{-# LANGUAGE RankNTypes #-} {-# LANGUAGE GADTs #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE CPP #-} -- | NOTE: This API is experimental and will probably change. Please try -- it out! Feedback is very much appreciated, and your patience in the -- face of breaking API changes is also appreciated! -- -- For a fuller introduction to this API, see the "Input Forms" section -- of the Brick User Guide. Also see the demonstration programs for -- examples of forms in action. -- -- This module provides an input form API. This API allows you to -- construct an input interface based on a data type of your choice. -- Each input in the form corresponds to a field in your data type. This -- API then automatically dispatches keyboard and mouse input events to -- each form input field, manages rendering of the form, notifies the -- user when a form field's value is invalid, and stores valid inputs in -- your data type when possible. -- -- This module provides the API to create forms, populate them with some -- basic input field types, render forms, handle form events, and create -- custom input field types. -- -- A form has both a visual representation and a corresponding data -- structure representing the latest valid values for that form -- (referred to as the "state" of the form). A 'FormField' is a single -- input component in the form and a 'FormFieldState' defines the -- linkage between that visual input and the corresponding portion -- of the state represented by that visual; there may be multiple -- 'FormField's combined for a single 'FormFieldState' (e.g. a radio -- button sequence). -- -- Also note that, by default, forms and their field inputs are -- concatenated together in a 'vBox'. This can be customized on a -- per-field basis and for the entire form by using the functions -- 'setFieldConcat' and 'setFormConcat', respectively. -- -- Bear in mind that for most uses, the 'FormField' and 'FormFieldState' -- types will not be used directly. Instead, the constructors for -- various field types (such as 'editTextField') will be used instead. module Brick.Forms ( -- * Data types Form , FormFieldState(..) , FormField(..) -- * Creating and using forms , newForm , formFocus , formState , handleFormEvent , renderForm , renderFormFieldState , (@@=) , allFieldsValid , invalidFields , setFieldValid , setFormConcat , setFieldConcat -- * Simple form field constructors , editTextField , editShowableField , editPasswordField , radioField , checkboxField -- * Advanced form field constructors , editField -- * Attributes , formAttr , invalidFormInputAttr , focusedFormInputAttr ) where import Graphics.Vty #if !(MIN_VERSION_base(4,11,0)) import Data.Monoid #endif import Data.Maybe (isJust, isNothing) import Data.List (elemIndex) import Brick import Brick.Focus import Brick.Widgets.Edit import qualified Data.Text.Zipper as Z import qualified Data.Text as T import Text.Read (readMaybe) import Lens.Micro -- | A form field. This represents an interactive input field in the -- form. Its user input is validated and thus converted into a type of -- your choosing. -- -- Type variables are as follows: -- -- * @a@ - the type of the field in your form state that this field -- manipulates -- * @b@ - the form field's internal state type -- * @e@ - your application's event type -- * @n@ - your application's resource name type data FormField a b e n = FormField { formFieldName :: n -- ^ The name identifying this form field. , formFieldValidate :: b -> Maybe a -- ^ A validation function converting this field's state -- into a value of your choosing. @Nothing@ indicates a -- validation failure. For example, this might validate -- an 'Editor' state value by parsing its text contents s -- aan integer and return 'Maybe' 'Int'. This is for pure -- avalue validation; if additional validation is required -- a(e.g. via 'IO'), use this field's state value in an -- aexternal validation routine and use 'setFieldValid' to -- afeed the result back into the form. , formFieldExternallyValid :: Bool -- ^ Whether the field is valid according to an external -- validation source. Defaults to always being 'True' and -- can be set with 'setFieldValid'. The value of this -- field also affects the behavior of 'allFieldsValid' and -- 'getInvalidFields'. , formFieldRender :: Bool -> b -> Widget n -- ^ A function to render this form field. Parameters are -- whether the field is currently focused, followed by the -- field state. , formFieldHandleEvent :: BrickEvent n e -> b -> EventM n b -- ^ An event handler for this field. This receives the -- event and the field state and returns a new field -- state. } -- | A form field state accompanied by the fields that manipulate that -- state. The idea is that some record field in your form state has -- one or more form fields that manipulate that value. This data type -- maps that state field (using a lens into your state) to the form -- input fields responsible for managing that state field, along with -- a current value for that state field and an optional function to -- control how the form inputs are rendered. -- -- Most form fields will just have one input, such as text editors, but -- others, such as radio button collections, will have many, which is -- why this type supports more than one input corresponding to a state -- field. -- -- Type variables are as follows: -- -- * @s@ - the data type containing the value manipulated by these form -- fields. -- * @e@ - your application's event type -- * @n@ - your application's resource name type data FormFieldState s e n where FormFieldState :: { formFieldState :: b -- ^ The current state value associated with -- the field collection. Note that this type is -- existential. All form fields in the collection -- must validate to this type. , formFieldLens :: Lens' s a -- ^ A lens to extract and store a -- successfully-validated form input back into -- your form state. , formFields :: [FormField a b e n] -- ^ The form fields, in order, that the user will -- interact with to manipulate this state value. , formFieldRenderHelper :: Widget n -> Widget n -- ^ A helper function to augment the rendered -- representation of this collection of form -- fields. It receives the default representation -- and can augment it, for example, by adding a -- label on the left. , formFieldConcat :: [Widget n] -> Widget n -- ^ Concatenation function for this field's input -- renderings. } -> FormFieldState s e n -- | A form: a sequence of input fields that manipulate the fields of an -- underlying state that you choose. -- -- Type variables are as follows: -- -- * @s@ - the data type of your choosing containing the values -- manipulated by the fields in this form. -- * @e@ - your application's event type -- * @n@ - your application's resource name type data Form s e n = Form { formFieldStates :: [FormFieldState s e n] , formFocus :: FocusRing n -- ^ The focus ring for the form, indicating which form field -- has input focus. , formState :: s -- ^ The current state of the form. Forms guarantee that only -- valid inputs ever get stored in the state, and that after -- each input event on a form field, if that field contains a -- valid state value then the value is immediately saved to its -- corresponding field in this state value using the form -- field's lens over @s@. , formConcatAll :: [Widget n] -> Widget n -- ^ Concatenation function for this form's field renderings. } -- | Compose a new rendering augmentation function with the one in the -- form field collection. For example, we might put a label on the left -- side of a form field: -- -- > (str "Please check: " <+>) @@= checkboxField alive AliveField "Alive?" -- -- This can also be used to add multiple augmentations and associates -- right: -- -- > (withDefAttr someAttribute) @@= -- > (str "Please check: " <+>) @@= -- > checkboxField alive AliveField "Alive?" infixr 5 @@= (@@=) :: (Widget n -> Widget n) -> (s -> FormFieldState s e n) -> s -> FormFieldState s e n (@@=) h mkFs s = let v = mkFs s in v { formFieldRenderHelper = h . (formFieldRenderHelper v) } -- | Set a form field's concatenation function. setFieldConcat :: ([Widget n] -> Widget n) -> FormFieldState s e n -> FormFieldState s e n setFieldConcat f s = s { formFieldConcat = f } -- | Set a form's concatenation function. setFormConcat :: ([Widget n] -> Widget n) -> Form s e n -> Form s e n setFormConcat func f = f { formConcatAll = func } -- | Create a new form with the specified input fields and an initial -- form state. The fields are initialized from the state using their -- state lenses and the first form input is focused initially. newForm :: [s -> FormFieldState s e n] -- ^ The form field constructors. This is intended to be -- populated using the various field constructors in this -- module. -> s -- ^ The initial form state used to populate the fields. -> Form s e n newForm mkEs s = let es = mkEs <*> pure s in Form { formFieldStates = es , formFocus = focusRing $ concat $ formFieldNames <$> es , formState = s , formConcatAll = vBox } formFieldNames :: FormFieldState s e n -> [n] formFieldNames (FormFieldState _ _ fields _ _) = formFieldName <$> fields -- | A form field for manipulating a boolean value. This represents -- 'True' as @[X] label@ and 'False' as @[ ] label@. -- -- This field responds to `Space` keypresses to toggle the checkbox and -- to mouse clicks. checkboxField :: (Ord n, Show n) => Lens' s Bool -- ^ The state lens for this value. -> n -- ^ The resource name for the input field. -> T.Text -- ^ The label for the check box, to appear at its right. -> s -- ^ The initial form state. -> FormFieldState s e n checkboxField stLens name label initialState = let initVal = initialState ^. stLens handleEvent (MouseDown n _ _ _) s | n == name = return $ not s handleEvent (VtyEvent (EvKey (KChar ' ') [])) s = return $ not s handleEvent _ s = return s in FormFieldState { formFieldState = initVal , formFields = [ FormField name Just True (renderCheckbox label name) handleEvent ] , formFieldLens = stLens , formFieldRenderHelper = id , formFieldConcat = vBox } renderCheckbox :: T.Text -> n -> Bool -> Bool -> Widget n renderCheckbox label n foc val = let addAttr = if foc then withDefAttr focusedFormInputAttr else id in clickable n $ addAttr $ (str $ "[" <> (if val then "X" else " ") <> "] ") <+> txt label -- | A form field for selecting a single choice from a set of possible -- choices. Each choice has an associated value and text label. -- -- This field responds to `Space` keypresses to select a radio button -- option and to mouse clicks. radioField :: (Ord n, Show n, Eq a) => Lens' s a -- ^ The state lens for this value. -> [(a, n, T.Text)] -- ^ The available choices, in order. Each choice has a value -- of type @a@, a resource name, and a text label. -> s -- ^ The initial form state. -> FormFieldState s e n radioField stLens options initialState = let initVal = initialState ^. stLens lookupOptionValue n = let results = filter (\(_, n', _) -> n' == n) options in case results of [(val, _, _)] -> Just val _ -> Nothing handleEvent _ (MouseDown n _ _ _) s = case lookupOptionValue n of Nothing -> return s Just v -> return v handleEvent new (VtyEvent (EvKey (KChar ' ') [])) _ = return new handleEvent _ _ s = return s optionFields = mkOptionField <$> options mkOptionField (val, name, label) = FormField name Just True (renderRadio val name label) (handleEvent val) in FormFieldState { formFieldState = initVal , formFields = optionFields , formFieldLens = stLens , formFieldRenderHelper = id , formFieldConcat = vBox } renderRadio :: (Eq a) => a -> n -> T.Text -> Bool -> a -> Widget n renderRadio val name label foc cur = let addAttr = if foc then withDefAttr focusedFormInputAttr else id isSet = val == cur in clickable name $ addAttr $ hBox [ str "[" , str $ if isSet then "*" else " " , txt $ "] " <> label ] -- | A form field for using an editor to edit the text representation of -- a value. The other editing fields in this module are special cases of -- this function. -- -- This field responds to all events handled by 'editor', including -- mouse events. editField :: (Ord n, Show n) => Lens' s a -- ^ The state lens for this value. -> n -- ^ The resource name for the input field. -> Maybe Int -- ^ The optional line limit for the editor (see 'editor'). -> (a -> T.Text) -- ^ The initialization function that turns your value into -- the editor's initial contents. The resulting text may -- contain newlines. -> ([T.Text] -> Maybe a) -- ^ The validation function that converts the editors -- contents into a valid value of type @a@. -> ([T.Text] -> Widget n) -- ^ The rendering function for the editor's contents (see -- 'renderEditor'). -> (Widget n -> Widget n) -- ^ A rendering augmentation function to adjust the -- representation of the rendered editor. -> s -- ^ The initial form state. -> FormFieldState s e n editField stLens n limit ini val renderText wrapEditor initialState = let initVal = applyEdit gotoEnd $ editor n limit initialText gotoEnd = let ls = T.lines initialText pos = (length ls - 1, T.length (last ls)) in if null ls then id else Z.moveCursor pos initialText = ini $ initialState ^. stLens handleEvent (VtyEvent e) ed = handleEditorEvent e ed handleEvent _ ed = return ed in FormFieldState { formFieldState = initVal , formFields = [ FormField n (val . getEditContents) True (\b e -> wrapEditor $ renderEditor renderText b e) handleEvent ] , formFieldLens = stLens , formFieldRenderHelper = id , formFieldConcat = vBox } -- | A form field using a single-line editor to edit the 'Show' -- representation of a state field value of type @a@. This automatically -- uses its 'Read' instance to validate the input. This field is mostly -- useful in cases where the user-facing representation of a value -- matches the 'Show' representation exactly, such as with 'Int'. -- -- This field responds to all events handled by 'editor', including -- mouse events. editShowableField :: (Ord n, Show n, Read a, Show a) => Lens' s a -- ^ The state lens for this value. -> n -- ^ The resource name for the input field. -> s -- ^ The initial form state. -> FormFieldState s e n editShowableField stLens n = let ini = T.pack . show val = readMaybe . T.unpack . T.intercalate "\n" limit = Just 1 renderText = txt . T.unlines in editField stLens n limit ini val renderText id -- | A form field using an editor to edit a text value. Since the value -- is free-form text, it is always valid. -- -- This field responds to all events handled by 'editor', including -- mouse events. editTextField :: (Ord n, Show n) => Lens' s T.Text -- ^ The state lens for this value. -> n -- ^ The resource name for the input field. -> Maybe Int -- ^ The optional line limit for the editor (see 'editor'). -> s -- ^ The initial form state. -> FormFieldState s e n editTextField stLens n limit = let ini = id val = Just . T.intercalate "\n" renderText = txt . T.intercalate "\n" in editField stLens n limit ini val renderText id -- | A form field using a single-line editor to edit a free-form text -- value represented as a password. The value is always considered valid -- and is always represented with one asterisk per password character. -- -- This field responds to all events handled by 'editor', including -- mouse events. editPasswordField :: (Ord n, Show n) => Lens' s T.Text -- ^ The state lens for this value. -> n -- ^ The resource name for the input field. -> s -- ^ The initial form state. -> FormFieldState s e n editPasswordField stLens n = let ini = id val = Just . T.concat limit = Just 1 renderText = toPassword in editField stLens n limit ini val renderText id toPassword :: [T.Text] -> Widget a toPassword s = txt $ T.replicate (T.length $ T.concat s) "*" -- | The namespace for the other form attributes. formAttr :: AttrName formAttr = "brickForm" -- | The attribute for form input fields with invalid values. invalidFormInputAttr :: AttrName invalidFormInputAttr = formAttr <> "invalidInput" -- | The attribute for form input fields that have the focus. focusedFormInputAttr :: AttrName focusedFormInputAttr = formAttr <> "focusedInput" -- | Returns whether all form fields in the form currently have valid -- values according to the fields' validation functions. This is useful -- when we need to decide whether the form state is up to date with -- respect to the form input fields. allFieldsValid :: Form s e n -> Bool allFieldsValid = null . invalidFields -- | Returns the resource names associated with all form input fields -- that currently have invalid inputs. This is useful when we need to -- force the user to repair invalid inputs before moving on from a form -- editing session. invalidFields :: Form s e n -> [n] invalidFields f = concat $ getInvalidFields <$> formFieldStates f -- | Manually indicate that a field has invalid contents. This can be -- useful in situations where validation beyond the form element's -- validator needs to be performed and the result of that validation -- needs to be fed back into the form state. setFieldValid :: (Eq n) => Bool -- ^ Whether the field is considered valid. -> n -- ^ The name of the form field to set as (in)valid. -> Form s e n -- ^ The form to modify. -> Form s e n setFieldValid v n form = let go1 [] = [] go1 (s:ss) = let s' = case s of FormFieldState st l fs rh concatAll -> let go2 [] = [] go2 (f@(FormField fn val _ r h):ff) | n == fn = FormField fn val v r h : ff | otherwise = f : go2 ff in FormFieldState st l (go2 fs) rh concatAll in s' : go1 ss in form { formFieldStates = go1 (formFieldStates form) } getInvalidFields :: FormFieldState s e n -> [n] getInvalidFields (FormFieldState st _ fs _ _) = let gather (FormField n validate extValid _ _) = if (not extValid || (isNothing $ validate st)) then [n] else [] in concat $ gather <$> fs -- | Render a form. -- -- For each form field, each input for the field is rendered using -- the implementation provided by its 'FormField'. The inputs are -- then concatenated with the field's concatenation function (see -- 'setFieldConcat') and are then augmented using the form field's -- rendering augmentation function (see '@@='). Fields with invalid -- inputs (either due to built-in validator failure or due to external -- validation failure via 'setFieldValid') will be displayed using the -- 'invalidFormInputAttr' attribute. -- -- Finally, all of the resulting field renderings are concatenated with -- the form's concatenation function (see 'setFormConcat'). renderForm :: (Eq n) => Form s e n -> Widget n renderForm (Form es fr _ concatAll) = concatAll $ renderFormFieldState fr <$> es -- | Render a single form field collection. This is called internally by -- 'renderForm' but is exposed in cases where a form field state needs -- to be rendered outside of a 'Form', so 'renderForm' is probably what -- you want. renderFormFieldState :: (Eq n) => FocusRing n -> FormFieldState s e n -> Widget n renderFormFieldState fr (FormFieldState st _ fields helper concatFields) = let renderFields [] = [] renderFields ((FormField n validate extValid renderField _):fs) = let maybeInvalid = if (isJust $ validate st) && extValid then id else forceAttr invalidFormInputAttr foc = Just n == focusGetCurrent fr in maybeInvalid (renderField foc st) : renderFields fs in helper $ concatFields $ renderFields fields -- | Dispatch an event to the appropriate form field and return a new -- form. This handles the following events in this order: -- -- * On @Tab@ keypresses, this changes the focus to the next field in -- the form. -- * On @Shift-Tab@ keypresses, this changes the focus to the previous -- field in the form. -- * On mouse button presses (regardless of button or modifier), the -- focus is changed to the clicked form field and the event is -- forwarded to the event handler for the clicked form field. -- * On @Left@ or @Up@, if the currently-focused field is part of a -- collection (e.g. radio buttons), the previous entry in the -- collection is focused. -- * On @Right@ or @Down@, if the currently-focused field is part of a -- collection (e.g. radio buttons), the next entry in the collection -- is focused. -- * All other events are forwarded to the currently focused form field. -- -- In all cases where an event is forwarded to a form field, validation -- of the field's input state is performed immediately after the -- event has been handled. If the form field's input state succeeds -- validation using the field's validator function, its value is -- immediately stored in the form state using the form field's state -- lens. The external validation flag is ignored during this step to -- ensure that external validators have a chance to get the intermediate -- validated value. handleFormEvent :: (Eq n) => BrickEvent n e -> Form s e n -> EventM n (Form s e n) handleFormEvent (VtyEvent (EvKey (KChar '\t') [])) f = return $ f { formFocus = focusNext $ formFocus f } handleFormEvent (VtyEvent (EvKey KBackTab [])) f = return $ f { formFocus = focusPrev $ formFocus f } handleFormEvent e@(MouseDown n _ _ _) f = handleFormFieldEvent n e $ f { formFocus = focusSetCurrent n (formFocus f) } handleFormEvent e@(MouseUp n _ _) f = handleFormFieldEvent n e $ f { formFocus = focusSetCurrent n (formFocus f) } handleFormEvent e@(VtyEvent (EvKey KUp [])) f = case focusGetCurrent (formFocus f) of Nothing -> return f Just n -> case getFocusGrouping f n of Nothing -> forwardToCurrent e f Just grp -> return $ f { formFocus = focusSetCurrent (entryBefore grp n) (formFocus f) } handleFormEvent e@(VtyEvent (EvKey KDown [])) f = case focusGetCurrent (formFocus f) of Nothing -> return f Just n -> case getFocusGrouping f n of Nothing -> forwardToCurrent e f Just grp -> return $ f { formFocus = focusSetCurrent (entryAfter grp n) (formFocus f) } handleFormEvent e@(VtyEvent (EvKey KLeft [])) f = case focusGetCurrent (formFocus f) of Nothing -> return f Just n -> case getFocusGrouping f n of Nothing -> forwardToCurrent e f Just grp -> return $ f { formFocus = focusSetCurrent (entryBefore grp n) (formFocus f) } handleFormEvent e@(VtyEvent (EvKey KRight [])) f = case focusGetCurrent (formFocus f) of Nothing -> return f Just n -> case getFocusGrouping f n of Nothing -> forwardToCurrent e f Just grp -> return $ f { formFocus = focusSetCurrent (entryAfter grp n) (formFocus f) } handleFormEvent e f = forwardToCurrent e f getFocusGrouping :: (Eq n) => Form s e n -> n -> Maybe [n] getFocusGrouping f n = findGroup (formFieldStates f) where findGroup [] = Nothing findGroup (e:es) = let ns = formFieldNames e in if n `elem` ns && length ns > 1 then Just ns else findGroup es entryAfter :: (Eq a) => [a] -> a -> a entryAfter as a = let Just i = elemIndex a as i' = if i == length as - 1 then 0 else i + 1 in as !! i' entryBefore :: (Eq a) => [a] -> a -> a entryBefore as a = let Just i = elemIndex a as i' = if i == 0 then length as - 1 else i - 1 in as !! i' forwardToCurrent :: (Eq n) => BrickEvent n e -> Form s e n -> EventM n (Form s e n) forwardToCurrent e f = case focusGetCurrent (formFocus f) of Nothing -> return f Just n -> handleFormFieldEvent n e f handleFormFieldEvent :: (Eq n) => n -> BrickEvent n e -> Form s e n -> EventM n (Form s e n) handleFormFieldEvent n ev f = findFieldState [] (formFieldStates f) where findFieldState _ [] = return f findFieldState prev (e:es) = case e of FormFieldState st stLens fields helper concatAll -> do let findField [] = return Nothing findField (field:rest) = case field of FormField n' validate _ _ handleFunc | n == n' -> do nextSt <- handleFunc ev st -- If the new state validates, go ahead and update -- the form state with it. case validate nextSt of Nothing -> return $ Just (nextSt, Nothing) Just newSt -> return $ Just (nextSt, Just newSt) _ -> findField rest result <- findField fields case result of Nothing -> findFieldState (prev <> [e]) es Just (newSt, maybeSt) -> let newFieldState = FormFieldState newSt stLens fields helper concatAll in return $ f { formFieldStates = prev <> [newFieldState] <> es , formState = case maybeSt of Nothing -> formState f Just s -> formState f & stLens .~ s }