~alcinnz/CatTrap

ref: 593bc796bb41157cb9a52bb8687e9f8cc1b6be9e CatTrap/Graphics/Layout/Arithmetic.hs -rw-r--r-- 5.7 KiB
593bc796 — Adrian Cochrane Add missing child traversal to maxwidth computation & simplify API signature. 1 year, 7 months ago
                                                                                
474bbc4e Adrian Cochrane
ca995b39 Adrian Cochrane
09970dfc Adrian Cochrane
3dce4d79 Adrian Cochrane
474bbc4e Adrian Cochrane
3dce4d79 Adrian Cochrane
09970dfc Adrian Cochrane
3dce4d79 Adrian Cochrane
474bbc4e Adrian Cochrane
3dce4d79 Adrian Cochrane
474bbc4e Adrian Cochrane
3dce4d79 Adrian Cochrane
474bbc4e Adrian Cochrane
eae2c200 Adrian Cochrane
3dce4d79 Adrian Cochrane
474bbc4e Adrian Cochrane
3dce4d79 Adrian Cochrane
474bbc4e Adrian Cochrane
eae2c200 Adrian Cochrane
3dce4d79 Adrian Cochrane
d0a8a7d6 Adrian Cochrane
eae2c200 Adrian Cochrane
3dce4d79 Adrian Cochrane
eae2c200 Adrian Cochrane
d0a8a7d6 Adrian Cochrane
3dce4d79 Adrian Cochrane
d0a8a7d6 Adrian Cochrane
3dce4d79 Adrian Cochrane
d0a8a7d6 Adrian Cochrane
eae2c200 Adrian Cochrane
d0a8a7d6 Adrian Cochrane
3dce4d79 Adrian Cochrane
d0a8a7d6 Adrian Cochrane
3dce4d79 Adrian Cochrane
d0a8a7d6 Adrian Cochrane
474bbc4e Adrian Cochrane
3dce4d79 Adrian Cochrane
474bbc4e Adrian Cochrane
3dce4d79 Adrian Cochrane
474bbc4e Adrian Cochrane
3dce4d79 Adrian Cochrane
474bbc4e Adrian Cochrane
3dce4d79 Adrian Cochrane
d0a8a7d6 Adrian Cochrane
3dce4d79 Adrian Cochrane
d0a8a7d6 Adrian Cochrane
474bbc4e Adrian Cochrane
d0a8a7d6 Adrian Cochrane
09970dfc Adrian Cochrane
d0a8a7d6 Adrian Cochrane
3dce4d79 Adrian Cochrane
eae2c200 Adrian Cochrane
d0a8a7d6 Adrian Cochrane
474bbc4e Adrian Cochrane
eae2c200 Adrian Cochrane
474bbc4e Adrian Cochrane
3dce4d79 Adrian Cochrane
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
{-# LANGUAGE OverloadedStrings #-}
module Graphics.Layout.Arithmetic(Opcode(..), parseCalc, verifyCalc,
        evalCalc, mapCalc) where

import Data.CSS.Syntax.Tokens (Token(..), NumericValue(..))
import Data.Scientific (toRealFloat)
import GHC.Real (infinity)
import Data.Text (unpack, Text)
import qualified Data.Text as Txt

data Opcode n = Seq | Add | Subtract | Multiply | Divide | Func Text | Num n deriving Show
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 (f infinity, ""):parseCalc toks stack
parseCalc (Ident "-infinity":toks) stack =
    Num (negate $ f infinity, ""):parseCalc toks stack
parseCalc (Ident "NaN":toks) stack = Num (0/0, ""):parseCalc toks stack

parseCalc (Function 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 :: Opcode n -> Int
    prec Seq = 1
    prec Add = 2
    prec Subtract = 2
    prec Multiply = 3
    prec Divide = 3
    prec (Func _) = 0
    prec (Num _) = error "Unexpected number on operand stack!"
parseCalc (Delim c:toks) [] = parseCalc toks [op c]
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 (RightParen:toks) [] = parseCalc toks []
parseCalc [] [] = []
parseCalc [] stack = parseCalc [RightParen] stack
parseCalc _ _ = [Func "invalid"]

op :: Char -> Opcode n
op '+' = Add
op '-' = Subtract
op '*' = Multiply
op '/' = Divide
op ',' = Seq -- For function-calls.
op _ = 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 (Seq:expr) stack = verifyCalc expr stack
verifyCalc (Add:expr) (_:_:stack) = verifyCalc expr (True:stack)
verifyCalc (Subtract:expr) (_:_:stack) = verifyCalc expr (True:stack)
verifyCalc (Multiply:expr) (_:_:stack) = verifyCalc expr (True:stack)
verifyCalc (Divide:_) (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` Txt.words "abs acos asin atan cos exp log sign sin sqrt tan" =
        verifyCalc expr (True:stack)
verifyCalc (Func x:expr) (_:_:stack)
    | x `elem` Txt.words "atan2 max min mod pow rem" = verifyCalc expr (True:stack)
verifyCalc (Func "clamp":expr) (_:_:_:stack) = verifyCalc expr (True:stack)
verifyCalc [] [_] = True
verifyCalc _ _ = False

evalCalc :: [Opcode Float] -> [Float] -> Float
evalCalc (Seq:expr) stack = evalCalc expr stack -- The function args off
evalCalc (Add:expr) (y:x:stack) = evalCalc expr ((x + y):stack)
evalCalc (Subtract: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) (y:x:stack) = evalCalc expr (atan2 x y:stack)
evalCalc (Func "clamp":expr) (high:x:low:stack) =
    evalCalc expr (min high (max low 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 (max x y:stack)
evalCalc (Func "min":expr) (y:x:stack) = evalCalc expr (min x y:stack)
evalCalc (Func "mod":expr) (y:x:stack) =
    evalCalc expr (toEnum (round x `mod` round y):stack)
evalCalc (Func "pow":expr) (y:x:stack) = evalCalc expr (x ** y:stack)
evalCalc (Func "rem":expr) (y:x:stack) =
    evalCalc expr (toEnum (round x `rem` round y):stack)
evalCalc (Func "sign":expr) (x:stack) = evalCalc expr (signum 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
-- GHC demanded more verbosity...
mapCalc cb (Seq:toks) = mapCalc cb toks -- we can drop these while we're at it...
mapCalc cb (Add:toks) = Add:mapCalc cb toks
mapCalc cb (Subtract:toks) = Subtract:mapCalc cb toks
mapCalc cb (Multiply:toks) = Multiply:mapCalc cb toks
mapCalc cb (Divide:toks) = Divide:mapCalc cb toks
mapCalc cb (Func f':toks) = Func f':mapCalc cb toks
mapCalc _ [] = []

val2float :: NumericValue -> Float
val2float (NVInteger n) = fromIntegral n
val2float (NVNumber n) = toRealFloat n

f :: Rational -> Float
f = fromRational