2019-01-15 18:47:14 +01:00
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---
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2020-08-15 03:51:06 +02:00
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layout: "language"
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2019-01-15 18:47:14 +01:00
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page_title: "setproduct - Functions - Configuration Language"
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sidebar_current: "docs-funcs-collection-setproduct"
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description: |-
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The setproduct function finds all of the possible combinations of elements
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from all of the given sets by computing the cartesian product.
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---
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# `setproduct` Function
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2019-01-17 01:33:57 +01:00
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-> **Note:** This page is about Terraform 0.12 and later. For Terraform 0.11 and
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earlier, see
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[0.11 Configuration Language: Interpolation Syntax](../../configuration-0-11/interpolation.html).
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2019-01-15 18:47:14 +01:00
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The `setproduct` function finds all of the possible combinations of elements
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from all of the given sets by computing the
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2019-09-05 19:08:34 +02:00
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[Cartesian product](https://en.wikipedia.org/wiki/Cartesian_product).
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2019-01-15 18:47:14 +01:00
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```hcl
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setproduct(sets...)
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```
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This function is particularly useful for finding the exhaustive set of all
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combinations of members of multiple sets, such as per-application-per-environment
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resources.
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```
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> setproduct(["development", "staging", "production"], ["app1", "app2"])
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[
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[
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"development",
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"app1",
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],
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[
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"development",
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"app2",
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],
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[
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"staging",
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"app1",
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],
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[
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"staging",
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"app2",
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],
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[
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"production",
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"app1",
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],
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[
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"production",
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"app2",
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],
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]
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```
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2020-03-23 13:55:08 +01:00
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You must pass at least two arguments to this function.
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2019-01-15 18:47:14 +01:00
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Although defined primarily for sets, this function can also work with lists.
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If all of the given arguments are lists then the result is a list, preserving
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the ordering of the given lists. Otherwise the result is a set. In either case,
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the result's element type is a list of values corresponding to each given
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argument in turn.
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## Examples
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There is an example of the common usage of this function above. There are some
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other situations that are less common when hand-writing but may arise in
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reusable module situations.
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If any of the arguments is empty then the result is always empty itself,
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similar to how multiplying any number by zero gives zero:
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```
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> setproduct(["development", "staging", "production"], [])
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[]
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```
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Similarly, if all of the arguments have only one element then the result has
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only one element, which is the first element of each argument:
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```
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> setproduct(["a"], ["b"])
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[
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[
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"a",
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"b",
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],
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]
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```
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Each argument must have a consistent type for all of its elements. If not,
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Terraform will attempt to convert to the most general type, or produce an
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error if such a conversion is impossible. For example, mixing both strings and
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numbers results in the numbers being converted to strings so that the result
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elements all have a consistent type:
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```
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> setproduct(["staging", "production"], ["a", 2])
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[
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[
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"staging",
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"a",
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],
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[
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"staging",
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"2",
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],
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[
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"production",
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"a",
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],
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[
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"production",
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"2",
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],
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]
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```
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2019-01-15 20:51:21 +01:00
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2019-10-11 21:02:24 +02:00
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## Finding combinations for `for_each`
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The
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2020-11-13 03:30:52 +01:00
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[resource `for_each`](/docs/configuration/meta-arguments/for_each.html)
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and
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2020-11-13 03:30:52 +01:00
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[`dynamic` block](/docs/configuration/expressions/dynamic-blocks.html)
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2019-10-11 21:02:24 +02:00
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language features both require a collection value that has one element for
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each repetition.
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Sometimes your input data comes in separate values that cannot be directly
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used in a `for_each` argument, and `setproduct` can be a useful helper function
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for the situation where you want to find all unique combinations of elements in
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a number of different collections.
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For example, consider a module that declares variables like the following:
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```hcl
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variable "networks" {
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type = map(object({
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base_cidr_block = string
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}))
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}
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variable "subnets" {
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type = map(object({
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number = number
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}))
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}
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```
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If the goal is to create each of the defined subnets per each of the defined
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networks, creating the top-level networks can directly use `var.networks`
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because it's already in a form where the resulting instances match one-to-one
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with map elements:
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```hcl
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resource "aws_vpc" "example" {
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for_each = var.networks
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cidr_block = each.value.base_cidr_block
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}
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```
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However, in order to declare all of the _subnets_ with a single `resource`
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block, we must first produce a collection whose elements represent all of
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the combinations of networks and subnets, so that each element itself
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represents a subnet:
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```hcl
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locals {
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# setproduct works with sets and lists, but our variables are both maps
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# so we'll need to convert them first.
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networks = [
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for key, network in var.networks : {
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key = key
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cidr_block = network.cidr_block
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}
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]
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subnets = [
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for key, subnet in var.subnets : {
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key = key
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number = subnet.number
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}
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]
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network_subnets = [
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# in pair, element zero is a network and element one is a subnet,
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# in all unique combinations.
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for pair in setproduct(local.networks, local.subnets) : {
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network_key = pair[0].key
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subnet_key = pair[1].key
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network_id = aws_vpc.example[pair[0].key].id
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# The cidr_block is derived from the corresponding network. See the
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# cidrsubnet function for more information on how this calculation works.
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cidr_block = cidrsubnet(pair[0].cidr_block, 4, pair[1].number)
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}
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]
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}
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resource "aws_subnet" "example" {
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# local.network_subnets is a list, so we must now project it into a map
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# where each key is unique. We'll combine the network and subnet keys to
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# produce a single unique key per instance.
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for_each = {
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for subnet in local.network_subnets : "${subnet.network_key}.${subnet.subnet_key}" => subnet
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}
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vpc_id = each.value.network_id
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availability_zone = each.value.subnet_key
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2020-12-08 15:05:37 +01:00
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cidr_block = each.value.cidr_block
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}
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```
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The above results in one subnet instance per combination of network and subnet
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elements in the input variables.
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2019-01-15 20:51:21 +01:00
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## Related Functions
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2019-05-02 16:47:19 +02:00
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* [`contains`](./contains.html) tests whether a given list or set contains
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a given element value.
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2020-07-23 15:09:22 +02:00
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* [`flatten`](./flatten.html) is useful for flattening hierarchical data
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into a single list, for situations where the relationships between two
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object types are defined explicitly.
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* [`setintersection`](./setintersection.html) computes the _intersection_ of
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multiple sets.
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2020-02-06 18:49:11 +01:00
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* [`setsubtract`](./setsubtract.html) computes the _relative complement_ of two sets
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2019-01-15 20:51:21 +01:00
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* [`setunion`](./setunion.html) computes the _union_ of multiple
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sets.
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