elm-pages-v3-beta/docs.json
2021-07-30 15:49:39 -07:00

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[{"name":"ApiRoute","comment":" ApiRoute's are defined in `src/Api.elm` and are a way to generate files, like RSS feeds, sitemaps, or any text-based file that you output with an Elm function! You get access\nto a DataSource so you can pull in HTTP data, etc. Because ApiRoutes don't hydrate into Elm apps (like pages in elm-pages do), you can pull in as much data as you want in\nthe DataSource for your ApiRoutes, and it won't effect the payload size. Instead, the size of an ApiRoute is just the content you output for that route.\n\nIn a future release, ApiRoutes may be able to run at request-time in a serverless function, allowing you to use pure Elm code to create dynamic APIs, and even pulling in data from\nDataSources dynamically.\n\n@docs ApiRoute, ApiRouteBuilder, Response, buildTimeRoutes, capture, int, literal, single, slash, succeed, getBuildTimeRoutes\n\n","unions":[],"aliases":[{"name":"ApiRoute","comment":" ","args":["response"],"type":"Internal.ApiRoute.ApiRoute response"},{"name":"ApiRouteBuilder","comment":" ","args":["a","constructor"],"type":"Internal.ApiRoute.ApiRouteBuilder a constructor"},{"name":"Response","comment":" ","args":[],"type":"{ body : String.String }"}],"values":[{"name":"buildTimeRoutes","comment":" ","type":"(constructor -> DataSource.DataSource (List.List (List.List String.String))) -> ApiRoute.ApiRouteBuilder (DataSource.DataSource ApiRoute.Response) constructor -> ApiRoute.ApiRoute ApiRoute.Response"},{"name":"capture","comment":" ","type":"ApiRoute.ApiRouteBuilder (String.String -> a) constructor -> ApiRoute.ApiRouteBuilder a (String.String -> constructor)"},{"name":"getBuildTimeRoutes","comment":" For internal use by generated code. Not so useful in user-land.\n","type":"ApiRoute.ApiRoute response -> DataSource.DataSource (List.List String.String)"},{"name":"int","comment":" ","type":"ApiRoute.ApiRouteBuilder (Basics.Int -> a) constructor -> ApiRoute.ApiRouteBuilder a (Basics.Int -> constructor)"},{"name":"literal","comment":" ","type":"String.String -> ApiRoute.ApiRouteBuilder a constructor -> ApiRoute.ApiRouteBuilder a constructor"},{"name":"single","comment":" ","type":"ApiRoute.ApiRouteBuilder (DataSource.DataSource ApiRoute.Response) (List.List String.String) -> ApiRoute.ApiRoute ApiRoute.Response"},{"name":"slash","comment":" ","type":"ApiRoute.ApiRouteBuilder a constructor -> ApiRoute.ApiRouteBuilder a constructor"},{"name":"succeed","comment":" ","type":"a -> ApiRoute.ApiRouteBuilder a (List.List String.String)"}],"binops":[]},{"name":"DataSource","comment":" In an `elm-pages` app, each page can define a value `data` which is a `DataSource` that will be resolved **before** `init` is called. That means it is also available\nwhen the page's HTML is pre-rendered during the build step. You can also access the resolved data in `head` to use it for the page's SEO meta tags.\n\nA `DataSource` lets you pull in data from:\n\n - Local files ([`DataSource.File`](DataSource-File))\n - HTTP requests ([`DataSource.Http`](DataSource-Http))\n - Globs, i.e. listing out local files based on a pattern like `content/*.txt` ([`DataSource.Glob`](DataSource-Glob))\n - Ports, i.e. getting JSON data from running custom NodeJS, similar to a port in a vanilla Elm app except run at build-time in NodeJS, rather than at run-time in the browser ([`DataSource.Port`](DataSource-Port))\n - Hardcoded data (`DataSource.succeed \"Hello!\"`)\n - Or any combination of the above, using `DataSource.map2`, `DataSource.andThen`, or other combining/continuing helpers from this module\n\n\n## Where Does DataSource Data Come From?\n\nData from a `DataSource` is resolved when you load a page in the `elm-pages` dev server, or when you run `elm-pages build`.\n\nBecause `elm-pages` hydrates into a full Elm single-page app, it does need the data in order to initialize the Elm app.\nSo why not just get the data the old-fashioned way, with `elm/http`, for example?\n\nA few reasons:\n\n1. DataSource's allow you to pull in data that you wouldn't normally be able to access from an Elm app, like local files, or listings of files in a folder. Not only that, but the dev server knows to automatically hot reload the data when the files it depends on change, so you can edit the files you used in your DataSource and see the page hot reload as you save!\n2. Because `elm-pages` has a build step, you know that your `DataSource.Http` requests succeeded, your decoders succeeded, your custom DataSource validations succeeded, and everything went smoothly. If something went wrong, you get a build failure and can deal with the issues before the site goes live. That means your users won't see those errors, and as a developer you don't need to handle those error cases in your code! Think of it as \"parse, don't validate\", but for your entire build.\n3. You don't have to worry about an API being down, or hitting it repeatedly. You can build in data and it will end up as JSON files served up with all the other assets of your site. If your CDN (static site host) is down, then the rest of your site is probably down anyway. If your site host is up, then so is all of your `DataSource` data. Also, it will be served up extremely quickly without needing to wait for any database queries to be performed, `andThen` requests to be resolved, etc., because all of that work and waiting was done at build-time!\n4. You can pre-render pages, including the SEO meta tags, with all that rich, well-typed Elm data available! That's something you can't accomplish with a vanilla Elm app, and it's one of the main use cases for elm-pages.\n\n\n## Mental Model\n\nYou can think of a DataSource as a declarative (not imperative) definition of data. It represents where to get the data from, and how to transform it (map, combine with other DataSources, etc.).\n\nEven though an HTTP request is non-deterministic, you should think of it that way as much as possible with a DataSource because elm-pages will only perform a given DataSource.Http request once, and\nit will share the result between any other DataSource.Http requests that have the exact same URL, Method, Body, and Headers.\n\nSo calling a function to increment a counter on a server through an HTTP request would not be a good fit for a `DataSource`. Let's imagine we have an HTTP endpoint that gives these stateful results when called repeatedly:\n\n<https://my-api.example.com/increment-counter>\n-> Returns 1\n<https://my-api.example.com/increment-counter>\n-> Returns 2\n<https://my-api.example.com/increment-counter>\n-> Returns 3\n\nIf we define a `DataSource` that hits that endpoint:\n\n data =\n DataSource.Http.get\n (Secrets.succeed \"https://my-api.example.com/increment-counter\")\n Decode.int\n\nNo matter how many places we use that `DataSource`, its response will be \"locked in\" (let's say the response was `3`, then every page would have the same value of `3` for that request).\n\nSo even though HTTP requests, JavaScript code, etc. can be non-deterministic, a `DataSource` always represents a single snapshot of a resource, and those values will be re-used as if they were a deterministic, declarative resource.\nSo it's best to use that mental model to avoid confusion.\n\n\n## Basics\n\n@docs DataSource\n\n@docs map, succeed, fail\n\n@docs fromResult\n\n\n## Chaining Requests\n\n@docs andThen, resolve, combine\n\n@docs andMap\n\n@docs map2, map3, map4, map5, map6, map7, map8, map9\n\n\n## Optimizing Page Data\n\nDistilling data lets you reduce the amount of data loaded on the client. You can also use it to perform computations at\nbuild-time or server-request-time, store the result of the computation and then simply load that result on the client\nwithout needing redo the computation again on the client.\n\n@docs distill, validate, distillCodec, distillSerializeCodec\n\n\n### Ensuring Unique Distill Keys\n\nIf you use the same string key for two different distilled values that have differing encoded JSON, then you\nwill get a build error (and an error in the dev server for that page). That means you can safely distill values\nand let the build command tell you about these issues if they arise.\n\n","unions":[],"aliases":[{"name":"DataSource","comment":" A DataSource represents data that will be gathered at build time. Multiple `DataSource`s can be combined together using the `mapN` functions,\nvery similar to how you can manipulate values with Json Decoders in Elm.\n","args":["value"],"type":"Pages.StaticHttpRequest.RawRequest value"}],"values":[{"name":"andMap","comment":" A helper for combining `DataSource`s in pipelines.\n","type":"DataSource.DataSource a -> DataSource.DataSource (a -> b) -> DataSource.DataSource b"},{"name":"andThen","comment":" Build off of the response from a previous `StaticHttp` request to build a follow-up request. You can use the data\nfrom the previous response to build up the URL, headers, etc. that you send to the subsequent request.\n\n import DataSource\n import Json.Decode as Decode exposing (Decoder)\n\n licenseData : StaticHttp.Request String\n licenseData =\n StaticHttp.get\n (Secrets.succeed \"https://api.github.com/repos/dillonkearns/elm-pages\")\n (Decode.at [ \"license\", \"url\" ] Decode.string)\n |> StaticHttp.andThen\n (\\licenseUrl ->\n StaticHttp.get (Secrets.succeed licenseUrl) (Decode.field \"description\" Decode.string)\n )\n\n","type":"(a -> DataSource.DataSource b) -> DataSource.DataSource a -> DataSource.DataSource b"},{"name":"combine","comment":" Turn a list of `StaticHttp.Request`s into a single one.\n\n import DataSource\n import Json.Decode as Decode exposing (Decoder)\n\n type alias Pokemon =\n { name : String\n , sprite : String\n }\n\n pokemonDetailRequest : StaticHttp.Request (List Pokemon)\n pokemonDetailRequest =\n StaticHttp.get\n (Secrets.succeed \"https://pokeapi.co/api/v2/pokemon/?limit=3\")\n (Decode.field \"results\"\n (Decode.list\n (Decode.map2 Tuple.pair\n (Decode.field \"name\" Decode.string)\n (Decode.field \"url\" Decode.string)\n |> Decode.map\n (\\( name, url ) ->\n StaticHttp.get (Secrets.succeed url)\n (Decode.at\n [ \"sprites\", \"front_default\" ]\n Decode.string\n |> Decode.map (Pokemon name)\n )\n )\n )\n )\n )\n |> StaticHttp.andThen StaticHttp.combine\n\n","type":"List.List (DataSource.DataSource value) -> DataSource.DataSource (List.List value)"},{"name":"distill","comment":" This is the low-level `distill` function. In most cases, you'll want to use `distill` with a `Codec` from either\n[`miniBill/elm-codec`](https://package.elm-lang.org/packages/miniBill/elm-codec/latest/) or\n[`MartinSStewart/elm-serialize`](https://package.elm-lang.org/packages/MartinSStewart/elm-serialize/latest/)\n","type":"String.String -> (raw -> Json.Encode.Value) -> (Json.Decode.Value -> Result.Result String.String distilled) -> DataSource.DataSource raw -> DataSource.DataSource distilled"},{"name":"distillCodec","comment":" [`distill`](#distill) with a `Codec` from [`miniBill/elm-codec`](https://package.elm-lang.org/packages/miniBill/elm-codec/latest/).\n\n import Codec\n import DataSource\n import DataSource.Http\n import Secrets\n\n millionRandomSum : DataSource Int\n millionRandomSum =\n DataSource.Http.get\n (Secrets.succeed \"https://example.com/api/one-million-random-numbers.json\")\n (Decode.list Decode.int)\n |> DataSource.map List.sum\n -- all of this expensive computation and data will happen before it hits the client!\n -- the user's browser simply loads up a single Int and runs an Int decoder to get it\n |> DataSource.distillCodec \"million-random-sum\" Codec.int\n\nIf we didn't distill the data here, then all million Ints would have to be loaded in order to load the page.\nThe reason the data for these `DataSource`s needs to be loaded is that `elm-pages` hydrates into an Elm app. If it\noutput only HTML then we could build the HTML and throw away the data. But we need to ensure that the hydrated Elm app\nhas all the data that a page depends on, even if it the HTML for the page is also pre-rendered.\n\nUsing a `Codec` makes it safer to distill data because you know it is reversible.\n\n","type":"String.String -> Codec.Codec value -> DataSource.DataSource value -> DataSource.DataSource value"},{"name":"distillSerializeCodec","comment":" [`distill`](#distill) with a `Serialize.Codec` from [`MartinSStewart/elm-serialize`](https://package.elm-lang.org/packages/MartinSStewart/elm-serialize/latest).\n\n import DataSource\n import DataSource.Http\n import Secrets\n import Serialize\n\n millionRandomSum : DataSource Int\n millionRandomSum =\n DataSource.Http.get\n (Secrets.succeed \"https://example.com/api/one-million-random-numbers.json\")\n (Decode.list Decode.int)\n |> DataSource.map List.sum\n -- all of this expensive computation and data will happen before it hits the client!\n -- the user's browser simply loads up a single Int and runs an Int decoder to get it\n |> DataSource.distillSerializeCodec \"million-random-sum\" Serialize.int\n\nIf we didn't distill the data here, then all million Ints would have to be loaded in order to load the page.\nThe reason the data for these `DataSource`s needs to be loaded is that `elm-pages` hydrates into an Elm app. If it\noutput only HTML then we could build the HTML and throw away the data. But we need to ensure that the hydrated Elm app\nhas all the data that a page depends on, even if it the HTML for the page is also pre-rendered.\n\nUsing a `Codec` makes it safer to distill data because you know it is reversible.\n\n","type":"String.String -> Serialize.Codec error value -> DataSource.DataSource value -> DataSource.DataSource value"},{"name":"fail","comment":" Stop the StaticHttp chain with the given error message. If you reach a `fail` in your request,\nyou will get a build error. Or in the dev server, you will see the error message in an overlay in your browser (and in\nthe terminal).\n","type":"String.String -> DataSource.DataSource a"},{"name":"fromResult","comment":" Turn an Err into a DataSource failure.\n","type":"Result.Result String.String value -> DataSource.DataSource value"},{"name":"map","comment":" Transform a request into an arbitrary value. The same underlying HTTP requests will be performed during the build\nstep, but mapping allows you to change the resulting values by applying functions to the results.\n\nA common use for this is to map your data into your elm-pages view:\n\n import DataSource\n import Json.Decode as Decode exposing (Decoder)\n\n view =\n DataSource.Http.get\n (Secrets.succeed \"https://api.github.com/repos/dillonkearns/elm-pages\")\n (Decode.field \"stargazers_count\" Decode.int)\n |> DataSource.map\n (\\stars ->\n { view =\n \\model viewForPage ->\n { title = \"Current stars: \" ++ String.fromInt stars\n , body = Html.text <| \"⭐️ \" ++ String.fromInt stars\n , head = []\n }\n }\n )\n\n","type":"(a -> b) -> DataSource.DataSource a -> DataSource.DataSource b"},{"name":"map2","comment":" Like map, but it takes in two `Request`s.\n\n view siteMetadata page =\n StaticHttp.map2\n (\\elmPagesStars elmMarkdownStars ->\n { view =\n \\model viewForPage ->\n { title = \"Repo Stargazers\"\n , body = starsView elmPagesStars elmMarkdownStars\n }\n , head = head elmPagesStars elmMarkdownStars\n }\n )\n (get\n (Secrets.succeed \"https://api.github.com/repos/dillonkearns/elm-pages\")\n (Decode.field \"stargazers_count\" Decode.int)\n )\n (get\n (Secrets.succeed \"https://api.github.com/repos/dillonkearns/elm-markdown\")\n (Decode.field \"stargazers_count\" Decode.int)\n )\n\n","type":"(a -> b -> c) -> DataSource.DataSource a -> DataSource.DataSource b -> DataSource.DataSource c"},{"name":"map3","comment":" ","type":"(value1 -> value2 -> value3 -> valueCombined) -> DataSource.DataSource value1 -> DataSource.DataSource value2 -> DataSource.DataSource value3 -> DataSource.DataSource valueCombined"},{"name":"map4","comment":" ","type":"(value1 -> value2 -> value3 -> value4 -> valueCombined) -> DataSource.DataSource value1 -> DataSource.DataSource value2 -> DataSource.DataSource value3 -> DataSource.DataSource value4 -> DataSource.DataSource valueCombined"},{"name":"map5","comment":" ","type":"(value1 -> value2 -> value3 -> value4 -> value5 -> valueCombined) -> DataSource.DataSource value1 -> DataSource.DataSource value2 -> DataSource.DataSource value3 -> DataSource.DataSource value4 -> DataSource.DataSource value5 -> DataSource.DataSource valueCombined"},{"name":"map6","comment":" ","type":"(value1 -> value2 -> value3 -> value4 -> value5 -> value6 -> valueCombined) -> DataSource.DataSource value1 -> DataSource.DataSource value2 -> DataSource.DataSource value3 -> DataSource.DataSource value4 -> DataSource.DataSource value5 -> DataSource.DataSource value6 -> DataSource.DataSource valueCombined"},{"name":"map7","comment":" ","type":"(value1 -> value2 -> value3 -> value4 -> value5 -> value6 -> value7 -> valueCombined) -> DataSource.DataSource value1 -> DataSource.DataSource value2 -> DataSource.DataSource value3 -> DataSource.DataSource value4 -> DataSource.DataSource value5 -> DataSource.DataSource value6 -> DataSource.DataSource value7 -> DataSource.DataSource valueCombined"},{"name":"map8","comment":" ","type":"(value1 -> value2 -> value3 -> value4 -> value5 -> value6 -> value7 -> value8 -> valueCombined) -> DataSource.DataSource value1 -> DataSource.DataSource value2 -> DataSource.DataSource value3 -> DataSource.DataSource value4 -> DataSource.DataSource value5 -> DataSource.DataSource value6 -> DataSource.DataSource value7 -> DataSource.DataSource value8 -> DataSource.DataSource valueCombined"},{"name":"map9","comment":" ","type":"(value1 -> value2 -> value3 -> value4 -> value5 -> value6 -> value7 -> value8 -> value9 -> valueCombined) -> DataSource.DataSource value1 -> DataSource.DataSource value2 -> DataSource.DataSource value3 -> DataSource.DataSource value4 -> DataSource.DataSource value5 -> DataSource.DataSource value6 -> DataSource.DataSource value7 -> DataSource.DataSource value8 -> DataSource.DataSource value9 -> DataSource.DataSource valueCombined"},{"name":"resolve","comment":" Helper to remove an inner layer of Request wrapping.\n","type":"DataSource.DataSource (List.List (DataSource.DataSource value)) -> DataSource.DataSource (List.List value)"},{"name":"succeed","comment":" This is useful for prototyping with some hardcoded data, or for having a view that doesn't have any StaticHttp data.\n\n import DataSource\n\n view :\n List ( PagePath, Metadata )\n ->\n { path : PagePath\n , frontmatter : Metadata\n }\n ->\n StaticHttp.Request\n { view : Model -> View -> { title : String, body : Html Msg }\n , head : List (Head.Tag Pages.PathKey)\n }\n view siteMetadata page =\n StaticHttp.succeed\n { view =\n \\model viewForPage ->\n mainView model viewForPage\n , head = head page.frontmatter\n }\n\n","type":"a -> DataSource.DataSource a"},{"name":"validate","comment":" ","type":"(unvalidated -> validated) -> (unvalidated -> DataSource.DataSource (Result.Result String.String ())) -> DataSource.DataSource unvalidated -> DataSource.DataSource validated"}],"binops":[]},{"name":"DataSource.File","comment":" This module lets you read files from the local filesystem as a [`DataSource`](DataSource#DataSource).\nFile paths are relative to the root of your `elm-pages` project (next to the `elm.json` file and `src/` directory).\n\n\n## Files With Frontmatter\n\nFrontmatter is a convention used to keep metadata at the top of a file between `---`'s.\n\nFor example, you might have a file called `blog/hello-world.md` with this content:\n\n```markdown\n---\ntitle: Hello, World!\ntags: elm\n---\nHey there! This is my first post :)\n```\n\nThe frontmatter is in the [YAML format](https://en.wikipedia.org/wiki/YAML) here. You can also use JSON in your elm-pages frontmatter.\n\n```markdown\n---\n{\"title\": \"Hello, World!\", \"tags\": \"elm\"}\n---\nHey there! This is my first post :)\n```\n\nWhether it's YAML or JSON, you use an `OptimizedDecoder` to decode your frontmatter, so it feels just like using\nplain old JSON in Elm.\n\n@docs bodyWithFrontmatter, bodyWithoutFrontmatter, onlyFrontmatter\n\n\n## Reading Files Without Frontmatter\n\n@docs jsonFile, rawFile\n\n","unions":[],"aliases":[],"values":[{"name":"bodyWithFrontmatter","comment":"\n\n import DataSource exposing (DataSource)\n import DataSource.File as File\n import OptimizedDecoder as Decode exposing (Decoder)\n\n blogPost : DataSource BlogPostMetadata\n blogPost =\n File.bodyWithFrontmatter blogPostDecoder\n \"blog/hello-world.md\"\n\n type alias BlogPostMetadata =\n { body : String\n , title : String\n , tags : List String\n }\n\n blogPostDecoder : String -> Decoder BlogPostMetadata\n blogPostDecoder body =\n Decode.map2 (BlogPostMetadata body)\n (Decode.field \"title\" Decode.string)\n (Decode.field \"tags\" tagsDecoder)\n\n tagsDecoder : Decoder (List String)\n tagsDecoder =\n Decode.map (String.split \" \")\n Decode.string\n\nThis will give us a DataSource that results in the following value:\n\n value =\n { body = \"Hey there! This is my first post :)\"\n , title = \"Hello, World!\"\n , tags = [ \"elm\" ]\n }\n\nIt's common to parse the body with a markdown parser or other format.\n\n import DataSource exposing (DataSource)\n import DataSource.File as File\n import Html exposing (Html)\n import OptimizedDecoder as Decode exposing (Decoder)\n\n example :\n DataSource\n { title : String\n , body : List (Html msg)\n }\n example =\n File.bodyWithFrontmatter\n (\\markdownString ->\n Decode.map2\n (\\title renderedMarkdown ->\n { title = title\n , body = renderedMarkdown\n }\n )\n (Decode.field \"title\" Decode.string)\n (markdownString\n |> markdownToView\n |> Decode.fromResult\n )\n )\n \"foo.md\"\n\n markdownToView :\n String\n -> Result String (List (Html msg))\n markdownToView markdownString =\n markdownString\n |> Markdown.Parser.parse\n |> Result.mapError (\\_ -> \"Markdown error.\")\n |> Result.andThen\n (\\blocks ->\n Markdown.Renderer.render\n Markdown.Renderer.defaultHtmlRenderer\n blocks\n )\n\n","type":"(String.String -> OptimizedDecoder.Decoder frontmatter) -> String.String -> DataSource.DataSource frontmatter"},{"name":"bodyWithoutFrontmatter","comment":" Same as `bodyWithFrontmatter` except it doesn't include the frontmatter.\n\nFor example, if you have a file called `blog/hello-world.md` with\n\n```markdown\n---\ntitle: Hello, World!\ntags: elm\n---\nHey there! This is my first post :)\n```\n\n import DataSource exposing (DataSource)\n\n data : DataSource String\n data =\n bodyWithoutFrontmatter \"blog/hello-world.md\"\n\nThen data will yield the value `\"Hey there! This is my first post :)\"`.\n\n","type":"String.String -> DataSource.DataSource String.String"},{"name":"jsonFile","comment":" Read a file as JSON.\n\nThe OptimizedDecoder will strip off any unused JSON data.\n\n import DataSource exposing (DataSource)\n import DataSource.File as File\n\n sourceDirectories : DataSource (List String)\n sourceDirectories =\n File.jsonFile\n (Decode.field\n \"source-directories\"\n (Decode.list Decode.string)\n )\n \"elm.json\"\n\n","type":"OptimizedDecoder.Decoder a -> String.String -> DataSource.DataSource a"},{"name":"onlyFrontmatter","comment":" Same as `bodyWithFrontmatter` except it doesn't include the body.\n\nThis is often useful when you're aggregating data, for example getting a listing of blog posts and need to extract\njust the metadata.\n\n import DataSource exposing (DataSource)\n import DataSource.File as File\n import OptimizedDecoder as Decode exposing (Decoder)\n\n blogPost : DataSource BlogPostMetadata\n blogPost =\n File.onlyFrontmatter \"blog/hello-world.md\"\n blogPostDecoder\n\n type alias BlogPostMetadata =\n { title : String\n , tags : List String\n }\n\n blogPostDecoder : Decoder BlogPostMetadata\n blogPostDecoder =\n Decode.map2 BlogPostMetadata\n (Decode.field \"title\" Decode.string)\n (Decode.field \"tags\" (Decode.list Decode.string))\n\nIf you wanted to use this to get this metadata for all blog posts in a folder, you could use\nthe [`DataSource`](DataSource) API along with [`DataSource.Glob`](DataSource.Glob).\n\n import DataSource exposing (DataSource)\n import DataSource.File as File\n import OptimizedDecoder as Decode exposing (Decoder)\n\n blogPostFiles : DataSource (List String)\n blogPostFiles =\n Glob.succeed identity\n |> Glob.captureFilePath\n |> Glob.match (Glob.literal \"content/blog/\")\n |> Glob.match Glob.wildcard\n |> Glob.match (Glob.literal \".md\")\n |> Glob.toDataSource\n\n allMetadata : DataSource (List BlogPostMetadata)\n allMetadata =\n blogPostFiles\n |> DataSource.map\n (List.map\n (File.onlyFrontmatter\n blogPostDecoder\n )\n )\n |> DataSource.resolve\n\n","type":"OptimizedDecoder.Decoder frontmatter -> String.String -> DataSource.DataSource frontmatter"},{"name":"rawFile","comment":" Get the raw file content. Unlike the frontmatter helpers in this module, this function will not strip off frontmatter if there is any.\n\nThis is the function you want if you are reading in a file directly. For example, if you read in a CSV file, a raw text file, or any other file that doesn't\nhave frontmatter.\n\nThere's a special function for reading in JSON files, [`jsonFile`](#jsonFile). If you're reading a JSON file then be sure to\nuse `jsonFile` to get the benefits of the `OptimizedDecoder` here.\n\nYou could read a file called `hello.txt` in your root project directory like this:\n\n import DataSource exposing (DataSource)\n import DataSource.File as File\n\n elmJsonFile : DataSource String\n elmJsonFile =\n File.rawFile \"hello.txt\"\n\n","type":"String.String -> DataSource.DataSource String.String"}],"binops":[]},{"name":"DataSource.Glob","comment":"\n\n@docs Glob\n\nThis module helps you get a List of matching file paths from your local file system as a [`DataSource`](DataSource#DataSource). See the [`DataSource`](DataSource) module documentation\nfor ways you can combine and map `DataSource`s.\n\nA common example would be to find all the markdown files of your blog posts. If you have all your blog posts in `content/blog/*.md`\n, then you could use that glob pattern in most shells to refer to each of those files.\n\nWith the `DataSource.Glob` API, you could get all of those files like so:\n\n import DataSource exposing (DataSource)\n\n blogPostsGlob : DataSource (List String)\n blogPostsGlob =\n Glob.succeed (\\slug -> slug)\n |> Glob.match (Glob.literal \"content/blog/\")\n |> Glob.capture Glob.wildcard\n |> Glob.match (Glob.literal \".md\")\n |> Glob.toDataSource\n\nLet's say you have these files locally:\n\n```shell\n- elm.json\n- src/\n- content/\n - blog/\n - first-post.md\n - second-post.md\n```\n\nWe would end up with a `DataSource` like this:\n\n DataSource.succeed [ \"first-post\", \"second-post\" ]\n\nOf course, if you add or remove matching files, the DataSource will get those new files (unlike `DataSource.succeed`). That's why we have Glob!\n\nYou can even see the `elm-pages dev` server will automatically flow through any added/removed matching files with its hot module reloading.\n\nBut why did we get `\"first-post\"` instead of a full file path, like `\"content/blog/first-post.md\"`? That's the difference between\n`capture` and `match`.\n\n\n## Capture and Match\n\nThere are two functions for building up a Glob pattern: `capture` and `match`.\n\n`capture` and `match` both build up a `Glob` pattern that will match 0 or more files on your local file system.\nThere will be one argument for every `capture` in your pipeline, whereas `match` does not apply any arguments.\n\n import DataSource exposing (DataSource)\n import DataSource.Glob as Glob\n\n blogPostsGlob : DataSource (List String)\n blogPostsGlob =\n Glob.succeed (\\slug -> slug)\n -- no argument from this, but we will only\n -- match files that begin with `content/blog/`\n |> Glob.match (Glob.literal \"content/blog/\")\n -- we get the value of the `wildcard`\n -- as the slug argument\n |> Glob.capture Glob.wildcard\n -- no argument from this, but we will only\n -- match files that end with `.md`\n |> Glob.match (Glob.literal \".md\")\n |> Glob.toDataSource\n\nSo to understand _which_ files will match, you can ignore whether you are using `capture` or `match` and just read\nthe patterns you're using in order to understand what will match. To understand what Elm data type you will get\n_for each matching file_, you need to see which parts are being captured and how each of those captured values are being\nused in the function you use in `Glob.succeed`.\n\n@docs capture, match\n\n`capture` is a lot like building up a JSON decoder with a pipeline.\n\nLet's try our blogPostsGlob from before, but change every `match` to `capture`.\n\n import DataSource exposing (DataSource)\n\n blogPostsGlob :\n DataSource\n (List\n { filePath : String\n , slug : String\n }\n )\n blogPostsGlob =\n Glob.succeed\n (\\capture1 capture2 capture3 ->\n { filePath = capture1 ++ capture2 ++ capture3\n , slug = capture2\n }\n )\n |> Glob.capture (Glob.literal \"content/blog/\")\n |> Glob.capture Glob.wildcard\n |> Glob.capture (Glob.literal \".md\")\n |> Glob.toDataSource\n\nNotice that we now need 3 arguments at the start of our pipeline instead of 1. That's because\nwe apply 1 more argument every time we do a `Glob.capture`, much like `Json.Decode.Pipeline.required`, or other pipeline APIs.\n\nNow we actually have the full file path of our files. But having that slug (like `first-post`) is also very helpful sometimes, so\nwe kept that in our record as well. So we'll now have the equivalent of this `DataSource` with the current `.md` files in our `blog` folder:\n\n DataSource.succeed\n [ { filePath = \"content/blog/first-post.md\"\n , slug = \"first-post\"\n }\n , { filePath = \"content/blog/second-post.md\"\n , slug = \"second-post\"\n }\n ]\n\nHaving the full file path lets us read in files. But concatenating it manually is tedious\nand error prone. That's what the [`captureFilePath`](#captureFilePath) helper is for.\n\n\n## Reading matching files\n\n@docs captureFilePath\n\nIn many cases you will want to take the matching files from a `Glob` and then read the body or frontmatter from matching files.\n\n\n## Reading Metadata for each Glob Match\n\nFor example, if we had files like this:\n\n```markdown\n---\ntitle: My First Post\n---\nThis is my first post!\n```\n\nThen we could read that title for our blog post list page using our `blogPosts` `DataSource` that we defined above.\n\n import DataSource.File\n import OptimizedDecoder as Decode exposing (Decoder)\n\n titles : DataSource (List BlogPost)\n titles =\n blogPosts\n |> DataSource.map\n (List.map\n (\\blogPost ->\n DataSource.File.request\n blogPost.filePath\n (DataSource.File.frontmatter blogFrontmatterDecoder)\n )\n )\n |> DataSource.resolve\n\n type alias BlogPost =\n { title : String }\n\n blogFrontmatterDecoder : Decoder BlogPost\n blogFrontmatterDecoder =\n Decode.map BlogPost\n (Decode.field \"title\" Decode.string)\n\nThat will give us\n\n DataSource.succeed\n [ { title = \"My First Post\" }\n , { title = \"My Second Post\" }\n ]\n\n\n## Capturing Patterns\n\n@docs wildcard, recursiveWildcard\n\n\n## Capturing Specific Characters\n\n@docs int, digits\n\n\n## Matching a Specific Number of Files\n\n@docs expectUniqueMatch\n\n\n## Glob Patterns\n\n@docs literal\n\n@docs map, succeed, toDataSource\n\n@docs oneOf\n\n@docs zeroOrMore, atLeastOne\n\n","unions":[],"aliases":[{"name":"Glob","comment":" A pattern to match local files and capture parts of the path into a nice Elm data type.\n","args":["a"],"type":"DataSource.Internal.Glob.Glob a"}],"values":[{"name":"atLeastOne","comment":" ","type":"( ( String.String, a ), List.List ( String.String, a ) ) -> DataSource.Glob.Glob ( a, List.List a )"},{"name":"capture","comment":" Adds on to the glob pattern, and captures it in the resulting Elm match value. That means this both changes which\nfiles will match, and gives you the sub-match as Elm data for each matching file.\n\nExactly the same as `match` except it also captures the matched sub-pattern.\n\n type alias ArchivesArticle =\n { year : String\n , month : String\n , day : String\n , slug : String\n }\n\n archives : DataSource ArchivesArticle\n archives =\n Glob.succeed ArchivesArticle\n |> Glob.match (Glob.literal \"archive/\")\n |> Glob.capture Glob.int\n |> Glob.match (Glob.literal \"/\")\n |> Glob.capture Glob.int\n |> Glob.match (Glob.literal \"/\")\n |> Glob.capture Glob.int\n |> Glob.match (Glob.literal \"/\")\n |> Glob.capture Glob.wildcard\n |> Glob.match (Glob.literal \".md\")\n |> Glob.toDataSource\n\nThe file `archive/1977/06/10/apple-2-released.md` will give us this match:\n\n matches : List ArchivesArticle\n matches =\n DataSource.succeed\n [ { year = 1977\n , month = 6\n , day = 10\n , slug = \"apple-2-released\"\n }\n ]\n\nWhen possible, it's best to grab data and turn it into structured Elm data when you have it. That way,\nyou don't end up with duplicate validation logic and data normalization, and your code will be more robust.\n\nIf you only care about getting the full matched file paths, you can use `match`. `capture` is very useful because\nyou can pick apart structured data as you build up your glob pattern. This follows the principle of\n[Parse, Don't Validate](https://elm-radio.com/episode/parse-dont-validate/).\n\n","type":"DataSource.Glob.Glob a -> DataSource.Glob.Glob (a -> value) -> DataSource.Glob.Glob value"},{"name":"captureFilePath","comment":"\n\n import DataSource exposing (DataSource)\n import DataSource.Glob as Glob\n\n blogPosts :\n DataSource\n (List\n { filePath : String\n , slug : String\n }\n )\n blogPosts =\n Glob.succeed\n (\\filePath slug ->\n { filePath = filePath\n , slug = slug\n }\n )\n |> Glob.captureFilePath\n |> Glob.match (Glob.literal \"content/blog/\")\n |> Glob.capture Glob.wildcard\n |> Glob.match (Glob.literal \".md\")\n |> Glob.toDataSource\n\nThis function does not change which files will or will not match. It just gives you the full matching\nfile path in your `Glob` pipeline.\n\nWhenever possible, it's a good idea to use function to make sure you have an accurate file path when you need to read a file.\n\n","type":"DataSource.Glob.Glob (String.String -> value) -> DataSource.Glob.Glob value"},{"name":"digits","comment":" This is similar to [`wildcard`](#wildcard), but it will only match 1 or more digits (i.e. `[0-9]+`).\n\nSee [`int`](#int) for a convenience function to get an Int value instead of a String of digits.\n\n","type":"DataSource.Glob.Glob String.String"},{"name":"expectUniqueMatch","comment":" Sometimes you want to make sure there is a unique file matching a particular pattern.\nThis is a simple helper that will give you a `DataSource` error if there isn't exactly 1 matching file.\nIf there is exactly 1, then you successfully get back that single match.\n\nFor example, maybe you can have\n\n import DataSource exposing (DataSource)\n import DataSource.Glob as Glob\n\n findBlogBySlug : String -> DataSource String\n findBlogBySlug slug =\n Glob.succeed identity\n |> Glob.captureFilePath\n |> Glob.match (Glob.literal \"blog/\")\n |> Glob.capture (Glob.literal slug)\n |> Glob.match\n (Glob.oneOf\n ( ( \"\", () )\n , [ ( \"/index\", () ) ]\n )\n )\n |> Glob.match (Glob.literal \".md\")\n |> Glob.expectUniqueMatch\n\nIf we used `findBlogBySlug \"first-post\"` with these files:\n\n```markdown\n- blog/\n - first-post/\n - index.md\n```\n\nThis would give us:\n\n results : DataSource String\n results =\n DataSource.succeed \"blog/first-post/index.md\"\n\nIf we used `findBlogBySlug \"first-post\"` with these files:\n\n```markdown\n- blog/\n - first-post.md\n - first-post/\n - index.md\n```\n\nThen we will get a `DataSource` error saying `More than one file matched.` Keep in mind that `DataSource` failures\nin build-time routes will cause a build failure, giving you the opportunity to fix the problem before users see the issue,\nso it's ideal to make this kind of assertion rather than having fallback behavior that could silently cover up\nissues (like if we had instead ignored the case where there are two or more matching blog post files).\n\n","type":"DataSource.Glob.Glob a -> DataSource.DataSource a"},{"name":"int","comment":" Same as [`digits`](#digits), but it safely turns the digits String into an `Int`.\n\nLeading 0's are ignored.\n\n import DataSource exposing (DataSource)\n import DataSource.Glob as Glob\n\n slides : DataSource (List Int)\n slides =\n Glob.succeed identity\n |> Glob.match (Glob.literal \"slide-\")\n |> Glob.capture Glob.int\n |> Glob.match (Glob.literal \".md\")\n |> Glob.toDataSource\n\nWith files\n\n```shell\n- slide-no-match.md\n- slide-.md\n- slide-1.md\n- slide-01.md\n- slide-2.md\n- slide-03.md\n- slide-4.md\n- slide-05.md\n- slide-06.md\n- slide-007.md\n- slide-08.md\n- slide-09.md\n- slide-10.md\n- slide-11.md\n```\n\nYields\n\n matches : DataSource (List Int)\n matches =\n DataSource.succeed\n [ 1\n , 1\n , 2\n , 3\n , 4\n , 5\n , 6\n , 7\n , 8\n , 9\n , 10\n , 11\n ]\n\nNote that neither `slide-no-match.md` nor `slide-.md` match.\nAnd both `slide-1.md` and `slide-01.md` match and turn into `1`.\n\n","type":"DataSource.Glob.Glob Basics.Int"},{"name":"literal","comment":" Match a literal part of a path. Can include `/`s.\n\nSome common uses include\n\n - The leading part of a pattern, to say \"starts with `content/blog/`\"\n - The ending part of a pattern, to say \"ends with `.md`\"\n - In-between wildcards, to say \"these dynamic parts are separated by `/`\"\n\n```elm\nimport DataSource exposing (DataSource)\nimport DataSource.Glob as Glob\n\nblogPosts =\n Glob.succeed\n (\\section slug ->\n { section = section, slug = slug }\n )\n |> Glob.match (Glob.literal \"content/blog/\")\n |> Glob.capture Glob.wildcard\n |> Glob.match (Glob.literal \"/\")\n |> Glob.capture Glob.wildcard\n |> Glob.match (Glob.literal \".md\")\n```\n\n","type":"String.String -> DataSource.Glob.Glob String.String"},{"name":"map","comment":" A `Glob` can be mapped. This can be useful for transforming a sub-match in-place.\n\nFor example, if you wanted to take the slugs for a blog post and make sure they are normalized to be all lowercase, you\ncould use\n\n import DataSource exposing (DataSource)\n import DataSource.Glob as Glob\n\n blogPostsGlob : DataSource (List String)\n blogPostsGlob =\n Glob.succeed (\\slug -> slug)\n |> Glob.match (Glob.literal \"content/blog/\")\n |> Glob.capture (Glob.wildcard |> Glob.map String.toLower)\n |> Glob.match (Glob.literal \".md\")\n |> Glob.toDataSource\n\nIf you want to validate file formats, you can combine that with some `DataSource` helpers to turn a `Glob (Result String value)` into\na `DataSource (List value)`.\n\nFor example, you could take a date and parse it.\n\n import DataSource exposing (DataSource)\n import DataSource.Glob as Glob\n\n example : DataSource (List ( String, String ))\n example =\n Glob.succeed\n (\\dateResult slug ->\n dateResult\n |> Result.map (\\okDate -> ( okDate, slug ))\n )\n |> Glob.match (Glob.literal \"blog/\")\n |> Glob.capture (Glob.recursiveWildcard |> Glob.map expectDateFormat)\n |> Glob.match (Glob.literal \"/\")\n |> Glob.capture Glob.wildcard\n |> Glob.match (Glob.literal \".md\")\n |> Glob.toDataSource\n |> DataSource.map (List.map DataSource.fromResult)\n |> DataSource.resolve\n\n expectDateFormat : List String -> Result String String\n expectDateFormat dateParts =\n case dateParts of\n [ year, month, date ] ->\n Ok (String.join \"-\" [ year, month, date ])\n\n _ ->\n Err \"Unexpected date format, expected yyyy/mm/dd folder structure.\"\n\n","type":"(a -> b) -> DataSource.Glob.Glob a -> DataSource.Glob.Glob b"},{"name":"match","comment":" Adds on to the glob pattern, but does not capture it in the resulting Elm match value. That means this changes which\nfiles will match, but does not change the Elm data type you get for each matching file.\n\nExactly the same as `capture` except it doesn't capture the matched sub-pattern.\n\n","type":"DataSource.Glob.Glob a -> DataSource.Glob.Glob value -> DataSource.Glob.Glob value"},{"name":"oneOf","comment":"\n\n import DataSource.Glob as Glob\n\n type Extension\n = Json\n | Yml\n\n type alias DataFile =\n { name : String\n , extension : String\n }\n\n dataFiles : DataSource (List DataFile)\n dataFiles =\n Glob.succeed DataFile\n |> Glob.match (Glob.literal \"my-data/\")\n |> Glob.capture Glob.wildcard\n |> Glob.match (Glob.literal \".\")\n |> Glob.capture\n (Glob.oneOf\n ( ( \"yml\", Yml )\n , [ ( \"json\", Json )\n ]\n )\n )\n\nIf we have the following files\n\n```shell\n- my-data/\n - authors.yml\n - events.json\n```\n\nThat gives us\n\n results : DataSource (List DataFile)\n results =\n DataSource.succeed\n [ { name = \"authors\"\n , extension = Yml\n }\n , { name = \"events\"\n , extension = Json\n }\n ]\n\nYou could also match an optional file path segment using `oneOf`.\n\n rootFilesMd : DataSource (List String)\n rootFilesMd =\n Glob.succeed (\\slug -> slug)\n |> Glob.match (Glob.literal \"blog/\")\n |> Glob.capture Glob.wildcard\n |> Glob.match\n (Glob.oneOf\n ( ( \"\", () )\n , [ ( \"/index\", () ) ]\n )\n )\n |> Glob.match (Glob.literal \".md\")\n |> Glob.toDataSource\n\nWith these files:\n\n```markdown\n- blog/\n - first-post.md\n - second-post/\n - index.md\n```\n\nThis would give us:\n\n results : DataSource (List String)\n results =\n DataSource.succeed\n [ \"first-post\"\n , \"second-post\"\n ]\n\n","type":"( ( String.String, a ), List.List ( String.String, a ) ) -> DataSource.Glob.Glob a"},{"name":"recursiveWildcard","comment":" Matches any number of characters, including `/`, as long as it's the only thing in a path part.\n\nIn contrast, `wildcard` will never match `/`, so it only matches within a single path part.\n\nThis is the elm-pages equivalent of `**/*.txt` in standard shell syntax:\n\n import DataSource exposing (DataSource)\n import DataSource.Glob as Glob\n\n example : DataSource (List ( List String, String ))\n example =\n Glob.succeed Tuple.pair\n |> Glob.match (Glob.literal \"articles/\")\n |> Glob.capture Glob.recursiveWildcard\n |> Glob.match (Glob.literal \"/\")\n |> Glob.capture Glob.wildcard\n |> Glob.match (Glob.literal \".txt\")\n |> Glob.toDataSource\n\nWith these files:\n\n```shell\n- articles/\n - google-io-2021-recap.txt\n - archive/\n - 1977/\n - 06/\n - 10/\n - apple-2-announced.txt\n```\n\nWe would get the following matches:\n\n matches : DataSource (List ( List String, String ))\n matches =\n DataSource.succeed\n [ ( [ \"archive\", \"1977\", \"06\", \"10\" ], \"apple-2-announced\" )\n , ( [], \"google-io-2021-recap\" )\n ]\n\nNote that the recursive wildcard conveniently gives us a `List String`, where\neach String is a path part with no slashes (like `archive`).\n\nAnd also note that it matches 0 path parts into an empty list.\n\nIf we didn't include the `wildcard` after the `recursiveWildcard`, then we would only get\na single level of matches because it is followed by a file extension.\n\n example : DataSource (List String)\n example =\n Glob.succeed identity\n |> Glob.match (Glob.literal \"articles/\")\n |> Glob.capture Glob.recursiveWildcard\n |> Glob.match (Glob.literal \".txt\")\n\n matches : DataSource (List String)\n matches =\n DataSource.succeed\n [ \"google-io-2021-recap\"\n ]\n\nThis is usually not what is intended. Using `recursiveWildcard` is usually followed by a `wildcard` for this reason.\n\n","type":"DataSource.Glob.Glob (List.List String.String)"},{"name":"succeed","comment":" `succeed` is how you start a pipeline for a `Glob`. You will need one argument for each `capture` in your `Glob`.\n","type":"constructor -> DataSource.Glob.Glob constructor"},{"name":"toDataSource","comment":" In order to get match data from your glob, turn it into a `DataSource` with this function.\n","type":"DataSource.Glob.Glob a -> DataSource.DataSource (List.List a)"},{"name":"wildcard","comment":" Matches anything except for a `/` in a file path. You may be familiar with this syntax from shells like bash\nwhere you can run commands like `rm client/*.js` to remove all `.js` files in the `client` directory.\n\nJust like a `*` glob pattern in bash, this `Glob.wildcard` function will only match within a path part. If you need to\nmatch 0 or more path parts like, see `recursiveWildcard`.\n\n import DataSource exposing (DataSource)\n import DataSource.Glob as Glob\n\n type alias BlogPost =\n { year : String\n , month : String\n , day : String\n , slug : String\n }\n\n example : DataSource (List BlogPost)\n example =\n Glob.succeed BlogPost\n |> Glob.match (Glob.literal \"blog/\")\n |> Glob.match Glob.wildcard\n |> Glob.match (Glob.literal \"-\")\n |> Glob.capture Glob.wildcard\n |> Glob.match (Glob.literal \"-\")\n |> Glob.capture Glob.wildcard\n |> Glob.match (Glob.literal \"/\")\n |> Glob.capture Glob.wildcard\n |> Glob.match (Glob.literal \".md\")\n |> Glob.toDataSource\n\n```shell\n\n- blog/\n - 2021-05-27/\n - first-post.md\n```\n\nThat will match to:\n\n results : DataSource (List BlogPost)\n results =\n DataSource.succeed\n [ { year = \"2021\"\n , month = \"05\"\n , day = \"27\"\n , slug = \"first-post\"\n }\n ]\n\nNote that we can \"destructure\" the date part of this file path in the format `yyyy-mm-dd`. The `wildcard` matches\nwill match _within_ a path part (think between the slashes of a file path). `recursiveWildcard` can match across path parts.\n\n","type":"DataSource.Glob.Glob String.String"},{"name":"zeroOrMore","comment":" ","type":"List.List String.String -> DataSource.Glob.Glob (Maybe.Maybe String.String)"}],"binops":[]},{"name":"DataSource.Http","comment":" `DataSource.Http` requests are an alternative to doing Elm HTTP requests the traditional way using the `elm/http` package.\n\nThe key differences are:\n\n - `DataSource.Http.Request`s are performed once at build time (`Http.Request`s are performed at runtime, at whenever point you perform them)\n - `DataSource.Http.Request`s strip out unused JSON data from the data your decoder doesn't touch to minimize the JSON payload\n - `DataSource.Http.Request`s can use [`Pages.Secrets`](Pages.Secrets) to securely use credentials from your environment variables which are completely masked in the production assets.\n - `DataSource.Http.Request`s have a built-in `DataSource.andThen` that allows you to perform follow-up requests without using tasks\n\n\n## Scenarios where DataSource.Http is a good fit\n\nIf you need data that is refreshed often you may want to do a traditional HTTP request with the `elm/http` package.\nThe kinds of situations that are served well by static HTTP are with data that updates moderately frequently or infrequently (or never).\nA common pattern is to trigger a new build when data changes. Many JAMstack services\nallow you to send a WebHook to your host (for example, Netlify is a good static file host that supports triggering builds with webhooks). So\nyou may want to have your site rebuild everytime your calendar feed has an event added, or whenever a page or article is added\nor updated on a CMS service like Contentful.\n\nIn scenarios like this, you can serve data that is just as up-to-date as it would be using `elm/http`, but you get the performance\ngains of using `DataSource.Http.Request`s as well as the simplicity and robustness that comes with it. Read more about these benefits\nin [this article introducing DataSource.Http requests and some concepts around it](https://elm-pages.com/blog/static-http).\n\n\n## Scenarios where DataSource.Http is not a good fit\n\n - Data that is specific to the logged-in user\n - Data that needs to be the very latest and changes often (for example, sports scores)\n\n@docs RequestDetails\n@docs get, request\n\n\n## Building a DataSource.Http Request Body\n\nThe way you build a body is analogous to the `elm/http` package. Currently, only `emptyBody` and\n`stringBody` are supported. If you have a use case that calls for a different body type, please open a Github issue\nand describe your use case!\n\n@docs Body, emptyBody, stringBody, jsonBody\n\n\n## Unoptimized Requests\n\nWarning - use these at your own risk! It's highly recommended that you use the other request functions that make use of\n`zwilias/json-decode-exploration` in order to allow you to reduce down your JSON to only the values that are used by\nyour decoders. This can significantly reduce download sizes for your DataSource.Http requests.\n\n@docs unoptimizedRequest\n\n\n### Expect for unoptimized requests\n\n@docs Expect, expectString, expectUnoptimizedJson\n\n","unions":[{"name":"Expect","comment":" Analgous to the `Expect` type in the `elm/http` package. This represents how you will process the data that comes\nback in your DataSource.Http request.\n\nYou can derive `ExpectUnoptimizedJson` from `ExpectString`. Or you could build your own helper to process the String\nas XML, for example, or give an `elm-pages` build error if the response can't be parsed as XML.\n\n","args":["value"],"cases":[]}],"aliases":[{"name":"Body","comment":" A body for a DataSource.Http request.\n","args":[],"type":"Pages.Internal.StaticHttpBody.Body"},{"name":"RequestDetails","comment":" The full details to perform a DataSource.Http request.\n","args":[],"type":"{ url : String.String, method : String.String, headers : List.List ( String.String, String.String ), body : DataSource.Http.Body }"}],"values":[{"name":"emptyBody","comment":" Build an empty body for a DataSource.Http request. See [elm/http's `Http.emptyBody`](https://package.elm-lang.org/packages/elm/http/latest/Http#emptyBody).\n","type":"DataSource.Http.Body"},{"name":"expectString","comment":" Request a raw String. You can validate the String if you need to check the formatting, or try to parse it\nin something besides JSON. Be sure to use the `DataSource.Http.request` function if you want an optimized request that\nstrips out unused JSON to optimize your asset size.\n\nIf the function you pass to `expectString` yields an `Err`, then you will get a build error that will\nfail your `elm-pages` build and print out the String from the `Err`.\n\n request =\n DataSource.Http.unoptimizedRequest\n (Secrets.succeed\n { url = \"https://example.com/file.txt\"\n , method = \"GET\"\n , headers = []\n , body = DataSource.Http.emptyBody\n }\n )\n (DataSource.Http.expectString\n (\\string ->\n if String.toUpper string == string then\n Ok string\n\n else\n Err \"String was not uppercased\"\n )\n )\n\n","type":"(String.String -> Result.Result String.String value) -> DataSource.Http.Expect value"},{"name":"expectUnoptimizedJson","comment":" Handle the incoming response as JSON and don't optimize the asset and strip out unused values.\nBe sure to use the `DataSource.Http.request` function if you want an optimized request that\nstrips out unused JSON to optimize your asset size. This function makes sense to use for things like a GraphQL request\nwhere the JSON payload is already trimmed down to the data you explicitly requested.\n\nIf the function you pass to `expectString` yields an `Err`, then you will get a build error that will\nfail your `elm-pages` build and print out the String from the `Err`.\n\n","type":"Json.Decode.Decoder value -> DataSource.Http.Expect value"},{"name":"get","comment":" A simplified helper around [`DataSource.Http.request`](#request), which builds up a DataSource.Http GET request.\n\n import DataSource\n import DataSource.Http\n import Json.Decode as Decode exposing (Decoder)\n\n getRequest : DataSource Int\n getRequest =\n DataSource.Http.get\n (Secrets.succeed \"https://api.github.com/repos/dillonkearns/elm-pages\")\n (Decode.field \"stargazers_count\" Decode.int)\n\n","type":"Pages.Secrets.Value String.String -> OptimizedDecoder.Decoder a -> DataSource.DataSource a"},{"name":"jsonBody","comment":" Builds a JSON body for a DataSource.Http request. See [elm/http's `Http.jsonBody`](https://package.elm-lang.org/packages/elm/http/latest/Http#jsonBody).\n","type":"Json.Encode.Value -> DataSource.Http.Body"},{"name":"request","comment":" Build a `DataSource.Http` request (analagous to [Http.request](https://package.elm-lang.org/packages/elm/http/latest/Http#request)).\nThis function takes in all the details to build a `DataSource.Http` request, but you can build your own simplified helper functions\nwith this as a low-level detail, or you can use functions like [DataSource.Http.get](#get).\n","type":"Pages.Secrets.Value DataSource.Http.RequestDetails -> OptimizedDecoder.Decoder a -> DataSource.DataSource a"},{"name":"stringBody","comment":" Builds a string body for a DataSource.Http request. See [elm/http's `Http.stringBody`](https://package.elm-lang.org/packages/elm/http/latest/Http#stringBody).\n\nNote from the `elm/http` docs:\n\n> The first argument is a [MIME type](https://en.wikipedia.org/wiki/Media_type) of the body. Some servers are strict about this!\n\n","type":"String.String -> String.String -> DataSource.Http.Body"},{"name":"unoptimizedRequest","comment":" This is an alternative to the other request functions in this module that doesn't perform any optimizations on the\nasset. Be sure to use the optimized versions, like `DataSource.Http.request`, if you can. Using those can significantly reduce\nyour asset sizes by removing all unused fields from your JSON.\n\nYou may want to use this function instead if you need XML data or plaintext. Or maybe you're hitting a GraphQL API,\nso you don't need any additional optimization as the payload is already reduced down to exactly what you requested.\n\n","type":"Pages.Secrets.Value DataSource.Http.RequestDetails -> DataSource.Http.Expect a -> DataSource.DataSource a"}],"binops":[]},{"name":"DataSource.Port","comment":"\n\n@docs get\n\n","unions":[],"aliases":[],"values":[{"name":"get","comment":" In a vanilla Elm application, ports let you either send or receive JSON data between your Elm application and the JavaScript context in the user's browser at runtime.\n\nWith `DataSource.Port`, you send and receive JSON to JavaScript running in NodeJS during build-time. This means that you can call shell scripts, or run NPM packages that are installed, or anything else you could do with NodeJS.\n\nA `DataSource.Port` will call an async JavaScript function with the given name. The function receives the input JSON value, and the Decoder is used to decode the return value of the async function.\n\nHere is the Elm code and corresponding JavaScript definition for getting an environment variable (or a build error if it isn't found).\n\n import DataSource exposing (DataSource)\n import DataSource.Port\n import Json.Encode\n import OptimizedDecoder as Decode\n\n data : DataSource String\n data =\n DataSource.Port.get \"environmentVariable\"\n (Json.Encode.string \"EDITOR\")\n Decode.string\n\n -- will resolve to \"VIM\" if you run `EDITOR=vim elm-pages dev`\n\n```javascript\nconst kleur = require(\"kleur\");\n\n\nmodule.exports =\n /**\n * @param { unknown } fromElm\n * @returns { Promise<unknown> }\n */\n {\n environmentVariable: async function (name) {\n const result = process.env[name];\n if (result) {\n return result;\n } else {\n throw `No environment variable called ${kleur\n .yellow()\n .underline(name)}\\n\\nAvailable:\\n\\n${Object.keys(process.env).join(\n \"\\n\"\n )}`;\n }\n },\n }\n```\n\n\n## Error Handling\n\n`port-data-source.js`\n\nAny time you throw an exception from a DataaSource.Port definition, it will result in a build error in your `elm-pages build` or dev server. In the example above, if the environment variable\nis not found it will result in a build failure. Notice that the NPM package `kleur` is being used in this example to add color to the output for that build error. You can use any tool you\nprefer to add ANSI color codes within the error string in an exception and it will show up with color output in the build output and dev server.\n\n\n## Performance\n\nAs with any JavaScript or NodeJS code, avoid doing blocking IO operations. For example, avoid using `fs.readFileSync`, because blocking IO can slow down your elm-pages builds and dev server.\n\n","type":"String.String -> Json.Encode.Value -> OptimizedDecoder.Decoder b -> DataSource.DataSource b"}],"binops":[]},{"name":"Head","comment":" This module contains low-level functions for building up\nvalues that will be rendered into the page's `<head>` tag\nwhen you run `elm-pages build`. Most likely the `Head.Seo` module\nwill do everything you need out of the box, and you will just need to import `Head`\nso you can use the `Tag` type in your type annotations.\n\nBut this module might be useful if you have a special use case, or if you are\nwriting a plugin package to extend `elm-pages`.\n\n@docs Tag, metaName, metaProperty\n@docs rssLink, sitemapLink, rootLanguage\n\n\n## Structured Data\n\n@docs structuredData\n\n\n## `AttributeValue`s\n\n@docs AttributeValue\n@docs currentPageFullUrl, urlAttribute, raw\n\n\n## Icons\n\n@docs appleTouchIcon, icon\n\n\n## Functions for use by generated code\n\n@docs toJson, canonicalLink\n\n","unions":[{"name":"AttributeValue","comment":" Values, such as between the `<>`'s here:\n\n```html\n<meta name=\"<THIS IS A VALUE>\" content=\"<THIS IS A VALUE>\" />\n```\n\n","args":[],"cases":[]},{"name":"Tag","comment":" Values that can be passed to the generated `Pages.application` config\nthrough the `head` function.\n","args":[],"cases":[]}],"aliases":[],"values":[{"name":"appleTouchIcon","comment":" Note: the type must be png.\nSee <https://developer.apple.com/library/archive/documentation/AppleApplications/Reference/SafariWebContent/ConfiguringWebApplications/ConfiguringWebApplications.html>.\n\nIf a size is provided, it will be turned into square dimensions as per the recommendations here: <https://developers.google.com/web/fundamentals/design-and-ux/browser-customization/#safari>\n\nImages must be png's, and non-transparent images are recommended. Current recommended dimensions are 180px and 192px.\n\n","type":"Maybe.Maybe Basics.Int -> Pages.Url.Url -> Head.Tag"},{"name":"canonicalLink","comment":" It's recommended that you use the `Seo` module helpers, which will provide this\nfor you, rather than directly using this.\n\nExample:\n\n Head.canonicalLink \"https://elm-pages.com\"\n\n","type":"Maybe.Maybe String.String -> Head.Tag"},{"name":"currentPageFullUrl","comment":" Create an `AttributeValue` representing the current page's full url.\n","type":"Head.AttributeValue"},{"name":"icon","comment":" ","type":"List.List ( Basics.Int, Basics.Int ) -> MimeType.MimeImage -> Pages.Url.Url -> Head.Tag"},{"name":"metaName","comment":" Example:\n\n metaName\n [ ( \"name\", \"twitter:card\" )\n , ( \"content\", \"summary_large_image\" )\n ]\n\nResults in `<meta name=\"twitter:card\" content=\"summary_large_image\" />`\n\n","type":"String.String -> Head.AttributeValue -> Head.Tag"},{"name":"metaProperty","comment":" Example:\n\n Head.metaProperty \"fb:app_id\" (Head.raw \"123456789\")\n\nResults in `<meta property=\"fb:app_id\" content=\"123456789\" />`\n\n","type":"String.String -> Head.AttributeValue -> Head.Tag"},{"name":"raw","comment":" Create a raw `AttributeValue` (as opposed to some kind of absolute URL).\n","type":"String.String -> Head.AttributeValue"},{"name":"rootLanguage","comment":" Set the language for a page.\n\n<https://developer.mozilla.org/en-US/docs/Web/HTML/Global_attributes/lang>\n\n import Head\n import LanguageTag\n import LanguageTag.Language\n\n LanguageTag.Language.de -- sets the page's language to German\n |> LanguageTag.build LanguageTag.emptySubtags\n |> Head.rootLanguage\n\nThis results pre-rendered HTML with a global lang tag set.\n\n```html\n<html lang=\"no\">\n...\n</html>\n```\n\n","type":"LanguageTag.LanguageTag -> Head.Tag"},{"name":"rssLink","comment":" Add a link to the site's RSS feed.\n\nExample:\n\n rssLink \"/feed.xml\"\n\n```html\n<link rel=\"alternate\" type=\"application/rss+xml\" href=\"/rss.xml\">\n```\n\n","type":"String.String -> Head.Tag"},{"name":"sitemapLink","comment":" Add a link to the site's RSS feed.\n\nExample:\n\n sitemapLink \"/feed.xml\"\n\n```html\n<link rel=\"sitemap\" type=\"application/xml\" href=\"/sitemap.xml\">\n```\n\n","type":"String.String -> Head.Tag"},{"name":"structuredData","comment":" You can learn more about structured data in [Google's intro to structured data](https://developers.google.com/search/docs/guides/intro-structured-data).\n\nWhen you add a `structuredData` item to one of your pages in `elm-pages`, it will add `json-ld` data to your document that looks like this:\n\n```html\n<script type=\"application/ld+json\">\n{\n \"@context\":\"http://schema.org/\",\n \"@type\":\"Article\",\n \"headline\":\"Extensible Markdown Parsing in Pure Elm\",\n \"description\":\"Introducing a new parser that extends your palette with no additional syntax\",\n \"image\":\"https://elm-pages.com/images/article-covers/extensible-markdown-parsing.jpg\",\n \"author\":{\n \"@type\":\"Person\",\n \"name\":\"Dillon Kearns\"\n },\n \"publisher\":{\n \"@type\":\"Person\",\n \"name\":\"Dillon Kearns\"\n },\n \"url\":\"https://elm-pages.com/blog/extensible-markdown-parsing-in-elm\",\n \"datePublished\":\"2019-10-08\",\n \"mainEntityOfPage\":{\n \"@type\":\"SoftwareSourceCode\",\n \"codeRepository\":\"https://github.com/dillonkearns/elm-pages\",\n \"description\":\"A statically typed site generator for Elm.\",\n \"author\":\"Dillon Kearns\",\n \"programmingLanguage\":{\n \"@type\":\"ComputerLanguage\",\n \"url\":\"http://elm-lang.org/\",\n \"name\":\"Elm\",\n \"image\":\"http://elm-lang.org/\",\n \"identifier\":\"http://elm-lang.org/\"\n }\n }\n}\n</script>\n```\n\nTo get that data, you would write this in your `elm-pages` head tags:\n\n import Json.Encode as Encode\n\n {-| <https://schema.org/Article>\n -}\n encodeArticle :\n { title : String\n , description : String\n , author : StructuredDataHelper { authorMemberOf | personOrOrganization : () } authorPossibleFields\n , publisher : StructuredDataHelper { publisherMemberOf | personOrOrganization : () } publisherPossibleFields\n , url : String\n , imageUrl : String\n , datePublished : String\n , mainEntityOfPage : Encode.Value\n }\n -> Head.Tag\n encodeArticle info =\n Encode.object\n [ ( \"@context\", Encode.string \"http://schema.org/\" )\n , ( \"@type\", Encode.string \"Article\" )\n , ( \"headline\", Encode.string info.title )\n , ( \"description\", Encode.string info.description )\n , ( \"image\", Encode.string info.imageUrl )\n , ( \"author\", encode info.author )\n , ( \"publisher\", encode info.publisher )\n , ( \"url\", Encode.string info.url )\n , ( \"datePublished\", Encode.string info.datePublished )\n , ( \"mainEntityOfPage\", info.mainEntityOfPage )\n ]\n |> Head.structuredData\n\nTake a look at this [Google Search Gallery](https://developers.google.com/search/docs/guides/search-gallery)\nto see some examples of how structured data can be used by search engines to give rich search results. It can help boost\nyour rankings, get better engagement for your content, and also make your content more accessible. For example,\nvoice assistant devices can make use of structured data. If you're hosting a conference and want to make the event\ndate and location easy for attendees to find, this can make that information more accessible.\n\nFor the current version of API, you'll need to make sure that the format is correct and contains the required and recommended\nstructure.\n\nCheck out <https://schema.org> for a comprehensive listing of possible data types and fields. And take a look at\nGoogle's [Structured Data Testing Tool](https://search.google.com/structured-data/testing-tool)\ntoo make sure that your structured data is valid and includes the recommended values.\n\nIn the future, `elm-pages` will likely support a typed API, but schema.org is a massive spec, and changes frequently.\nAnd there are multiple sources of information on the possible and recommended structure. So it will take some time\nfor the right API design to evolve. In the meantime, this allows you to make use of this for SEO purposes.\n\n","type":"Json.Encode.Value -> Head.Tag"},{"name":"toJson","comment":" Feel free to use this, but in 99% of cases you won't need it. The generated\ncode will run this for you to generate your `manifest.json` file automatically!\n","type":"String.String -> String.String -> Head.Tag -> Json.Encode.Value"},{"name":"urlAttribute","comment":" Create an `AttributeValue` from an `ImagePath`.\n","type":"Pages.Url.Url -> Head.AttributeValue"}],"binops":[]},{"name":"Head.Seo","comment":" <https://ogp.me/#>\n<https://developers.facebook.com/docs/sharing/opengraph>\n\nThis module encapsulates some of the best practices for SEO for your site.\n\n`elm-pages` will pre-render each of the static pages (in your `content` directory) so that\nweb crawlers can efficiently and accurately process it. The functions in this module are for use\nwith the `head` function that you pass to your Pages config (`Pages.application`).\n\n import Date\n import Head\n import Head.Seo as Seo\n\n\n -- justinmimbs/date package\n type alias ArticleMetadata =\n { title : String\n , description : String\n , published : Date\n , author : Data.Author.Author\n }\n\n head : ArticleMetadata -> List Head.Tag\n head articleMetadata =\n Seo.summaryLarge\n { canonicalUrlOverride = Nothing\n , siteName = \"elm-pages\"\n , image =\n { url = Pages.images.icon\n , alt = articleMetadata.description\n , dimensions = Nothing\n , mimeType = Nothing\n }\n , description = articleMetadata.description\n , locale = Nothing\n , title = articleMetadata.title\n }\n |> Seo.article\n { tags = []\n , section = Nothing\n , publishedTime = Just (Date.toIsoString articleMetadata.published)\n , modifiedTime = Nothing\n , expirationTime = Nothing\n }\n\n@docs Common, Image, article, audioPlayer, book, profile, song, summary, summaryLarge, videoPlayer, website\n\n","unions":[],"aliases":[{"name":"Common","comment":" These fields apply to any type in the og object types\nSee <https://ogp.me/#metadata> and <https://ogp.me/#optional>\n\nSkipping this for now, if there's a use case I can add it in:\n\n - og:determiner - The word that appears before this object's title in a sentence. An enum of (a, an, the, \"\", auto). If auto is chosen, the consumer of your data should chose between \"a\" or \"an\". Default is \"\" (blank).\n\n","args":[],"type":"{ title : String.String, image : Head.Seo.Image, canonicalUrlOverride : Maybe.Maybe String.String, description : String.String, siteName : String.String, audio : Maybe.Maybe Head.Seo.Audio, video : Maybe.Maybe Head.Seo.Video, locale : Maybe.Maybe Head.Seo.Locale, alternateLocales : List.List Head.Seo.Locale, twitterCard : Head.Twitter.TwitterCard }"},{"name":"Image","comment":" See <https://ogp.me/#structured>\n","args":[],"type":"{ url : Pages.Url.Url, alt : String.String, dimensions : Maybe.Maybe { width : Basics.Int, height : Basics.Int }, mimeType : Maybe.Maybe Head.Seo.MimeType }"}],"values":[{"name":"article","comment":" See <https://ogp.me/#type_article>\n","type":"{ tags : List.List String.String, section : Maybe.Maybe String.String, publishedTime : Maybe.Maybe Head.Seo.Iso8601DateTime, modifiedTime : Maybe.Maybe Head.Seo.Iso8601DateTime, expirationTime : Maybe.Maybe Head.Seo.Iso8601DateTime } -> Head.Seo.Common -> List.List Head.Tag"},{"name":"audioPlayer","comment":" Will be displayed as a Player card in twitter\nSee: <https://developer.twitter.com/en/docs/tweets/optimize-with-cards/overview/player-card>\n\nOpenGraph audio will also be included.\nThe options will also be used to build up the appropriate OpenGraph `<meta>` tags.\n\n","type":"{ canonicalUrlOverride : Maybe.Maybe String.String, siteName : String.String, image : Head.Seo.Image, description : String.String, title : String.String, audio : Head.Seo.Audio, locale : Maybe.Maybe Head.Seo.Locale } -> Head.Seo.Common"},{"name":"book","comment":" See <https://ogp.me/#type_book>\n","type":"Head.Seo.Common -> { tags : List.List String.String, isbn : Maybe.Maybe String.String, releaseDate : Maybe.Maybe Head.Seo.Iso8601DateTime } -> List.List Head.Tag"},{"name":"profile","comment":" See <https://ogp.me/#type_profile>\n","type":"{ firstName : String.String, lastName : String.String, username : Maybe.Maybe String.String } -> Head.Seo.Common -> List.List Head.Tag"},{"name":"song","comment":" See <https://ogp.me/#type_music.song>\n","type":"Head.Seo.Common -> { duration : Maybe.Maybe Basics.Int, album : Maybe.Maybe Basics.Int, disc : Maybe.Maybe Basics.Int, track : Maybe.Maybe Basics.Int } -> List.List Head.Tag"},{"name":"summary","comment":" Will be displayed as a large card in twitter\nSee: <https://developer.twitter.com/en/docs/tweets/optimize-with-cards/overview/summary>\n\nThe options will also be used to build up the appropriate OpenGraph `<meta>` tags.\n\nNote: You cannot include audio or video tags with summaries.\nIf you want one of those, use `audioPlayer` or `videoPlayer`\n\n","type":"{ canonicalUrlOverride : Maybe.Maybe String.String, siteName : String.String, image : Head.Seo.Image, description : String.String, title : String.String, locale : Maybe.Maybe Head.Seo.Locale } -> Head.Seo.Common"},{"name":"summaryLarge","comment":" Will be displayed as a large card in twitter\nSee: <https://developer.twitter.com/en/docs/tweets/optimize-with-cards/overview/summary-card-with-large-image>\n\nThe options will also be used to build up the appropriate OpenGraph `<meta>` tags.\n\nNote: You cannot include audio or video tags with summaries.\nIf you want one of those, use `audioPlayer` or `videoPlayer`\n\n","type":"{ canonicalUrlOverride : Maybe.Maybe String.String, siteName : String.String, image : Head.Seo.Image, description : String.String, title : String.String, locale : Maybe.Maybe Head.Seo.Locale } -> Head.Seo.Common"},{"name":"videoPlayer","comment":" Will be displayed as a Player card in twitter\nSee: <https://developer.twitter.com/en/docs/tweets/optimize-with-cards/overview/player-card>\n\nOpenGraph video will also be included.\nThe options will also be used to build up the appropriate OpenGraph `<meta>` tags.\n\n","type":"{ canonicalUrlOverride : Maybe.Maybe String.String, siteName : String.String, image : Head.Seo.Image, description : String.String, title : String.String, video : Head.Seo.Video, locale : Maybe.Maybe Head.Seo.Locale } -> Head.Seo.Common"},{"name":"website","comment":" <https://ogp.me/#type_website>\n","type":"Head.Seo.Common -> List.List Head.Tag"}],"binops":[]},{"name":"OptimizedDecoder","comment":" This module allows you to build decoders that `elm-pages` can optimize for you in your `StaticHttp` requests.\nIt does this by stripping of unused fields during the CLI build step. When it runs in production, it will\njust run a plain `elm/json` decoder, so you're fetching and decoding the stripped-down data, but without any\nperformance penalty.\n\nFor convenience, this library also includes a `Json.Decode.Exploration.Pipeline`\nmodule which is largely a copy of [`NoRedInk/elm-decode-pipeline`][edp].\n\n[edp]: http://package.elm-lang.org/packages/NoRedInk/elm-decode-pipeline/latest\n\n\n## Dealing with warnings and errors\n\n@docs Error, errorToString\n\n\n# Primitives\n\n@docs Decoder, string, bool, int, float, Value\n\n\n# Data Structures\n\n@docs nullable, list, array, dict, keyValuePairs\n\n\n# Object Primitives\n\n@docs field, at, index, optionalField\n\n\n# Inconsistent Structure\n\n@docs maybe, oneOf\n\n\n# Fancy Decoding\n\n@docs lazy, value, null, succeed, fail, andThen\n\n\n# Mapping\n\n**Note:** If you run out of map functions, take a look at [the pipeline module][pipe]\nwhich makes it easier to handle large objects.\n\n[pipe]: http://package.elm-lang.org/packages/zwilias/json-decode-exploration/latest/Json-Decode-Exploration-Pipeline\n\n@docs map, map2, map3, map4, map5, map6, map7, map8, andMap\n\n@docs fromResult\n\n\n# Directly Running Decoders\n\nUsually you'll be passing your decoders to\n\n@docs decodeString, decodeValue, decoder\n\n","unions":[],"aliases":[{"name":"Decoder","comment":" A decoder that will be optimized in your production bundle.\n","args":["a"],"type":"Internal.OptimizedDecoder.OptimizedDecoder a"},{"name":"Error","comment":" A simple type alias for `Json.Decode.Error`.\n","args":[],"type":"Json.Decode.Error"},{"name":"Value","comment":" A simple type alias for `Json.Decode.Value`.\n","args":[],"type":"Json.Decode.Value"}],"values":[{"name":"andMap","comment":" Decode an argument and provide it to a function in a decoder.\n\n decoder : Decoder String\n decoder =\n succeed (String.repeat)\n |> andMap (field \"count\" int)\n |> andMap (field \"val\" string)\n\n\n \"\"\" { \"val\": \"hi\", \"count\": 3 } \"\"\"\n |> decodeString decoder\n --> Success \"hihihi\"\n\n","type":"OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder (a -> b) -> OptimizedDecoder.Decoder b"},{"name":"andThen","comment":" Chain decoders where one decoder depends on the value of another decoder.\n","type":"(a -> OptimizedDecoder.Decoder b) -> OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder b"},{"name":"array","comment":" _Convenience function._ Decode a JSON array into an Elm `Array`.\n\n import Array\n\n \"\"\" [ 1, 2, 3 ] \"\"\"\n |> decodeString (array int)\n --> Success <| Array.fromList [ 1, 2, 3 ]\n\n","type":"OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder (Array.Array a)"},{"name":"at","comment":" Decodes a value at a certain path, using a provided decoder. Essentially,\nwriting `at [ \"a\", \"b\", \"c\" ] string` is sugar over writing\n`field \"a\" (field \"b\" (field \"c\" string))`}.\n\n \"\"\" { \"a\": { \"b\": { \"c\": \"hi there\" } } } \"\"\"\n |> decodeString (at [ \"a\", \"b\", \"c\" ] string)\n --> Success \"hi there\"\n\n","type":"List.List String.String -> OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder a"},{"name":"bool","comment":" Decode a boolean value.\n\n \"\"\" [ true, false ] \"\"\"\n |> decodeString (list bool)\n --> Success [ True, False ]\n\n","type":"OptimizedDecoder.Decoder Basics.Bool"},{"name":"decodeString","comment":" A simple wrapper for `Json.Decode.errorToString`.\n\nThis will directly call the raw `elm/json` decoder that is stored under the hood.\n\n","type":"OptimizedDecoder.Decoder a -> String.String -> Result.Result OptimizedDecoder.Error a"},{"name":"decodeValue","comment":" A simple wrapper for `Json.Decode.errorToString`.\n\nThis will directly call the raw `elm/json` decoder that is stored under the hood.\n\n","type":"OptimizedDecoder.Decoder a -> OptimizedDecoder.Value -> Result.Result OptimizedDecoder.Error a"},{"name":"decoder","comment":" Usually you'll want to directly pass your `OptimizedDecoder` to `StaticHttp` or other `elm-pages` APIs.\nBut if you want to re-use your decoder somewhere else, it may be useful to turn it into a plain `elm/json` decoder.\n","type":"OptimizedDecoder.Decoder a -> Json.Decode.Decoder a"},{"name":"dict","comment":" _Convenience function._ Decode a JSON object into an Elm `Dict String`.\n\n import Dict\n\n\n \"\"\" { \"foo\": \"bar\", \"bar\": \"hi there\" } \"\"\"\n |> decodeString (dict string)\n --> Success <| Dict.fromList\n --> [ ( \"bar\", \"hi there\" )\n --> , ( \"foo\", \"bar\" )\n --> ]\n\n","type":"OptimizedDecoder.Decoder v -> OptimizedDecoder.Decoder (Dict.Dict String.String v)"},{"name":"errorToString","comment":" A simple wrapper for `Json.Decode.errorToString`.\n","type":"Json.Decode.Error -> String.String"},{"name":"fail","comment":" Ignore the json and fail with a provided message.\n\n import List.Nonempty exposing (Nonempty(..))\n import Json.Decode.Exploration.Located exposing (Located(..))\n import Json.Encode as Encode\n\n \"\"\" \"hello\" \"\"\"\n |> decodeString (fail \"failure\")\n --> Errors (Nonempty (Here <| Failure \"failure\" (Just <| Encode.string \"hello\")) [])\n\n","type":"String.String -> OptimizedDecoder.Decoder a"},{"name":"field","comment":" Decode the content of a field using a provided decoder.\n\n import List.Nonempty as Nonempty\n import Json.Decode.Exploration.Located exposing (Located(..))\n import Json.Encode as Encode\n\n \"\"\" { \"foo\": \"bar\" } \"\"\"\n |> decodeString (field \"foo\" string)\n --> Success \"bar\"\n\n\n \"\"\" [ { \"foo\": \"bar\" }, { \"foo\": \"baz\", \"hello\": \"world\" } ] \"\"\"\n |> decodeString (list (field \"foo\" string))\n --> WithWarnings expectedWarnings [ \"bar\", \"baz\" ]\n\n\n expectedWarnings : Warnings\n expectedWarnings =\n UnusedField \"hello\"\n |> Here\n |> Nonempty.fromElement\n |> AtIndex 1\n |> Nonempty.fromElement\n\n","type":"String.String -> OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder a"},{"name":"float","comment":" Decode a number into a `Float`.\n\n import List.Nonempty exposing (Nonempty(..))\n import Json.Decode.Exploration.Located exposing (Located(..))\n import Json.Encode as Encode\n\n\n \"\"\" 12.34 \"\"\"\n |> decodeString float\n --> Success 12.34\n\n\n \"\"\" 12 \"\"\"\n |> decodeString float\n --> Success 12\n\n\n \"\"\" null \"\"\"\n |> decodeString float\n --> Errors (Nonempty (Here <| Expected TNumber Encode.null) [])\n\n","type":"OptimizedDecoder.Decoder Basics.Float"},{"name":"fromResult","comment":" Turn a Result into a Decoder (uses succeed and fail under the hood). This is often\nhelpful for chaining with `andThen`.\n","type":"Result.Result String.String value -> OptimizedDecoder.Decoder value"},{"name":"index","comment":" Decode a specific index using a specified `Decoder`.\n\n import List.Nonempty exposing (Nonempty(..))\n import Json.Decode.Exploration.Located exposing (Located(..))\n import Json.Encode as Encode\n\n\n \"\"\" [ \"hello\", 123 ] \"\"\"\n |> decodeString (map2 Tuple.pair (index 0 string) (index 1 int))\n --> Success ( \"hello\", 123 )\n\n\n \"\"\" [ \"hello\", \"there\" ] \"\"\"\n |> decodeString (index 1 string)\n --> WithWarnings (Nonempty (AtIndex 0 (Nonempty (Here (UnusedValue (Encode.string \"hello\"))) [])) [])\n --> \"there\"\n\n","type":"Basics.Int -> OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder a"},{"name":"int","comment":" Decode a number into an `Int`.\n\n import List.Nonempty exposing (Nonempty(..))\n import Json.Decode.Exploration.Located exposing (Located(..))\n import Json.Encode as Encode\n\n\n \"\"\" 123 \"\"\"\n |> decodeString int\n --> Success 123\n\n\n \"\"\" 0.1 \"\"\"\n |> decodeString int\n --> Errors <|\n --> Nonempty\n --> (Here <| Expected TInt (Encode.float 0.1))\n --> []\n\n","type":"OptimizedDecoder.Decoder Basics.Int"},{"name":"keyValuePairs","comment":" Decode a JSON object into a list of key-value pairs. The decoder you provide\nwill be used to decode the values.\n\n \"\"\" { \"foo\": \"bar\", \"hello\": \"world\" } \"\"\"\n |> decodeString (keyValuePairs string)\n --> Success [ ( \"foo\", \"bar\" ), ( \"hello\", \"world\" ) ]\n\n","type":"OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder (List.List ( String.String, a ))"},{"name":"lazy","comment":" Required when using (mutually) recursive decoders.\n","type":"(() -> OptimizedDecoder.Decoder a) -> OptimizedDecoder.Decoder a"},{"name":"list","comment":" Decode a list of values, decoding each entry with the provided decoder.\n\n import List.Nonempty exposing (Nonempty(..))\n import Json.Decode.Exploration.Located exposing (Located(..))\n import Json.Encode as Encode\n\n\n \"\"\" [ \"foo\", \"bar\" ] \"\"\"\n |> decodeString (list string)\n --> Success [ \"foo\", \"bar\" ]\n\n\n \"\"\" [ \"foo\", null ] \"\"\"\n |> decodeString (list string)\n --> Errors <|\n --> Nonempty\n --> (AtIndex 1 <|\n --> Nonempty (Here <| Expected TString Encode.null) []\n --> )\n --> []\n\n","type":"OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder (List.List a)"},{"name":"map","comment":" Useful for transforming decoders.\n\n \"\"\" \"foo\" \"\"\"\n |> decodeString (map String.toUpper string)\n --> Success \"FOO\"\n\n","type":"(a -> b) -> OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder b"},{"name":"map2","comment":" Combine 2 decoders.\n","type":"(a -> b -> c) -> OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder b -> OptimizedDecoder.Decoder c"},{"name":"map3","comment":" Combine 3 decoders.\n","type":"(a -> b -> c -> d) -> OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder b -> OptimizedDecoder.Decoder c -> OptimizedDecoder.Decoder d"},{"name":"map4","comment":" Combine 4 decoders.\n","type":"(a -> b -> c -> d -> e) -> OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder b -> OptimizedDecoder.Decoder c -> OptimizedDecoder.Decoder d -> OptimizedDecoder.Decoder e"},{"name":"map5","comment":" Combine 5 decoders.\n","type":"(a -> b -> c -> d -> e -> f) -> OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder b -> OptimizedDecoder.Decoder c -> OptimizedDecoder.Decoder d -> OptimizedDecoder.Decoder e -> OptimizedDecoder.Decoder f"},{"name":"map6","comment":" Combine 6 decoders.\n","type":"(a -> b -> c -> d -> e -> f -> g) -> OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder b -> OptimizedDecoder.Decoder c -> OptimizedDecoder.Decoder d -> OptimizedDecoder.Decoder e -> OptimizedDecoder.Decoder f -> OptimizedDecoder.Decoder g"},{"name":"map7","comment":" Combine 7 decoders.\n","type":"(a -> b -> c -> d -> e -> f -> g -> h) -> OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder b -> OptimizedDecoder.Decoder c -> OptimizedDecoder.Decoder d -> OptimizedDecoder.Decoder e -> OptimizedDecoder.Decoder f -> OptimizedDecoder.Decoder g -> OptimizedDecoder.Decoder h"},{"name":"map8","comment":" Combine 8 decoders.\n","type":"(a -> b -> c -> d -> e -> f -> g -> h -> i) -> OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder b -> OptimizedDecoder.Decoder c -> OptimizedDecoder.Decoder d -> OptimizedDecoder.Decoder e -> OptimizedDecoder.Decoder f -> OptimizedDecoder.Decoder g -> OptimizedDecoder.Decoder h -> OptimizedDecoder.Decoder i"},{"name":"maybe","comment":" Decodes successfully and wraps with a `Just`, handling failure by succeeding\nwith `Nothing`.\n\n import List.Nonempty as Nonempty\n import Json.Decode.Exploration.Located exposing (Located(..))\n import Json.Encode as Encode\n\n\n \"\"\" [ \"foo\", 12 ] \"\"\"\n |> decodeString (list <| maybe string)\n --> WithWarnings expectedWarnings [ Just \"foo\", Nothing ]\n\n\n expectedWarnings : Warnings\n expectedWarnings =\n UnusedValue (Encode.int 12)\n |> Here\n |> Nonempty.fromElement\n |> AtIndex 1\n |> Nonempty.fromElement\n\n","type":"OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder (Maybe.Maybe a)"},{"name":"null","comment":" Decode a `null` and succeed with some value.\n\n \"\"\" null \"\"\"\n |> decodeString (null \"it was null\")\n --> Success \"it was null\"\n\nNote that `undefined` and `null` are not the same thing. This cannot be used to\nverify that a field is _missing_, only that it is explicitly set to `null`.\n\n \"\"\" { \"foo\": null } \"\"\"\n |> decodeString (field \"foo\" (null ()))\n --> Success ()\n\n\n import List.Nonempty exposing (Nonempty(..))\n import Json.Decode.Exploration.Located exposing (Located(..))\n import Json.Encode as Encode\n\n\n \"\"\" { } \"\"\"\n |> decodeString (field \"foo\" (null ()))\n --> Errors <|\n --> Nonempty\n --> (Here <| Expected (TObjectField \"foo\") (Encode.object []))\n --> []\n\n","type":"a -> OptimizedDecoder.Decoder a"},{"name":"nullable","comment":" Decodes successfully and wraps with a `Just`. If the values is `null`\nsucceeds with `Nothing`.\n\n \"\"\" [ { \"foo\": \"bar\" }, { \"foo\": null } ] \"\"\"\n |> decodeString (list <| field \"foo\" <| nullable string)\n --> Success [ Just \"bar\", Nothing ]\n\n","type":"OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder (Maybe.Maybe a)"},{"name":"oneOf","comment":" Tries a bunch of decoders. The first one to not fail will be the one used.\n\nIf all fail, the errors are collected into a `BadOneOf`.\n\n import List.Nonempty as Nonempty\n import Json.Decode.Exploration.Located exposing (Located(..))\n import Json.Encode as Encode\n\n \"\"\" [ 12, \"whatever\" ] \"\"\"\n |> decodeString (list <| oneOf [ map String.fromInt int, string ])\n --> Success [ \"12\", \"whatever\" ]\n\n\n \"\"\" null \"\"\"\n |> decodeString (oneOf [ string, map String.fromInt int ])\n --> Errors <| Nonempty.fromElement <| Here <| BadOneOf\n --> [ Nonempty.fromElement <| Here <| Expected TString Encode.null\n --> , Nonempty.fromElement <| Here <| Expected TInt Encode.null\n --> ]\n\n","type":"List.List (OptimizedDecoder.Decoder a) -> OptimizedDecoder.Decoder a"},{"name":"optionalField","comment":" If a field is missing, succeed with `Nothing`. If it is present, decode it\nas normal and wrap successes in a `Just`.\n\nWhen decoding with\n[`maybe`](http://package.elm-lang.org/packages/elm-lang/core/latest/Json-Decode#maybe),\nif a field is present but malformed, you get a success and Nothing.\n`optionalField` gives you a failed decoding in that case, so you know\nyou received malformed data.\n\nExamples:\n\n import Json.Decode exposing (..)\n import Json.Encode\n\nLet's define a `stuffDecoder` that extracts the `\"stuff\"` field, if it exists.\n\n stuffDecoder : Decoder (Maybe String)\n stuffDecoder =\n optionalField \"stuff\" string\n\nIf the \"stuff\" field is missing, decode to Nothing.\n\n \"\"\" { } \"\"\"\n |> decodeString stuffDecoder\n --> Ok Nothing\n\nIf the \"stuff\" field is present but not a String, fail decoding.\n\n expectedError : Error\n expectedError =\n Failure \"Expecting a STRING\" (Json.Encode.list identity [])\n |> Field \"stuff\"\n\n \"\"\" { \"stuff\": [] } \"\"\"\n |> decodeString stuffDecoder\n --> Err expectedError\n\nIf the \"stuff\" field is present and valid, decode to Just String.\n\n \"\"\" { \"stuff\": \"yay!\" } \"\"\"\n |> decodeString stuffDecoder\n --> Ok <| Just \"yay!\"\n\nDefinition from the json-extra package: <https://github.com/elm-community/json-extra>.\n\n","type":"String.String -> OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder (Maybe.Maybe a)"},{"name":"string","comment":" Decode a string.\n\n import List.Nonempty exposing (Nonempty(..))\n import Json.Decode.Exploration.Located exposing (Located(..))\n import Json.Encode as Encode\n\n\n \"\"\" \"hello world\" \"\"\"\n |> decodeString string\n --> Success \"hello world\"\n\n\n \"\"\" 123 \"\"\"\n |> decodeString string\n --> Errors (Nonempty (Here <| Expected TString (Encode.int 123)) [])\n\n","type":"OptimizedDecoder.Decoder String.String"},{"name":"succeed","comment":" A decoder that will ignore the actual JSON and succeed with the provided\nvalue. Note that this may still fail when dealing with an invalid JSON string.\n\nIf a value in the JSON ends up being ignored because of this, this will cause a\nwarning.\n\n import List.Nonempty exposing (Nonempty(..))\n import Json.Decode.Exploration.Located exposing (Located(..))\n import Json.Encode as Encode\n\n\n \"\"\" null \"\"\"\n |> decodeString (value |> andThen (\\_ -> succeed \"hello world\"))\n --> Success \"hello world\"\n\n\n \"\"\" null \"\"\"\n |> decodeString (succeed \"hello world\")\n --> WithWarnings\n --> (Nonempty (Here <| UnusedValue Encode.null) [])\n --> \"hello world\"\n\n\n \"\"\" foo \"\"\"\n |> decodeString (succeed \"hello world\")\n --> BadJson\n\n","type":"a -> OptimizedDecoder.Decoder a"},{"name":"value","comment":" Extract a piece without actually decoding it.\n\nIf a structure is decoded as a `value`, everything _in_ the structure will be\nconsidered as having been used and will not appear in `UnusedValue` warnings.\n\n import Json.Encode as Encode\n\n\n \"\"\" [ 123, \"world\" ] \"\"\"\n |> decodeString value\n --> Success (Encode.list identity [ Encode.int 123, Encode.string \"world\" ])\n\n","type":"OptimizedDecoder.Decoder OptimizedDecoder.Value"}],"binops":[]},{"name":"OptimizedDecoder.Pipeline","comment":"\n\n\n# Json.Decode.Pipeline\n\nUse the `(|>)` operator to build JSON decoders.\n\n\n## Decoding fields\n\n@docs required, requiredAt, optional, optionalAt, hardcoded, custom\n\n\n## Beginning and ending pipelines\n\n@docs decode, resolve\n\n\n### Verified docs\n\nThe examples all expect imports set up like this:\n\n import Json.Decode.Exploration exposing (..)\n import Json.Decode.Exploration.Pipeline exposing (..)\n import Json.Decode.Exploration.Located exposing (Located(..))\n import Json.Encode as Encode\n import List.Nonempty as Nonempty\n\nFor automated verification of these examples, this import is also required.\nPlease ignore it.\n\n import DocVerificationHelpers exposing (User)\n\n","unions":[],"aliases":[],"values":[{"name":"custom","comment":" Run the given decoder and feed its result into the pipeline at this point.\n\nConsider this example.\n\n import Json.Decode.Exploration exposing (..)\n\n\n type alias User =\n { id : Int\n , name : String\n , email : String\n }\n\n userDecoder : Decoder User\n userDecoder =\n decode User\n |> required \"id\" int\n |> custom (at [ \"profile\", \"name\" ] string)\n |> required \"email\" string\n\n \"\"\"\n {\n \"id\": 123,\n \"email\": \"sam@example.com\",\n \"profile\": {\"name\": \"Sam\"}\n }\n \"\"\"\n |> decodeString userDecoder\n --> Success { id = 123, name = \"Sam\", email = \"sam@example.com\" }\n\n","type":"OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder (a -> b) -> OptimizedDecoder.Decoder b"},{"name":"decode","comment":" Begin a decoding pipeline. This is a synonym for [Json.Decode.succeed](http://package.elm-lang.org/packages/elm-lang/core/latest/Json-Decode#succeed),\nintended to make things read more clearly.\n\n type alias User =\n { id : Int\n , email : String\n , name : String\n }\n\n userDecoder : Decoder User\n userDecoder =\n decode User\n |> required \"id\" int\n |> required \"email\" string\n |> optional \"name\" string \"\"\n\n","type":"a -> OptimizedDecoder.Decoder a"},{"name":"hardcoded","comment":" Rather than decoding anything, use a fixed value for the next step in the\npipeline. `harcoded` does not look at the JSON at all.\n\n import Json.Decode.Exploration exposing (..)\n\n\n type alias User =\n { id : Int\n , name : String\n , email : String\n }\n\n userDecoder : Decoder User\n userDecoder =\n decode User\n |> required \"id\" int\n |> hardcoded \"Alex\"\n |> required \"email\" string\n\n \"\"\" { \"id\": 123, \"email\": \"sam@example.com\" } \"\"\"\n |> decodeString userDecoder\n --> Success { id = 123, name = \"Alex\", email = \"sam@example.com\" }\n\n","type":"a -> OptimizedDecoder.Decoder (a -> b) -> OptimizedDecoder.Decoder b"},{"name":"optional","comment":" Decode a field that may be missing or have a null value. If the field is\nmissing, then it decodes as the `fallback` value. If the field is present,\nthen `valDecoder` is used to decode its value. If `valDecoder` fails on a\n`null` value, then the `fallback` is used as if the field were missing\nentirely.\n\n import Json.Decode.Exploration exposing (..)\n\n type alias User =\n { id : Int\n , name : String\n , email : String\n }\n\n userDecoder : Decoder User\n userDecoder =\n decode User\n |> required \"id\" int\n |> optional \"name\" string \"blah\"\n |> required \"email\" string\n\n \"\"\" { \"id\": 123, \"email\": \"sam@example.com\" } \"\"\"\n |> decodeString userDecoder\n --> Success { id = 123, name = \"blah\", email = \"sam@example.com\" }\n\nBecause `valDecoder` is given an opportunity to decode `null` values before\nresorting to the `fallback`, you can distinguish between missing and `null`\nvalues if you need to:\n\n userDecoder2 =\n decode User\n |> required \"id\" int\n |> optional \"name\" (oneOf [ string, null \"NULL\" ]) \"MISSING\"\n |> required \"email\" string\n\nNote also that this behaves _slightly_ different than the stock pipeline\npackage.\n\nIn the stock pipeline package, running the following decoder with an array as\nthe input would _succeed_.\n\n fooDecoder =\n decode identity\n |> optional \"foo\" (maybe string) Nothing\n\nIn this package, such a decoder will error out instead, saying that it expected\nthe input to be an object. The _key_ `\"foo\"` is optional, but it really does\nhave to be an object before we even consider trying your decoder or returning\nthe fallback.\n\n","type":"String.String -> OptimizedDecoder.Decoder a -> a -> OptimizedDecoder.Decoder (a -> b) -> OptimizedDecoder.Decoder b"},{"name":"optionalAt","comment":" Decode an optional nested field.\n","type":"List.List String.String -> OptimizedDecoder.Decoder a -> a -> OptimizedDecoder.Decoder (a -> b) -> OptimizedDecoder.Decoder b"},{"name":"required","comment":" Decode a required field.\n\n import Json.Decode.Exploration exposing (..)\n\n type alias User =\n { id : Int\n , name : String\n , email : String\n }\n\n userDecoder : Decoder User\n userDecoder =\n decode User\n |> required \"id\" int\n |> required \"name\" string\n |> required \"email\" string\n\n \"\"\" {\"id\": 123, \"email\": \"sam@example.com\", \"name\": \"Sam\"} \"\"\"\n |> decodeString userDecoder\n --> Success { id = 123, name = \"Sam\", email = \"sam@example.com\" }\n\n","type":"String.String -> OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder (a -> b) -> OptimizedDecoder.Decoder b"},{"name":"requiredAt","comment":" Decode a required nested field.\n\n import Json.Decode.Exploration exposing (..)\n\n type alias User =\n { id : Int\n , name : String\n , email : String\n }\n\n userDecoder : Decoder User\n userDecoder =\n decode User\n |> required \"id\" int\n |> requiredAt [ \"profile\", \"name\" ] string\n |> required \"email\" string\n\n \"\"\"\n {\n \"id\": 123,\n \"email\": \"sam@example.com\",\n \"profile\": { \"name\": \"Sam\" }\n }\n \"\"\"\n |> decodeString userDecoder\n --> Success { id = 123, name = \"Sam\", email = \"sam@example.com\" }\n\n","type":"List.List String.String -> OptimizedDecoder.Decoder a -> OptimizedDecoder.Decoder (a -> b) -> OptimizedDecoder.Decoder b"},{"name":"resolve","comment":" Convert a `Decoder (Result x a)` into a `Decoder a`. Useful when you want\nto perform some custom processing just before completing the decoding operation.\n\n import Json.Decode.Exploration exposing (..)\n\n type alias User =\n { id : Int\n , name : String\n , email : String\n }\n\n userDecoder : Decoder User\n userDecoder =\n let\n -- toDecoder gets run *after* all the\n -- (|> required ...) steps are done.\n toDecoder : Int -> String -> String -> Int -> Decoder User\n toDecoder id name email version =\n if version >= 2 then\n succeed (User id name email)\n else\n fail \"This JSON is from a deprecated source. Please upgrade!\"\n in\n decode toDecoder\n |> required \"id\" int\n |> required \"name\" string\n |> required \"email\" string\n |> required \"version\" int\n -- version is part of toDecoder,\n -- but it is not a part of User\n |> resolve\n\n \"\"\"\n {\n \"id\": 123,\n \"name\": \"Sam\",\n \"email\": \"sam@example.com\",\n \"version\": 3\n }\n \"\"\"\n |> decodeString userDecoder\n --> Success { id = 123, name = \"Sam\", email = \"sam@example.com\" }\n\n","type":"OptimizedDecoder.Decoder (OptimizedDecoder.Decoder a) -> OptimizedDecoder.Decoder a"}],"binops":[]},{"name":"Pages.Flags","comment":"\n\n@docs Flags\n\n","unions":[{"name":"Flags","comment":" elm-pages apps run in two different contexts\n\n1. In the browser (like a regular Elm app)\n2. In pre-render mode. For example when you run `elm-pages build`, there is no browser involved, it just runs Elm directly.\n\nYou can pass in Flags and use them in your `Shared.init` function. You can store data in your `Shared.Model` from these flags and then access it across any page.\n\nYou will need to handle the `PreRender` case with no flags value because there is no browser to get flags from. For example, say you wanted to get the\ncurrent user's Browser window size and pass it in as a flag. When that page is pre-rendered, you need to decide on a value to use for the window size\nsince there is no window (the user hasn't requested the page yet, and the page isn't even loaded in a Browser window yet).\n\n","args":[],"cases":[["BrowserFlags",["Json.Decode.Value"]],["PreRenderFlags",[]]]}],"aliases":[],"values":[],"binops":[]},{"name":"Pages.Internal.NotFoundReason","comment":" Exposed for internal use only (used in generated code).\n\n@docs codec, ModuleContext, NotFoundReason, Payload, Record, document\n\n","unions":[{"name":"NotFoundReason","comment":" ","args":[],"cases":[["NoMatchingRoute",[]],["NotPrerendered",["Pages.Internal.NotFoundReason.ModuleContext","List.List Pages.Internal.NotFoundReason.Record"]],["NotPrerenderedOrHandledByFallback",["Pages.Internal.NotFoundReason.ModuleContext","List.List Pages.Internal.NotFoundReason.Record"]],["UnhandledServerRoute",["Pages.Internal.NotFoundReason.ModuleContext"]]]}],"aliases":[{"name":"ModuleContext","comment":" ","args":[],"type":"{ moduleName : List.List String.String, routePattern : Pages.Internal.RoutePattern.RoutePattern, matchedRouteParams : Pages.Internal.NotFoundReason.Record }"},{"name":"Payload","comment":" ","args":[],"type":"{ path : Path.Path, reason : Pages.Internal.NotFoundReason.NotFoundReason }"},{"name":"Record","comment":" ","args":[],"type":"List.List ( String.String, String.String )"}],"values":[{"name":"codec","comment":" ","type":"Codec.Codec Pages.Internal.NotFoundReason.Payload"},{"name":"document","comment":" ","type":"List.List Pages.Internal.RoutePattern.RoutePattern -> Pages.Internal.NotFoundReason.Payload -> { title : String.String, body : Html.Html msg }"}],"binops":[]},{"name":"Pages.Internal.Platform","comment":" Exposed for internal use only (used in generated code).\n\n@docs Flags, Model, Msg, Program, application\n\n","unions":[{"name":"Msg","comment":" ","args":["userMsg"],"cases":[]}],"aliases":[{"name":"Flags","comment":" ","args":[],"type":"Json.Decode.Value"},{"name":"Model","comment":" ","args":["userModel","pageData","sharedData"],"type":"{ key : Browser.Navigation.Key, url : Url.Url, contentCache : Pages.ContentCache.ContentCache, ariaNavigationAnnouncement : String.String, pageData : Result.Result String.String { userModel : userModel, pageData : pageData, sharedData : sharedData }, userFlags : Json.Decode.Value }"},{"name":"Program","comment":" ","args":["userModel","userMsg","pageData","sharedData"],"type":"Platform.Program Pages.Internal.Platform.Flags (Pages.Internal.Platform.Model userModel pageData sharedData) (Pages.Internal.Platform.Msg userMsg)"}],"values":[{"name":"application","comment":" ","type":"Pages.ProgramConfig.ProgramConfig userMsg userModel route staticData pageData sharedData -> Platform.Program Pages.Internal.Platform.Flags (Pages.Internal.Platform.Model userModel pageData sharedData) (Pages.Internal.Platform.Msg userMsg)"}],"binops":[]},{"name":"Pages.Internal.Platform.Cli","comment":" Exposed for internal use only (used in generated code).\n\n@docs Flags, Model, Msg, Program, cliApplication, init, requestDecoder, update\n\n","unions":[{"name":"Msg","comment":" ","args":[],"cases":[["GotDataBatch",["List.List { request : { masked : DataSource.Http.RequestDetails, unmasked : DataSource.Http.RequestDetails }, response : String.String }"]],["GotBuildError",["BuildError.BuildError"]],["Continue",[]]]}],"aliases":[{"name":"Flags","comment":" ","args":[],"type":"Json.Decode.Value"},{"name":"Model","comment":" ","args":["route"],"type":"{ staticResponses : Pages.Internal.Platform.StaticResponses.StaticResponses, secrets : SecretsDict.SecretsDict, errors : List.List BuildError.BuildError, allRawResponses : Dict.Dict String.String (Maybe.Maybe String.String), pendingRequests : List.List { masked : DataSource.Http.RequestDetails, unmasked : DataSource.Http.RequestDetails }, unprocessedPages : List.List ( Path.Path, route ), staticRoutes : Maybe.Maybe (List.List ( Path.Path, route )), maybeRequestJson : RenderRequest.RenderRequest route }"},{"name":"Program","comment":" ","args":["route"],"type":"Platform.Program Pages.Internal.Platform.Cli.Flags (Pages.Internal.Platform.Cli.Model route) Pages.Internal.Platform.Cli.Msg"}],"values":[{"name":"cliApplication","comment":" ","type":"Pages.ProgramConfig.ProgramConfig userMsg userModel (Maybe.Maybe route) siteData pageData sharedData -> Pages.Internal.Platform.Cli.Program (Maybe.Maybe route)"},{"name":"init","comment":" ","type":"RenderRequest.RenderRequest route -> Pages.ContentCache.ContentCache -> Pages.ProgramConfig.ProgramConfig userMsg userModel route siteData pageData sharedData -> Json.Decode.Value -> ( Pages.Internal.Platform.Cli.Model route, Pages.Internal.Platform.Effect.Effect )"},{"name":"requestDecoder","comment":" ","type":"Json.Decode.Decoder { masked : Pages.StaticHttp.Request.Request, unmasked : Pages.StaticHttp.Request.Request }"},{"name":"update","comment":" ","type":"Pages.ContentCache.ContentCache -> Pages.ProgramConfig.ProgramConfig userMsg userModel route siteData pageData sharedData -> Pages.Internal.Platform.Cli.Msg -> Pages.Internal.Platform.Cli.Model route -> ( Pages.Internal.Platform.Cli.Model route, Pages.Internal.Platform.Effect.Effect )"}],"binops":[]},{"name":"Pages.Internal.RoutePattern","comment":" Exposed for internal use only (used in generated code).\n\n@docs Ending, RoutePattern, Segment, codec, view\n\n","unions":[{"name":"Ending","comment":" ","args":[],"cases":[["Optional",["String.String"]],["RequiredSplat",[]],["OptionalSplat",[]]]},{"name":"Segment","comment":" ","args":[],"cases":[["StaticSegment",["String.String"]],["DynamicSegment",["String.String"]]]}],"aliases":[{"name":"RoutePattern","comment":" ","args":[],"type":"{ segments : List.List Pages.Internal.RoutePattern.Segment, ending : Maybe.Maybe Pages.Internal.RoutePattern.Ending }"}],"values":[{"name":"codec","comment":" ","type":"Codec.Codec Pages.Internal.RoutePattern.RoutePattern"},{"name":"view","comment":" ","type":"Pages.Internal.RoutePattern.RoutePattern -> Html.Html msg"}],"binops":[]},{"name":"Pages.Internal.Router","comment":" Exposed for internal use only (used in generated code).\n\n@docs Matcher, firstMatch, fromOptionalSplat, maybeToList, nonEmptyToList, toNonEmpty\n\n","unions":[],"aliases":[{"name":"Matcher","comment":" ","args":["route"],"type":"{ pattern : String.String, toRoute : List.List (Maybe.Maybe String.String) -> Maybe.Maybe route }"}],"values":[{"name":"firstMatch","comment":" ","type":"List.List (Pages.Internal.Router.Matcher route) -> String.String -> Maybe.Maybe route"},{"name":"fromOptionalSplat","comment":" ","type":"Maybe.Maybe String.String -> List.List String.String"},{"name":"maybeToList","comment":" ","type":"Maybe.Maybe String.String -> List.List String.String"},{"name":"nonEmptyToList","comment":" ","type":"( String.String, List.List String.String ) -> List.List String.String"},{"name":"toNonEmpty","comment":" ","type":"String.String -> ( String.String, List.List String.String )"}],"binops":[]},{"name":"Pages.Manifest","comment":" Represents the configuration of a\n[web manifest file](https://developer.mozilla.org/en-US/docs/Web/Manifest).\n\nYou pass your `Pages.Manifest.Config` record into the `Pages.application` function\n(from your generated `Pages.elm` file).\n\n import Pages.Manifest as Manifest\n import Pages.Manifest.Category\n\n manifest : Manifest.Config\n manifest =\n Manifest.init\n { name = static.siteName\n , description = \"elm-pages - \" ++ tagline\n , startUrl = Route.Index {} |> Route.toPath\n , icons =\n [ icon webp 192\n , icon webp 512\n , icon MimeType.Png 192\n , icon MimeType.Png 512\n ]\n }\n |> Manifest.withShortName \"elm-pages\"\n\n@docs Config, Icon\n\n\n## Builder options\n\n@docs init\n\n@docs withBackgroundColor, withCategories, withDisplayMode, withIarcRatingId, withLang, withOrientation, withShortName, withThemeColor\n\n\n## Config options\n\n@docs DisplayMode, Orientation, IconPurpose\n\n\n## Functions for use by the generated code (`Pages.elm`)\n\n@docs toJson\n\n","unions":[{"name":"DisplayMode","comment":" See <https://developer.mozilla.org/en-US/docs/Web/Manifest/display>\n","args":[],"cases":[["Fullscreen",[]],["Standalone",[]],["MinimalUi",[]],["Browser",[]]]},{"name":"IconPurpose","comment":" <https://w3c.github.io/manifest/#dfn-icon-purposes>\n","args":[],"cases":[["IconPurposeMonochrome",[]],["IconPurposeMaskable",[]],["IconPurposeAny",[]]]},{"name":"Orientation","comment":" <https://developer.mozilla.org/en-US/docs/Web/Manifest/orientation>\n","args":[],"cases":[["Any",[]],["Natural",[]],["Landscape",[]],["LandscapePrimary",[]],["LandscapeSecondary",[]],["Portrait",[]],["PortraitPrimary",[]],["PortraitSecondary",[]]]}],"aliases":[{"name":"Config","comment":" Represents a [web app manifest file](https://developer.mozilla.org/en-US/docs/Web/Manifest)\n(see above for how to use it).\n","args":[],"type":"{ backgroundColor : Maybe.Maybe Color.Color, categories : List.List Pages.Manifest.Category.Category, displayMode : Pages.Manifest.DisplayMode, orientation : Pages.Manifest.Orientation, description : String.String, iarcRatingId : Maybe.Maybe String.String, name : String.String, themeColor : Maybe.Maybe Color.Color, startUrl : Path.Path, shortName : Maybe.Maybe String.String, icons : List.List Pages.Manifest.Icon, lang : LanguageTag.LanguageTag }"},{"name":"Icon","comment":" <https://developer.mozilla.org/en-US/docs/Web/Manifest/icons>\n","args":[],"type":"{ src : Pages.Url.Url, sizes : List.List ( Basics.Int, Basics.Int ), mimeType : Maybe.Maybe MimeType.MimeImage, purposes : List.List Pages.Manifest.IconPurpose }"}],"values":[{"name":"init","comment":" Setup a minimal Manifest.Config. You can then use the `with...` builder functions to set additional options.\n","type":"{ description : String.String, name : String.String, startUrl : Path.Path, icons : List.List Pages.Manifest.Icon } -> Pages.Manifest.Config"},{"name":"toJson","comment":" Feel free to use this, but in 99% of cases you won't need it. The generated\ncode will run this for you to generate your `manifest.json` file automatically!\n","type":"String.String -> Pages.Manifest.Config -> Json.Encode.Value"},{"name":"withBackgroundColor","comment":" Set <https://developer.mozilla.org/en-US/docs/Web/Manifest/background_color>.\n","type":"Color.Color -> Pages.Manifest.Config -> Pages.Manifest.Config"},{"name":"withCategories","comment":" Set <https://developer.mozilla.org/en-US/docs/Web/Manifest/categories>.\n","type":"List.List Pages.Manifest.Category.Category -> Pages.Manifest.Config -> Pages.Manifest.Config"},{"name":"withDisplayMode","comment":" Set <https://developer.mozilla.org/en-US/docs/Web/Manifest/display>.\n","type":"Pages.Manifest.DisplayMode -> Pages.Manifest.Config -> Pages.Manifest.Config"},{"name":"withIarcRatingId","comment":" Set <https://developer.mozilla.org/en-US/docs/Web/Manifest/iarc_rating_id>.\n","type":"String.String -> Pages.Manifest.Config -> Pages.Manifest.Config"},{"name":"withLang","comment":" Set <https://developer.mozilla.org/en-US/docs/Web/Manifest/lang>.\n","type":"LanguageTag.LanguageTag -> Pages.Manifest.Config -> Pages.Manifest.Config"},{"name":"withOrientation","comment":" Set <https://developer.mozilla.org/en-US/docs/Web/Manifest/orientation>.\n","type":"Pages.Manifest.Orientation -> Pages.Manifest.Config -> Pages.Manifest.Config"},{"name":"withShortName","comment":" Set <https://developer.mozilla.org/en-US/docs/Web/Manifest/short_name>.\n","type":"String.String -> Pages.Manifest.Config -> Pages.Manifest.Config"},{"name":"withThemeColor","comment":" Set <https://developer.mozilla.org/en-US/docs/Web/Manifest/theme_color>.\n","type":"Color.Color -> Pages.Manifest.Config -> Pages.Manifest.Config"}],"binops":[]},{"name":"Pages.Manifest.Category","comment":" See <https://github.com/w3c/manifest/wiki/Categories> and\n<https://developer.mozilla.org/en-US/docs/Web/Manifest/categories>\n\n@docs toString, Category\n\n@docs books, business, education, entertainment, finance, fitness, food, games, government, health, kids, lifestyle, magazines, medical, music, navigation, news, personalization, photo, politics, productivity, security, shopping, social, sports, travel, utilities, weather\n\n\n## Custom categories\n\n@docs custom\n\n","unions":[{"name":"Category","comment":" Represents a known, valid category, as specified by\n<https://github.com/w3c/manifest/wiki/Categories>. If this document is updated\nand I don't add it, please open an issue or pull request to let me know!\n","args":[],"cases":[]}],"aliases":[],"values":[{"name":"books","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"business","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"custom","comment":" It's best to use the pre-defined categories to ensure that clients (Android, iOS,\nChrome, Windows app store, etc.) are aware of it and can handle it appropriately.\nBut, if you're confident about using a custom one, you can do so with `Pages.Manifest.custom`.\n","type":"String.String -> Pages.Manifest.Category.Category"},{"name":"education","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"entertainment","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"finance","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"fitness","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"food","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"games","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"government","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"health","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"kids","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"lifestyle","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"magazines","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"medical","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"music","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"navigation","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"news","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"personalization","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"photo","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"politics","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"productivity","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"security","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"shopping","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"social","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"sports","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"toString","comment":" Turn a category into its official String representation, as seen\nhere: <https://github.com/w3c/manifest/wiki/Categories>.\n","type":"Pages.Manifest.Category.Category -> String.String"},{"name":"travel","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"utilities","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"},{"name":"weather","comment":" Creates the described category.\n","type":"Pages.Manifest.Category.Category"}],"binops":[]},{"name":"Pages.PageUrl","comment":" Same as a Url in `elm/url`, but slightly more structured. The path portion of the URL is parsed into a [`Path`](Path) type, and\nthe query params use the [`QueryParams`](QueryParams) type which allows you to parse just the query params or access them into a Dict.\n\nBecause `elm-pages` takes care of the main routing for pages in your app, the standard Elm URL parser API isn't suited\nto parsing query params individually, which is why the structure of these types is different.\n\n@docs PageUrl, toUrl\n\n","unions":[],"aliases":[{"name":"PageUrl","comment":" ","args":[],"type":"{ protocol : Url.Protocol, host : String.String, port_ : Maybe.Maybe Basics.Int, path : Path.Path, query : Maybe.Maybe QueryParams.QueryParams, fragment : Maybe.Maybe String.String }"}],"values":[{"name":"toUrl","comment":" ","type":"Pages.PageUrl.PageUrl -> Url.Url"}],"binops":[]},{"name":"Pages.Secrets","comment":" Secrets are a secure way to use environment variables in your DataSource.Http requests. The actual environment\nvariable value is used to perform DataSource.Http requests, while the masked value is the only thing that ends up in your\nbuilt site. Let's go through what happens in a concrete example:\n\n\n## Example\n\nLet's say you execute this from the shell:\n\n```shell\nGITHUB_TOKEN=abcd1234 API_KEY=xyz789 elm-pages build\n```\n\nAnd your DataSource.Http request in your Elm code looks like this:\n\n import Pages.Secrets as Secrets\n import DataSource.Http\n\n DataSource.Http.request\n (Secrets.succeed\n (\\apiKey githubToken ->\n { url = \"https://api.github.com/repos/dillonkearns/elm-pages?apiKey=\" ++ apiKey\n , method = \"GET\"\n , headers = [ ( \"Authorization\", \"Bearer \" ++ githubToken ) ]\n , body = DataSource.Http.emptyBody\n }\n )\n |> Secrets.with \"API_KEY\"\n |> Secrets.with \"BEARER\"\n )\n (Decode.succeed ())\n )\n\nThe following masked values are what will be visible in your production bundle if you inspect the code or the Network tab:\n\n [GET]https://api.github.com/repos/dillonkearns/elm-pages?apiKey=<API_KEY>Authorization : Bearer <BEARER>\n\nSo the actual Secrets only exist for the duration of the build in order to perform the DataSource.Http requests, but they\nare replaced with `<SECRET_NAME>` once that step is done and your assets are bundled.\n\n@docs Value, map, succeed, with\n\n","unions":[],"aliases":[{"name":"Value","comment":" Represents a Secure value from your environment variables. `Pages.Secrets.Value`s are much like `Json.Decode.Value`s\nin that you can take raw values, map them, and combine them with other values into any data structure.\n","args":["value"],"type":"Secrets.Value value"}],"values":[{"name":"map","comment":" Map a Secret's raw value into an arbitrary type or value.\n","type":"(valueA -> valueB) -> Pages.Secrets.Value valueA -> Pages.Secrets.Value valueB"},{"name":"succeed","comment":" Hardcode a secret value. Or, this can be used to start a pipeline-style value with several different secrets (see\nthe example at the top of this page).\n\n import Pages.Secrets as Secrets\n\n Secrets.succeed \"hardcoded-secret\"\n\n","type":"value -> Pages.Secrets.Value value"},{"name":"with","comment":" Allows you to chain together multiple secrets. See the top of this page for a full example.\n","type":"String.String -> Pages.Secrets.Value (String.String -> value) -> Pages.Secrets.Value value"}],"binops":[]},{"name":"Pages.Url","comment":" Some of the `elm-pages` APIs will take internal URLs and ensure that they have the `canonicalSiteUrl` prepended.\n\nThat's the purpose for this type. If you have an external URL, like `Pages.Url.external \"https://google.com\"`,\nthen the canonicalUrl will not be prepended when it is used in a head tag.\n\nIf you refer to a local page, like `Route.Index |> Route.toPath |> Pages.Url.fromPath`, or `Pages.Url.fromPath`\n\n@docs Url, external, fromPath, toAbsoluteUrl, toString\n\n","unions":[{"name":"Url","comment":" ","args":[],"cases":[]}],"aliases":[],"values":[{"name":"external","comment":" ","type":"String.String -> Pages.Url.Url"},{"name":"fromPath","comment":" ","type":"Path.Path -> Pages.Url.Url"},{"name":"toAbsoluteUrl","comment":" ","type":"String.String -> Pages.Url.Url -> String.String"},{"name":"toString","comment":" ","type":"Pages.Url.Url -> String.String"}],"binops":[]},{"name":"Path","comment":" Represents the path portion of a URL (not query parameters, fragment, protocol, port, etc.).\n\nThis helper lets you combine together path parts without worrying about having too many or too few slashes.\nThese two examples will result in the same URL, even though the first example has trailing and leading slashes, and the\nsecond does not.\n\n Path.join [ \"/blog/\", \"/post-1/\" ]\n |> Path.toAbsolute\n --> \"/blog/post-1\"\n\n Path.join [ \"blog\", \"post-1\" ]\n |> Path.toAbsolute\n --> \"/blog/post-1\"\n\nWe can also safely join Strings that include multiple path parts, a single path part per string, or a mix of the two:\n\n Path.join [ \"/articles/archive/\", \"1977\", \"06\", \"10\", \"post-1\" ]\n |> Path.toAbsolute\n --> \"/articles/archive/1977/06/10/post-1\"\n\n\n## Creating Paths\n\n@docs Path, join, fromString\n\n\n## Turning Paths to String\n\n@docs toAbsolute, toRelative, toSegments\n\n","unions":[{"name":"Path","comment":" The path portion of the URL, normalized to ensure that path segments are joined with `/`s in the right places (no doubled up or missing slashes).\n","args":[],"cases":[]}],"aliases":[],"values":[{"name":"fromString","comment":" Create a Path from a path String.\n\n Path.fromString \"blog/post-1/\"\n |> Path.toAbsolute\n |> Expect.equal \"/blog/post-1\"\n\n","type":"String.String -> Path.Path"},{"name":"join","comment":" Create a Path from multiple path parts. Each part can either be a single path segment, like `blog`, or a\nmulti-part path part, like `blog/post-1`.\n","type":"List.List String.String -> Path.Path"},{"name":"toAbsolute","comment":" Turn a Path to an absolute URL (with no trailing slash).\n","type":"Path.Path -> String.String"},{"name":"toRelative","comment":" Turn a Path to a relative URL.\n","type":"Path.Path -> String.String"},{"name":"toSegments","comment":" ","type":"Path.Path -> List.List String.String"}],"binops":[]},{"name":"QueryParams","comment":" Represents the query portion of a URL. You can use `toDict` or `toString` to turn it into basic types, or you can\nparse it into a custom type using the other functions in this module.\n\n@docs QueryParams\n\n\n## Parsing\n\n@docs Parser\n\n@docs andThen, fail, fromResult, fromString, optionalString, parse, string, strings, succeed\n\n\n## Combining\n\n@docs map2, oneOf\n\n\n## Accessing as Built-In Types\n\n@docs toDict, toString\n\n","unions":[{"name":"Parser","comment":" ","args":["a"],"cases":[]},{"name":"QueryParams","comment":" ","args":[],"cases":[]}],"aliases":[],"values":[{"name":"andThen","comment":" ","type":"(a -> QueryParams.Parser b) -> QueryParams.Parser a -> QueryParams.Parser b"},{"name":"fail","comment":" ","type":"String.String -> QueryParams.Parser a"},{"name":"fromResult","comment":" ","type":"Result.Result String.String a -> QueryParams.Parser a"},{"name":"fromString","comment":" ","type":"String.String -> QueryParams.QueryParams"},{"name":"map2","comment":" ","type":"(a -> b -> combined) -> QueryParams.Parser a -> QueryParams.Parser b -> QueryParams.Parser combined"},{"name":"oneOf","comment":" ","type":"List.List (QueryParams.Parser a) -> QueryParams.Parser a"},{"name":"optionalString","comment":" ","type":"String.String -> QueryParams.Parser (Maybe.Maybe String.String)"},{"name":"parse","comment":" ","type":"QueryParams.Parser a -> QueryParams.QueryParams -> Result.Result String.String a"},{"name":"string","comment":" ","type":"String.String -> QueryParams.Parser String.String"},{"name":"strings","comment":" ","type":"String.String -> QueryParams.Parser (List.List String.String)"},{"name":"succeed","comment":" ","type":"a -> QueryParams.Parser a"},{"name":"toDict","comment":" ","type":"QueryParams.QueryParams -> Dict.Dict String.String (List.List String.String)"},{"name":"toString","comment":" ","type":"QueryParams.QueryParams -> String.String"}],"binops":[]}]