X-Git-Url: http://wien.tomnetworks.com/gitweb/?a=blobdiff_plain;f=JVM%2FConverter.hs;h=a5f9d106b41ece16fe93b00cdb32b7a5224361e1;hb=551564c1e46fc926629bd12a3bd73ae7bd976687;hp=2c58cec3e5502db15a05f8b783fc30cc1f7da410;hpb=e3c3550bcddba61a4a6e7c5f3715f0385fb4d739;p=hs-java.git

diff --git a/JVM/Converter.hs b/JVM/Converter.hs
index 2c58cec..a5f9d10 100644
--- a/JVM/Converter.hs
+++ b/JVM/Converter.hs
@@ -2,33 +2,38 @@
 -- | Functions to convert from low-level .class format representation and
 -- high-level Java classes, methods etc representation
 module JVM.Converter
-  (decompile, decompileFile,
-   convertClass,
+  (parseClass, parseClassFile,
+   convertClass, classFile,
+   encodeClass,
    methodByName,
    attrByName,
    methodCode
   )
   where
 
+import Control.Monad.Exception
 import Data.List
 import Data.Word
 import Data.Bits
 import Data.Binary
 import qualified Data.ByteString.Lazy as B
-import Data.Array
 import qualified Data.Set as S
 import qualified Data.Map as M
 
 import JVM.ClassFile
 import JVM.Types
+import JVM.Exceptions
 
 -- | Parse .class file data
-decompile :: B.ByteString -> Class
-decompile bstr = convertClass $ decode bstr
+parseClass :: B.ByteString -> Class
+parseClass bstr = convertClass $ decode bstr
 
 -- | Parse class data from file
-decompileFile :: FilePath -> IO Class
-decompileFile path = convertClass `fmap` decodeFile path
+parseClassFile :: FilePath -> IO Class
+parseClassFile path = convertClass `fmap` decodeFile path
+
+encodeClass :: Class -> B.ByteString
+encodeClass cls = encode $ classFile cls
 
 convertClass :: ClassFile -> Class
 convertClass (ClassFile {..}) =
@@ -44,11 +49,114 @@ convertClass (ClassFile {..}) =
       methods = map (convertMethod pool) classMethods,
       classAttrs = convertAttrs pool classAttributes }
 
+classFile :: Class -> ClassFile
+classFile (Class {..}) = ClassFile {
+    magic = 0xCAFEBABE,
+    minorVersion = 0,
+    majorVersion = 50,
+    constsPoolSize = fromIntegral (length poolInfo + 1),
+    constsPool = poolInfo,
+    accessFlags = access2word16 classAccess,
+    thisClass = force "this" $ poolClassIndex poolInfo this,
+    superClass = case super of
+                  Just s -> force "super" $ poolClassIndex poolInfo s
+                  Nothing -> 0,
+    interfacesCount = fromIntegral (length implements),
+    interfaces = map (force "ifaces" . poolIndex poolInfo) implements,
+    classFieldsCount = fromIntegral (length fields),
+    classFields = map (fieldInfo poolInfo) fields,
+    classMethodsCount = fromIntegral (length methods),
+    classMethods = map (methodInfo poolInfo) methods,
+    classAttributesCount = fromIntegral (M.size classAttrs),
+    classAttributes = map (attrInfo poolInfo) (M.assocs classAttrs) }
+  where
+    poolInfo = toCPInfo constantPool
+
+toCPInfo :: Pool -> [CpInfo]
+toCPInfo pool = result
+  where
+    result = map cpInfo $ M.elems pool
+
+    cpInfo (CClass name) = CONSTANT_Class (force "class" $ poolIndex result name)
+    cpInfo (CField cls name) =
+      CONSTANT_Fieldref (force "field a" $ poolClassIndex result cls) (force "field b" $ poolNTIndex result name)
+    cpInfo (CMethod cls name) =
+      CONSTANT_Methodref (force "method a" $ poolClassIndex result cls) (force ("method b: " ++ show name) $ poolNTIndex result name)
+    cpInfo (CIfaceMethod cls name) =
+      CONSTANT_InterfaceMethodref (force "iface method a" $ poolIndex result cls) (force "iface method b" $ poolNTIndex result name)
+    cpInfo (CString s) = CONSTANT_String (force "string" $ poolIndex result s)
+    cpInfo (CInteger x) = CONSTANT_Integer x
+    cpInfo (CFloat x) = CONSTANT_Float x
+    cpInfo (CLong x) = CONSTANT_Long (fromIntegral x)
+    cpInfo (CDouble x) = CONSTANT_Double x
+    cpInfo (CNameType n t) =
+      CONSTANT_NameAndType (force "name" $ poolIndex result n) (force "type" $ poolIndex result t)
+    cpInfo (CUTF8 s) = CONSTANT_Utf8 (fromIntegral $ B.length s) s
+    cpInfo (CUnicode s) = CONSTANT_Unicode (fromIntegral $ B.length s) s
+
+-- | Find index of given string in the list of constants
+poolIndex :: (Throws NoItemInPool e) => [CpInfo] -> B.ByteString -> EM e Word16
+poolIndex list name = case findIndex test list of
+                        Nothing -> throw (NoItemInPool name)
+                        Just i ->  return $ fromIntegral $ i+1
+  where
+    test (CONSTANT_Utf8 _ s)    | s == name = True
+    test (CONSTANT_Unicode _ s) | s == name = True
+    test _                                  = False
+
+-- | Find index of given string in the list of constants
+poolClassIndex :: (Throws NoItemInPool e) => [CpInfo] -> B.ByteString -> EM e Word16
+poolClassIndex list name = case findIndex checkString list of
+                        Nothing -> throw (NoItemInPool name)
+                        Just i ->  case findIndex (checkClass $ fromIntegral $ i+1) list of
+                                     Nothing -> throw (NoItemInPool $ i+1)
+                                     Just j  -> return $ fromIntegral $ j+1
+  where
+    checkString (CONSTANT_Utf8 _ s)    | s == name = True
+    checkString (CONSTANT_Unicode _ s) | s == name = True
+    checkString _                                  = False
+
+    checkClass i (CONSTANT_Class x) | i == x = True
+    checkClass _ _                           = False
+
+poolNTIndex list x@(NameType n t) = do
+    ni <- poolIndex list n
+    ti <- poolIndex list (byteString t)
+    case findIndex (check ni ti) list of
+      Nothing -> throw (NoItemInPool x)
+      Just i  -> return $ fromIntegral (i+1)
+  where
+    check ni ti (CONSTANT_NameAndType n' t')
+      | (ni == n') && (ti == t') = True
+    check _ _ _                  = False
+
+fieldInfo :: [CpInfo] -> Field -> FieldInfo
+fieldInfo pool (Field {..}) = FieldInfo {
+  fieldAccessFlags = access2word16 fieldAccess,
+  fieldNameIndex = force "field name" $ poolIndex pool fieldName,
+  fieldSignatureIndex = force "signature" $ poolIndex pool (encode fieldSignature),
+  fieldAttributesCount = fromIntegral (M.size fieldAttrs),
+  fieldAttributes = map (attrInfo pool) (M.assocs fieldAttrs) }
+
+methodInfo :: [CpInfo] -> Method -> MethodInfo
+methodInfo pool (Method {..}) = MethodInfo {
+  methodAccessFlags = access2word16 methodAccess,
+  methodNameIndex = force "method name" $ poolIndex pool methodName,
+  methodSignatureIndex = force "method sig" $ poolIndex pool (encode methodSignature),
+  methodAttributesCount = fromIntegral (M.size methodAttrs),
+  methodAttributes = map (attrInfo pool) (M.assocs methodAttrs) }
+
+attrInfo :: [CpInfo] -> (B.ByteString, B.ByteString) -> AttributeInfo
+attrInfo pool (name, value) = AttributeInfo {
+  attributeName = force "attr name" $ poolIndex pool name,
+  attributeLength = fromIntegral (B.length value),
+  attributeValue = value }
+
 constantPoolArray :: [CpInfo] -> Pool
 constantPoolArray list = pool
   where
     pool :: Pool
-    pool = listArray (1,n) $ map convert list
+    pool = M.fromList $ zip [1..] $ map convert list
     n = fromIntegral $ length list
 
     convertNameType :: (HasSignature a, Binary (Signature a)) => Word16 -> NameType a
@@ -83,6 +191,12 @@ convertAccess w = S.fromList $ concat $ zipWith (\i f -> if testBit w i then [f]
    ACC_INTERFACE,
    ACC_ABSTRACT ]
 
+access2word16 :: Access -> Word16
+access2word16 fs = bitsOr $ map toBit $ S.toList fs
+  where
+    bitsOr = foldl (.|.) 0
+    toBit f = 1 `shiftL` (fromIntegral $ fromEnum f)
+
 convertField :: Pool -> FieldInfo -> Field
 convertField pool (FieldInfo {..}) = Field {
   fieldAccess = convertAccess fieldAccessFlags,