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There are three main differences between rest parameters and the {{jsxref(\, \)}} object:

Array methods can be used on rest parameters, but not on the arguments object:

To use Array methods on the arguments object, it must be converted to a real array first.

auth (aiohttp.BasicAuth) – an object that represents HTTP Basic Authorization (optional)

Performs an asynchronous HTTP request. Returns a response object.

data – The data to send in the body of the request. This can be a FormData object or anything that can be passed into FormData, e.g. a dictionary, bytes, or file-like object. (optional)

json – Any json compatible python object (optional). json and data parameters could not be used at the same time.

auth (aiohttp.BasicAuth) – an object that represents HTTP Basic Authorization (optional)

proxy_auth (aiohttp.BasicAuth) – an object that represents proxy HTTP Basic Authorization (optional)

Object used to give as a kw param for each new TraceConfig object instantiated, used to give information to the tracers that is only available at request time.

Create a websocket connection. Returns a ClientWebSocketResponse object.

auth (aiohttp.BasicAuth) – an object that represents HTTP Basic Authorization (optional)

proxy_auth (aiohttp.BasicAuth) – an object that represents proxy HTTP Basic Authorization (optional)

There`s no need to anticipate the provisioning of the additional storage space to meet your growing needs. Object Storage provides unlimited space for your applications. Store all types of files, without being constrained by low disk space.

Your data is distributed within clusters that have triple replication for each object. These replicas are placed on both different disks and servers, to ensure their longevity.

Nothing. Switching the object class from Standard to Glacier is free. Restoring objects from the Glacier storage class to Standard storage class is also free of charges.

An object stored in the Glacier class is listed but cannot be downloaded instantly. It needs to be restored in Standard class first. This is the principle of C14 Cold Storage. Since objects are stored on a cluster that isnt always-on, restoring usually takes a few minutes.

It really depends on your type of Object Storage usage. If you consider that a 3-month old object is rarely used but still has a value, you might want to send it to Cold Storage`s Glacier class, for example.

Yes, this is possible, but currently limited to uploads via the API. When uploading a file from the Scaleway console, it is first upload to Object Storage`s standard class. Send it to Glacier once the upload has completed by changing the storage class of the object. To do so, click on Send to S3 Glacier in the drop-down menu of the object. Please note that by uploading your data on Object Storage`s standard class, you will pay the standard storage price until objects are sent to C14 Cold Storage`s Glacier class.

Our Paris underground databunker (DC4) provides an increased layer of security by being 25 meters deep below the surface in a bunker where the Glacier storage class cluster is available. These storage clusters are available from any bucket in Paris or Amsterdam and all objects can change the storage class to Glacier.

There is no maximum data size, C14 Cold Storage accepts an unlimited number of objects up to 5 TB each. Large objects can be uploaded using multipart upload.

A resource quota, defined by a ResourceQuota object, provides constraints that limit aggregate resource consumption per namespace. It can limit the quantity of objects that can be created in a namespace by type, as well as the total amount of compute resources that may be consumed by resources in that namespace.

The name of a ResourceQuota object must be a valid DNS subdomain name.

Here is an example set of resources users may want to put under object count quota:

When using count/ resource quota, an object is charged against the quota if it exists in server storage. These types of quotas are useful to protect against exhaustion of storage resources. For example, you may want to limit the number of Secrets in a server given their large size. Too many Secrets in a cluster can actually prevent servers and controllers from starting. You can set a quota for Jobs to protect against a poorly configured CronJob. CronJobs that create too many Jobs in a namespace can lead to a denial of service.

It is also possible to do generic object count quota on a limited set of resources. The following types are supported:

When quota is scoped for priority class using scopeSelector field, quota object is restricted to track only following resources:

This example creates a quota object and matches it with pods at specific priorities. The example works as follows:

Kubectl also supports object count quota for all standard namespaced resources using the syntax count/resource>.group>:

It may be desired that pods at a particular priority, eg. , should be allowed in a namespace, if and only if, a matching quota object exists.

Now, pods will be allowed in only those namespaces where a quota object with a matching scopeSelector is present. For example:

Nothing. Switching the object class from Standard to Glacier is free. Restoring objects from the Glacier storage class to Standard storage class is also free of charges.

An object stored in the Glacier class is listed but cannot be downloaded instantly. It needs to be restored in Standard class first. This is the principle of C14 Cold Storage. Since objects are stored on a cluster that isnt always-on, restoring usually takes a few minutes.

It really depends on your type of Object Storage usage. If you consider that a 3-month old object is rarely used but still has a value, you might want to send it to Cold Storage`s Glacier class, for example.

Yes, this is possible, but currently limited to uploads via the API. When uploading a file from the Scaleway console, it is first upload to Object Storage`s standard class. Send it to Glacier once the upload has completed by changing the storage class of the object. To do so, click on Send to S3 Glacier in the drop-down menu of the object. Please note that by uploading your data on Object Storage`s standard class, you will pay the standard storage price until objects are sent to C14 Cold Storage`s Glacier class.

Our Paris underground databunker (DC4) provides an increased layer of security by being 25 meters deep below the surface in a bunker where the Glacier storage class cluster is available. These storage clusters are available from any bucket in Paris or Amsterdam and all objects can change the storage class to Glacier.

There is no maximum data size, C14 Cold Storage accepts an unlimited number of objects up to 5 TB each. Large objects can be uploaded using multipart upload.

For example: REAL FUNCTION bearing(a) CLASS(point) a bearing atan2(a%y,a%x) END The function bearing may be applied to a TYPE(point) object or to a TYPE(point_3d) object, or indeed to an object of any type that is an extension of TYPE(point). 9.2.1.3 Type Selection [5.0] The SELECT TYPE construct provides both a means of testing the dynamic type of a polymorphic variable and access to the extended components of that variable.

For example: CLASS(t) x ... SELECT TYPE(p) TYPE IS (t1) ! ! This section is executed only if X is exactly of TYPE(t1), not an ! extension thereof. P is TYPE(t1). ! TYPE IS (t2) ! ! This section is executed only if X is exactly of TYPE(t2), not an ! extension thereof. P is TYPE(t2). ! CLASS IS (t3) ! ! This section is executed if X is of TYPE(t3), or of some extension ! thereof, and if it is not caught by a more specific case. P is CLASS(t3). ! END SELECT Note that is short for . 9.2.1.4 Unlimited polymorphism [5.2] A variable that is is an unlimited polymorphic variable. It has no type, but can assume any type including non-extensible types and intrinsic types (and kinds). Apart from allocation, deallocation and pointer assignment, to perform any operation on an unlimited polymorphic you first have to discover its type using SELECT TYPE. For example: CLASS(),POINTER :: x CHARACTER(17),TARGET :: ch x ch SELECT TYPE(x) TYPE IS (COMPLEX(KIND(0d0))) PRINT ,x+1 TYPE IS (CHARACTER(LEN=)) PRINT ,LEN(x) END SELECT Note that in the case of CHARACTER the length must be specified as and is automatically assumed from whatever the polymorphic is associated with.

In the case of a non-extensible (i.e. BIND(C) or SEQUENCE) type, SELECT TYPE cannot be used to discover the type; instead, an unsafe pointer assignment is allowed, for example: TYPE t SEQUENCE REAL x END TYPE CLASS(),POINTER :: x TYPE(t),POINTER :: y ... y = x ! Unsafe - the compiler cannot tell whether X is TYPE(t). 9.2.1.5 Ad hoc type comparison [5.3] Two new intrinsic functions are provided for comparing the dynamic types of polymorphic objects. These are

The arguments must be objects of extensible types (though they need not be polymorphic). SAME_TYPE_AS returns .TRUE. if and only if both A and B have the same dynamic type. EXTENDS_TYPE_OF returns .TRUE. if and only if the dynamic type of A is the same as, or an extension of, the dynamic type of MOLD. Note that if MOLD is an unallocated unlimited polymorphic (CLASS()), the result will be true regardless of the state of A.

An unlimited polymorphic object can be allocated to be any type including intrinsic types: for example CLASS(),POINTER :: c,d ALLOCATE(DOUBLE PRECISION::c) READ ,n ALLOCATE(CHARACTER(LEN=n)::d) allocates C to be double precision real, and D to be of type CHARACTER with length N.

A type-bound procedure is invoked via an object of the type, e.g. CALL variable(i)%tbp(arguments) Normally, the invoking variable is passed as an extra argument, the ; by default this is the first dummy argument of the actual procedure and so the first argument in the argument list becomes the second argument, etc. The passed-object dummy argument may be changed by declaring the type-bound procedure with the PASS(argument-name) attribute, in which case the variable is passed as the named argument. The PASS attribute may also be used to confirm the default (as the first argument), and the NOPASS attribute prevents passing the object as an argument at all. The passed-object dummy argument must be a polymorphic scalar variable of that type, e.g. CLASS(t) self.

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