{-# LANGUAGE OverloadedStrings #-}
module Graphics.Layout.Arithmetic where

import Data.CSS.Tokens (Token(..))
import Data.Scientific (toRealFloat)
import GHC.Real (infinity)
import Data.Text (unpack, Text)

data Opcode n = Comma | Add | Subtract | Multiply | Divide | Func Text | Num n
parseCalc :: [Token] -> [Opcode (Float, String)] -> [Opcode (Float, String)]
parseCalc (Number _ n:toks) stack = Num (val2float n, ""):parseCalc toks stack
parseCalc (Percentage _ n:toks) stack = Num (val2float n, "%"):parseCalc toks stack
parseCalc (Dimension _ n unit:toks) stack =
    Num (val2float n, unpack unit):parseCalc toks stack
parseCalc (Ident "e":toks) stack = Num (exp 1, ""):parseCalc toks stack
parseCalc (Ident "pi":toks) stack = Num (pi, ""):parseCalc toks stack
parseCalc (Ident "infinity":toks) stack = Num (infinity, ""):parseCalc toks stack
parseCalc (Ident "-infinity":toks) stack = Num (-infinity, ""):parseCalc toks stack
parseCalc (Ident "NaN":toks) stack = Num (0/0, ""):parseCalc toks stack

parseCalc (Func x:toks) stack = parseCalc toks (Func x:stack)
parseCalc (LeftParen:toks) stack = parseCalc toks (Func "calc":stack)
parseCalc toks'@(Delim c:toks) (stack:stacks)
    | prec stack >= prec (op c) = stack:parseCalc toks' stacks
    | otherwise = parseCalc toks (op c:stack:stacks)
  where
    prec Comma = 1
    prec Add = 2
    prec Subtract = 2
    prec Multiply = 3
    prec Divide = 3
    prec (Func _) = 0
    prec (Num _) = error "Unexpected number on operand stack!"
    op '+' = Add
    op '-' = Subtract
    op '*' = Multiply
    op '/' = Divide
    op ',' = Comma -- For function-calls.
parseCalc (Comma:toks) stack = parseCalc (Delim ',':toks) stack
parseCalc (RightParen:toks) (Func "calc":stack) = parseCalc toks stack
parseCalc (RightParen:toks) (op@Func _:stack) = op:parseCalc toks stack
parseCalc toks@(RightParen:_) (op:stack) = op:parseCalc toks stack
parseCalc [] [] = []
parseCalc [] stack = parseCalc [RightParen] stack
parseCalc _ _ = [Func "invalid"]

-- Do operands counts line up? Are we dividing by 0?
-- Also I see concerns about whether units line up. Not bothering verifying that.
verifyCalc :: [Opcode (Float, String)] -> [Bool] -> Bool
verifyCalc (Comma:expr) stack = verifyCalc expr stack
verifyCalc (Add:expr) (_:_:stack) = verifyCalc expr (True:stack)
verifyCalc (Minus:expr) (_:_:stack) = verifyCalc expr (True:stack)
verifyCalc (Multiply:expr) (_:_:stack) = verifyCalc expr (True:stack)
verifyCalc (Divide:expr) (False:_) = False
verifyCalc (Divide:expr) (_:_:stack) = verifyCalc expr (True:stack)
verifyCalc (Num (n, _):expr) stack = verifyCalc expr ((n == 0):stack)
verifyCalc (Func x:expr) (_:stack)
    | x `elem` words "abs acos asin atan atan2 cos exp log sign sin sqrt tan" =
        verifyCalc expr (True:stack)
verifyCalc (Func x:expr) (_:_:stack)
    | x `elem` words "max min mod pow rem" = verifyCalc expr (True:stack)
verifyCalc (Func "clamp":expr) (_:_:_:stack) = verifyCalc expr (True:stack)
verifyCalc [] [_] = True
verifyCalc _ _ = False

evalCalc :: Num n => [Opcode n] -> [n] -> n
evalCalc (Comma:expr) stack = evalCalc expr stack -- The function args off
evalCalc (Add:expr) (y:x:stack) = evalCalc expr ((x + y):stack)
evalCalc (Minus:expr) (y:x:stack) = evalCalc expr ((x - y):stack)
evalCalc (Multiply:expr) (y:x:stack) = evalCalc expr ((x*y):stack)
evalCalc (Divide:expr) (y:x:stack) = evalCalc expr ((x/y):stack)
evalCalc (Num n:expr) stack = evalCalc expr (n:stack)

evalCalc (Func "abs":expr) (x:stack) = evalCalc expr (abs x:stack)
evalCalc (Func "acos":expr) (x:stack) = evalCalc expr (acos x:stack)
evalCalc (Func "asin":expr) (x:stack) = evalCalc expr (asin x:stack)
evalCalc (Func "atan":expr) (x:stack) = evalCalc expr (atan x:stack)
evalCalc (Func "atan2":expr) (x:stack) = evalCalc expr (atan2 x:stack)
evalCalc (Func "clamp":expr) (max:x:min:stack) =
    evalCalc expr (clamp (min, max) x:stack)
evalCalc (Func "cos":expr) (x:stack) = evalCalc expr (cos x:stack)
evalCalc (Func "exp":expr) (x:stack) = evalCalc expr (exp x:stack)
evalCalc (Func "log":expr) (x:stack) = evalCalc expr (log x:stack)
evalCalc (Func "max":expr) (y:x:stack) = evalCalc expr (maximum x y:stack)
evalCalc (Func "min":expr) (y:x:stack) = evalCalc expr (minimum x y:stack)
evalCalc (Func "mod":expr) (y:x:stack) = evalCalc expr (mod x y:stack)
evalCalc (Func "pow":expr) (y:x:stack) = evalCalc expr (x ** y:stack)
evalCalc (Func "rem":expr) (y:x:stack) = evalCalc expr (rem x y:stack)
evalCalc (Func "sign":expr) (x:stack) = evalCalc expr (sign x:stack)
evalCalc (Func "sin":expr) (x:stack) = evalCalc expr (sin x:stack)
evalCalc (Func "sqrt":expr) (x:stack) = evalCalc expr (sqrt x:stack)
evalCalc (Func "tan":expr) (x:stack) = evalCalc expr (tan x:stack)

evalCalc [] [ret] = ret
evalCalc _ _ = error "Verification should have caught this error!"

mapCalc :: (a -> b) -> [Opcode a] -> [Opcode b]
mapCalc cb (Num x:toks) = Num (cb x):mapCalc cb toks
mapCalc cb (tok:toks) = tok:mapCalc cb toks
mapCalc _ [] = []

val2float (NVInteger n) = fromIntegral n
val2float (NVScientific n) = toRealFloat n