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506 lines
18 KiB
Markdown
506 lines
18 KiB
Markdown
# Schema
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(This feature was released in v1.1.0)
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JSON Schema is a draft standard for describing the format of JSON data. The schema itself is also JSON data. By validating a JSON structure with JSON Schema, your code can safely access the DOM without manually checking types, or whether a key exists, etc. It can also ensure that the serialized JSON conform to a specified schema.
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RapidJSON implemented a JSON Schema validator for [JSON Schema Draft v4](http://json-schema.org/documentation.html). If you are not familiar with JSON Schema, you may refer to [Understanding JSON Schema](http://spacetelescope.github.io/understanding-json-schema/).
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[TOC]
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# Basic Usage {#Basic}
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First of all, you need to parse a JSON Schema into `Document`, and then compile the `Document` into a `SchemaDocument`.
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Secondly, construct a `SchemaValidator` with the `SchemaDocument`. It is similar to a `Writer` in the sense of handling SAX events. So, you can use `document.Accept(validator)` to validate a document, and then check the validity.
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~~~cpp
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#include "rapidjson/schema.h"
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// ...
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Document sd;
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if (sd.Parse(schemaJson).HasParseError()) {
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// the schema is not a valid JSON.
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// ...
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}
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SchemaDocument schema(sd); // Compile a Document to SchemaDocument
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// sd is no longer needed here.
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Document d;
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if (d.Parse(inputJson).HasParseError()) {
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// the input is not a valid JSON.
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// ...
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}
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SchemaValidator validator(schema);
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if (!d.Accept(validator)) {
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// Input JSON is invalid according to the schema
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// Output diagnostic information
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StringBuffer sb;
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validator.GetInvalidSchemaPointer().StringifyUriFragment(sb);
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printf("Invalid schema: %s\n", sb.GetString());
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printf("Invalid keyword: %s\n", validator.GetInvalidSchemaKeyword());
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sb.Clear();
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validator.GetInvalidDocumentPointer().StringifyUriFragment(sb);
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printf("Invalid document: %s\n", sb.GetString());
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}
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~~~
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Some notes:
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* One `SchemaDocument` can be referenced by multiple `SchemaValidator`s. It will not be modified by `SchemaValidator`s.
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* A `SchemaValidator` may be reused to validate multiple documents. To run it for other documents, call `validator.Reset()` first.
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# Validation during parsing/serialization {#Fused}
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Unlike most JSON Schema validator implementations, RapidJSON provides a SAX-based schema validator. Therefore, you can parse a JSON from a stream while validating it on the fly. If the validator encounters a JSON value that invalidates the supplied schema, the parsing will be terminated immediately. This design is especially useful for parsing large JSON files.
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## DOM parsing {#DOM}
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For using DOM in parsing, `Document` needs some preparation and finalizing tasks, in addition to receiving SAX events, thus it needs some work to route the reader, validator and the document. `SchemaValidatingReader` is a helper class that doing such work.
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~~~cpp
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#include "rapidjson/filereadstream.h"
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// ...
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SchemaDocument schema(sd); // Compile a Document to SchemaDocument
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// Use reader to parse the JSON
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FILE* fp = fopen("big.json", "r");
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FileReadStream is(fp, buffer, sizeof(buffer));
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// Parse JSON from reader, validate the SAX events, and store in d.
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Document d;
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SchemaValidatingReader<kParseDefaultFlags, FileReadStream, UTF8<> > reader(is, schema);
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d.Populate(reader);
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if (!reader.GetParseResult()) {
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// Not a valid JSON
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// When reader.GetParseResult().Code() == kParseErrorTermination,
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// it may be terminated by:
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// (1) the validator found that the JSON is invalid according to schema; or
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// (2) the input stream has I/O error.
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// Check the validation result
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if (!reader.IsValid()) {
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// Input JSON is invalid according to the schema
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// Output diagnostic information
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StringBuffer sb;
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reader.GetInvalidSchemaPointer().StringifyUriFragment(sb);
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printf("Invalid schema: %s\n", sb.GetString());
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printf("Invalid keyword: %s\n", reader.GetInvalidSchemaKeyword());
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sb.Clear();
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reader.GetInvalidDocumentPointer().StringifyUriFragment(sb);
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printf("Invalid document: %s\n", sb.GetString());
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}
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}
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~~~
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## SAX parsing {#SAX}
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For using SAX in parsing, it is much simpler. If it only need to validate the JSON without further processing, it is simply:
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~~~
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SchemaValidator validator(schema);
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Reader reader;
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if (!reader.Parse(stream, validator)) {
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if (!validator.IsValid()) {
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// ...
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}
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}
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~~~
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This is exactly the method used in the [schemavalidator](example/schemavalidator/schemavalidator.cpp) example. The distinct advantage is low memory usage, no matter how big the JSON was (the memory usage depends on the complexity of the schema).
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If you need to handle the SAX events further, then you need to use the template class `GenericSchemaValidator` to set the output handler of the validator:
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~~~
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MyHandler handler;
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GenericSchemaValidator<SchemaDocument, MyHandler> validator(schema, handler);
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Reader reader;
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if (!reader.Parse(ss, validator)) {
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if (!validator.IsValid()) {
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// ...
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}
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}
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~~~
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## Serialization {#Serialization}
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It is also possible to do validation during serializing. This can ensure the result JSON is valid according to the JSON schema.
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~~~
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StringBuffer sb;
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Writer<StringBuffer> writer(sb);
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GenericSchemaValidator<SchemaDocument, Writer<StringBuffer> > validator(s, writer);
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if (!d.Accept(validator)) {
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// Some problem during Accept(), it may be validation or encoding issues.
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if (!validator.IsValid()) {
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// ...
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}
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}
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~~~
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Of course, if your application only needs SAX-style serialization, it can simply send SAX events to `SchemaValidator` instead of `Writer`.
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# Remote Schema {#Remote}
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JSON Schema supports [`$ref` keyword](http://spacetelescope.github.io/understanding-json-schema/structuring.html), which is a [JSON pointer](doc/pointer.md) referencing to a local or remote schema. Local pointer is prefixed with `#`, while remote pointer is an relative or absolute URI. For example:
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~~~js
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{ "$ref": "definitions.json#/address" }
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~~~
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As `SchemaDocument` does not know how to resolve such URI, it needs a user-provided `IRemoteSchemaDocumentProvider` instance to do so.
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~~~
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class MyRemoteSchemaDocumentProvider : public IRemoteSchemaDocumentProvider {
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public:
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virtual const SchemaDocument* GetRemoteDocument(const char* uri, SizeType length) {
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// Resolve the uri and returns a pointer to that schema.
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}
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};
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// ...
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MyRemoteSchemaDocumentProvider provider;
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SchemaDocument schema(sd, &provider);
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~~~
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# Conformance {#Conformance}
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RapidJSON passed 262 out of 263 tests in [JSON Schema Test Suite](https://github.com/json-schema/JSON-Schema-Test-Suite) (Json Schema draft 4).
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The failed test is "changed scope ref invalid" of "change resolution scope" in `refRemote.json`. It is due to that `id` schema keyword and URI combining function are not implemented.
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Besides, the `format` schema keyword for string values is ignored, since it is not required by the specification.
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## Regular Expression {#Regex}
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The schema keyword `pattern` and `patternProperties` uses regular expression to match the required pattern.
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RapidJSON implemented a simple NFA regular expression engine, which is used by default. It supports the following syntax.
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|Syntax|Description|
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|------|-----------|
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|`ab` | Concatenation |
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|<code>a|b</code> | Alternation |
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|`a?` | Zero or one |
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|`a*` | Zero or more |
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|`a+` | One or more |
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|`a{3}` | Exactly 3 times |
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|`a{3,}` | At least 3 times |
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|`a{3,5}`| 3 to 5 times |
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|`(ab)` | Grouping |
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|`^a` | At the beginning |
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|`a$` | At the end |
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|`.` | Any character |
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|`[abc]` | Character classes |
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|`[a-c]` | Character class range |
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|`[a-z0-9_]` | Character class combination |
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|`[^abc]` | Negated character classes |
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|`[^a-c]` | Negated character class range |
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|`[\b]` | Backspace (U+0008) |
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|<code>\\|</code>, `\\`, ... | Escape characters |
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|`\f` | Form feed (U+000C) |
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|`\n` | Line feed (U+000A) |
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|`\r` | Carriage return (U+000D) |
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|`\t` | Tab (U+0009) |
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|`\v` | Vertical tab (U+000B) |
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For C++11 compiler, it is also possible to use the `std::regex` by defining `RAPIDJSON_SCHEMA_USE_INTERNALREGEX=0` and `RAPIDJSON_SCHEMA_USE_STDREGEX=1`. If your schemas do not need `pattern` and `patternProperties`, you can set both macros to zero to disable this feature, which will reduce some code size.
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# Performance {#Performance}
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Most C++ JSON libraries do not yet support JSON Schema. So we tried to evaluate the performance of RapidJSON's JSON Schema validator according to [json-schema-benchmark](https://github.com/ebdrup/json-schema-benchmark), which tests 11 JavaScript libraries running on Node.js.
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That benchmark runs validations on [JSON Schema Test Suite](https://github.com/json-schema/JSON-Schema-Test-Suite), in which some test suites and tests are excluded. We made the same benchmarking procedure in [`schematest.cpp`](test/perftest/schematest.cpp).
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On a Mac Book Pro (2.8 GHz Intel Core i7), the following results are collected.
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|Validator|Relative speed|Number of test runs per second|
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|---------|:------------:|:----------------------------:|
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|RapidJSON|155%|30682|
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|[`ajv`](https://github.com/epoberezkin/ajv)|100%|19770 (± 1.31%)|
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|[`is-my-json-valid`](https://github.com/mafintosh/is-my-json-valid)|70%|13835 (± 2.84%)|
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|[`jsen`](https://github.com/bugventure/jsen)|57.7%|11411 (± 1.27%)|
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|[`schemasaurus`](https://github.com/AlexeyGrishin/schemasaurus)|26%|5145 (± 1.62%)|
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|[`themis`](https://github.com/playlyfe/themis)|19.9%|3935 (± 2.69%)|
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|[`z-schema`](https://github.com/zaggino/z-schema)|7%|1388 (± 0.84%)|
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|[`jsck`](https://github.com/pandastrike/jsck#readme)|3.1%|606 (± 2.84%)|
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|[`jsonschema`](https://github.com/tdegrunt/jsonschema#readme)|0.9%|185 (± 1.01%)|
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|[`skeemas`](https://github.com/Prestaul/skeemas#readme)|0.8%|154 (± 0.79%)|
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|tv4|0.5%|93 (± 0.94%)|
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|[`jayschema`](https://github.com/natesilva/jayschema)|0.1%|21 (± 1.14%)|
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That is, RapidJSON is about 1.5x faster than the fastest JavaScript library (ajv). And 1400x faster than the slowest one.
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# Schema violation reporting {#Reporting}
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(Unreleased as of 2017-09-20)
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When validating an instance against a JSON Schema,
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it is often desirable to report not only whether the instance is valid,
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but also the ways in which it violates the schema.
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The `SchemaValidator` class
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collects errors encountered during validation
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into a JSON `Value`.
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This error object can then be accessed as `validator.GetError()`.
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The structure of the error object is subject to change
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in future versions of RapidJSON,
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as there is no standard schema for violations.
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The details below this point are provisional only.
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## General provisions {#ReportingGeneral}
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Validation of an instance value against a schema
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produces an error value.
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The error value is always an object.
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An empty object `{}` indicates the instance is valid.
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* The name of each member
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corresponds to the JSON Schema keyword that is violated.
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* The value is either an object describing a single violation,
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or an array of such objects.
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Each violation object contains two string-valued members
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named `instanceRef` and `schemaRef`.
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`instanceRef` contains the URI fragment serialization
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of a JSON Pointer to the instance subobject
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in which the violation was detected.
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`schemaRef` contains the URI of the schema
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and the fragment serialization of a JSON Pointer
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to the subschema that was violated.
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Individual violation objects can contain other keyword-specific members.
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These are detailed further.
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For example, validating this instance:
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~~~json
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{"numbers": [1, 2, "3", 4, 5]}
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~~~
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against this schema:
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~~~json
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{
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"type": "object",
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"properties": {
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"numbers": {"$ref": "numbers.schema.json"}
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}
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}
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~~~
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where `numbers.schema.json` refers
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(via a suitable `IRemoteSchemaDocumentProvider`)
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to this schema:
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~~~json
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{
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"type": "array",
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"items": {"type": "number"}
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}
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~~~
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produces the following error object:
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~~~json
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{
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"type": {
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"instanceRef": "#/numbers/2",
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"schemaRef": "numbers.schema.json#/items",
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"expected": ["number"],
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"actual": "string"
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}
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}
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~~~
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## Validation keywords for numbers {#Numbers}
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### multipleOf {#multipleof}
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* `expected`: required number strictly greater than 0.
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The value of the `multipleOf` keyword specified in the schema.
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* `actual`: required number.
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The instance value.
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### maximum {#maximum}
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* `expected`: required number.
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The value of the `maximum` keyword specified in the schema.
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* `exclusiveMaximum`: optional boolean.
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This will be true if the schema specified `"exclusiveMaximum": true`,
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and will be omitted otherwise.
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* `actual`: required number.
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The instance value.
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### minimum {#minimum}
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* `expected`: required number.
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The value of the `minimum` keyword specified in the schema.
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* `exclusiveMinimum`: optional boolean.
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This will be true if the schema specified `"exclusiveMinimum": true`,
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and will be omitted otherwise.
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* `actual`: required number.
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The instance value.
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## Validation keywords for strings {#Strings}
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### maxLength {#maxLength}
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* `expected`: required number greater than or equal to 0.
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The value of the `maxLength` keyword specified in the schema.
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* `actual`: required string.
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The instance value.
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### minLength {#minLength}
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* `expected`: required number greater than or equal to 0.
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The value of the `minLength` keyword specified in the schema.
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* `actual`: required string.
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The instance value.
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### pattern {#pattern}
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* `actual`: required string.
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The instance value.
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(The expected pattern is not reported
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because the internal representation in `SchemaDocument`
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does not store the pattern in original string form.)
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## Validation keywords for arrays {#Arrays}
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### additionalItems {#additionalItems}
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This keyword is reported
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when the value of `items` schema keyword is an array,
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the value of `additionalItems` is `false`,
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and the instance is an array
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with more items than specified in the `items` array.
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* `disallowed`: required integer greater than or equal to 0.
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The index of the first item that has no corresponding schema.
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### maxItems and minItems {#maxItems-minItems}
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* `expected`: required integer greater than or equal to 0.
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The value of `maxItems` (respectively, `minItems`)
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specified in the schema.
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* `actual`: required integer greater than or equal to 0.
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Number of items in the instance array.
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### uniqueItems {#uniqueItems}
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* `duplicates`: required array
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whose items are integers greater than or equal to 0.
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Indices of items of the instance that are equal.
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(RapidJSON only reports the first two equal items,
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for performance reasons.)
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## Validation keywords for objects
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### maxProperties and minProperties {#maxProperties-minProperties}
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* `expected`: required integer greater than or equal to 0.
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The value of `maxProperties` (respectively, `minProperties`)
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specified in the schema.
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* `actual`: required integer greater than or equal to 0.
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Number of properties in the instance object.
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### required {#required}
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* `missing`: required array of one or more unique strings.
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The names of properties
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that are listed in the value of the `required` schema keyword
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but not present in the instance object.
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### additionalProperties {#additionalProperties}
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This keyword is reported
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when the schema specifies `additionalProperties: false`
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and the name of a property of the instance is
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neither listed in the `properties` keyword
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nor matches any regular expression in the `patternProperties` keyword.
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* `disallowed`: required string.
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Name of the offending property of the instance.
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(For performance reasons,
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RapidJSON only reports the first such property encountered.)
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### dependencies {#dependencies}
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* `errors`: required object with one or more properties.
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Names and values of its properties are described below.
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Recall that JSON Schema Draft 04 supports
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*schema dependencies*,
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where presence of a named *controlling* property
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requires the instance object to be valid against a subschema,
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and *property dependencies*,
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where presence of a controlling property
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requires other *dependent* properties to be also present.
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For a violated schema dependency,
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`errors` will contain a property
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with the name of the controlling property
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and its value will be the error object
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produced by validating the instance object
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against the dependent schema.
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For a violated property dependency,
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`errors` will contain a property
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with the name of the controlling property
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and its value will be an array of one or more unique strings
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listing the missing dependent properties.
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## Validation keywords for any instance type {#AnyTypes}
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### enum {#enum}
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This keyword has no additional properties
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beyond `instanceRef` and `schemaRef`.
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* The allowed values are not listed
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because `SchemaDocument` does not store them in original form.
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* The violating value is not reported
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because it might be unwieldy.
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If you need to report these details to your users,
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you can access the necessary information
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by following `instanceRef` and `schemaRef`.
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### type {#type}
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* `expected`: required array of one or more unique strings,
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each of which is one of the seven primitive types
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defined by the JSON Schema Draft 04 Core specification.
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Lists the types allowed by the `type` schema keyword.
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* `actual`: required string, also one of seven primitive types.
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The primitive type of the instance.
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### allOf, anyOf, and oneOf {#allOf-anyOf-oneOf}
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* `errors`: required array of at least one object.
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There will be as many items as there are subschemas
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in the `allOf`, `anyOf` or `oneOf` schema keyword, respectively.
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Each item will be the error value
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produced by validating the instance
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against the corresponding subschema.
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For `allOf`, at least one error value will be non-empty.
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For `anyOf`, all error values will be non-empty.
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For `oneOf`, either all error values will be non-empty,
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or more than one will be empty.
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### not {#not}
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This keyword has no additional properties
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apart from `instanceRef` and `schemaRef`.
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