mirror of
https://github.com/autc04/Retro68.git
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339 lines
14 KiB
Haskell
339 lines
14 KiB
Haskell
-- Copyright 2012 Wolfgang Thaller.
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--
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-- This file is part of Retro68.
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--
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-- Retro68 is free software: you can redistribute it and/or modify
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-- it under the terms of the GNU General Public License as published by
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-- the Free Software Foundation, either version 3 of the License, or
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-- (at your option) any later version.
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--
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-- Retro68 is distributed in the hope that it will be useful,
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-- but WITHOUT ANY WARRANTY; without even the implied warranty of
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-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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-- GNU General Public License for more details.
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--
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-- You should have received a copy of the GNU General Public License
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-- along with Retro68. If not, see <http://www.gnu.org/licenses/>.
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module Main where
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import Text.ParserCombinators.Parsec
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import Text.ParserCombinators.Parsec.Language
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import Text.ParserCombinators.Parsec.Token
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import System.Directory
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import System.FilePath
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import Control.Monad(guard)
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import Data.List(isSuffixOf)
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import qualified Control.Exception
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import System.IO
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import qualified Text.PrettyPrint.HughesPJ as PP
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import Text.PrettyPrint.HughesPJ((<+>),(<>),($$),($+$))
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import Data.Char
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import Numeric
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import Data.Maybe(isJust)
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import Control.Monad.State
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import qualified Data.Map as Map
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import System.Environment(getArgs)
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data CallingConvention = Pascal | CCall
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deriving(Show, Eq)
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data Item = CharItem Char
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| IgnoredItem
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| FunctionItem CallingConvention String String [String] [String] [Integer] (Maybe ParameterRegs)
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| PragmaParameterItem String ParameterRegs
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deriving(Show)
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type Register = String
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data ParameterRegs = ParameterRegs (Maybe Register) [Register]
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deriving(Show)
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tp = makeTokenParser javaStyle
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item = (char '\r' >> return (CharItem '\n'))
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<|> try externApiDeclaration
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<|> try (string "= 0x4E90" >> return IgnoredItem)
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<|> try (string "= 0x4E91" >> return IgnoredItem)
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<|> try pragmaParameter
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<|> fmap CharItem anyChar
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balancedText stopAtComma = fmap (foldr ($) "") $
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many (fmap (++) paranthesized <|> fmap (:) (noneOf (if stopAtComma then "()," else "()")))
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where paranthesized = char '(' >> balancedText False >>= \xs -> char ')' >> return ('(' : xs ++ ")")
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isIDChar '_' = True
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isIDChar c = isAlphaNum c
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trim = dropWhile isSpace . reverse . dropWhile isSpace . reverse
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cleanup = unwords . words . trim
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returnType = do
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t <- identifier tp
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ptrs <- many (reservedOp tp "*" >> return '*')
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return $ t ++ ptrs
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externApiDeclaration = do
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(cconv, rettype) <-
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(reserved tp "EXTERN_API" >> (fmap ((,) Pascal) $ fmap trim $ parens tp (balancedText False)))
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<|> (reserved tp "EXTERN_API_C" >> (fmap ((,) CCall) $ fmap trim $ parens tp (balancedText False)))
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<|> (reserved tp "pascal" >> fmap ((,) Pascal) returnType)
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name <- identifier tp
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arguments <- fmap (map cleanup) $ parens tp (commaSep tp $ balancedText True)
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let hexwords = commaSep tp hexword
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macroinline = do
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inlinekey <- identifier tp
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guard ("WORDINLINE" `isSuffixOf` inlinekey)
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parens tp hexwords
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plaininline = do
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reservedOp tp "="
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braces tp hexwords
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inlines <- macroinline <|> plaininline <|> return []
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semi tp
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let arguments' | arguments == ["void"] = []
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| otherwise = arguments
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argumentNames = map (trim . reverse . takeWhile isIDChar . reverse . trim) arguments'
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argumentTypes = map (trim . reverse . dropWhile isIDChar . reverse . trim) arguments'
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return $ FunctionItem cconv rettype name argumentTypes argumentNames inlines Nothing
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pragmaParameter = do
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reservedOp tp "#"
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reserved tp "pragma"
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reserved tp "parameter"
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retval <- optionMaybe reg
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name <- identifier tp
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args <- parens tp (commaSep tp reg)
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-- args <- option [] $ parens tp (fmap return $ reg)
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-- let args = []
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return $ PragmaParameterItem name (ParameterRegs retval args)
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reg = (reserved tp "__A0" >> return "%%a0")
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<|>(reserved tp "__A1" >> return "%%a1")
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<|>(reserved tp "__A2" >> return "%%a2")
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<|>(reserved tp "__D0" >> return "%%d0")
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<|>(reserved tp "__D1" >> return "%%d1")
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data TypeCategory = ByteType | WordType | LongType | PointerType | VoidType
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deriving(Show, Eq)
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classifyType tm t | "Ptr" `isSuffixOf` t = Just PointerType
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| "*" `isSuffixOf` t = Just PointerType
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| "Handle" `isSuffixOf` t = Just PointerType
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| "UPP" `isSuffixOf` t = Just PointerType
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| "Ref" `isSuffixOf` t = Just PointerType
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classifyType tm "unsigned char" = Just ByteType
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classifyType tm "signed char" = Just ByteType
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classifyType tm "char" = Just ByteType
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classifyType tm "short" = Just WordType
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classifyType tm "long" = Just LongType
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classifyType tm "void" = Just VoidType
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classifyType tm t = Map.lookup t tm
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hexword = integer tp
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outputItem typeMap (CharItem c) = [c]
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-- outputItem (FunctionItem cconv rettype name argumentTypes argumentNames words) = "<fun>"
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outputItem typeMap (FunctionItem cconv rettype name argumentTypes argumentNames words Nothing)
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| True, not (null words), Just retcat <- classifyType typeMap rettype
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= let
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helper = PP.text "__magic_inline_" <> PP.text name
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magic = PP.text "__magic_inline_" <> PP.hcat (PP.punctuate (PP.char '_') (map (PP.text . hexword) words'))
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hexword w = replicate (4 - length s) '0' ++ s where s = showHex w ""
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magicArgTypes = case retcat of
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ByteType -> reverse $ "char" : argumentTypes
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WordType -> reverse $ "short" : argumentTypes
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LongType -> reverse $ "long" : argumentTypes
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PointerType -> reverse $ "long" : argumentTypes
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VoidType -> reverse argumentTypes
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magicArgValues = case retcat of
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VoidType -> reverse argumentNames
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_ -> reverse $ "0" : argumentNames
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words' = case retcat of
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VoidType -> words
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_ | cconv == CCall -> words
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ByteType -> words ++ [ 0x101f ] -- move.b (a7)+,d0
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WordType -> words ++ [ 0x301f ] -- move.w (a7)+,d0
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LongType -> words ++ [ 0x201f ] -- move.l (a7)+,d0
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PointerType -> words ++ [ 0x201f ] -- move.l (a7)+,d0
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cconvAttr = case cconv of
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Pascal -> PP.text "__attribute__((stdcall))"
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CCall -> PP.empty
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in PP.render $
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PP.text rettype <+> cconvAttr <+> helper
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<> PP.parens (PP.hsep $ PP.punctuate PP.comma $ map PP.text magicArgTypes)
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<+> PP.text("__asm__") <> PP.parens ( PP.doubleQuotes magic )
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<> PP.semi
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$+$
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PP.text "static inline" <+> PP.text rettype <+> PP.text name
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<+> PP.parens (PP.hsep $ PP.punctuate PP.comma $ zipWith (\t n -> PP.text t <+> PP.text n) argumentTypes argumentNames) $$
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PP.text "{" $+$ (PP.nest 4 $
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(if retcat == VoidType then PP.empty else PP.text "return") <+>
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helper <> PP.parens (PP.hsep $ PP.punctuate PP.comma $ map PP.text magicArgValues) <> PP.semi
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) $+$ PP.text "}\n\n"
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outputItem typeMap (FunctionItem cconv rettype name argumentTypes argumentNames words mbParamRegs) =
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PP.render $
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linkage <+> PP.text rettype <+> PP.text name
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<+> PP.parens (PP.hsep $ PP.punctuate PP.comma $ zipWith (\t n -> PP.text t <+> PP.text n) argumentTypes argumentNames) $$
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if isJust mbCategories && not (null words)
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then
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PP.text "{" $+$ (PP.nest 4 $
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addReturnValue $
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PP.text "__asm__ __volatile__ (" $+$
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PP.nest 4 (
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PP.nest 4 (PP.vcat asmStatements) $+$
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showConstraints outs $+$
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showConstraints ins $+$
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PP.text ": \"%a0\", \"%a1\", \"%d0\", \"%d1\", \"%d2\", \"memory\", \"cc\""
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<> (if tooltrap then PP.text ", \"%a5\"" else PP.empty)
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)
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$+$ PP.text ");"
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) $+$ PP.text "}\n\n"
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else
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PP.semi $+$
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PP.text "//" <+> PP.text (show words) $+$
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PP.text "//" <+> PP.text rettype <+> PP.text (show $ (classifyType typeMap) rettype) $+$
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PP.text "//" <+> PP.text (show argumentTypes) <+> PP.text (show $ map (classifyType typeMap) argumentTypes) $+$
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PP.text "\n" -- couldn't convert type
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where
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tooltrap = True -- trapnum >= 0xA800
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linkage | null words = PP.text "extern"
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| otherwise = PP.text "static inline"
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mbCategories = do
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retcat <- classifyType typeMap rettype
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argcats <- mapM (classifyType typeMap) argumentTypes
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return (retcat, argcats)
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Just (returnCategory, argumentCategories) = mbCategories
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returnsValue = returnCategory /= VoidType
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addReturnValue body
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| returnsValue = (PP.text rettype <+> PP.text "_ret;") $+$
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body $+$
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PP.text "return _ret;"
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| otherwise = body
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outs | returnsValue = [PP.text "\"=g\"(_ret)"]
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| otherwise = []
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ins = zipWith inputConstraint argumentCategories argumentNames
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inputConstraint PointerType name = PP.text "\"m\"(*(char*)" <> PP.text name <> PP.text ")"
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inputConstraint VoidType name = error $ "Void Parameter: " ++ name
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inputConstraint _ name = PP.text "\"g\"(" <> PP.text name <> PP.text ")"
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showConstraints constraints = PP.text ":" <+> PP.hsep (PP.punctuate PP.comma $ constraints)
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asmStatements =
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subq ++
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pushes ++
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map (\trapnum -> PP.text "\"dc.w" <+> PP.text "0x" <> PP.text (showHex trapnum "")
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<> PP.text "\\n\\t\"") words
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++ pop
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(subq, pop) = case returnCategory of
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VoidType -> ([], [])
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_ -> (ifpascal [PP.text "\"subq #" <> PP.int size <> PP.text ", %%sp\\n\\t\""],
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[PP.text "\"move" <> szLetter <+> src <+> PP.text ", %0\\n\\t\""])
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where
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size = case returnCategory of
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PointerType -> 4 ; LongType -> 4 ; WordType -> 2 ; ByteType -> 2 {- keep stack aligned -}
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szLetter = PP.text $ case returnCategory of
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PointerType -> ".l" ; LongType -> ".l" ; WordType -> ".w" ; ByteType -> ".b"
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src = case mbParamRegs of
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Nothing -> PP.text "%%sp@+"
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Just (ParameterRegs (Just r) _) -> PP.text r
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Just (ParameterRegs Nothing _) -> error $ "no reg for return value: " ++ name
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ifpascal x = case mbParamRegs of Nothing -> x ; Just _ -> []
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pushes = case mbParamRegs of
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Nothing -> zipWith (mkPush Nothing) argumentCategories
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Just (ParameterRegs _ regs) -> zipWith3 mkPush (map Just regs) argumentCategories
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$
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map (\i -> PP.char '%' <> PP.int i) $
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(if returnsValue then [1..] else [0..])
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endtxt = PP.text "\\n\\t\""
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mkPush Nothing PointerType operand = PP.text "\"pea" <+> operand <> endtxt
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mkPush (Just reg) PointerType operand = PP.text "\"lea" <+> operand <> PP.comma <+> PP.text reg <> endtxt
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mkPush mbReg size operand =
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PP.text "\"move" <> PP.text sz <+> operand <> PP.comma <+> dst <> endtxt
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where
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sz = case size of
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LongType -> ".l" ; WordType -> ".w" ; ByteType -> ".b"
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dst = case mbReg of
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Nothing -> PP.text "%%sp@-"
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Just reg -> PP.text reg
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outputItem _ _ = ""
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collectPragmas xs = evalState (mapM doit xs) Map.empty
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where
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doit x@(PragmaParameterItem name params) = modify (Map.insert name params) >> return x
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doit (FunctionItem cconv rettype name argumentTypes argumentNames inlines _) = do
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m <- get
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return $ FunctionItem cconv rettype name argumentTypes argumentNames inlines (Map.lookup name m)
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doit x = return x
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parseTypeMap tm = Map.fromList $ map handleLine $ lines tm
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where
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handleLine tml = case words tml of
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(x : xs) -> (trim $ unwords xs, case x of
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"B" -> ByteType ; "W" -> WordType ; "L" -> LongType ; "P" -> PointerType)
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processFile inputDir outputDir file
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| isLower (head file) = putStrLn $ "Skipping " ++ file ++ " (standard library or MPW runtime)"
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| ".h" `isSuffixOf` file = do
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print $ (outputDir </> takeFileName file)
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-- readFile (inputDir </> file)
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f <- openFile (inputDir </> file) ReadMode
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hSetEncoding f latin1
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txt <- hGetContents f
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let parseResult = parse (many item) file txt
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typeMap <- fmap parseTypeMap $ readFile "../Retro68/types.txt"
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case parseResult of
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Right items -> do
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outf <- openFile (outputDir </> file) WriteMode
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hSetEncoding outf latin1
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let processed = concatMap (outputItem typeMap) $ collectPragmas $ items
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if (file == "ConditionalMacros.h")
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then do
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hPutStrLn outf $ unlines [
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"#define TARGET_CPU_68K 1",
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"#define TARGET_OS_MAC 1",
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"#define TARGET_RT_MAC_CFM 0",
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"#define TARGET_RT_MAC_MACHO 0",
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"#define TYPE_LONGLONG 1",
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"#define pascal",
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"#ifdef __cplusplus",
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"#define TYPE_BOOL 1",
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"#endif"
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]
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hPutStr outf $ unlines $
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map (\line -> if line == "#elif defined(__GNUC__)"
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then "#elif 0"
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else line) $
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lines $ processed
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else
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hPutStr outf $ processed
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hClose outf
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Left err -> putStrLn $ file ++ ": " ++ show err
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| otherwise = do
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putStrLn $ "Unknown: " ++ file
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main = do
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[inputDir,outputDir] <- getArgs
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files <- getDirectoryContents inputDir
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Control.Exception.try (createDirectory outputDir) :: IO (Either Control.Exception.IOException ())
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mapM (processFile inputDir outputDir) files
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return ()
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