id | title |
---|---|
templating |
Using Templates |
It's easy to work with templates for codegen!
For maybe 90% of use cases, you will only need to modify the mustache template files to create your own custom generated code. If you need to include additional files in your generated output, manipulate the OpenAPI document inputs, or implement your own vendor extensions or other logic, you'll want to read customization after you read this document. Be sure to start here first, because templating is the easier concept and you'll need it for more advanced use cases.
The generator workflow has transforming logic as well as templates for each generation of code.
Each generator will create a data structure from the OpenAPI document; OpenAPI 2.0 and OpenAPI 3.x documents are normalized into the same API model within the generator. This model is then applied to the templates. While generators do not need to perform transformations, it's often necessary in order to add more advanced support for your language or framework. You may need to refer to the generator implementation to understand some of the logic while creating or customizing templates (see ScalaFinchServerCodegen.java for an advanced example).
The transform logic needs to implement CodegenConfig.java and is most easily done by extending DefaultCodegen.java. Take a look at the various implementations as a guideline while the instructions get more complete.
OpenAPI Generator applies user-defined templates via options:
- CLI:
-t/--template
CLI options- Maven Plugin:
templateDirectory
- Gradle Plugin:
templateDir
Built-in templates are written in Mustache and processed by jmustache. Beginning with version 4.0.0, we support experimental Handlebars and user-defined template engines via plugins.
OpenAPI Generator supports user-defined templates. This approach is often the easiest when creating a custom template. Our generators implement a combination of language and framework features, and it's fully possible to use an existing generator to implement a custom template for a different framework. Suppose you have internal utilities which you'd like to incorporate into generated code (e.g. logging, monitoring, fault-handling)... this is easy to add via custom templates.
Note: You cannot use this approach to create new templates, only override existing ones. If you'd like to create a new generator to contribute back to the project, see
new.sh
in the repository root. If you'd like to create a private generator for more templating control, see the customization docs.
OpenAPI Generator not only supports local files for templating, but also templates defined on the classpath. This is a great option if you want to reuse templates across multiple projects. To load a template via classpath, you'll need to generate a little differently. For example, if you've created an artifact called template-classpath-example
which contains extended templates for the htmlDocs
generator with the following structure:
└── src
├── main
│ ├── java
│ └── resources
│ └── templates
│ └── htmlDocs
│ ├── index.mustache
│ └── style.css.mustache
You can define your classpath to contain your JAR and the openapi-generator-cli fat jar, then invoke main class org.openapitools.codegen.OpenAPIGenerator
. For instance,
java -cp /path/totemplate-classpath-example-1.0-SNAPSHOT.jar:modules/openapi-generator-cli/target/openapi-generator-cli.jar \
org.openapitools.codegen.OpenAPIGenerator generate \
-i https://raw.githubusercontent.com/OAI/OpenAPI-Specification/master/examples/v3.0/petstore.yaml \
-g html -o template-example -t templates/htmlDocs
NOTE Running your custom generator in the example above requires adding it to the classpath. This differs on Windows slightly from unix.
Take note that our template directory is relative to the resource directory of the JAR defined on the classpath.
You will need to find and retrieve the templates for your desired generator in order to redefine structures, documentation, or API logic. We cover template customization in the following sections.
In OpenAPI Generator 5.0 and later, you can use the CLI command author template
to extract embedded templates for your target generator. For example:
openapi-generator author template -g java --library webclient
For OpenAPI Generator versions prior to 5.0, you will want to find the resources directory for the generator you want to extend. This is generally easy to find as directories commonly follow the convention of resources/<generator name>
. In cases where you're unsure, you will need to find the embeddedTemplateDir
assignment in your desired generator. This is almost always assigned in the constructor of the generator class. The C# .Net Core generator assigns this as:
embeddedTemplateDir = templateDir = "csharp-netcore";
These templates are in our source repository at modules/openapi-generator/src/main/resources/csharp-netcore. Be sure to select the tag or branch for the version of OpenAPI Generator you're using before grabbing the templates.
NOTE If you have specific logic you'd like to modify such as modifying the generated README, you only need to pull and modify this individual template. OpenAPI Generator will lookup templates in this order:
- User customized library path (e.g.
custom_template/libraries/feign/model.mustache
) - User customized generator top-level path (e.g.
custom_template/model.mustache
) - Embedded library path (e.g.
resources/Java/libraries/feign/model.mustache
) - Embedded top-level path (e.g.
resources/Java/model.mustache
) - Common embedded path (e.g.
resources/_common/model.mustache
)
For this example, let's modify a Java client to use AOP via jcabi/jcabi-aspects. We'll log API method execution at the INFO
level. The jcabi-aspects project could also be used to implement method retries on failures; this would be a great exercise to further play around with templating.
The Java generator supports a library
option. This option works by defining base templates, then applying library-specific template overrides. This allows for template reuse for libraries sharing the same programming language. Templates defined as a library need only modify or extend the templates concerning the library, and generation falls back to the root templates (the "defaults") when not extended by the library. Generators which support the library
option will only support the libraries known by the generator at compile time, and will throw a runtime error if you try to provide a custom library name.
To get started, we will need to copy our target generator's directory in full.
The directory will be located under modules/openapi-generator/src/main/resources/{generator}
. In general, the generator directory matches the generator name (what you would pass to the generator
option), but this is not a requirement-- if you are having a hard time finding the template directory, look at the embeddedTemplateDir
option in your target generator's implementation.
If you've already cloned openapi-generator, find and copy the modules/openapi-generator/src/main/resources/Java
directory. If you have the Refined GitHub Chrome or Firefox Extension, you can navigate to this directory on GitHub and click the "Download" button. Or, to pull the directory from latest master:
mkdir -p ~/.openapi-generator/templates/ && cd $_
curl -L https://api.github.com/repos/OpenAPITools/openapi-generator/tarball | tar xz
mv `ls`/modules/openapi-generator/src/main/resources/Java ./Java
\rm -rf OpenAPITools-openapi-generator-*
cd Java
Optional: Before modifying your templates, you may want to git init && git add . && git commit -am 'initial'
so you can easily revert to the base templates.
At this point, you have every Java library's template locally. Let's delete all libraries except the resteasy
library we'll be extending:
ls -d libraries/* | grep -v resteasy | xargs rm -rf
Execute tree
in this Java directory and inspect the mustache files and directory structure. You'll notice there are quite a few templates in the directory root, but extending this root to support resteasy only requires modifying a handful of files:
tree libraries/resteasy/
libraries/resteasy/
├── ApiClient.mustache
├── JSON.mustache
├── api.mustache
├── build.gradle.mustache
├── build.sbt.mustache
└── pom.mustache
0 directories, 6 files
NOTE: Some generators may be sensitive to which files exist. If you're concerned with redundant files like
pom.mustache
andbuild.sbt.mustache
, you can try deleting them. If the generator you're customizing fails at runtime, justtouch
these files to create an empty file.
First, let's add our new dependency to libraries/resteasy/build.gradle.mustache
:
diff --git a/libraries/resteasy/build.gradle.mustache b/libraries/resteasy/build.gradle.mustache
index 3b40702..a6d12e0 100644
--- a/libraries/resteasy/build.gradle.mustache
+++ b/libraries/resteasy/build.gradle.mustache
@@ -134,6 +134,7 @@ ext {
}
dependencies {
+ compile "com.jcabi:jcabi-aspects:0.22.6"
compile "io.swagger:swagger-annotations:$swagger_annotations_version"
compile "org.jboss.resteasy:resteasy-client:$resteasy_version"
compile "org.jboss.resteasy:resteasy-multipart-provider:$resteasy_version"
Then, we'll add the necessary import to api.mustache
. This file is the template which becomes the API invoking class (e.g. PetApi
or StoreApi
).
diff --git a/libraries/resteasy/api.mustache b/libraries/resteasy/api.mustache
index a4d0f9f..49b17c7 100644
--- a/libraries/resteasy/api.mustache
+++ b/libraries/resteasy/api.mustache
@@ -1,5 +1,6 @@
package {{package}};
+import com.jcabi.aspects.Loggable;
import {{invokerPackage}}.ApiException;
import {{invokerPackage}}.ApiClient;
import {{invokerPackage}}.Configuration;
Next, we'll find the code which generates API methods. You'll see {{#operations}}{{#operation}}
which is a mustache "loop" which executes the template logic if the model applied to the template has an operations
array, and a non-null operation
instance in that array. You can pass --global-property debugOpenAPI=true
when generating via CLI to inspect the full object model.
Further down in api.mustache
, find implementation of the method call, and add the @Loggable
annotation. This template is easy because it has a single method implementation.
diff --git a/libraries/resteasy/api.mustache b/libraries/resteasy/api.mustache
index 49b17c7..16ee191 100644
--- a/libraries/resteasy/api.mustache
+++ b/libraries/resteasy/api.mustache
@@ -57,6 +57,7 @@ public class {{classname}} {
{{#isDeprecated}}
@Deprecated
{{/isDeprecated}}
+ @Loggable(Loggable.INFO)
public {{#returnType}}{{{returnType}}} {{/returnType}}{{^returnType}}void {{/returnType}}{{operationId}}({{#allParams}}{{{dataType}}} {{paramName}}{{^-last}}, {{/-last}}{{/allParams}}) throws ApiException {
Object {{localVariablePrefix}}localVarPostBody = {{#bodyParam}}{{paramName}}{{/bodyParam}}{{^bodyParam}}new Object(){{/bodyParam}};
{{#allParams}}{{#required}}
Finally, because our new dependency relies on AspectJ and code weaving, let's modify the build.gradle.mustache
again to set this up.
diff --git a/build.gradle.mustache b/build.gradle.mustache
index 04a9d55..7a93c50 100644
--- a/build.gradle.mustache
+++ b/build.gradle.mustache
@@ -1,5 +1,6 @@
apply plugin: 'idea'
apply plugin: 'eclipse'
+apply plugin: 'aspectj'
group = '{{groupId}}'
version = '{{artifactVersion}}'
@@ -12,6 +13,7 @@ buildscript {
dependencies {
classpath 'com.android.tools.build:gradle:2.3.+'
classpath 'com.github.dcendents:android-maven-gradle-plugin:1.5'
+ classpath "net.uberfoo.gradle:gradle-aspectj:2.2"
}
}
@@ -140,9 +142,18 @@ ext {
jersey_version = "1.19.4"
jodatime_version = "2.9.9"
junit_version = "4.13"
+ aspectjVersion = '1.9.0'
}
+sourceCompatibility = '1.8'
+targetCompatibility = '1.8'
+
dependencies {
+ compile "com.jcabi:jcabi-aspects:0.22.6"
+ aspectpath "com.jcabi:jcabi-aspects:0.22.6"
+ // usually, client code leaves logging implementation to the consumer code
+ compile "org.apache.logging.log4j:log4j-slf4j-impl:2.8.2"
+ compile "org.apache.logging.log4j:log4j-core:2.8.2"
compile "io.swagger:swagger-annotations:$swagger_annotations_version"
compile "com.sun.jersey:jersey-client:$jersey_version"
compile "com.sun.jersey.contribs:jersey-multipart:$jersey_version"
NOTE: This example includes log4j-slf4j-impl to demonstrate that our new code is working. Generally you'll want to leave logging implementations up to your consumers.
And because the java client generates with an outdated Gradle 2.6, let's update the gradle version in the default template (Java/gradle-wrapper.properties.mustache
):
diff --git a/gradle-wrapper.properties.mustache b/gradle-wrapper.properties.mustache
index b7a3647..3d9d088 100644
--- a/gradle-wrapper.properties.mustache
+++ b/gradle-wrapper.properties.mustache
@@ -3,4 +3,4 @@ distributionBase=GRADLE_USER_HOME
distributionPath=wrapper/dists
zipStoreBase=GRADLE_USER_HOME
zipStorePath=wrapper/dists
-distributionUrl=https\://services.gradle.org/distributions/gradle-2.6-bin.zip
+distributionUrl=https\://services.gradle.org/distributions/gradle-4.8-bin.zip
Now we're ready to generate the client with our simple changes. When we pass the template directory option to our toolset, we must pass the generator's root directory and not the library-only directory.
openapi-generator generate -g java --library resteasy \
-t ~/.openapi-generator/templates/Java \
-o ~/.openapi-generator/example \
-i https://raw.githubusercontent.com/openapitools/openapi-generator/master/modules/openapi-generator/src/test/resources/3_0/petstore.yaml
Make sure your custom template compiles:
cd ~/.openapi-generator/example
gradle assemble
# or, regenerate the wrapper
gradle wrapper --gradle-version 4.8 --distribution-type all
./gradlew assemble
You should see a log message showing our added dependency being downloaded:
…
Download https://jcenter.bintray.com/com/jcabi/jcabi-aspects/0.22.6/jcabi-aspects-0.22.6.pom
…
And for the sake of verifying our AOP modifications work, let's create a src/main/resources/log4j2.properties
file in our new client code:
status = error
dest = err
name = PropertiesConfig
property.filename = target/rolling/rollingtest.log
filter.threshold.type = ThresholdFilter
filter.threshold.level = debug
appender.console.type = Console
appender.console.name = STDOUT
appender.console.layout.type = PatternLayout
appender.console.layout.pattern = %m%n
appender.console.filter.threshold.type = ThresholdFilter
appender.console.filter.threshold.level = error
appender.rolling.type = RollingFile
appender.rolling.name = RollingFile
appender.rolling.fileName = ${filename}
appender.rolling.filePattern = target/rolling2/test1-%d{MM-dd-yy-HH-mm-ss}-%i.log.gz
appender.rolling.layout.type = PatternLayout
appender.rolling.layout.pattern = %d %p %C{1.} [%t] %m%n
appender.rolling.policies.type = Policies
appender.rolling.policies.time.type = TimeBasedTriggeringPolicy
appender.rolling.policies.time.interval = 2
appender.rolling.policies.time.modulate = true
appender.rolling.policies.size.type = SizeBasedTriggeringPolicy
appender.rolling.policies.size.size=100MB
appender.rolling.strategy.type = DefaultRolloverStrategy
appender.rolling.strategy.max = 5
logger.rolling.name = org.openapitools.client.api.PetApi
logger.rolling.level = debug
logger.rolling.additivity = false
logger.rolling.appenderRef.rolling.ref = RollingFile
rootLogger.level = info
rootLogger.appenderRef.stdout.ref = STDOUT
Execute ./gradlew build
and then cat target/rolling/rollingtest.log
. You should see messages logged for every call in PetApi with a stubbed unit test.
Congratulations! You've now modified one of the built-in templates to meet your client code's needs.
Adding/modifying template logic simply requires a little bit of mustache, for which you can use existing templates as a guide.
Custom template engine support is experimental
If Mustache or the experimental Handlebars engines don't suit your needs, you can define an adapter to your templating engine of choice. To do this, you'll need to define a new project which consumes the openapi-generator-core
artifact, and at a minimum implement TemplatingEngineAdapter
.
This example:
- creates an adapter providing the fundamental logic to compile Pebble Templates
- will be implemented in Kotlin to demonstrate ServiceLoader configuration specific to Kotlin (Java will be similar)
- requires Gradle 5.0+
- provides project setup instructions for IntelliJ
To begin, create a new Gradle project with Kotlin support. To do this, go to File
➞ New
➞ Project
, choose "Gradle" and "Kotlin". Specify groupId org.openapitools.examples
and artifactId pebble-template-adapter
.
Ensure the new project uses Gradle 5.0. Navigate to the newly created directory and execute:
gradle wrapper --gradle-version 5.0
In build.gradle
, we'll add a dependency for OpenAPI Tools core which defines the interface and an abstract helper type for implementing the adapter. We'll also pull in the Pebble artifact. We'll be evaluating this new artifact locally, so we'll also add the Maven plugin for installing to the local maven repository. We'll also create a fatjar using the shadow
plugin to simplify our classpath.
Modifications to the new project's build.gradle
should be made in the plugins
and dependencies
nodes:
plugins {
id 'org.jetbrains.kotlin.jvm' version '1.3.11'
id "com.github.johnrengelman.shadow" version "5.0.0"
}
dependencies {
compile "org.jetbrains.kotlin:kotlin-stdlib-jdk8"
compile "org.openapitools:openapi-generator-core:4.0.0-SNAPSHOT"
compile "io.pebbletemplates:pebble:3.0.8"
}
The above configuration for the shadow
plugin is strictly optional. It is not needed, for instance, if you plan to publish your adapter and consume it via the Maven or Gradle plugins.
Next, create a new class file called PebbleTemplateEngineAdapter
under src/kotlin
. We'll define the template adapter's name as pebble
and we'll also list this as the only supported file extension. We'll implement the adapter by extending AbstractTemplatingEngineAdapter
, which includes reusable logic, such as retrieving a list of all possible template names for our provided template extensions(s).
The class in its simplest form looks like this (with inline comments):
// Allows specifying engine by class name
// e.g. -e org.openapitools.examples.templating.PebbleTemplateAdapter
@file:JvmName("PebbleTemplateAdapter")
package org.openapitools.examples.templating
// imports
class PebbleTemplateAdapter : AbstractTemplatingEngineAdapter() {
// initialize the template compilation engine
private val engine: PebbleEngine = PebbleEngine.Builder()
.cacheActive(false)
.loader(DelegatingLoader(listOf(FileLoader(), ClasspathLoader())))
.build()
// allows targeting engine by id/name: -e pebble
override fun getIdentifier(): String = "pebble"
override fun compileTemplate(
generator: TemplatingGenerator?,
bundle: MutableMap<String, Any>?,
templateFile: String?
): String {
// This will convert, for example, model.mustache to model.pebble
val modifiedTemplate = this.getModifiedFileLocation(templateFile).first()
// Uses generator built-in template resolution strategy to find the full template file
val filePath = generator?.getFullTemplatePath(modifiedTemplate)
val writer = StringWriter()
// Conditionally writes out the template if found.
if (filePath != null) {
engine.getTemplate(filePath.toAbsolutePath().toString())?.evaluate(writer, bundle)
}
return writer.toString()
}
override fun getFileExtensions(): Array<String> = arrayOf("pebble")
}
Lastly, create a file resources/META-INF/services/org.openapitools.codegen.api.TemplatingEngineAdapter
, containing the full class path to the above class:
org.openapitools.examples.templating.PebbleTemplateAdapter
This allows the adapter to load via ServiceLoader, and to be referenced via the identifier pebble
. This is optional; if you don't provide the above file and contents, you'll only be able to load the engine via full class name (explained in a bit).
Now, build the fatjar for this new adapter:
./gradlew shadowJar
To test compilation of some templates, we'll need to first create one or more template files. Create a temp directory at /tmp/pebble-example/templates
and add the following files.
api.pebble
package {{packageName}}
import (
"net/http"
{% for item in imports %}
"{{item.import}}"
{% endfor %}
)
type Generated{{classname}}Servicer
// etc
model.pebble
package {{packageName}}
{% for item in models %}
{% if item.isEnum %}
// TODO: enum
{% else %}
{% if item.description is not empty %}// {{item.description}}{% endif %}
type {{item.classname}} struct {
{% for var in item.model.vars %}
{% if var.description is not empty %}// {{var.description}}{% endif %}
{{var.name}} {% if var.isNullable %}*{% endif %}{{var.dataType}} `json:"{{var.baseName}}{% if var.required == false %},omitempty{% endif %}"{% if var.withXml == true %} xml:"{{var.baseName}}{% if var.isXmlAttribute %},attr{% endif %}"{% endif %}`
{% endfor %}
}
{% endif %}
{{model.name}}
{% endfor %}
Find object structures passed to templates later in this document's Structures section.
Finally, we can compile some code by explicitly defining our classpath and jar entrypoint for CLI (be sure to modify /your/path
below)
java $JAVA_OPTS -cp /your/path/build/libs/pebble-template-adapter-1.0-SNAPSHOT-all.jar:modules/openapi-generator-cli/target/openapi-generator-cli.jar \
org.openapitools.codegen.OpenAPIGenerator \
generate \
-g go \
-i https://raw.githubusercontent.com/OAI/OpenAPI-Specification/master/examples/v2.0/json/petstore-minimal.json \
-e pebble \
-o /tmp/pebble-example/out \
-t /tmp/pebble-example/templates \
--global-property models,modelDocs,modelTests,apis,apiTests,apiDocs
NOTE Running your custom generator requires adding it to the classpath. This differs on Windows slightly from unix.
In the above example, we've targeted our custom template engine adapter via -e pebble
. If you don't include the SPI file under META-INF/services
, you'll need to specify the exact classpath: org.openapitools.examples.templating.PebbleTemplateAdapter
. Notice that the target class here matches the Kotlin class name. This is because of the @file:JvmName
annotation.
Congratulations on creating a custom templating engine adapter!
Aside from transforming an API document, the implementing class gets to decide how to apply the data structure to templates. We can decide which data structure to apply to which template files. You have the following structures at your disposal.
Examples for the following structures will be presented using the following spec document:
swagger: "2.0"
info:
version: "1.0.0"
title: "Swagger Petstore"
description: "A sample API that uses a petstore as an example to demonstrate features in the swagger-2.0 specification"
termsOfService: "http://swagger.io/terms/"
contact:
name: "Swagger API Team"
license:
name: "MIT"
host: "petstore.swagger.io"
basePath: "/api"
schemes:
- "http"
consumes:
- "application/json"
produces:
- "application/json"
paths:
/pets:
get:
description: "Returns all pets from the system that the user has access to"
produces:
- "application/json"
responses:
"200":
description: "A list of pets."
schema:
type: "array"
items:
$ref: "#/definitions/Pet"
definitions:
Pet:
type: "object"
required:
- "id"
- "name"
properties:
id:
type: "integer"
format: "int64"
name:
type: "string"
tag:
type: "string"
Inspect operation structures passed to templates with system property
--global-property debugOpenAPI=true
Example:
openapi-generator generate -g go \ -o out \ -i petstore-minimal.yaml \ --global-property debugOpenAPI=true
There is a data structure which represents all the operations that are defined in the OpenAPI specification. A single API file is created for each OperationGroup
, which is essentially a grouping of different operations. See the addOperationToGroup
in DefaultCodegen.java
for details on this operation.
You can have many files created for each OperationGroup
by processing multiple templates and assigning a different file naming pattern to them. So for a single file per operation:
// process the `api.mustache` template and output a single file with suffix `.java`:
apiTemplateFiles.put("api.mustache", ".java");
For C-like languages which also require header files, you may create two files per operation.
// create a header and implementation for each operation group:
apiTemplateFiles.put("api-header.mustache", ".h");
apiTemplateFiles.put("api-body.mustache", ".m");
Here, an Operation with tag Pet
will generate two files: SWGPetApi.h
and SWGPetApi.m
. The SWG
prefix and Api
suffix are options specific to the Objective-C geneator.
Inspect models passed to templates with system property
--global-property debugModels=true
Execute:
openapi-generator generate -g go \ -o out \ -i petstore-minimal.yaml \ --global-property debugModels=true
Each model identified inside the generator will be passed into the Models
data structure and will generate a new model file (or files) for each model.
A Pet
model with three properties will provide a lot of information about the type and properties. The output from --global-property debugModels=true
is presented in truncated format here.
[ {
"importPath" : "openapi.Pet",
"model" : {
"name" : "Pet",
"classname" : "Pet",
"classVarName" : "Pet",
"modelJson" : "{\n \"required\" : [ \"id\", \"name\" ],\n \"type\" : \"object\",\n \"properties\" : {\n \"id\" : {\n \"type\" : \"integer\",\n \"format\" : \"int64\"\n },\n \"name\" : {\n \"type\" : \"string\"\n },\n \"tag\" : {\n \"type\" : \"string\"\n }\n }\n}",
"dataType" : "map[string]interface{}",
"classFilename" : "model_pet",
"isAlias" : false,
"isString" : false,
"isInteger" : false,
"vars" : [ {
"baseName" : "id",
"getter" : "getId",
"setter" : "setId",
"dataType" : "int64",
"datatypeWithEnum" : "int64",
"dataFormat" : "int64",
"name" : "Id",
"defaultValueWithParam" : " = data.id;",
"baseType" : "int64",
"example" : "null",
"jsonSchema" : "{\n \"type\" : \"integer\",\n \"format\" : \"int64\"\n}",
"exclusiveMinimum" : false,
"exclusiveMaximum" : false,
"required" : true,
"hasMoreNonReadOnly" : true,
"isPrimitiveType" : true,
"isModel" : false,
"isContainer" : false,
"isNotContainer" : true,
"isString" : false,
"isNumeric" : true,
"isInteger" : false,
"isLong" : true,
"isNumber" : false,
"isFloat" : false,
"isDouble" : false,
"isByteArray" : false,
"isBinary" : false,
"isFile" : false,
"isBoolean" : false,
"isDate" : false,
"isDateTime" : false,
"isUuid" : false,
"isEmail" : false,
"isFreeFormObject" : false,
"isArray" : false,
"isMap" : false,
"isEnum" : false,
"isReadOnly" : false,
"isWriteOnly" : false,
"isNullable" : false,
"vendorExtensions" : { },
"hasValidation" : false,
"isInherited" : false,
"nameInCamelCase" : "Id",
"nameInSnakeCase" : "ID",
"isXmlAttribute" : false,
"isXmlWrapped" : false,
"datatype" : "int64",
"iexclusiveMaximum" : false
}, {
"baseName" : "name",
"getter" : "getName",
"setter" : "setName",
"dataType" : "string",
"datatypeWithEnum" : "string",
"name" : "Name",
"defaultValueWithParam" : " = data.name;",
"baseType" : "string",
"example" : "null",
"jsonSchema" : "{\n \"type\" : \"string\"\n}",
"exclusiveMinimum" : false,
"exclusiveMaximum" : false,
"required" : true,
"hasMoreNonReadOnly" : true,
"isPrimitiveType" : true,
"isModel" : false,
"isContainer" : false,
"isNotContainer" : true,
"isString" : true,
"isNumeric" : false,
"isInteger" : false,
"isLong" : false,
"isNumber" : false,
"isFloat" : false,
"isDouble" : false,
"isByteArray" : false,
"isBinary" : false,
"isFile" : false,
"isBoolean" : false,
"isDate" : false,
"isDateTime" : false,
"isUuid" : false,
"isEmail" : false,
"isFreeFormObject" : false,
"isArray" : false,
"isMap" : false,
"isEnum" : false,
"isReadOnly" : false,
"isWriteOnly" : false,
"isNullable" : false,
"vendorExtensions" : { },
"hasValidation" : false,
"isInherited" : false,
"nameInCamelCase" : "Name",
"nameInSnakeCase" : "NAME",
"isXmlAttribute" : false,
"isXmlWrapped" : false,
"datatype" : "string",
"iexclusiveMaximum" : false
}, {
"baseName" : "tag",
"getter" : "getTag",
"setter" : "setTag",
"dataType" : "string",
"datatypeWithEnum" : "string",
"name" : "Tag",
"defaultValueWithParam" : " = data.tag;",
"baseType" : "string",
"example" : "null",
"jsonSchema" : "{\n \"type\" : \"string\"\n}",
"exclusiveMinimum" : false,
"exclusiveMaximum" : false,
"required" : false,
"hasMoreNonReadOnly" : false,
"isPrimitiveType" : true,
"isModel" : false,
"isContainer" : false,
"isNotContainer" : true,
"isString" : true,
"isNumeric" : false,
"isInteger" : false,
"isLong" : false,
"isNumber" : false,
"isFloat" : false,
"isDouble" : false,
"isByteArray" : false,
"isBinary" : false,
"isFile" : false,
"isBoolean" : false,
"isDate" : false,
"isDateTime" : false,
"isUuid" : false,
"isEmail" : false,
"isFreeFormObject" : false,
"isArray" : false,
"isMap" : false,
"isEnum" : false,
"isReadOnly" : false,
"isWriteOnly" : false,
"isNullable" : false,
"vendorExtensions" : { },
"hasValidation" : false,
"isInherited" : false,
"nameInCamelCase" : "Tag",
"nameInSnakeCase" : "TAG",
"isXmlAttribute" : false,
"isXmlWrapped" : false,
"datatype" : "string",
"iexclusiveMaximum" : false
} ],
"requiredVars" : [ /* id, name */ ],
"optionalVars" : [ /* tag */ ],
"readOnlyVars" : [ ],
"readWriteVars" : [ /* lists metadata for all three properties */ ],
"allVars" : [ /* lists all properties */],
"parentVars" : [ ],
"mandatory" : [ "id", "name" ],
"allMandatory" : [ "id", "name" ],
"imports" : [ ],
"hasVars" : true,
"emptyVars" : false,
"hasMoreModels" : false,
"hasEnums" : false,
"isEnum" : false,
"hasRequired" : true,
"hasOptional" : true,
"isArray" : false,
"hasChildren" : false,
"isMap" : false,
"hasOnlyReadOnly" : false,
"vendorExtensions" : { }
}
} ]
Templates are passed redundant properties, depending on the semantics of the array. For example:
vars
lists all defined model propertiesrequiredVars
lists all model properties marked withrequired
in the spec documentoptionalVars
lists all model properties not marked withrequired
in the spec documentreadWriteVars
lists all model properties not marked withreadonly
in the spec documentreadOnlyVars
lists all model properties marked withreadonly
in the spec documentallVars
lists all model properties. This may include the same set asvars
, but may also include generator-defined properties
We expose the same properties in multiple sets because this allows us to conditionally iterate over properties based on some condition ("is it required" or "is it readonly"). This is driven by the use of the logic-less Mustache templates. It is possible that models passed to the templating engine may be cleaned up as we support more template engines, but such an effort will go through a deprecation phase and would be communicated at runtime through log messages.
Inspect supportingFiles passed to templates with system property
--global-property debugSupportingFiles=true
Execute:
openapi-generator generate -g go \ -o out \ -i petstore-minimal.yaml \ --global-property debugSupportingFiles=true
This is a "catch-all" which gives you the entire structure--operations, model, etc--so you can create "single-file" code from them.
Supporting files can either be processed through the templating engine or copied as-is. When creating your own templates, you're limited to the files and extensions expected by the generator implementation. For more control over the supporting files produced by a generator, see our customization documentation.
This is a very limited list of variable name explanations. Feel free to open a pull request to add to this documentation!
- complexType: stores the name of the model (e.g. Pet)
- isContainer: true if the parameter or property is an array or a map.
- isPrimitiveType: true if the parameter or property type is a primitive type (e.g. string, integer, etc) as defined in the spec.
Many generators (those extending DefaultCodegen) come with a small set of lambda functions available under the key lambda
:
lowercase
- Converts all of the characters in this fragment to lower case using the rules of theROOT
locale.uppercase
- Converts all of the characters in this fragment to upper case using the rules of theROOT
locale.titlecase
- Converts text in a fragment to title case. For exampleonce upon a time
toOnce Upon A Time
.camelcase
- Converts text in a fragment to camelCase. For exampleInput-text
toinputText
.indented
- Prepends 4 spaces indention from second line of a fragment on. First line will be indented by Mustache.indented_8
- Prepends 8 spaces indention from second line of a fragment on. First line will be indented by Mustache.indented_12
- Prepends 12 spaces indention from second line of a fragment on. First line will be indented by Mustache.indented_16
-Prepends 16 spaces indention from second line of a fragment on. First line will be indented by Mustache.
Lambda is invoked by lambda.[lambda name]
expression. For example: {{#lambda.lowercase}}FRAGMENT TO LOWERCASE{{/lambda.lowercase}}
to lower case text between lambda.lowercase
.
OpenAPI supports a concept called "Extensions". These are called "Specification Extensions" in 3.x and "Vendor Extensions" in 2.0. You'll see them referred to as "Vendor Extensions" in most places in this project.
Vendor extensions allow you to provide vendor-specific configurations to your specification document.
For example, suppose you use your specification document for code generation with a (hypothetical) C# OpenAPI generator supporting a desired operationId prefix where the extension is x-csharp-operationid
, you can define this property alongside the object you'd like to extend (which would be a Path Object in this case). You could then apply additional extensions alongside this property, whether they're for another language or other tooling.
Well-defined vendor extensions don't cause conflicts with other tooling.
The following are vendor extensions supported by OpenAPI Generator. The list may not be up-to-date, the best way is to look for "x-" in the built-in mustache templates.
x-enum-varnames
can be used to have an other enum name for the corresponding value.
This is used to define names of the enum items.
x-enum-descriptions
can be used to provide an individual description for each value.
This is used for comments in the code (like javadoc if the target language is java).
x-enum-descriptions
and x-enum-varnames
are each expected to be list of items containing the same number of items as enum
.
The order of the items in the list matters: their position is used to group them together.
Example:
WeatherType:
type: integer
format: int32
enum:
- 42
- 18
- 56
x-enum-descriptions:
- 'Blue sky'
- 'Slightly overcast'
- 'Take an umbrella with you'
x-enum-varnames:
- Sunny
- Cloudy
- Rainy
In the example for the integer value 42
, the description will be Blue sky
and the name of the enum item will be Sunny
(some generators changes it to SUNNY
to respect some coding convention).
To customize the method name, you can provide a different name in x-objc-operationId, e.g.
summary: Add a new pet to the store
description: ''
operationId: addPet
x-objc-operationId: CreateNewPet
A single Accepts
value as the Feign API client needs a single value for Accepts
header, e.g.
consumes:
- application/json
- application/xml
x-accepts: application/json
A single "Content-Type" value as the Feign API client needs a single value for Content-Type
header, e.g.
produces:
- application/xml
- application/json
x-content-type: application/json
Each response may specify a unique x-responseId
. rust-server
will use this to name the corresponding enum variant in the code. e.g.
paths:
/ping:
get:
responses:
200:
description: OK
x-responseId: Pong
MySQL schema generator creates vendor extensions based on openapi dataType
and dataFormat
. When user defined extensions with same key already exists codegen accepts those as is. It means it won't validate properties or correct it for you. Every model in definitions
can contain table related and column related extensions like in example below:
definitions:
Order:
description: This should be most common InnoDB table
type: object
properties:
id:
description: >-
This column should be unsigned BIGINT with AUTO_INCREMENT
type: integer
format: int64
x-mysqlSchema:
columnDefinition:
colName: id
colDataType: DECIMAL
colDataTypeArguments:
- argumentValue: 16
isString: false
- argumentValue: 4
isString: false
colUnsigned: true
colNotNull: true
colDefault:
defaultValue: AUTO_INCREMENT
isString: false
isNumeric: false
isKeyword: true
colComment: >-
Column comment. This column should be unsigned BIGINT with AUTO_INCREMENT
x-mysqlSchema:
tableDefinition:
tblName: orders
tblStorageEngine: InnoDB
tblComment: >-
Table comment. This should be most common InnoDB table
There are properties that are not implemented by now(
tblStorageEngine
), but you can see how generator can be enhanced in future.
Here are a few tips we've found useful for new template authors. For more details on Mustache see mustache.5. See also samskivert/jmustache for implementation-specific details.
To access the first or last element in a list using Mustache:
{{#vars}}{{#-first}} this is the first element {{.}} {{/-first}}{{/vars}}
{{#vars}}{{#-last}} this is the last element {{.}} {{/-last}}{{/vars}}
Mustache evaluates template variables contextually. If the variable isn't found in the immediate object, mustache will search the parent. This is similar to JavaScript's prototype object (if you're familiar with the concept).
You can inspect this entire context by outputting {{this}}
. For example:
{{#operations}}{{this}}{{/operations}}
If you'd like a 1-based index in your array traversal, you can use {{-index}}
:
{{#enums}}{{-index}} {{enum}}{{/enums}}