~alcinnz/rhapsode

ref: 17b4531fae1fe1a7c7258160671dd958e8b86f96 rhapsode/src/SSML.hs -rw-r--r-- 5.1 KiB
17b4531f — Adrian Cochrane Incorporate earcon for <mark> elements. 2 years ago
                                                                                
654b3f04 Adrian Cochrane
ee018b49 Adrian Cochrane
654b3f04 Adrian Cochrane
6c0466db Adrian Cochrane
654b3f04 Adrian Cochrane
ee018b49 Adrian Cochrane
6c0466db Adrian Cochrane
ee018b49 Adrian Cochrane
04582a2b Adrian Cochrane
ee018b49 Adrian Cochrane
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ee018b49 Adrian Cochrane
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ee018b49 Adrian Cochrane
8a540270 Adrian Cochrane
ee018b49 Adrian Cochrane
654b3f04 Adrian Cochrane
ee018b49 Adrian Cochrane
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04582a2b Adrian Cochrane
8a540270 Adrian Cochrane
04582a2b Adrian Cochrane
6c0466db Adrian Cochrane
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{-# LANGUAGE OverloadedStrings #-}
module SSML(styleToSSML, postorder) where

import Text.XML
import qualified Data.Text as Txt
import Data.Map
import Data.Maybe (isNothing, fromMaybe, fromJust)
import qualified Data.Map as M
import Data.CSS.StyleTree

import Data.CSS.Syntax.Tokens
import Data.Scientific (toRealFloat)
import Data.List (elemIndex)

import SpeechStyle

styleToSSML :: StyleTree SpeechStyle -> Element
styleToSSML = Element "{http://www.w3.org/2001/10/synthesis}speak" M.empty .
    collapseBreaks' . floatBreaks' . styleToNodes
styleToNodes :: StyleTree SpeechStyle -> [Node]
styleToNodes = Prelude.map style . postorder styleToSSML'

styleToSSML' SpeechStyle { speak = False } _ = []
styleToSSML' self@SpeechStyle {content = ""} children = el "prosody" [
        ("xml:lang", lang self),
        ("rhapsode:pseudo", pseudoEl self),
        ("volume", volume self),
        ("rate", rate self),
        ("pitch", pitch2txt <$> pitch self),
        ("range", pitch2txt <$> range self)
    ] $ el "prosody" [
        ("volume", unit2txt <$> volumeAdjust self),
        ("rate", unit2txt <$> rateAdjust self),
        ("pitch", unit2txt <$> (pitchAdjust =<< pitch self)),
        ("range", unit2txt <$> (pitchAdjust =<< range self))
    ] $ el "emphasis" [("level", stress self)] $
    el "say-as" [("interpret-as", speakAs self)] $
    el "tts:style" [
        ("field", (\_ -> "punctuation") <$> speakAs self),
        ("mode", (\b -> if b then "all" else "none") <$> punctuation self)
    ] $ buildVoices (reverse $ voices self) $
    buildBox self children
styleToSSML' style childs = styleToSSML' style {content = ""} (
        pseudo "before" ++ [NodeContent $ content style] ++ pseudo "after")
    where
        pseudo n = [child | child@(NodeElement (Element _ attrs _)) <- childs,
            M.lookup "rhapsode:pseudo" attrs == Just n]

buildVoices (Voice name:voices) children =
    el "voice" [("name", Just name)] $ buildVoices voices children
buildVoices (VoicePattern age gender variant:voices) children = el "voice" [
        ("age", Txt.pack <$> show <$> age),
        ("gender", Just gender),
        ("variant", Txt.pack <$> show <$> variant)
    ] $ buildVoices voices children
buildVoices [] children = children

buildBox self childs = concat [
        el "mark" [("name", marker self)] [],
        breakEl $ pauseBefore self,
        audioEl $ cueBefore self,
        breakEl $ restBefore self,
        childs,
        breakEl $ restAfter self,
        audioEl $ cueAfter self,
        breakEl $ pauseAfter self
    ]
breakEl self = el "break" [("strength", strength self), ("time", unit2txt <$> time self)] []
audioEl NoCue = []
audioEl self = el "prosody" [("volume", unit2txt <$> cueVolume self)] $
    el "audio" [("src", Just $ src self)] []

-- support
el :: Name -> [(Name, Maybe Txt.Text)] -> [Node] -> [Node]
el n attrs children | all (isNothing . snd) attrs = children
    | otherwise = [NodeElement $ Element {
        elementName = n,
        elementAttributes = M.fromList [(k, v) | (k, Just v) <- attrs],
        elementNodes = children
    }]

relativeUnit n | n < 0 = Txt.pack (show n)
    | otherwise = Txt.pack ('+':show n)
unit2txt (Unit' unit n) = relativeUnit n `Txt.append` unit

pitch2txt (Pitch kw _) = kw
pitch2txt (Absolute (Unit' unit n)) = Txt.pack (show n) `Txt.append` unit
pitch2txt (Relative n) = unit2txt n

-- <break> collapse
floatBreaks :: Element -> [Node]
floatBreaks el@(Element _ _ childs)
    | break@(NodeElement (Element "break" _ _)):nodes <- floatBreaks' childs =
        break : floatBreaks el{elementNodes = nodes}
    | break@(NodeElement (Element "break" _ _)):nodes <- reverse $ floatBreaks' childs =
        floatBreaks el{elementNodes = reverse nodes} ++ [break]
    | otherwise = [NodeElement el]
floatBreaks' (NodeElement m@(Element "mark" _ _):NodeElement b@(Element "break" _ _):nodes) =
    NodeElement b : floatBreaks' (NodeElement m:nodes)
floatBreaks' (NodeElement el:nodes) = floatBreaks el ++ floatBreaks' nodes
floatBreaks' (node:nodes) = node : floatBreaks' nodes
floatBreaks' [] = []

collapseBreaks :: Element -> Element
collapseBreaks (Element name attrs elChildren) =
    Element name attrs $ collapseBreaks' elChildren
collapseBreaks' :: [Node] -> [Node]
collapseBreaks' (
        NodeElement a@(Element "break" _ _):
        NodeElement b@(Element "break" _ _):
        nodes
    ) = NodeElement (maxBreak a b) : collapseBreaks' nodes
collapseBreaks' (NodeElement el:nodes) = NodeElement (collapseBreaks el) : collapseBreaks' nodes
collapseBreaks' (node:nodes) = node:collapseBreaks' nodes
collapseBreaks' [] = []

volumes = ["x-weak", "weak", "medium", "strong", "x-strong"]
maxBreak x@(Element _ a _) y@(Element _ b _)
    | Just a' <- "strength" `M.lookup` a, Just b' <- "strength" `M.lookup` b, a' /= b' =
        if fromJust (elemIndex a' volumes) > fromJust (elemIndex b' volumes) then x else y
    | Just a' <- "time" `M.lookup` a, Just b' <- "time" `M.lookup` b, a' /= b' =
        if toMS (tokenize a') > toMS (tokenize b') then x else y
    | otherwise = x
toMS [Dimension _ n "s"] = cssFloat n * 1000
toMS [Dimension _ n "ms"] = cssFloat n
toMS _ = 0 -- Should never happen.
cssFloat (NVInteger i) = fromInteger i
cssFloat (NVNumber n) = toRealFloat n