0,1]",llJsonValueType(json,[0,1]),JSON_NUMBER);
verify("Type of [1]",llJsonValueType(json,[1]),JSON_OBJECT);
verify("Type of [1,\"b\"]",llJsonValueType(json,[1,"b"]),JSON_ARRAY);
verify("Type of [1,\"b\",0]",llJsonValueType(json,[1,"b",0]),JSON_TRUE);
verify("Type of [1,\"b\",1]",llJsonValueType(json,[1,"b",1]),JSON_STRING);
verify("Type of [1,\"b\",2]",llJsonValueType(json,[1,"b",2]),JSON_NUMBER);
verify("Type of [1,\"c\"]",llJsonValueType(json,[1,"c"]),JSON_STRING);
verify("Type of [1,\"d\"]",llJsonValueType(json,[1,"d"]),JSON_FALSE);
verify("Type of [3] (invalid index at level 0)",llJsonValueType(json,[3]),JSON_INVALID);
verify("Type of [-1] (invalid index at level 0)",llJsonValueType(json,[-1]),JSON_INVALID);
verify("Type of [1,\"c\",3] (invalid index at level 1), MAINT-2670",llJsonValueType(json,[1,"c",3]),JSON_INVALID);
verify("Type of [1,\"b\",3] (invalid index at level 2)",llJsonValueType(json,[1,"b",3]),JSON_INVALID);
verify("Type of [1,\"b\",2,0,1] (invalid index at level 3) MAINT-2670",llJsonValueType(json,[1,"b",2, 0, 1]),JSON_INVALID);
// some invalid cases where keys are uncoded
json = "[[1,2,3],{a:3,b:[true,\"test\",6],c:\"true\",\"d\":false}]";
verify("Type of [1,\"a\"] where key is unquoted",llJsonValueType(json,[1,"a"]),JSON_INVALID);
verify("Type of [1,\"b\"] where key is unquoted",llJsonValueType(json,[1,"b"]),JSON_INVALID);
verify("Type of [1,\"c\"] where key is unquoted",llJsonValueType(json,[1,"c"]),JSON_INVALID);
}
test_get_value() {
string json = "[[1,2,3,4.0],{\"a\":3,\"b\":[true,\"test\",6]}]";
verify("llJsonGetValue [0]",llJsonGetValue(json,[0]),"[1,2,3,4.0]");
verify("llJsonGetValue [0,1]",llJsonGetValue(json,[0,1]),"2");
verify("llJsonGetValue [1]",llJsonGetValue(json,[1]),"{\"a\":3,\"b\":[true,\"test\",6]}");
verify("llJsonGetValue [1,\"b\"]",llJsonGetValue(json,[1,"b"]),"[true,\"test\",6]");
verify("llJsonGetValue [1,\"b\",0]",llJsonGetValue(json,[1,"b",0]),JSON_TRUE);
verify("llJsonGetValue [1,\"b\",1]",llJsonGetValue(json,[1,"b",1]),"test");
verify("llJsonGetValue [1,\"b\",2]",llJsonGetValue(json,[1,"b",2]),"6");
verify("llJsonGetValue [0,3]",llJsonGetValue(json,[0,3]), "4.0");
verify("llJsonGetValue [2] (invalid index at level 0)",llJsonGetValue(json,[2]),JSON_INVALID);
verify("llJsonGetValue [-1] (invalid index at level 0)",llJsonGetValue(json,[-1]),JSON_INVALID);
verify("llJsonGetValue [0,4] (invalid index within array)",llJsonGetValue(json,[0,4]),JSON_INVALID);
verify("llJsonGetValue [\"f\"] (look for missing object within array, depth=0) MAINT-2671",llJsonGetValue(json,["f"]),JSON_INVALID);
verify("llJsonGetValue [0,\"f\"] (look for missing object within array, depth=1) MAINT-2671",llJsonGetValue(json,[0,"f"]),JSON_INVALID);
verify("llJsonGetValue [1,2] (specify index within object - disallowed)",llJsonGetValue(json,[1,2]),JSON_INVALID);
// invalid input json - missing quotes around 'a' and 'test'
json = "[[1,2,3,4.0],{a:3,\"b\":[true,test,6]}]";
verify("llJsonGetValue [1,\"b\",1], unquoted/invalid string value",llJsonGetValue(json,[1,"b",1]),JSON_INVALID);
verify("llJsonGetValue [1,\"a\"], unquoted/invalid string for key",llJsonGetValue(json,[1,"a"]),JSON_INVALID);
}
test_set_value() { // Test building from scratch
string json;
json = llJsonSetValue(json,[0,0],(string)1);
verify("llJsonSetValue build json",json,"1");
json = llJsonSetValue(json,[0,1],(string)2);
verify("llJsonSetValue build json",json,"1,2");
json = llJsonSetValue(json,[0,2],(string)3);
verify("llJsonSetValue build json",json,"1,2,3");
json = llJsonSetValue(json,[1,"a"],(string)3);
verify("llJsonSetValue build json",json,"[[1,2,3],{\"a\":3}]");
json = llJsonSetValue(json,[1,"b",0],JSON_TRUE);
verify("llJsonSetValue build json",json,"[[1,2,3],{\"a\":3,\"b\":[true]}]");
json = llJsonSetValue(json,[1,"b",1],"test");
verify("llJsonSetValue build json",json,"[[1,2,3],{\"a\":3,\"b\":[true,\"test\"]}]");
json = llJsonSetValue(json,[1,"b",2],"6");
verify("llJsonSetValue completed json",json,"[[1,2,3],{\"a\":3,\"b\":[true,\"test\",6]}]");
// Test replacing
json = llJsonSetValue(json,[1,"b",1],"foo");
verify("llJsonSetValue completed json",json,"[[1,2,3],{\"a\":3,\"b\":[true,\"foo\",6]}]");
json = llJsonSetValue(json,[1,"b"],JSON_TRUE);
verify("llJsonSetValue completed json, true",json,"[[1,2,3],{\"a\":3,\"b\":true}]");
json = llJsonSetValue(json,[1,"b"],"true");
verify("llJsonSetValue completed json, alt true",json,"[[1,2,3],{\"a\":3,\"b\":true}]");
json = llJsonSetValue(json,[1,0,0],JSON_FALSE);
verify("llJsonSetValue completed json",json,"[[1,2,3],false]");
// Test appending
json = llJsonSetValue("[[1,2,3],{\"a\":3,\"b\":[true,\"test\",6]}]",[0,JSON_APPEND], "4.0");
verify("llJsonSetValue append to first array",json,"[[1,2,3,4.0],{\"a\":3,\"b\":[true,\"test\",6]}]");
json = llJsonSetValue(json,[1,"b",JSON_APPEND], "5.0");
verify("llJsonSetValue append to array withhin object",json,"[[1,2,3,4.0],{\"a\":3,\"b\":[true,\"test\",6,5.0]}]");
json = llJsonSetValue(json,[JSON_APPEND], "6.0");
verify("llJsonSetValue append to outer array",json,"[[1,2,3,4.0],{\"a\":3,\"b\":[true,\"test\",6,5.0]},6.0]");
json = llJsonSetValue("[]",[JSON_APPEND], "\"alone\"");
verify("llJsonSetValue append to empty array (MAINT-2684)",json,"[\"alone\"]");
json = llJsonSetValue("[]",[1], "\"alone\"");
verify("llJsonSetValue append to empty array at invalid index (MAINT-2684)",json,JSON_INVALID);
json = llJsonSetValue("[]",[0], "\"alone\"");
verify("llJsonSetValue append to empty array at first index (MAINT-2684)",json,"[\"alone\"]");
// Test deleting
json = "[[1,2,3],{\"a\":3,\"b\":[true,\"test\",6,null]}]";
json = llJsonSetValue(json,[1,"b",1],JSON_DELETE);
verify("llJsonSetValue deleting string in middle of array",json,"[[1,2,3],{\"a\":3,\"b\":[true,6,null]}]");
json = llJsonSetValue(json,[1,"b",2],JSON_DELETE);
verify("llJsonSetValue deleting null at end of array",json,"[[1,2,3],{\"a\":3,\"b\":[true,6]}]");
json = llJsonSetValue(json,[1,"b"],JSON_DELETE);
verify("llJsonSetValue deleting key-value",json,"[[1,2,3],{\"a\":3}]");
json = llJsonSetValue(json,[1],JSON_DELETE);
verify("llJsonSetValue deleting object in array",json,"1,2,3");
json = "[[1,2,3],4]";
json = llJsonSetValue(json,[0],JSON_DELETE);
verify("llJsonSetValue deleting array (which is first index in array)",json,"[4]");
json = llJsonSetValue(json,[0],JSON_DELETE);
verify("llJsonSetValue deleting last element in array",json,"[]");
json = "1";
json = llJsonSetValue(json,[0,0],JSON_DELETE);
verify("llJsonSetValue deleting last element in array",json,"[[]]");
json = llJsonSetValue(json,[0],JSON_DELETE);
verify("llJsonSetValue deleting array within array",json,"[]");
// Test failures in deleting
json = "[[1,2,3],{\"a\":3,\"b\":[true,\"test\",6,null]}]";
verify("llJsonSetValue deleting undefined key-value in object",llJsonSetValue(json,[1,"d"],JSON_DELETE),JSON_INVALID);
verify("llJsonSetValue deleting out-of-range index in array",llJsonSetValue(json,[2],JSON_DELETE),JSON_INVALID);
verify("llJsonSetValue deleting depth within object that doesn't exist",llJsonSetValue(json,[1,"a","unicorn"],JSON_DELETE),JSON_INVALID);
verify("llJsonSetValue deleting depth within array that doesn't exist",llJsonSetValue(json,[0,1,1],JSON_DELETE),JSON_INVALID);
// this is the only failure mode that should exist.
json = "[[1,2,3],{\"a\":3,\"b\":[true,\"foo\",6]}]";
json = llJsonSetValue(json,[3],JSON_FALSE);
verify("llJsonSetValue fail to insert data into invalid array index (MAINT-2675)",json,JSON_INVALID);
}
test_json_to_list() {
list l = llJson2List("[[1,2,3],{\"a\":3,\"b\":[true,\"test\",6]}]");
verify_list("llJson2List first",l,["[1,2,3]","{\"a\":3,\"b\":[true,\"test\",6]}"]);
list n = llJson2List(llList2String(l,0));
verify_list("llJson2List l,0",n,[1,2,3]);
n = llJson2List(llList2String(l,1));
verify_list("llJson2List l,0",n,["a",3,"b","[true,\"test\",6]"]);
n = llJson2List(llList2String(n,3));
verify_list("llJson2List l,0",n,[JSON_TRUE, "test", 6]);
n = llJson2List(llList2String(n,1));
verify_list("llJson2List l,0",n,["test"]);
n = llJson2List("");
verify_list("Empty JSON string becomes empty list",n,[]);
n = llJson2List("[]");
verify_list("Empty JSON array becomes empty list (MAINT-2678)",n,[]);
n = llJson2List("{}");
verify_list("Empty JSON object becomes empty list (MAINT-2678)",n,[]);
n = llJson2List("Non-JSON string, with comma");
verify_list("llJson2List for non-JSON string is stored as a single object",n,["Non-JSON string, with comma"]);
n = llJson2List("[malformed}");
verify_list("llJson2List, malformed input",n,["[malformed}"]);
}
test_list_to_json() { // test objects
string json = llList2Json(JSON_OBJECT,["a",1,"b",2.5,"c","test","d","true","e","[1,2,3]"]);
verify("llList2Json, json object",json,"{\"a\":1,\"b\":2.500000,\"c\":\"test\",\"d\":true,\"e\":[1,2,3]}");
// test arrays
json = llList2Json(JSON_ARRAY,[1,2.5,"test","true","[1,2,3]"]);
verify("llList2Json, json array",json,"[1,2.500000,\"test\",true,[1,2,3]]");
// test arrays
json = llList2Json(JSON_ARRAY,[1,2.5,"test",JSON_TRUE,"[1,2,3]"]);
verify("llList2Json, json array, alternative true representation",json,"[1,2.500000,\"test\",true,[1,2,3]]");
// test objects, with empty input
json = llList2Json(JSON_OBJECT,[]);
verify("llList2Json, json object with empty input (MAINT-2681)",json,"{}");
// test arrays, with empty input
json = llList2Json(JSON_ARRAY,[]);
verify("llList2Json, json array with empty input (MAINT-2681)",json,"[]");
// test objects which are truncated
json = llList2Json(JSON_OBJECT,["a",1,"b",2.5,"c","test","d","true","e"]);
verify("llList2Json, json object, truncated",json,JSON_INVALID);
// test objects which has a non-string identifier somewhere
json = llList2Json(JSON_OBJECT,["a",1,TRUE,2.5,"c","test","d","true","e"]);
verify("llList2Json, json object, non-string in one of the first stride values",json,JSON_INVALID);
// test invalid type
json = llList2Json("foo",["a",1,"b",2.5,"c","test","d","true","e","[1,2,3]"]);
verify("llList2Json, json invalid type",json,JSON_INVALID);
}
test_strings_with_escaped_chars() {
list escaped_pairs = [
"funky\"string", "funky\\\"string", "quote in middle",
"funkystr\"ing", "funkystr\\\"ing", "quote in middle, other position",
// note that we have to double-up backslashes to assign them to strings..
"funky\\string", "funky\\\\string", "backslashes in middle",
"\\funkystring", "\\\\funkystring", "backslashes at beginning",
"funky\nstring", "funky\\nstring", "newline in string",
"funky/string", "funky\\/string", "forward slash in string",
// TAB (\t) fails, because it seems that LSL automatically converts any tab into 4 consecutive spaces. // * "funky\tstring", "funky\\tstring", "tab in string", // these cases fail; it seems that LSL doesn't support these characters, and strips the '\' // * "funky\bstring", "funky\\\bstring", "backspace in middle", // * "funky\fstring", "funky\\\fstring", "form feed in middle", // * "funky\rstring", "funky\\rstring", "carriage return in string", // note that the following case can't be supported, since strings starting with \" can't be escaped // * "\"funkystring", "\\\"funkystring", "quote in beginning",
"vanilla string", "vanilla string", "nothing that needs to be escaped.."
];
integer length_escaped_pairs = llGetListLength(escaped_pairs);
integer i;
for (i=0; i < length_escaped_pairs; i+=3)
{
string funky_string = llList2String(escaped_pairs, i);
string funky_string_escaped = llList2String(escaped_pairs, i+1);
string escaped_desc = " '" + llList2String(escaped_pairs, i+2) + "'";
verify("Type of string with escaped char (for MAINT-2698),"+escaped_desc,llJsonValueType("\""+funky_string_escaped+"\"",[]),JSON_STRING);
string json = "[[1,2,3,4.0],{\""+funky_string_escaped+"\":3,\"b\":\""+funky_string_escaped+"value"+"\"}]";
verify("llJsonGetValue [1,\""+funky_string_escaped+"\"] (for MAINT-2698),"+escaped_desc,
llJsonGetValue(json,[1,funky_string]),"3");
verify("llJsonGetValue [1,\"b\"] (for MAINT-2698),"+escaped_desc,llJsonGetValue(json,[1,"b"]),funky_string+"value");
// llSay(PUBLIC_CHANNEL, "DEBUG: '" + llEscapeURL(json) + "' is input for test " + escaped_desc);
json = llJsonSetValue(json,[0],funky_string);
verify("llJsonSetValue with escaped string as value (for MAINT-2698),"+escaped_desc,json,
"[\""+funky_string_escaped+"\",{\""+funky_string_escaped+"\":3,\"b\":\""+funky_string_escaped+"value"+"\"}]");
json = llJsonSetValue(json,[0],funky_string);
verify("llJsonSetValue with escaped string as value (for MAINT-2698),"+escaped_desc,json,
"[\""+funky_string_escaped+"\",{\""+funky_string_escaped+"\":3,\"b\":\""+funky_string_escaped+"value"+"\"}]");
json = llJsonSetValue(json,[0,funky_string], funky_string+"value");
verify("llJsonSetValue with escaped string as key's value (for MAINT-2698),"+escaped_desc,json,
"[{\""+funky_string_escaped+"\":\""+funky_string_escaped+"value\"},{\""+funky_string_escaped+"\":3,\"b\":\""+funky_string_escaped+"value"+"\"}]");
list l = llJson2List(json);
verify_list("llJson2List extracting object containing escaped string (for MAINT-2698),"+escaped_desc, l,
["{\""+funky_string_escaped+"\":\""+funky_string_escaped+"value\"}","{\""+funky_string_escaped+"\":3,\"b\":\""+funky_string_escaped+"value"+"\"}"]);
list n = llJson2List(llList2String(l, 0));
verify_list("llJson2List extracting escaped strings (for MAINT-2698),"+escaped_desc, n,
[funky_string,funky_string+"value"]);
json = llList2Json(JSON_ARRAY,n);
verify("llList2Json from escaped-containing string to array (for MAINT-2698),"+escaped_desc,json,
"[\""+funky_string_escaped+"\",\""+funky_string_escaped+"value\"]");
json = llList2Json(JSON_OBJECT,n);
verify("llList2Json from escaped-containing string to object (for MAINT-2698),"+escaped_desc,json,
"{\""+funky_string_escaped+"\":\""+funky_string_escaped+"value\"}");
}
}
maint3070() {
verify("Set value 'messa[g]e'", llJsonSetValue("",["toast"],"messa[g]e"), "{\"toast\":\"messa[g]e\"}");
verify("Set value 'messag[e]'", llJsonSetValue("",["toast"],"messag[e]"), "{\"toast\":\"messag[e]\"}");
verify("Set value 'messag\[e\]'", llJsonSetValue("",["toast"],"messag\[e\]"), "{\"toast\":\"messag[e]\"}");
}
maint4187() {
verify("Valid json number with + before exponent", llJsonValueType("1.0e+1", []), JSON_NUMBER);
verify("Valid json number with - before exponent", llJsonValueType("1.0e-1", []), JSON_NUMBER);
verify("Valid json number with - before exponent and mantissa", llJsonValueType("-1.0e-1", []), JSON_NUMBER);
verify("Valid json number with unsigned exponent", llJsonValueType("1.0e1", []), JSON_NUMBER);
verify("Invalid json number due to + before mantissa", llJsonValueType("+1.0e1", []), JSON_INVALID);
verify("Invalid json number due to leading e", llJsonValueType("e1", []), JSON_INVALID);
verify("Invalid json number due to leading 0", llJsonValueType("01", []), JSON_INVALID);
verify("Invalid json number due to leading -0", llJsonValueType("-01", []), JSON_INVALID);
verify("Valid json number with 0 immediately before .", llJsonValueType("0.01", []), JSON_NUMBER);
verify("Valid json number with -0 immediately before .", llJsonValueType("-0.01", []), JSON_NUMBER);
}
maint3053() {
string jT1 = "[1, 2]"; // A JSON array
verify("llJsonSetValue(jT1,[2],\"t\")",llJsonSetValue(jT1,[2],"t"),"[1,2,\"t\"]");
verify("llJsonSetValue(jT1,[3],\"t\")",llJsonSetValue(jT1,[3],"t"),JSON_INVALID);
verify("llJsonSetValue(jT1,[0, 0],\"t\")",llJsonSetValue(jT1,[0, 0],"t"),"[[\"t\"],2]");
verify("llJsonSetValue(jT1,[0, 0, 2, \"t\", 75],\"t\")",llJsonSetValue(jT1,[0, 0, 2, "t", 75],"t"),JSON_INVALID);
verify("llJsonSetValue(jT1,[0, 1],\"t\")",llJsonSetValue(jT1,[0, 1],"t"),JSON_INVALID);
verify("llJsonSetValue(jT1,[0, 1, 2, \"t\", 75],\"t\")",llJsonSetValue(jT1,[0, 1, 2, "t", 75],"t"),JSON_INVALID);
string jT2 = "[ [\"A\", \"B\", \"C\"], 2]";
verify("llJsonSetValue(jT2,[0, 3],\"t\")",llJsonSetValue(jT2,[0, 3],"t"),"[[\"A\",\"B\",\"C\",\"t\"],2]");
verify("llJsonSetValue(jT2,[0, 4],\"t\")",llJsonSetValue(jT2,[0, 4],"t"),JSON_INVALID);
verify("llJsonSetValue(jT2,[0, 1, 0],\"t\")",llJsonSetValue(jT2,[0, 1, 0],"t"),"[[\"A\",[\"t\"],\"C\"],2]");
verify("llJsonSetValue(jT2,[0, 1, 1],\"t\")",llJsonSetValue(jT2,[0, 1, 1],"t"),JSON_INVALID);
string jT3 = "{\"1\":2}";
verify("llJsonSetValue(jT3,[\"1\"],\"t\")",llJsonSetValue(jT3,["1"],"t"),"{\"1\":\"t\"}");
verify("llJsonSetValue(jT3,[\"1\",0],\"t\")",llJsonSetValue(jT3,["1",0],"t"),"{\"1\":[\"t\"]}");
verify("llJsonSetValue(jT3,[\"1\",1],\"t\")",llJsonSetValue(jT3,["1",1],"t"),JSON_INVALID);
string jGood = "[null, 2]";
verify("llJsonValueType(jGood, [0])",llJsonValueType(jGood, [0]),JSON_NULL);
verify("llJsonValueType(jGood, [0, 0])",llJsonValueType(jGood, [0, 0]),JSON_INVALID);
string jBad = "[, 2]";
verify("llJsonValueType(jBad,[0])",llJsonValueType(jBad,[0]),JSON_INVALID);
verify("llJsonValueType(jBad,[0, 0, 2, \"t\", 75])",llJsonValueType(jBad,[0, 0, 2, "t", 75]),JSON_INVALID);
verify("llJsonGetValue(jBad,[1, 0, 2, \"t\", 75])",llJsonGetValue(jBad,[1, 0, 2, "t", 75]),JSON_INVALID);
}
maint3081() {
verify("llJsonSetValue blank string",llJsonSetValue("",["test"],""),"{\"test\":\"\"}");
verify("llJsonSetValue JSON_NULL",llJsonSetValue("",["test"],JSON_NULL),"{\"test\":null}");
verify("llJsonGetValue blank string",llJsonGetValue("{\"test\":\"\"}",["test"]),"");
verify("llJsonGetValue JSON_NULL",llJsonGetValue("{\"test\":null}",["test"]),JSON_NULL);
verify("Identity (set->get) blank string",llJsonGetValue(llJsonSetValue("",["test"],""),["test"]),"");
verify("Identity (set->get) JSON_NULL",llJsonGetValue(llJsonSetValue("",["test"],JSON_NULL),["test"]),JSON_NULL);
}
test_jira_fixes() {
maint3070(); maint4187(); maint3053(); maint3081();
}
default {
on_rez(integer start_param)
{
llResetScript();
}
changed(integer change)
{
if (change & (CHANGED_OWNER | CHANGED_INVENTORY))
{
llResetScript();
}
}
state_entry()
{
run_tests();
}
touch_start(integer num_detected)
{
run_tests();
}
} </lsl>