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fix #3477, add RxSwift support for Swift (#3490)

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* fix #3477, add RxSwift support for Swift

* make the SwaggerClient scheme shared
This commit is contained in:
Tony Wang 2016-08-25 19:34:12 +08:00 committed by wing328
parent 8c2267cd3d
commit beaf1fc7aa
240 changed files with 26914 additions and 4 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

4
bin/swift-petstore-all.sh
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@ -34,3 +34,7 @@ java $JAVA_OPTS -jar $executable $ags
ags="$@ generate -t modules/swagger-codegen/src/main/resources/swift -i modules/swagger-codegen/src/test/resources/2_0/petstore.json -l swift -c ./bin/swift-petstore-promisekit.json -o samples/client/petstore/swift/promisekit"
echo "#### Petstore Swift API client (promisekit) ####"
java $JAVA_OPTS -jar $executable $ags
ags="$@ generate -t modules/swagger-codegen/src/main/resources/swift -i modules/swagger-codegen/src/test/resources/2_0/petstore.json -l swift -c ./bin/swift-petstore-rxswift.json -o samples/client/petstore/swift/rxswift"
echo "#### Petstore Swift API client (rxswift) ####"
java $JAVA_OPTS -jar $executable $ags

7
bin/swift-petstore-rxswift.json Normal file
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@ -0,0 +1,7 @@
{
"podSummary": "PetstoreClient",
"podHomepage": "https://github.com/swagger-api/swagger-codegen",
"podAuthors": "",
"projectName": "PetstoreClient",
"responseAs": "RxSwift"
}

31
bin/swift-petstore-rxswift.sh Executable file
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@ -0,0 +1,31 @@
#!/bin/sh
SCRIPT="$0"
while [ -h "$SCRIPT" ] ; do
ls=`ls -ld "$SCRIPT"`
link=`expr "$ls" : '.*-> \(.*\)$'`
if expr "$link" : '/.*' > /dev/null; then
SCRIPT="$link"
else
SCRIPT=`dirname "$SCRIPT"`/"$link"
fi
done
if [ ! -d "${APP_DIR}" ]; then
APP_DIR=`dirname "$SCRIPT"`/..
APP_DIR=`cd "${APP_DIR}"; pwd`
fi
executable="./modules/swagger-codegen-cli/target/swagger-codegen-cli.jar"
if [ ! -f "$executable" ]
then
mvn clean package
fi
# if you've executed sbt assembly previously it will use that instead.
export JAVA_OPTS="${JAVA_OPTS} -XX:MaxPermSize=256M -Xmx1024M -DloggerPath=conf/log4j.properties"
ags="$@ generate -t modules/swagger-codegen/src/main/resources/swift -i modules/swagger-codegen/src/test/resources/2_0/petstore.json -l swift -c ./bin/swift-petstore-rxswift.json -o samples/client/petstore/swift/rxswift"
java $JAVA_OPTS -jar $executable $ags

6
modules/swagger-codegen/src/main/java/io/swagger/codegen/languages/SwiftCodegen.java
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@ -40,7 +40,8 @@ public class SwiftCodegen extends DefaultCodegen implements CodegenConfig {
public static final String SWIFT_USE_API_NAMESPACE = "swiftUseApiNamespace";
public static final String DEFAULT_POD_AUTHORS = "Swagger Codegen";
protected static final String LIBRARY_PROMISE_KIT = "PromiseKit";
protected static final String[] RESPONSE_LIBRARIES = { LIBRARY_PROMISE_KIT };
protected static final String LIBRARY_RX_SWIFT = "RxSwift";
protected static final String[] RESPONSE_LIBRARIES = { LIBRARY_PROMISE_KIT, LIBRARY_RX_SWIFT };
protected String projectName = "SwaggerClient";
protected boolean unwrapRequired;
protected boolean swiftUseApiNamespace;
@ -186,6 +187,9 @@ public class SwiftCodegen extends DefaultCodegen implements CodegenConfig {
if (ArrayUtils.contains(responseAs, LIBRARY_PROMISE_KIT)) {
additionalProperties.put("usePromiseKit", true);
}
if (ArrayUtils.contains(responseAs, LIBRARY_RX_SWIFT)) {
additionalProperties.put("useRxSwift", true);
}
// Setup swiftUseApiNamespace option, which makes all the API classes inner-class of {{projectName}}API
if (additionalProperties.containsKey(SWIFT_USE_API_NAMESPACE)) {

3
modules/swagger-codegen/src/main/resources/swift/Cartfile.mustache
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@ -1,2 +1,3 @@
github "Alamofire/Alamofire" >= 3.1.0{{#usePromiseKit}}
github "mxcl/PromiseKit" >=1.5.3{{/usePromiseKit}}
github "mxcl/PromiseKit" >=1.5.3{{/usePromiseKit}}{{#useRxSwift}}
github "ReactiveX/RxSwift" ~> 2.0{{/useRxSwift}}

3
modules/swagger-codegen/src/main/resources/swift/Podspec.mustache
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@ -15,6 +15,7 @@ Pod::Spec.new do |s|
s.screenshots = {{& podScreenshots}}{{/podScreenshots}}{{#podDocumentationURL}}
s.documentation_url = '{{podDocumentationURL}}'{{/podDocumentationURL}}
s.source_files = '{{projectName}}/Classes/Swaggers/**/*.swift'{{#usePromiseKit}}
s.dependency 'PromiseKit', '~> 3.1.1'{{/usePromiseKit}}
s.dependency 'PromiseKit', '~> 3.1.1'{{/usePromiseKit}}{{#useRxSwift}}
s.dependency 'RxSwift', '~> 2.0'{{/useRxSwift}}
s.dependency 'Alamofire', '~> 3.4.1'
end

25
modules/swagger-codegen/src/main/resources/swift/api.mustache
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@ -6,7 +6,8 @@
//
import Alamofire{{#usePromiseKit}}
import PromiseKit{{/usePromiseKit}}
import PromiseKit{{/usePromiseKit}}{{#useRxSwift}}
import RxSwift{{/useRxSwift}}
{{#swiftUseApiNamespace}}
extension {{projectName}}API {
@ -62,6 +63,28 @@ public class {{classname}}: APIBase {
return deferred.promise
}
{{/usePromiseKit}}
{{#useRxSwift}}
/**
{{#summary}}
{{{summary}}}
{{/summary}}{{#allParams}}
- parameter {{paramName}}: ({{#isFormParam}}form{{/isFormParam}}{{#isQueryParam}}query{{/isQueryParam}}{{#isPathParam}}path{{/isPathParam}}{{#isHeaderParam}}header{{/isHeaderParam}}{{#isBodyParam}}body{{/isBodyParam}}) {{description}} {{^required}}(optional{{#defaultValue}}, default to {{{.}}}{{/defaultValue}}){{/required}}{{/allParams}}
- returns: Observable<{{#returnType}}{{{returnType}}}{{/returnType}}{{^returnType}}Void{{/returnType}}>
*/
public class func {{operationId}}({{#allParams}}{{^secondaryParam}}{{paramName}} {{/secondaryParam}}{{paramName}}: {{#isEnum}}{{#isContainer}}{{{dataType}}}{{/isContainer}}{{^isContainer}}{{{datatypeWithEnum}}}_{{operationId}}{{/isContainer}}{{/isEnum}}{{^isEnum}}{{{dataType}}}{{/isEnum}}{{^required}}? = nil{{/required}}{{#hasMore}}, {{/hasMore}}{{/allParams}}) -> Observable<{{#returnType}}{{{returnType}}}{{/returnType}}{{^returnType}}Void{{/returnType}}> {
return Observable.create { observer -> Disposable in
{{operationId}}({{#allParams}}{{paramName}}: {{paramName}}{{#hasMore}}, {{/hasMore}}{{/allParams}}) { {{#returnType}}data, {{/returnType}}error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next({{#returnType}}data!{{/returnType}}))
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
{{/useRxSwift}}
/**
{{#summary}}

63
samples/client/petstore/swift/rxswift/.gitignore vendored Normal file
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@ -0,0 +1,63 @@
# Xcode
#
# gitignore contributors: remember to update Global/Xcode.gitignore, Objective-C.gitignore & Swift.gitignore
## Build generated
build/
DerivedData
## Various settings
*.pbxuser
!default.pbxuser
*.mode1v3
!default.mode1v3
*.mode2v3
!default.mode2v3
*.perspectivev3
!default.perspectivev3
xcuserdata
## Other
*.xccheckout
*.moved-aside
*.xcuserstate
*.xcscmblueprint
## Obj-C/Swift specific
*.hmap
*.ipa
## Playgrounds
timeline.xctimeline
playground.xcworkspace
# Swift Package Manager
#
# Add this line if you want to avoid checking in source code from Swift Package Manager dependencies.
# Packages/
.build/
# CocoaPods
#
# We recommend against adding the Pods directory to your .gitignore. However
# you should judge for yourself, the pros and cons are mentioned at:
# https://guides.cocoapods.org/using/using-cocoapods.html#should-i-check-the-pods-directory-into-source-control
#
# Pods/
# Carthage
#
# Add this line if you want to avoid checking in source code from Carthage dependencies.
# Carthage/Checkouts
Carthage/Build
# fastlane
#
# It is recommended to not store the screenshots in the git repo. Instead, use fastlane to re-generate the
# screenshots whenever they are needed.
# For more information about the recommended setup visit:
# https://github.com/fastlane/fastlane/blob/master/docs/Gitignore.md
fastlane/report.xml
fastlane/screenshots

23
samples/client/petstore/swift/rxswift/.swagger-codegen-ignore Normal file
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@ -0,0 +1,23 @@
# Swagger Codegen Ignore
# Generated by swagger-codegen https://github.com/swagger-api/swagger-codegen
# Use this file to prevent files from being overwritten by the generator.
# The patterns follow closely to .gitignore or .dockerignore.
# As an example, the C# client generator defines ApiClient.cs.
# You can make changes and tell Swagger Codgen to ignore just this file by uncommenting the following line:
#ApiClient.cs
# You can match any string of characters against a directory, file or extension with a single asterisk (*):
#foo/*/qux
# The above matches foo/bar/qux and foo/baz/qux, but not foo/bar/baz/qux
# You can recursively match patterns against a directory, file or extension with a double asterisk (**):
#foo/**/qux
# This matches foo/bar/qux, foo/baz/qux, and foo/bar/baz/qux
# You can also negate patterns with an exclamation (!).
# For example, you can ignore all files in a docs folder with the file extension .md:
#docs/*.md
# Then explicitly reverse the ignore rule for a single file:
#!docs/README.md

2
samples/client/petstore/swift/rxswift/Cartfile Normal file
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@ -0,0 +1,2 @@
github "Alamofire/Alamofire" >= 3.1.0
github "ReactiveX/RxSwift" ~> 2.0

201
samples/client/petstore/swift/rxswift/LICENSE Normal file
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@ -0,0 +1,201 @@
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14
samples/client/petstore/swift/rxswift/PetstoreClient.podspec Normal file
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@ -0,0 +1,14 @@
Pod::Spec.new do |s|
s.name = 'PetstoreClient'
s.ios.deployment_target = '8.0'
s.osx.deployment_target = '10.9'
s.version = '0.0.1'
s.source = { :git => 'git@github.com:swagger-api/swagger-mustache.git', :tag => 'v1.0.0' }
s.authors = ''
s.license = 'Apache License, Version 2.0'
s.homepage = 'https://github.com/swagger-api/swagger-codegen'
s.summary = 'PetstoreClient'
s.source_files = 'PetstoreClient/Classes/Swaggers/**/*.swift'
s.dependency 'RxSwift', '~> 2.0'
s.dependency 'Alamofire', '~> 3.1.5'
end

40
samples/client/petstore/swift/rxswift/PetstoreClient/Classes/Swaggers/APIHelper.swift Normal file
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@ -0,0 +1,40 @@
// APIHelper.swift
//
// Generated by swagger-codegen
// https://github.com/swagger-api/swagger-codegen
//
class APIHelper {
static func rejectNil(source: [String:AnyObject?]) -> [String:AnyObject]? {
var destination = [String:AnyObject]()
for (key, nillableValue) in source {
if let value: AnyObject = nillableValue {
destination[key] = value
}
}
if destination.isEmpty {
return nil
}
return destination
}
static func convertBoolToString(source: [String: AnyObject]?) -> [String:AnyObject]? {
guard let source = source else {
return nil
}
var destination = [String:AnyObject]()
let theTrue = NSNumber(bool: true)
let theFalse = NSNumber(bool: false)
for (key, value) in source {
switch value {
case let x where x === theTrue || x === theFalse:
destination[key] = "\(value as! Bool)"
default:
destination[key] = value
}
}
return destination
}
}

75
samples/client/petstore/swift/rxswift/PetstoreClient/Classes/Swaggers/APIs.swift Normal file
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@ -0,0 +1,75 @@
// APIs.swift
//
// Generated by swagger-codegen
// https://github.com/swagger-api/swagger-codegen
//
import Foundation
public class PetstoreClientAPI {
public static var basePath = "http://petstore.swagger.io/v2"
public static var credential: NSURLCredential?
public static var customHeaders: [String:String] = [:]
static var requestBuilderFactory: RequestBuilderFactory = AlamofireRequestBuilderFactory()
}
public class APIBase {
func toParameters(encodable: JSONEncodable?) -> [String: AnyObject]? {
let encoded: AnyObject? = encodable?.encodeToJSON()
if encoded! is [AnyObject] {
var dictionary = [String:AnyObject]()
for (index, item) in (encoded as! [AnyObject]).enumerate() {
dictionary["\(index)"] = item
}
return dictionary
} else {
return encoded as? [String:AnyObject]
}
}
}
public class RequestBuilder<T> {
var credential: NSURLCredential?
var headers: [String:String] = [:]
let parameters: [String:AnyObject]?
let isBody: Bool
let method: String
let URLString: String
/// Optional block to obtain a reference to the request's progress instance when available.
public var onProgressReady: ((NSProgress) -> ())?
required public init(method: String, URLString: String, parameters: [String:AnyObject]?, isBody: Bool) {
self.method = method
self.URLString = URLString
self.parameters = parameters
self.isBody = isBody
addHeaders(PetstoreClientAPI.customHeaders)
}
public func addHeaders(aHeaders:[String:String]) {
for (header, value) in aHeaders {
headers[header] = value
}
}
public func execute(completion: (response: Response<T>?, error: ErrorType?) -> Void) { }
public func addHeader(name name: String, value: String) -> Self {
if !value.isEmpty {
headers[name] = value
}
return self
}
public func addCredential() -> Self {
self.credential = PetstoreClientAPI.credential
return self
}
}
protocol RequestBuilderFactory {
func getBuilder<T>() -> RequestBuilder<T>.Type
}

608
samples/client/petstore/swift/rxswift/PetstoreClient/Classes/Swaggers/APIs/PetAPI.swift Normal file
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@ -0,0 +1,608 @@
//
// PetAPI.swift
//
// Generated by swagger-codegen
// https://github.com/swagger-api/swagger-codegen
//
import Alamofire
import RxSwift
public class PetAPI: APIBase {
/**
Add a new pet to the store
- parameter body: (body) Pet object that needs to be added to the store (optional)
- parameter completion: completion handler to receive the data and the error objects
*/
public class func addPet(body body: Pet? = nil, completion: ((error: ErrorType?) -> Void)) {
addPetWithRequestBuilder(body: body).execute { (response, error) -> Void in
completion(error: error);
}
}
/**
Add a new pet to the store
- parameter body: (body) Pet object that needs to be added to the store (optional)
- returns: Observable<Void>
*/
public class func addPet(body body: Pet? = nil) -> Observable<Void> {
return Observable.create { observer -> Disposable in
addPet(body: body) { error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next())
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Add a new pet to the store
- POST /pet
-
- OAuth:
- type: oauth2
- name: petstore_auth
- parameter body: (body) Pet object that needs to be added to the store (optional)
- returns: RequestBuilder<Void>
*/
public class func addPetWithRequestBuilder(body body: Pet? = nil) -> RequestBuilder<Void> {
let path = "/pet"
let URLString = PetstoreClientAPI.basePath + path
let parameters = body?.encodeToJSON() as? [String:AnyObject]
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<Void>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "POST", URLString: URLString, parameters: convertedParameters, isBody: true)
}
/**
Deletes a pet
- parameter petId: (path) Pet id to delete
- parameter completion: completion handler to receive the data and the error objects
*/
public class func deletePet(petId petId: Int64, completion: ((error: ErrorType?) -> Void)) {
deletePetWithRequestBuilder(petId: petId).execute { (response, error) -> Void in
completion(error: error);
}
}
/**
Deletes a pet
- parameter petId: (path) Pet id to delete
- returns: Observable<Void>
*/
public class func deletePet(petId petId: Int64) -> Observable<Void> {
return Observable.create { observer -> Disposable in
deletePet(petId: petId) { error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next())
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Deletes a pet
- DELETE /pet/{petId}
-
- OAuth:
- type: oauth2
- name: petstore_auth
- parameter petId: (path) Pet id to delete
- returns: RequestBuilder<Void>
*/
public class func deletePetWithRequestBuilder(petId petId: Int64) -> RequestBuilder<Void> {
var path = "/pet/{petId}"
path = path.stringByReplacingOccurrencesOfString("{petId}", withString: "\(petId)", options: .LiteralSearch, range: nil)
let URLString = PetstoreClientAPI.basePath + path
let nillableParameters: [String:AnyObject?] = [:]
let parameters = APIHelper.rejectNil(nillableParameters)
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<Void>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "DELETE", URLString: URLString, parameters: convertedParameters, isBody: true)
}
/**
Finds Pets by status
- parameter status: (query) Status values that need to be considered for filter (optional, default to available)
- parameter completion: completion handler to receive the data and the error objects
*/
public class func findPetsByStatus(status status: [String]? = nil, completion: ((data: [Pet]?, error: ErrorType?) -> Void)) {
findPetsByStatusWithRequestBuilder(status: status).execute { (response, error) -> Void in
completion(data: response?.body, error: error);
}
}
/**
Finds Pets by status
- parameter status: (query) Status values that need to be considered for filter (optional, default to available)
- returns: Observable<[Pet]>
*/
public class func findPetsByStatus(status status: [String]? = nil) -> Observable<[Pet]> {
return Observable.create { observer -> Disposable in
findPetsByStatus(status: status) { data, error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next(data!))
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Finds Pets by status
- GET /pet/findByStatus
- Multiple status values can be provided with comma seperated strings
- OAuth:
- type: oauth2
- name: petstore_auth
- examples: [{example={
"name" : "Puma",
"type" : "Dog",
"color" : "Black",
"gender" : "Female",
"breed" : "Mixed"
}, contentType=application/json}]
- parameter status: (query) Status values that need to be considered for filter (optional, default to available)
- returns: RequestBuilder<[Pet]>
*/
public class func findPetsByStatusWithRequestBuilder(status status: [String]? = nil) -> RequestBuilder<[Pet]> {
let path = "/pet/findByStatus"
let URLString = PetstoreClientAPI.basePath + path
let nillableParameters: [String:AnyObject?] = [
"status": status
]
let parameters = APIHelper.rejectNil(nillableParameters)
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<[Pet]>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "GET", URLString: URLString, parameters: convertedParameters, isBody: false)
}
/**
Finds Pets by tags
- parameter tags: (query) Tags to filter by (optional)
- parameter completion: completion handler to receive the data and the error objects
*/
public class func findPetsByTags(tags tags: [String]? = nil, completion: ((data: [Pet]?, error: ErrorType?) -> Void)) {
findPetsByTagsWithRequestBuilder(tags: tags).execute { (response, error) -> Void in
completion(data: response?.body, error: error);
}
}
/**
Finds Pets by tags
- parameter tags: (query) Tags to filter by (optional)
- returns: Observable<[Pet]>
*/
public class func findPetsByTags(tags tags: [String]? = nil) -> Observable<[Pet]> {
return Observable.create { observer -> Disposable in
findPetsByTags(tags: tags) { data, error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next(data!))
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Finds Pets by tags
- GET /pet/findByTags
- Muliple tags can be provided with comma seperated strings. Use tag1, tag2, tag3 for testing.
- OAuth:
- type: oauth2
- name: petstore_auth
- examples: [{example=[ {
"tags" : [ {
"id" : 123456789,
"name" : "aeiou"
} ],
"id" : 123456789,
"category" : {
"id" : 123456789,
"name" : "aeiou"
},
"status" : "aeiou",
"name" : "doggie",
"photoUrls" : [ "aeiou" ]
} ], contentType=application/json}, {example=<Pet>
<id>123456</id>
<name>doggie</name>
<photoUrls>
<photoUrls>string</photoUrls>
</photoUrls>
<tags>
</tags>
<status>string</status>
</Pet>, contentType=application/xml}]
- examples: [{example=[ {
"tags" : [ {
"id" : 123456789,
"name" : "aeiou"
} ],
"id" : 123456789,
"category" : {
"id" : 123456789,
"name" : "aeiou"
},
"status" : "aeiou",
"name" : "doggie",
"photoUrls" : [ "aeiou" ]
} ], contentType=application/json}, {example=<Pet>
<id>123456</id>
<name>doggie</name>
<photoUrls>
<photoUrls>string</photoUrls>
</photoUrls>
<tags>
</tags>
<status>string</status>
</Pet>, contentType=application/xml}]
- parameter tags: (query) Tags to filter by (optional)
- returns: RequestBuilder<[Pet]>
*/
public class func findPetsByTagsWithRequestBuilder(tags tags: [String]? = nil) -> RequestBuilder<[Pet]> {
let path = "/pet/findByTags"
let URLString = PetstoreClientAPI.basePath + path
let nillableParameters: [String:AnyObject?] = [
"tags": tags
]
let parameters = APIHelper.rejectNil(nillableParameters)
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<[Pet]>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "GET", URLString: URLString, parameters: convertedParameters, isBody: false)
}
/**
Find pet by ID
- parameter petId: (path) ID of pet that needs to be fetched
- parameter completion: completion handler to receive the data and the error objects
*/
public class func getPetById(petId petId: Int64, completion: ((data: Pet?, error: ErrorType?) -> Void)) {
getPetByIdWithRequestBuilder(petId: petId).execute { (response, error) -> Void in
completion(data: response?.body, error: error);
}
}
/**
Find pet by ID
- parameter petId: (path) ID of pet that needs to be fetched
- returns: Observable<Pet>
*/
public class func getPetById(petId petId: Int64) -> Observable<Pet> {
return Observable.create { observer -> Disposable in
getPetById(petId: petId) { data, error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next(data!))
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Find pet by ID
- GET /pet/{petId}
- Returns a pet when ID < 10. ID > 10 or nonintegers will simulate API error conditions
- API Key:
- type: apiKey api_key
- name: api_key
- OAuth:
- type: oauth2
- name: petstore_auth
- examples: [{example={
"tags" : [ {
"id" : 123456789,
"name" : "aeiou"
} ],
"id" : 123456789,
"category" : {
"id" : 123456789,
"name" : "aeiou"
},
"status" : "aeiou",
"name" : "doggie",
"photoUrls" : [ "aeiou" ]
}, contentType=application/json}, {example=<Pet>
<id>123456</id>
<name>doggie</name>
<photoUrls>
<photoUrls>string</photoUrls>
</photoUrls>
<tags>
</tags>
<status>string</status>
</Pet>, contentType=application/xml}]
- examples: [{example={
"tags" : [ {
"id" : 123456789,
"name" : "aeiou"
} ],
"id" : 123456789,
"category" : {
"id" : 123456789,
"name" : "aeiou"
},
"status" : "aeiou",
"name" : "doggie",
"photoUrls" : [ "aeiou" ]
}, contentType=application/json}, {example=<Pet>
<id>123456</id>
<name>doggie</name>
<photoUrls>
<photoUrls>string</photoUrls>
</photoUrls>
<tags>
</tags>
<status>string</status>
</Pet>, contentType=application/xml}]
- parameter petId: (path) ID of pet that needs to be fetched
- returns: RequestBuilder<Pet>
*/
public class func getPetByIdWithRequestBuilder(petId petId: Int64) -> RequestBuilder<Pet> {
var path = "/pet/{petId}"
path = path.stringByReplacingOccurrencesOfString("{petId}", withString: "\(petId)", options: .LiteralSearch, range: nil)
let URLString = PetstoreClientAPI.basePath + path
let nillableParameters: [String:AnyObject?] = [:]
let parameters = APIHelper.rejectNil(nillableParameters)
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<Pet>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "GET", URLString: URLString, parameters: convertedParameters, isBody: true)
}
/**
Update an existing pet
- parameter body: (body) Pet object that needs to be added to the store (optional)
- parameter completion: completion handler to receive the data and the error objects
*/
public class func updatePet(body body: Pet? = nil, completion: ((error: ErrorType?) -> Void)) {
updatePetWithRequestBuilder(body: body).execute { (response, error) -> Void in
completion(error: error);
}
}
/**
Update an existing pet
- parameter body: (body) Pet object that needs to be added to the store (optional)
- returns: Observable<Void>
*/
public class func updatePet(body body: Pet? = nil) -> Observable<Void> {
return Observable.create { observer -> Disposable in
updatePet(body: body) { error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next())
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Update an existing pet
- PUT /pet
-
- OAuth:
- type: oauth2
- name: petstore_auth
- parameter body: (body) Pet object that needs to be added to the store (optional)
- returns: RequestBuilder<Void>
*/
public class func updatePetWithRequestBuilder(body body: Pet? = nil) -> RequestBuilder<Void> {
let path = "/pet"
let URLString = PetstoreClientAPI.basePath + path
let parameters = body?.encodeToJSON() as? [String:AnyObject]
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<Void>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "PUT", URLString: URLString, parameters: convertedParameters, isBody: true)
}
/**
Updates a pet in the store with form data
- parameter petId: (path) ID of pet that needs to be updated
- parameter name: (form) Updated name of the pet (optional)
- parameter status: (form) Updated status of the pet (optional)
- parameter completion: completion handler to receive the data and the error objects
*/
public class func updatePetWithForm(petId petId: String, name: String? = nil, status: String? = nil, completion: ((error: ErrorType?) -> Void)) {
updatePetWithFormWithRequestBuilder(petId: petId, name: name, status: status).execute { (response, error) -> Void in
completion(error: error);
}
}
/**
Updates a pet in the store with form data
- parameter petId: (path) ID of pet that needs to be updated
- parameter name: (form) Updated name of the pet (optional)
- parameter status: (form) Updated status of the pet (optional)
- returns: Observable<Void>
*/
public class func updatePetWithForm(petId petId: String, name: String? = nil, status: String? = nil) -> Observable<Void> {
return Observable.create { observer -> Disposable in
updatePetWithForm(petId: petId, name: name, status: status) { error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next())
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Updates a pet in the store with form data
- POST /pet/{petId}
-
- OAuth:
- type: oauth2
- name: petstore_auth
- parameter petId: (path) ID of pet that needs to be updated
- parameter name: (form) Updated name of the pet (optional)
- parameter status: (form) Updated status of the pet (optional)
- returns: RequestBuilder<Void>
*/
public class func updatePetWithFormWithRequestBuilder(petId petId: String, name: String? = nil, status: String? = nil) -> RequestBuilder<Void> {
var path = "/pet/{petId}"
path = path.stringByReplacingOccurrencesOfString("{petId}", withString: "\(petId)", options: .LiteralSearch, range: nil)
let URLString = PetstoreClientAPI.basePath + path
let nillableParameters: [String:AnyObject?] = [
"name": name,
"status": status
]
let parameters = APIHelper.rejectNil(nillableParameters)
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<Void>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "POST", URLString: URLString, parameters: convertedParameters, isBody: false)
}
/**
uploads an image
- parameter petId: (path) ID of pet to update
- parameter additionalMetadata: (form) Additional data to pass to server (optional)
- parameter file: (form) file to upload (optional)
- parameter completion: completion handler to receive the data and the error objects
*/
public class func uploadFile(petId petId: Int64, additionalMetadata: String? = nil, file: NSURL? = nil, completion: ((error: ErrorType?) -> Void)) {
uploadFileWithRequestBuilder(petId: petId, additionalMetadata: additionalMetadata, file: file).execute { (response, error) -> Void in
completion(error: error);
}
}
/**
uploads an image
- parameter petId: (path) ID of pet to update
- parameter additionalMetadata: (form) Additional data to pass to server (optional)
- parameter file: (form) file to upload (optional)
- returns: Observable<Void>
*/
public class func uploadFile(petId petId: Int64, additionalMetadata: String? = nil, file: NSURL? = nil) -> Observable<Void> {
return Observable.create { observer -> Disposable in
uploadFile(petId: petId, additionalMetadata: additionalMetadata, file: file) { error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next())
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
uploads an image
- POST /pet/{petId}/uploadImage
-
- OAuth:
- type: oauth2
- name: petstore_auth
- parameter petId: (path) ID of pet to update
- parameter additionalMetadata: (form) Additional data to pass to server (optional)
- parameter file: (form) file to upload (optional)
- returns: RequestBuilder<Void>
*/
public class func uploadFileWithRequestBuilder(petId petId: Int64, additionalMetadata: String? = nil, file: NSURL? = nil) -> RequestBuilder<Void> {
var path = "/pet/{petId}/uploadImage"
path = path.stringByReplacingOccurrencesOfString("{petId}", withString: "\(petId)", options: .LiteralSearch, range: nil)
let URLString = PetstoreClientAPI.basePath + path
let nillableParameters: [String:AnyObject?] = [
"additionalMetadata": additionalMetadata,
"file": file
]
let parameters = APIHelper.rejectNil(nillableParameters)
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<Void>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "POST", URLString: URLString, parameters: convertedParameters, isBody: false)
}
}

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//
// StoreAPI.swift
//
// Generated by swagger-codegen
// https://github.com/swagger-api/swagger-codegen
//
import Alamofire
import RxSwift
public class StoreAPI: APIBase {
/**
Delete purchase order by ID
- parameter orderId: (path) ID of the order that needs to be deleted
- parameter completion: completion handler to receive the data and the error objects
*/
public class func deleteOrder(orderId orderId: String, completion: ((error: ErrorType?) -> Void)) {
deleteOrderWithRequestBuilder(orderId: orderId).execute { (response, error) -> Void in
completion(error: error);
}
}
/**
Delete purchase order by ID
- parameter orderId: (path) ID of the order that needs to be deleted
- returns: Observable<Void>
*/
public class func deleteOrder(orderId orderId: String) -> Observable<Void> {
return Observable.create { observer -> Disposable in
deleteOrder(orderId: orderId) { error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next())
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Delete purchase order by ID
- DELETE /store/order/{orderId}
- For valid response try integer IDs with value < 1000. Anything above 1000 or nonintegers will generate API errors
- parameter orderId: (path) ID of the order that needs to be deleted
- returns: RequestBuilder<Void>
*/
public class func deleteOrderWithRequestBuilder(orderId orderId: String) -> RequestBuilder<Void> {
var path = "/store/order/{orderId}"
path = path.stringByReplacingOccurrencesOfString("{orderId}", withString: "\(orderId)", options: .LiteralSearch, range: nil)
let URLString = PetstoreClientAPI.basePath + path
let nillableParameters: [String:AnyObject?] = [:]
let parameters = APIHelper.rejectNil(nillableParameters)
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<Void>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "DELETE", URLString: URLString, parameters: convertedParameters, isBody: true)
}
/**
Returns pet inventories by status
- parameter completion: completion handler to receive the data and the error objects
*/
public class func getInventory(completion: ((data: [String:Int32]?, error: ErrorType?) -> Void)) {
getInventoryWithRequestBuilder().execute { (response, error) -> Void in
completion(data: response?.body, error: error);
}
}
/**
Returns pet inventories by status
- returns: Observable<[String:Int32]>
*/
public class func getInventory() -> Observable<[String:Int32]> {
return Observable.create { observer -> Disposable in
getInventory() { data, error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next(data!))
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Returns pet inventories by status
- GET /store/inventory
- Returns a map of status codes to quantities
- API Key:
- type: apiKey api_key
- name: api_key
- examples: [{example={
"key" : 123
}, contentType=application/json}, {example=not implemented io.swagger.models.properties.MapProperty@d1e580af, contentType=application/xml}]
- examples: [{example={
"key" : 123
}, contentType=application/json}, {example=not implemented io.swagger.models.properties.MapProperty@d1e580af, contentType=application/xml}]
- returns: RequestBuilder<[String:Int32]>
*/
public class func getInventoryWithRequestBuilder() -> RequestBuilder<[String:Int32]> {
let path = "/store/inventory"
let URLString = PetstoreClientAPI.basePath + path
let nillableParameters: [String:AnyObject?] = [:]
let parameters = APIHelper.rejectNil(nillableParameters)
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<[String:Int32]>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "GET", URLString: URLString, parameters: convertedParameters, isBody: true)
}
/**
Find purchase order by ID
- parameter orderId: (path) ID of pet that needs to be fetched
- parameter completion: completion handler to receive the data and the error objects
*/
public class func getOrderById(orderId orderId: String, completion: ((data: Order?, error: ErrorType?) -> Void)) {
getOrderByIdWithRequestBuilder(orderId: orderId).execute { (response, error) -> Void in
completion(data: response?.body, error: error);
}
}
/**
Find purchase order by ID
- parameter orderId: (path) ID of pet that needs to be fetched
- returns: Observable<Order>
*/
public class func getOrderById(orderId orderId: String) -> Observable<Order> {
return Observable.create { observer -> Disposable in
getOrderById(orderId: orderId) { data, error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next(data!))
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Find purchase order by ID
- GET /store/order/{orderId}
- For valid response try integer IDs with value <= 5 or > 10. Other values will generated exceptions
- examples: [{example={
"id" : 123456789,
"petId" : 123456789,
"complete" : true,
"status" : "aeiou",
"quantity" : 123,
"shipDate" : "2000-01-23T04:56:07.000+00:00"
}, contentType=application/json}, {example=<Order>
<id>123456</id>
<petId>123456</petId>
<quantity>0</quantity>
<shipDate>2000-01-23T04:56:07.000Z</shipDate>
<status>string</status>
<complete>true</complete>
</Order>, contentType=application/xml}]
- examples: [{example={
"id" : 123456789,
"petId" : 123456789,
"complete" : true,
"status" : "aeiou",
"quantity" : 123,
"shipDate" : "2000-01-23T04:56:07.000+00:00"
}, contentType=application/json}, {example=<Order>
<id>123456</id>
<petId>123456</petId>
<quantity>0</quantity>
<shipDate>2000-01-23T04:56:07.000Z</shipDate>
<status>string</status>
<complete>true</complete>
</Order>, contentType=application/xml}]
- parameter orderId: (path) ID of pet that needs to be fetched
- returns: RequestBuilder<Order>
*/
public class func getOrderByIdWithRequestBuilder(orderId orderId: String) -> RequestBuilder<Order> {
var path = "/store/order/{orderId}"
path = path.stringByReplacingOccurrencesOfString("{orderId}", withString: "\(orderId)", options: .LiteralSearch, range: nil)
let URLString = PetstoreClientAPI.basePath + path
let nillableParameters: [String:AnyObject?] = [:]
let parameters = APIHelper.rejectNil(nillableParameters)
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<Order>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "GET", URLString: URLString, parameters: convertedParameters, isBody: true)
}
/**
Place an order for a pet
- parameter body: (body) order placed for purchasing the pet (optional)
- parameter completion: completion handler to receive the data and the error objects
*/
public class func placeOrder(body body: Order? = nil, completion: ((data: Order?, error: ErrorType?) -> Void)) {
placeOrderWithRequestBuilder(body: body).execute { (response, error) -> Void in
completion(data: response?.body, error: error);
}
}
/**
Place an order for a pet
- parameter body: (body) order placed for purchasing the pet (optional)
- returns: Observable<Order>
*/
public class func placeOrder(body body: Order? = nil) -> Observable<Order> {
return Observable.create { observer -> Disposable in
placeOrder(body: body) { data, error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next(data!))
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Place an order for a pet
- POST /store/order
-
- examples: [{example={
"id" : 123456789,
"petId" : 123456789,
"complete" : true,
"status" : "aeiou",
"quantity" : 123,
"shipDate" : "2000-01-23T04:56:07.000+00:00"
}, contentType=application/json}, {example=<Order>
<id>123456</id>
<petId>123456</petId>
<quantity>0</quantity>
<shipDate>2000-01-23T04:56:07.000Z</shipDate>
<status>string</status>
<complete>true</complete>
</Order>, contentType=application/xml}]
- examples: [{example={
"id" : 123456789,
"petId" : 123456789,
"complete" : true,
"status" : "aeiou",
"quantity" : 123,
"shipDate" : "2000-01-23T04:56:07.000+00:00"
}, contentType=application/json}, {example=<Order>
<id>123456</id>
<petId>123456</petId>
<quantity>0</quantity>
<shipDate>2000-01-23T04:56:07.000Z</shipDate>
<status>string</status>
<complete>true</complete>
</Order>, contentType=application/xml}]
- parameter body: (body) order placed for purchasing the pet (optional)
- returns: RequestBuilder<Order>
*/
public class func placeOrderWithRequestBuilder(body body: Order? = nil) -> RequestBuilder<Order> {
let path = "/store/order"
let URLString = PetstoreClientAPI.basePath + path
let parameters = body?.encodeToJSON() as? [String:AnyObject]
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<Order>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "POST", URLString: URLString, parameters: convertedParameters, isBody: true)
}
}

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//
// UserAPI.swift
//
// Generated by swagger-codegen
// https://github.com/swagger-api/swagger-codegen
//
import Alamofire
import RxSwift
public class UserAPI: APIBase {
/**
Create user
- parameter body: (body) Created user object (optional)
- parameter completion: completion handler to receive the data and the error objects
*/
public class func createUser(body body: User? = nil, completion: ((error: ErrorType?) -> Void)) {
createUserWithRequestBuilder(body: body).execute { (response, error) -> Void in
completion(error: error);
}
}
/**
Create user
- parameter body: (body) Created user object (optional)
- returns: Observable<Void>
*/
public class func createUser(body body: User? = nil) -> Observable<Void> {
return Observable.create { observer -> Disposable in
createUser(body: body) { error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next())
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Create user
- POST /user
- This can only be done by the logged in user.
- parameter body: (body) Created user object (optional)
- returns: RequestBuilder<Void>
*/
public class func createUserWithRequestBuilder(body body: User? = nil) -> RequestBuilder<Void> {
let path = "/user"
let URLString = PetstoreClientAPI.basePath + path
let parameters = body?.encodeToJSON() as? [String:AnyObject]
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<Void>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "POST", URLString: URLString, parameters: convertedParameters, isBody: true)
}
/**
Creates list of users with given input array
- parameter body: (body) List of user object (optional)
- parameter completion: completion handler to receive the data and the error objects
*/
public class func createUsersWithArrayInput(body body: [User]? = nil, completion: ((error: ErrorType?) -> Void)) {
createUsersWithArrayInputWithRequestBuilder(body: body).execute { (response, error) -> Void in
completion(error: error);
}
}
/**
Creates list of users with given input array
- parameter body: (body) List of user object (optional)
- returns: Observable<Void>
*/
public class func createUsersWithArrayInput(body body: [User]? = nil) -> Observable<Void> {
return Observable.create { observer -> Disposable in
createUsersWithArrayInput(body: body) { error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next())
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Creates list of users with given input array
- POST /user/createWithArray
-
- parameter body: (body) List of user object (optional)
- returns: RequestBuilder<Void>
*/
public class func createUsersWithArrayInputWithRequestBuilder(body body: [User]? = nil) -> RequestBuilder<Void> {
let path = "/user/createWithArray"
let URLString = PetstoreClientAPI.basePath + path
let parameters = body?.encodeToJSON() as? [String:AnyObject]
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<Void>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "POST", URLString: URLString, parameters: convertedParameters, isBody: true)
}
/**
Creates list of users with given input array
- parameter body: (body) List of user object (optional)
- parameter completion: completion handler to receive the data and the error objects
*/
public class func createUsersWithListInput(body body: [User]? = nil, completion: ((error: ErrorType?) -> Void)) {
createUsersWithListInputWithRequestBuilder(body: body).execute { (response, error) -> Void in
completion(error: error);
}
}
/**
Creates list of users with given input array
- parameter body: (body) List of user object (optional)
- returns: Observable<Void>
*/
public class func createUsersWithListInput(body body: [User]? = nil) -> Observable<Void> {
return Observable.create { observer -> Disposable in
createUsersWithListInput(body: body) { error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next())
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Creates list of users with given input array
- POST /user/createWithList
-
- parameter body: (body) List of user object (optional)
- returns: RequestBuilder<Void>
*/
public class func createUsersWithListInputWithRequestBuilder(body body: [User]? = nil) -> RequestBuilder<Void> {
let path = "/user/createWithList"
let URLString = PetstoreClientAPI.basePath + path
let parameters = body?.encodeToJSON() as? [String:AnyObject]
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<Void>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "POST", URLString: URLString, parameters: convertedParameters, isBody: true)
}
/**
Delete user
- parameter username: (path) The name that needs to be deleted
- parameter completion: completion handler to receive the data and the error objects
*/
public class func deleteUser(username username: String, completion: ((error: ErrorType?) -> Void)) {
deleteUserWithRequestBuilder(username: username).execute { (response, error) -> Void in
completion(error: error);
}
}
/**
Delete user
- parameter username: (path) The name that needs to be deleted
- returns: Observable<Void>
*/
public class func deleteUser(username username: String) -> Observable<Void> {
return Observable.create { observer -> Disposable in
deleteUser(username: username) { error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next())
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Delete user
- DELETE /user/{username}
- This can only be done by the logged in user.
- parameter username: (path) The name that needs to be deleted
- returns: RequestBuilder<Void>
*/
public class func deleteUserWithRequestBuilder(username username: String) -> RequestBuilder<Void> {
var path = "/user/{username}"
path = path.stringByReplacingOccurrencesOfString("{username}", withString: "\(username)", options: .LiteralSearch, range: nil)
let URLString = PetstoreClientAPI.basePath + path
let nillableParameters: [String:AnyObject?] = [:]
let parameters = APIHelper.rejectNil(nillableParameters)
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<Void>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "DELETE", URLString: URLString, parameters: convertedParameters, isBody: true)
}
/**
Get user by user name
- parameter username: (path) The name that needs to be fetched. Use user1 for testing.
- parameter completion: completion handler to receive the data and the error objects
*/
public class func getUserByName(username username: String, completion: ((data: User?, error: ErrorType?) -> Void)) {
getUserByNameWithRequestBuilder(username: username).execute { (response, error) -> Void in
completion(data: response?.body, error: error);
}
}
/**
Get user by user name
- parameter username: (path) The name that needs to be fetched. Use user1 for testing.
- returns: Observable<User>
*/
public class func getUserByName(username username: String) -> Observable<User> {
return Observable.create { observer -> Disposable in
getUserByName(username: username) { data, error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next(data!))
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Get user by user name
- GET /user/{username}
-
- examples: [{example={
"id" : 123456789,
"lastName" : "aeiou",
"phone" : "aeiou",
"username" : "aeiou",
"email" : "aeiou",
"userStatus" : 123,
"firstName" : "aeiou",
"password" : "aeiou"
}, contentType=application/json}, {example=<User>
<id>123456</id>
<username>string</username>
<firstName>string</firstName>
<lastName>string</lastName>
<email>string</email>
<password>string</password>
<phone>string</phone>
<userStatus>0</userStatus>
</User>, contentType=application/xml}]
- examples: [{example={
"id" : 123456789,
"lastName" : "aeiou",
"phone" : "aeiou",
"username" : "aeiou",
"email" : "aeiou",
"userStatus" : 123,
"firstName" : "aeiou",
"password" : "aeiou"
}, contentType=application/json}, {example=<User>
<id>123456</id>
<username>string</username>
<firstName>string</firstName>
<lastName>string</lastName>
<email>string</email>
<password>string</password>
<phone>string</phone>
<userStatus>0</userStatus>
</User>, contentType=application/xml}]
- parameter username: (path) The name that needs to be fetched. Use user1 for testing.
- returns: RequestBuilder<User>
*/
public class func getUserByNameWithRequestBuilder(username username: String) -> RequestBuilder<User> {
var path = "/user/{username}"
path = path.stringByReplacingOccurrencesOfString("{username}", withString: "\(username)", options: .LiteralSearch, range: nil)
let URLString = PetstoreClientAPI.basePath + path
let nillableParameters: [String:AnyObject?] = [:]
let parameters = APIHelper.rejectNil(nillableParameters)
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<User>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "GET", URLString: URLString, parameters: convertedParameters, isBody: true)
}
/**
Logs user into the system
- parameter username: (query) The user name for login (optional)
- parameter password: (query) The password for login in clear text (optional)
- parameter completion: completion handler to receive the data and the error objects
*/
public class func loginUser(username username: String? = nil, password: String? = nil, completion: ((data: String?, error: ErrorType?) -> Void)) {
loginUserWithRequestBuilder(username: username, password: password).execute { (response, error) -> Void in
completion(data: response?.body, error: error);
}
}
/**
Logs user into the system
- parameter username: (query) The user name for login (optional)
- parameter password: (query) The password for login in clear text (optional)
- returns: Observable<String>
*/
public class func loginUser(username username: String? = nil, password: String? = nil) -> Observable<String> {
return Observable.create { observer -> Disposable in
loginUser(username: username, password: password) { data, error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next(data!))
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Logs user into the system
- GET /user/login
-
- examples: [{example="aeiou", contentType=application/json}, {example=string, contentType=application/xml}]
- examples: [{example="aeiou", contentType=application/json}, {example=string, contentType=application/xml}]
- parameter username: (query) The user name for login (optional)
- parameter password: (query) The password for login in clear text (optional)
- returns: RequestBuilder<String>
*/
public class func loginUserWithRequestBuilder(username username: String? = nil, password: String? = nil) -> RequestBuilder<String> {
let path = "/user/login"
let URLString = PetstoreClientAPI.basePath + path
let nillableParameters: [String:AnyObject?] = [
"username": username,
"password": password
]
let parameters = APIHelper.rejectNil(nillableParameters)
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<String>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "GET", URLString: URLString, parameters: convertedParameters, isBody: false)
}
/**
Logs out current logged in user session
- parameter completion: completion handler to receive the data and the error objects
*/
public class func logoutUser(completion: ((error: ErrorType?) -> Void)) {
logoutUserWithRequestBuilder().execute { (response, error) -> Void in
completion(error: error);
}
}
/**
Logs out current logged in user session
- returns: Observable<Void>
*/
public class func logoutUser() -> Observable<Void> {
return Observable.create { observer -> Disposable in
logoutUser() { error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next())
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Logs out current logged in user session
- GET /user/logout
-
- returns: RequestBuilder<Void>
*/
public class func logoutUserWithRequestBuilder() -> RequestBuilder<Void> {
let path = "/user/logout"
let URLString = PetstoreClientAPI.basePath + path
let nillableParameters: [String:AnyObject?] = [:]
let parameters = APIHelper.rejectNil(nillableParameters)
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<Void>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "GET", URLString: URLString, parameters: convertedParameters, isBody: true)
}
/**
Updated user
- parameter username: (path) name that need to be deleted
- parameter body: (body) Updated user object (optional)
- parameter completion: completion handler to receive the data and the error objects
*/
public class func updateUser(username username: String, body: User? = nil, completion: ((error: ErrorType?) -> Void)) {
updateUserWithRequestBuilder(username: username, body: body).execute { (response, error) -> Void in
completion(error: error);
}
}
/**
Updated user
- parameter username: (path) name that need to be deleted
- parameter body: (body) Updated user object (optional)
- returns: Observable<Void>
*/
public class func updateUser(username username: String, body: User? = nil) -> Observable<Void> {
return Observable.create { observer -> Disposable in
updateUser(username: username, body: body) { error in
if let error = error {
observer.on(.Error(error as ErrorType))
} else {
observer.on(.Next())
}
observer.on(.Completed)
}
return NopDisposable.instance
}
}
/**
Updated user
- PUT /user/{username}
- This can only be done by the logged in user.
- parameter username: (path) name that need to be deleted
- parameter body: (body) Updated user object (optional)
- returns: RequestBuilder<Void>
*/
public class func updateUserWithRequestBuilder(username username: String, body: User? = nil) -> RequestBuilder<Void> {
var path = "/user/{username}"
path = path.stringByReplacingOccurrencesOfString("{username}", withString: "\(username)", options: .LiteralSearch, range: nil)
let URLString = PetstoreClientAPI.basePath + path
let parameters = body?.encodeToJSON() as? [String:AnyObject]
let convertedParameters = APIHelper.convertBoolToString(parameters)
let requestBuilder: RequestBuilder<Void>.Type = PetstoreClientAPI.requestBuilderFactory.getBuilder()
return requestBuilder.init(method: "PUT", URLString: URLString, parameters: convertedParameters, isBody: true)
}
}

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// AlamofireImplementations.swift
//
// Generated by swagger-codegen
// https://github.com/swagger-api/swagger-codegen
//
import Alamofire
class AlamofireRequestBuilderFactory: RequestBuilderFactory {
func getBuilder<T>() -> RequestBuilder<T>.Type {
return AlamofireRequestBuilder<T>.self
}
}
// Store manager to retain its reference
private var managerStore: [String: Alamofire.Manager] = [:]
class AlamofireRequestBuilder<T>: RequestBuilder<T> {
required init(method: String, URLString: String, parameters: [String : AnyObject]?, isBody: Bool) {
super.init(method: method, URLString: URLString, parameters: parameters, isBody: isBody)
}
override func execute(completion: (response: Response<T>?, error: ErrorType?) -> Void) {
let managerId = NSUUID().UUIDString
// Create a new manager for each request to customize its request header
let configuration = NSURLSessionConfiguration.defaultSessionConfiguration()
configuration.HTTPAdditionalHeaders = buildHeaders()
let manager = Alamofire.Manager(configuration: configuration)
managerStore[managerId] = manager
let encoding = isBody ? Alamofire.ParameterEncoding.JSON : Alamofire.ParameterEncoding.URL
let xMethod = Alamofire.Method(rawValue: method)
let fileKeys = parameters == nil ? [] : parameters!.filter { $1.isKindOfClass(NSURL) }
.map { $0.0 }
if fileKeys.count > 0 {
manager.upload(
xMethod!, URLString, headers: nil,
multipartFormData: { mpForm in
for (k, v) in self.parameters! {
switch v {
case let fileURL as NSURL:
mpForm.appendBodyPart(fileURL: fileURL, name: k)
break
case let string as NSString:
mpForm.appendBodyPart(data: string.dataUsingEncoding(NSUTF8StringEncoding)!, name: k)
break
case let number as NSNumber:
mpForm.appendBodyPart(data: number.stringValue.dataUsingEncoding(NSUTF8StringEncoding)!, name: k)
break
default:
fatalError("Unprocessable value \(v) with key \(k)")
break
}
}
},
encodingMemoryThreshold: Manager.MultipartFormDataEncodingMemoryThreshold,
encodingCompletion: { encodingResult in
switch encodingResult {
case .Success(let uploadRequest, _, _):
if let onProgressReady = self.onProgressReady {
onProgressReady(uploadRequest.progress)
}
self.processRequest(uploadRequest, managerId, completion)
case .Failure(let encodingError):
completion(response: nil, error: encodingError)
}
}
)
} else {
let request = manager.request(xMethod!, URLString, parameters: parameters, encoding: encoding)
if let onProgressReady = self.onProgressReady {
onProgressReady(request.progress)
}
processRequest(request, managerId, completion)
}
}
private func processRequest(request: Request, _ managerId: String, _ completion: (response: Response<T>?, error: ErrorType?) -> Void) {
if let credential = self.credential {
request.authenticate(usingCredential: credential)
}
let cleanupRequest = {
managerStore.removeValueForKey(managerId)
}
let validatedRequest = request.validate()
switch T.self {
case is NSData.Type:
validatedRequest.responseData({ (dataResponse) in
cleanupRequest()
if (dataResponse.result.isFailure) {
completion(
response: nil,
error: dataResponse.result.error
)
return
}
completion(
response: Response(
response: dataResponse.response!,
body: dataResponse.data as! T
),
error: nil
)
})
default:
validatedRequest.responseJSON(options: .AllowFragments) { response in
cleanupRequest()
if response.result.isFailure {
completion(response: nil, error: response.result.error)
return
}
if () is T {
completion(response: Response(response: response.response!, body: () as! T), error: nil)
return
}
if let json: AnyObject = response.result.value {
let body = Decoders.decode(clazz: T.self, source: json)
completion(response: Response(response: response.response!, body: body), error: nil)
return
} else if "" is T {
// swagger-parser currently doesn't support void, which will be fixed in future swagger-parser release
// https://github.com/swagger-api/swagger-parser/pull/34
completion(response: Response(response: response.response!, body: "" as! T), error: nil)
return
}
completion(response: nil, error: NSError(domain: "localhost", code: 500, userInfo: ["reason": "unreacheable code"]))
}
}
}
private func buildHeaders() -> [String: AnyObject] {
var httpHeaders = Manager.defaultHTTPHeaders
for (key, value) in self.headers {
httpHeaders[key] = value
}
return httpHeaders
}
}

84
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// Extensions.swift
//
// Generated by swagger-codegen
// https://github.com/swagger-api/swagger-codegen
//
import Alamofire
extension Bool: JSONEncodable {
func encodeToJSON() -> AnyObject { return self }
}
extension Float: JSONEncodable {
func encodeToJSON() -> AnyObject { return self }
}
extension Int: JSONEncodable {
func encodeToJSON() -> AnyObject { return self }
}
extension Int32: JSONEncodable {
func encodeToJSON() -> AnyObject { return NSNumber(int: self) }
}
extension Int64: JSONEncodable {
func encodeToJSON() -> AnyObject { return NSNumber(longLong: self) }
}
extension Double: JSONEncodable {
func encodeToJSON() -> AnyObject { return self }
}
extension String: JSONEncodable {
func encodeToJSON() -> AnyObject { return self }
}
private func encodeIfPossible<T>(object: T) -> AnyObject {
if object is JSONEncodable {
return (object as! JSONEncodable).encodeToJSON()
} else {
return object as! AnyObject
}
}
extension Array: JSONEncodable {
func encodeToJSON() -> AnyObject {
return self.map(encodeIfPossible)
}
}
extension Dictionary: JSONEncodable {
func encodeToJSON() -> AnyObject {
var dictionary = [NSObject:AnyObject]()
for (key, value) in self {
dictionary[key as! NSObject] = encodeIfPossible(value)
}
return dictionary
}
}
extension NSData: JSONEncodable {
func encodeToJSON() -> AnyObject {
return self.base64EncodedStringWithOptions(NSDataBase64EncodingOptions())
}
}
private let dateFormatter: NSDateFormatter = {
let fmt = NSDateFormatter()
fmt.dateFormat = "yyyy-MM-dd'T'HH:mm:ss.SSSZZZZZ"
fmt.locale = NSLocale(localeIdentifier: "en_US_POSIX")
return fmt
}()
extension NSDate: JSONEncodable {
func encodeToJSON() -> AnyObject {
return dateFormatter.stringFromDate(self)
}
}
extension NSUUID: JSONEncodable {
func encodeToJSON() -> AnyObject {
return self.UUIDString
}
}

224
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// Models.swift
//
// Generated by swagger-codegen
// https://github.com/swagger-api/swagger-codegen
//
import Foundation
protocol JSONEncodable {
func encodeToJSON() -> AnyObject
}
public class Response<T> {
public let statusCode: Int
public let header: [String: String]
public let body: T
public init(statusCode: Int, header: [String: String], body: T) {
self.statusCode = statusCode
self.header = header
self.body = body
}
public convenience init(response: NSHTTPURLResponse, body: T) {
let rawHeader = response.allHeaderFields
var header = [String:String]()
for (key, value) in rawHeader {
header[key as! String] = value as? String
}
self.init(statusCode: response.statusCode, header: header, body: body)
}
}
private var once = dispatch_once_t()
class Decoders {
static private var decoders = Dictionary<String, ((AnyObject) -> AnyObject)>()
static func addDecoder<T>(clazz clazz: T.Type, decoder: ((AnyObject) -> T)) {
let key = "\(T.self)"
decoders[key] = { decoder($0) as! AnyObject }
}
static func decode<T>(clazz clazz: [T].Type, source: AnyObject) -> [T] {
let array = source as! [AnyObject]
return array.map { Decoders.decode(clazz: T.self, source: $0) }
}
static func decode<T, Key: Hashable>(clazz clazz: [Key:T].Type, source: AnyObject) -> [Key:T] {
let sourceDictionary = source as! [Key: AnyObject]
var dictionary = [Key:T]()
for (key, value) in sourceDictionary {
dictionary[key] = Decoders.decode(clazz: T.self, source: value)
}
return dictionary
}
static func decode<T>(clazz clazz: T.Type, source: AnyObject) -> T {
initialize()
if T.self is Int32.Type && source is NSNumber {
return source.intValue as! T;
}
if T.self is Int64.Type && source is NSNumber {
return source.longLongValue as! T;
}
if T.self is NSUUID.Type && source is String {
return NSUUID(UUIDString: source as! String) as! T
}
if source is T {
return source as! T
}
if T.self is NSData.Type && source is String {
return NSData(base64EncodedString: source as! String, options: NSDataBase64DecodingOptions()) as! T
}
let key = "\(T.self)"
if let decoder = decoders[key] {
return decoder(source) as! T
} else {
fatalError("Source \(source) is not convertible to type \(clazz): Maybe swagger file is insufficient")
}
}
static func decodeOptional<T>(clazz clazz: T.Type, source: AnyObject?) -> T? {
if source is NSNull {
return nil
}
return source.map { (source: AnyObject) -> T in
Decoders.decode(clazz: clazz, source: source)
}
}
static func decodeOptional<T>(clazz clazz: [T].Type, source: AnyObject?) -> [T]? {
if source is NSNull {
return nil
}
return source.map { (someSource: AnyObject) -> [T] in
Decoders.decode(clazz: clazz, source: someSource)
}
}
static func decodeOptional<T, Key: Hashable>(clazz clazz: [Key:T].Type, source: AnyObject?) -> [Key:T]? {
if source is NSNull {
return nil
}
return source.map { (someSource: AnyObject) -> [Key:T] in
Decoders.decode(clazz: clazz, source: someSource)
}
}
static private func initialize() {
dispatch_once(&once) {
let formatters = [
"yyyy-MM-dd",
"yyyy-MM-dd'T'HH:mm:ssZZZZZ",
"yyyy-MM-dd'T'HH:mm:ss.SSSZZZZZ",
"yyyy-MM-dd'T'HH:mm:ss'Z'",
"yyyy-MM-dd'T'HH:mm:ss.SSS"
].map { (format: String) -> NSDateFormatter in
let formatter = NSDateFormatter()
formatter.dateFormat = format
return formatter
}
// Decoder for NSDate
Decoders.addDecoder(clazz: NSDate.self) { (source: AnyObject) -> NSDate in
if let sourceString = source as? String {
for formatter in formatters {
if let date = formatter.dateFromString(sourceString) {
return date
}
}
}
if let sourceInt = source as? Int {
// treat as a java date
return NSDate(timeIntervalSince1970: Double(sourceInt / 1000) )
}
fatalError("formatter failed to parse \(source)")
}
// Decoder for [Category]
Decoders.addDecoder(clazz: [Category].self) { (source: AnyObject) -> [Category] in
return Decoders.decode(clazz: [Category].self, source: source)
}
// Decoder for Category
Decoders.addDecoder(clazz: Category.self) { (source: AnyObject) -> Category in
let sourceDictionary = source as! [NSObject:AnyObject]
let instance = Category()
instance.id = Decoders.decodeOptional(clazz: Int64.self, source: sourceDictionary["id"])
instance.name = Decoders.decodeOptional(clazz: String.self, source: sourceDictionary["name"])
return instance
}
// Decoder for [Order]
Decoders.addDecoder(clazz: [Order].self) { (source: AnyObject) -> [Order] in
return Decoders.decode(clazz: [Order].self, source: source)
}
// Decoder for Order
Decoders.addDecoder(clazz: Order.self) { (source: AnyObject) -> Order in
let sourceDictionary = source as! [NSObject:AnyObject]
let instance = Order()
instance.id = Decoders.decodeOptional(clazz: Int64.self, source: sourceDictionary["id"])
instance.petId = Decoders.decodeOptional(clazz: Int64.self, source: sourceDictionary["petId"])
instance.quantity = Decoders.decodeOptional(clazz: Int32.self, source: sourceDictionary["quantity"])
instance.shipDate = Decoders.decodeOptional(clazz: NSDate.self, source: sourceDictionary["shipDate"])
instance.status = Order.Status(rawValue: (sourceDictionary["status"] as? String) ?? "")
instance.complete = Decoders.decodeOptional(clazz: Bool.self, source: sourceDictionary["complete"])
return instance
}
// Decoder for [Pet]
Decoders.addDecoder(clazz: [Pet].self) { (source: AnyObject) -> [Pet] in
return Decoders.decode(clazz: [Pet].self, source: source)
}
// Decoder for Pet
Decoders.addDecoder(clazz: Pet.self) { (source: AnyObject) -> Pet in
let sourceDictionary = source as! [NSObject:AnyObject]
let instance = Pet()
instance.id = Decoders.decodeOptional(clazz: Int64.self, source: sourceDictionary["id"])
instance.category = Decoders.decodeOptional(clazz: Category.self, source: sourceDictionary["category"])
instance.name = Decoders.decodeOptional(clazz: String.self, source: sourceDictionary["name"])
instance.photoUrls = Decoders.decodeOptional(clazz: Array.self, source: sourceDictionary["photoUrls"])
instance.tags = Decoders.decodeOptional(clazz: Array.self, source: sourceDictionary["tags"])
instance.status = Pet.Status(rawValue: (sourceDictionary["status"] as? String) ?? "")
return instance
}
// Decoder for [Tag]
Decoders.addDecoder(clazz: [Tag].self) { (source: AnyObject) -> [Tag] in
return Decoders.decode(clazz: [Tag].self, source: source)
}
// Decoder for Tag
Decoders.addDecoder(clazz: Tag.self) { (source: AnyObject) -> Tag in
let sourceDictionary = source as! [NSObject:AnyObject]
let instance = Tag()
instance.id = Decoders.decodeOptional(clazz: Int64.self, source: sourceDictionary["id"])
instance.name = Decoders.decodeOptional(clazz: String.self, source: sourceDictionary["name"])
return instance
}
// Decoder for [User]
Decoders.addDecoder(clazz: [User].self) { (source: AnyObject) -> [User] in
return Decoders.decode(clazz: [User].self, source: source)
}
// Decoder for User
Decoders.addDecoder(clazz: User.self) { (source: AnyObject) -> User in
let sourceDictionary = source as! [NSObject:AnyObject]
let instance = User()
instance.id = Decoders.decodeOptional(clazz: Int64.self, source: sourceDictionary["id"])
instance.username = Decoders.decodeOptional(clazz: String.self, source: sourceDictionary["username"])
instance.firstName = Decoders.decodeOptional(clazz: String.self, source: sourceDictionary["firstName"])
instance.lastName = Decoders.decodeOptional(clazz: String.self, source: sourceDictionary["lastName"])
instance.email = Decoders.decodeOptional(clazz: String.self, source: sourceDictionary["email"])
instance.password = Decoders.decodeOptional(clazz: String.self, source: sourceDictionary["password"])
instance.phone = Decoders.decodeOptional(clazz: String.self, source: sourceDictionary["phone"])
instance.userStatus = Decoders.decodeOptional(clazz: Int32.self, source: sourceDictionary["userStatus"])
return instance
}
}
}
}

25
samples/client/petstore/swift/rxswift/PetstoreClient/Classes/Swaggers/Models/Category.swift Normal file
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//
// Category.swift
//
// Generated by swagger-codegen
// https://github.com/swagger-api/swagger-codegen
//
import Foundation
public class Category: JSONEncodable {
public var id: Int64?
public var name: String?
public init() {}
// MARK: JSONEncodable
func encodeToJSON() -> AnyObject {
var nillableDictionary = [String:AnyObject?]()
nillableDictionary["id"] = self.id?.encodeToJSON()
nillableDictionary["name"] = self.name
let dictionary: [String:AnyObject] = APIHelper.rejectNil(nillableDictionary) ?? [:]
return dictionary
}
}

39
samples/client/petstore/swift/rxswift/PetstoreClient/Classes/Swaggers/Models/Order.swift Normal file
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//
// Order.swift
//
// Generated by swagger-codegen
// https://github.com/swagger-api/swagger-codegen
//
import Foundation
public class Order: JSONEncodable {
public enum Status: String {
case Placed = "placed"
case Approved = "approved"
case Delivered = "delivered"
}
public var id: Int64?
public var petId: Int64?
public var quantity: Int32?
public var shipDate: NSDate?
/** Order Status */
public var status: Status?
public var complete: Bool?
public init() {}
// MARK: JSONEncodable
func encodeToJSON() -> AnyObject {
var nillableDictionary = [String:AnyObject?]()
nillableDictionary["id"] = self.id?.encodeToJSON()
nillableDictionary["petId"] = self.petId?.encodeToJSON()
nillableDictionary["quantity"] = self.quantity?.encodeToJSON()
nillableDictionary["shipDate"] = self.shipDate?.encodeToJSON()
nillableDictionary["status"] = self.status?.rawValue
nillableDictionary["complete"] = self.complete
let dictionary: [String:AnyObject] = APIHelper.rejectNil(nillableDictionary) ?? [:]
return dictionary
}
}

39
samples/client/petstore/swift/rxswift/PetstoreClient/Classes/Swaggers/Models/Pet.swift Normal file
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//
// Pet.swift
//
// Generated by swagger-codegen
// https://github.com/swagger-api/swagger-codegen
//
import Foundation
public class Pet: JSONEncodable {
public enum Status: String {
case Available = "available"
case Pending = "pending"
case Sold = "sold"
}
public var id: Int64?
public var category: Category?
public var name: String?
public var photoUrls: [String]?
public var tags: [Tag]?
/** pet status in the store */
public var status: Status?
public init() {}
// MARK: JSONEncodable
func encodeToJSON() -> AnyObject {
var nillableDictionary = [String:AnyObject?]()
nillableDictionary["id"] = self.id?.encodeToJSON()
nillableDictionary["category"] = self.category?.encodeToJSON()
nillableDictionary["name"] = self.name
nillableDictionary["photoUrls"] = self.photoUrls?.encodeToJSON()
nillableDictionary["tags"] = self.tags?.encodeToJSON()
nillableDictionary["status"] = self.status?.rawValue
let dictionary: [String:AnyObject] = APIHelper.rejectNil(nillableDictionary) ?? [:]
return dictionary
}
}

25
samples/client/petstore/swift/rxswift/PetstoreClient/Classes/Swaggers/Models/Tag.swift Normal file
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//
// Tag.swift
//
// Generated by swagger-codegen
// https://github.com/swagger-api/swagger-codegen
//
import Foundation
public class Tag: JSONEncodable {
public var id: Int64?
public var name: String?
public init() {}
// MARK: JSONEncodable
func encodeToJSON() -> AnyObject {
var nillableDictionary = [String:AnyObject?]()
nillableDictionary["id"] = self.id?.encodeToJSON()
nillableDictionary["name"] = self.name
let dictionary: [String:AnyObject] = APIHelper.rejectNil(nillableDictionary) ?? [:]
return dictionary
}
}

38
samples/client/petstore/swift/rxswift/PetstoreClient/Classes/Swaggers/Models/User.swift Normal file
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//
// User.swift
//
// Generated by swagger-codegen
// https://github.com/swagger-api/swagger-codegen
//
import Foundation
public class User: JSONEncodable {
public var id: Int64?
public var username: String?
public var firstName: String?
public var lastName: String?
public var email: String?
public var password: String?
public var phone: String?
/** User Status */
public var userStatus: Int32?
public init() {}
// MARK: JSONEncodable
func encodeToJSON() -> AnyObject {
var nillableDictionary = [String:AnyObject?]()
nillableDictionary["id"] = self.id?.encodeToJSON()
nillableDictionary["username"] = self.username
nillableDictionary["firstName"] = self.firstName
nillableDictionary["lastName"] = self.lastName
nillableDictionary["email"] = self.email
nillableDictionary["password"] = self.password
nillableDictionary["phone"] = self.phone
nillableDictionary["userStatus"] = self.userStatus?.encodeToJSON()
let dictionary: [String:AnyObject] = APIHelper.rejectNil(nillableDictionary) ?? [:]
return dictionary
}
}

10
samples/client/petstore/swift/rxswift/SwaggerClientTests/Podfile Normal file
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@ -0,0 +1,10 @@
use_frameworks!
source 'https://github.com/CocoaPods/Specs.git'
target 'SwaggerClient' do
pod "PetstoreClient", :path => "../"
target 'SwaggerClientTests' do
inherit! :search_paths
end
end

19
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/Alamofire/LICENSE generated Normal file
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@ -0,0 +1,19 @@
Copyright (c) 20142016 Alamofire Software Foundation (http://alamofire.org/)
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.

1149
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/Alamofire/README.md generated Normal file
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368
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/Alamofire/Source/Alamofire.swift generated Normal file
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// Alamofire.swift
//
// Copyright (c) 20142016 Alamofire Software Foundation (http://alamofire.org/)
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
import Foundation
// MARK: - URLStringConvertible
/**
Types adopting the `URLStringConvertible` protocol can be used to construct URL strings, which are then used to
construct URL requests.
*/
public protocol URLStringConvertible {
/**
A URL that conforms to RFC 2396.
Methods accepting a `URLStringConvertible` type parameter parse it according to RFCs 1738 and 1808.
See https://tools.ietf.org/html/rfc2396
See https://tools.ietf.org/html/rfc1738
See https://tools.ietf.org/html/rfc1808
*/
var URLString: String { get }
}
extension String: URLStringConvertible {
public var URLString: String {
return self
}
}
extension NSURL: URLStringConvertible {
public var URLString: String {
return absoluteString
}
}
extension NSURLComponents: URLStringConvertible {
public var URLString: String {
return URL!.URLString
}
}
extension NSURLRequest: URLStringConvertible {
public var URLString: String {
return URL!.URLString
}
}
// MARK: - URLRequestConvertible
/**
Types adopting the `URLRequestConvertible` protocol can be used to construct URL requests.
*/
public protocol URLRequestConvertible {
/// The URL request.
var URLRequest: NSMutableURLRequest { get }
}
extension NSURLRequest: URLRequestConvertible {
public var URLRequest: NSMutableURLRequest {
return self.mutableCopy() as! NSMutableURLRequest
}
}
// MARK: - Convenience
func URLRequest(
method: Method,
_ URLString: URLStringConvertible,
headers: [String: String]? = nil)
-> NSMutableURLRequest
{
let mutableURLRequest = NSMutableURLRequest(URL: NSURL(string: URLString.URLString)!)
mutableURLRequest.HTTPMethod = method.rawValue
if let headers = headers {
for (headerField, headerValue) in headers {
mutableURLRequest.setValue(headerValue, forHTTPHeaderField: headerField)
}
}
return mutableURLRequest
}
// MARK: - Request Methods
/**
Creates a request using the shared manager instance for the specified method, URL string, parameters, and
parameter encoding.
- parameter method: The HTTP method.
- parameter URLString: The URL string.
- parameter parameters: The parameters. `nil` by default.
- parameter encoding: The parameter encoding. `.URL` by default.
- parameter headers: The HTTP headers. `nil` by default.
- returns: The created request.
*/
public func request(
method: Method,
_ URLString: URLStringConvertible,
parameters: [String: AnyObject]? = nil,
encoding: ParameterEncoding = .URL,
headers: [String: String]? = nil)
-> Request
{
return Manager.sharedInstance.request(
method,
URLString,
parameters: parameters,
encoding: encoding,
headers: headers
)
}
/**
Creates a request using the shared manager instance for the specified URL request.
If `startRequestsImmediately` is `true`, the request will have `resume()` called before being returned.
- parameter URLRequest: The URL request
- returns: The created request.
*/
public func request(URLRequest: URLRequestConvertible) -> Request {
return Manager.sharedInstance.request(URLRequest.URLRequest)
}
// MARK: - Upload Methods
// MARK: File
/**
Creates an upload request using the shared manager instance for the specified method, URL string, and file.
- parameter method: The HTTP method.
- parameter URLString: The URL string.
- parameter headers: The HTTP headers. `nil` by default.
- parameter file: The file to upload.
- returns: The created upload request.
*/
public func upload(
method: Method,
_ URLString: URLStringConvertible,
headers: [String: String]? = nil,
file: NSURL)
-> Request
{
return Manager.sharedInstance.upload(method, URLString, headers: headers, file: file)
}
/**
Creates an upload request using the shared manager instance for the specified URL request and file.
- parameter URLRequest: The URL request.
- parameter file: The file to upload.
- returns: The created upload request.
*/
public func upload(URLRequest: URLRequestConvertible, file: NSURL) -> Request {
return Manager.sharedInstance.upload(URLRequest, file: file)
}
// MARK: Data
/**
Creates an upload request using the shared manager instance for the specified method, URL string, and data.
- parameter method: The HTTP method.
- parameter URLString: The URL string.
- parameter headers: The HTTP headers. `nil` by default.
- parameter data: The data to upload.
- returns: The created upload request.
*/
public func upload(
method: Method,
_ URLString: URLStringConvertible,
headers: [String: String]? = nil,
data: NSData)
-> Request
{
return Manager.sharedInstance.upload(method, URLString, headers: headers, data: data)
}
/**
Creates an upload request using the shared manager instance for the specified URL request and data.
- parameter URLRequest: The URL request.
- parameter data: The data to upload.
- returns: The created upload request.
*/
public func upload(URLRequest: URLRequestConvertible, data: NSData) -> Request {
return Manager.sharedInstance.upload(URLRequest, data: data)
}
// MARK: Stream
/**
Creates an upload request using the shared manager instance for the specified method, URL string, and stream.
- parameter method: The HTTP method.
- parameter URLString: The URL string.
- parameter headers: The HTTP headers. `nil` by default.
- parameter stream: The stream to upload.
- returns: The created upload request.
*/
public func upload(
method: Method,
_ URLString: URLStringConvertible,
headers: [String: String]? = nil,
stream: NSInputStream)
-> Request
{
return Manager.sharedInstance.upload(method, URLString, headers: headers, stream: stream)
}
/**
Creates an upload request using the shared manager instance for the specified URL request and stream.
- parameter URLRequest: The URL request.
- parameter stream: The stream to upload.
- returns: The created upload request.
*/
public func upload(URLRequest: URLRequestConvertible, stream: NSInputStream) -> Request {
return Manager.sharedInstance.upload(URLRequest, stream: stream)
}
// MARK: MultipartFormData
/**
Creates an upload request using the shared manager instance for the specified method and URL string.
- parameter method: The HTTP method.
- parameter URLString: The URL string.
- parameter headers: The HTTP headers. `nil` by default.
- parameter multipartFormData: The closure used to append body parts to the `MultipartFormData`.
- parameter encodingMemoryThreshold: The encoding memory threshold in bytes.
`MultipartFormDataEncodingMemoryThreshold` by default.
- parameter encodingCompletion: The closure called when the `MultipartFormData` encoding is complete.
*/
public func upload(
method: Method,
_ URLString: URLStringConvertible,
headers: [String: String]? = nil,
multipartFormData: MultipartFormData -> Void,
encodingMemoryThreshold: UInt64 = Manager.MultipartFormDataEncodingMemoryThreshold,
encodingCompletion: (Manager.MultipartFormDataEncodingResult -> Void)?)
{
return Manager.sharedInstance.upload(
method,
URLString,
headers: headers,
multipartFormData: multipartFormData,
encodingMemoryThreshold: encodingMemoryThreshold,
encodingCompletion: encodingCompletion
)
}
/**
Creates an upload request using the shared manager instance for the specified method and URL string.
- parameter URLRequest: The URL request.
- parameter multipartFormData: The closure used to append body parts to the `MultipartFormData`.
- parameter encodingMemoryThreshold: The encoding memory threshold in bytes.
`MultipartFormDataEncodingMemoryThreshold` by default.
- parameter encodingCompletion: The closure called when the `MultipartFormData` encoding is complete.
*/
public func upload(
URLRequest: URLRequestConvertible,
multipartFormData: MultipartFormData -> Void,
encodingMemoryThreshold: UInt64 = Manager.MultipartFormDataEncodingMemoryThreshold,
encodingCompletion: (Manager.MultipartFormDataEncodingResult -> Void)?)
{
return Manager.sharedInstance.upload(
URLRequest,
multipartFormData: multipartFormData,
encodingMemoryThreshold: encodingMemoryThreshold,
encodingCompletion: encodingCompletion
)
}
// MARK: - Download Methods
// MARK: URL Request
/**
Creates a download request using the shared manager instance for the specified method and URL string.
- parameter method: The HTTP method.
- parameter URLString: The URL string.
- parameter parameters: The parameters. `nil` by default.
- parameter encoding: The parameter encoding. `.URL` by default.
- parameter headers: The HTTP headers. `nil` by default.
- parameter destination: The closure used to determine the destination of the downloaded file.
- returns: The created download request.
*/
public func download(
method: Method,
_ URLString: URLStringConvertible,
parameters: [String: AnyObject]? = nil,
encoding: ParameterEncoding = .URL,
headers: [String: String]? = nil,
destination: Request.DownloadFileDestination)
-> Request
{
return Manager.sharedInstance.download(
method,
URLString,
parameters: parameters,
encoding: encoding,
headers: headers,
destination: destination
)
}
/**
Creates a download request using the shared manager instance for the specified URL request.
- parameter URLRequest: The URL request.
- parameter destination: The closure used to determine the destination of the downloaded file.
- returns: The created download request.
*/
public func download(URLRequest: URLRequestConvertible, destination: Request.DownloadFileDestination) -> Request {
return Manager.sharedInstance.download(URLRequest, destination: destination)
}
// MARK: Resume Data
/**
Creates a request using the shared manager instance for downloading from the resume data produced from a
previous request cancellation.
- parameter resumeData: The resume data. This is an opaque data blob produced by `NSURLSessionDownloadTask`
when a task is cancelled. See `NSURLSession -downloadTaskWithResumeData:` for additional
information.
- parameter destination: The closure used to determine the destination of the downloaded file.
- returns: The created download request.
*/
public func download(resumeData data: NSData, destination: Request.DownloadFileDestination) -> Request {
return Manager.sharedInstance.download(data, destination: destination)
}

244
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/Alamofire/Source/Download.swift generated Normal file
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@ -0,0 +1,244 @@
// Download.swift
//
// Copyright (c) 20142016 Alamofire Software Foundation (http://alamofire.org/)
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
import Foundation
extension Manager {
private enum Downloadable {
case Request(NSURLRequest)
case ResumeData(NSData)
}
private func download(downloadable: Downloadable, destination: Request.DownloadFileDestination) -> Request {
var downloadTask: NSURLSessionDownloadTask!
switch downloadable {
case .Request(let request):
dispatch_sync(queue) {
downloadTask = self.session.downloadTaskWithRequest(request)
}
case .ResumeData(let resumeData):
dispatch_sync(queue) {
downloadTask = self.session.downloadTaskWithResumeData(resumeData)
}
}
let request = Request(session: session, task: downloadTask)
if let downloadDelegate = request.delegate as? Request.DownloadTaskDelegate {
downloadDelegate.downloadTaskDidFinishDownloadingToURL = { session, downloadTask, URL in
return destination(URL, downloadTask.response as! NSHTTPURLResponse)
}
}
delegate[request.delegate.task] = request.delegate
if startRequestsImmediately {
request.resume()
}
return request
}
// MARK: Request
/**
Creates a download request for the specified method, URL string, parameters, parameter encoding, headers
and destination.
If `startRequestsImmediately` is `true`, the request will have `resume()` called before being returned.
- parameter method: The HTTP method.
- parameter URLString: The URL string.
- parameter parameters: The parameters. `nil` by default.
- parameter encoding: The parameter encoding. `.URL` by default.
- parameter headers: The HTTP headers. `nil` by default.
- parameter destination: The closure used to determine the destination of the downloaded file.
- returns: The created download request.
*/
public func download(
method: Method,
_ URLString: URLStringConvertible,
parameters: [String: AnyObject]? = nil,
encoding: ParameterEncoding = .URL,
headers: [String: String]? = nil,
destination: Request.DownloadFileDestination)
-> Request
{
let mutableURLRequest = URLRequest(method, URLString, headers: headers)
let encodedURLRequest = encoding.encode(mutableURLRequest, parameters: parameters).0
return download(encodedURLRequest, destination: destination)
}
/**
Creates a request for downloading from the specified URL request.
If `startRequestsImmediately` is `true`, the request will have `resume()` called before being returned.
- parameter URLRequest: The URL request
- parameter destination: The closure used to determine the destination of the downloaded file.
- returns: The created download request.
*/
public func download(URLRequest: URLRequestConvertible, destination: Request.DownloadFileDestination) -> Request {
return download(.Request(URLRequest.URLRequest), destination: destination)
}
// MARK: Resume Data
/**
Creates a request for downloading from the resume data produced from a previous request cancellation.
If `startRequestsImmediately` is `true`, the request will have `resume()` called before being returned.
- parameter resumeData: The resume data. This is an opaque data blob produced by `NSURLSessionDownloadTask`
when a task is cancelled. See `NSURLSession -downloadTaskWithResumeData:` for
additional information.
- parameter destination: The closure used to determine the destination of the downloaded file.
- returns: The created download request.
*/
public func download(resumeData: NSData, destination: Request.DownloadFileDestination) -> Request {
return download(.ResumeData(resumeData), destination: destination)
}
}
// MARK: -
extension Request {
/**
A closure executed once a request has successfully completed in order to determine where to move the temporary
file written to during the download process. The closure takes two arguments: the temporary file URL and the URL
response, and returns a single argument: the file URL where the temporary file should be moved.
*/
public typealias DownloadFileDestination = (NSURL, NSHTTPURLResponse) -> NSURL
/**
Creates a download file destination closure which uses the default file manager to move the temporary file to a
file URL in the first available directory with the specified search path directory and search path domain mask.
- parameter directory: The search path directory. `.DocumentDirectory` by default.
- parameter domain: The search path domain mask. `.UserDomainMask` by default.
- returns: A download file destination closure.
*/
public class func suggestedDownloadDestination(
directory directory: NSSearchPathDirectory = .DocumentDirectory,
domain: NSSearchPathDomainMask = .UserDomainMask)
-> DownloadFileDestination
{
return { temporaryURL, response -> NSURL in
let directoryURLs = NSFileManager.defaultManager().URLsForDirectory(directory, inDomains: domain)
if !directoryURLs.isEmpty {
return directoryURLs[0].URLByAppendingPathComponent(response.suggestedFilename!)
}
return temporaryURL
}
}
/// The resume data of the underlying download task if available after a failure.
public var resumeData: NSData? {
var data: NSData?
if let delegate = delegate as? DownloadTaskDelegate {
data = delegate.resumeData
}
return data
}
// MARK: - DownloadTaskDelegate
class DownloadTaskDelegate: TaskDelegate, NSURLSessionDownloadDelegate {
var downloadTask: NSURLSessionDownloadTask? { return task as? NSURLSessionDownloadTask }
var downloadProgress: ((Int64, Int64, Int64) -> Void)?
var resumeData: NSData?
override var data: NSData? { return resumeData }
// MARK: - NSURLSessionDownloadDelegate
// MARK: Override Closures
var downloadTaskDidFinishDownloadingToURL: ((NSURLSession, NSURLSessionDownloadTask, NSURL) -> NSURL)?
var downloadTaskDidWriteData: ((NSURLSession, NSURLSessionDownloadTask, Int64, Int64, Int64) -> Void)?
var downloadTaskDidResumeAtOffset: ((NSURLSession, NSURLSessionDownloadTask, Int64, Int64) -> Void)?
// MARK: Delegate Methods
func URLSession(
session: NSURLSession,
downloadTask: NSURLSessionDownloadTask,
didFinishDownloadingToURL location: NSURL)
{
if let downloadTaskDidFinishDownloadingToURL = downloadTaskDidFinishDownloadingToURL {
do {
let destination = downloadTaskDidFinishDownloadingToURL(session, downloadTask, location)
try NSFileManager.defaultManager().moveItemAtURL(location, toURL: destination)
} catch {
self.error = error as NSError
}
}
}
func URLSession(
session: NSURLSession,
downloadTask: NSURLSessionDownloadTask,
didWriteData bytesWritten: Int64,
totalBytesWritten: Int64,
totalBytesExpectedToWrite: Int64)
{
if let downloadTaskDidWriteData = downloadTaskDidWriteData {
downloadTaskDidWriteData(
session,
downloadTask,
bytesWritten,
totalBytesWritten,
totalBytesExpectedToWrite
)
} else {
progress.totalUnitCount = totalBytesExpectedToWrite
progress.completedUnitCount = totalBytesWritten
downloadProgress?(bytesWritten, totalBytesWritten, totalBytesExpectedToWrite)
}
}
func URLSession(
session: NSURLSession,
downloadTask: NSURLSessionDownloadTask,
didResumeAtOffset fileOffset: Int64,
expectedTotalBytes: Int64)
{
if let downloadTaskDidResumeAtOffset = downloadTaskDidResumeAtOffset {
downloadTaskDidResumeAtOffset(session, downloadTask, fileOffset, expectedTotalBytes)
} else {
progress.totalUnitCount = expectedTotalBytes
progress.completedUnitCount = fileOffset
}
}
}
}

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samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/Alamofire/Source/Error.swift generated Normal file
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@ -0,0 +1,66 @@
// Error.swift
//
// Copyright (c) 20142016 Alamofire Software Foundation (http://alamofire.org/)
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
import Foundation
/// The `Error` struct provides a convenience for creating custom Alamofire NSErrors.
public struct Error {
/// The domain used for creating all Alamofire errors.
public static let Domain = "com.alamofire.error"
/// The custom error codes generated by Alamofire.
public enum Code: Int {
case InputStreamReadFailed = -6000
case OutputStreamWriteFailed = -6001
case ContentTypeValidationFailed = -6002
case StatusCodeValidationFailed = -6003
case DataSerializationFailed = -6004
case StringSerializationFailed = -6005
case JSONSerializationFailed = -6006
case PropertyListSerializationFailed = -6007
}
/**
Creates an `NSError` with the given error code and failure reason.
- parameter code: The error code.
- parameter failureReason: The failure reason.
- returns: An `NSError` with the given error code and failure reason.
*/
public static func errorWithCode(code: Code, failureReason: String) -> NSError {
return errorWithCode(code.rawValue, failureReason: failureReason)
}
/**
Creates an `NSError` with the given error code and failure reason.
- parameter code: The error code.
- parameter failureReason: The failure reason.
- returns: An `NSError` with the given error code and failure reason.
*/
public static func errorWithCode(code: Int, failureReason: String) -> NSError {
let userInfo = [NSLocalizedFailureReasonErrorKey: failureReason]
return NSError(domain: Domain, code: code, userInfo: userInfo)
}
}

693
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/Alamofire/Source/Manager.swift generated Normal file
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// Manager.swift
//
// Copyright (c) 20142016 Alamofire Software Foundation (http://alamofire.org/)
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
import Foundation
/**
Responsible for creating and managing `Request` objects, as well as their underlying `NSURLSession`.
*/
public class Manager {
// MARK: - Properties
/**
A shared instance of `Manager`, used by top-level Alamofire request methods, and suitable for use directly
for any ad hoc requests.
*/
public static let sharedInstance: Manager = {
let configuration = NSURLSessionConfiguration.defaultSessionConfiguration()
configuration.HTTPAdditionalHeaders = Manager.defaultHTTPHeaders
return Manager(configuration: configuration)
}()
/**
Creates default values for the "Accept-Encoding", "Accept-Language" and "User-Agent" headers.
*/
public static let defaultHTTPHeaders: [String: String] = {
// Accept-Encoding HTTP Header; see https://tools.ietf.org/html/rfc7230#section-4.2.3
let acceptEncoding: String = "gzip;q=1.0, compress;q=0.5"
// Accept-Language HTTP Header; see https://tools.ietf.org/html/rfc7231#section-5.3.5
let acceptLanguage = NSLocale.preferredLanguages().prefix(6).enumerate().map { index, languageCode in
let quality = 1.0 - (Double(index) * 0.1)
return "\(languageCode);q=\(quality)"
}.joinWithSeparator(", ")
// User-Agent Header; see https://tools.ietf.org/html/rfc7231#section-5.5.3
let userAgent: String = {
if let info = NSBundle.mainBundle().infoDictionary {
let executable: AnyObject = info[kCFBundleExecutableKey as String] ?? "Unknown"
let bundle: AnyObject = info[kCFBundleIdentifierKey as String] ?? "Unknown"
let version: AnyObject = info[kCFBundleVersionKey as String] ?? "Unknown"
let os: AnyObject = NSProcessInfo.processInfo().operatingSystemVersionString ?? "Unknown"
var mutableUserAgent = NSMutableString(string: "\(executable)/\(bundle) (\(version); OS \(os))") as CFMutableString
let transform = NSString(string: "Any-Latin; Latin-ASCII; [:^ASCII:] Remove") as CFString
if CFStringTransform(mutableUserAgent, UnsafeMutablePointer<CFRange>(nil), transform, false) {
return mutableUserAgent as String
}
}
return "Alamofire"
}()
return [
"Accept-Encoding": acceptEncoding,
"Accept-Language": acceptLanguage,
"User-Agent": userAgent
]
}()
let queue = dispatch_queue_create(nil, DISPATCH_QUEUE_SERIAL)
/// The underlying session.
public let session: NSURLSession
/// The session delegate handling all the task and session delegate callbacks.
public let delegate: SessionDelegate
/// Whether to start requests immediately after being constructed. `true` by default.
public var startRequestsImmediately: Bool = true
/**
The background completion handler closure provided by the UIApplicationDelegate
`application:handleEventsForBackgroundURLSession:completionHandler:` method. By setting the background
completion handler, the SessionDelegate `sessionDidFinishEventsForBackgroundURLSession` closure implementation
will automatically call the handler.
If you need to handle your own events before the handler is called, then you need to override the
SessionDelegate `sessionDidFinishEventsForBackgroundURLSession` and manually call the handler when finished.
`nil` by default.
*/
public var backgroundCompletionHandler: (() -> Void)?
// MARK: - Lifecycle
/**
Initializes the `Manager` instance with the specified configuration, delegate and server trust policy.
- parameter configuration: The configuration used to construct the managed session.
`NSURLSessionConfiguration.defaultSessionConfiguration()` by default.
- parameter delegate: The delegate used when initializing the session. `SessionDelegate()` by
default.
- parameter serverTrustPolicyManager: The server trust policy manager to use for evaluating all server trust
challenges. `nil` by default.
- returns: The new `Manager` instance.
*/
public init(
configuration: NSURLSessionConfiguration = NSURLSessionConfiguration.defaultSessionConfiguration(),
delegate: SessionDelegate = SessionDelegate(),
serverTrustPolicyManager: ServerTrustPolicyManager? = nil)
{
self.delegate = delegate
self.session = NSURLSession(configuration: configuration, delegate: delegate, delegateQueue: nil)
commonInit(serverTrustPolicyManager: serverTrustPolicyManager)
}
/**
Initializes the `Manager` instance with the specified session, delegate and server trust policy.
- parameter session: The URL session.
- parameter delegate: The delegate of the URL session. Must equal the URL session's delegate.
- parameter serverTrustPolicyManager: The server trust policy manager to use for evaluating all server trust
challenges. `nil` by default.
- returns: The new `Manager` instance if the URL session's delegate matches the delegate parameter.
*/
public init?(
session: NSURLSession,
delegate: SessionDelegate,
serverTrustPolicyManager: ServerTrustPolicyManager? = nil)
{
self.delegate = delegate
self.session = session
guard delegate === session.delegate else { return nil }
commonInit(serverTrustPolicyManager: serverTrustPolicyManager)
}
private func commonInit(serverTrustPolicyManager serverTrustPolicyManager: ServerTrustPolicyManager?) {
session.serverTrustPolicyManager = serverTrustPolicyManager
delegate.sessionDidFinishEventsForBackgroundURLSession = { [weak self] session in
guard let strongSelf = self else { return }
dispatch_async(dispatch_get_main_queue()) { strongSelf.backgroundCompletionHandler?() }
}
}
deinit {
session.invalidateAndCancel()
}
// MARK: - Request
/**
Creates a request for the specified method, URL string, parameters, parameter encoding and headers.
- parameter method: The HTTP method.
- parameter URLString: The URL string.
- parameter parameters: The parameters. `nil` by default.
- parameter encoding: The parameter encoding. `.URL` by default.
- parameter headers: The HTTP headers. `nil` by default.
- returns: The created request.
*/
public func request(
method: Method,
_ URLString: URLStringConvertible,
parameters: [String: AnyObject]? = nil,
encoding: ParameterEncoding = .URL,
headers: [String: String]? = nil)
-> Request
{
let mutableURLRequest = URLRequest(method, URLString, headers: headers)
let encodedURLRequest = encoding.encode(mutableURLRequest, parameters: parameters).0
return request(encodedURLRequest)
}
/**
Creates a request for the specified URL request.
If `startRequestsImmediately` is `true`, the request will have `resume()` called before being returned.
- parameter URLRequest: The URL request
- returns: The created request.
*/
public func request(URLRequest: URLRequestConvertible) -> Request {
var dataTask: NSURLSessionDataTask!
dispatch_sync(queue) { dataTask = self.session.dataTaskWithRequest(URLRequest.URLRequest) }
let request = Request(session: session, task: dataTask)
delegate[request.delegate.task] = request.delegate
if startRequestsImmediately {
request.resume()
}
return request
}
// MARK: - SessionDelegate
/**
Responsible for handling all delegate callbacks for the underlying session.
*/
public final class SessionDelegate: NSObject, NSURLSessionDelegate, NSURLSessionTaskDelegate, NSURLSessionDataDelegate, NSURLSessionDownloadDelegate {
private var subdelegates: [Int: Request.TaskDelegate] = [:]
private let subdelegateQueue = dispatch_queue_create(nil, DISPATCH_QUEUE_CONCURRENT)
subscript(task: NSURLSessionTask) -> Request.TaskDelegate? {
get {
var subdelegate: Request.TaskDelegate?
dispatch_sync(subdelegateQueue) { subdelegate = self.subdelegates[task.taskIdentifier] }
return subdelegate
}
set {
dispatch_barrier_async(subdelegateQueue) { self.subdelegates[task.taskIdentifier] = newValue }
}
}
/**
Initializes the `SessionDelegate` instance.
- returns: The new `SessionDelegate` instance.
*/
public override init() {
super.init()
}
// MARK: - NSURLSessionDelegate
// MARK: Override Closures
/// Overrides default behavior for NSURLSessionDelegate method `URLSession:didBecomeInvalidWithError:`.
public var sessionDidBecomeInvalidWithError: ((NSURLSession, NSError?) -> Void)?
/// Overrides default behavior for NSURLSessionDelegate method `URLSession:didReceiveChallenge:completionHandler:`.
public var sessionDidReceiveChallenge: ((NSURLSession, NSURLAuthenticationChallenge) -> (NSURLSessionAuthChallengeDisposition, NSURLCredential?))?
/// Overrides default behavior for NSURLSessionDelegate method `URLSessionDidFinishEventsForBackgroundURLSession:`.
public var sessionDidFinishEventsForBackgroundURLSession: ((NSURLSession) -> Void)?
// MARK: Delegate Methods
/**
Tells the delegate that the session has been invalidated.
- parameter session: The session object that was invalidated.
- parameter error: The error that caused invalidation, or nil if the invalidation was explicit.
*/
public func URLSession(session: NSURLSession, didBecomeInvalidWithError error: NSError?) {
sessionDidBecomeInvalidWithError?(session, error)
}
/**
Requests credentials from the delegate in response to a session-level authentication request from the remote server.
- parameter session: The session containing the task that requested authentication.
- parameter challenge: An object that contains the request for authentication.
- parameter completionHandler: A handler that your delegate method must call providing the disposition and credential.
*/
public func URLSession(
session: NSURLSession,
didReceiveChallenge challenge: NSURLAuthenticationChallenge,
completionHandler: ((NSURLSessionAuthChallengeDisposition, NSURLCredential?) -> Void))
{
var disposition: NSURLSessionAuthChallengeDisposition = .PerformDefaultHandling
var credential: NSURLCredential?
if let sessionDidReceiveChallenge = sessionDidReceiveChallenge {
(disposition, credential) = sessionDidReceiveChallenge(session, challenge)
} else if challenge.protectionSpace.authenticationMethod == NSURLAuthenticationMethodServerTrust {
let host = challenge.protectionSpace.host
if let
serverTrustPolicy = session.serverTrustPolicyManager?.serverTrustPolicyForHost(host),
serverTrust = challenge.protectionSpace.serverTrust
{
if serverTrustPolicy.evaluateServerTrust(serverTrust, isValidForHost: host) {
disposition = .UseCredential
credential = NSURLCredential(forTrust: serverTrust)
} else {
disposition = .CancelAuthenticationChallenge
}
}
}
completionHandler(disposition, credential)
}
/**
Tells the delegate that all messages enqueued for a session have been delivered.
- parameter session: The session that no longer has any outstanding requests.
*/
public func URLSessionDidFinishEventsForBackgroundURLSession(session: NSURLSession) {
sessionDidFinishEventsForBackgroundURLSession?(session)
}
// MARK: - NSURLSessionTaskDelegate
// MARK: Override Closures
/// Overrides default behavior for NSURLSessionTaskDelegate method `URLSession:task:willPerformHTTPRedirection:newRequest:completionHandler:`.
public var taskWillPerformHTTPRedirection: ((NSURLSession, NSURLSessionTask, NSHTTPURLResponse, NSURLRequest) -> NSURLRequest?)?
/// Overrides default behavior for NSURLSessionTaskDelegate method `URLSession:task:didReceiveChallenge:completionHandler:`.
public var taskDidReceiveChallenge: ((NSURLSession, NSURLSessionTask, NSURLAuthenticationChallenge) -> (NSURLSessionAuthChallengeDisposition, NSURLCredential?))?
/// Overrides default behavior for NSURLSessionTaskDelegate method `URLSession:session:task:needNewBodyStream:`.
public var taskNeedNewBodyStream: ((NSURLSession, NSURLSessionTask) -> NSInputStream!)?
/// Overrides default behavior for NSURLSessionTaskDelegate method `URLSession:task:didSendBodyData:totalBytesSent:totalBytesExpectedToSend:`.
public var taskDidSendBodyData: ((NSURLSession, NSURLSessionTask, Int64, Int64, Int64) -> Void)?
/// Overrides default behavior for NSURLSessionTaskDelegate method `URLSession:task:didCompleteWithError:`.
public var taskDidComplete: ((NSURLSession, NSURLSessionTask, NSError?) -> Void)?
// MARK: Delegate Methods
/**
Tells the delegate that the remote server requested an HTTP redirect.
- parameter session: The session containing the task whose request resulted in a redirect.
- parameter task: The task whose request resulted in a redirect.
- parameter response: An object containing the servers response to the original request.
- parameter request: A URL request object filled out with the new location.
- parameter completionHandler: A closure that your handler should call with either the value of the request
parameter, a modified URL request object, or NULL to refuse the redirect and
return the body of the redirect response.
*/
public func URLSession(
session: NSURLSession,
task: NSURLSessionTask,
willPerformHTTPRedirection response: NSHTTPURLResponse,
newRequest request: NSURLRequest,
completionHandler: ((NSURLRequest?) -> Void))
{
var redirectRequest: NSURLRequest? = request
if let taskWillPerformHTTPRedirection = taskWillPerformHTTPRedirection {
redirectRequest = taskWillPerformHTTPRedirection(session, task, response, request)
}
completionHandler(redirectRequest)
}
/**
Requests credentials from the delegate in response to an authentication request from the remote server.
- parameter session: The session containing the task whose request requires authentication.
- parameter task: The task whose request requires authentication.
- parameter challenge: An object that contains the request for authentication.
- parameter completionHandler: A handler that your delegate method must call providing the disposition and credential.
*/
public func URLSession(
session: NSURLSession,
task: NSURLSessionTask,
didReceiveChallenge challenge: NSURLAuthenticationChallenge,
completionHandler: ((NSURLSessionAuthChallengeDisposition, NSURLCredential?) -> Void))
{
if let taskDidReceiveChallenge = taskDidReceiveChallenge {
completionHandler(taskDidReceiveChallenge(session, task, challenge))
} else if let delegate = self[task] {
delegate.URLSession(
session,
task: task,
didReceiveChallenge: challenge,
completionHandler: completionHandler
)
} else {
URLSession(session, didReceiveChallenge: challenge, completionHandler: completionHandler)
}
}
/**
Tells the delegate when a task requires a new request body stream to send to the remote server.
- parameter session: The session containing the task that needs a new body stream.
- parameter task: The task that needs a new body stream.
- parameter completionHandler: A completion handler that your delegate method should call with the new body stream.
*/
public func URLSession(
session: NSURLSession,
task: NSURLSessionTask,
needNewBodyStream completionHandler: ((NSInputStream?) -> Void))
{
if let taskNeedNewBodyStream = taskNeedNewBodyStream {
completionHandler(taskNeedNewBodyStream(session, task))
} else if let delegate = self[task] {
delegate.URLSession(session, task: task, needNewBodyStream: completionHandler)
}
}
/**
Periodically informs the delegate of the progress of sending body content to the server.
- parameter session: The session containing the data task.
- parameter task: The data task.
- parameter bytesSent: The number of bytes sent since the last time this delegate method was called.
- parameter totalBytesSent: The total number of bytes sent so far.
- parameter totalBytesExpectedToSend: The expected length of the body data.
*/
public func URLSession(
session: NSURLSession,
task: NSURLSessionTask,
didSendBodyData bytesSent: Int64,
totalBytesSent: Int64,
totalBytesExpectedToSend: Int64)
{
if let taskDidSendBodyData = taskDidSendBodyData {
taskDidSendBodyData(session, task, bytesSent, totalBytesSent, totalBytesExpectedToSend)
} else if let delegate = self[task] as? Request.UploadTaskDelegate {
delegate.URLSession(
session,
task: task,
didSendBodyData: bytesSent,
totalBytesSent: totalBytesSent,
totalBytesExpectedToSend: totalBytesExpectedToSend
)
}
}
/**
Tells the delegate that the task finished transferring data.
- parameter session: The session containing the task whose request finished transferring data.
- parameter task: The task whose request finished transferring data.
- parameter error: If an error occurred, an error object indicating how the transfer failed, otherwise nil.
*/
public func URLSession(session: NSURLSession, task: NSURLSessionTask, didCompleteWithError error: NSError?) {
if let taskDidComplete = taskDidComplete {
taskDidComplete(session, task, error)
} else if let delegate = self[task] {
delegate.URLSession(session, task: task, didCompleteWithError: error)
}
self[task] = nil
}
// MARK: - NSURLSessionDataDelegate
// MARK: Override Closures
/// Overrides default behavior for NSURLSessionDataDelegate method `URLSession:dataTask:didReceiveResponse:completionHandler:`.
public var dataTaskDidReceiveResponse: ((NSURLSession, NSURLSessionDataTask, NSURLResponse) -> NSURLSessionResponseDisposition)?
/// Overrides default behavior for NSURLSessionDataDelegate method `URLSession:dataTask:didBecomeDownloadTask:`.
public var dataTaskDidBecomeDownloadTask: ((NSURLSession, NSURLSessionDataTask, NSURLSessionDownloadTask) -> Void)?
/// Overrides default behavior for NSURLSessionDataDelegate method `URLSession:dataTask:didReceiveData:`.
public var dataTaskDidReceiveData: ((NSURLSession, NSURLSessionDataTask, NSData) -> Void)?
/// Overrides default behavior for NSURLSessionDataDelegate method `URLSession:dataTask:willCacheResponse:completionHandler:`.
public var dataTaskWillCacheResponse: ((NSURLSession, NSURLSessionDataTask, NSCachedURLResponse) -> NSCachedURLResponse!)?
// MARK: Delegate Methods
/**
Tells the delegate that the data task received the initial reply (headers) from the server.
- parameter session: The session containing the data task that received an initial reply.
- parameter dataTask: The data task that received an initial reply.
- parameter response: A URL response object populated with headers.
- parameter completionHandler: A completion handler that your code calls to continue the transfer, passing a
constant to indicate whether the transfer should continue as a data task or
should become a download task.
*/
public func URLSession(
session: NSURLSession,
dataTask: NSURLSessionDataTask,
didReceiveResponse response: NSURLResponse,
completionHandler: ((NSURLSessionResponseDisposition) -> Void))
{
var disposition: NSURLSessionResponseDisposition = .Allow
if let dataTaskDidReceiveResponse = dataTaskDidReceiveResponse {
disposition = dataTaskDidReceiveResponse(session, dataTask, response)
}
completionHandler(disposition)
}
/**
Tells the delegate that the data task was changed to a download task.
- parameter session: The session containing the task that was replaced by a download task.
- parameter dataTask: The data task that was replaced by a download task.
- parameter downloadTask: The new download task that replaced the data task.
*/
public func URLSession(
session: NSURLSession,
dataTask: NSURLSessionDataTask,
didBecomeDownloadTask downloadTask: NSURLSessionDownloadTask)
{
if let dataTaskDidBecomeDownloadTask = dataTaskDidBecomeDownloadTask {
dataTaskDidBecomeDownloadTask(session, dataTask, downloadTask)
} else {
let downloadDelegate = Request.DownloadTaskDelegate(task: downloadTask)
self[downloadTask] = downloadDelegate
}
}
/**
Tells the delegate that the data task has received some of the expected data.
- parameter session: The session containing the data task that provided data.
- parameter dataTask: The data task that provided data.
- parameter data: A data object containing the transferred data.
*/
public func URLSession(session: NSURLSession, dataTask: NSURLSessionDataTask, didReceiveData data: NSData) {
if let dataTaskDidReceiveData = dataTaskDidReceiveData {
dataTaskDidReceiveData(session, dataTask, data)
} else if let delegate = self[dataTask] as? Request.DataTaskDelegate {
delegate.URLSession(session, dataTask: dataTask, didReceiveData: data)
}
}
/**
Asks the delegate whether the data (or upload) task should store the response in the cache.
- parameter session: The session containing the data (or upload) task.
- parameter dataTask: The data (or upload) task.
- parameter proposedResponse: The default caching behavior. This behavior is determined based on the current
caching policy and the values of certain received headers, such as the Pragma
and Cache-Control headers.
- parameter completionHandler: A block that your handler must call, providing either the original proposed
response, a modified version of that response, or NULL to prevent caching the
response. If your delegate implements this method, it must call this completion
handler; otherwise, your app leaks memory.
*/
public func URLSession(
session: NSURLSession,
dataTask: NSURLSessionDataTask,
willCacheResponse proposedResponse: NSCachedURLResponse,
completionHandler: ((NSCachedURLResponse?) -> Void))
{
if let dataTaskWillCacheResponse = dataTaskWillCacheResponse {
completionHandler(dataTaskWillCacheResponse(session, dataTask, proposedResponse))
} else if let delegate = self[dataTask] as? Request.DataTaskDelegate {
delegate.URLSession(
session,
dataTask: dataTask,
willCacheResponse: proposedResponse,
completionHandler: completionHandler
)
} else {
completionHandler(proposedResponse)
}
}
// MARK: - NSURLSessionDownloadDelegate
// MARK: Override Closures
/// Overrides default behavior for NSURLSessionDownloadDelegate method `URLSession:downloadTask:didFinishDownloadingToURL:`.
public var downloadTaskDidFinishDownloadingToURL: ((NSURLSession, NSURLSessionDownloadTask, NSURL) -> Void)?
/// Overrides default behavior for NSURLSessionDownloadDelegate method `URLSession:downloadTask:didWriteData:totalBytesWritten:totalBytesExpectedToWrite:`.
public var downloadTaskDidWriteData: ((NSURLSession, NSURLSessionDownloadTask, Int64, Int64, Int64) -> Void)?
/// Overrides default behavior for NSURLSessionDownloadDelegate method `URLSession:downloadTask:didResumeAtOffset:expectedTotalBytes:`.
public var downloadTaskDidResumeAtOffset: ((NSURLSession, NSURLSessionDownloadTask, Int64, Int64) -> Void)?
// MARK: Delegate Methods
/**
Tells the delegate that a download task has finished downloading.
- parameter session: The session containing the download task that finished.
- parameter downloadTask: The download task that finished.
- parameter location: A file URL for the temporary file. Because the file is temporary, you must either
open the file for reading or move it to a permanent location in your apps sandbox
container directory before returning from this delegate method.
*/
public func URLSession(
session: NSURLSession,
downloadTask: NSURLSessionDownloadTask,
didFinishDownloadingToURL location: NSURL)
{
if let downloadTaskDidFinishDownloadingToURL = downloadTaskDidFinishDownloadingToURL {
downloadTaskDidFinishDownloadingToURL(session, downloadTask, location)
} else if let delegate = self[downloadTask] as? Request.DownloadTaskDelegate {
delegate.URLSession(session, downloadTask: downloadTask, didFinishDownloadingToURL: location)
}
}
/**
Periodically informs the delegate about the downloads progress.
- parameter session: The session containing the download task.
- parameter downloadTask: The download task.
- parameter bytesWritten: The number of bytes transferred since the last time this delegate
method was called.
- parameter totalBytesWritten: The total number of bytes transferred so far.
- parameter totalBytesExpectedToWrite: The expected length of the file, as provided by the Content-Length
header. If this header was not provided, the value is
`NSURLSessionTransferSizeUnknown`.
*/
public func URLSession(
session: NSURLSession,
downloadTask: NSURLSessionDownloadTask,
didWriteData bytesWritten: Int64,
totalBytesWritten: Int64,
totalBytesExpectedToWrite: Int64)
{
if let downloadTaskDidWriteData = downloadTaskDidWriteData {
downloadTaskDidWriteData(session, downloadTask, bytesWritten, totalBytesWritten, totalBytesExpectedToWrite)
} else if let delegate = self[downloadTask] as? Request.DownloadTaskDelegate {
delegate.URLSession(
session,
downloadTask: downloadTask,
didWriteData: bytesWritten,
totalBytesWritten: totalBytesWritten,
totalBytesExpectedToWrite: totalBytesExpectedToWrite
)
}
}
/**
Tells the delegate that the download task has resumed downloading.
- parameter session: The session containing the download task that finished.
- parameter downloadTask: The download task that resumed. See explanation in the discussion.
- parameter fileOffset: If the file's cache policy or last modified date prevents reuse of the
existing content, then this value is zero. Otherwise, this value is an
integer representing the number of bytes on disk that do not need to be
retrieved again.
- parameter expectedTotalBytes: The expected length of the file, as provided by the Content-Length header.
If this header was not provided, the value is NSURLSessionTransferSizeUnknown.
*/
public func URLSession(
session: NSURLSession,
downloadTask: NSURLSessionDownloadTask,
didResumeAtOffset fileOffset: Int64,
expectedTotalBytes: Int64)
{
if let downloadTaskDidResumeAtOffset = downloadTaskDidResumeAtOffset {
downloadTaskDidResumeAtOffset(session, downloadTask, fileOffset, expectedTotalBytes)
} else if let delegate = self[downloadTask] as? Request.DownloadTaskDelegate {
delegate.URLSession(
session,
downloadTask: downloadTask,
didResumeAtOffset: fileOffset,
expectedTotalBytes: expectedTotalBytes
)
}
}
// MARK: - NSURLSessionStreamDelegate
var _streamTaskReadClosed: Any?
var _streamTaskWriteClosed: Any?
var _streamTaskBetterRouteDiscovered: Any?
var _streamTaskDidBecomeInputStream: Any?
// MARK: - NSObject
public override func respondsToSelector(selector: Selector) -> Bool {
switch selector {
case "URLSession:didBecomeInvalidWithError:":
return sessionDidBecomeInvalidWithError != nil
case "URLSession:didReceiveChallenge:completionHandler:":
return sessionDidReceiveChallenge != nil
case "URLSessionDidFinishEventsForBackgroundURLSession:":
return sessionDidFinishEventsForBackgroundURLSession != nil
case "URLSession:task:willPerformHTTPRedirection:newRequest:completionHandler:":
return taskWillPerformHTTPRedirection != nil
case "URLSession:dataTask:didReceiveResponse:completionHandler:":
return dataTaskDidReceiveResponse != nil
default:
return self.dynamicType.instancesRespondToSelector(selector)
}
}
}
}

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// MultipartFormData.swift
//
// Copyright (c) 20142016 Alamofire Software Foundation (http://alamofire.org/)
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
import Foundation
#if os(iOS) || os(watchOS) || os(tvOS)
import MobileCoreServices
#elseif os(OSX)
import CoreServices
#endif
/**
Constructs `multipart/form-data` for uploads within an HTTP or HTTPS body. There are currently two ways to encode
multipart form data. The first way is to encode the data directly in memory. This is very efficient, but can lead
to memory issues if the dataset is too large. The second way is designed for larger datasets and will write all the
data to a single file on disk with all the proper boundary segmentation. The second approach MUST be used for
larger datasets such as video content, otherwise your app may run out of memory when trying to encode the dataset.
For more information on `multipart/form-data` in general, please refer to the RFC-2388 and RFC-2045 specs as well
and the w3 form documentation.
- https://www.ietf.org/rfc/rfc2388.txt
- https://www.ietf.org/rfc/rfc2045.txt
- https://www.w3.org/TR/html401/interact/forms.html#h-17.13
*/
public class MultipartFormData {
// MARK: - Helper Types
struct EncodingCharacters {
static let CRLF = "\r\n"
}
struct BoundaryGenerator {
enum BoundaryType {
case Initial, Encapsulated, Final
}
static func randomBoundary() -> String {
return String(format: "alamofire.boundary.%08x%08x", arc4random(), arc4random())
}
static func boundaryData(boundaryType boundaryType: BoundaryType, boundary: String) -> NSData {
let boundaryText: String
switch boundaryType {
case .Initial:
boundaryText = "--\(boundary)\(EncodingCharacters.CRLF)"
case .Encapsulated:
boundaryText = "\(EncodingCharacters.CRLF)--\(boundary)\(EncodingCharacters.CRLF)"
case .Final:
boundaryText = "\(EncodingCharacters.CRLF)--\(boundary)--\(EncodingCharacters.CRLF)"
}
return boundaryText.dataUsingEncoding(NSUTF8StringEncoding, allowLossyConversion: false)!
}
}
class BodyPart {
let headers: [String: String]
let bodyStream: NSInputStream
let bodyContentLength: UInt64
var hasInitialBoundary = false
var hasFinalBoundary = false
init(headers: [String: String], bodyStream: NSInputStream, bodyContentLength: UInt64) {
self.headers = headers
self.bodyStream = bodyStream
self.bodyContentLength = bodyContentLength
}
}
// MARK: - Properties
/// The `Content-Type` header value containing the boundary used to generate the `multipart/form-data`.
public var contentType: String { return "multipart/form-data; boundary=\(boundary)" }
/// The content length of all body parts used to generate the `multipart/form-data` not including the boundaries.
public var contentLength: UInt64 { return bodyParts.reduce(0) { $0 + $1.bodyContentLength } }
/// The boundary used to separate the body parts in the encoded form data.
public let boundary: String
private var bodyParts: [BodyPart]
private var bodyPartError: NSError?
private let streamBufferSize: Int
// MARK: - Lifecycle
/**
Creates a multipart form data object.
- returns: The multipart form data object.
*/
public init() {
self.boundary = BoundaryGenerator.randomBoundary()
self.bodyParts = []
/**
* The optimal read/write buffer size in bytes for input and output streams is 1024 (1KB). For more
* information, please refer to the following article:
* - https://developer.apple.com/library/mac/documentation/Cocoa/Conceptual/Streams/Articles/ReadingInputStreams.html
*/
self.streamBufferSize = 1024
}
// MARK: - Body Parts
/**
Creates a body part from the data and appends it to the multipart form data object.
The body part data will be encoded using the following format:
- `Content-Disposition: form-data; name=#{name}` (HTTP Header)
- Encoded data
- Multipart form boundary
- parameter data: The data to encode into the multipart form data.
- parameter name: The name to associate with the data in the `Content-Disposition` HTTP header.
*/
public func appendBodyPart(data data: NSData, name: String) {
let headers = contentHeaders(name: name)
let stream = NSInputStream(data: data)
let length = UInt64(data.length)
appendBodyPart(stream: stream, length: length, headers: headers)
}
/**
Creates a body part from the data and appends it to the multipart form data object.
The body part data will be encoded using the following format:
- `Content-Disposition: form-data; name=#{name}` (HTTP Header)
- `Content-Type: #{generated mimeType}` (HTTP Header)
- Encoded data
- Multipart form boundary
- parameter data: The data to encode into the multipart form data.
- parameter name: The name to associate with the data in the `Content-Disposition` HTTP header.
- parameter mimeType: The MIME type to associate with the data content type in the `Content-Type` HTTP header.
*/
public func appendBodyPart(data data: NSData, name: String, mimeType: String) {
let headers = contentHeaders(name: name, mimeType: mimeType)
let stream = NSInputStream(data: data)
let length = UInt64(data.length)
appendBodyPart(stream: stream, length: length, headers: headers)
}
/**
Creates a body part from the data and appends it to the multipart form data object.
The body part data will be encoded using the following format:
- `Content-Disposition: form-data; name=#{name}; filename=#{filename}` (HTTP Header)
- `Content-Type: #{mimeType}` (HTTP Header)
- Encoded file data
- Multipart form boundary
- parameter data: The data to encode into the multipart form data.
- parameter name: The name to associate with the data in the `Content-Disposition` HTTP header.
- parameter fileName: The filename to associate with the data in the `Content-Disposition` HTTP header.
- parameter mimeType: The MIME type to associate with the data in the `Content-Type` HTTP header.
*/
public func appendBodyPart(data data: NSData, name: String, fileName: String, mimeType: String) {
let headers = contentHeaders(name: name, fileName: fileName, mimeType: mimeType)
let stream = NSInputStream(data: data)
let length = UInt64(data.length)
appendBodyPart(stream: stream, length: length, headers: headers)
}
/**
Creates a body part from the file and appends it to the multipart form data object.
The body part data will be encoded using the following format:
- `Content-Disposition: form-data; name=#{name}; filename=#{generated filename}` (HTTP Header)
- `Content-Type: #{generated mimeType}` (HTTP Header)
- Encoded file data
- Multipart form boundary
The filename in the `Content-Disposition` HTTP header is generated from the last path component of the
`fileURL`. The `Content-Type` HTTP header MIME type is generated by mapping the `fileURL` extension to the
system associated MIME type.
- parameter fileURL: The URL of the file whose content will be encoded into the multipart form data.
- parameter name: The name to associate with the file content in the `Content-Disposition` HTTP header.
*/
public func appendBodyPart(fileURL fileURL: NSURL, name: String) {
if let
fileName = fileURL.lastPathComponent,
pathExtension = fileURL.pathExtension
{
let mimeType = mimeTypeForPathExtension(pathExtension)
appendBodyPart(fileURL: fileURL, name: name, fileName: fileName, mimeType: mimeType)
} else {
let failureReason = "Failed to extract the fileName of the provided URL: \(fileURL)"
setBodyPartError(Error.errorWithCode(NSURLErrorBadURL, failureReason: failureReason))
}
}
/**
Creates a body part from the file and appends it to the multipart form data object.
The body part data will be encoded using the following format:
- Content-Disposition: form-data; name=#{name}; filename=#{filename} (HTTP Header)
- Content-Type: #{mimeType} (HTTP Header)
- Encoded file data
- Multipart form boundary
- parameter fileURL: The URL of the file whose content will be encoded into the multipart form data.
- parameter name: The name to associate with the file content in the `Content-Disposition` HTTP header.
- parameter fileName: The filename to associate with the file content in the `Content-Disposition` HTTP header.
- parameter mimeType: The MIME type to associate with the file content in the `Content-Type` HTTP header.
*/
public func appendBodyPart(fileURL fileURL: NSURL, name: String, fileName: String, mimeType: String) {
let headers = contentHeaders(name: name, fileName: fileName, mimeType: mimeType)
//============================================================
// Check 1 - is file URL?
//============================================================
guard fileURL.fileURL else {
let failureReason = "The file URL does not point to a file URL: \(fileURL)"
let error = Error.errorWithCode(NSURLErrorBadURL, failureReason: failureReason)
setBodyPartError(error)
return
}
//============================================================
// Check 2 - is file URL reachable?
//============================================================
var isReachable = true
if #available(OSX 10.10, *) {
isReachable = fileURL.checkPromisedItemIsReachableAndReturnError(nil)
}
guard isReachable else {
let error = Error.errorWithCode(NSURLErrorBadURL, failureReason: "The file URL is not reachable: \(fileURL)")
setBodyPartError(error)
return
}
//============================================================
// Check 3 - is file URL a directory?
//============================================================
var isDirectory: ObjCBool = false
guard let
path = fileURL.path
where NSFileManager.defaultManager().fileExistsAtPath(path, isDirectory: &isDirectory) && !isDirectory else
{
let failureReason = "The file URL is a directory, not a file: \(fileURL)"
let error = Error.errorWithCode(NSURLErrorBadURL, failureReason: failureReason)
setBodyPartError(error)
return
}
//============================================================
// Check 4 - can the file size be extracted?
//============================================================
var bodyContentLength: UInt64?
do {
if let
path = fileURL.path,
fileSize = try NSFileManager.defaultManager().attributesOfItemAtPath(path)[NSFileSize] as? NSNumber
{
bodyContentLength = fileSize.unsignedLongLongValue
}
} catch {
// No-op
}
guard let length = bodyContentLength else {
let failureReason = "Could not fetch attributes from the file URL: \(fileURL)"
let error = Error.errorWithCode(NSURLErrorBadURL, failureReason: failureReason)
setBodyPartError(error)
return
}
//============================================================
// Check 5 - can a stream be created from file URL?
//============================================================
guard let stream = NSInputStream(URL: fileURL) else {
let failureReason = "Failed to create an input stream from the file URL: \(fileURL)"
let error = Error.errorWithCode(NSURLErrorCannotOpenFile, failureReason: failureReason)
setBodyPartError(error)
return
}
appendBodyPart(stream: stream, length: length, headers: headers)
}
/**
Creates a body part from the stream and appends it to the multipart form data object.
The body part data will be encoded using the following format:
- `Content-Disposition: form-data; name=#{name}; filename=#{filename}` (HTTP Header)
- `Content-Type: #{mimeType}` (HTTP Header)
- Encoded stream data
- Multipart form boundary
- parameter stream: The input stream to encode in the multipart form data.
- parameter length: The content length of the stream.
- parameter name: The name to associate with the stream content in the `Content-Disposition` HTTP header.
- parameter fileName: The filename to associate with the stream content in the `Content-Disposition` HTTP header.
- parameter mimeType: The MIME type to associate with the stream content in the `Content-Type` HTTP header.
*/
public func appendBodyPart(
stream stream: NSInputStream,
length: UInt64,
name: String,
fileName: String,
mimeType: String)
{
let headers = contentHeaders(name: name, fileName: fileName, mimeType: mimeType)
appendBodyPart(stream: stream, length: length, headers: headers)
}
/**
Creates a body part with the headers, stream and length and appends it to the multipart form data object.
The body part data will be encoded using the following format:
- HTTP headers
- Encoded stream data
- Multipart form boundary
- parameter stream: The input stream to encode in the multipart form data.
- parameter length: The content length of the stream.
- parameter headers: The HTTP headers for the body part.
*/
public func appendBodyPart(stream stream: NSInputStream, length: UInt64, headers: [String: String]) {
let bodyPart = BodyPart(headers: headers, bodyStream: stream, bodyContentLength: length)
bodyParts.append(bodyPart)
}
// MARK: - Data Encoding
/**
Encodes all the appended body parts into a single `NSData` object.
It is important to note that this method will load all the appended body parts into memory all at the same
time. This method should only be used when the encoded data will have a small memory footprint. For large data
cases, please use the `writeEncodedDataToDisk(fileURL:completionHandler:)` method.
- throws: An `NSError` if encoding encounters an error.
- returns: The encoded `NSData` if encoding is successful.
*/
public func encode() throws -> NSData {
if let bodyPartError = bodyPartError {
throw bodyPartError
}
let encoded = NSMutableData()
bodyParts.first?.hasInitialBoundary = true
bodyParts.last?.hasFinalBoundary = true
for bodyPart in bodyParts {
let encodedData = try encodeBodyPart(bodyPart)
encoded.appendData(encodedData)
}
return encoded
}
/**
Writes the appended body parts into the given file URL.
This process is facilitated by reading and writing with input and output streams, respectively. Thus,
this approach is very memory efficient and should be used for large body part data.
- parameter fileURL: The file URL to write the multipart form data into.
- throws: An `NSError` if encoding encounters an error.
*/
public func writeEncodedDataToDisk(fileURL: NSURL) throws {
if let bodyPartError = bodyPartError {
throw bodyPartError
}
if let path = fileURL.path where NSFileManager.defaultManager().fileExistsAtPath(path) {
let failureReason = "A file already exists at the given file URL: \(fileURL)"
throw Error.errorWithCode(NSURLErrorBadURL, failureReason: failureReason)
} else if !fileURL.fileURL {
let failureReason = "The URL does not point to a valid file: \(fileURL)"
throw Error.errorWithCode(NSURLErrorBadURL, failureReason: failureReason)
}
let outputStream: NSOutputStream
if let possibleOutputStream = NSOutputStream(URL: fileURL, append: false) {
outputStream = possibleOutputStream
} else {
let failureReason = "Failed to create an output stream with the given URL: \(fileURL)"
throw Error.errorWithCode(NSURLErrorCannotOpenFile, failureReason: failureReason)
}
outputStream.scheduleInRunLoop(NSRunLoop.currentRunLoop(), forMode: NSDefaultRunLoopMode)
outputStream.open()
self.bodyParts.first?.hasInitialBoundary = true
self.bodyParts.last?.hasFinalBoundary = true
for bodyPart in self.bodyParts {
try writeBodyPart(bodyPart, toOutputStream: outputStream)
}
outputStream.close()
outputStream.removeFromRunLoop(NSRunLoop.currentRunLoop(), forMode: NSDefaultRunLoopMode)
}
// MARK: - Private - Body Part Encoding
private func encodeBodyPart(bodyPart: BodyPart) throws -> NSData {
let encoded = NSMutableData()
let initialData = bodyPart.hasInitialBoundary ? initialBoundaryData() : encapsulatedBoundaryData()
encoded.appendData(initialData)
let headerData = encodeHeaderDataForBodyPart(bodyPart)
encoded.appendData(headerData)
let bodyStreamData = try encodeBodyStreamDataForBodyPart(bodyPart)
encoded.appendData(bodyStreamData)
if bodyPart.hasFinalBoundary {
encoded.appendData(finalBoundaryData())
}
return encoded
}
private func encodeHeaderDataForBodyPart(bodyPart: BodyPart) -> NSData {
var headerText = ""
for (key, value) in bodyPart.headers {
headerText += "\(key): \(value)\(EncodingCharacters.CRLF)"
}
headerText += EncodingCharacters.CRLF
return headerText.dataUsingEncoding(NSUTF8StringEncoding, allowLossyConversion: false)!
}
private func encodeBodyStreamDataForBodyPart(bodyPart: BodyPart) throws -> NSData {
let inputStream = bodyPart.bodyStream
inputStream.scheduleInRunLoop(NSRunLoop.currentRunLoop(), forMode: NSDefaultRunLoopMode)
inputStream.open()
var error: NSError?
let encoded = NSMutableData()
while inputStream.hasBytesAvailable {
var buffer = [UInt8](count: streamBufferSize, repeatedValue: 0)
let bytesRead = inputStream.read(&buffer, maxLength: streamBufferSize)
if inputStream.streamError != nil {
error = inputStream.streamError
break
}
if bytesRead > 0 {
encoded.appendBytes(buffer, length: bytesRead)
} else if bytesRead < 0 {
let failureReason = "Failed to read from input stream: \(inputStream)"
error = Error.errorWithCode(.InputStreamReadFailed, failureReason: failureReason)
break
} else {
break
}
}
inputStream.close()
inputStream.removeFromRunLoop(NSRunLoop.currentRunLoop(), forMode: NSDefaultRunLoopMode)
if let error = error {
throw error
}
return encoded
}
// MARK: - Private - Writing Body Part to Output Stream
private func writeBodyPart(bodyPart: BodyPart, toOutputStream outputStream: NSOutputStream) throws {
try writeInitialBoundaryDataForBodyPart(bodyPart, toOutputStream: outputStream)
try writeHeaderDataForBodyPart(bodyPart, toOutputStream: outputStream)
try writeBodyStreamForBodyPart(bodyPart, toOutputStream: outputStream)
try writeFinalBoundaryDataForBodyPart(bodyPart, toOutputStream: outputStream)
}
private func writeInitialBoundaryDataForBodyPart(
bodyPart: BodyPart,
toOutputStream outputStream: NSOutputStream)
throws
{
let initialData = bodyPart.hasInitialBoundary ? initialBoundaryData() : encapsulatedBoundaryData()
return try writeData(initialData, toOutputStream: outputStream)
}
private func writeHeaderDataForBodyPart(bodyPart: BodyPart, toOutputStream outputStream: NSOutputStream) throws {
let headerData = encodeHeaderDataForBodyPart(bodyPart)
return try writeData(headerData, toOutputStream: outputStream)
}
private func writeBodyStreamForBodyPart(bodyPart: BodyPart, toOutputStream outputStream: NSOutputStream) throws {
let inputStream = bodyPart.bodyStream
inputStream.scheduleInRunLoop(NSRunLoop.currentRunLoop(), forMode: NSDefaultRunLoopMode)
inputStream.open()
while inputStream.hasBytesAvailable {
var buffer = [UInt8](count: streamBufferSize, repeatedValue: 0)
let bytesRead = inputStream.read(&buffer, maxLength: streamBufferSize)
if let streamError = inputStream.streamError {
throw streamError
}
if bytesRead > 0 {
if buffer.count != bytesRead {
buffer = Array(buffer[0..<bytesRead])
}
try writeBuffer(&buffer, toOutputStream: outputStream)
} else if bytesRead < 0 {
let failureReason = "Failed to read from input stream: \(inputStream)"
throw Error.errorWithCode(.InputStreamReadFailed, failureReason: failureReason)
} else {
break
}
}
inputStream.close()
inputStream.removeFromRunLoop(NSRunLoop.currentRunLoop(), forMode: NSDefaultRunLoopMode)
}
private func writeFinalBoundaryDataForBodyPart(
bodyPart: BodyPart,
toOutputStream outputStream: NSOutputStream)
throws
{
if bodyPart.hasFinalBoundary {
return try writeData(finalBoundaryData(), toOutputStream: outputStream)
}
}
// MARK: - Private - Writing Buffered Data to Output Stream
private func writeData(data: NSData, toOutputStream outputStream: NSOutputStream) throws {
var buffer = [UInt8](count: data.length, repeatedValue: 0)
data.getBytes(&buffer, length: data.length)
return try writeBuffer(&buffer, toOutputStream: outputStream)
}
private func writeBuffer(inout buffer: [UInt8], toOutputStream outputStream: NSOutputStream) throws {
var bytesToWrite = buffer.count
while bytesToWrite > 0 {
if outputStream.hasSpaceAvailable {
let bytesWritten = outputStream.write(buffer, maxLength: bytesToWrite)
if let streamError = outputStream.streamError {
throw streamError
}
if bytesWritten < 0 {
let failureReason = "Failed to write to output stream: \(outputStream)"
throw Error.errorWithCode(.OutputStreamWriteFailed, failureReason: failureReason)
}
bytesToWrite -= bytesWritten
if bytesToWrite > 0 {
buffer = Array(buffer[bytesWritten..<buffer.count])
}
} else if let streamError = outputStream.streamError {
throw streamError
}
}
}
// MARK: - Private - Mime Type
private func mimeTypeForPathExtension(pathExtension: String) -> String {
if let
id = UTTypeCreatePreferredIdentifierForTag(kUTTagClassFilenameExtension, pathExtension, nil)?.takeRetainedValue(),
contentType = UTTypeCopyPreferredTagWithClass(id, kUTTagClassMIMEType)?.takeRetainedValue()
{
return contentType as String
}
return "application/octet-stream"
}
// MARK: - Private - Content Headers
private func contentHeaders(name name: String) -> [String: String] {
return ["Content-Disposition": "form-data; name=\"\(name)\""]
}
private func contentHeaders(name name: String, mimeType: String) -> [String: String] {
return [
"Content-Disposition": "form-data; name=\"\(name)\"",
"Content-Type": "\(mimeType)"
]
}
private func contentHeaders(name name: String, fileName: String, mimeType: String) -> [String: String] {
return [
"Content-Disposition": "form-data; name=\"\(name)\"; filename=\"\(fileName)\"",
"Content-Type": "\(mimeType)"
]
}
// MARK: - Private - Boundary Encoding
private func initialBoundaryData() -> NSData {
return BoundaryGenerator.boundaryData(boundaryType: .Initial, boundary: boundary)
}
private func encapsulatedBoundaryData() -> NSData {
return BoundaryGenerator.boundaryData(boundaryType: .Encapsulated, boundary: boundary)
}
private func finalBoundaryData() -> NSData {
return BoundaryGenerator.boundaryData(boundaryType: .Final, boundary: boundary)
}
// MARK: - Private - Errors
private func setBodyPartError(error: NSError) {
if bodyPartError == nil {
bodyPartError = error
}
}
}

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// ParameterEncoding.swift
//
// Copyright (c) 20142016 Alamofire Software Foundation (http://alamofire.org/)
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
import Foundation
/**
HTTP method definitions.
See https://tools.ietf.org/html/rfc7231#section-4.3
*/
public enum Method: String {
case OPTIONS, GET, HEAD, POST, PUT, PATCH, DELETE, TRACE, CONNECT
}
// MARK: ParameterEncoding
/**
Used to specify the way in which a set of parameters are applied to a URL request.
- `URL`: Creates a query string to be set as or appended to any existing URL query for `GET`, `HEAD`,
and `DELETE` requests, or set as the body for requests with any other HTTP method. The
`Content-Type` HTTP header field of an encoded request with HTTP body is set to
`application/x-www-form-urlencoded; charset=utf-8`. Since there is no published specification
for how to encode collection types, the convention of appending `[]` to the key for array
values (`foo[]=1&foo[]=2`), and appending the key surrounded by square brackets for nested
dictionary values (`foo[bar]=baz`).
- `URLEncodedInURL`: Creates query string to be set as or appended to any existing URL query. Uses the same
implementation as the `.URL` case, but always applies the encoded result to the URL.
- `JSON`: Uses `NSJSONSerialization` to create a JSON representation of the parameters object, which is
set as the body of the request. The `Content-Type` HTTP header field of an encoded request is
set to `application/json`.
- `PropertyList`: Uses `NSPropertyListSerialization` to create a plist representation of the parameters object,
according to the associated format and write options values, which is set as the body of the
request. The `Content-Type` HTTP header field of an encoded request is set to
`application/x-plist`.
- `Custom`: Uses the associated closure value to construct a new request given an existing request and
parameters.
*/
public enum ParameterEncoding {
case URL
case URLEncodedInURL
case JSON
case PropertyList(NSPropertyListFormat, NSPropertyListWriteOptions)
case Custom((URLRequestConvertible, [String: AnyObject]?) -> (NSMutableURLRequest, NSError?))
/**
Creates a URL request by encoding parameters and applying them onto an existing request.
- parameter URLRequest: The request to have parameters applied
- parameter parameters: The parameters to apply
- returns: A tuple containing the constructed request and the error that occurred during parameter encoding,
if any.
*/
public func encode(
URLRequest: URLRequestConvertible,
parameters: [String: AnyObject]?)
-> (NSMutableURLRequest, NSError?)
{
var mutableURLRequest = URLRequest.URLRequest
guard let parameters = parameters where !parameters.isEmpty else {
return (mutableURLRequest, nil)
}
var encodingError: NSError? = nil
switch self {
case .URL, .URLEncodedInURL:
func query(parameters: [String: AnyObject]) -> String {
var components: [(String, String)] = []
for key in parameters.keys.sort(<) {
let value = parameters[key]!
components += queryComponents(key, value)
}
return (components.map { "\($0)=\($1)" } as [String]).joinWithSeparator("&")
}
func encodesParametersInURL(method: Method) -> Bool {
switch self {
case .URLEncodedInURL:
return true
default:
break
}
switch method {
case .GET, .HEAD, .DELETE:
return true
default:
return false
}
}
if let method = Method(rawValue: mutableURLRequest.HTTPMethod) where encodesParametersInURL(method) {
if let URLComponents = NSURLComponents(URL: mutableURLRequest.URL!, resolvingAgainstBaseURL: false) {
let percentEncodedQuery = (URLComponents.percentEncodedQuery.map { $0 + "&" } ?? "") + query(parameters)
URLComponents.percentEncodedQuery = percentEncodedQuery
mutableURLRequest.URL = URLComponents.URL
}
} else {
if mutableURLRequest.valueForHTTPHeaderField("Content-Type") == nil {
mutableURLRequest.setValue(
"application/x-www-form-urlencoded; charset=utf-8",
forHTTPHeaderField: "Content-Type"
)
}
mutableURLRequest.HTTPBody = query(parameters).dataUsingEncoding(
NSUTF8StringEncoding,
allowLossyConversion: false
)
}
case .JSON:
do {
let options = NSJSONWritingOptions()
let data = try NSJSONSerialization.dataWithJSONObject(parameters, options: options)
mutableURLRequest.setValue("application/json", forHTTPHeaderField: "Content-Type")
mutableURLRequest.HTTPBody = data
} catch {
encodingError = error as NSError
}
case .PropertyList(let format, let options):
do {
let data = try NSPropertyListSerialization.dataWithPropertyList(
parameters,
format: format,
options: options
)
mutableURLRequest.setValue("application/x-plist", forHTTPHeaderField: "Content-Type")
mutableURLRequest.HTTPBody = data
} catch {
encodingError = error as NSError
}
case .Custom(let closure):
(mutableURLRequest, encodingError) = closure(mutableURLRequest, parameters)
}
return (mutableURLRequest, encodingError)
}
/**
Creates percent-escaped, URL encoded query string components from the given key-value pair using recursion.
- parameter key: The key of the query component.
- parameter value: The value of the query component.
- returns: The percent-escaped, URL encoded query string components.
*/
public func queryComponents(key: String, _ value: AnyObject) -> [(String, String)] {
var components: [(String, String)] = []
if let dictionary = value as? [String: AnyObject] {
for (nestedKey, value) in dictionary {
components += queryComponents("\(key)[\(nestedKey)]", value)
}
} else if let array = value as? [AnyObject] {
for value in array {
components += queryComponents("\(key)[]", value)
}
} else {
components.append((escape(key), escape("\(value)")))
}
return components
}
/**
Returns a percent-escaped string following RFC 3986 for a query string key or value.
RFC 3986 states that the following characters are "reserved" characters.
- General Delimiters: ":", "#", "[", "]", "@", "?", "/"
- Sub-Delimiters: "!", "$", "&", "'", "(", ")", "*", "+", ",", ";", "="
In RFC 3986 - Section 3.4, it states that the "?" and "/" characters should not be escaped to allow
query strings to include a URL. Therefore, all "reserved" characters with the exception of "?" and "/"
should be percent-escaped in the query string.
- parameter string: The string to be percent-escaped.
- returns: The percent-escaped string.
*/
public func escape(string: String) -> String {
let generalDelimitersToEncode = ":#[]@" // does not include "?" or "/" due to RFC 3986 - Section 3.4
let subDelimitersToEncode = "!$&'()*+,;="
let allowedCharacterSet = NSCharacterSet.URLQueryAllowedCharacterSet().mutableCopy() as! NSMutableCharacterSet
allowedCharacterSet.removeCharactersInString(generalDelimitersToEncode + subDelimitersToEncode)
var escaped = ""
//==========================================================================================================
//
// Batching is required for escaping due to an internal bug in iOS 8.1 and 8.2. Encoding more than a few
// hundred Chinense characters causes various malloc error crashes. To avoid this issue until iOS 8 is no
// longer supported, batching MUST be used for encoding. This introduces roughly a 20% overhead. For more
// info, please refer to:
//
// - https://github.com/Alamofire/Alamofire/issues/206
//
//==========================================================================================================
if #available(iOS 8.3, OSX 10.10, *) {
escaped = string.stringByAddingPercentEncodingWithAllowedCharacters(allowedCharacterSet) ?? string
} else {
let batchSize = 50
var index = string.startIndex
while index != string.endIndex {
let startIndex = index
let endIndex = index.advancedBy(batchSize, limit: string.endIndex)
let range = Range(start: startIndex, end: endIndex)
let substring = string.substringWithRange(range)
escaped += substring.stringByAddingPercentEncodingWithAllowedCharacters(allowedCharacterSet) ?? substring
index = endIndex
}
}
return escaped
}
}

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// Request.swift
//
// Copyright (c) 20142016 Alamofire Software Foundation (http://alamofire.org/)
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
import Foundation
/**
Responsible for sending a request and receiving the response and associated data from the server, as well as
managing its underlying `NSURLSessionTask`.
*/
public class Request {
// MARK: - Properties
/// The delegate for the underlying task.
public let delegate: TaskDelegate
/// The underlying task.
public var task: NSURLSessionTask { return delegate.task }
/// The session belonging to the underlying task.
public let session: NSURLSession
/// The request sent or to be sent to the server.
public var request: NSURLRequest? { return task.originalRequest }
/// The response received from the server, if any.
public var response: NSHTTPURLResponse? { return task.response as? NSHTTPURLResponse }
/// The progress of the request lifecycle.
public var progress: NSProgress { return delegate.progress }
// MARK: - Lifecycle
init(session: NSURLSession, task: NSURLSessionTask) {
self.session = session
switch task {
case is NSURLSessionUploadTask:
self.delegate = UploadTaskDelegate(task: task)
case is NSURLSessionDataTask:
self.delegate = DataTaskDelegate(task: task)
case is NSURLSessionDownloadTask:
self.delegate = DownloadTaskDelegate(task: task)
default:
self.delegate = TaskDelegate(task: task)
}
}
// MARK: - Authentication
/**
Associates an HTTP Basic credential with the request.
- parameter user: The user.
- parameter password: The password.
- parameter persistence: The URL credential persistence. `.ForSession` by default.
- returns: The request.
*/
public func authenticate(
user user: String,
password: String,
persistence: NSURLCredentialPersistence = .ForSession)
-> Self
{
let credential = NSURLCredential(user: user, password: password, persistence: persistence)
return authenticate(usingCredential: credential)
}
/**
Associates a specified credential with the request.
- parameter credential: The credential.
- returns: The request.
*/
public func authenticate(usingCredential credential: NSURLCredential) -> Self {
delegate.credential = credential
return self
}
// MARK: - Progress
/**
Sets a closure to be called periodically during the lifecycle of the request as data is written to or read
from the server.
- For uploads, the progress closure returns the bytes written, total bytes written, and total bytes expected
to write.
- For downloads and data tasks, the progress closure returns the bytes read, total bytes read, and total bytes
expected to read.
- parameter closure: The code to be executed periodically during the lifecycle of the request.
- returns: The request.
*/
public func progress(closure: ((Int64, Int64, Int64) -> Void)? = nil) -> Self {
if let uploadDelegate = delegate as? UploadTaskDelegate {
uploadDelegate.uploadProgress = closure
} else if let dataDelegate = delegate as? DataTaskDelegate {
dataDelegate.dataProgress = closure
} else if let downloadDelegate = delegate as? DownloadTaskDelegate {
downloadDelegate.downloadProgress = closure
}
return self
}
/**
Sets a closure to be called periodically during the lifecycle of the request as data is read from the server.
This closure returns the bytes most recently received from the server, not including data from previous calls.
If this closure is set, data will only be available within this closure, and will not be saved elsewhere. It is
also important to note that the `response` closure will be called with nil `responseData`.
- parameter closure: The code to be executed periodically during the lifecycle of the request.
- returns: The request.
*/
public func stream(closure: (NSData -> Void)? = nil) -> Self {
if let dataDelegate = delegate as? DataTaskDelegate {
dataDelegate.dataStream = closure
}
return self
}
// MARK: - State
/**
Suspends the request.
*/
public func suspend() {
task.suspend()
}
/**
Resumes the request.
*/
public func resume() {
task.resume()
}
/**
Cancels the request.
*/
public func cancel() {
if let
downloadDelegate = delegate as? DownloadTaskDelegate,
downloadTask = downloadDelegate.downloadTask
{
downloadTask.cancelByProducingResumeData { data in
downloadDelegate.resumeData = data
}
} else {
task.cancel()
}
}
// MARK: - TaskDelegate
/**
The task delegate is responsible for handling all delegate callbacks for the underlying task as well as
executing all operations attached to the serial operation queue upon task completion.
*/
public class TaskDelegate: NSObject {
/// The serial operation queue used to execute all operations after the task completes.
public let queue: NSOperationQueue
let task: NSURLSessionTask
let progress: NSProgress
var data: NSData? { return nil }
var error: NSError?
var credential: NSURLCredential?
init(task: NSURLSessionTask) {
self.task = task
self.progress = NSProgress(totalUnitCount: 0)
self.queue = {
let operationQueue = NSOperationQueue()
operationQueue.maxConcurrentOperationCount = 1
operationQueue.suspended = true
if #available(OSX 10.10, *) {
operationQueue.qualityOfService = NSQualityOfService.Utility
}
return operationQueue
}()
}
deinit {
queue.cancelAllOperations()
queue.suspended = false
}
// MARK: - NSURLSessionTaskDelegate
// MARK: Override Closures
var taskWillPerformHTTPRedirection: ((NSURLSession, NSURLSessionTask, NSHTTPURLResponse, NSURLRequest) -> NSURLRequest?)?
var taskDidReceiveChallenge: ((NSURLSession, NSURLSessionTask, NSURLAuthenticationChallenge) -> (NSURLSessionAuthChallengeDisposition, NSURLCredential?))?
var taskNeedNewBodyStream: ((NSURLSession, NSURLSessionTask) -> NSInputStream?)?
var taskDidCompleteWithError: ((NSURLSession, NSURLSessionTask, NSError?) -> Void)?
// MARK: Delegate Methods
func URLSession(
session: NSURLSession,
task: NSURLSessionTask,
willPerformHTTPRedirection response: NSHTTPURLResponse,
newRequest request: NSURLRequest,
completionHandler: ((NSURLRequest?) -> Void))
{
var redirectRequest: NSURLRequest? = request
if let taskWillPerformHTTPRedirection = taskWillPerformHTTPRedirection {
redirectRequest = taskWillPerformHTTPRedirection(session, task, response, request)
}
completionHandler(redirectRequest)
}
func URLSession(
session: NSURLSession,
task: NSURLSessionTask,
didReceiveChallenge challenge: NSURLAuthenticationChallenge,
completionHandler: ((NSURLSessionAuthChallengeDisposition, NSURLCredential?) -> Void))
{
var disposition: NSURLSessionAuthChallengeDisposition = .PerformDefaultHandling
var credential: NSURLCredential?
if let taskDidReceiveChallenge = taskDidReceiveChallenge {
(disposition, credential) = taskDidReceiveChallenge(session, task, challenge)
} else if challenge.protectionSpace.authenticationMethod == NSURLAuthenticationMethodServerTrust {
let host = challenge.protectionSpace.host
if let
serverTrustPolicy = session.serverTrustPolicyManager?.serverTrustPolicyForHost(host),
serverTrust = challenge.protectionSpace.serverTrust
{
if serverTrustPolicy.evaluateServerTrust(serverTrust, isValidForHost: host) {
disposition = .UseCredential
credential = NSURLCredential(forTrust: serverTrust)
} else {
disposition = .CancelAuthenticationChallenge
}
}
} else {
if challenge.previousFailureCount > 0 {
disposition = .CancelAuthenticationChallenge
} else {
credential = self.credential ?? session.configuration.URLCredentialStorage?.defaultCredentialForProtectionSpace(challenge.protectionSpace)
if credential != nil {
disposition = .UseCredential
}
}
}
completionHandler(disposition, credential)
}
func URLSession(
session: NSURLSession,
task: NSURLSessionTask,
needNewBodyStream completionHandler: ((NSInputStream?) -> Void))
{
var bodyStream: NSInputStream?
if let taskNeedNewBodyStream = taskNeedNewBodyStream {
bodyStream = taskNeedNewBodyStream(session, task)
}
completionHandler(bodyStream)
}
func URLSession(session: NSURLSession, task: NSURLSessionTask, didCompleteWithError error: NSError?) {
if let taskDidCompleteWithError = taskDidCompleteWithError {
taskDidCompleteWithError(session, task, error)
} else {
if let error = error {
self.error = error
if let
downloadDelegate = self as? DownloadTaskDelegate,
userInfo = error.userInfo as? [String: AnyObject],
resumeData = userInfo[NSURLSessionDownloadTaskResumeData] as? NSData
{
downloadDelegate.resumeData = resumeData
}
}
queue.suspended = false
}
}
}
// MARK: - DataTaskDelegate
class DataTaskDelegate: TaskDelegate, NSURLSessionDataDelegate {
var dataTask: NSURLSessionDataTask? { return task as? NSURLSessionDataTask }
private var totalBytesReceived: Int64 = 0
private var mutableData: NSMutableData
override var data: NSData? {
if dataStream != nil {
return nil
} else {
return mutableData
}
}
private var expectedContentLength: Int64?
private var dataProgress: ((bytesReceived: Int64, totalBytesReceived: Int64, totalBytesExpectedToReceive: Int64) -> Void)?
private var dataStream: ((data: NSData) -> Void)?
override init(task: NSURLSessionTask) {
mutableData = NSMutableData()
super.init(task: task)
}
// MARK: - NSURLSessionDataDelegate
// MARK: Override Closures
var dataTaskDidReceiveResponse: ((NSURLSession, NSURLSessionDataTask, NSURLResponse) -> NSURLSessionResponseDisposition)?
var dataTaskDidBecomeDownloadTask: ((NSURLSession, NSURLSessionDataTask, NSURLSessionDownloadTask) -> Void)?
var dataTaskDidReceiveData: ((NSURLSession, NSURLSessionDataTask, NSData) -> Void)?
var dataTaskWillCacheResponse: ((NSURLSession, NSURLSessionDataTask, NSCachedURLResponse) -> NSCachedURLResponse?)?
// MARK: Delegate Methods
func URLSession(
session: NSURLSession,
dataTask: NSURLSessionDataTask,
didReceiveResponse response: NSURLResponse,
completionHandler: (NSURLSessionResponseDisposition -> Void))
{
var disposition: NSURLSessionResponseDisposition = .Allow
expectedContentLength = response.expectedContentLength
if let dataTaskDidReceiveResponse = dataTaskDidReceiveResponse {
disposition = dataTaskDidReceiveResponse(session, dataTask, response)
}
completionHandler(disposition)
}
func URLSession(
session: NSURLSession,
dataTask: NSURLSessionDataTask,
didBecomeDownloadTask downloadTask: NSURLSessionDownloadTask)
{
dataTaskDidBecomeDownloadTask?(session, dataTask, downloadTask)
}
func URLSession(session: NSURLSession, dataTask: NSURLSessionDataTask, didReceiveData data: NSData) {
if let dataTaskDidReceiveData = dataTaskDidReceiveData {
dataTaskDidReceiveData(session, dataTask, data)
} else {
if let dataStream = dataStream {
dataStream(data: data)
} else {
mutableData.appendData(data)
}
totalBytesReceived += data.length
let totalBytesExpected = dataTask.response?.expectedContentLength ?? NSURLSessionTransferSizeUnknown
progress.totalUnitCount = totalBytesExpected
progress.completedUnitCount = totalBytesReceived
dataProgress?(
bytesReceived: Int64(data.length),
totalBytesReceived: totalBytesReceived,
totalBytesExpectedToReceive: totalBytesExpected
)
}
}
func URLSession(
session: NSURLSession,
dataTask: NSURLSessionDataTask,
willCacheResponse proposedResponse: NSCachedURLResponse,
completionHandler: ((NSCachedURLResponse?) -> Void))
{
var cachedResponse: NSCachedURLResponse? = proposedResponse
if let dataTaskWillCacheResponse = dataTaskWillCacheResponse {
cachedResponse = dataTaskWillCacheResponse(session, dataTask, proposedResponse)
}
completionHandler(cachedResponse)
}
}
}
// MARK: - CustomStringConvertible
extension Request: CustomStringConvertible {
/**
The textual representation used when written to an output stream, which includes the HTTP method and URL, as
well as the response status code if a response has been received.
*/
public var description: String {
var components: [String] = []
if let HTTPMethod = request?.HTTPMethod {
components.append(HTTPMethod)
}
if let URLString = request?.URL?.absoluteString {
components.append(URLString)
}
if let response = response {
components.append("(\(response.statusCode))")
}
return components.joinWithSeparator(" ")
}
}
// MARK: - CustomDebugStringConvertible
extension Request: CustomDebugStringConvertible {
func cURLRepresentation() -> String {
var components = ["$ curl -i"]
guard let
request = self.request,
URL = request.URL,
host = URL.host
else {
return "$ curl command could not be created"
}
if let HTTPMethod = request.HTTPMethod where HTTPMethod != "GET" {
components.append("-X \(HTTPMethod)")
}
if let credentialStorage = self.session.configuration.URLCredentialStorage {
let protectionSpace = NSURLProtectionSpace(
host: host,
port: URL.port?.integerValue ?? 0,
`protocol`: URL.scheme,
realm: host,
authenticationMethod: NSURLAuthenticationMethodHTTPBasic
)
if let credentials = credentialStorage.credentialsForProtectionSpace(protectionSpace)?.values {
for credential in credentials {
components.append("-u \(credential.user!):\(credential.password!)")
}
} else {
if let credential = delegate.credential {
components.append("-u \(credential.user!):\(credential.password!)")
}
}
}
if session.configuration.HTTPShouldSetCookies {
if let
cookieStorage = session.configuration.HTTPCookieStorage,
cookies = cookieStorage.cookiesForURL(URL) where !cookies.isEmpty
{
let string = cookies.reduce("") { $0 + "\($1.name)=\($1.value ?? String());" }
components.append("-b \"\(string.substringToIndex(string.endIndex.predecessor()))\"")
}
}
if let headerFields = request.allHTTPHeaderFields {
for (field, value) in headerFields {
switch field {
case "Cookie":
continue
default:
components.append("-H \"\(field): \(value)\"")
}
}
}
if let additionalHeaders = session.configuration.HTTPAdditionalHeaders {
for (field, value) in additionalHeaders {
switch field {
case "Cookie":
continue
default:
components.append("-H \"\(field): \(value)\"")
}
}
}
if let
HTTPBodyData = request.HTTPBody,
HTTPBody = String(data: HTTPBodyData, encoding: NSUTF8StringEncoding)
{
let escapedBody = HTTPBody.stringByReplacingOccurrencesOfString("\"", withString: "\\\"")
components.append("-d \"\(escapedBody)\"")
}
components.append("\"\(URL.absoluteString)\"")
return components.joinWithSeparator(" \\\n\t")
}
/// The textual representation used when written to an output stream, in the form of a cURL command.
public var debugDescription: String {
return cURLRepresentation()
}
}

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// Response.swift
//
// Copyright (c) 20142016 Alamofire Software Foundation (http://alamofire.org/)
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
import Foundation
/// Used to store all response data returned from a completed `Request`.
public struct Response<Value, Error: ErrorType> {
/// The URL request sent to the server.
public let request: NSURLRequest?
/// The server's response to the URL request.
public let response: NSHTTPURLResponse?
/// The data returned by the server.
public let data: NSData?
/// The result of response serialization.
public let result: Result<Value, Error>
/**
Initializes the `Response` instance with the specified URL request, URL response, server data and response
serialization result.
- parameter request: The URL request sent to the server.
- parameter response: The server's response to the URL request.
- parameter data: The data returned by the server.
- parameter result: The result of response serialization.
- returns: the new `Response` instance.
*/
public init(request: NSURLRequest?, response: NSHTTPURLResponse?, data: NSData?, result: Result<Value, Error>) {
self.request = request
self.response = response
self.data = data
self.result = result
}
}
// MARK: - CustomStringConvertible
extension Response: CustomStringConvertible {
/// The textual representation used when written to an output stream, which includes whether the result was a
/// success or failure.
public var description: String {
return result.debugDescription
}
}
// MARK: - CustomDebugStringConvertible
extension Response: CustomDebugStringConvertible {
/// The debug textual representation used when written to an output stream, which includes the URL request, the URL
/// response, the server data and the response serialization result.
public var debugDescription: String {
var output: [String] = []
output.append(request != nil ? "[Request]: \(request!)" : "[Request]: nil")
output.append(response != nil ? "[Response]: \(response!)" : "[Response]: nil")
output.append("[Data]: \(data?.length ?? 0) bytes")
output.append("[Result]: \(result.debugDescription)")
return output.joinWithSeparator("\n")
}
}

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// ResponseSerialization.swift
//
// Copyright (c) 20142016 Alamofire Software Foundation (http://alamofire.org/)
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
import Foundation
// MARK: ResponseSerializer
/**
The type in which all response serializers must conform to in order to serialize a response.
*/
public protocol ResponseSerializerType {
/// The type of serialized object to be created by this `ResponseSerializerType`.
typealias SerializedObject
/// The type of error to be created by this `ResponseSerializer` if serialization fails.
typealias ErrorObject: ErrorType
/**
A closure used by response handlers that takes a request, response, data and error and returns a result.
*/
var serializeResponse: (NSURLRequest?, NSHTTPURLResponse?, NSData?, NSError?) -> Result<SerializedObject, ErrorObject> { get }
}
// MARK: -
/**
A generic `ResponseSerializerType` used to serialize a request, response, and data into a serialized object.
*/
public struct ResponseSerializer<Value, Error: ErrorType>: ResponseSerializerType {
/// The type of serialized object to be created by this `ResponseSerializer`.
public typealias SerializedObject = Value
/// The type of error to be created by this `ResponseSerializer` if serialization fails.
public typealias ErrorObject = Error
/**
A closure used by response handlers that takes a request, response, data and error and returns a result.
*/
public var serializeResponse: (NSURLRequest?, NSHTTPURLResponse?, NSData?, NSError?) -> Result<Value, Error>
/**
Initializes the `ResponseSerializer` instance with the given serialize response closure.
- parameter serializeResponse: The closure used to serialize the response.
- returns: The new generic response serializer instance.
*/
public init(serializeResponse: (NSURLRequest?, NSHTTPURLResponse?, NSData?, NSError?) -> Result<Value, Error>) {
self.serializeResponse = serializeResponse
}
}
// MARK: - Default
extension Request {
/**
Adds a handler to be called once the request has finished.
- parameter queue: The queue on which the completion handler is dispatched.
- parameter completionHandler: The code to be executed once the request has finished.
- returns: The request.
*/
public func response(
queue queue: dispatch_queue_t? = nil,
completionHandler: (NSURLRequest?, NSHTTPURLResponse?, NSData?, NSError?) -> Void)
-> Self
{
delegate.queue.addOperationWithBlock {
dispatch_async(queue ?? dispatch_get_main_queue()) {
completionHandler(self.request, self.response, self.delegate.data, self.delegate.error)
}
}
return self
}
/**
Adds a handler to be called once the request has finished.
- parameter queue: The queue on which the completion handler is dispatched.
- parameter responseSerializer: The response serializer responsible for serializing the request, response,
and data.
- parameter completionHandler: The code to be executed once the request has finished.
- returns: The request.
*/
public func response<T: ResponseSerializerType>(
queue queue: dispatch_queue_t? = nil,
responseSerializer: T,
completionHandler: Response<T.SerializedObject, T.ErrorObject> -> Void)
-> Self
{
delegate.queue.addOperationWithBlock {
let result = responseSerializer.serializeResponse(
self.request,
self.response,
self.delegate.data,
self.delegate.error
)
dispatch_async(queue ?? dispatch_get_main_queue()) {
let response = Response<T.SerializedObject, T.ErrorObject>(
request: self.request,
response: self.response,
data: self.delegate.data,
result: result
)
completionHandler(response)
}
}
return self
}
}
// MARK: - Data
extension Request {
/**
Creates a response serializer that returns the associated data as-is.
- returns: A data response serializer.
*/
public static func dataResponseSerializer() -> ResponseSerializer<NSData, NSError> {
return ResponseSerializer { _, response, data, error in
guard error == nil else { return .Failure(error!) }
if let response = response where response.statusCode == 204 { return .Success(NSData()) }
guard let validData = data else {
let failureReason = "Data could not be serialized. Input data was nil."
let error = Error.errorWithCode(.DataSerializationFailed, failureReason: failureReason)
return .Failure(error)
}
return .Success(validData)
}
}
/**
Adds a handler to be called once the request has finished.
- parameter completionHandler: The code to be executed once the request has finished.
- returns: The request.
*/
public func responseData(completionHandler: Response<NSData, NSError> -> Void) -> Self {
return response(responseSerializer: Request.dataResponseSerializer(), completionHandler: completionHandler)
}
}
// MARK: - String
extension Request {
/**
Creates a response serializer that returns a string initialized from the response data with the specified
string encoding.
- parameter encoding: The string encoding. If `nil`, the string encoding will be determined from the server
response, falling back to the default HTTP default character set, ISO-8859-1.
- returns: A string response serializer.
*/
public static func stringResponseSerializer(
var encoding encoding: NSStringEncoding? = nil)
-> ResponseSerializer<String, NSError>
{
return ResponseSerializer { _, response, data, error in
guard error == nil else { return .Failure(error!) }
if let response = response where response.statusCode == 204 { return .Success("") }
guard let validData = data else {
let failureReason = "String could not be serialized. Input data was nil."
let error = Error.errorWithCode(.StringSerializationFailed, failureReason: failureReason)
return .Failure(error)
}
if let encodingName = response?.textEncodingName where encoding == nil {
encoding = CFStringConvertEncodingToNSStringEncoding(
CFStringConvertIANACharSetNameToEncoding(encodingName)
)
}
let actualEncoding = encoding ?? NSISOLatin1StringEncoding
if let string = String(data: validData, encoding: actualEncoding) {
return .Success(string)
} else {
let failureReason = "String could not be serialized with encoding: \(actualEncoding)"
let error = Error.errorWithCode(.StringSerializationFailed, failureReason: failureReason)
return .Failure(error)
}
}
}
/**
Adds a handler to be called once the request has finished.
- parameter encoding: The string encoding. If `nil`, the string encoding will be determined from the
server response, falling back to the default HTTP default character set,
ISO-8859-1.
- parameter completionHandler: A closure to be executed once the request has finished.
- returns: The request.
*/
public func responseString(
encoding encoding: NSStringEncoding? = nil,
completionHandler: Response<String, NSError> -> Void)
-> Self
{
return response(
responseSerializer: Request.stringResponseSerializer(encoding: encoding),
completionHandler: completionHandler
)
}
}
// MARK: - JSON
extension Request {
/**
Creates a response serializer that returns a JSON object constructed from the response data using
`NSJSONSerialization` with the specified reading options.
- parameter options: The JSON serialization reading options. `.AllowFragments` by default.
- returns: A JSON object response serializer.
*/
public static func JSONResponseSerializer(
options options: NSJSONReadingOptions = .AllowFragments)
-> ResponseSerializer<AnyObject, NSError>
{
return ResponseSerializer { _, response, data, error in
guard error == nil else { return .Failure(error!) }
if let response = response where response.statusCode == 204 { return .Success(NSNull()) }
guard let validData = data where validData.length > 0 else {
let failureReason = "JSON could not be serialized. Input data was nil or zero length."
let error = Error.errorWithCode(.JSONSerializationFailed, failureReason: failureReason)
return .Failure(error)
}
do {
let JSON = try NSJSONSerialization.JSONObjectWithData(validData, options: options)
return .Success(JSON)
} catch {
return .Failure(error as NSError)
}
}
}
/**
Adds a handler to be called once the request has finished.
- parameter options: The JSON serialization reading options. `.AllowFragments` by default.
- parameter completionHandler: A closure to be executed once the request has finished.
- returns: The request.
*/
public func responseJSON(
options options: NSJSONReadingOptions = .AllowFragments,
completionHandler: Response<AnyObject, NSError> -> Void)
-> Self
{
return response(
responseSerializer: Request.JSONResponseSerializer(options: options),
completionHandler: completionHandler
)
}
}
// MARK: - Property List
extension Request {
/**
Creates a response serializer that returns an object constructed from the response data using
`NSPropertyListSerialization` with the specified reading options.
- parameter options: The property list reading options. `NSPropertyListReadOptions()` by default.
- returns: A property list object response serializer.
*/
public static func propertyListResponseSerializer(
options options: NSPropertyListReadOptions = NSPropertyListReadOptions())
-> ResponseSerializer<AnyObject, NSError>
{
return ResponseSerializer { _, response, data, error in
guard error == nil else { return .Failure(error!) }
if let response = response where response.statusCode == 204 { return .Success(NSNull()) }
guard let validData = data where validData.length > 0 else {
let failureReason = "Property list could not be serialized. Input data was nil or zero length."
let error = Error.errorWithCode(.PropertyListSerializationFailed, failureReason: failureReason)
return .Failure(error)
}
do {
let plist = try NSPropertyListSerialization.propertyListWithData(validData, options: options, format: nil)
return .Success(plist)
} catch {
return .Failure(error as NSError)
}
}
}
/**
Adds a handler to be called once the request has finished.
- parameter options: The property list reading options. `0` by default.
- parameter completionHandler: A closure to be executed once the request has finished. The closure takes 3
arguments: the URL request, the URL response, the server data and the result
produced while creating the property list.
- returns: The request.
*/
public func responsePropertyList(
options options: NSPropertyListReadOptions = NSPropertyListReadOptions(),
completionHandler: Response<AnyObject, NSError> -> Void)
-> Self
{
return response(
responseSerializer: Request.propertyListResponseSerializer(options: options),
completionHandler: completionHandler
)
}
}

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// Result.swift
//
// Copyright (c) 20142016 Alamofire Software Foundation (http://alamofire.org/)
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
import Foundation
/**
Used to represent whether a request was successful or encountered an error.
- Success: The request and all post processing operations were successful resulting in the serialization of the
provided associated value.
- Failure: The request encountered an error resulting in a failure. The associated values are the original data
provided by the server as well as the error that caused the failure.
*/
public enum Result<Value, Error: ErrorType> {
case Success(Value)
case Failure(Error)
/// Returns `true` if the result is a success, `false` otherwise.
public var isSuccess: Bool {
switch self {
case .Success:
return true
case .Failure:
return false
}
}
/// Returns `true` if the result is a failure, `false` otherwise.
public var isFailure: Bool {
return !isSuccess
}
/// Returns the associated value if the result is a success, `nil` otherwise.
public var value: Value? {
switch self {
case .Success(let value):
return value
case .Failure:
return nil
}
}
/// Returns the associated error value if the result is a failure, `nil` otherwise.
public var error: Error? {
switch self {
case .Success:
return nil
case .Failure(let error):
return error
}
}
}
// MARK: - CustomStringConvertible
extension Result: CustomStringConvertible {
/// The textual representation used when written to an output stream, which includes whether the result was a
/// success or failure.
public var description: String {
switch self {
case .Success:
return "SUCCESS"
case .Failure:
return "FAILURE"
}
}
}
// MARK: - CustomDebugStringConvertible
extension Result: CustomDebugStringConvertible {
/// The debug textual representation used when written to an output stream, which includes whether the result was a
/// success or failure in addition to the value or error.
public var debugDescription: String {
switch self {
case .Success(let value):
return "SUCCESS: \(value)"
case .Failure(let error):
return "FAILURE: \(error)"
}
}
}

302
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/Alamofire/Source/ServerTrustPolicy.swift generated Normal file
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// ServerTrustPolicy.swift
//
// Copyright (c) 20142016 Alamofire Software Foundation (http://alamofire.org/)
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
import Foundation
/// Responsible for managing the mapping of `ServerTrustPolicy` objects to a given host.
public class ServerTrustPolicyManager {
/// The dictionary of policies mapped to a particular host.
public let policies: [String: ServerTrustPolicy]
/**
Initializes the `ServerTrustPolicyManager` instance with the given policies.
Since different servers and web services can have different leaf certificates, intermediate and even root
certficates, it is important to have the flexibility to specify evaluation policies on a per host basis. This
allows for scenarios such as using default evaluation for host1, certificate pinning for host2, public key
pinning for host3 and disabling evaluation for host4.
- parameter policies: A dictionary of all policies mapped to a particular host.
- returns: The new `ServerTrustPolicyManager` instance.
*/
public init(policies: [String: ServerTrustPolicy]) {
self.policies = policies
}
/**
Returns the `ServerTrustPolicy` for the given host if applicable.
By default, this method will return the policy that perfectly matches the given host. Subclasses could override
this method and implement more complex mapping implementations such as wildcards.
- parameter host: The host to use when searching for a matching policy.
- returns: The server trust policy for the given host if found.
*/
public func serverTrustPolicyForHost(host: String) -> ServerTrustPolicy? {
return policies[host]
}
}
// MARK: -
extension NSURLSession {
private struct AssociatedKeys {
static var ManagerKey = "NSURLSession.ServerTrustPolicyManager"
}
var serverTrustPolicyManager: ServerTrustPolicyManager? {
get {
return objc_getAssociatedObject(self, &AssociatedKeys.ManagerKey) as? ServerTrustPolicyManager
}
set (manager) {
objc_setAssociatedObject(self, &AssociatedKeys.ManagerKey, manager, .OBJC_ASSOCIATION_RETAIN_NONATOMIC)
}
}
}
// MARK: - ServerTrustPolicy
/**
The `ServerTrustPolicy` evaluates the server trust generally provided by an `NSURLAuthenticationChallenge` when
connecting to a server over a secure HTTPS connection. The policy configuration then evaluates the server trust
with a given set of criteria to determine whether the server trust is valid and the connection should be made.
Using pinned certificates or public keys for evaluation helps prevent man-in-the-middle (MITM) attacks and other
vulnerabilities. Applications dealing with sensitive customer data or financial information are strongly encouraged
to route all communication over an HTTPS connection with pinning enabled.
- PerformDefaultEvaluation: Uses the default server trust evaluation while allowing you to control whether to
validate the host provided by the challenge. Applications are encouraged to always
validate the host in production environments to guarantee the validity of the server's
certificate chain.
- PinCertificates: Uses the pinned certificates to validate the server trust. The server trust is
considered valid if one of the pinned certificates match one of the server certificates.
By validating both the certificate chain and host, certificate pinning provides a very
secure form of server trust validation mitigating most, if not all, MITM attacks.
Applications are encouraged to always validate the host and require a valid certificate
chain in production environments.
- PinPublicKeys: Uses the pinned public keys to validate the server trust. The server trust is considered
valid if one of the pinned public keys match one of the server certificate public keys.
By validating both the certificate chain and host, public key pinning provides a very
secure form of server trust validation mitigating most, if not all, MITM attacks.
Applications are encouraged to always validate the host and require a valid certificate
chain in production environments.
- DisableEvaluation: Disables all evaluation which in turn will always consider any server trust as valid.
- CustomEvaluation: Uses the associated closure to evaluate the validity of the server trust.
*/
public enum ServerTrustPolicy {
case PerformDefaultEvaluation(validateHost: Bool)
case PinCertificates(certificates: [SecCertificate], validateCertificateChain: Bool, validateHost: Bool)
case PinPublicKeys(publicKeys: [SecKey], validateCertificateChain: Bool, validateHost: Bool)
case DisableEvaluation
case CustomEvaluation((serverTrust: SecTrust, host: String) -> Bool)
// MARK: - Bundle Location
/**
Returns all certificates within the given bundle with a `.cer` file extension.
- parameter bundle: The bundle to search for all `.cer` files.
- returns: All certificates within the given bundle.
*/
public static func certificatesInBundle(bundle: NSBundle = NSBundle.mainBundle()) -> [SecCertificate] {
var certificates: [SecCertificate] = []
let paths = Set([".cer", ".CER", ".crt", ".CRT", ".der", ".DER"].map { fileExtension in
bundle.pathsForResourcesOfType(fileExtension, inDirectory: nil)
}.flatten())
for path in paths {
if let
certificateData = NSData(contentsOfFile: path),
certificate = SecCertificateCreateWithData(nil, certificateData)
{
certificates.append(certificate)
}
}
return certificates
}
/**
Returns all public keys within the given bundle with a `.cer` file extension.
- parameter bundle: The bundle to search for all `*.cer` files.
- returns: All public keys within the given bundle.
*/
public static func publicKeysInBundle(bundle: NSBundle = NSBundle.mainBundle()) -> [SecKey] {
var publicKeys: [SecKey] = []
for certificate in certificatesInBundle(bundle) {
if let publicKey = publicKeyForCertificate(certificate) {
publicKeys.append(publicKey)
}
}
return publicKeys
}
// MARK: - Evaluation
/**
Evaluates whether the server trust is valid for the given host.
- parameter serverTrust: The server trust to evaluate.
- parameter host: The host of the challenge protection space.
- returns: Whether the server trust is valid.
*/
public func evaluateServerTrust(serverTrust: SecTrust, isValidForHost host: String) -> Bool {
var serverTrustIsValid = false
switch self {
case let .PerformDefaultEvaluation(validateHost):
let policy = SecPolicyCreateSSL(true, validateHost ? host as CFString : nil)
SecTrustSetPolicies(serverTrust, [policy])
serverTrustIsValid = trustIsValid(serverTrust)
case let .PinCertificates(pinnedCertificates, validateCertificateChain, validateHost):
if validateCertificateChain {
let policy = SecPolicyCreateSSL(true, validateHost ? host as CFString : nil)
SecTrustSetPolicies(serverTrust, [policy])
SecTrustSetAnchorCertificates(serverTrust, pinnedCertificates)
SecTrustSetAnchorCertificatesOnly(serverTrust, true)
serverTrustIsValid = trustIsValid(serverTrust)
} else {
let serverCertificatesDataArray = certificateDataForTrust(serverTrust)
let pinnedCertificatesDataArray = certificateDataForCertificates(pinnedCertificates)
outerLoop: for serverCertificateData in serverCertificatesDataArray {
for pinnedCertificateData in pinnedCertificatesDataArray {
if serverCertificateData.isEqualToData(pinnedCertificateData) {
serverTrustIsValid = true
break outerLoop
}
}
}
}
case let .PinPublicKeys(pinnedPublicKeys, validateCertificateChain, validateHost):
var certificateChainEvaluationPassed = true
if validateCertificateChain {
let policy = SecPolicyCreateSSL(true, validateHost ? host as CFString : nil)
SecTrustSetPolicies(serverTrust, [policy])
certificateChainEvaluationPassed = trustIsValid(serverTrust)
}
if certificateChainEvaluationPassed {
outerLoop: for serverPublicKey in ServerTrustPolicy.publicKeysForTrust(serverTrust) as [AnyObject] {
for pinnedPublicKey in pinnedPublicKeys as [AnyObject] {
if serverPublicKey.isEqual(pinnedPublicKey) {
serverTrustIsValid = true
break outerLoop
}
}
}
}
case .DisableEvaluation:
serverTrustIsValid = true
case let .CustomEvaluation(closure):
serverTrustIsValid = closure(serverTrust: serverTrust, host: host)
}
return serverTrustIsValid
}
// MARK: - Private - Trust Validation
private func trustIsValid(trust: SecTrust) -> Bool {
var isValid = false
var result = SecTrustResultType(kSecTrustResultInvalid)
let status = SecTrustEvaluate(trust, &result)
if status == errSecSuccess {
let unspecified = SecTrustResultType(kSecTrustResultUnspecified)
let proceed = SecTrustResultType(kSecTrustResultProceed)
isValid = result == unspecified || result == proceed
}
return isValid
}
// MARK: - Private - Certificate Data
private func certificateDataForTrust(trust: SecTrust) -> [NSData] {
var certificates: [SecCertificate] = []
for index in 0..<SecTrustGetCertificateCount(trust) {
if let certificate = SecTrustGetCertificateAtIndex(trust, index) {
certificates.append(certificate)
}
}
return certificateDataForCertificates(certificates)
}
private func certificateDataForCertificates(certificates: [SecCertificate]) -> [NSData] {
return certificates.map { SecCertificateCopyData($0) as NSData }
}
// MARK: - Private - Public Key Extraction
private static func publicKeysForTrust(trust: SecTrust) -> [SecKey] {
var publicKeys: [SecKey] = []
for index in 0..<SecTrustGetCertificateCount(trust) {
if let
certificate = SecTrustGetCertificateAtIndex(trust, index),
publicKey = publicKeyForCertificate(certificate)
{
publicKeys.append(publicKey)
}
}
return publicKeys
}
private static func publicKeyForCertificate(certificate: SecCertificate) -> SecKey? {
var publicKey: SecKey?
let policy = SecPolicyCreateBasicX509()
var trust: SecTrust?
let trustCreationStatus = SecTrustCreateWithCertificates(certificate, policy, &trust)
if let trust = trust where trustCreationStatus == errSecSuccess {
publicKey = SecTrustCopyPublicKey(trust)
}
return publicKey
}
}

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// Stream.swift
//
// Copyright (c) 20142016 Alamofire Software Foundation (http://alamofire.org/)
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
import Foundation
#if !os(watchOS)
@available(iOS 9.0, OSX 10.11, *)
extension Manager {
private enum Streamable {
case Stream(String, Int)
case NetService(NSNetService)
}
private func stream(streamable: Streamable) -> Request {
var streamTask: NSURLSessionStreamTask!
switch streamable {
case .Stream(let hostName, let port):
dispatch_sync(queue) {
streamTask = self.session.streamTaskWithHostName(hostName, port: port)
}
case .NetService(let netService):
dispatch_sync(queue) {
streamTask = self.session.streamTaskWithNetService(netService)
}
}
let request = Request(session: session, task: streamTask)
delegate[request.delegate.task] = request.delegate
if startRequestsImmediately {
request.resume()
}
return request
}
/**
Creates a request for bidirectional streaming with the given hostname and port.
- parameter hostName: The hostname of the server to connect to.
- parameter port: The port of the server to connect to.
:returns: The created stream request.
*/
public func stream(hostName hostName: String, port: Int) -> Request {
return stream(.Stream(hostName, port))
}
/**
Creates a request for bidirectional streaming with the given `NSNetService`.
- parameter netService: The net service used to identify the endpoint.
- returns: The created stream request.
*/
public func stream(netService netService: NSNetService) -> Request {
return stream(.NetService(netService))
}
}
// MARK: -
@available(iOS 9.0, OSX 10.11, *)
extension Manager.SessionDelegate: NSURLSessionStreamDelegate {
// MARK: Override Closures
/// Overrides default behavior for NSURLSessionStreamDelegate method `URLSession:readClosedForStreamTask:`.
public var streamTaskReadClosed: ((NSURLSession, NSURLSessionStreamTask) -> Void)? {
get {
return _streamTaskReadClosed as? (NSURLSession, NSURLSessionStreamTask) -> Void
}
set {
_streamTaskReadClosed = newValue
}
}
/// Overrides default behavior for NSURLSessionStreamDelegate method `URLSession:writeClosedForStreamTask:`.
public var streamTaskWriteClosed: ((NSURLSession, NSURLSessionStreamTask) -> Void)? {
get {
return _streamTaskWriteClosed as? (NSURLSession, NSURLSessionStreamTask) -> Void
}
set {
_streamTaskWriteClosed = newValue
}
}
/// Overrides default behavior for NSURLSessionStreamDelegate method `URLSession:betterRouteDiscoveredForStreamTask:`.
public var streamTaskBetterRouteDiscovered: ((NSURLSession, NSURLSessionStreamTask) -> Void)? {
get {
return _streamTaskBetterRouteDiscovered as? (NSURLSession, NSURLSessionStreamTask) -> Void
}
set {
_streamTaskBetterRouteDiscovered = newValue
}
}
/// Overrides default behavior for NSURLSessionStreamDelegate method `URLSession:streamTask:didBecomeInputStream:outputStream:`.
public var streamTaskDidBecomeInputStream: ((NSURLSession, NSURLSessionStreamTask, NSInputStream, NSOutputStream) -> Void)? {
get {
return _streamTaskDidBecomeInputStream as? (NSURLSession, NSURLSessionStreamTask, NSInputStream, NSOutputStream) -> Void
}
set {
_streamTaskDidBecomeInputStream = newValue
}
}
// MARK: Delegate Methods
/**
Tells the delegate that the read side of the connection has been closed.
- parameter session: The session.
- parameter streamTask: The stream task.
*/
public func URLSession(session: NSURLSession, readClosedForStreamTask streamTask: NSURLSessionStreamTask) {
streamTaskReadClosed?(session, streamTask)
}
/**
Tells the delegate that the write side of the connection has been closed.
- parameter session: The session.
- parameter streamTask: The stream task.
*/
public func URLSession(session: NSURLSession, writeClosedForStreamTask streamTask: NSURLSessionStreamTask) {
streamTaskWriteClosed?(session, streamTask)
}
/**
Tells the delegate that the system has determined that a better route to the host is available.
- parameter session: The session.
- parameter streamTask: The stream task.
*/
public func URLSession(session: NSURLSession, betterRouteDiscoveredForStreamTask streamTask: NSURLSessionStreamTask) {
streamTaskBetterRouteDiscovered?(session, streamTask)
}
/**
Tells the delegate that the stream task has been completed and provides the unopened stream objects.
- parameter session: The session.
- parameter streamTask: The stream task.
- parameter inputStream: The new input stream.
- parameter outputStream: The new output stream.
*/
public func URLSession(
session: NSURLSession,
streamTask: NSURLSessionStreamTask,
didBecomeInputStream inputStream: NSInputStream,
outputStream: NSOutputStream)
{
streamTaskDidBecomeInputStream?(session, streamTask, inputStream, outputStream)
}
}
#endif

372
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/Alamofire/Source/Upload.swift generated Normal file
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// Upload.swift
//
// Copyright (c) 20142016 Alamofire Software Foundation (http://alamofire.org/)
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
import Foundation
extension Manager {
private enum Uploadable {
case Data(NSURLRequest, NSData)
case File(NSURLRequest, NSURL)
case Stream(NSURLRequest, NSInputStream)
}
private func upload(uploadable: Uploadable) -> Request {
var uploadTask: NSURLSessionUploadTask!
var HTTPBodyStream: NSInputStream?
switch uploadable {
case .Data(let request, let data):
dispatch_sync(queue) {
uploadTask = self.session.uploadTaskWithRequest(request, fromData: data)
}
case .File(let request, let fileURL):
dispatch_sync(queue) {
uploadTask = self.session.uploadTaskWithRequest(request, fromFile: fileURL)
}
case .Stream(let request, let stream):
dispatch_sync(queue) {
uploadTask = self.session.uploadTaskWithStreamedRequest(request)
}
HTTPBodyStream = stream
}
let request = Request(session: session, task: uploadTask)
if HTTPBodyStream != nil {
request.delegate.taskNeedNewBodyStream = { _, _ in
return HTTPBodyStream
}
}
delegate[request.delegate.task] = request.delegate
if startRequestsImmediately {
request.resume()
}
return request
}
// MARK: File
/**
Creates a request for uploading a file to the specified URL request.
If `startRequestsImmediately` is `true`, the request will have `resume()` called before being returned.
- parameter URLRequest: The URL request
- parameter file: The file to upload
- returns: The created upload request.
*/
public func upload(URLRequest: URLRequestConvertible, file: NSURL) -> Request {
return upload(.File(URLRequest.URLRequest, file))
}
/**
Creates a request for uploading a file to the specified URL request.
If `startRequestsImmediately` is `true`, the request will have `resume()` called before being returned.
- parameter method: The HTTP method.
- parameter URLString: The URL string.
- parameter headers: The HTTP headers. `nil` by default.
- parameter file: The file to upload
- returns: The created upload request.
*/
public func upload(
method: Method,
_ URLString: URLStringConvertible,
headers: [String: String]? = nil,
file: NSURL)
-> Request
{
let mutableURLRequest = URLRequest(method, URLString, headers: headers)
return upload(mutableURLRequest, file: file)
}
// MARK: Data
/**
Creates a request for uploading data to the specified URL request.
If `startRequestsImmediately` is `true`, the request will have `resume()` called before being returned.
- parameter URLRequest: The URL request.
- parameter data: The data to upload.
- returns: The created upload request.
*/
public func upload(URLRequest: URLRequestConvertible, data: NSData) -> Request {
return upload(.Data(URLRequest.URLRequest, data))
}
/**
Creates a request for uploading data to the specified URL request.
If `startRequestsImmediately` is `true`, the request will have `resume()` called before being returned.
- parameter method: The HTTP method.
- parameter URLString: The URL string.
- parameter headers: The HTTP headers. `nil` by default.
- parameter data: The data to upload
- returns: The created upload request.
*/
public func upload(
method: Method,
_ URLString: URLStringConvertible,
headers: [String: String]? = nil,
data: NSData)
-> Request
{
let mutableURLRequest = URLRequest(method, URLString, headers: headers)
return upload(mutableURLRequest, data: data)
}
// MARK: Stream
/**
Creates a request for uploading a stream to the specified URL request.
If `startRequestsImmediately` is `true`, the request will have `resume()` called before being returned.
- parameter URLRequest: The URL request.
- parameter stream: The stream to upload.
- returns: The created upload request.
*/
public func upload(URLRequest: URLRequestConvertible, stream: NSInputStream) -> Request {
return upload(.Stream(URLRequest.URLRequest, stream))
}
/**
Creates a request for uploading a stream to the specified URL request.
If `startRequestsImmediately` is `true`, the request will have `resume()` called before being returned.
- parameter method: The HTTP method.
- parameter URLString: The URL string.
- parameter headers: The HTTP headers. `nil` by default.
- parameter stream: The stream to upload.
- returns: The created upload request.
*/
public func upload(
method: Method,
_ URLString: URLStringConvertible,
headers: [String: String]? = nil,
stream: NSInputStream)
-> Request
{
let mutableURLRequest = URLRequest(method, URLString, headers: headers)
return upload(mutableURLRequest, stream: stream)
}
// MARK: MultipartFormData
/// Default memory threshold used when encoding `MultipartFormData`.
public static let MultipartFormDataEncodingMemoryThreshold: UInt64 = 10 * 1024 * 1024
/**
Defines whether the `MultipartFormData` encoding was successful and contains result of the encoding as
associated values.
- Success: Represents a successful `MultipartFormData` encoding and contains the new `Request` along with
streaming information.
- Failure: Used to represent a failure in the `MultipartFormData` encoding and also contains the encoding
error.
*/
public enum MultipartFormDataEncodingResult {
case Success(request: Request, streamingFromDisk: Bool, streamFileURL: NSURL?)
case Failure(ErrorType)
}
/**
Encodes the `MultipartFormData` and creates a request to upload the result to the specified URL request.
It is important to understand the memory implications of uploading `MultipartFormData`. If the cummulative
payload is small, encoding the data in-memory and directly uploading to a server is the by far the most
efficient approach. However, if the payload is too large, encoding the data in-memory could cause your app to
be terminated. Larger payloads must first be written to disk using input and output streams to keep the memory
footprint low, then the data can be uploaded as a stream from the resulting file. Streaming from disk MUST be
used for larger payloads such as video content.
The `encodingMemoryThreshold` parameter allows Alamofire to automatically determine whether to encode in-memory
or stream from disk. If the content length of the `MultipartFormData` is below the `encodingMemoryThreshold`,
encoding takes place in-memory. If the content length exceeds the threshold, the data is streamed to disk
during the encoding process. Then the result is uploaded as data or as a stream depending on which encoding
technique was used.
If `startRequestsImmediately` is `true`, the request will have `resume()` called before being returned.
- parameter method: The HTTP method.
- parameter URLString: The URL string.
- parameter headers: The HTTP headers. `nil` by default.
- parameter multipartFormData: The closure used to append body parts to the `MultipartFormData`.
- parameter encodingMemoryThreshold: The encoding memory threshold in bytes.
`MultipartFormDataEncodingMemoryThreshold` by default.
- parameter encodingCompletion: The closure called when the `MultipartFormData` encoding is complete.
*/
public func upload(
method: Method,
_ URLString: URLStringConvertible,
headers: [String: String]? = nil,
multipartFormData: MultipartFormData -> Void,
encodingMemoryThreshold: UInt64 = Manager.MultipartFormDataEncodingMemoryThreshold,
encodingCompletion: (MultipartFormDataEncodingResult -> Void)?)
{
let mutableURLRequest = URLRequest(method, URLString, headers: headers)
return upload(
mutableURLRequest,
multipartFormData: multipartFormData,
encodingMemoryThreshold: encodingMemoryThreshold,
encodingCompletion: encodingCompletion
)
}
/**
Encodes the `MultipartFormData` and creates a request to upload the result to the specified URL request.
It is important to understand the memory implications of uploading `MultipartFormData`. If the cummulative
payload is small, encoding the data in-memory and directly uploading to a server is the by far the most
efficient approach. However, if the payload is too large, encoding the data in-memory could cause your app to
be terminated. Larger payloads must first be written to disk using input and output streams to keep the memory
footprint low, then the data can be uploaded as a stream from the resulting file. Streaming from disk MUST be
used for larger payloads such as video content.
The `encodingMemoryThreshold` parameter allows Alamofire to automatically determine whether to encode in-memory
or stream from disk. If the content length of the `MultipartFormData` is below the `encodingMemoryThreshold`,
encoding takes place in-memory. If the content length exceeds the threshold, the data is streamed to disk
during the encoding process. Then the result is uploaded as data or as a stream depending on which encoding
technique was used.
If `startRequestsImmediately` is `true`, the request will have `resume()` called before being returned.
- parameter URLRequest: The URL request.
- parameter multipartFormData: The closure used to append body parts to the `MultipartFormData`.
- parameter encodingMemoryThreshold: The encoding memory threshold in bytes.
`MultipartFormDataEncodingMemoryThreshold` by default.
- parameter encodingCompletion: The closure called when the `MultipartFormData` encoding is complete.
*/
public func upload(
URLRequest: URLRequestConvertible,
multipartFormData: MultipartFormData -> Void,
encodingMemoryThreshold: UInt64 = Manager.MultipartFormDataEncodingMemoryThreshold,
encodingCompletion: (MultipartFormDataEncodingResult -> Void)?)
{
dispatch_async(dispatch_get_global_queue(DISPATCH_QUEUE_PRIORITY_DEFAULT, 0)) {
let formData = MultipartFormData()
multipartFormData(formData)
let URLRequestWithContentType = URLRequest.URLRequest
URLRequestWithContentType.setValue(formData.contentType, forHTTPHeaderField: "Content-Type")
let isBackgroundSession = self.session.configuration.identifier != nil
if formData.contentLength < encodingMemoryThreshold && !isBackgroundSession {
do {
let data = try formData.encode()
let encodingResult = MultipartFormDataEncodingResult.Success(
request: self.upload(URLRequestWithContentType, data: data),
streamingFromDisk: false,
streamFileURL: nil
)
dispatch_async(dispatch_get_main_queue()) {
encodingCompletion?(encodingResult)
}
} catch {
dispatch_async(dispatch_get_main_queue()) {
encodingCompletion?(.Failure(error as NSError))
}
}
} else {
let fileManager = NSFileManager.defaultManager()
let tempDirectoryURL = NSURL(fileURLWithPath: NSTemporaryDirectory())
let directoryURL = tempDirectoryURL.URLByAppendingPathComponent("com.alamofire.manager/multipart.form.data")
let fileName = NSUUID().UUIDString
let fileURL = directoryURL.URLByAppendingPathComponent(fileName)
do {
try fileManager.createDirectoryAtURL(directoryURL, withIntermediateDirectories: true, attributes: nil)
try formData.writeEncodedDataToDisk(fileURL)
dispatch_async(dispatch_get_main_queue()) {
let encodingResult = MultipartFormDataEncodingResult.Success(
request: self.upload(URLRequestWithContentType, file: fileURL),
streamingFromDisk: true,
streamFileURL: fileURL
)
encodingCompletion?(encodingResult)
}
} catch {
dispatch_async(dispatch_get_main_queue()) {
encodingCompletion?(.Failure(error as NSError))
}
}
}
}
}
}
// MARK: -
extension Request {
// MARK: - UploadTaskDelegate
class UploadTaskDelegate: DataTaskDelegate {
var uploadTask: NSURLSessionUploadTask? { return task as? NSURLSessionUploadTask }
var uploadProgress: ((Int64, Int64, Int64) -> Void)!
// MARK: - NSURLSessionTaskDelegate
// MARK: Override Closures
var taskDidSendBodyData: ((NSURLSession, NSURLSessionTask, Int64, Int64, Int64) -> Void)?
// MARK: Delegate Methods
func URLSession(
session: NSURLSession,
task: NSURLSessionTask,
didSendBodyData bytesSent: Int64,
totalBytesSent: Int64,
totalBytesExpectedToSend: Int64)
{
if let taskDidSendBodyData = taskDidSendBodyData {
taskDidSendBodyData(session, task, bytesSent, totalBytesSent, totalBytesExpectedToSend)
} else {
progress.totalUnitCount = totalBytesExpectedToSend
progress.completedUnitCount = totalBytesSent
uploadProgress?(bytesSent, totalBytesSent, totalBytesExpectedToSend)
}
}
}
}

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// Validation.swift
//
// Copyright (c) 20142016 Alamofire Software Foundation (http://alamofire.org/)
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
import Foundation
extension Request {
/**
Used to represent whether validation was successful or encountered an error resulting in a failure.
- Success: The validation was successful.
- Failure: The validation failed encountering the provided error.
*/
public enum ValidationResult {
case Success
case Failure(NSError)
}
/**
A closure used to validate a request that takes a URL request and URL response, and returns whether the
request was valid.
*/
public typealias Validation = (NSURLRequest?, NSHTTPURLResponse) -> ValidationResult
/**
Validates the request, using the specified closure.
If validation fails, subsequent calls to response handlers will have an associated error.
- parameter validation: A closure to validate the request.
- returns: The request.
*/
public func validate(validation: Validation) -> Self {
delegate.queue.addOperationWithBlock {
if let
response = self.response where self.delegate.error == nil,
case let .Failure(error) = validation(self.request, response)
{
self.delegate.error = error
}
}
return self
}
// MARK: - Status Code
/**
Validates that the response has a status code in the specified range.
If validation fails, subsequent calls to response handlers will have an associated error.
- parameter range: The range of acceptable status codes.
- returns: The request.
*/
public func validate<S: SequenceType where S.Generator.Element == Int>(statusCode acceptableStatusCode: S) -> Self {
return validate { _, response in
if acceptableStatusCode.contains(response.statusCode) {
return .Success
} else {
let failureReason = "Response status code was unacceptable: \(response.statusCode)"
return .Failure(Error.errorWithCode(.StatusCodeValidationFailed, failureReason: failureReason))
}
}
}
// MARK: - Content-Type
private struct MIMEType {
let type: String
let subtype: String
init?(_ string: String) {
let components: [String] = {
let stripped = string.stringByTrimmingCharactersInSet(NSCharacterSet.whitespaceAndNewlineCharacterSet())
let split = stripped.substringToIndex(stripped.rangeOfString(";")?.startIndex ?? stripped.endIndex)
return split.componentsSeparatedByString("/")
}()
if let
type = components.first,
subtype = components.last
{
self.type = type
self.subtype = subtype
} else {
return nil
}
}
func matches(MIME: MIMEType) -> Bool {
switch (type, subtype) {
case (MIME.type, MIME.subtype), (MIME.type, "*"), ("*", MIME.subtype), ("*", "*"):
return true
default:
return false
}
}
}
/**
Validates that the response has a content type in the specified array.
If validation fails, subsequent calls to response handlers will have an associated error.
- parameter contentType: The acceptable content types, which may specify wildcard types and/or subtypes.
- returns: The request.
*/
public func validate<S : SequenceType where S.Generator.Element == String>(contentType acceptableContentTypes: S) -> Self {
return validate { _, response in
guard let validData = self.delegate.data where validData.length > 0 else { return .Success }
if let
responseContentType = response.MIMEType,
responseMIMEType = MIMEType(responseContentType)
{
for contentType in acceptableContentTypes {
if let acceptableMIMEType = MIMEType(contentType) where acceptableMIMEType.matches(responseMIMEType) {
return .Success
}
}
} else {
for contentType in acceptableContentTypes {
if let MIMEType = MIMEType(contentType) where MIMEType.type == "*" && MIMEType.subtype == "*" {
return .Success
}
}
}
let failureReason: String
if let responseContentType = response.MIMEType {
failureReason = (
"Response content type \"\(responseContentType)\" does not match any acceptable " +
"content types: \(acceptableContentTypes)"
)
} else {
failureReason = "Response content type was missing and acceptable content type does not match \"*/*\""
}
return .Failure(Error.errorWithCode(.ContentTypeValidationFailed, failureReason: failureReason))
}
}
// MARK: - Automatic
/**
Validates that the response has a status code in the default acceptable range of 200...299, and that the content
type matches any specified in the Accept HTTP header field.
If validation fails, subsequent calls to response handlers will have an associated error.
- returns: The request.
*/
public func validate() -> Self {
let acceptableStatusCodes: Range<Int> = 200..<300
let acceptableContentTypes: [String] = {
if let accept = request?.valueForHTTPHeaderField("Accept") {
return accept.componentsSeparatedByString(",")
}
return ["*/*"]
}()
return validate(statusCode: acceptableStatusCodes).validate(contentType: acceptableContentTypes)
}
}

25
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/Local Podspecs/PetstoreClient.podspec.json generated Normal file
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{
"name": "PetstoreClient",
"platforms": {
"ios": "8.0",
"osx": "10.9"
},
"version": "0.0.1",
"source": {
"git": "git@github.com:swagger-api/swagger-mustache.git",
"tag": "v1.0.0"
},
"authors": "",
"license": "Apache License, Version 2.0",
"homepage": "https://github.com/swagger-api/swagger-codegen",
"summary": "PetstoreClient",
"source_files": "PetstoreClient/Classes/Swaggers/**/*.swift",
"dependencies": {
"RxSwift": [
"~> 2.0"
],
"Alamofire": [
"~> 3.1.5"
]
}
}

22
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/Manifest.lock generated Normal file
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PODS:
- Alamofire (3.1.5)
- PetstoreClient (0.0.1):
- Alamofire (~> 3.1.5)
- RxSwift (~> 2.0)
- RxSwift (2.6.0)
DEPENDENCIES:
- PetstoreClient (from `../`)
EXTERNAL SOURCES:
PetstoreClient:
:path: "../"
SPEC CHECKSUMS:
Alamofire: 5f730ba29fd113b7ddd71c1e65d0c630acf5d7b0
PetstoreClient: 0baad893079f270b6bcf2e868ba68d8b9ce36812
RxSwift: 77f3a0b15324baa7a1c9bfa9f199648a82424e26
PODFILE CHECKSUM: cedb3058b02f4776d7c31f6d92ae2f674fdf424d
COCOAPODS: 1.0.1

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samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/LICENSE.md generated Normal file
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**The MIT License**
**Copyright © 2015 Krunoslav Zaher**
**All rights reserved.**
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

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samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/README.md generated Normal file
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<img src="assets/Rx_Logo_M.png" alt="Miss Electric Eel 2016" width="36" height="36"> RxSwift: ReactiveX for Swift
======================================
[![Travis CI](https://travis-ci.org/ReactiveX/RxSwift.svg?branch=master)](https://travis-ci.org/ReactiveX/RxSwift) ![platforms](https://img.shields.io/badge/platforms-iOS%20%7C%20OSX%20%7C%20tvOS%20%7C%20watchOS%20%7C%20Linux%28experimental%29-333333.svg) ![pod](https://img.shields.io/cocoapods/v/RxSwift.svg) [![Carthage compatible](https://img.shields.io/badge/Carthage-compatible-4BC51D.svg?style=flat)](https://github.com/Carthage/Carthage)
Xcode 7.3 Swift 2.2 required
## About Rx
Rx is a [generic abstraction of computation](https://youtu.be/looJcaeboBY) expressed through `Observable<Element>` interface.
This is a Swift version of [Rx](https://github.com/Reactive-Extensions/Rx.NET).
It tries to port as many concepts from the original version as possible, but some concepts were adapted for more pleasant and performant integration with iOS/OSX environment.
Cross platform documentation can be found on [ReactiveX.io](http://reactivex.io/).
Like the original Rx, its intention is to enable easy composition of asynchronous operations and event/data streams.
KVO observing, async operations and streams are all unified under [abstraction of sequence](Documentation/GettingStarted.md#observables-aka-sequences). This is the reason why Rx is so simple, elegant and powerful.
## I came here because I want to ...
###### ... understand
* [why use rx?](Documentation/Why.md)
* [the basics, getting started with RxSwift](Documentation/GettingStarted.md)
* [units](Documentation/Units.md) - what is `Driver`, `ControlProperty`, and `Variable` ... and why do they exist?
* [testing](Documentation/UnitTests.md)
* [tips and common errors](Documentation/Tips.md)
* [debugging](Documentation/GettingStarted.md#debugging)
* [the math behind Rx](Documentation/MathBehindRx.md)
* [what are hot and cold observable sequences?](Documentation/HotAndColdObservables.md)
* [what does the the public API look like?](Documentation/API.md)
###### ... install
* Integrate RxSwift/RxCocoa with my app. [Installation Guide](Documentation/Installation.md)
###### ... hack around
* with the example app. [Running Example App](Documentation/ExampleApp.md)
* with operators in playgrounds. [Playgrounds](Documentation/Playgrounds.md)
###### ... interact
* All of this is great, but it would be nice to talk with other people using RxSwift and exchange experiences. <br />[![Slack channel](http://slack.rxswift.org/badge.svg)](http://slack.rxswift.org) [Join Slack Channel](http://slack.rxswift.org/)
* Report a problem using the library. [Open an Issue With Bug Template](ISSUE_TEMPLATE.md)
* Request a new feature. [Open an Issue With Feature Request Template](Documentation/NewFeatureRequestTemplate.md)
###### ... compare
* [with other libraries](Documentation/ComparisonWithOtherLibraries.md).
###### ... find compatible
* libraries from [RxSwiftCommunity](https://github.com/RxSwiftCommunity).
* [Pods using RxSwift](https://cocoapods.org/?q=uses%3Arxswift).
###### ... see the broader vision
* Does this exist for Android? [RxJava](https://github.com/ReactiveX/RxJava)
* Where is all of this going, what is the future, what about reactive architectures, how do you design entire apps this way? [Cycle.js](https://github.com/cyclejs/cycle-core) - this is javascript, but [RxJS](https://github.com/Reactive-Extensions/RxJS) is javascript version of Rx.
## Usage
<table>
<tr>
<th width="30%">Here's an example</th>
<th width="30%">In Action</th>
</tr>
<tr>
<td>Define search for GitHub repositories ...</td>
<th rowspan="9"><img src="https://raw.githubusercontent.com/kzaher/rxswiftcontent/master/GithubSearch.gif"></th>
</tr>
<tr>
<td><div class="highlight highlight-source-swift"><pre>
let searchResults = searchBar.rx_text
.throttle(0.3, scheduler: MainScheduler.instance)
.distinctUntilChanged()
.flatMapLatest { query -> Observable<[Repository]> in
if query.isEmpty {
return Observable.just([])
}
return searchGitHub(query)
.catchErrorJustReturn([])
}
.observeOn(MainScheduler.instance)</pre></div></td>
</tr>
<tr>
<td>... then bind the results to your tableview</td>
</tr>
<tr>
<td width="30%"><div class="highlight highlight-source-swift"><pre>
searchResults
.bindTo(tableView.rx_itemsWithCellIdentifier("Cell")) {
(index, repository: Repository, cell) in
cell.textLabel?.text = repository.name
cell.detailTextLabel?.text = repository.url
}
.addDisposableTo(disposeBag)</pre></div></td>
</tr>
</table>
## Installation
Rx doesn't contain any external dependencies.
These are currently the supported options:
### Manual
Open Rx.xcworkspace, choose `RxExample` and hit run. This method will build everything and run the sample app
### [CocoaPods](https://guides.cocoapods.org/using/using-cocoapods.html)
**:warning: IMPORTANT! For tvOS support, CocoaPods `0.39` is required. :warning:**
```
# Podfile
use_frameworks!
target 'YOUR_TARGET_NAME' do
pod 'RxSwift', '~> 2.0'
pod 'RxCocoa', '~> 2.0'
end
# RxTests and RxBlocking make the most sense in the context of unit/integration tests
target 'YOUR_TESTING_TARGET' do
pod 'RxBlocking', '~> 2.0'
pod 'RxTests', '~> 2.0'
end
```
Replace `YOUR_TARGET_NAME` and then, in the `Podfile` directory, type:
```
$ pod install
```
### [Carthage](https://github.com/Carthage/Carthage)
**Xcode 7.1 required**
Add this to `Cartfile`
```
github "ReactiveX/RxSwift" ~> 2.0
```
```
$ carthage update
```
### Manually using git submodules
* Add RxSwift as a submodule
```
$ git submodule add git@github.com:ReactiveX/RxSwift.git
```
* Drag `Rx.xcodeproj` into Project Navigator
* Go to `Project > Targets > Build Phases > Link Binary With Libraries`, click `+` and select `RxSwift-[Platform]` and `RxCocoa-[Platform]` targets
## References
* [http://reactivex.io/](http://reactivex.io/)
* [Reactive Extensions GitHub (GitHub)](https://github.com/Reactive-Extensions)
* [Erik Meijer (Wikipedia)](http://en.wikipedia.org/wiki/Erik_Meijer_%28computer_scientist%29)
* [Expert to Expert: Brian Beckman and Erik Meijer - Inside the .NET Reactive Framework (Rx) (video)](https://youtu.be/looJcaeboBY)
* [Reactive Programming Overview (Jafar Husain from Netflix)](https://www.youtube.com/watch?v=dwP1TNXE6fc)
* [Subject/Observer is Dual to Iterator (paper)](http://csl.stanford.edu/~christos/pldi2010.fit/meijer.duality.pdf)
* [Rx standard sequence operators visualized (visualization tool)](http://rxmarbles.com/)
* [Haskell](https://www.haskell.org/)

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//
// AnyObserver.swift
// Rx
//
// Created by Krunoslav Zaher on 2/28/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
A type-erased `ObserverType`.
Forwards operations to an arbitrary underlying observer with the same `Element` type, hiding the specifics of the underlying observer type.
*/
public struct AnyObserver<Element> : ObserverType {
/**
The type of elements in sequence that observer can observe.
*/
public typealias E = Element
/**
Anonymous event handler type.
*/
public typealias EventHandler = (Event<Element>) -> Void
public let observer: EventHandler
/**
Construct an instance whose `on(event)` calls `eventHandler(event)`
- parameter eventHandler: Event handler that observes sequences events.
*/
public init(eventHandler: EventHandler) {
self.observer = eventHandler
}
/**
Construct an instance whose `on(event)` calls `observer.on(event)`
- parameter observer: Observer that receives sequence events.
*/
public init<O : ObserverType where O.E == Element>(_ observer: O) {
self.observer = observer.on
}
/**
Send `event` to this observer.
- parameter event: Event instance.
*/
public func on(event: Event<Element>) {
return self.observer(event)
}
/**
Erases type of observer and returns canonical observer.
- returns: type erased observer.
*/
public func asObserver() -> AnyObserver<E> {
return self
}
}
extension ObserverType {
/**
Erases type of observer and returns canonical observer.
- returns: type erased observer.
*/
public func asObserver() -> AnyObserver<E> {
return AnyObserver(self)
}
}

19
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Cancelable.swift generated Normal file
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//
// Cancelable.swift
// Rx
//
// Created by Krunoslav Zaher on 3/12/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Represents disposable resource with state tracking.
*/
public protocol Cancelable : Disposable {
/**
- returns: Was resource disposed.
*/
var disposed: Bool { get }
}

104
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Concurrency/AsyncLock.swift generated Normal file
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//
// AsyncLock.swift
// Rx
//
// Created by Krunoslav Zaher on 3/21/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
In case nobody holds this lock, the work will be queued and executed immediately
on thread that is requesting lock.
In case there is somebody currently holding that lock, action will be enqueued.
When owned of the lock finishes with it's processing, it will also execute
and pending work.
That means that enqueued work could possibly be executed later on a different thread.
*/
class AsyncLock<I: InvocableType>
: Disposable
, Lock
, SynchronizedDisposeType {
typealias Action = () -> Void
var _lock = SpinLock()
private var _queue: Queue<I> = Queue(capacity: 0)
private var _isExecuting: Bool = false
private var _hasFaulted: Bool = false
// lock {
func lock() {
_lock.lock()
}
func unlock() {
_lock.unlock()
}
// }
private func enqueue(action: I) -> I? {
_lock.lock(); defer { _lock.unlock() } // {
if _hasFaulted {
return nil
}
if _isExecuting {
_queue.enqueue(action)
return nil
}
_isExecuting = true
return action
// }
}
private func dequeue() -> I? {
_lock.lock(); defer { _lock.unlock() } // {
if _queue.count > 0 {
return _queue.dequeue()
}
else {
_isExecuting = false
return nil
}
// }
}
func invoke(action: I) {
let firstEnqueuedAction = enqueue(action)
if let firstEnqueuedAction = firstEnqueuedAction {
firstEnqueuedAction.invoke()
}
else {
// action is enqueued, it's somebody else's concern now
return
}
while true {
let nextAction = dequeue()
if let nextAction = nextAction {
nextAction.invoke()
}
else {
return
}
}
}
func dispose() {
synchronizedDispose()
}
func _synchronized_dispose() {
_queue = Queue(capacity: 0)
_hasFaulted = true
}
}

107
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//
// Lock.swift
// Rx
//
// Created by Krunoslav Zaher on 3/31/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
protocol Lock {
func lock()
func unlock()
}
#if os(Linux)
import Glibc
/**
Simple wrapper for spin lock.
*/
class SpinLock {
private var _lock: pthread_spinlock_t = 0
init() {
if (pthread_spin_init(&_lock, 0) != 0) {
fatalError("Spin lock initialization failed")
}
}
func lock() {
pthread_spin_lock(&_lock)
}
func unlock() {
pthread_spin_unlock(&_lock)
}
func performLocked(@noescape action: () -> Void) {
lock(); defer { unlock() }
action()
}
func calculateLocked<T>(@noescape action: () -> T) -> T {
lock(); defer { unlock() }
return action()
}
func calculateLockedOrFail<T>(@noescape action: () throws -> T) throws -> T {
lock(); defer { unlock() }
let result = try action()
return result
}
deinit {
pthread_spin_destroy(&_lock)
}
}
#else
// https://lists.swift.org/pipermail/swift-dev/Week-of-Mon-20151214/000321.html
typealias SpinLock = NSRecursiveLock
#endif
extension NSRecursiveLock : Lock {
func performLocked(@noescape action: () -> Void) {
lock(); defer { unlock() }
action()
}
func calculateLocked<T>(@noescape action: () -> T) -> T {
lock(); defer { unlock() }
return action()
}
func calculateLockedOrFail<T>(@noescape action: () throws -> T) throws -> T {
lock(); defer { unlock() }
let result = try action()
return result
}
}
/*
let RECURSIVE_MUTEX = _initializeRecursiveMutex()
func _initializeRecursiveMutex() -> pthread_mutex_t {
var mutex: pthread_mutex_t = pthread_mutex_t()
var mta: pthread_mutexattr_t = pthread_mutexattr_t()
pthread_mutex_init(&mutex, nil)
pthread_mutexattr_init(&mta)
pthread_mutexattr_settype(&mta, PTHREAD_MUTEX_RECURSIVE)
pthread_mutex_init(&mutex, &mta)
return mutex
}
extension pthread_mutex_t {
mutating func lock() {
pthread_mutex_lock(&self)
}
mutating func unlock() {
pthread_mutex_unlock(&self)
}
}
*/

23
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Concurrency/LockOwnerType.swift generated Normal file
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//
// LockOwnerType.swift
// Rx
//
// Created by Krunoslav Zaher on 10/25/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
protocol LockOwnerType : class, Lock {
var _lock: NSRecursiveLock { get }
}
extension LockOwnerType {
func lock() {
_lock.lock()
}
func unlock() {
_lock.unlock()
}
}

20
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Concurrency/SynchronizedDisposeType.swift generated Normal file
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//
// SynchronizedDisposeType.swift
// Rx
//
// Created by Krunoslav Zaher on 10/25/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
protocol SynchronizedDisposeType : class, Disposable, Lock {
func _synchronized_dispose()
}
extension SynchronizedDisposeType {
func synchronizedDispose() {
lock(); defer { unlock() }
_synchronized_dispose()
}
}

20
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Concurrency/SynchronizedOnType.swift generated Normal file
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//
// SynchronizedOnType.swift
// Rx
//
// Created by Krunoslav Zaher on 10/25/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
protocol SynchronizedOnType : class, ObserverType, Lock {
func _synchronized_on(event: Event<E>)
}
extension SynchronizedOnType {
func synchronizedOn(event: Event<E>) {
lock(); defer { unlock() }
_synchronized_on(event)
}
}

20
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Concurrency/SynchronizedSubscribeType.swift generated Normal file
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//
// SynchronizedSubscribeType.swift
// Rx
//
// Created by Krunoslav Zaher on 10/25/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
protocol SynchronizedSubscribeType : class, ObservableType, Lock {
func _synchronized_subscribe<O: ObserverType where O.E == E>(observer: O) -> Disposable
}
extension SynchronizedSubscribeType {
func synchronizedSubscribe<O: ObserverType where O.E == E>(observer: O) -> Disposable {
lock(); defer { unlock() }
return _synchronized_subscribe(observer)
}
}

15
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Concurrency/SynchronizedUnsubscribeType.swift generated Normal file
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//
// SynchronizedUnsubscribeType.swift
// Rx
//
// Created by Krunoslav Zaher on 10/25/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
protocol SynchronizedUnsubscribeType : class {
associatedtype DisposeKey
func synchronizedUnsubscribe(disposeKey: DisposeKey)
}

21
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/ConnectableObservableType.swift generated Normal file
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//
// ConnectableObservableType.swift
// Rx
//
// Created by Krunoslav Zaher on 3/1/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Represents an observable sequence wrapper that can be connected and disconnected from its underlying observable sequence.
*/
public protocol ConnectableObservableType : ObservableType {
/**
Connects the observable wrapper to its source. All subscribed observers will receive values from the underlying observable sequence as long as the connection is established.
- returns: Disposable used to disconnect the observable wrapper from its source, causing subscribed observer to stop receiving values from the underlying observable sequence.
*/
func connect() -> Disposable
}

328
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/DataStructures/Bag.swift generated Normal file
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//
// Bag.swift
// Rx
//
// Created by Krunoslav Zaher on 2/28/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
import Swift
let arrayDictionaryMaxSize = 30
/**
Class that enables using memory allocations as a means to uniquely identify objects.
*/
class Identity {
// weird things have known to happen with Swift
var _forceAllocation: Int32 = 0
}
func hash(_x: Int) -> Int {
var x = _x
x = ((x >> 16) ^ x) &* 0x45d9f3b
x = ((x >> 16) ^ x) &* 0x45d9f3b
x = ((x >> 16) ^ x)
return x;
}
/**
Unique identifier for object added to `Bag`.
*/
public struct BagKey : Hashable {
let uniqueIdentity: Identity?
let key: Int
public var hashValue: Int {
if let uniqueIdentity = uniqueIdentity {
return hash(key) ^ (unsafeAddressOf(uniqueIdentity).hashValue)
}
else {
return hash(key)
}
}
}
/**
Compares two `BagKey`s.
*/
public func == (lhs: BagKey, rhs: BagKey) -> Bool {
return lhs.key == rhs.key && lhs.uniqueIdentity === rhs.uniqueIdentity
}
/**
Data structure that represents a bag of elements typed `T`.
Single element can be stored multiple times.
Time and space complexity of insertion an deletion is O(n).
It is suitable for storing small number of elements.
*/
public struct Bag<T> : CustomDebugStringConvertible {
/**
Type of identifier for inserted elements.
*/
public typealias KeyType = BagKey
private typealias ScopeUniqueTokenType = Int
typealias Entry = (key: BagKey, value: T)
private var _uniqueIdentity: Identity?
private var _nextKey: ScopeUniqueTokenType = 0
// data
// first fill inline variables
private var _key0: BagKey? = nil
private var _value0: T? = nil
private var _key1: BagKey? = nil
private var _value1: T? = nil
// then fill "array dictionary"
private var _pairs = ContiguousArray<Entry>()
// last is sparse dictionary
private var _dictionary: [BagKey : T]? = nil
private var _onlyFastPath = true
/**
Creates new empty `Bag`.
*/
public init() {
}
/**
Inserts `value` into bag.
- parameter element: Element to insert.
- returns: Key that can be used to remove element from bag.
*/
public mutating func insert(element: T) -> BagKey {
_nextKey = _nextKey &+ 1
#if DEBUG
_nextKey = _nextKey % 20
#endif
if _nextKey == 0 {
_uniqueIdentity = Identity()
}
let key = BagKey(uniqueIdentity: _uniqueIdentity, key: _nextKey)
if _key0 == nil {
_key0 = key
_value0 = element
return key
}
_onlyFastPath = false
if _key1 == nil {
_key1 = key
_value1 = element
return key
}
if _dictionary != nil {
_dictionary![key] = element
return key
}
if _pairs.count < arrayDictionaryMaxSize {
_pairs.append(key: key, value: element)
return key
}
if _dictionary == nil {
_dictionary = [:]
}
_dictionary![key] = element
return key
}
/**
- returns: Number of elements in bag.
*/
public var count: Int {
let dictionaryCount: Int = _dictionary?.count ?? 0
return _pairs.count + (_value0 != nil ? 1 : 0) + (_value1 != nil ? 1 : 0) + dictionaryCount
}
/**
Removes all elements from bag and clears capacity.
*/
public mutating func removeAll() {
_key0 = nil
_value0 = nil
_key1 = nil
_value1 = nil
_pairs.removeAll(keepCapacity: false)
_dictionary?.removeAll(keepCapacity: false)
}
/**
Removes element with a specific `key` from bag.
- parameter key: Key that identifies element to remove from bag.
- returns: Element that bag contained, or nil in case element was already removed.
*/
public mutating func removeKey(key: BagKey) -> T? {
if _key0 == key {
_key0 = nil
let value = _value0!
_value0 = nil
return value
}
if _key1 == key {
_key1 = nil
let value = _value1!
_value1 = nil
return value
}
if let existingObject = _dictionary?.removeValueForKey(key) {
return existingObject
}
for i in 0 ..< _pairs.count {
if _pairs[i].key == key {
let value = _pairs[i].value
_pairs.removeAtIndex(i)
return value
}
}
return nil
}
}
extension Bag {
/**
A textual representation of `self`, suitable for debugging.
*/
public var debugDescription : String {
return "\(self.count) elements in Bag"
}
}
// MARK: forEach
extension Bag {
/**
Enumerates elements inside the bag.
- parameter action: Enumeration closure.
*/
public func forEach(@noescape action: (T) -> Void) {
if _onlyFastPath {
if let value0 = _value0 {
action(value0)
}
return
}
let pairs = _pairs
let value0 = _value0
let value1 = _value1
let dictionary = _dictionary
if let value0 = value0 {
action(value0)
}
if let value1 = value1 {
action(value1)
}
for i in 0 ..< pairs.count {
action(pairs[i].value)
}
if dictionary?.count ?? 0 > 0 {
for element in dictionary!.values {
action(element)
}
}
}
}
extension Bag where T: ObserverType {
/**
Dispatches `event` to app observers contained inside bag.
- parameter action: Enumeration closure.
*/
public func on(event: Event<T.E>) {
if _onlyFastPath {
_value0?.on(event)
return
}
let pairs = _pairs
let value0 = _value0
let value1 = _value1
let dictionary = _dictionary
if let value0 = value0 {
value0.on(event)
}
if let value1 = value1 {
value1.on(event)
}
for i in 0 ..< pairs.count {
pairs[i].value.on(event)
}
if dictionary?.count ?? 0 > 0 {
for element in dictionary!.values {
element.on(event)
}
}
}
}
/**
Dispatches `dispose` to all disposables contained inside bag.
*/
public func disposeAllIn(bag: Bag<Disposable>) {
if bag._onlyFastPath {
bag._value0?.dispose()
return
}
let pairs = bag._pairs
let value0 = bag._value0
let value1 = bag._value1
let dictionary = bag._dictionary
if let value0 = value0 {
value0.dispose()
}
if let value1 = value1 {
value1.dispose()
}
for i in 0 ..< pairs.count {
pairs[i].value.dispose()
}
if dictionary?.count ?? 0 > 0 {
for element in dictionary!.values {
element.dispose()
}
}
}

30
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/DataStructures/InfiniteSequence.swift generated Normal file
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//
// InfiniteSequence.swift
// RxSwift
//
// Created by Krunoslav Zaher on 6/13/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Sequence that repeats `repeatedValue` infinite number of times.
*/
struct InfiniteSequence<E> : SequenceType {
typealias Element = E
typealias Generator = AnyGenerator<E>
private let _repeatedValue: E
init(repeatedValue: E) {
_repeatedValue = repeatedValue
}
func generate() -> Generator {
let repeatedValue = _repeatedValue
return AnyGenerator {
return repeatedValue
}
}
}

120
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/DataStructures/PriorityQueue.swift generated Normal file
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//
// PriorityQueue.swift
// Rx
//
// Created by Krunoslav Zaher on 12/27/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
struct PriorityQueue<Element: AnyObject> {
private let _hasHigherPriority: (Element, Element) -> Bool
private var _elements = [Element]()
init(hasHigherPriority: (Element, Element) -> Bool) {
_hasHigherPriority = hasHigherPriority
}
mutating func enqueue(element: Element) {
_elements.append(element)
bubbleToHigherPriority(_elements.count - 1)
}
func peek() -> Element? {
return _elements.first
}
var isEmpty: Bool {
return _elements.count == 0
}
mutating func dequeue() -> Element? {
guard let front = peek() else {
return nil
}
removeAt(0)
return front
}
mutating func remove(element: Element) {
for i in 0 ..< _elements.count {
if _elements[i] === element {
removeAt(i)
return
}
}
}
private mutating func removeAt(index: Int) {
let removingLast = index == _elements.count - 1
if !removingLast {
swap(&_elements[index], &_elements[_elements.count - 1])
}
_elements.popLast()
if !removingLast {
bubbleToHigherPriority(index)
bubbleToLowerPriority(index)
}
}
private mutating func bubbleToHigherPriority(initialUnbalancedIndex: Int) {
precondition(initialUnbalancedIndex >= 0)
precondition(initialUnbalancedIndex < _elements.count)
var unbalancedIndex = initialUnbalancedIndex
while unbalancedIndex > 0 {
let parentIndex = (unbalancedIndex - 1) / 2
if _hasHigherPriority(_elements[unbalancedIndex], _elements[parentIndex]) {
swap(&_elements[unbalancedIndex], &_elements[parentIndex])
unbalancedIndex = parentIndex
}
else {
break
}
}
}
private mutating func bubbleToLowerPriority(initialUnbalancedIndex: Int) {
precondition(initialUnbalancedIndex >= 0)
precondition(initialUnbalancedIndex < _elements.count)
var unbalancedIndex = initialUnbalancedIndex
repeat {
let leftChildIndex = unbalancedIndex * 2 + 1
let rightChildIndex = unbalancedIndex * 2 + 2
var highestPriorityIndex = unbalancedIndex
if leftChildIndex < _elements.count && _hasHigherPriority(_elements[leftChildIndex], _elements[highestPriorityIndex]) {
highestPriorityIndex = leftChildIndex
}
if rightChildIndex < _elements.count && _hasHigherPriority(_elements[rightChildIndex], _elements[highestPriorityIndex]) {
highestPriorityIndex = rightChildIndex
}
if highestPriorityIndex != unbalancedIndex {
swap(&_elements[highestPriorityIndex], &_elements[unbalancedIndex])
unbalancedIndex = highestPriorityIndex
}
else {
break
}
} while true
}
}
extension PriorityQueue : CustomDebugStringConvertible {
var debugDescription: String {
return _elements.debugDescription
}
}

168
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/DataStructures/Queue.swift generated Normal file
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//
// Queue.swift
// Rx
//
// Created by Krunoslav Zaher on 3/21/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Data structure that represents queue.
Complexity of `enqueue`, `dequeue` is O(1) when number of operations is
averaged over N operations.
Complexity of `peek` is O(1).
*/
public struct Queue<T>: SequenceType {
/**
Type of generator.
*/
public typealias Generator = AnyGenerator<T>
private let _resizeFactor = 2
private var _storage: ContiguousArray<T?>
private var _count = 0
private var _pushNextIndex = 0
private var _initialCapacity: Int
/**
Creates new queue.
- parameter capacity: Capacity of newly created queue.
*/
public init(capacity: Int) {
_initialCapacity = capacity
_storage = ContiguousArray<T?>(count: capacity, repeatedValue: nil)
}
private var dequeueIndex: Int {
let index = _pushNextIndex - count
return index < 0 ? index + _storage.count : index
}
/**
- returns: Is queue empty.
*/
public var isEmpty: Bool {
return count == 0
}
/**
- returns: Number of elements inside queue.
*/
public var count: Int {
return _count
}
/**
- returns: Element in front of a list of elements to `dequeue`.
*/
public func peek() -> T {
precondition(count > 0)
return _storage[dequeueIndex]!
}
mutating private func resizeTo(size: Int) {
var newStorage = ContiguousArray<T?>(count: size, repeatedValue: nil)
let count = _count
let dequeueIndex = self.dequeueIndex
let spaceToEndOfQueue = _storage.count - dequeueIndex
// first batch is from dequeue index to end of array
let countElementsInFirstBatch = min(count, spaceToEndOfQueue)
// second batch is wrapped from start of array to end of queue
let numberOfElementsInSecondBatch = count - countElementsInFirstBatch
newStorage[0 ..< countElementsInFirstBatch] = _storage[dequeueIndex ..< (dequeueIndex + countElementsInFirstBatch)]
newStorage[countElementsInFirstBatch ..< (countElementsInFirstBatch + numberOfElementsInSecondBatch)] = _storage[0 ..< numberOfElementsInSecondBatch]
_count = count
_pushNextIndex = count
_storage = newStorage
}
/**
Enqueues `element`.
- parameter element: Element to enqueue.
*/
public mutating func enqueue(element: T) {
if count == _storage.count {
resizeTo(max(_storage.count, 1) * _resizeFactor)
}
_storage[_pushNextIndex] = element
_pushNextIndex += 1
_count += 1
if _pushNextIndex >= _storage.count {
_pushNextIndex -= _storage.count
}
}
private mutating func dequeueElementOnly() -> T {
precondition(count > 0)
let index = dequeueIndex
defer {
_storage[index] = nil
_count -= 1
}
return _storage[index]!
}
/**
Dequeues element or throws an exception in case queue is empty.
- returns: Dequeued element.
*/
public mutating func dequeue() -> T? {
if self.count == 0 {
return nil
}
defer {
let downsizeLimit = _storage.count / (_resizeFactor * _resizeFactor)
if _count < downsizeLimit && downsizeLimit >= _initialCapacity {
resizeTo(_storage.count / _resizeFactor)
}
}
return dequeueElementOnly()
}
/**
- returns: Generator of contained elements.
*/
public func generate() -> Generator {
var i = dequeueIndex
var count = _count
return AnyGenerator {
if count == 0 {
return nil
}
defer {
count -= 1
i += 1
}
if i >= self._storage.count {
i -= self._storage.count
}
return self._storage[i]
}
}
}

15
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Disposable.swift generated Normal file
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//
// Disposable.swift
// Rx
//
// Created by Krunoslav Zaher on 2/8/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/// Respresents a disposable resource.
public protocol Disposable {
/// Dispose resource.
func dispose()
}

54
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Disposables/AnonymousDisposable.swift generated Normal file
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//
// AnonymousDisposable.swift
// Rx
//
// Created by Krunoslav Zaher on 2/15/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Represents an Action-based disposable.
When dispose method is called, disposal action will be dereferenced.
*/
public final class AnonymousDisposable : DisposeBase, Cancelable {
public typealias DisposeAction = () -> Void
private var _disposed: AtomicInt = 0
private var _disposeAction: DisposeAction?
/**
- returns: Was resource disposed.
*/
public var disposed: Bool {
return _disposed == 1
}
/**
Constructs a new disposable with the given action used for disposal.
- parameter disposeAction: Disposal action which will be run upon calling `dispose`.
*/
public init(_ disposeAction: DisposeAction) {
_disposeAction = disposeAction
super.init()
}
/**
Calls the disposal action if and only if the current instance hasn't been disposed yet.
After invoking disposal action, disposal action will be dereferenced.
*/
public func dispose() {
if AtomicCompareAndSwap(0, 1, &_disposed) {
assert(_disposed == 1)
if let action = _disposeAction {
_disposeAction = nil
action()
}
}
}
}

54
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Disposables/BinaryDisposable.swift generated Normal file
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//
// BinaryDisposable.swift
// RxSwift
//
// Created by Krunoslav Zaher on 6/12/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Represents two disposable resources that are disposed together.
*/
public final class BinaryDisposable : DisposeBase, Cancelable {
private var _disposed: AtomicInt = 0
// state
private var _disposable1: Disposable?
private var _disposable2: Disposable?
/**
- returns: Was resource disposed.
*/
public var disposed: Bool {
return _disposed > 0
}
/**
Constructs new binary disposable from two disposables.
- parameter disposable1: First disposable
- parameter disposable2: Second disposable
*/
init(_ disposable1: Disposable, _ disposable2: Disposable) {
_disposable1 = disposable1
_disposable2 = disposable2
super.init()
}
/**
Calls the disposal action if and only if the current instance hasn't been disposed yet.
After invoking disposal action, disposal action will be dereferenced.
*/
public func dispose() {
if AtomicCompareAndSwap(0, 1, &_disposed) {
_disposable1?.dispose()
_disposable2?.dispose()
_disposable1 = nil
_disposable2 = nil
}
}
}

45
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//
// BooleanDisposable.swift
// Rx
//
// Created by Junior B. on 10/29/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Represents a disposable resource that can be checked for disposal status.
*/
public class BooleanDisposable : Disposable, Cancelable {
internal static let BooleanDisposableTrue = BooleanDisposable(disposed: true)
private var _disposed = false
/**
Initializes a new instance of the `BooleanDisposable` class
*/
public init() {
}
/**
Initializes a new instance of the `BooleanDisposable` class with given value
*/
public init(disposed: Bool) {
self._disposed = disposed
}
/**
- returns: Was resource disposed.
*/
public var disposed: Bool {
return _disposed
}
/**
Sets the status to disposed, which can be observer through the `disposed` property.
*/
public func dispose() {
_disposed = true
}
}

135
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Disposables/CompositeDisposable.swift generated Normal file
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//
// CompositeDisposable.swift
// Rx
//
// Created by Krunoslav Zaher on 2/20/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Represents a group of disposable resources that are disposed together.
*/
public class CompositeDisposable : DisposeBase, Disposable, Cancelable {
public typealias DisposeKey = Bag<Disposable>.KeyType
private var _lock = SpinLock()
// state
private var _disposables: Bag<Disposable>? = Bag()
public var disposed: Bool {
_lock.lock(); defer { _lock.unlock() }
return _disposables == nil
}
public override init() {
}
/**
Initializes a new instance of composite disposable with the specified number of disposables.
*/
public init(_ disposable1: Disposable, _ disposable2: Disposable) {
// This overload is here to make sure we are using optimized version up to 4 arguments.
_disposables!.insert(disposable1)
_disposables!.insert(disposable2)
}
/**
Initializes a new instance of composite disposable with the specified number of disposables.
*/
public init(_ disposable1: Disposable, _ disposable2: Disposable, _ disposable3: Disposable) {
// This overload is here to make sure we are using optimized version up to 4 arguments.
_disposables!.insert(disposable1)
_disposables!.insert(disposable2)
_disposables!.insert(disposable3)
}
/**
Initializes a new instance of composite disposable with the specified number of disposables.
*/
public init(_ disposable1: Disposable, _ disposable2: Disposable, _ disposable3: Disposable, _ disposable4: Disposable, _ disposables: Disposable...) {
// This overload is here to make sure we are using optimized version up to 4 arguments.
_disposables!.insert(disposable1)
_disposables!.insert(disposable2)
_disposables!.insert(disposable3)
_disposables!.insert(disposable4)
for disposable in disposables {
_disposables!.insert(disposable)
}
}
/**
Initializes a new instance of composite disposable with the specified number of disposables.
*/
public init(disposables: [Disposable]) {
for disposable in disposables {
_disposables!.insert(disposable)
}
}
/**
Adds a disposable to the CompositeDisposable or disposes the disposable if the CompositeDisposable is disposed.
- parameter disposable: Disposable to add.
- returns: Key that can be used to remove disposable from composite disposable. In case dispose bag was already
disposed `nil` will be returned.
*/
public func addDisposable(disposable: Disposable) -> DisposeKey? {
let key = _addDisposable(disposable)
if key == nil {
disposable.dispose()
}
return key
}
private func _addDisposable(disposable: Disposable) -> DisposeKey? {
_lock.lock(); defer { _lock.unlock() }
return _disposables?.insert(disposable)
}
/**
- returns: Gets the number of disposables contained in the `CompositeDisposable`.
*/
public var count: Int {
_lock.lock(); defer { _lock.unlock() }
return _disposables?.count ?? 0
}
/**
Removes and disposes the disposable identified by `disposeKey` from the CompositeDisposable.
- parameter disposeKey: Key used to identify disposable to be removed.
*/
public func removeDisposable(disposeKey: DisposeKey) {
_removeDisposable(disposeKey)?.dispose()
}
private func _removeDisposable(disposeKey: DisposeKey) -> Disposable? {
_lock.lock(); defer { _lock.unlock() }
return _disposables?.removeKey(disposeKey)
}
/**
Disposes all disposables in the group and removes them from the group.
*/
public func dispose() {
if let disposables = _dispose() {
disposeAllIn(disposables)
}
}
private func _dispose() -> Bag<Disposable>? {
_lock.lock(); defer { _lock.unlock() }
let disposeBag = _disposables
_disposables = nil
return disposeBag
}
}

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samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Disposables/DisposeBag.swift generated Normal file
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//
// DisposeBag.swift
// Rx
//
// Created by Krunoslav Zaher on 3/25/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
extension Disposable {
/**
Adds `self` to `bag`.
- parameter bag: `DisposeBag` to add `self` to.
*/
public func addDisposableTo(bag: DisposeBag) {
bag.addDisposable(self)
}
}
/**
Thread safe bag that disposes added disposables on `deinit`.
This returns ARC (RAII) like resource management to `RxSwift`.
In case contained disposables need to be disposed, just put a different dispose bag
or create a new one in its place.
self.existingDisposeBag = DisposeBag()
In case explicit disposal is necessary, there is also `CompositeDisposable`.
*/
public class DisposeBag: DisposeBase {
private var _lock = SpinLock()
// state
private var _disposables = [Disposable]()
private var _disposed = false
/**
Constructs new empty dispose bag.
*/
public override init() {
super.init()
}
/**
Adds `disposable` to be disposed when dispose bag is being deinited.
- parameter disposable: Disposable to add.
*/
public func addDisposable(disposable: Disposable) {
_addDisposable(disposable)?.dispose()
}
private func _addDisposable(disposable: Disposable) -> Disposable? {
_lock.lock(); defer { _lock.unlock() }
if _disposed {
return disposable
}
_disposables.append(disposable)
return nil
}
/**
This is internal on purpose, take a look at `CompositeDisposable` instead.
*/
private func dispose() {
let oldDisposables = _dispose()
for disposable in oldDisposables {
disposable.dispose()
}
}
private func _dispose() -> [Disposable] {
_lock.lock(); defer { _lock.unlock() }
let disposables = _disposables
_disposables.removeAll(keepCapacity: false)
_disposed = true
return disposables
}
deinit {
dispose()
}
}

26
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Disposables/DisposeBase.swift generated Normal file
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//
// DisposeBase.swift
// Rx
//
// Created by Krunoslav Zaher on 4/4/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Base class for all disposables.
*/
public class DisposeBase {
init() {
#if TRACE_RESOURCES
AtomicIncrement(&resourceCount)
#endif
}
deinit {
#if TRACE_RESOURCES
AtomicDecrement(&resourceCount)
#endif
}
}

10
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Disposables/NAryDisposable.swift generated Normal file
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// This file is autogenerated. Take a look at `Preprocessor` target in RxSwift project
//
// NAryDisposable.swift
// RxSwift
//
// Created by Krunoslav Zaher on 8/20/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation

32
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Disposables/NopDisposable.swift generated Normal file
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//
// NopDisposable.swift
// Rx
//
// Created by Krunoslav Zaher on 2/15/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Represents a disposable that does nothing on disposal.
Nop = No Operation
*/
public struct NopDisposable : Disposable {
/**
Singleton instance of `NopDisposable`.
*/
public static let instance: Disposable = NopDisposable()
init() {
}
/**
Does nothing.
*/
public func dispose() {
}
}

127
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Disposables/RefCountDisposable.swift generated Normal file
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//
// RefCountDisposable.swift
// Rx
//
// Created by Junior B. on 10/29/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Represents a disposable resource that only disposes its underlying disposable resource when all dependent disposable objects have been disposed.
*/
public class RefCountDisposable : DisposeBase, Cancelable {
private var _lock = SpinLock()
private var _disposable = nil as Disposable?
private var _primaryDisposed = false
private var _count = 0
/**
- returns: Was resource disposed.
*/
public var disposed: Bool {
_lock.lock(); defer { _lock.unlock() }
return _disposable == nil
}
/**
Initializes a new instance of the `RefCountDisposable`.
*/
public init(disposable: Disposable) {
_disposable = disposable
super.init()
}
/**
Holds a dependent disposable that when disposed decreases the refcount on the underlying disposable.
When getter is called, a dependent disposable contributing to the reference count that manages the underlying disposable's lifetime is returned.
*/
public func retain() -> Disposable {
return _lock.calculateLocked {
if let _ = _disposable {
do {
try incrementChecked(&_count)
} catch (_) {
rxFatalError("RefCountDisposable increment failed")
}
return RefCountInnerDisposable(self)
} else {
return NopDisposable.instance
}
}
}
/**
Disposes the underlying disposable only when all dependent disposables have been disposed.
*/
public func dispose() {
let oldDisposable: Disposable? = _lock.calculateLocked {
if let oldDisposable = _disposable where !_primaryDisposed
{
_primaryDisposed = true
if (_count == 0)
{
_disposable = nil
return oldDisposable
}
}
return nil
}
if let disposable = oldDisposable {
disposable.dispose()
}
}
private func release() {
let oldDisposable: Disposable? = _lock.calculateLocked {
if let oldDisposable = _disposable {
do {
try decrementChecked(&_count)
} catch (_) {
rxFatalError("RefCountDisposable decrement on release failed")
}
guard _count >= 0 else {
rxFatalError("RefCountDisposable counter is lower than 0")
}
if _primaryDisposed && _count == 0 {
_disposable = nil
return oldDisposable
}
}
return nil
}
if let disposable = oldDisposable {
disposable.dispose()
}
}
}
internal final class RefCountInnerDisposable: DisposeBase, Disposable
{
private let _parent: RefCountDisposable
private var _disposed: AtomicInt = 0
init(_ parent: RefCountDisposable)
{
_parent = parent
super.init()
}
internal func dispose()
{
if AtomicCompareAndSwap(0, 1, &_disposed) {
_parent.release()
}
}
}

58
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Disposables/ScheduledDisposable.swift generated Normal file
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//
// ScheduledDisposable.swift
// RxSwift
//
// Created by Krunoslav Zaher on 6/13/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
private let disposeScheduledDisposable: ScheduledDisposable -> Disposable = { sd in
sd.disposeInner()
return NopDisposable.instance
}
/**
Represents a disposable resource whose disposal invocation will be scheduled on the specified scheduler.
*/
public class ScheduledDisposable : Cancelable {
public let scheduler: ImmediateSchedulerType
private var _disposed: AtomicInt = 0
// state
private var _disposable: Disposable?
/**
- returns: Was resource disposed.
*/
public var disposed: Bool {
return _disposed == 1
}
/**
Initializes a new instance of the `ScheduledDisposable` that uses a `scheduler` on which to dispose the `disposable`.
- parameter scheduler: Scheduler where the disposable resource will be disposed on.
- parameter disposable: Disposable resource to dispose on the given scheduler.
*/
public init(scheduler: ImmediateSchedulerType, disposable: Disposable) {
self.scheduler = scheduler
_disposable = disposable
}
/**
Disposes the wrapped disposable on the provided scheduler.
*/
public func dispose() {
scheduler.schedule(self, action: disposeScheduledDisposable)
}
func disposeInner() {
if AtomicCompareAndSwap(0, 1, &_disposed) {
_disposable!.dispose()
_disposable = nil
}
}
}

85
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Disposables/SerialDisposable.swift generated Normal file
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//
// SerialDisposable.swift
// Rx
//
// Created by Krunoslav Zaher on 3/12/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Represents a disposable resource whose underlying disposable resource can be replaced by another disposable resource, causing automatic disposal of the previous underlying disposable resource.
*/
public class SerialDisposable : DisposeBase, Cancelable {
private var _lock = SpinLock()
// state
private var _current = nil as Disposable?
private var _disposed = false
/**
- returns: Was resource disposed.
*/
public var disposed: Bool {
return _disposed
}
/**
Initializes a new instance of the `SerialDisposable`.
*/
override public init() {
super.init()
}
/**
Gets or sets the underlying disposable.
Assigning this property disposes the previous disposable object.
If the `SerialDisposable` has already been disposed, assignment to this property causes immediate disposal of the given disposable object.
*/
public var disposable: Disposable {
get {
return _lock.calculateLocked {
return self.disposable
}
}
set (newDisposable) {
let disposable: Disposable? = _lock.calculateLocked {
if _disposed {
return newDisposable
}
else {
let toDispose = _current
_current = newDisposable
return toDispose
}
}
if let disposable = disposable {
disposable.dispose()
}
}
}
/**
Disposes the underlying disposable as well as all future replacements.
*/
public func dispose() {
_dispose()?.dispose()
}
private func _dispose() -> Disposable? {
_lock.lock(); defer { _lock.unlock() }
if _disposed {
return nil
}
else {
_disposed = true
let current = _current
_current = nil
return current
}
}
}

89
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Disposables/SingleAssignmentDisposable.swift generated Normal file
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//
// SingleAssignmentDisposable.swift
// Rx
//
// Created by Krunoslav Zaher on 2/15/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Represents a disposable resource which only allows a single assignment of its underlying disposable resource.
If an underlying disposable resource has already been set, future attempts to set the underlying disposable resource will throw an exception.
*/
public class SingleAssignmentDisposable : DisposeBase, Disposable, Cancelable {
private var _lock = SpinLock()
// state
private var _disposed = false
private var _disposableSet = false
private var _disposable = nil as Disposable?
/**
- returns: A value that indicates whether the object is disposed.
*/
public var disposed: Bool {
return _disposed
}
/**
Initializes a new instance of the `SingleAssignmentDisposable`.
*/
public override init() {
super.init()
}
/**
Gets or sets the underlying disposable. After disposal, the result of getting this property is undefined.
**Throws exception if the `SingleAssignmentDisposable` has already been assigned to.**
*/
public var disposable: Disposable {
get {
_lock.lock(); defer { _lock.unlock() }
return _disposable ?? NopDisposable.instance
}
set {
_setDisposable(newValue)?.dispose()
}
}
private func _setDisposable(newValue: Disposable) -> Disposable? {
_lock.lock(); defer { _lock.unlock() }
if _disposableSet {
rxFatalError("oldState.disposable != nil")
}
_disposableSet = true
if _disposed {
return newValue
}
_disposable = newValue
return nil
}
/**
Disposes the underlying disposable.
*/
public func dispose() {
if _disposed {
return
}
_dispose()?.dispose()
}
private func _dispose() -> Disposable? {
_lock.lock(); defer { _lock.unlock() }
_disposed = true
let disposable = _disposable
_disposable = nil
return disposable
}
}

15
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Disposables/StableCompositeDisposable.swift generated Normal file
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//
// StableCompositeDisposable.swift
// RxSwift
//
// Created by Krunoslav Zaher on 6/12/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
public final class StableCompositeDisposable {
public static func create(disposable1: Disposable, _ disposable2: Disposable) -> Disposable {
return BinaryDisposable(disposable1, disposable2)
}
}

23
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Disposables/SubscriptionDisposable.swift generated Normal file
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//
// SubscriptionDisposable.swift
// Rx
//
// Created by Krunoslav Zaher on 10/25/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
struct SubscriptionDisposable<T: SynchronizedUnsubscribeType> : Disposable {
private let _key: T.DisposeKey
private weak var _owner: T?
init(owner: T, key: T.DisposeKey) {
_owner = owner
_key = key
}
func dispose() {
_owner?.synchronizedUnsubscribe(_key)
}
}

72
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Errors.swift generated Normal file
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//
// Errors.swift
// Rx
//
// Created by Krunoslav Zaher on 3/28/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
let RxErrorDomain = "RxErrorDomain"
let RxCompositeFailures = "RxCompositeFailures"
/**
Generic Rx error codes.
*/
public enum RxError
: ErrorType
, CustomDebugStringConvertible {
/**
Unknown error occured.
*/
case Unknown
/**
Performing an action on disposed object.
*/
case Disposed(object: AnyObject)
/**
Aritmetic overflow error.
*/
case Overflow
/**
Argument out of range error.
*/
case ArgumentOutOfRange
/**
Sequence doesn't contain any elements.
*/
case NoElements
/**
Sequence contains more than one element.
*/
case MoreThanOneElement
/**
Timeout error.
*/
case Timeout
}
public extension RxError {
/**
A textual representation of `self`, suitable for debugging.
*/
public var debugDescription: String {
switch self {
case .Unknown:
return "Unknown error occured."
case .Disposed(let object):
return "Object `\(object)` was already disposed."
case .Overflow:
return "Arithmetic overflow occured."
case .ArgumentOutOfRange:
return "Argument out of range."
case .NoElements:
return "Sequence doesn't contain any elements."
case .MoreThanOneElement:
return "Sequence contains more than one element."
case .Timeout:
return "Sequence timeout."
}
}
}

66
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Event.swift generated Normal file
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//
// Event.swift
// Rx
//
// Created by Krunoslav Zaher on 2/8/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Represents a sequence event.
Sequence grammar:
Next\* (Error | Completed)
*/
public enum Event<Element> {
/// Next element is produced.
case Next(Element)
/// Sequence terminated with an error.
case Error(ErrorType)
/// Sequence completed successfully.
case Completed
}
extension Event : CustomDebugStringConvertible {
/// - returns: Description of event.
public var debugDescription: String {
switch self {
case .Next(let value):
return "Next(\(value))"
case .Error(let error):
return "Error(\(error))"
case .Completed:
return "Completed"
}
}
}
extension Event {
/// - returns: Is `Completed` or `Error` event.
public var isStopEvent: Bool {
switch self {
case .Next: return false
case .Error, .Completed: return true
}
}
/// - returns: If `Next` event, returns element value.
public var element: Element? {
if case .Next(let value) = self {
return value
}
return nil
}
/// - returns: If `Error` event, returns error.
public var error: ErrorType? {
if case .Error(let error) = self {
return error
}
return nil
}
}

26
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Extensions/String+Rx.swift generated Normal file
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//
// String+Rx.swift
// Rx
//
// Created by Krunoslav Zaher on 12/25/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
extension String {
/**
This is needed because on Linux Swift doesn't have `rangeOfString(..., options: .BackwardsSearch)`
*/
func lastIndexOf(character: Character) -> Index? {
var index = endIndex
while index > startIndex {
index = index.predecessor()
if self[index] == character {
return index
}
}
return nil
}
}

40
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/ImmediateSchedulerType.swift generated Normal file
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//
// ImmediateSchedulerType.swift
// RxSwift
//
// Created by Krunoslav Zaher on 5/31/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Represents an object that immediately schedules units of work.
*/
public protocol ImmediateSchedulerType {
/**
Schedules an action to be executed immediatelly.
- parameter state: State passed to the action to be executed.
- parameter action: Action to be executed.
- returns: The disposable object used to cancel the scheduled action (best effort).
*/
func schedule<StateType>(state: StateType, action: (StateType) -> Disposable) -> Disposable
}
extension ImmediateSchedulerType {
/**
Schedules an action to be executed recursively.
- parameter state: State passed to the action to be executed.
- parameter action: Action to execute recursively. The last parameter passed to the action is used to trigger recursive scheduling of the action, passing in recursive invocation state.
- returns: The disposable object used to cancel the scheduled action (best effort).
*/
public func scheduleRecursive<State>(state: State, action: (state: State, recurse: (State) -> ()) -> ()) -> Disposable {
let recursiveScheduler = RecursiveImmediateScheduler(action: action, scheduler: self)
recursiveScheduler.schedule(state)
return AnonymousDisposable(recursiveScheduler.dispose)
}
}

128
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Observable+Extensions.swift generated Normal file
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//
// Observable+Extensions.swift
// Rx
//
// Created by Krunoslav Zaher on 2/21/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
extension ObservableType {
/**
Subscribes an event handler to an observable sequence.
- parameter on: Action to invoke for each event in the observable sequence.
- returns: Subscription object used to unsubscribe from the observable sequence.
*/
@warn_unused_result(message="http://git.io/rxs.ud")
public func subscribe(on: (event: Event<E>) -> Void)
-> Disposable {
let observer = AnonymousObserver { e in
on(event: e)
}
return self.subscribeSafe(observer)
}
/**
Subscribes an element handler, an error handler, a completion handler and disposed handler to an observable sequence.
- parameter onNext: Action to invoke for each element in the observable sequence.
- parameter onError: Action to invoke upon errored termination of the observable sequence.
- parameter onCompleted: Action to invoke upon graceful termination of the observable sequence.
- parameter onDisposed: Action to invoke upon any type of termination of sequence (if the sequence has
gracefully completed, errored, or if the generation is cancelled by disposing subscription).
- returns: Subscription object used to unsubscribe from the observable sequence.
*/
@warn_unused_result(message="http://git.io/rxs.ud")
public func subscribe(onNext onNext: (E -> Void)? = nil, onError: (ErrorType -> Void)? = nil, onCompleted: (() -> Void)? = nil, onDisposed: (() -> Void)? = nil)
-> Disposable {
let disposable: Disposable
if let disposed = onDisposed {
disposable = AnonymousDisposable(disposed)
}
else {
disposable = NopDisposable.instance
}
let observer = AnonymousObserver<E> { e in
switch e {
case .Next(let value):
onNext?(value)
case .Error(let e):
onError?(e)
disposable.dispose()
case .Completed:
onCompleted?()
disposable.dispose()
}
}
return BinaryDisposable(
self.subscribeSafe(observer),
disposable
)
}
/**
Subscribes an element handler to an observable sequence.
- parameter onNext: Action to invoke for each element in the observable sequence.
- returns: Subscription object used to unsubscribe from the observable sequence.
*/
@warn_unused_result(message="http://git.io/rxs.ud")
public func subscribeNext(onNext: (E) -> Void)
-> Disposable {
let observer = AnonymousObserver<E> { e in
if case .Next(let value) = e {
onNext(value)
}
}
return self.subscribeSafe(observer)
}
/**
Subscribes an error handler to an observable sequence.
- parameter onError: Action to invoke upon errored termination of the observable sequence.
- returns: Subscription object used to unsubscribe from the observable sequence.
*/
@warn_unused_result(message="http://git.io/rxs.ud")
public func subscribeError(onError: (ErrorType) -> Void)
-> Disposable {
let observer = AnonymousObserver<E> { e in
if case .Error(let error) = e {
onError(error)
}
}
return self.subscribeSafe(observer)
}
/**
Subscribes a completion handler to an observable sequence.
- parameter onCompleted: Action to invoke upon graceful termination of the observable sequence.
- returns: Subscription object used to unsubscribe from the observable sequence.
*/
@warn_unused_result(message="http://git.io/rxs.ud")
public func subscribeCompleted(onCompleted: () -> Void)
-> Disposable {
let observer = AnonymousObserver<E> { e in
if case .Completed = e {
onCompleted()
}
}
return self.subscribeSafe(observer)
}
}
public extension ObservableType {
/**
All internal subscribe calls go through this method.
*/
@warn_unused_result(message="http://git.io/rxs.ud")
func subscribeSafe<O: ObserverType where O.E == E>(observer: O) -> Disposable {
return self.asObservable().subscribe(observer)
}
}

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//
// Observable.swift
// Rx
//
// Created by Krunoslav Zaher on 2/8/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
A type-erased `ObservableType`.
It represents a push style sequence.
*/
public class Observable<Element> : ObservableType {
/**
Type of elements in sequence.
*/
public typealias E = Element
init() {
#if TRACE_RESOURCES
OSAtomicIncrement32(&resourceCount)
#endif
}
public func subscribe<O: ObserverType where O.E == E>(observer: O) -> Disposable {
abstractMethod()
}
public func asObservable() -> Observable<E> {
return self
}
deinit {
#if TRACE_RESOURCES
AtomicDecrement(&resourceCount)
#endif
}
// this is kind of ugly I know :(
// Swift compiler reports "Not supported yet" when trying to override protocol extensions, so ¯\_()_/¯
/**
Optimizations for map operator
*/
internal func composeMap<R>(selector: Element throws -> R) -> Observable<R> {
return Map(source: self, selector: selector)
}
}

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//
// ObservableConvertibleType.swift
// Rx
//
// Created by Krunoslav Zaher on 9/17/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Type that can be converted to observable sequence (`Observer<E>`).
*/
public protocol ObservableConvertibleType {
/**
Type of elements in sequence.
*/
associatedtype E
/**
Converts `self` to `Observable` sequence.
- returns: Observable sequence that represents `self`.
*/
func asObservable() -> Observable<E>
}

57
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//
// ObservableType.swift
// RxSwift
//
// Created by Krunoslav Zaher on 8/8/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Represents a push style sequence.
*/
public protocol ObservableType : ObservableConvertibleType {
/**
Type of elements in sequence.
*/
associatedtype E
/**
Subscribes `observer` to receive events for this sequence.
### Grammar
**Next\* (Error | Completed)?**
* sequences can produce zero or more elements so zero or more `Next` events can be sent to `observer`
* once an `Error` or `Completed` event is sent, the sequence terminates and can't produce any other elements
It is possible that events are sent from different threads, but no two events can be sent concurrently to
`observer`.
### Resource Management
When sequence sends `Complete` or `Error` event all internal resources that compute sequence elements
will be freed.
To cancel production of sequence elements and free resources immediatelly, call `dispose` on returned
subscription.
- returns: Subscription for `observer` that can be used to cancel production of sequence elements and free resources.
*/
@warn_unused_result(message="http://git.io/rxs.ud")
func subscribe<O: ObserverType where O.E == E>(observer: O) -> Disposable
}
extension ObservableType {
/**
Default implementation of converting `ObservableType` to `Observable`.
*/
@warn_unused_result(message="http://git.io/rxs.uo")
public func asObservable() -> Observable<E> {
return Observable.create(self.subscribe)
}
}

47
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//
// AddRef.swift
// Rx
//
// Created by Junior B. on 30/10/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
class AddRefSink<O: ObserverType> : Sink<O>, ObserverType {
typealias Element = O.E
override init(observer: O) {
super.init(observer: observer)
}
func on(event: Event<Element>) {
switch event {
case .Next(_):
forwardOn(event)
case .Completed, .Error(_):
forwardOn(event)
dispose()
}
}
}
class AddRef<Element> : Producer<Element> {
typealias EventHandler = Event<Element> throws -> Void
private let _source: Observable<Element>
private let _refCount: RefCountDisposable
init(source: Observable<Element>, refCount: RefCountDisposable) {
_source = source
_refCount = refCount
}
override func run<O: ObserverType where O.E == Element>(observer: O) -> Disposable {
let releaseDisposable = _refCount.retain()
let sink = AddRefSink(observer: observer)
sink.disposable = StableCompositeDisposable.create(releaseDisposable, _source.subscribeSafe(sink))
return sink
}
}

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//
// Amb.swift
// RxSwift
//
// Created by Krunoslav Zaher on 6/14/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
enum AmbState {
case Neither
case Left
case Right
}
class AmbObserver<ElementType, O: ObserverType where O.E == ElementType> : ObserverType {
typealias Element = ElementType
typealias Parent = AmbSink<ElementType, O>
typealias This = AmbObserver<ElementType, O>
typealias Sink = (This, Event<Element>) -> Void
private let _parent: Parent
private var _sink: Sink
private var _cancel: Disposable
init(parent: Parent, cancel: Disposable, sink: Sink) {
#if TRACE_RESOURCES
AtomicIncrement(&resourceCount)
#endif
_parent = parent
_sink = sink
_cancel = cancel
}
func on(event: Event<Element>) {
_sink(self, event)
if event.isStopEvent {
_cancel.dispose()
}
}
deinit {
#if TRACE_RESOURCES
AtomicDecrement(&resourceCount)
#endif
}
}
class AmbSink<ElementType, O: ObserverType where O.E == ElementType> : Sink<O> {
typealias Parent = Amb<ElementType>
typealias AmbObserverType = AmbObserver<ElementType, O>
private let _parent: Parent
private let _lock = NSRecursiveLock()
// state
private var _choice = AmbState.Neither
init(parent: Parent, observer: O) {
_parent = parent
super.init(observer: observer)
}
func run() -> Disposable {
let subscription1 = SingleAssignmentDisposable()
let subscription2 = SingleAssignmentDisposable()
let disposeAll = StableCompositeDisposable.create(subscription1, subscription2)
let forwardEvent = { (o: AmbObserverType, event: Event<ElementType>) -> Void in
self.forwardOn(event)
}
let decide = { (o: AmbObserverType, event: Event<ElementType>, me: AmbState, otherSubscription: Disposable) in
self._lock.performLocked {
if self._choice == .Neither {
self._choice = me
o._sink = forwardEvent
o._cancel = disposeAll
otherSubscription.dispose()
}
if self._choice == me {
self.forwardOn(event)
if event.isStopEvent {
self.dispose()
}
}
}
}
let sink1 = AmbObserver(parent: self, cancel: subscription1) { o, e in
decide(o, e, .Left, subscription2)
}
let sink2 = AmbObserver(parent: self, cancel: subscription1) { o, e in
decide(o, e, .Right, subscription1)
}
subscription1.disposable = _parent._left.subscribe(sink1)
subscription2.disposable = _parent._right.subscribe(sink2)
return disposeAll
}
}
class Amb<Element>: Producer<Element> {
private let _left: Observable<Element>
private let _right: Observable<Element>
init(left: Observable<Element>, right: Observable<Element>) {
_left = left
_right = right
}
override func run<O : ObserverType where O.E == Element>(observer: O) -> Disposable {
let sink = AmbSink(parent: self, observer: observer)
sink.disposable = sink.run()
return sink
}
}

56
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//
// AnonymousObservable.swift
// Rx
//
// Created by Krunoslav Zaher on 2/8/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
class AnonymousObservableSink<O: ObserverType> : Sink<O>, ObserverType {
typealias E = O.E
typealias Parent = AnonymousObservable<E>
// state
private var _isStopped: AtomicInt = 0
override init(observer: O) {
super.init(observer: observer)
}
func on(event: Event<E>) {
switch event {
case .Next:
if _isStopped == 1 {
return
}
forwardOn(event)
case .Error, .Completed:
if AtomicCompareAndSwap(0, 1, &_isStopped) {
forwardOn(event)
dispose()
}
}
}
func run(parent: Parent) -> Disposable {
return parent._subscribeHandler(AnyObserver(self))
}
}
class AnonymousObservable<Element> : Producer<Element> {
typealias SubscribeHandler = (AnyObserver<Element>) -> Disposable
let _subscribeHandler: SubscribeHandler
init(_ subscribeHandler: SubscribeHandler) {
_subscribeHandler = subscribeHandler
}
override func run<O : ObserverType where O.E == Element>(observer: O) -> Disposable {
let sink = AnonymousObservableSink(observer: observer)
sink.disposable = sink.run(self)
return sink
}
}

119
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Observables/Implementations/Buffer.swift generated Normal file
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//
// Buffer.swift
// Rx
//
// Created by Krunoslav Zaher on 9/13/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
class BufferTimeCount<Element> : Producer<[Element]> {
private let _timeSpan: RxTimeInterval
private let _count: Int
private let _scheduler: SchedulerType
private let _source: Observable<Element>
init(source: Observable<Element>, timeSpan: RxTimeInterval, count: Int, scheduler: SchedulerType) {
_source = source
_timeSpan = timeSpan
_count = count
_scheduler = scheduler
}
override func run<O : ObserverType where O.E == [Element]>(observer: O) -> Disposable {
let sink = BufferTimeCountSink(parent: self, observer: observer)
sink.disposable = sink.run()
return sink
}
}
class BufferTimeCountSink<Element, O: ObserverType where O.E == [Element]>
: Sink<O>
, LockOwnerType
, ObserverType
, SynchronizedOnType {
typealias Parent = BufferTimeCount<Element>
typealias E = Element
private let _parent: Parent
let _lock = NSRecursiveLock()
// state
private let _timerD = SerialDisposable()
private var _buffer = [Element]()
private var _windowID = 0
init(parent: Parent, observer: O) {
_parent = parent
super.init(observer: observer)
}
func run() -> Disposable {
createTimer(_windowID)
return StableCompositeDisposable.create(_timerD, _parent._source.subscribe(self))
}
func startNewWindowAndSendCurrentOne() {
_windowID = _windowID &+ 1
let windowID = _windowID
let buffer = _buffer
_buffer = []
forwardOn(.Next(buffer))
createTimer(windowID)
}
func on(event: Event<E>) {
synchronizedOn(event)
}
func _synchronized_on(event: Event<E>) {
switch event {
case .Next(let element):
_buffer.append(element)
if _buffer.count == _parent._count {
startNewWindowAndSendCurrentOne()
}
case .Error(let error):
_buffer = []
forwardOn(.Error(error))
dispose()
case .Completed:
forwardOn(.Next(_buffer))
forwardOn(.Completed)
dispose()
}
}
func createTimer(windowID: Int) {
if _timerD.disposed {
return
}
if _windowID != windowID {
return
}
let nextTimer = SingleAssignmentDisposable()
_timerD.disposable = nextTimer
nextTimer.disposable = _parent._scheduler.scheduleRelative(windowID, dueTime: _parent._timeSpan) { previousWindowID in
self._lock.performLocked {
if previousWindowID != self._windowID {
return
}
self.startNewWindowAndSendCurrentOne()
}
return NopDisposable.instance
}
}
}

162
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//
// Catch.swift
// RxSwift
//
// Created by Krunoslav Zaher on 4/19/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
// catch with callback
class CatchSinkProxy<O: ObserverType> : ObserverType {
typealias E = O.E
typealias Parent = CatchSink<O>
private let _parent: Parent
init(parent: Parent) {
_parent = parent
}
func on(event: Event<E>) {
_parent.forwardOn(event)
switch event {
case .Next:
break
case .Error, .Completed:
_parent.dispose()
}
}
}
class CatchSink<O: ObserverType> : Sink<O>, ObserverType {
typealias E = O.E
typealias Parent = Catch<E>
private let _parent: Parent
private let _subscription = SerialDisposable()
init(parent: Parent, observer: O) {
_parent = parent
super.init(observer: observer)
}
func run() -> Disposable {
let d1 = SingleAssignmentDisposable()
_subscription.disposable = d1
d1.disposable = _parent._source.subscribe(self)
return _subscription
}
func on(event: Event<E>) {
switch event {
case .Next:
forwardOn(event)
case .Completed:
forwardOn(event)
dispose()
case .Error(let error):
do {
let catchSequence = try _parent._handler(error)
let observer = CatchSinkProxy(parent: self)
_subscription.disposable = catchSequence.subscribe(observer)
}
catch let e {
forwardOn(.Error(e))
dispose()
}
}
}
}
class Catch<Element> : Producer<Element> {
typealias Handler = (ErrorType) throws -> Observable<Element>
private let _source: Observable<Element>
private let _handler: Handler
init(source: Observable<Element>, handler: Handler) {
_source = source
_handler = handler
}
override func run<O: ObserverType where O.E == Element>(observer: O) -> Disposable {
let sink = CatchSink(parent: self, observer: observer)
sink.disposable = sink.run()
return sink
}
}
// catch enumerable
class CatchSequenceSink<S: SequenceType, O: ObserverType where S.Generator.Element : ObservableConvertibleType, S.Generator.Element.E == O.E>
: TailRecursiveSink<S, O>
, ObserverType {
typealias Element = O.E
typealias Parent = CatchSequence<S>
private var _lastError: ErrorType?
override init(observer: O) {
super.init(observer: observer)
}
func on(event: Event<Element>) {
switch event {
case .Next:
forwardOn(event)
case .Error(let error):
_lastError = error
schedule(.MoveNext)
case .Completed:
forwardOn(event)
dispose()
}
}
override func subscribeToNext(source: Observable<E>) -> Disposable {
return source.subscribe(self)
}
override func done() {
if let lastError = _lastError {
forwardOn(.Error(lastError))
}
else {
forwardOn(.Completed)
}
self.dispose()
}
override func extract(observable: Observable<Element>) -> SequenceGenerator? {
if let onError = observable as? CatchSequence<S> {
return (onError.sources.generate(), nil)
}
else {
return nil
}
}
}
class CatchSequence<S: SequenceType where S.Generator.Element : ObservableConvertibleType> : Producer<S.Generator.Element.E> {
typealias Element = S.Generator.Element.E
let sources: S
init(sources: S) {
self.sources = sources
}
override func run<O : ObserverType where O.E == Element>(observer: O) -> Disposable {
let sink = CatchSequenceSink<S, O>(observer: observer)
sink.disposable = sink.run((self.sources.generate(), nil))
return sink
}
}

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samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Observables/Implementations/CombineLatest+CollectionType.swift generated Normal file
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//
// CombineLatest+CollectionType.swift
// Rx
//
// Created by Krunoslav Zaher on 8/29/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
class CombineLatestCollectionTypeSink<C: CollectionType, R, O: ObserverType where C.Generator.Element : ObservableConvertibleType, O.E == R>
: Sink<O> {
typealias Parent = CombineLatestCollectionType<C, R>
typealias SourceElement = C.Generator.Element.E
let _parent: Parent
let _lock = NSRecursiveLock()
// state
var _numberOfValues = 0
var _values: [SourceElement?]
var _isDone: [Bool]
var _numberOfDone = 0
var _subscriptions: [SingleAssignmentDisposable]
init(parent: Parent, observer: O) {
_parent = parent
_values = [SourceElement?](count: parent._count, repeatedValue: nil)
_isDone = [Bool](count: parent._count, repeatedValue: false)
_subscriptions = Array<SingleAssignmentDisposable>()
_subscriptions.reserveCapacity(parent._count)
for _ in 0 ..< parent._count {
_subscriptions.append(SingleAssignmentDisposable())
}
super.init(observer: observer)
}
func on(event: Event<SourceElement>, atIndex: Int) {
_lock.lock(); defer { _lock.unlock() } // {
switch event {
case .Next(let element):
if _values[atIndex] == nil {
_numberOfValues += 1
}
_values[atIndex] = element
if _numberOfValues < _parent._count {
let numberOfOthersThatAreDone = self._numberOfDone - (_isDone[atIndex] ? 1 : 0)
if numberOfOthersThatAreDone == self._parent._count - 1 {
forwardOn(.Completed)
dispose()
}
return
}
do {
let result = try _parent._resultSelector(_values.map { $0! })
forwardOn(.Next(result))
}
catch let error {
forwardOn(.Error(error))
dispose()
}
case .Error(let error):
forwardOn(.Error(error))
dispose()
case .Completed:
if _isDone[atIndex] {
return
}
_isDone[atIndex] = true
_numberOfDone += 1
if _numberOfDone == self._parent._count {
forwardOn(.Completed)
dispose()
}
else {
_subscriptions[atIndex].dispose()
}
}
// }
}
func run() -> Disposable {
var j = 0
for i in _parent._sources.startIndex ..< _parent._sources.endIndex {
let index = j
let source = _parent._sources[i].asObservable()
_subscriptions[j].disposable = source.subscribe(AnyObserver { event in
self.on(event, atIndex: index)
})
j += 1
}
return CompositeDisposable(disposables: _subscriptions.map { $0 })
}
}
class CombineLatestCollectionType<C: CollectionType, R where C.Generator.Element : ObservableConvertibleType> : Producer<R> {
typealias ResultSelector = [C.Generator.Element.E] throws -> R
let _sources: C
let _resultSelector: ResultSelector
let _count: Int
init(sources: C, resultSelector: ResultSelector) {
_sources = sources
_resultSelector = resultSelector
_count = Int(self._sources.count.toIntMax())
}
override func run<O : ObserverType where O.E == R>(observer: O) -> Disposable {
let sink = CombineLatestCollectionTypeSink(parent: self, observer: observer)
sink.disposable = sink.run()
return sink
}
}

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// This file is autogenerated. Take a look at `Preprocessor` target in RxSwift project
//
// CombineLatest+arity.swift
// RxSwift
//
// Created by Krunoslav Zaher on 4/22/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
// 2
extension Observable {
/**
Merges the specified observable sequences into one observable sequence by using the selector function whenever any of the observable sequences produces an element.
- seealso: [combineLatest operator on reactivex.io](http://reactivex.io/documentation/operators/combinelatest.html)
- parameter resultSelector: Function to invoke whenever any of the sources produces an element.
- returns: An observable sequence containing the result of combining elements of the sources using the specified result selector function.
*/
@warn_unused_result(message="http://git.io/rxs.uo")
public static func combineLatest<O1: ObservableType, O2: ObservableType>
(source1: O1, _ source2: O2, resultSelector: (O1.E, O2.E) throws -> E)
-> Observable<E> {
return CombineLatest2(
source1: source1.asObservable(), source2: source2.asObservable(),
resultSelector: resultSelector
)
}
}
class CombineLatestSink2_<E1, E2, O: ObserverType> : CombineLatestSink<O> {
typealias R = O.E
typealias Parent = CombineLatest2<E1, E2, R>
let _parent: Parent
var _latestElement1: E1! = nil
var _latestElement2: E2! = nil
init(parent: Parent, observer: O) {
_parent = parent
super.init(arity: 2, observer: observer)
}
func run() -> Disposable {
let subscription1 = SingleAssignmentDisposable()
let subscription2 = SingleAssignmentDisposable()
let observer1 = CombineLatestObserver(lock: _lock, parent: self, index: 0, setLatestValue: { (e: E1) -> Void in self._latestElement1 = e }, this: subscription1)
let observer2 = CombineLatestObserver(lock: _lock, parent: self, index: 1, setLatestValue: { (e: E2) -> Void in self._latestElement2 = e }, this: subscription2)
subscription1.disposable = _parent._source1.subscribe(observer1)
subscription2.disposable = _parent._source2.subscribe(observer2)
return CompositeDisposable(disposables: [
subscription1,
subscription2
])
}
override func getResult() throws -> R {
return try _parent._resultSelector(_latestElement1, _latestElement2)
}
}
class CombineLatest2<E1, E2, R> : Producer<R> {
typealias ResultSelector = (E1, E2) throws -> R
let _source1: Observable<E1>
let _source2: Observable<E2>
let _resultSelector: ResultSelector
init(source1: Observable<E1>, source2: Observable<E2>, resultSelector: ResultSelector) {
_source1 = source1
_source2 = source2
_resultSelector = resultSelector
}
override func run<O: ObserverType where O.E == R>(observer: O) -> Disposable {
let sink = CombineLatestSink2_(parent: self, observer: observer)
sink.disposable = sink.run()
return sink
}
}
// 3
extension Observable {
/**
Merges the specified observable sequences into one observable sequence by using the selector function whenever any of the observable sequences produces an element.
- seealso: [combineLatest operator on reactivex.io](http://reactivex.io/documentation/operators/combinelatest.html)
- parameter resultSelector: Function to invoke whenever any of the sources produces an element.
- returns: An observable sequence containing the result of combining elements of the sources using the specified result selector function.
*/
@warn_unused_result(message="http://git.io/rxs.uo")
public static func combineLatest<O1: ObservableType, O2: ObservableType, O3: ObservableType>
(source1: O1, _ source2: O2, _ source3: O3, resultSelector: (O1.E, O2.E, O3.E) throws -> E)
-> Observable<E> {
return CombineLatest3(
source1: source1.asObservable(), source2: source2.asObservable(), source3: source3.asObservable(),
resultSelector: resultSelector
)
}
}
class CombineLatestSink3_<E1, E2, E3, O: ObserverType> : CombineLatestSink<O> {
typealias R = O.E
typealias Parent = CombineLatest3<E1, E2, E3, R>
let _parent: Parent
var _latestElement1: E1! = nil
var _latestElement2: E2! = nil
var _latestElement3: E3! = nil
init(parent: Parent, observer: O) {
_parent = parent
super.init(arity: 3, observer: observer)
}
func run() -> Disposable {
let subscription1 = SingleAssignmentDisposable()
let subscription2 = SingleAssignmentDisposable()
let subscription3 = SingleAssignmentDisposable()
let observer1 = CombineLatestObserver(lock: _lock, parent: self, index: 0, setLatestValue: { (e: E1) -> Void in self._latestElement1 = e }, this: subscription1)
let observer2 = CombineLatestObserver(lock: _lock, parent: self, index: 1, setLatestValue: { (e: E2) -> Void in self._latestElement2 = e }, this: subscription2)
let observer3 = CombineLatestObserver(lock: _lock, parent: self, index: 2, setLatestValue: { (e: E3) -> Void in self._latestElement3 = e }, this: subscription3)
subscription1.disposable = _parent._source1.subscribe(observer1)
subscription2.disposable = _parent._source2.subscribe(observer2)
subscription3.disposable = _parent._source3.subscribe(observer3)
return CompositeDisposable(disposables: [
subscription1,
subscription2,
subscription3
])
}
override func getResult() throws -> R {
return try _parent._resultSelector(_latestElement1, _latestElement2, _latestElement3)
}
}
class CombineLatest3<E1, E2, E3, R> : Producer<R> {
typealias ResultSelector = (E1, E2, E3) throws -> R
let _source1: Observable<E1>
let _source2: Observable<E2>
let _source3: Observable<E3>
let _resultSelector: ResultSelector
init(source1: Observable<E1>, source2: Observable<E2>, source3: Observable<E3>, resultSelector: ResultSelector) {
_source1 = source1
_source2 = source2
_source3 = source3
_resultSelector = resultSelector
}
override func run<O: ObserverType where O.E == R>(observer: O) -> Disposable {
let sink = CombineLatestSink3_(parent: self, observer: observer)
sink.disposable = sink.run()
return sink
}
}
// 4
extension Observable {
/**
Merges the specified observable sequences into one observable sequence by using the selector function whenever any of the observable sequences produces an element.
- seealso: [combineLatest operator on reactivex.io](http://reactivex.io/documentation/operators/combinelatest.html)
- parameter resultSelector: Function to invoke whenever any of the sources produces an element.
- returns: An observable sequence containing the result of combining elements of the sources using the specified result selector function.
*/
@warn_unused_result(message="http://git.io/rxs.uo")
public static func combineLatest<O1: ObservableType, O2: ObservableType, O3: ObservableType, O4: ObservableType>
(source1: O1, _ source2: O2, _ source3: O3, _ source4: O4, resultSelector: (O1.E, O2.E, O3.E, O4.E) throws -> E)
-> Observable<E> {
return CombineLatest4(
source1: source1.asObservable(), source2: source2.asObservable(), source3: source3.asObservable(), source4: source4.asObservable(),
resultSelector: resultSelector
)
}
}
class CombineLatestSink4_<E1, E2, E3, E4, O: ObserverType> : CombineLatestSink<O> {
typealias R = O.E
typealias Parent = CombineLatest4<E1, E2, E3, E4, R>
let _parent: Parent
var _latestElement1: E1! = nil
var _latestElement2: E2! = nil
var _latestElement3: E3! = nil
var _latestElement4: E4! = nil
init(parent: Parent, observer: O) {
_parent = parent
super.init(arity: 4, observer: observer)
}
func run() -> Disposable {
let subscription1 = SingleAssignmentDisposable()
let subscription2 = SingleAssignmentDisposable()
let subscription3 = SingleAssignmentDisposable()
let subscription4 = SingleAssignmentDisposable()
let observer1 = CombineLatestObserver(lock: _lock, parent: self, index: 0, setLatestValue: { (e: E1) -> Void in self._latestElement1 = e }, this: subscription1)
let observer2 = CombineLatestObserver(lock: _lock, parent: self, index: 1, setLatestValue: { (e: E2) -> Void in self._latestElement2 = e }, this: subscription2)
let observer3 = CombineLatestObserver(lock: _lock, parent: self, index: 2, setLatestValue: { (e: E3) -> Void in self._latestElement3 = e }, this: subscription3)
let observer4 = CombineLatestObserver(lock: _lock, parent: self, index: 3, setLatestValue: { (e: E4) -> Void in self._latestElement4 = e }, this: subscription4)
subscription1.disposable = _parent._source1.subscribe(observer1)
subscription2.disposable = _parent._source2.subscribe(observer2)
subscription3.disposable = _parent._source3.subscribe(observer3)
subscription4.disposable = _parent._source4.subscribe(observer4)
return CompositeDisposable(disposables: [
subscription1,
subscription2,
subscription3,
subscription4
])
}
override func getResult() throws -> R {
return try _parent._resultSelector(_latestElement1, _latestElement2, _latestElement3, _latestElement4)
}
}
class CombineLatest4<E1, E2, E3, E4, R> : Producer<R> {
typealias ResultSelector = (E1, E2, E3, E4) throws -> R
let _source1: Observable<E1>
let _source2: Observable<E2>
let _source3: Observable<E3>
let _source4: Observable<E4>
let _resultSelector: ResultSelector
init(source1: Observable<E1>, source2: Observable<E2>, source3: Observable<E3>, source4: Observable<E4>, resultSelector: ResultSelector) {
_source1 = source1
_source2 = source2
_source3 = source3
_source4 = source4
_resultSelector = resultSelector
}
override func run<O: ObserverType where O.E == R>(observer: O) -> Disposable {
let sink = CombineLatestSink4_(parent: self, observer: observer)
sink.disposable = sink.run()
return sink
}
}
// 5
extension Observable {
/**
Merges the specified observable sequences into one observable sequence by using the selector function whenever any of the observable sequences produces an element.
- seealso: [combineLatest operator on reactivex.io](http://reactivex.io/documentation/operators/combinelatest.html)
- parameter resultSelector: Function to invoke whenever any of the sources produces an element.
- returns: An observable sequence containing the result of combining elements of the sources using the specified result selector function.
*/
@warn_unused_result(message="http://git.io/rxs.uo")
public static func combineLatest<O1: ObservableType, O2: ObservableType, O3: ObservableType, O4: ObservableType, O5: ObservableType>
(source1: O1, _ source2: O2, _ source3: O3, _ source4: O4, _ source5: O5, resultSelector: (O1.E, O2.E, O3.E, O4.E, O5.E) throws -> E)
-> Observable<E> {
return CombineLatest5(
source1: source1.asObservable(), source2: source2.asObservable(), source3: source3.asObservable(), source4: source4.asObservable(), source5: source5.asObservable(),
resultSelector: resultSelector
)
}
}
class CombineLatestSink5_<E1, E2, E3, E4, E5, O: ObserverType> : CombineLatestSink<O> {
typealias R = O.E
typealias Parent = CombineLatest5<E1, E2, E3, E4, E5, R>
let _parent: Parent
var _latestElement1: E1! = nil
var _latestElement2: E2! = nil
var _latestElement3: E3! = nil
var _latestElement4: E4! = nil
var _latestElement5: E5! = nil
init(parent: Parent, observer: O) {
_parent = parent
super.init(arity: 5, observer: observer)
}
func run() -> Disposable {
let subscription1 = SingleAssignmentDisposable()
let subscription2 = SingleAssignmentDisposable()
let subscription3 = SingleAssignmentDisposable()
let subscription4 = SingleAssignmentDisposable()
let subscription5 = SingleAssignmentDisposable()
let observer1 = CombineLatestObserver(lock: _lock, parent: self, index: 0, setLatestValue: { (e: E1) -> Void in self._latestElement1 = e }, this: subscription1)
let observer2 = CombineLatestObserver(lock: _lock, parent: self, index: 1, setLatestValue: { (e: E2) -> Void in self._latestElement2 = e }, this: subscription2)
let observer3 = CombineLatestObserver(lock: _lock, parent: self, index: 2, setLatestValue: { (e: E3) -> Void in self._latestElement3 = e }, this: subscription3)
let observer4 = CombineLatestObserver(lock: _lock, parent: self, index: 3, setLatestValue: { (e: E4) -> Void in self._latestElement4 = e }, this: subscription4)
let observer5 = CombineLatestObserver(lock: _lock, parent: self, index: 4, setLatestValue: { (e: E5) -> Void in self._latestElement5 = e }, this: subscription5)
subscription1.disposable = _parent._source1.subscribe(observer1)
subscription2.disposable = _parent._source2.subscribe(observer2)
subscription3.disposable = _parent._source3.subscribe(observer3)
subscription4.disposable = _parent._source4.subscribe(observer4)
subscription5.disposable = _parent._source5.subscribe(observer5)
return CompositeDisposable(disposables: [
subscription1,
subscription2,
subscription3,
subscription4,
subscription5
])
}
override func getResult() throws -> R {
return try _parent._resultSelector(_latestElement1, _latestElement2, _latestElement3, _latestElement4, _latestElement5)
}
}
class CombineLatest5<E1, E2, E3, E4, E5, R> : Producer<R> {
typealias ResultSelector = (E1, E2, E3, E4, E5) throws -> R
let _source1: Observable<E1>
let _source2: Observable<E2>
let _source3: Observable<E3>
let _source4: Observable<E4>
let _source5: Observable<E5>
let _resultSelector: ResultSelector
init(source1: Observable<E1>, source2: Observable<E2>, source3: Observable<E3>, source4: Observable<E4>, source5: Observable<E5>, resultSelector: ResultSelector) {
_source1 = source1
_source2 = source2
_source3 = source3
_source4 = source4
_source5 = source5
_resultSelector = resultSelector
}
override func run<O: ObserverType where O.E == R>(observer: O) -> Disposable {
let sink = CombineLatestSink5_(parent: self, observer: observer)
sink.disposable = sink.run()
return sink
}
}
// 6
extension Observable {
/**
Merges the specified observable sequences into one observable sequence by using the selector function whenever any of the observable sequences produces an element.
- seealso: [combineLatest operator on reactivex.io](http://reactivex.io/documentation/operators/combinelatest.html)
- parameter resultSelector: Function to invoke whenever any of the sources produces an element.
- returns: An observable sequence containing the result of combining elements of the sources using the specified result selector function.
*/
@warn_unused_result(message="http://git.io/rxs.uo")
public static func combineLatest<O1: ObservableType, O2: ObservableType, O3: ObservableType, O4: ObservableType, O5: ObservableType, O6: ObservableType>
(source1: O1, _ source2: O2, _ source3: O3, _ source4: O4, _ source5: O5, _ source6: O6, resultSelector: (O1.E, O2.E, O3.E, O4.E, O5.E, O6.E) throws -> E)
-> Observable<E> {
return CombineLatest6(
source1: source1.asObservable(), source2: source2.asObservable(), source3: source3.asObservable(), source4: source4.asObservable(), source5: source5.asObservable(), source6: source6.asObservable(),
resultSelector: resultSelector
)
}
}
class CombineLatestSink6_<E1, E2, E3, E4, E5, E6, O: ObserverType> : CombineLatestSink<O> {
typealias R = O.E
typealias Parent = CombineLatest6<E1, E2, E3, E4, E5, E6, R>
let _parent: Parent
var _latestElement1: E1! = nil
var _latestElement2: E2! = nil
var _latestElement3: E3! = nil
var _latestElement4: E4! = nil
var _latestElement5: E5! = nil
var _latestElement6: E6! = nil
init(parent: Parent, observer: O) {
_parent = parent
super.init(arity: 6, observer: observer)
}
func run() -> Disposable {
let subscription1 = SingleAssignmentDisposable()
let subscription2 = SingleAssignmentDisposable()
let subscription3 = SingleAssignmentDisposable()
let subscription4 = SingleAssignmentDisposable()
let subscription5 = SingleAssignmentDisposable()
let subscription6 = SingleAssignmentDisposable()
let observer1 = CombineLatestObserver(lock: _lock, parent: self, index: 0, setLatestValue: { (e: E1) -> Void in self._latestElement1 = e }, this: subscription1)
let observer2 = CombineLatestObserver(lock: _lock, parent: self, index: 1, setLatestValue: { (e: E2) -> Void in self._latestElement2 = e }, this: subscription2)
let observer3 = CombineLatestObserver(lock: _lock, parent: self, index: 2, setLatestValue: { (e: E3) -> Void in self._latestElement3 = e }, this: subscription3)
let observer4 = CombineLatestObserver(lock: _lock, parent: self, index: 3, setLatestValue: { (e: E4) -> Void in self._latestElement4 = e }, this: subscription4)
let observer5 = CombineLatestObserver(lock: _lock, parent: self, index: 4, setLatestValue: { (e: E5) -> Void in self._latestElement5 = e }, this: subscription5)
let observer6 = CombineLatestObserver(lock: _lock, parent: self, index: 5, setLatestValue: { (e: E6) -> Void in self._latestElement6 = e }, this: subscription6)
subscription1.disposable = _parent._source1.subscribe(observer1)
subscription2.disposable = _parent._source2.subscribe(observer2)
subscription3.disposable = _parent._source3.subscribe(observer3)
subscription4.disposable = _parent._source4.subscribe(observer4)
subscription5.disposable = _parent._source5.subscribe(observer5)
subscription6.disposable = _parent._source6.subscribe(observer6)
return CompositeDisposable(disposables: [
subscription1,
subscription2,
subscription3,
subscription4,
subscription5,
subscription6
])
}
override func getResult() throws -> R {
return try _parent._resultSelector(_latestElement1, _latestElement2, _latestElement3, _latestElement4, _latestElement5, _latestElement6)
}
}
class CombineLatest6<E1, E2, E3, E4, E5, E6, R> : Producer<R> {
typealias ResultSelector = (E1, E2, E3, E4, E5, E6) throws -> R
let _source1: Observable<E1>
let _source2: Observable<E2>
let _source3: Observable<E3>
let _source4: Observable<E4>
let _source5: Observable<E5>
let _source6: Observable<E6>
let _resultSelector: ResultSelector
init(source1: Observable<E1>, source2: Observable<E2>, source3: Observable<E3>, source4: Observable<E4>, source5: Observable<E5>, source6: Observable<E6>, resultSelector: ResultSelector) {
_source1 = source1
_source2 = source2
_source3 = source3
_source4 = source4
_source5 = source5
_source6 = source6
_resultSelector = resultSelector
}
override func run<O: ObserverType where O.E == R>(observer: O) -> Disposable {
let sink = CombineLatestSink6_(parent: self, observer: observer)
sink.disposable = sink.run()
return sink
}
}
// 7
extension Observable {
/**
Merges the specified observable sequences into one observable sequence by using the selector function whenever any of the observable sequences produces an element.
- seealso: [combineLatest operator on reactivex.io](http://reactivex.io/documentation/operators/combinelatest.html)
- parameter resultSelector: Function to invoke whenever any of the sources produces an element.
- returns: An observable sequence containing the result of combining elements of the sources using the specified result selector function.
*/
@warn_unused_result(message="http://git.io/rxs.uo")
public static func combineLatest<O1: ObservableType, O2: ObservableType, O3: ObservableType, O4: ObservableType, O5: ObservableType, O6: ObservableType, O7: ObservableType>
(source1: O1, _ source2: O2, _ source3: O3, _ source4: O4, _ source5: O5, _ source6: O6, _ source7: O7, resultSelector: (O1.E, O2.E, O3.E, O4.E, O5.E, O6.E, O7.E) throws -> E)
-> Observable<E> {
return CombineLatest7(
source1: source1.asObservable(), source2: source2.asObservable(), source3: source3.asObservable(), source4: source4.asObservable(), source5: source5.asObservable(), source6: source6.asObservable(), source7: source7.asObservable(),
resultSelector: resultSelector
)
}
}
class CombineLatestSink7_<E1, E2, E3, E4, E5, E6, E7, O: ObserverType> : CombineLatestSink<O> {
typealias R = O.E
typealias Parent = CombineLatest7<E1, E2, E3, E4, E5, E6, E7, R>
let _parent: Parent
var _latestElement1: E1! = nil
var _latestElement2: E2! = nil
var _latestElement3: E3! = nil
var _latestElement4: E4! = nil
var _latestElement5: E5! = nil
var _latestElement6: E6! = nil
var _latestElement7: E7! = nil
init(parent: Parent, observer: O) {
_parent = parent
super.init(arity: 7, observer: observer)
}
func run() -> Disposable {
let subscription1 = SingleAssignmentDisposable()
let subscription2 = SingleAssignmentDisposable()
let subscription3 = SingleAssignmentDisposable()
let subscription4 = SingleAssignmentDisposable()
let subscription5 = SingleAssignmentDisposable()
let subscription6 = SingleAssignmentDisposable()
let subscription7 = SingleAssignmentDisposable()
let observer1 = CombineLatestObserver(lock: _lock, parent: self, index: 0, setLatestValue: { (e: E1) -> Void in self._latestElement1 = e }, this: subscription1)
let observer2 = CombineLatestObserver(lock: _lock, parent: self, index: 1, setLatestValue: { (e: E2) -> Void in self._latestElement2 = e }, this: subscription2)
let observer3 = CombineLatestObserver(lock: _lock, parent: self, index: 2, setLatestValue: { (e: E3) -> Void in self._latestElement3 = e }, this: subscription3)
let observer4 = CombineLatestObserver(lock: _lock, parent: self, index: 3, setLatestValue: { (e: E4) -> Void in self._latestElement4 = e }, this: subscription4)
let observer5 = CombineLatestObserver(lock: _lock, parent: self, index: 4, setLatestValue: { (e: E5) -> Void in self._latestElement5 = e }, this: subscription5)
let observer6 = CombineLatestObserver(lock: _lock, parent: self, index: 5, setLatestValue: { (e: E6) -> Void in self._latestElement6 = e }, this: subscription6)
let observer7 = CombineLatestObserver(lock: _lock, parent: self, index: 6, setLatestValue: { (e: E7) -> Void in self._latestElement7 = e }, this: subscription7)
subscription1.disposable = _parent._source1.subscribe(observer1)
subscription2.disposable = _parent._source2.subscribe(observer2)
subscription3.disposable = _parent._source3.subscribe(observer3)
subscription4.disposable = _parent._source4.subscribe(observer4)
subscription5.disposable = _parent._source5.subscribe(observer5)
subscription6.disposable = _parent._source6.subscribe(observer6)
subscription7.disposable = _parent._source7.subscribe(observer7)
return CompositeDisposable(disposables: [
subscription1,
subscription2,
subscription3,
subscription4,
subscription5,
subscription6,
subscription7
])
}
override func getResult() throws -> R {
return try _parent._resultSelector(_latestElement1, _latestElement2, _latestElement3, _latestElement4, _latestElement5, _latestElement6, _latestElement7)
}
}
class CombineLatest7<E1, E2, E3, E4, E5, E6, E7, R> : Producer<R> {
typealias ResultSelector = (E1, E2, E3, E4, E5, E6, E7) throws -> R
let _source1: Observable<E1>
let _source2: Observable<E2>
let _source3: Observable<E3>
let _source4: Observable<E4>
let _source5: Observable<E5>
let _source6: Observable<E6>
let _source7: Observable<E7>
let _resultSelector: ResultSelector
init(source1: Observable<E1>, source2: Observable<E2>, source3: Observable<E3>, source4: Observable<E4>, source5: Observable<E5>, source6: Observable<E6>, source7: Observable<E7>, resultSelector: ResultSelector) {
_source1 = source1
_source2 = source2
_source3 = source3
_source4 = source4
_source5 = source5
_source6 = source6
_source7 = source7
_resultSelector = resultSelector
}
override func run<O: ObserverType where O.E == R>(observer: O) -> Disposable {
let sink = CombineLatestSink7_(parent: self, observer: observer)
sink.disposable = sink.run()
return sink
}
}
// 8
extension Observable {
/**
Merges the specified observable sequences into one observable sequence by using the selector function whenever any of the observable sequences produces an element.
- seealso: [combineLatest operator on reactivex.io](http://reactivex.io/documentation/operators/combinelatest.html)
- parameter resultSelector: Function to invoke whenever any of the sources produces an element.
- returns: An observable sequence containing the result of combining elements of the sources using the specified result selector function.
*/
@warn_unused_result(message="http://git.io/rxs.uo")
public static func combineLatest<O1: ObservableType, O2: ObservableType, O3: ObservableType, O4: ObservableType, O5: ObservableType, O6: ObservableType, O7: ObservableType, O8: ObservableType>
(source1: O1, _ source2: O2, _ source3: O3, _ source4: O4, _ source5: O5, _ source6: O6, _ source7: O7, _ source8: O8, resultSelector: (O1.E, O2.E, O3.E, O4.E, O5.E, O6.E, O7.E, O8.E) throws -> E)
-> Observable<E> {
return CombineLatest8(
source1: source1.asObservable(), source2: source2.asObservable(), source3: source3.asObservable(), source4: source4.asObservable(), source5: source5.asObservable(), source6: source6.asObservable(), source7: source7.asObservable(), source8: source8.asObservable(),
resultSelector: resultSelector
)
}
}
class CombineLatestSink8_<E1, E2, E3, E4, E5, E6, E7, E8, O: ObserverType> : CombineLatestSink<O> {
typealias R = O.E
typealias Parent = CombineLatest8<E1, E2, E3, E4, E5, E6, E7, E8, R>
let _parent: Parent
var _latestElement1: E1! = nil
var _latestElement2: E2! = nil
var _latestElement3: E3! = nil
var _latestElement4: E4! = nil
var _latestElement5: E5! = nil
var _latestElement6: E6! = nil
var _latestElement7: E7! = nil
var _latestElement8: E8! = nil
init(parent: Parent, observer: O) {
_parent = parent
super.init(arity: 8, observer: observer)
}
func run() -> Disposable {
let subscription1 = SingleAssignmentDisposable()
let subscription2 = SingleAssignmentDisposable()
let subscription3 = SingleAssignmentDisposable()
let subscription4 = SingleAssignmentDisposable()
let subscription5 = SingleAssignmentDisposable()
let subscription6 = SingleAssignmentDisposable()
let subscription7 = SingleAssignmentDisposable()
let subscription8 = SingleAssignmentDisposable()
let observer1 = CombineLatestObserver(lock: _lock, parent: self, index: 0, setLatestValue: { (e: E1) -> Void in self._latestElement1 = e }, this: subscription1)
let observer2 = CombineLatestObserver(lock: _lock, parent: self, index: 1, setLatestValue: { (e: E2) -> Void in self._latestElement2 = e }, this: subscription2)
let observer3 = CombineLatestObserver(lock: _lock, parent: self, index: 2, setLatestValue: { (e: E3) -> Void in self._latestElement3 = e }, this: subscription3)
let observer4 = CombineLatestObserver(lock: _lock, parent: self, index: 3, setLatestValue: { (e: E4) -> Void in self._latestElement4 = e }, this: subscription4)
let observer5 = CombineLatestObserver(lock: _lock, parent: self, index: 4, setLatestValue: { (e: E5) -> Void in self._latestElement5 = e }, this: subscription5)
let observer6 = CombineLatestObserver(lock: _lock, parent: self, index: 5, setLatestValue: { (e: E6) -> Void in self._latestElement6 = e }, this: subscription6)
let observer7 = CombineLatestObserver(lock: _lock, parent: self, index: 6, setLatestValue: { (e: E7) -> Void in self._latestElement7 = e }, this: subscription7)
let observer8 = CombineLatestObserver(lock: _lock, parent: self, index: 7, setLatestValue: { (e: E8) -> Void in self._latestElement8 = e }, this: subscription8)
subscription1.disposable = _parent._source1.subscribe(observer1)
subscription2.disposable = _parent._source2.subscribe(observer2)
subscription3.disposable = _parent._source3.subscribe(observer3)
subscription4.disposable = _parent._source4.subscribe(observer4)
subscription5.disposable = _parent._source5.subscribe(observer5)
subscription6.disposable = _parent._source6.subscribe(observer6)
subscription7.disposable = _parent._source7.subscribe(observer7)
subscription8.disposable = _parent._source8.subscribe(observer8)
return CompositeDisposable(disposables: [
subscription1,
subscription2,
subscription3,
subscription4,
subscription5,
subscription6,
subscription7,
subscription8
])
}
override func getResult() throws -> R {
return try _parent._resultSelector(_latestElement1, _latestElement2, _latestElement3, _latestElement4, _latestElement5, _latestElement6, _latestElement7, _latestElement8)
}
}
class CombineLatest8<E1, E2, E3, E4, E5, E6, E7, E8, R> : Producer<R> {
typealias ResultSelector = (E1, E2, E3, E4, E5, E6, E7, E8) throws -> R
let _source1: Observable<E1>
let _source2: Observable<E2>
let _source3: Observable<E3>
let _source4: Observable<E4>
let _source5: Observable<E5>
let _source6: Observable<E6>
let _source7: Observable<E7>
let _source8: Observable<E8>
let _resultSelector: ResultSelector
init(source1: Observable<E1>, source2: Observable<E2>, source3: Observable<E3>, source4: Observable<E4>, source5: Observable<E5>, source6: Observable<E6>, source7: Observable<E7>, source8: Observable<E8>, resultSelector: ResultSelector) {
_source1 = source1
_source2 = source2
_source3 = source3
_source4 = source4
_source5 = source5
_source6 = source6
_source7 = source7
_source8 = source8
_resultSelector = resultSelector
}
override func run<O: ObserverType where O.E == R>(observer: O) -> Disposable {
let sink = CombineLatestSink8_(parent: self, observer: observer)
sink.disposable = sink.run()
return sink
}
}

134
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Observables/Implementations/CombineLatest.swift generated Normal file
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//
// CombineLatest.swift
// Rx
//
// Created by Krunoslav Zaher on 3/21/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
protocol CombineLatestProtocol : class {
func next(index: Int)
func fail(error: ErrorType)
func done(index: Int)
}
class CombineLatestSink<O: ObserverType>
: Sink<O>
, CombineLatestProtocol {
typealias Element = O.E
let _lock = NSRecursiveLock()
private let _arity: Int
private var _numberOfValues = 0
private var _numberOfDone = 0
private var _hasValue: [Bool]
private var _isDone: [Bool]
init(arity: Int, observer: O) {
_arity = arity
_hasValue = [Bool](count: arity, repeatedValue: false)
_isDone = [Bool](count: arity, repeatedValue: false)
super.init(observer: observer)
}
func getResult() throws -> Element {
abstractMethod()
}
func next(index: Int) {
if !_hasValue[index] {
_hasValue[index] = true
_numberOfValues += 1
}
if _numberOfValues == _arity {
do {
let result = try getResult()
forwardOn(.Next(result))
}
catch let e {
forwardOn(.Error(e))
dispose()
}
}
else {
var allOthersDone = true
for i in 0 ..< _arity {
if i != index && !_isDone[i] {
allOthersDone = false
break
}
}
if allOthersDone {
forwardOn(.Completed)
dispose()
}
}
}
func fail(error: ErrorType) {
forwardOn(.Error(error))
dispose()
}
func done(index: Int) {
if _isDone[index] {
return
}
_isDone[index] = true
_numberOfDone += 1
if _numberOfDone == _arity {
forwardOn(.Completed)
dispose()
}
}
}
class CombineLatestObserver<ElementType>
: ObserverType
, LockOwnerType
, SynchronizedOnType {
typealias Element = ElementType
typealias ValueSetter = (Element) -> Void
private let _parent: CombineLatestProtocol
let _lock: NSRecursiveLock
private let _index: Int
private let _this: Disposable
private let _setLatestValue: ValueSetter
init(lock: NSRecursiveLock, parent: CombineLatestProtocol, index: Int, setLatestValue: ValueSetter, this: Disposable) {
_lock = lock
_parent = parent
_index = index
_this = this
_setLatestValue = setLatestValue
}
func on(event: Event<Element>) {
synchronizedOn(event)
}
func _synchronized_on(event: Event<Element>) {
switch event {
case .Next(let value):
_setLatestValue(value)
_parent.next(_index)
case .Error(let error):
_this.dispose()
_parent.fail(error)
case .Completed:
_this.dispose()
_parent.done(_index)
}
}
}

63
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Observables/Implementations/Concat.swift generated Normal file
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//
// Concat.swift
// Rx
//
// Created by Krunoslav Zaher on 3/21/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
class ConcatSink<S: SequenceType, O: ObserverType where S.Generator.Element : ObservableConvertibleType, S.Generator.Element.E == O.E>
: TailRecursiveSink<S, O>
, ObserverType {
typealias Element = O.E
override init(observer: O) {
super.init(observer: observer)
}
func on(event: Event<Element>){
switch event {
case .Next:
forwardOn(event)
case .Error:
forwardOn(event)
dispose()
case .Completed:
schedule(.MoveNext)
}
}
override func subscribeToNext(source: Observable<E>) -> Disposable {
return source.subscribe(self)
}
override func extract(observable: Observable<E>) -> SequenceGenerator? {
if let source = observable as? Concat<S> {
return (source._sources.generate(), source._count)
}
else {
return nil
}
}
}
class Concat<S: SequenceType where S.Generator.Element : ObservableConvertibleType> : Producer<S.Generator.Element.E> {
typealias Element = S.Generator.Element.E
private let _sources: S
private let _count: IntMax?
init(sources: S, count: IntMax?) {
_sources = sources
_count = count
}
override func run<O: ObserverType where O.E == Element>(observer: O) -> Disposable {
let sink = ConcatSink<S, O>(observer: observer)
sink.disposable = sink.run((_sources.generate(), _count))
return sink
}
}

96
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Observables/Implementations/ConnectableObservable.swift generated Normal file
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//
// ConnectableObservable.swift
// Rx
//
// Created by Krunoslav Zaher on 3/1/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
/**
Represents an observable wrapper that can be connected and disconnected from its underlying observable sequence.
*/
public class ConnectableObservable<Element>
: Observable<Element>
, ConnectableObservableType {
/**
Connects the observable wrapper to its source. All subscribed observers will receive values from the underlying observable sequence as long as the connection is established.
- returns: Disposable used to disconnect the observable wrapper from its source, causing subscribed observer to stop receiving values from the underlying observable sequence.
*/
public func connect() -> Disposable {
abstractMethod()
}
}
class Connection<S: SubjectType> : Disposable {
private var _lock: NSRecursiveLock
// state
private var _parent: ConnectableObservableAdapter<S>?
private var _subscription : Disposable?
init(parent: ConnectableObservableAdapter<S>, lock: NSRecursiveLock, subscription: Disposable) {
_parent = parent
_subscription = subscription
_lock = lock
}
func dispose() {
_lock.lock(); defer { _lock.unlock() } // {
guard let parent = _parent else {
return
}
guard let oldSubscription = _subscription else {
return
}
_subscription = nil
if parent._connection === self {
parent._connection = nil
}
_parent = nil
oldSubscription.dispose()
// }
}
}
class ConnectableObservableAdapter<S: SubjectType>
: ConnectableObservable<S.E> {
typealias ConnectionType = Connection<S>
private let _subject: S
private let _source: Observable<S.SubjectObserverType.E>
private let _lock = NSRecursiveLock()
// state
private var _connection: ConnectionType?
init(source: Observable<S.SubjectObserverType.E>, subject: S) {
_source = source
_subject = subject
_connection = nil
}
override func connect() -> Disposable {
return _lock.calculateLocked {
if let connection = _connection {
return connection
}
let disposable = _source.subscribe(_subject.asObserver())
let connection = Connection(parent: self, lock: _lock, subscription: disposable)
_connection = connection
return connection
}
}
override func subscribe<O : ObserverType where O.E == S.E>(observer: O) -> Disposable {
return _subject.subscribe(observer)
}
}

77
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Observables/Implementations/Debug.swift generated Normal file
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//
// Debug.swift
// RxSwift
//
// Created by Krunoslav Zaher on 5/2/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
let dateFormat = "yyyy-MM-dd HH:mm:ss.SSS"
func logEvent(identifier: String, dateFormat: NSDateFormatter, content: String) {
print("\(dateFormat.stringFromDate(NSDate())): \(identifier) -> \(content)")
}
class Debug_<O: ObserverType> : Sink<O>, ObserverType {
typealias Element = O.E
typealias Parent = Debug<Element>
private let _parent: Parent
private let _timestampFormatter = NSDateFormatter()
init(parent: Parent, observer: O) {
_parent = parent
_timestampFormatter.dateFormat = dateFormat
logEvent(_parent._identifier, dateFormat: _timestampFormatter, content: "subscribed")
super.init(observer: observer)
}
func on(event: Event<Element>) {
let maxEventTextLength = 40
let eventText = "\(event)"
let eventNormalized = eventText.characters.count > maxEventTextLength
? String(eventText.characters.prefix(maxEventTextLength / 2)) + "..." + String(eventText.characters.suffix(maxEventTextLength / 2))
: eventText
logEvent(_parent._identifier, dateFormat: _timestampFormatter, content: "Event \(eventNormalized)")
forwardOn(event)
}
override func dispose() {
logEvent(_parent._identifier, dateFormat: _timestampFormatter, content: "disposed")
super.dispose()
}
}
class Debug<Element> : Producer<Element> {
private let _identifier: String
private let _source: Observable<Element>
init(source: Observable<Element>, identifier: String?, file: String, line: UInt, function: String) {
if let identifier = identifier {
_identifier = identifier
}
else {
let trimmedFile: String
if let lastIndex = file.lastIndexOf("/") {
trimmedFile = file[lastIndex.successor() ..< file.endIndex]
}
else {
trimmedFile = file
}
_identifier = "\(trimmedFile):\(line) (\(function))"
}
_source = source
}
override func run<O: ObserverType where O.E == Element>(observer: O) -> Disposable {
let sink = Debug_(parent: self, observer: observer)
sink.disposable = _source.subscribe(sink)
return sink
}
}

61
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Observables/Implementations/Deferred.swift generated Normal file
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//
// Deferred.swift
// RxSwift
//
// Created by Krunoslav Zaher on 4/19/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
class DeferredSink<S: ObservableType, O: ObserverType where S.E == O.E> : Sink<O>, ObserverType {
typealias E = O.E
private let _observableFactory: () throws -> S
init(observableFactory: () throws -> S, observer: O) {
_observableFactory = observableFactory
super.init(observer: observer)
}
func run() -> Disposable {
do {
let result = try _observableFactory()
return result.subscribe(self)
}
catch let e {
forwardOn(.Error(e))
dispose()
return NopDisposable.instance
}
}
func on(event: Event<E>) {
forwardOn(event)
switch event {
case .Next:
break
case .Error:
dispose()
case .Completed:
dispose()
}
}
}
class Deferred<S: ObservableType> : Producer<S.E> {
typealias Factory = () throws -> S
private let _observableFactory : Factory
init(observableFactory: Factory) {
_observableFactory = observableFactory
}
override func run<O: ObserverType where O.E == S.E>(observer: O) -> Disposable {
let sink = DeferredSink(observableFactory: _observableFactory, observer: observer)
sink.disposable = sink.run()
return sink
}
}

52
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Observables/Implementations/DelaySubscription.swift generated Normal file
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//
// DelaySubscription.swift
// RxSwift
//
// Created by Krunoslav Zaher on 6/14/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
class DelaySubscriptionSink<ElementType, O: ObserverType where O.E == ElementType>
: Sink<O>
, ObserverType {
typealias Parent = DelaySubscription<ElementType>
typealias E = O.E
private let _parent: Parent
init(parent: Parent, observer: O) {
_parent = parent
super.init(observer: observer)
}
func on(event: Event<E>) {
forwardOn(event)
if event.isStopEvent {
dispose()
}
}
}
class DelaySubscription<Element>: Producer<Element> {
private let _source: Observable<Element>
private let _dueTime: RxTimeInterval
private let _scheduler: SchedulerType
init(source: Observable<Element>, dueTime: RxTimeInterval, scheduler: SchedulerType) {
_source = source
_dueTime = dueTime
_scheduler = scheduler
}
override func run<O : ObserverType where O.E == Element>(observer: O) -> Disposable {
let sink = DelaySubscriptionSink(parent: self, observer: observer)
sink.disposable = _scheduler.scheduleRelative((), dueTime: _dueTime) { _ in
return self._source.subscribe(sink)
}
return sink
}
}

70
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Observables/Implementations/DistinctUntilChanged.swift generated Normal file
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//
// DistinctUntilChanged.swift
// Rx
//
// Created by Krunoslav Zaher on 3/15/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
class DistinctUntilChangedSink<O: ObserverType, Key>: Sink<O>, ObserverType {
typealias E = O.E
private let _parent: DistinctUntilChanged<E, Key>
private var _currentKey: Key? = nil
init(parent: DistinctUntilChanged<E, Key>, observer: O) {
_parent = parent
super.init(observer: observer)
}
func on(event: Event<E>) {
switch event {
case .Next(let value):
do {
let key = try _parent._selector(value)
var areEqual = false
if let currentKey = _currentKey {
areEqual = try _parent._comparer(currentKey, key)
}
if areEqual {
return
}
_currentKey = key
forwardOn(event)
}
catch let error {
forwardOn(.Error(error))
dispose()
}
case .Error, .Completed:
forwardOn(event)
dispose()
}
}
}
class DistinctUntilChanged<Element, Key>: Producer<Element> {
typealias KeySelector = (Element) throws -> Key
typealias EqualityComparer = (Key, Key) throws -> Bool
private let _source: Observable<Element>
private let _selector: KeySelector
private let _comparer: EqualityComparer
init(source: Observable<Element>, selector: KeySelector, comparer: EqualityComparer) {
_source = source
_selector = selector
_comparer = comparer
}
override func run<O: ObserverType where O.E == Element>(observer: O) -> Disposable {
let sink = DistinctUntilChangedSink(parent: self, observer: observer)
sink.disposable = _source.subscribe(sink)
return sink
}
}

53
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Observables/Implementations/Do.swift generated Normal file
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//
// Do.swift
// Rx
//
// Created by Krunoslav Zaher on 2/21/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
class DoSink<O: ObserverType> : Sink<O>, ObserverType {
typealias Element = O.E
typealias Parent = Do<Element>
private let _parent: Parent
init(parent: Parent, observer: O) {
_parent = parent
super.init(observer: observer)
}
func on(event: Event<Element>) {
do {
try _parent._eventHandler(event)
forwardOn(event)
if event.isStopEvent {
dispose()
}
}
catch let error {
forwardOn(.Error(error))
dispose()
}
}
}
class Do<Element> : Producer<Element> {
typealias EventHandler = Event<Element> throws -> Void
private let _source: Observable<Element>
private let _eventHandler: EventHandler
init(source: Observable<Element>, eventHandler: EventHandler) {
_source = source
_eventHandler = eventHandler
}
override func run<O: ObserverType where O.E == Element>(observer: O) -> Disposable {
let sink = DoSink(parent: self, observer: observer)
sink.disposable = _source.subscribe(sink)
return sink
}
}

79
samples/client/petstore/swift/rxswift/SwaggerClientTests/Pods/RxSwift/RxSwift/Observables/Implementations/ElementAt.swift generated Normal file
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//
// ElementAt.swift
// Rx
//
// Created by Junior B. on 21/10/15.
// Copyright © 2015 Krunoslav Zaher. All rights reserved.
//
import Foundation
class ElementAtSink<SourceType, O: ObserverType where O.E == SourceType> : Sink<O>, ObserverType {
typealias Parent = ElementAt<SourceType>
let _parent: Parent
var _i: Int
init(parent: Parent, observer: O) {
_parent = parent
_i = parent._index
super.init(observer: observer)
}
func on(event: Event<SourceType>) {
switch event {
case .Next(_):
if (_i == 0) {
forwardOn(event)
forwardOn(.Completed)
self.dispose()
}
do {
try decrementChecked(&_i)
} catch(let e) {
forwardOn(.Error(e))
dispose()
return
}
case .Error(let e):
forwardOn(.Error(e))
self.dispose()
case .Completed:
if (_parent._throwOnEmpty) {
forwardOn(.Error(RxError.ArgumentOutOfRange))
} else {
forwardOn(.Completed)
}
self.dispose()
}
}
}
class ElementAt<SourceType> : Producer<SourceType> {
let _source: Observable<SourceType>
let _throwOnEmpty: Bool
let _index: Int
init(source: Observable<SourceType>, index: Int, throwOnEmpty: Bool) {
if index < 0 {
rxFatalError("index can't be negative")
}
self._source = source
self._index = index
self._throwOnEmpty = throwOnEmpty
}
override func run<O: ObserverType where O.E == SourceType>(observer: O) -> Disposable {
let sink = ElementAtSink(parent: self, observer: observer)
sink.disposable = _source.subscribeSafe(sink)
return sink
}
}

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