Merge branch 'all-improvements'

This adds general API documentation, a tutorial and error handling.

6 files changed, 498 insertions, 0 deletions

diff --git a/docs/tutorial/Makefile b/docs/tutorial/Makefile
new file mode 100644
index 0000000..04d8d71
--- /dev/null
+++ b/docs/tutorial/Makefile
@@ -0,0 +1,4 @@
+default:
+	pandoc -f markdown+lhs+yaml_metadata_block --highlight-style=haddock -S -c "https://maxcdn.bootstrapcdn.com/bootstrap/3.3.6/css/bootstrap.min.css" --section-divs -c tutorial.css --toc --standalone -t html5 -o tutorial.html tutorial.lhs
+	pandoc -f markdown+lhs+yaml_metadata_block --highlight-style=haddock --toc --standalone -t rst -o tutorial.rst tutorial.lhs
+	pandoc -f markdown+lhs+yaml_metadata_block --highlight-style=haddock --toc --standalone -t latex -o tutorial.pdf tutorial.lhs
diff --git a/docs/tutorial/tutorial.css b/docs/tutorial/tutorial.css
new file mode 100644
index 0000000..831b73d
--- /dev/null
+++ b/docs/tutorial/tutorial.css
@@ -0,0 +1,3 @@
+body {
+    padding: 0 20px;
+}
diff --git a/docs/tutorial/tutorial.html b/docs/tutorial/tutorial.html
new file mode 100644
index 0000000..fab66c2
--- /dev/null
+++ b/docs/tutorial/tutorial.html
@@ -0,0 +1,165 @@
+<!DOCTYPE html>
+<html>
+<head>
+  <meta charset="utf-8">
+  <meta name="generator" content="pandoc">
+  <meta name="viewport" content="width=device-width, initial-scale=1.0, user-scalable=yes">
+  <title>GraphQL Haskell Tutorial</title>
+  <style type="text/css">code{white-space: pre;}</style>
+  <style type="text/css">
+div.sourceCode { overflow-x: auto; }
+table.sourceCode, tr.sourceCode, td.lineNumbers, td.sourceCode {
+  margin: 0; padding: 0; vertical-align: baseline; border: none; }
+table.sourceCode { width: 100%; line-height: 100%; }
+td.lineNumbers { text-align: right; padding-right: 4px; padding-left: 4px; color: #aaaaaa; border-right: 1px solid #aaaaaa; }
+td.sourceCode { padding-left: 5px; }
+code > span.kw { color: #0000ff; } /* Keyword */
+code > span.ch { color: #008080; } /* Char */
+code > span.st { color: #008080; } /* String */
+code > span.co { color: #008000; } /* Comment */
+code > span.ot { color: #ff4000; } /* Other */
+code > span.al { color: #ff0000; } /* Alert */
+code > span.er { color: #ff0000; font-weight: bold; } /* Error */
+code > span.wa { color: #008000; font-weight: bold; } /* Warning */
+code > span.cn { } /* Constant */
+code > span.sc { color: #008080; } /* SpecialChar */
+code > span.vs { color: #008080; } /* VerbatimString */
+code > span.ss { color: #008080; } /* SpecialString */
+code > span.im { } /* Import */
+code > span.va { } /* Variable */
+code > span.cf { color: #0000ff; } /* ControlFlow */
+code > span.op { } /* Operator */
+code > span.bu { } /* BuiltIn */
+code > span.ex { } /* Extension */
+code > span.pp { color: #ff4000; } /* Preprocessor */
+code > span.do { color: #008000; } /* Documentation */
+code > span.an { color: #008000; } /* Annotation */
+code > span.cv { color: #008000; } /* CommentVar */
+code > span.at { } /* Attribute */
+code > span.in { color: #008000; } /* Information */
+  </style>
+  <link rel="stylesheet" href="https://maxcdn.bootstrapcdn.com/bootstrap/3.3.6/css/bootstrap.min.css">
+  <link rel="stylesheet" href="tutorial.css">
+  <!--[if lt IE 9]>
+    <script src="//cdnjs.cloudflare.com/ajax/libs/html5shiv/3.7.3/html5shiv-printshiv.min.js"></script>
+  <![endif]-->
+</head>
+<body>
+<header>
+<h1 class="title">GraphQL Haskell Tutorial</h1>
+</header>
+<nav id="TOC">
+<ul>
+<li><a href="#getting-started">Getting started</a><ul>
+<li><a href="#first-example">First example</a></li>
+<li><a href="#monadic-actions">Monadic actions</a></li>
+<li><a href="#errors">Errors</a></li>
+<li><a href="#combining-resolvers">Combining resolvers</a></li>
+</ul></li>
+<li><a href="#further-examples">Further examples</a></li>
+</ul>
+</nav>
+<section id="getting-started" class="level2">
+<h2>Getting started</h2>
+<p>Welcome to graphql-haskell!</p>
+<p>We have written a small tutorial to help you (and ourselves) understand the graphql package.</p>
+<p>Since this file is a literate haskell file, we start by importing some dependencies.</p>
+<div class="sourceCode"><pre class="sourceCode literate haskell"><code class="sourceCode haskell"><span class="ot">{-# LANGUAGE OverloadedStrings #-}</span>
+<span class="ot">{-# LANGUAGE LambdaCase #-}</span>
+<span class="kw">module</span> <span class="dt">Main</span> <span class="kw">where</span>
+
+<span class="kw">import </span><span class="dt">Prelude</span> <span class="kw">hiding</span> (empty, putStrLn)
+<span class="kw">import </span><span class="dt">Data.GraphQL</span>
+<span class="kw">import </span><span class="dt">Data.GraphQL.Schema</span>
+<span class="kw">import qualified</span> <span class="dt">Data.GraphQL.Schema</span> <span class="kw">as</span> <span class="dt">Schema</span>
+
+<span class="kw">import </span><span class="dt">Control.Applicative</span>
+<span class="kw">import </span><span class="dt">Data.Text</span> <span class="kw">hiding</span> (empty)
+<span class="kw">import </span><span class="dt">Data.Aeson</span>
+<span class="kw">import </span><span class="dt">Data.ByteString.Lazy.Char8</span> (putStrLn)
+
+<span class="kw">import </span><span class="dt">Data.Time</span>
+
+<span class="kw">import </span><span class="dt">Debug.Trace</span></code></pre></div>
+<section id="first-example" class="level3">
+<h3>First example</h3>
+<p>Now, as our first example, we are going to look at the example from <a href="https://github.com/graphql/graphql-js">graphql.js</a>.</p>
+<p>First we build a GraphQL schema.</p>
+<div class="sourceCode"><pre class="sourceCode literate haskell"><code class="sourceCode haskell"><span class="ot">schema1 ::</span> <span class="dt">Alternative</span> f <span class="ot">=&gt;</span> <span class="dt">Schema</span> f
+schema1 <span class="fu">=</span> <span class="dt">Schema</span> [hello]
+
+<span class="ot">hello ::</span> <span class="dt">Alternative</span> f <span class="ot">=&gt;</span> <span class="dt">Resolver</span> f
+hello <span class="fu">=</span> Schema.scalar <span class="st">&quot;hello&quot;</span> (<span class="st">&quot;it&#39;s me&quot;</span><span class="ot"> ::</span> <span class="dt">Text</span>)</code></pre></div>
+<p>This defines a simple schema with one type and one field, that resolves to a fixed value.</p>
+<p>Next we define our query.</p>
+<div class="sourceCode"><pre class="sourceCode literate haskell"><code class="sourceCode haskell"><span class="ot">query1 ::</span> <span class="dt">Text</span>
+query1 <span class="fu">=</span> <span class="st">&quot;{ hello }&quot;</span></code></pre></div>
+<p>To run the query, we call the <code>graphql</code> with the schema and the query.</p>
+<div class="sourceCode"><pre class="sourceCode literate haskell"><code class="sourceCode haskell"><span class="ot">main1 ::</span> <span class="dt">IO</span> ()
+main1 <span class="fu">=</span> putStrLn <span class="fu">=&lt;&lt;</span> encode <span class="fu">&lt;$&gt;</span> graphql schema1 query1</code></pre></div>
+<p>This runs the query by fetching the one field defined, returning</p>
+<p><code>{&quot;data&quot; : {&quot;hello&quot;:&quot;it's me&quot;}}</code></p>
+</section>
+<section id="monadic-actions" class="level3">
+<h3>Monadic actions</h3>
+<p>For this example, we’re going to be using time.</p>
+<div class="sourceCode"><pre class="sourceCode literate haskell"><code class="sourceCode haskell"><span class="ot">schema2 ::</span> <span class="dt">Schema</span> <span class="dt">IO</span>
+schema2 <span class="fu">=</span> <span class="dt">Schema</span> [time]
+
+<span class="ot">time ::</span> <span class="dt">Resolver</span> <span class="dt">IO</span>
+time <span class="fu">=</span> Schema.scalarA <span class="st">&quot;time&quot;</span> <span class="fu">$</span> \<span class="kw">case</span>
+  [] <span class="ot">-&gt;</span> <span class="kw">do</span> t <span class="ot">&lt;-</span> getCurrentTime
+           return <span class="fu">$</span> show t
+  _  <span class="ot">-&gt;</span> empty</code></pre></div>
+<p>This defines a simple schema with one type and one field, which resolves to the current time.</p>
+<p>Next we define our query.</p>
+<div class="sourceCode"><pre class="sourceCode literate haskell"><code class="sourceCode haskell"><span class="ot">query2 ::</span> <span class="dt">Text</span>
+query2 <span class="fu">=</span> <span class="st">&quot;{ time }&quot;</span>
+
+<span class="ot">main2 ::</span> <span class="dt">IO</span> ()
+main2 <span class="fu">=</span> putStrLn <span class="fu">=&lt;&lt;</span> encode <span class="fu">&lt;$&gt;</span> graphql schema2 query2</code></pre></div>
+<p>This runs the query, returning the current time</p>
+<p><code>{&quot;data&quot;: {&quot;time&quot;:&quot;2016-03-08 23:28:14.546899 UTC&quot;}}</code></p>
+</section>
+<section id="errors" class="level3">
+<h3>Errors</h3>
+<p>Errors are handled according to the spec, with fields that cause erros being resolved to <code>null</code>, and an error being added to the error list.</p>
+<p>An example of this is the following query:</p>
+<div class="sourceCode"><pre class="sourceCode literate haskell"><code class="sourceCode haskell"><span class="ot">queryShouldFail ::</span> <span class="dt">Text</span>
+queryShouldFail <span class="fu">=</span> <span class="st">&quot;{ boyhowdy }&quot;</span></code></pre></div>
+<p>Since there is no <code>boyhowdy</code> field in our schema, it will not resolve, and the query will fail, as we can see in the following example.</p>
+<div class="sourceCode"><pre class="sourceCode literate haskell"><code class="sourceCode haskell"><span class="ot">mainShouldFail ::</span> <span class="dt">IO</span> ()
+mainShouldFail <span class="fu">=</span> <span class="kw">do</span>
+  r <span class="ot">&lt;-</span> graphql schema1 query1
+  putStrLn <span class="fu">$</span> encode r
+  putStrLn <span class="st">&quot;This will fail&quot;</span>
+  r <span class="ot">&lt;-</span> graphql schema1 queryShouldFail
+  putStrLn <span class="fu">$</span> encode r</code></pre></div>
+<p>This outputs:</p>
+<pre><code>{&quot;data&quot;: {&quot;hello&quot;: &quot;it&#39;s me&quot;}}
+This will fail
+{&quot;data&quot;: {&quot;boyhowdy&quot;: null}, &quot;errors&quot;:[{&quot;message&quot;: &quot;the field boyhowdy did not resolve.&quot;}]}</code></pre>
+</section>
+<section id="combining-resolvers" class="level3">
+<h3>Combining resolvers</h3>
+<p>Now that we have two resolvers, we can define a schema which uses them both.</p>
+<div class="sourceCode"><pre class="sourceCode literate haskell"><code class="sourceCode haskell"><span class="ot">schema3 ::</span> <span class="dt">Schema</span> <span class="dt">IO</span>
+schema3 <span class="fu">=</span> <span class="dt">Schema</span> [hello, time]
+
+<span class="ot">query3 ::</span> <span class="dt">Text</span>
+query3 <span class="fu">=</span> <span class="st">&quot;query timeAndHello { time hello }&quot;</span>
+
+<span class="ot">main3 ::</span> <span class="dt">IO</span> ()
+main3 <span class="fu">=</span> putStrLn <span class="fu">=&lt;&lt;</span> encode <span class="fu">&lt;$&gt;</span> graphql schema3 query3</code></pre></div>
+<p>This queries for both time and hello, returning</p>
+<p><code>{ &quot;data&quot;: {&quot;hello&quot;:&quot;it's me&quot;,&quot;time&quot;:&quot;2016-03-08 23:29:11.62108 UTC&quot;}}</code></p>
+<p>Notice that we can name our queries, as we did with <code>timeAndHello</code>. Since we have only been using single queries, we can use the shorthand <code>{ time hello}</code>, as we have been doing in the previous examples.</p>
+<p>In GraphQL there can only be one operation per query.</p>
+</section>
+</section>
+<section id="further-examples" class="level2">
+<h2>Further examples</h2>
+<p>More examples on queries and a more complex schema can be found in the test directory, in the <a href="../../tests/Test/StarWars">Test.StarWars</a> module. This includes a more complex schema, and more complex queries.</p>
+</section>
+</body>
+</html>
diff --git a/docs/tutorial/tutorial.lhs b/docs/tutorial/tutorial.lhs
new file mode 100644
index 0000000..387d14d
--- /dev/null
+++ b/docs/tutorial/tutorial.lhs
@@ -0,0 +1,150 @@
+---
+title: GraphQL Haskell Tutorial
+---
+
+
+== Getting started ==
+
+Welcome to graphql-haskell!
+
+We have written a small tutorial to help you (and ourselves) understand the graphql package.
+
+Since this file is a literate haskell file, we start by importing some dependencies.
+
+> {-# LANGUAGE OverloadedStrings #-}
+> {-# LANGUAGE LambdaCase #-}
+> module Main where
+>
+> import Prelude hiding (empty, putStrLn)
+> import Data.GraphQL
+> import Data.GraphQL.Schema
+> import qualified Data.GraphQL.Schema as Schema
+>
+> import Control.Applicative
+> import Data.Text hiding (empty)
+> import Data.Aeson
+> import Data.ByteString.Lazy.Char8 (putStrLn)
+>
+> import Data.Time
+>
+> import Debug.Trace
+
+=== First example ===
+
+Now, as our first example, we are going to look at the
+example from [graphql.js](https://github.com/graphql/graphql-js).
+
+First we build a GraphQL schema.
+
+> schema1 :: Alternative f => Schema f
+> schema1 = Schema [hello]
+>
+> hello :: Alternative f => Resolver f
+> hello = Schema.scalar "hello" ("it's me" :: Text)
+
+This defines a simple schema with one type and one field, that resolves to a fixed value.
+
+Next we define our query.
+
+> query1 :: Text
+> query1 = "{ hello }"
+
+
+To run the query, we call the `graphql` with the schema and the query.
+
+> main1 :: IO ()
+> main1 = putStrLn =<< encode <$> graphql schema1 query1
+
+This runs the query by fetching the one field defined,
+returning
+
+```{"data" : {"hello":"it's me"}}```
+
+
+
+=== Monadic actions ===
+
+For this example, we're going to be using time.
+
+> schema2 :: Schema IO
+> schema2 = Schema [time]
+>
+> time :: Resolver IO
+> time = Schema.scalarA "time" $ \case
+>   [] -> do t <- getCurrentTime
+>            return $ show t
+>   _  -> empty
+
+This defines a simple schema with one type and one field,
+which resolves to the current time.
+
+Next we define our query.
+
+> query2 :: Text
+> query2 = "{ time }"
+>
+> main2 :: IO ()
+> main2 = putStrLn =<< encode <$> graphql schema2 query2
+
+This runs the query, returning the current time
+
+```{"data": {"time":"2016-03-08 23:28:14.546899 UTC"}}```
+
+
+=== Errors ===
+
+Errors are handled according to the spec,
+with fields that cause erros being resolved to `null`,
+and an error being added to the error list.
+
+An example of this is the following query:
+
+> queryShouldFail :: Text
+> queryShouldFail = "{ boyhowdy }"
+
+Since there is no `boyhowdy` field in our schema, it will not resolve,
+and the query will fail, as we can see in the following example.
+
+> mainShouldFail :: IO ()
+> mainShouldFail = do
+>   r <- graphql schema1 query1
+>   putStrLn $ encode r
+>   putStrLn "This will fail"
+>   r <- graphql schema1 queryShouldFail
+>   putStrLn $ encode r
+>
+
+This outputs:
+
+```
+{"data": {"hello": "it's me"}}
+This will fail
+{"data": {"boyhowdy": null}, "errors":[{"message": "the field boyhowdy did not resolve."}]}
+```
+
+=== Combining resolvers ===
+
+Now that we have two resolvers, we can define a schema which uses them both.
+
+> schema3 :: Schema IO
+> schema3 = Schema [hello, time]
+>
+> query3 :: Text
+> query3 = "query timeAndHello { time hello }"
+>
+> main3 :: IO ()
+> main3 = putStrLn =<< encode <$> graphql schema3 query3
+
+This queries for both time and hello, returning
+
+```{ "data": {"hello":"it's me","time":"2016-03-08 23:29:11.62108 UTC"}}```
+
+Notice that we can name our queries, as we did with `timeAndHello`. Since we have only been using single queries, we can use the shorthand `{ time hello}`, as we have been doing in the previous examples.
+
+In GraphQL there can only be one operation per query.
+
+
+== Further examples ==
+
+More examples on queries and a more complex schema can be found in the test directory,
+in the [Test.StarWars](../../tests/Test/StarWars) module. This includes a more complex schema, and more complex queries.
diff --git a/docs/tutorial/tutorial.pdf b/docs/tutorial/tutorial.pdf
new file mode 100644
index 0000000..6295ee8
--- /dev/null
+++ b/docs/tutorial/tutorial.pdf
diff --git a/docs/tutorial/tutorial.rst b/docs/tutorial/tutorial.rst
new file mode 100644
index 0000000..1c8b5ff
--- /dev/null
+++ b/docs/tutorial/tutorial.rst
@@ -0,0 +1,176 @@
+========================
+GraphQL Haskell Tutorial
+========================
+
+.. contents::
+   :depth: 3
+..
+
+Getting started
+===============
+
+Welcome to graphql-haskell!
+
+We have written a small tutorial to help you (and ourselves) understand
+the graphql package.
+
+Since this file is a literate haskell file, we start by importing some
+dependencies.
+
+.. code:: haskell
+
+    {-# LANGUAGE OverloadedStrings #-}
+    {-# LANGUAGE LambdaCase #-}
+    module Main where
+
+    import Prelude hiding (empty, putStrLn)
+    import Data.GraphQL
+    import Data.GraphQL.Schema
+    import qualified Data.GraphQL.Schema as Schema
+
+    import Control.Applicative
+    import Data.Text hiding (empty)
+    import Data.Aeson
+    import Data.ByteString.Lazy.Char8 (putStrLn)
+
+    import Data.Time
+
+    import Debug.Trace
+
+First example
+-------------
+
+Now, as our first example, we are going to look at the example from
+`graphql.js <https://github.com/graphql/graphql-js>`__.
+
+First we build a GraphQL schema.
+
+.. code:: haskell
+
+    schema1 :: Alternative f => Schema f
+    schema1 = Schema [hello]
+
+    hello :: Alternative f => Resolver f
+    hello = Schema.scalar "hello" ("it's me" :: Text)
+
+This defines a simple schema with one type and one field, that resolves
+to a fixed value.
+
+Next we define our query.
+
+.. code:: haskell
+
+    query1 :: Text
+    query1 = "{ hello }"
+
+To run the query, we call the ``graphql`` with the schema and the query.
+
+.. code:: haskell
+
+    main1 :: IO ()
+    main1 = putStrLn =<< encode <$> graphql schema1 query1
+
+This runs the query by fetching the one field defined, returning
+
+``{"data" : {"hello":"it's me"}}``
+
+Monadic actions
+---------------
+
+For this example, we're going to be using time.
+
+.. code:: haskell
+
+    schema2 :: Schema IO
+    schema2 = Schema [time]
+
+    time :: Resolver IO
+    time = Schema.scalarA "time" $ \case
+      [] -> do t <- getCurrentTime
+               return $ show t
+      _  -> empty
+
+This defines a simple schema with one type and one field, which resolves
+to the current time.
+
+Next we define our query.
+
+.. code:: haskell
+
+    query2 :: Text
+    query2 = "{ time }"
+
+    main2 :: IO ()
+    main2 = putStrLn =<< encode <$> graphql schema2 query2
+
+This runs the query, returning the current time
+
+``{"data": {"time":"2016-03-08 23:28:14.546899 UTC"}}``
+
+Errors
+------
+
+Errors are handled according to the spec, with fields that cause erros
+being resolved to ``null``, and an error being added to the error list.
+
+An example of this is the following query:
+
+.. code:: haskell
+
+    queryShouldFail :: Text
+    queryShouldFail = "{ boyhowdy }"
+
+Since there is no ``boyhowdy`` field in our schema, it will not resolve,
+and the query will fail, as we can see in the following example.
+
+.. code:: haskell
+
+    mainShouldFail :: IO ()
+    mainShouldFail = do
+      r <- graphql schema1 query1
+      putStrLn $ encode r
+      putStrLn "This will fail"
+      r <- graphql schema1 queryShouldFail
+      putStrLn $ encode r
+
+This outputs:
+
+::
+
+    {"data": {"hello": "it's me"}}
+    This will fail
+    {"data": {"boyhowdy": null}, "errors":[{"message": "the field boyhowdy did not resolve."}]}
+
+Combining resolvers
+-------------------
+
+Now that we have two resolvers, we can define a schema which uses them
+both.
+
+.. code:: haskell
+
+    schema3 :: Schema IO
+    schema3 = Schema [hello, time]
+
+    query3 :: Text
+    query3 = "query timeAndHello { time hello }"
+
+    main3 :: IO ()
+    main3 = putStrLn =<< encode <$> graphql schema3 query3
+
+This queries for both time and hello, returning
+
+``{ "data": {"hello":"it's me","time":"2016-03-08 23:29:11.62108 UTC"}}``
+
+Notice that we can name our queries, as we did with ``timeAndHello``.
+Since we have only been using single queries, we can use the shorthand
+``{ time hello}``, as we have been doing in the previous examples.
+
+In GraphQL there can only be one operation per query.
+
+Further examples
+================
+
+More examples on queries and a more complex schema can be found in the
+test directory, in the `Test.StarWars <../../tests/Test/StarWars>`__
+module. This includes a more complex schema, and more complex queries.