{-# LANGUAGE OverloadedStrings #-}
-- | Evaluates CSS media queries for @import & @media.
-- INTERNAL MODULE
module Data.CSS.Preprocessor.Conditions.Expr(
Expr, Op(..), parse, parse', eval, Datum(..)
) where
import Data.CSS.Syntax.Tokens(Token(..))
import Data.Text.Internal (Text(..))
import Data.Text (stripPrefix)
-- | A parsed (post-order) expression.
type Expr = [Op]
-- | Operators understood by media queries.
data Op = And -- ^ Is true if both operands are true
| Or -- ^ Is true if either operand is true
| Not -- ^ Is true if it's operand isn't.
| Var Text -- ^ Queries the value of an externally-specified parameter.
| Tok Token -- ^ Tokens to be evaluated as specified by caller.
| MkRatio -- ^ Pushes a ratio value to stack, for querying screensize.
| Less -- ^ Is the left operand smaller than right?
| LessEq -- ^ Is the left operand smaller or the same as right?
| Equal -- ^ Are the operands the same?
| Greater -- ^ Is the left operand bigger than right?
| GreaterEq -- ^ Is the left operand bigger or the same as right?
deriving (Show, Eq)
-- | Parses a media query to postorder form, returning the tokens after the given delimiter.
parse :: Token -> [Token] -> (Expr, [Token])
parse end toks = let (toks', rest) = break (== end) toks in (parse' toks' [], rest)
--------
---- Shunting Yard parser
--------
-- | Parses a media query to postorder form, given an operator stack.
parse' :: [Token] -> [(Op, Int)] -> Expr
parse' (Whitespace:toks) ops = parse' toks ops
parse' (Comma:toks) ops = pushOp toks Or 10 ops
parse' (Ident "not":toks) ops = pushOp toks Not 20 ops
parse' (Function "not":toks) ops = pushOp toks Not 0 ops
parse' (Ident "only":toks) ops = parse' toks ops
parse' (Ident "and":toks) ops = pushOp toks And 30 ops
parse' (Ident "or":toks) ops = pushOp toks Or 30 ops
parse' (Delim '<':Delim '=':toks) ops = pushOp toks LessEq 40 ops
parse' (Delim '<':toks) ops = pushOp toks Less 40 ops
parse' (Delim '>':Delim '=':toks) ops = pushOp toks GreaterEq 40 ops
parse' (Delim '>':toks) ops = pushOp toks Greater 40 ops
parse' (Colon:tok:toks) ops = Tok tok : pushOp toks Equal 40 ops
parse' (Delim '/':toks) ops = pushOp toks MkRatio 50 ops
parse' (LeftParen:toks) ops = pushOp toks (Var ")") 0 ops
parse' (RightParen:toks) ((Var ")", 0):ops) = parse' toks ops
parse' (RightParen:toks) ((Not, 0):ops) = Not : parse' toks ops -- Functional not syntax
parse' toks@(RightParen:_) ((op, _):ops) = op : parse' toks ops
parse' (RightParen:_) [] = [] -- Invalid!
parse' (Ident var:toks) ops@((peek, _):ops')
-- First, fix up various range syntaxes.
| peek `elem` [Less, LessEq, Greater, GreaterEq] = -- Chained conditions
Var var : peek : Var var : parse' toks ops'
| Just var' <- stripPrefix "max-" var = Var var' : pushOp toks LessEq 1000 ops
| Just var' <- stripPrefix "min-" var = Var var' : pushOp toks GreaterEq 1000 ops
| otherwise = Var var : parse' toks ops
parse' (tok:toks) ops = Tok tok : parse' toks ops
parse' [] ops = [op | (op, _) <- ops]
pushOp :: [Token] -> Op -> Int -> [(Op, Int)] -> Expr
pushOp toks op b ((peek, b'):ops') | b' >= b = peek : pushOp toks op b ops'
pushOp toks op b ops = parse' toks ((op, b):ops)
--------
---- Shunting Yard Evaluator
--------
-- | Dynamic types for evaluating media queries.
data Datum = B Bool | N Float | R {minv :: Float, maxv :: Float} deriving Eq
-- | Evaluates a media query with the given functions for evaluating vars & tokens.
eval :: (Text -> Datum) -> (Token -> Datum) -> Expr -> Bool
eval = eval' []
eval' :: [Datum] -> (Text -> Datum) -> (Token -> Datum) -> Expr -> Bool
eval' (B y:B x:stack) v t (And:ops) = eval' (B (x && y):stack) v t ops
eval' (B y:B x:stack) v t (Or:ops) = eval' (B (x || y):stack) v t ops
eval' (B x:stack) v t (Not:ops) = eval' (B (not x):stack) v t ops
eval' stack v t (Var name:ops) = eval' (v name:stack) v t ops
-- Have tokens lower to variables, to make things easier for the callee.
eval' stack v t (Tok tok:ops) | t tok /= B False = eval' (t tok:stack) v t ops
eval' stack v t (Tok (Ident name):ops) = eval' (v name:stack) v t ops
-- Ratios should be compared as floating point...
eval' (N y:N x:stack) v t (MkRatio:ops) = eval' (N (x / y):stack) v t ops
eval' (N y:N x:stack) v t (Less:ops) = eval' (B (x < y):stack) v t ops
eval' (R _ y:N x:stack) v t (Less:ops) = eval' (B (x < y):stack) v t ops
eval' (N y: R x _:stack) v t (Less:ops) = eval' (B (x < y):stack) v t ops
eval' (R _ y:R x _:stack) v t (Less:ops) = eval' (B (x < y):stack) v t ops
eval' (N y:N x:stack) v t (LessEq:ops) = eval' (B (x <= y):stack) v t ops
eval' (R _ y:N x:stack) v t (LessEq:ops) = eval' (B (x <= y):stack) v t ops
eval' (N y: R x _:stack) v t (LessEq:ops) = eval' (B (x <= y):stack) v t ops
eval' (R _ y:R x _:stack) v t (LessEq:ops) = eval' (B (x <= y):stack) v t ops
eval' (R yMin yMax:R xMin xMax:stack) v t (Equal:ops) =
eval' (B (xMax >= yMin && xMin <= yMax) : stack) v t ops
eval' (N y: N x:stack) v t (Equal:ops) = eval' (B (x == y):stack) v t ops
eval' (N y:N x:stack) v t (Greater:ops) = eval' (B (x > y):stack) v t ops
eval' (R y _:N x:stack) v t (Greater:ops) = eval' (B (x > y):stack) v t ops
eval' (N y:R _ x:stack) v t (Greater:ops) = eval' (B (x > y):stack) v t ops
eval' (R y _:R _ x:stack) v t (Greater:ops) = eval' (B (x > y):stack) v t ops
eval' (N y:N x:stack) v t (GreaterEq:ops) = eval' (B (x >= y):stack) v t ops
eval' (R y _:N x:stack) v t (GreaterEq:ops) = eval' (B (x >= y):stack) v t ops
eval' (N y:R _ x:stack) v t (GreaterEq:ops) = eval' (B (x >= y):stack) v t ops
eval' (R y _:R _ x:stack) v t (GreaterEq:ops) = eval' (B (x >= y):stack) v t ops
eval' (B ret:_) _ _ [] = ret
eval' [] _ _ [] = True -- Special case
eval' _ _ _ _ = False -- Error handling fallback.