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Overview of jBallerina 1.2.0

jBallerina 1.2.0 is the first major release of 2020 and it includes a new set of features and significant improvements to the compiler, runtime, standard library, and developer tooling. It is based on the 2020R1 version of the Language Specification.

Highlights

  • Redesigned XML, Stream and Query support
  • Based on a stable language specification: 2020R1
  • Significant reduction in overall compilation time
  • Added cookies and trailer support in HTTP
  • Revamped Cache module
  • Redesigned oneof field and map field support in gRPC and added client retry support for gRPC blocking unary calls
  • Added custom serializer/deserializer and Avro support in the Kafka connector
  • Introduced new Database connectors
  • Introduced new client connectors (email, Slack, and Azure time-series)
  • Support to mock functions when writing tests
  • Test and code coverage report
  • New tool to generate Ballerina bindings for Java APIs
  • Several critical bug fixes

What's new in jBallerina 1.2.0?

Language

The language implementation is based on the stable language specification version 2020R1. This implementation introduces a new set of features aimed at making integration further easier for the user. In addition to that, the XML and Lock implementations are out of their preview/experimental status.

In addition to new features, this release also includes critical bug fixes and fixes done to align the implementation with the language specification. Some of these changes are backward incompatible. For a complete list of changes done since 1.1.0, see the Language changes since jBallerina 1.1.0 section.

New XML design

This release introduces a revamped XML support along with XPath-like query syntax allowing easy and safe manipulation of XML data.

XML navigation expression

XML step expressions allow to query the children of an XML element or children of members of an XML sequence.

xml x = xml `<root>
                 <person>
                     <name>
                         <fname>William</fname>
                         <lname>Martin</lname>
                     </name>
                 </person>
                 <person>
                     <name>
                         <fname>David</fname>
                         <lname>Taylor</lname>
                     </name>
                 </person>
                 <person>
                     <name>
                         <fname>Daniel</fname>
                         <lname>Wilson</lname>
                     </name>
                 </person>
             </root>`;

// Select all children items, which are XML elements.
xml allElementChildren = x/<*>;

// Match first-level children with element name `person`.
// Then, match the second level with element name `name`
// and the third level with element name `fname`.
xml fnameItems = x/<person>/<name>/<fname>;

// Select all descendants, which match element name `fname`.
xml fnameDescendents = x/**/<fname>;

// Select all children items of `x`.
xml allChildren = x/*;

XML filter expression allows filtering an XML sequence by an element name.

xml x = xml `<root>
                <rectangle length="5" width="10"/>
                <rectangle length="5" width="5"/>
                <circle radius="2"/>
                <square side="6"/>
            </root>`;

xml rectangles = x/*.<rectangle>;

XML attribute access

xmlns "www.ballerina.io/ns" as ns;
xml val = xml `<element type="fixed" ns:count="2></element>`;
string|error 'type = val.'type;
string|error count = val.ns:count;

XML attribute access is now lax typed. This means that compile-time type checking is relaxed and moved to runtime. Accessing a non-existent attribute or using field access expression on a non-XML element item will result in an error being returned. If optional field access syntax is used, then nil will be returned instead of an error when the field is not available. Attributes with namespace prefix are accessed using the value.prefix:attrName syntax where the XML prefix must be declared in the scope.

xml val = xml `<element type="fixed"></element>`;
string|error nonEx = val.nonExsistent; // result in error
string|error? nonExOptional = val?.nonExsistent; // result in nil

New language-integrated query design

Query expression

A query expression provides a language-integrated query feature using SQL-like syntax.

In its most basic form, a query expression consists of four kinds of clauses: from, let, where, and select. The first clause must be a from clause and the last clause must be a select clause. The result of the query expression is a list. In this basic form, a query expression is just a list comprehension.

The from clause works similarly to a foreach statement. It creates an iterator from an iterable value and then binds variables to each value returned by the iterator. The where clause is a boolean expression, which can refer to variables bound by the from clause; when the where expression evaluates to false, the iteration skips following clauses. The let clause binds variables. The select clause is evaluated for each iteration; the result of the query expression is a list whose members are the result of the select clause.

Person[] outputPersonList =
       from var person in personList
       let string depName = "WSO2", string replaceName = "Alexander"
       where person.deptAccess == "A" && person.firstName == "Alex"
       select {
              firstName: replaceName,
              lastName: person.lastName,
              deptAccess: depName
       };

As of now, query expressions are supported by lists and streams.

Query action

The clauses in the query pipeline of a query action are executed in the same way as the clauses in the query pipeline of a query expression. The query action is executed as follows. For each input frame f emitted by the query pipeline, execute the block-statement with f in the scope.

    error? result = from var student in studentList
                    where student.score > 1.0
                    do {
                        FullName fullName = {
                            firstName: student.firstName, 
                            lastName: student.lastName
                        };
                        nameList.push(fullName);
                    };

New streams design

A stream is an object-like value that can generate a sequence of values. There is also a value associated with the completion of the generation of the sequence, which is either nil, indication of the generation of the sequence being completed successfully, or an error.

A stream supports two primitive operations: a next operation and a close operation. The next operation has the same semantics as the next method on the Iterator abstract object type. The close operation informs the stream that there will be no more next operations and thus allows the stream to release resources used by the stream.

A stream is iterable. A stream of type stream<T, C> has value type T and completion type C. Calling the next method on the iterator created for an iteration has the same effect as performing the next operation on the stream. The stream does not keep a copy of the sequence of values returned by the next operation. Any subsequent iteration operation on the same stream will not generate further values so the iteration sequence for iterations other than the first will be the empty sequence.

The stream type provides methods (more precisely functions in the lang.stream library) similar to list:

  • map
  • foreach
  • filter
  • reduce
  • iterator

The map() and filter() methods return streams and work lazily. Iterable basic types would have a toStream() method to convert to a stream; these should handle mutation similarly to iterators; as of now, it supports only for arrays.

stream<Person, error> personStream = getPersonStream();
stream<Person, error> filteredPersonStream = personStream.filter(function (Person person) returns boolean {
   return person.age > 100 && person.name != "James";
});

Expression-bodied functions

This release introduces expression-bodied functions whose body is a single expression. The expression function body takes the form => E;, where E is any expression. It is equivalent to the block function body, { return E; }. The following is an example where a Person record is mapped to an Employee record using an expression-bodied function.

function toEmployee(Person p, string pos) returns Employee => {
    name: p.fname + " " + p.lname,
    designation: pos
};

Let expressions

This release introduces let expression. It takes the form let T B = E1 in E2, where E1 is evaluated resulting in a value v. The typed binding pattern T B is matched to v, causing assignments to the variables occurring in B. Then E2 is evaluated with those variables in scope; the resulting value is the result of the let expression.

const int globalVar = 2;
public function main() {
    int b = let int x = 4, int y = 3 in x * y * globalVar; // b = 4 * 3 * 2 = 24
}

Improved mapping constructor syntax

Spread operator

A mapping constructor expression can now have a spread field. A spread field can be used with another mapping value V to include all of the fields in V when creating the new mapping value.

type Foo record {|
    string s;
    decimal d;
|};

type Bar record {|
    string s;
    int i;
    decimal...;
|};

public function main() {
    Foo f = {s: "test str", d: 1.0};

    // Spread field `...f` spreads the fields of `f` 
    // when creating the `Bar` value `b`. The required 
    // field `s` is provided via `f`. 
    // `b` will contain 3 fields; `s`, `i`, and `d`.
    Bar b = {i: 1, ...f};
}

Variable names as fields of mapping constructors

A mapping constructor expression can also contain just a variable name (foo) as a field. This is equivalent to the key-value pair field foo: foo. The name of the variable is considered the key while the variable reference is considered the expression.

type Employee record {|
    string name;
    string department;
|};

public function main() {
    string department = "Finance";

    // The variable-name `department` is 
    // used as a field here.
    Employee e = {name: "Jo", department};
}

Improvements to metadata

Deprecation syntax

You can now mark type definitions, functions, object methods, and constants as deprecated using the @deprecated annotation. The compiler will generate warnings if a you use a deprecated construct. If the deprecated construct contains documentation, you need to add some additional bit of documentation called Deprecated documentation. The Deprecated documentation should ideally include details on why the construct was deprecated and suitable alternate options, which should be used instead.

# Creates and returns a `Baz` object.
#
# # Deprecated
# This function is deprecated due to undesired side effects since it relies on module level
# variables. Use the new and improved `newFoo()` function instead.
@deprecated
public function foo() returns Baz {
    // some logic which has side effects
}

Metadata on record and object fields

Metadata (documentation and annotations) are now allowed on record and object fields.

// An annotation allowed on record fields.
annotation foo on record field;

// An annotation allowed on object fields.
annotation bar on object field;

// An annotation allowed on record and object fields.
annotation baz on field;

# Docs for this record.
public type Rec record {

    # Docs for this field.
    @foo
    @baz
    string s;
};

# Docs for this object.
public type Obj object {

    # Docs for this field.
    @bar
    @baz
    int i = 0;
};

Lang Library

Builtin sub types of basic types

Lang Library modules provide a new set of built-in types. Each such built-in type that is a sub type of a basic type B is provided by the lang.B module. The following are the built-in types provided by the lang library modules.

  • Module ballerina/lang.int

    • Unsigned8
    • Signed8
    • Unsigned16
    • Signed16
    • Unsigned32
    • Signed32
  • Module ballerina/lang.string

    • Char
  • Module ballerina/lang.xml

    • Element
    • ProcessingInstruction
    • Comment
    • Text
import ballerina/lang.'int;
import ballerina/lang.'string;  

public function main() {
    'int:Unsigned8 number = 200;
    'string:Char char = "A";
}

Redesigned lang.xml module

The XML lang module has been revamped to work with the Element, Comment, ProcessingInstructions and Text XML built-in types. Previously, functions such as getChildren() and getElementName(), which are specific to an XML element type were allowed to be called on the xml type and if they were called on non-element items, it used to result in runtime errors. With xml built-in sub type improvements, these functions are statically type checked and only allowed on the built-in sub type Element. The same applies to other built-in sub types and functions.

import ballerina/lang.'xml as xmllib;

public function main() {
     xmllib:Element element = <xmllib:Element> xml `<elem> hello </elem>`;
     xml children = element.getChildren();
}

The functions isElement(), isProcessingInstruction(), isComment() and isText() have been removed. The same functionality can be achieved using type testing as follows.

import ballerina/lang.'xml;
public function main() {
    xml cmnt = xml `<!-- hello from comment -->`;
    boolean isComment = cmnt is 'xml:Comment;
}

The functions appendChildren() and removeChildren() have been removed.

The lang.boolean module

The newly-added lang library module for the boolean basic type contains a function for parsing string values to boolean values. It accepts ”true” or ”false” in any combination of lower/upper case as well as ”1” and ”0”, which evaluates to true and false respectively. An error is returned for any other string value.

import ballerina/lang.'boolean;

public function main() {
    boolean|error b = 'boolean:fromString("true");
}

Enhanced lang.int, lang.string, lang.array, and lang.map modules

The above-mentioned lang library modules have been enhanced by adding new API elements (e.g., constants and functions).

  • lang.int module - Constants added: for max/min values of the int type
  • lang.string module - New functions added: lastIndexOf(), equalsIgnoreCaseAscii(), toCodePointInt(), fromCodePointInt()
  • lang.array module - New functions added: lastIndexOf(), toStream()
  • lang.map module - New functions added: toArray(), removeIfHasKey()

Backward incompatible improvements and bug fixes

  • Listener variables are now final.
  • The syntax for Unicode escapes in strings has changed from \u[CodePoint] to \u{CodePoint} so as to align with ECMAScript. Although this is an incompatible change, the previous syntax was not implemented.
  • The semantics of the lock statement has been changed. Now, it acquires a single, program-wide, recursive mutex before executing a lock statement and releases the mutex after completing the execution of the lock statement.
  • When a list constructor or a mapping constructor is used without a contextually-expected type, now a tuple or a record type is inferred rather than an array or a map type.
  • The x@ syntax for accessing the attributes of an XML element has been removed.
  • Now, member value assignment for a dynamic list adds filler values if the required members are not already filled and the relevant member type has a filler value.
  • Functions with the same name were previously allowed in both the module and the module's tests. This is now disallowed and results in a compilation error.
  • Now, out of range index access of xml sequences result in empty sequences rather than a panic. Using the xml:get() langlib method with an out of range index results in a panic.

Runtime

Compilation time improvement

The compiler backend, which generates the Java bytecode for Ballerina programs was rewritten to reduce the time taken for Java bytecode generation. This resulted in a significant reduction in overall compilation time.

The @strand annotation

As per the Ballerina language specification, new strands should belong to the same thread as the currently executing strand. Strands, which belong to the same thread share the following characteristics.

  • Only one strand can run simultaneously.
  • The currently-running strand should yield to switch its thread to execute another strand.
  • Strands belonging to a particular thread are cooperatively multitasked.
  • All the strands created in a particular execution of a Ballerina program will be executed sequentially by a single thread.

In some situations, it would be desirable to assign strands to different threads. You can change this behavior with an annotation but such an annotation was not available in Ballerina releases prior to 1.2.0. This has been a major spec deviation.

A major revamp of our strand scheduler was done in this release to address the spec deviation.

Standard Library

Enhanced HTTP module

Cookie support

A new cookie API has been introduced for easily handling HTTP cookies. It provides the following features:

  • Enable the server to read cookies from the request and write cookies to the response (in "Set-Cookie" header).
  • Enable configuring the client to enable/disable cookies, enable/disable persistent cookies, and whether to block/unblock third-party cookies.
  • Add persistent cookies support and add support to plug custom persistent storages.

Trailer support

Add support to create, read, update, and delete trailing headers in the response message. All existing header functions are changed to accept a finite-typed variable. The default value is set as leading, which means by default, those functions apply to leading headers. In order to apply trailer headers, you need to set the position as trailing as shown below.

string trailerHeader = response.getHeader("foo", position = "trailing");

Other changes

  • In the previous versions, HTTP caching was enabled by default in the HTTP client. With 1.2.0, HTTP caching is now disabled by default.

Revamped Cache module

  • Introduced the Cache API v2.0.0, which introduces a AbstractCache object, which can be used to implement custom caches and the AbstractEvictionPolicy object, which can be used to implement custom eviction algorithms. By default, this provides a Cache object and LruEvictionPolicy object, which is an implementation of the LRU eviction algorithm.
  • Prevented concurrent modifications and improved the runtime complexity to gain a better performance improvement compared to v1.0.0.

Enhanced gRPC module

Redesigned Oneof field support

The Oneof fields in the protobuf definition are now mapped to optional fields in Ballerina. When you generate the code, the Ballerina record is generated with a new setter function for each field to restrict you from setting more than one of those fields and a valid function.

For example,

message Person {
  oneof identity {
     string passportId = 1;
     string nic = 2;
  }
}
public type Person record {|
   string passportId?;
   string nic?;
|};

function isValidPerson(Person a) returns boolean {
   ...
}

function setPerson_PassportId(Person a, string passportId) {
   ...
}

function setPerson_Nic(Person a, string nic) {
   ...
}

Note: The previous Oneof design will not work from this release. If you are currently using it, you need to regenerate the code from the proto definition and change your code accordingly.

Redesigned Map field support

The map fields in the protobuf definition are now mapped to nested records in Ballerina.

For example,

message HelloRequest {
	map<int32, string> tags = 4;
}
public type HelloRequest record {|
    record {| int key; string value; |}[] tags = [];
|};

Added client retry support for unary blocking calls

Client retry is only supported in unary blocking calls. This will be supported in other messaging patterns in the future. Retry functionality can be enabled using the following retry configuration.

grpc:ClientConfiguration clientConfiguration = {
   retryConfiguration: {
       retryCount: 5,
       intervalInMillis: 2000,
       maxIntervalInMillis: 10000,
       backoffFactor: 2,
       errorTypes: [grpc:INTERNAL_ERROR, grpc:UNAVAILABLE_ERROR]
   }
};

Other improvements

  • Added Gzip compression support
  • Improved the gRPC command to only create essentials in client and service modes
  • The name field in the ServiceConfig annotation is now used to set the Service name. This is to support dynamic service registration.

Enhanced Kafka module

Ballerina Kafka is redesigned and version 2.0.0 is released. This has breaking changes hence older code may not work.

Breaking changes

  • kafka:ConsumerConfig and kafka:ProducerConfig records are renamed to kafka:ConsumerConfiguration and kafka:ProducerConfiguration respectively to comply with the Ballerina naming conventions.
  • send() function of the kafka:Producer now accepts anydata? as the key and anydata as the value types as opposed to the existing byte[]? and byte[] respectively.
  • bootstrapServers configuration is now a required parameter for both the kafka:ConsumerConfiguration and kafka:ProducerConfiguration records.

Custom Serializer/Deserializer support

The Kafka module now supports a set of serializers and deserializers in contrast to the existing byte[] data. The introduced serializers / deserializers are:

  • byte[]
  • string
  • int
  • float
  • avro
  • custom

Avro Serializer/Deserializer

The Kafka module now supports Avro serialization/deserialization. This only supports Kafka values yet. Key serialization support will be added later. For more information, go to The Standard Library.

Enhanced Task module

The Ballerina Task module is enhanced with multiple attachment support.

Breaking changes

Named arguments for task attachments will not work now. For example, the following code will no longer compile.

    task:Scheduler timer = new({ intervalInMillis: 1000 });
    Person person = { name: "Sam", age: 29 };
    var attachResult = timer.attach(TimerService, attachment = p); 

To make it work, change it as follows.

    task:Scheduler timer = new({ intervalInMillis: 1000 });
    Person person = { name: "Sam", age: 29 };
    var attachResult = timer.attach(TimerService, person);

Multiple attachment support

Now, you can pass any number of attachments to the attach() function. For example,

    task:Scheduler timer = new({ intervalInMillis: 1000 });
    Person person = { name: "Sam", age: 29 };
    Account account = { number: 188008, balance: 1233.02 };
    var attachResult = timer.attach(TimerService, person, account);

Deprecated JDBC Module

A new experimental JDBC2 module is introduced in the Ballerina 1.2 release and it will be fully supported by the 1.3 release. The existing JDBC module will be removed later in the 1.3 release.

Added observability support

Now, Publishers and Subscribers of all messaging connectors(Kafka, RabbitMQ, and JMS) support observability.

Organization name changes of connectors

Connector/Module Old Org New Org
JIRA wso2/jira7 ballerina/jira7
GoogleSpreadSheet wso2/gsheets4 ballerinax/googleapis.sheets4
Twilio wso2/twilio ballerinax/twilio
FTP wso2/ftp ballerina/ftp
Redis wso2/redis ballerina/redis
JMS wso2/jms ballerina/java.jms
MongoDB wso2/mongodb ballerina/mongodb
GitHub wso2/github4 ballerinax/github4
Salesforce wso2/sfdc46 ballerinax/sfdc46
SOAP wso2/soap ballerina/soap
Gmail wso2/gmail ballerinax/googleapis.gmail
AmazonSQS wso2/amazonsqs ballerinax/aws.sqs
AmazonS3 wso2/amazons3 ballerinax/aws.s3
Java ballerinax/java ballerina/java
Java Arrays ballerinax/java.arrays ballerina/java.arrays

Added new connectors

The following connectors are newly added in this release.

  • Slack client connector
  • Azure time-series client connector
  • Email client connector
  • Preview of new database connectors
    • JDBC connector
    • MySQL connector

Revamped connectors

The following connectors are revamped in this release.

  • Google sheets connector
  • Salesforce connector

Deployment

Docker Annotations

Support for setting environment variables to the Docker image.

@docker:Config {
	env:{
   		testVar1: "value1",
   	   	testVar2: "value2"
	}
}

The default base image for the generated Docker images have changed to ballerina/jre8:v1. Also, now, Docker images can be generated for main() functions.

@docker:Config {}
public function main() {
	io:println("Hello, World!");
}

Ability to generate Docker images by only adding the import as import ballerina/docker as _. This will generate the Docker images with minimum configurations for services, listeners, and main functions.

import ballerina/http;
import ballerina/docker as _;

listener http:Listener helloWorldEP = new(9090);

@http:ServiceConfig {
  	basePath: "/helloWorld"
}
service helloWorld on helloWorldEP {
	resource function sayHello (http:Caller outboundEP, http:Request request) {
		…
    	}
}

Kubernetes Annotations

  • Support for setting a port for Kubernetes NodePort Service types is provided.
@kubernetes:Service {
	nodePort: 31100,
	serviceType: "NodePort"
}
  • Support for mounting the ballerina.conf file as a Kubernetes Secret is provided.
@kubernetes:Secret {
	conf: "./conf/ballerina.conf"
}
  • Support for enabling Rolling Updates for Kubernetes Deployments is provided.
@kubernetes:Deployment {
	updateStrategy: {
    		strategyType: kubernetes:STRATEGY_ROLLING_UPDATE,
    		maxUnavailable: 3,
    		maxSurge: "45%"
	}
}
  • Ability to generate Kubernetes artifacts by only adding the import as import ballerina/docker as _ is provided. This will generate the Kubernetes artifacts with minimum configurations for services, listeners, and main functions.
import ballerina/http;
import ballerina/kubernetes as _;

listener http:Listener helloWorldEP = new(9090);

@http:ServiceConfig {
  	basePath: "/helloWorld"
}
service helloWorld on helloWorldEP {
	resource function sayHello (http:Caller outboundEP, http:Request request) {
		...
	}
}

Knative Annotations

A new @knative:Service annotation is introduced. It allows you to generate Knative Service artifacts for Knative.

import ballerina/http;
import ballerina/knative;

@knative:Service {}
@http:ServiceConfig {
	basePath: "/helloWorld"
}
service helloWorld on new http:Listener(8080) {
	resource function sayHello(http:Caller outboundEP, http:Request request) {
    	...
	}
}

Dev tools

Ballerina Bindgen tool

A CLI tool for generating Ballerina bridge code for Java APIs.

Note: The bindgen tool is still experimental.

This CLI tool could be used to generate Ballerina bridge code for Java APIs. Here, Ballerina objects and the relevant Java interoperability mappings for specified Java classes will be auto-generated with the aim of providing a seamless coding experience to call existing Java code from Ballerina. These Ballerina bindings could be generated for Java classes residing inside Java libraries (for which the classpaths needs to be provided) or for standard Java classes.

Command:

ballerina bindgen [(-cp|--classpath) <classpath>...]
                  [(-o|--output) <output>]
                  (<class-name>...)

Options:

  1. (-cp|--classpath) <classpath>...: One or more comma-delimited classpaths for obtaining the JAR files required for generating the Ballerina bindings. This is not needed if the Ballerina bridge code is to be generated for standard Java classes.
  2. (-o|--output) <output>: Location for the generated Ballerina bridge code. If this path is not specified, the output will be written to the same directory from where the command is run. 3, <class-name>...: One or more space-separated fully-qualified Java class names for which the bridge code is to be generated.

Testerina

Function Mocking support

The Ballerina test framework provides the capability to mock a function. By using the mocking feature, you can easily mock a function in a module that you are testing or a function of an imported module. This feature will help you to test your Ballerina code independently from other modules and functions. Function mocking is only supported for project-based execution in v1.2.0.

The function specified with the @test:Mock {} annotation will be considered as a mock function, which gets triggered every time the original function is called. The original function that will be mocked should be defined using the annotation parameters.

Test report

The ballerina build and ballerina test commands now generate an HTML report at the end of test execution. This would contain the total test cases executed, passes, failures, and skipped tests with project-level, module-level, and individual test details. The link to the test report can be found at the end of the test execution.

Code coverage

Introduced the --code-coverage flag for ballerina build and ballerina test commands. When the flag is provided, an additional section with code coverage details will be displayed in the test report. This would contain coverage details at project-level, module-level, and of individual files.

Note: This is only supported with project-based execution in v1.2.0.

IDE Plugins & Language Server

Go to Definition support for Standard Library content

You can go to The Standard library content such as functions, action invocations, types, etc. by executing the Go to Definition action.

New code actions

  • All imports are optimized
  • Abstract functions are implemented

Dynamic configuration updates support

Now, you do not need to restart the IDE make the user configurations effective.

List of issues fixed for 1.2.0

A complete list of issues fixed for 1.2.0 can be found here.