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Author SHA1 Message Date
060321f323 Merge remote-tracking branch 'origin/create-parser' into typedAST 2024-05-31 16:26:14 +02:00
fc96eba52e Merge remote-tracking branch 'origin/bytecode' into typedAST 2024-05-31 16:26:08 +02:00
30365d76bd Revert "parser add preincrement and decrement conversion"
This reverts commit 2acba0f283.
2024-05-31 11:44:10 +02:00
mrab
2b7d217e8a moved expression statement and expressionstatement 2024-05-31 11:24:11 +02:00
2acba0f283 parser add preincrement and decrement conversion 2024-05-31 11:23:25 +02:00
84613fabe0 parser add field subaccess 2024-05-31 11:07:19 +02:00
408111df51 parser implement field access 2024-05-31 11:04:23 +02:00
mrab
6abb9ae8ba Merge branch 'typedAST' of ssh://gitea.hb.dhbw-stuttgart.de:2222/MisterChaos69/MiniJavaCompiler into bytecode 2024-05-31 10:37:07 +02:00
mrab
5aa193bc08 Merge branch 'bytecode' of ssh://gitea.hb.dhbw-stuttgart.de:2222/MisterChaos69/MiniJavaCompiler into bytecode 2024-05-31 09:44:45 +02:00
mrab
2e7c28812b Merge branch 'create-parser' of ssh://gitea.hb.dhbw-stuttgart.de:2222/MisterChaos69/MiniJavaCompiler into bytecode 2024-05-31 09:42:16 +02:00
mrab
2ac3b60e79 Merge branch 'typedAST' of ssh://gitea.hb.dhbw-stuttgart.de:2222/MisterChaos69/MiniJavaCompiler into bytecode 2024-05-31 09:41:37 +02:00
mrab
6f4143a60a increment/decrement 2024-05-16 11:42:48 +02:00
mrab
fadbdf1035 Merge branch 'create-parser' of ssh://gitea.hb.dhbw-stuttgart.de:2222/MisterChaos69/MiniJavaCompiler into bytecode 2024-05-16 11:19:46 +02:00
mrab
d0d2cbd081 restructured bytecode code 2024-05-16 10:39:27 +02:00
mrab
ddab04f063 Merge branch 'typedAST' of ssh://gitea.hb.dhbw-stuttgart.de:2222/MisterChaos69/MiniJavaCompiler into bytecode 2024-05-16 09:55:03 +02:00
mrab
09f70ca789 While assembly 2024-05-16 09:53:36 +02:00
mrab
d13e24c216 Merge branch 'create-parser' of ssh://gitea.hb.dhbw-stuttgart.de:2222/MisterChaos69/MiniJavaCompiler into bytecode 2024-05-16 09:33:16 +02:00
mrab
53e1afc9e4 Merge branch 'typedAST' of ssh://gitea.hb.dhbw-stuttgart.de:2222/MisterChaos69/MiniJavaCompiler into bytecode 2024-05-16 09:28:18 +02:00
mrab
535a6891ad Local variable assignment 2024-05-16 09:28:00 +02:00
e572975bda add: inject default constructor 2024-05-15 11:45:41 +02:00
mrab
207fb5c5f3 local variables working 2024-05-15 11:23:40 +02:00
b095678769 add: local variable assembler 2024-05-15 10:01:01 +02:00
mrab
a4fff37b07 Bugfix: else assembly 2024-05-14 14:09:24 +02:00
mrab
c02de8f9b2 Merge branch 'create-parser' of ssh://gitea.hb.dhbw-stuttgart.de:2222/MisterChaos69/MiniJavaCompiler into bytecode 2024-05-14 13:57:25 +02:00
mrab
a179dec3ea else Assembly 2024-05-14 13:57:20 +02:00
mrab
95178366a2 Merge branch 'create-parser' of ssh://gitea.hb.dhbw-stuttgart.de:2222/MisterChaos69/MiniJavaCompiler into bytecode 2024-05-14 13:21:12 +02:00
mrab
f9f984568f block and if assembly (no else) 2024-05-14 13:20:37 +02:00
mrab
5284d6ecba Merge branch 'create-parser' of ssh://gitea.hb.dhbw-stuttgart.de:2222/MisterChaos69/MiniJavaCompiler into bytecode 2024-05-14 12:34:11 +02:00
mrab
d1d9a5d6e1 constructor and method call using this 2024-05-14 12:29:55 +02:00
mrab
86e15b5856 method assembly is actually used (yay) 2024-05-14 11:12:12 +02:00
mrab
393253c9bb Merge branch 'create-parser' of ssh://gitea.hb.dhbw-stuttgart.de:2222/MisterChaos69/MiniJavaCompiler into bytecode 2024-05-14 10:29:27 +02:00
mrab
09469e0e45 added boolean expression assembly 2024-05-14 10:28:57 +02:00
mrab
d54c7cd7e6 Working pipeline for whole compiler 2024-05-08 15:23:18 +02:00
mrab
9d7af6effb Merge branch 'create-parser' of ssh://gitea.hb.dhbw-stuttgart.de:2222/MisterChaos69/MiniJavaCompiler into bytecode 2024-05-08 14:35:45 +02:00
13 changed files with 599 additions and 210 deletions

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@ -107,10 +107,12 @@ testBasicConstantPool = TestCase $ assertEqual "basic constant pool" expectedCla
testFields = TestCase $ assertEqual "fields in constant pool" expectedClassWithFields $ classBuilder classWithFields emptyClassFile testFields = TestCase $ assertEqual "fields in constant pool" expectedClassWithFields $ classBuilder classWithFields emptyClassFile
testMethodDescriptor = TestCase $ assertEqual "method descriptor" "(II)I" (methodDescriptor method) testMethodDescriptor = TestCase $ assertEqual "method descriptor" "(II)I" (methodDescriptor method)
testMethodAssembly = TestCase $ assertEqual "method assembly" expectedClassWithMethod (classBuilder classWithMethod emptyClassFile) testMethodAssembly = TestCase $ assertEqual "method assembly" expectedClassWithMethod (classBuilder classWithMethod emptyClassFile)
testFindMethodIndex = TestCase $ assertEqual "find method" (Just 0) (findMethodIndex expectedClassWithMethod "add_two_numbers")
tests = TestList [ tests = TestList [
TestLabel "Basic constant pool" testBasicConstantPool, TestLabel "Basic constant pool" testBasicConstantPool,
TestLabel "Fields constant pool" testFields, TestLabel "Fields constant pool" testFields,
TestLabel "Method descriptor building" testMethodDescriptor, TestLabel "Method descriptor building" testMethodDescriptor,
TestLabel "Method assembly" testMethodAssembly TestLabel "Method assembly" testMethodAssembly,
TestLabel "Find method by name" testFindMethodIndex
] ]

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@ -191,6 +191,15 @@ testExpressionThisMethodCall = TestCase $
testExpressionThisMethodCallParam = TestCase $ testExpressionThisMethodCallParam = TestCase $
assertEqual "expect this methocall" (StatementExpressionExpression (MethodCall (Reference "this") "foo" [Reference "x"])) $ assertEqual "expect this methocall" (StatementExpressionExpression (MethodCall (Reference "this") "foo" [Reference "x"])) $
parseExpression [THIS,DOT,IDENTIFIER "foo",LBRACE,IDENTIFIER "x",RBRACE] parseExpression [THIS,DOT,IDENTIFIER "foo",LBRACE,IDENTIFIER "x",RBRACE]
testExpressionFieldAccess = TestCase $
assertEqual "expect NameResolution" (BinaryOperation NameResolution (Reference "this") (Reference "b")) $
parseExpression [THIS,DOT,IDENTIFIER "b"]
testExpressionSimpleFieldAccess = TestCase $
assertEqual "expect Reference" (Reference "a") $
parseExpression [IDENTIFIER "a"]
testExpressionFieldSubAccess = TestCase $
assertEqual "expect NameResolution without this" (BinaryOperation NameResolution (Reference "a") (Reference "b")) $
parseExpression [IDENTIFIER "a",DOT,IDENTIFIER "b"]
testStatementIfThen = TestCase $ testStatementIfThen = TestCase $
assertEqual "expect empty ifthen" [If (Reference "a") (Block [Block []]) Nothing] $ assertEqual "expect empty ifthen" [If (Reference "a") (Block [Block []]) Nothing] $
@ -267,6 +276,9 @@ tests = TestList [
testExpressionMethodCallTwoParams, testExpressionMethodCallTwoParams,
testExpressionThisMethodCall, testExpressionThisMethodCall,
testExpressionThisMethodCallParam, testExpressionThisMethodCallParam,
testExpressionFieldAccess,
testExpressionSimpleFieldAccess,
testExpressionFieldSubAccess,
testStatementIfThen, testStatementIfThen,
testStatementIfThenElse, testStatementIfThenElse,
testStatementWhile, testStatementWhile,

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@ -12,18 +12,21 @@ executable compiler
utf8-string, utf8-string,
bytestring bytestring
default-language: Haskell2010 default-language: Haskell2010
hs-source-dirs: src, hs-source-dirs: src
src/ByteCode,
src/ByteCode/ClassFile
build-tool-depends: alex:alex, happy:happy build-tool-depends: alex:alex, happy:happy
other-modules: Parser.Lexer, other-modules: Parser.Lexer,
Parser.JavaParser Parser.JavaParser,
Ast, Ast,
Example, Example,
Typecheck, Typecheck,
ByteCode.ByteUtil, ByteCode.ByteUtil,
ByteCode.ClassFile, ByteCode.ClassFile,
ByteCode.ClassFile.Generator, ByteCode.Generation.Generator,
ByteCode.Generation.Assembler.ExpressionAndStatement,
ByteCode.Generation.Assembler.Method,
ByteCode.Generation.Builder.Class,
ByteCode.Generation.Builder.Field,
ByteCode.Generation.Builder.Method,
ByteCode.Constants ByteCode.Constants
test-suite tests test-suite tests

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@ -5,7 +5,8 @@ module ByteCode.ClassFile(
ClassFile(..), ClassFile(..),
Operation(..), Operation(..),
serialize, serialize,
emptyClassFile emptyClassFile,
opcodeEncodingLength
) where ) where
import Data.Word import Data.Word
@ -31,6 +32,7 @@ data Operation = Opiadd
| Opior | Opior
| Opixor | Opixor
| Opineg | Opineg
| Opdup
| Opif_icmplt Word16 | Opif_icmplt Word16
| Opif_icmple Word16 | Opif_icmple Word16
| Opif_icmpgt Word16 | Opif_icmpgt Word16
@ -41,6 +43,8 @@ data Operation = Opiadd
| Opreturn | Opreturn
| Opireturn | Opireturn
| Opareturn | Opareturn
| Opinvokespecial Word16
| Opgoto Word16
| Opsipush Word16 | Opsipush Word16
| Opldc_w Word16 | Opldc_w Word16
| Opaload Word16 | Opaload Word16
@ -48,7 +52,7 @@ data Operation = Opiadd
| Opastore Word16 | Opastore Word16
| Opistore Word16 | Opistore Word16
| Opputfield Word16 | Opputfield Word16
| OpgetField Word16 | Opgetfield Word16
deriving (Show, Eq) deriving (Show, Eq)
@ -87,6 +91,37 @@ emptyClassFile = ClassFile {
attributes = [] attributes = []
} }
opcodeEncodingLength :: Operation -> Word16
opcodeEncodingLength Opiadd = 1
opcodeEncodingLength Opisub = 1
opcodeEncodingLength Opimul = 1
opcodeEncodingLength Opidiv = 1
opcodeEncodingLength Opiand = 1
opcodeEncodingLength Opior = 1
opcodeEncodingLength Opixor = 1
opcodeEncodingLength Opineg = 1
opcodeEncodingLength Opdup = 1
opcodeEncodingLength (Opif_icmplt _) = 3
opcodeEncodingLength (Opif_icmple _) = 3
opcodeEncodingLength (Opif_icmpgt _) = 3
opcodeEncodingLength (Opif_icmpge _) = 3
opcodeEncodingLength (Opif_icmpeq _) = 3
opcodeEncodingLength (Opif_icmpne _) = 3
opcodeEncodingLength Opaconst_null = 1
opcodeEncodingLength Opreturn = 1
opcodeEncodingLength Opireturn = 1
opcodeEncodingLength Opareturn = 1
opcodeEncodingLength (Opinvokespecial _) = 3
opcodeEncodingLength (Opgoto _) = 3
opcodeEncodingLength (Opsipush _) = 3
opcodeEncodingLength (Opldc_w _) = 3
opcodeEncodingLength (Opaload _) = 4
opcodeEncodingLength (Opiload _) = 4
opcodeEncodingLength (Opastore _) = 4
opcodeEncodingLength (Opistore _) = 4
opcodeEncodingLength (Opputfield _) = 3
opcodeEncodingLength (Opgetfield _) = 3
class Serializable a where class Serializable a where
serialize :: a -> [Word8] serialize :: a -> [Word8]
@ -116,6 +151,7 @@ instance Serializable Operation where
serialize Opior = [0x80] serialize Opior = [0x80]
serialize Opixor = [0x82] serialize Opixor = [0x82]
serialize Opineg = [0x74] serialize Opineg = [0x74]
serialize Opdup = [0x59]
serialize (Opif_icmplt branch) = 0xA1 : unpackWord16 branch serialize (Opif_icmplt branch) = 0xA1 : unpackWord16 branch
serialize (Opif_icmple branch) = 0xA4 : unpackWord16 branch serialize (Opif_icmple branch) = 0xA4 : unpackWord16 branch
serialize (Opif_icmpgt branch) = 0xA3 : unpackWord16 branch serialize (Opif_icmpgt branch) = 0xA3 : unpackWord16 branch
@ -126,6 +162,8 @@ instance Serializable Operation where
serialize Opreturn = [0xB1] serialize Opreturn = [0xB1]
serialize Opireturn = [0xAC] serialize Opireturn = [0xAC]
serialize Opareturn = [0xB0] serialize Opareturn = [0xB0]
serialize (Opinvokespecial index) = 0xB7 : unpackWord16 index
serialize (Opgoto index) = 0xA7 : unpackWord16 index
serialize (Opsipush index) = 0x11 : unpackWord16 index serialize (Opsipush index) = 0x11 : unpackWord16 index
serialize (Opldc_w index) = 0x13 : unpackWord16 index serialize (Opldc_w index) = 0x13 : unpackWord16 index
serialize (Opaload index) = [0xC4, 0x19] ++ unpackWord16 index serialize (Opaload index) = [0xC4, 0x19] ++ unpackWord16 index
@ -133,7 +171,7 @@ instance Serializable Operation where
serialize (Opastore index) = [0xC4, 0x3A] ++ unpackWord16 index serialize (Opastore index) = [0xC4, 0x3A] ++ unpackWord16 index
serialize (Opistore index) = [0xC4, 0x36] ++ unpackWord16 index serialize (Opistore index) = [0xC4, 0x36] ++ unpackWord16 index
serialize (Opputfield index) = 0xB5 : unpackWord16 index serialize (Opputfield index) = 0xB5 : unpackWord16 index
serialize (OpgetField index) = 0xB4 : unpackWord16 index serialize (Opgetfield index) = 0xB4 : unpackWord16 index
instance Serializable Attribute where instance Serializable Attribute where
serialize (CodeAttribute { attributeMaxStack = maxStack, serialize (CodeAttribute { attributeMaxStack = maxStack,
@ -151,7 +189,7 @@ instance Serializable Attribute where
++ unpackWord16 0 -- attributes_count ++ unpackWord16 0 -- attributes_count
instance Serializable ClassFile where instance Serializable ClassFile where
serialize classfile = unpackWord32 0xC0FEBABE -- magic serialize classfile = unpackWord32 0xCAFEBABE -- magic
++ unpackWord16 0 -- minor version ++ unpackWord16 0 -- minor version
++ unpackWord16 49 -- major version ++ unpackWord16 49 -- major version
++ unpackWord16 (fromIntegral (1 + length (constantPool classfile))) -- constant pool count ++ unpackWord16 (fromIntegral (1 + length (constantPool classfile))) -- constant pool count

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@ -1,169 +0,0 @@
module ByteCode.ClassFile.Generator(
classBuilder,
datatypeDescriptor,
methodParameterDescriptor,
methodDescriptor,
) where
import ByteCode.Constants
import ByteCode.ClassFile (ClassFile (..), ConstantInfo (..), MemberInfo(..), Operation(..), Attribute(..))
import Ast
import Data.Char
type ClassFileBuilder a = a -> ClassFile -> ClassFile
datatypeDescriptor :: String -> String
datatypeDescriptor "void" = "V"
datatypeDescriptor "int" = "I"
datatypeDescriptor "char" = "C"
datatypeDescriptor "boolean" = "B"
datatypeDescriptor x = "L" ++ x
methodParameterDescriptor :: String -> String
methodParameterDescriptor "void" = "V"
methodParameterDescriptor "int" = "I"
methodParameterDescriptor "char" = "C"
methodParameterDescriptor "boolean" = "B"
methodParameterDescriptor x = "L" ++ x ++ ";"
methodDescriptor :: MethodDeclaration -> String
methodDescriptor (MethodDeclaration returntype _ parameters _) = let
parameter_types = [datatype | ParameterDeclaration datatype _ <- parameters]
in
"("
++ (concat (map methodParameterDescriptor parameter_types))
++ ")"
++ datatypeDescriptor returntype
classBuilder :: ClassFileBuilder Class
classBuilder (Class name methods fields) _ = let
baseConstants = [
ClassInfo 4,
MethodRefInfo 1 3,
NameAndTypeInfo 5 6,
Utf8Info "java/lang/Object",
Utf8Info "<init>",
Utf8Info "()V",
Utf8Info "Code"
]
nameConstants = [ClassInfo 9, Utf8Info name]
nakedClassFile = ClassFile {
constantPool = baseConstants ++ nameConstants,
accessFlags = accessPublic,
thisClass = 8,
superClass = 1,
fields = [],
methods = [],
attributes = []
}
in
foldr methodBuilder (foldr fieldBuilder nakedClassFile fields) methods
fieldBuilder :: ClassFileBuilder VariableDeclaration
fieldBuilder (VariableDeclaration datatype name _) input = let
baseIndex = 1 + length (constantPool input)
constants = [
FieldRefInfo (fromIntegral (thisClass input)) (fromIntegral (baseIndex + 1)),
NameAndTypeInfo (fromIntegral (baseIndex + 2)) (fromIntegral (baseIndex + 3)),
Utf8Info name,
Utf8Info (datatypeDescriptor datatype)
]
field = MemberInfo {
memberAccessFlags = accessPublic,
memberNameIndex = (fromIntegral (baseIndex + 2)),
memberDescriptorIndex = (fromIntegral (baseIndex + 3)),
memberAttributes = []
}
in
input {
constantPool = (constantPool input) ++ constants,
fields = (fields input) ++ [field]
}
methodBuilder :: ClassFileBuilder MethodDeclaration
methodBuilder (MethodDeclaration returntype name parameters statement) input = let
baseIndex = 1 + length (constantPool input)
constants = [
FieldRefInfo (fromIntegral (thisClass input)) (fromIntegral (baseIndex + 1)),
NameAndTypeInfo (fromIntegral (baseIndex + 2)) (fromIntegral (baseIndex + 3)),
Utf8Info name,
Utf8Info (methodDescriptor (MethodDeclaration returntype name parameters (Block [])))
]
--code = assembleByteCode statement
method = MemberInfo {
memberAccessFlags = accessPublic,
memberNameIndex = (fromIntegral (baseIndex + 2)),
memberDescriptorIndex = (fromIntegral (baseIndex + 3)),
memberAttributes = [
CodeAttribute {
attributeMaxStack = 420,
attributeMaxLocals = 420,
attributeCode = [Opiadd]
}
]
}
in
input {
constantPool = (constantPool input) ++ constants,
methods = (fields input) ++ [method]
}
type Assembler a = a -> ([ConstantInfo], [Operation]) -> ([ConstantInfo], [Operation])
returnOperation :: DataType -> Operation
returnOperation dtype
| elem dtype ["int", "char", "boolean"] = Opireturn
| otherwise = Opareturn
binaryOperation :: BinaryOperator -> Operation
binaryOperation Addition = Opiadd
binaryOperation Subtraction = Opisub
binaryOperation Multiplication = Opimul
binaryOperation Division = Opidiv
binaryOperation BitwiseAnd = Opiand
binaryOperation BitwiseOr = Opior
binaryOperation BitwiseXor = Opixor
assembleMethod :: Assembler MethodDeclaration
assembleMethod (MethodDeclaration _ _ _ (Block statements)) (constants, ops) =
foldr assembleStatement (constants, ops) statements
assembleStatement :: Assembler Statement
assembleStatement (TypedStatement stype (Return expr)) (constants, ops) = case expr of
Nothing -> (constants, ops ++ [Opreturn])
Just expr -> let
(expr_constants, expr_ops) = assembleExpression expr (constants, ops)
in
(expr_constants, expr_ops ++ [returnOperation stype])
assembleExpression :: Assembler Expression
assembleExpression (TypedExpression _ (BinaryOperation op a b)) (constants, ops)
| elem op [Addition, Subtraction, Multiplication, Division, BitwiseAnd, BitwiseOr, BitwiseXor] = let
(aConstants, aOps) = assembleExpression a (constants, ops)
(bConstants, bOps) = assembleExpression b (aConstants, aOps)
in
(bConstants, bOps ++ [binaryOperation op])
assembleExpression (TypedExpression _ (CharacterLiteral literal)) (constants, ops) =
(constants, ops ++ [Opsipush (fromIntegral (ord literal))])
assembleExpression (TypedExpression _ (BooleanLiteral literal)) (constants, ops) =
(constants, ops ++ [Opsipush (if literal then 1 else 0)])
assembleExpression (TypedExpression _ (IntegerLiteral literal)) (constants, ops)
| literal <= 32767 && literal >= -32768 = (constants, ops ++ [Opsipush (fromIntegral literal)])
| otherwise = (constants ++ [IntegerInfo (fromIntegral literal)], ops ++ [Opldc_w (fromIntegral (1 + length constants))])
assembleExpression (TypedExpression _ NullLiteral) (constants, ops) =
(constants, ops ++ [Opaconst_null])
assembleExpression (TypedExpression etype (UnaryOperation Not expr)) (constants, ops) = let
(exprConstants, exprOps) = assembleExpression expr (constants, ops)
newConstant = fromIntegral (1 + length exprConstants)
in case etype of
"int" -> (exprConstants ++ [IntegerInfo 0x7FFFFFFF], exprOps ++ [Opldc_w newConstant, Opixor])
"char" -> (exprConstants, exprOps ++ [Opsipush 0xFFFF, Opixor])
"boolean" -> (exprConstants, exprOps ++ [Opsipush 0x01, Opixor])
assembleExpression (TypedExpression _ (UnaryOperation Minus expr)) (constants, ops) = let
(exprConstants, exprOps) = assembleExpression expr (constants, ops)
in
(exprConstants, exprOps ++ [Opineg])

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@ -0,0 +1,228 @@
module ByteCode.Generation.Assembler.ExpressionAndStatement where
import Ast
import ByteCode.ClassFile(ClassFile (..), ConstantInfo (..), MemberInfo(..), Operation(..), Attribute(..), opcodeEncodingLength)
import ByteCode.Generation.Generator
import Data.List
import Data.Char
import ByteCode.Generation.Builder.Field
assembleExpression :: Assembler Expression
assembleExpression (constants, ops, lvars) (TypedExpression _ (BinaryOperation op a b))
| elem op [Addition, Subtraction, Multiplication, Division, BitwiseAnd, BitwiseOr, BitwiseXor] = let
(aConstants, aOps, _) = assembleExpression (constants, ops, lvars) a
(bConstants, bOps, _) = assembleExpression (aConstants, aOps, lvars) b
in
(bConstants, bOps ++ [binaryOperation op], lvars)
| elem op [CompareEqual, CompareNotEqual, CompareLessThan, CompareLessOrEqual, CompareGreaterThan, CompareGreaterOrEqual] = let
(aConstants, aOps, _) = assembleExpression (constants, ops, lvars) a
(bConstants, bOps, _) = assembleExpression (aConstants, aOps, lvars) b
cmp_op = comparisonOperation op 9
cmp_ops = [cmp_op, Opsipush 0, Opgoto 6, Opsipush 1]
in
(bConstants, bOps ++ cmp_ops, lvars)
assembleExpression (constants, ops, lvars) (TypedExpression _ (CharacterLiteral literal)) =
(constants, ops ++ [Opsipush (fromIntegral (ord literal))], lvars)
assembleExpression (constants, ops, lvars) (TypedExpression _ (BooleanLiteral literal)) =
(constants, ops ++ [Opsipush (if literal then 1 else 0)], lvars)
assembleExpression (constants, ops, lvars) (TypedExpression _ (IntegerLiteral literal))
| literal <= 32767 && literal >= -32768 = (constants, ops ++ [Opsipush (fromIntegral literal)], lvars)
| otherwise = (constants ++ [IntegerInfo (fromIntegral literal)], ops ++ [Opldc_w (fromIntegral (1 + length constants))], lvars)
assembleExpression (constants, ops, lvars) (TypedExpression _ NullLiteral) =
(constants, ops ++ [Opaconst_null], lvars)
assembleExpression (constants, ops, lvars) (TypedExpression etype (UnaryOperation Not expr)) = let
(exprConstants, exprOps, _) = assembleExpression (constants, ops, lvars) expr
newConstant = fromIntegral (1 + length exprConstants)
in case etype of
"int" -> (exprConstants ++ [IntegerInfo 0x7FFFFFFF], exprOps ++ [Opldc_w newConstant, Opixor], lvars)
"char" -> (exprConstants, exprOps ++ [Opsipush 0xFFFF, Opixor], lvars)
"boolean" -> (exprConstants, exprOps ++ [Opsipush 0x01, Opixor], lvars)
assembleExpression (constants, ops, lvars) (TypedExpression _ (UnaryOperation Minus expr)) = let
(exprConstants, exprOps, _) = assembleExpression (constants, ops, lvars) expr
in
(exprConstants, exprOps ++ [Opineg], lvars)
assembleExpression (constants, ops, lvars) (TypedExpression _ (FieldVariable name)) = let
fieldIndex = findFieldIndex constants name
in case fieldIndex of
Just index -> (constants, ops ++ [Opaload 0, Opgetfield (fromIntegral index)], lvars)
Nothing -> error ("No such field found in constant pool: " ++ name)
assembleExpression (constants, ops, lvars) (TypedExpression dtype (LocalVariable name)) = let
localIndex = findIndex ((==) name) lvars
isPrimitive = elem dtype ["char", "boolean", "int"]
in case localIndex of
Just index -> (constants, ops ++ if isPrimitive then [Opiload (fromIntegral index)] else [Opaload (fromIntegral index)], lvars)
Nothing -> error ("No such local variable found in local variable pool: " ++ name)
assembleExpression (constants, ops, lvars) (TypedExpression dtype (StatementExpressionExpression stmtexp)) =
assembleStatementExpression (constants, ops, lvars) stmtexp
assembleExpression _ expr = error ("unimplemented: " ++ show expr)
-- TODO untested
assembleStatementExpression :: Assembler StatementExpression
assembleStatementExpression
(constants, ops, lvars)
(TypedStatementExpression _ (Assignment (TypedExpression dtype (LocalVariable name)) expr)) = let
localIndex = findIndex ((==) name) lvars
(constants_a, ops_a, _) = assembleExpression (constants, ops, lvars) expr
isPrimitive = elem dtype ["char", "boolean", "int"]
in case localIndex of
Just index -> (constants_a, ops_a ++ if isPrimitive then [Opistore (fromIntegral index)] else [Opastore (fromIntegral index)], lvars)
Nothing -> error ("No such local variable found in local variable pool: " ++ name)
assembleStatementExpression
(constants, ops, lvars)
(TypedStatementExpression _ (Assignment (TypedExpression dtype (FieldVariable name)) expr)) = let
fieldIndex = findFieldIndex constants name
(constants_a, ops_a, _) = assembleExpression (constants, ops ++ [Opaload 0], lvars) expr
in case fieldIndex of
Just index -> (constants_a, ops_a ++ [Opputfield (fromIntegral index)], lvars)
Nothing -> error ("No such field variable found in constant pool: " ++ name)
assembleStatementExpression
(constants, ops, lvars)
(TypedStatementExpression _ (PreIncrement (TypedExpression dtype (LocalVariable name)))) = let
localIndex = findIndex ((==) name) lvars
expr = (TypedExpression dtype (LocalVariable name))
(exprConstants, exprOps, _) = assembleExpression (constants, ops, lvars) expr
incrOps = exprOps ++ [Opsipush 1, Opiadd, Opdup]
in case localIndex of
Just index -> (exprConstants, incrOps ++ [Opistore (fromIntegral index)], lvars)
Nothing -> error("No such local variable found in local variable pool: " ++ name)
assembleStatementExpression
(constants, ops, lvars)
(TypedStatementExpression _ (PostIncrement (TypedExpression dtype (LocalVariable name)))) = let
localIndex = findIndex ((==) name) lvars
expr = (TypedExpression dtype (LocalVariable name))
(exprConstants, exprOps, _) = assembleExpression (constants, ops, lvars) expr
incrOps = exprOps ++ [Opdup, Opsipush 1, Opiadd]
in case localIndex of
Just index -> (exprConstants, incrOps ++ [Opistore (fromIntegral index)], lvars)
Nothing -> error("No such local variable found in local variable pool: " ++ name)
assembleStatementExpression
(constants, ops, lvars)
(TypedStatementExpression _ (PreDecrement (TypedExpression dtype (LocalVariable name)))) = let
localIndex = findIndex ((==) name) lvars
expr = (TypedExpression dtype (LocalVariable name))
(exprConstants, exprOps, _) = assembleExpression (constants, ops, lvars) expr
incrOps = exprOps ++ [Opsipush 1, Opiadd, Opisub]
in case localIndex of
Just index -> (exprConstants, incrOps ++ [Opistore (fromIntegral index)], lvars)
Nothing -> error("No such local variable found in local variable pool: " ++ name)
assembleStatementExpression
(constants, ops, lvars)
(TypedStatementExpression _ (PostDecrement (TypedExpression dtype (LocalVariable name)))) = let
localIndex = findIndex ((==) name) lvars
expr = (TypedExpression dtype (LocalVariable name))
(exprConstants, exprOps, _) = assembleExpression (constants, ops, lvars) expr
incrOps = exprOps ++ [Opdup, Opsipush 1, Opisub]
in case localIndex of
Just index -> (exprConstants, incrOps ++ [Opistore (fromIntegral index)], lvars)
Nothing -> error("No such local variable found in local variable pool: " ++ name)
assembleStatementExpression
(constants, ops, lvars)
(TypedStatementExpression _ (PreIncrement (TypedExpression dtype (FieldVariable name)))) = let
fieldIndex = findFieldIndex constants name
expr = (TypedExpression dtype (FieldVariable name))
(exprConstants, exprOps, _) = assembleExpression (constants, ops ++ [Opaload 0], lvars) expr
incrOps = exprOps ++ [Opsipush 1, Opiadd, Opdup]
in case fieldIndex of
Just index -> (exprConstants, incrOps ++ [Opputfield (fromIntegral index)], lvars)
Nothing -> error("No such field variable found in field variable pool: " ++ name)
assembleStatementExpression
(constants, ops, lvars)
(TypedStatementExpression _ (PostIncrement (TypedExpression dtype (FieldVariable name)))) = let
fieldIndex = findFieldIndex constants name
expr = (TypedExpression dtype (FieldVariable name))
(exprConstants, exprOps, _) = assembleExpression (constants, ops ++ [Opaload 0], lvars) expr
incrOps = exprOps ++ [Opdup, Opsipush 1, Opiadd]
in case fieldIndex of
Just index -> (exprConstants, incrOps ++ [Opputfield (fromIntegral index)], lvars)
Nothing -> error("No such field variable found in field variable pool: " ++ name)
assembleStatementExpression
(constants, ops, lvars)
(TypedStatementExpression _ (PreDecrement (TypedExpression dtype (FieldVariable name)))) = let
fieldIndex = findFieldIndex constants name
expr = (TypedExpression dtype (FieldVariable name))
(exprConstants, exprOps, _) = assembleExpression (constants, ops ++ [Opaload 0], lvars) expr
incrOps = exprOps ++ [Opsipush 1, Opiadd, Opisub]
in case fieldIndex of
Just index -> (exprConstants, incrOps ++ [Opputfield (fromIntegral index)], lvars)
Nothing -> error("No such field variable found in field variable pool: " ++ name)
assembleStatementExpression
(constants, ops, lvars)
(TypedStatementExpression _ (PostDecrement (TypedExpression dtype (FieldVariable name)))) = let
fieldIndex = findFieldIndex constants name
expr = (TypedExpression dtype (FieldVariable name))
(exprConstants, exprOps, _) = assembleExpression (constants, ops ++ [Opaload 0], lvars) expr
incrOps = exprOps ++ [Opdup, Opsipush 1, Opisub]
in case fieldIndex of
Just index -> (exprConstants, incrOps ++ [Opputfield (fromIntegral index)], lvars)
Nothing -> error("No such field variable found in field variable pool: " ++ name)
assembleStatement :: Assembler Statement
assembleStatement (constants, ops, lvars) (TypedStatement stype (Return expr)) = case expr of
Nothing -> (constants, ops ++ [Opreturn], lvars)
Just expr -> let
(expr_constants, expr_ops, _) = assembleExpression (constants, ops, lvars) expr
in
(expr_constants, expr_ops ++ [returnOperation stype], lvars)
assembleStatement (constants, ops, lvars) (TypedStatement _ (Block statements)) =
foldl assembleStatement (constants, ops, lvars) statements
assembleStatement (constants, ops, lvars) (TypedStatement _ (If expr if_stmt else_stmt)) = let
(constants_cmp, ops_cmp, _) = assembleExpression (constants, [], lvars) expr
(constants_ifa, ops_ifa, _) = assembleStatement (constants_cmp, [], lvars) if_stmt
(constants_elsea, ops_elsea, _) = case else_stmt of
Nothing -> (constants_ifa, [], lvars)
Just stmt -> assembleStatement (constants_ifa, [], lvars) stmt
-- +6 because we insert 2 gotos, one for if, one for else
if_length = sum (map opcodeEncodingLength ops_ifa) + 6
-- +3 because we need to account for the goto in the if statement.
else_length = sum (map opcodeEncodingLength ops_elsea) + 3
in
(constants_ifa, ops ++ ops_cmp ++ [Opsipush 0, Opif_icmpeq if_length] ++ ops_ifa ++ [Opgoto else_length] ++ ops_elsea, lvars)
assembleStatement (constants, ops, lvars) (TypedStatement _ (While expr stmt)) = let
(constants_cmp, ops_cmp, _) = assembleExpression (constants, [], lvars) expr
(constants_stmta, ops_stmta, _) = assembleStatement (constants_cmp, [], lvars) stmt
-- +3 because we insert 2 gotos, one for the comparison, one for the goto back to the comparison
stmt_length = sum (map opcodeEncodingLength ops_stmta) + 6
entire_length = stmt_length + sum (map opcodeEncodingLength ops_cmp)
in
(constants_stmta, ops ++ ops_cmp ++ [Opsipush 0, Opif_icmpeq stmt_length] ++ ops_stmta ++ [Opgoto (-entire_length)], lvars)
assembleStatement (constants, ops, lvars) (TypedStatement _ (LocalVariableDeclaration (VariableDeclaration dtype name expr))) = let
isPrimitive = elem dtype ["char", "boolean", "int"]
(constants_init, ops_init, _) = case expr of
Just exp -> assembleExpression (constants, ops, lvars) exp
Nothing -> (constants, ops ++ if isPrimitive then [Opsipush 0] else [Opaconst_null], lvars)
localIndex = fromIntegral (length lvars)
storeLocal = if isPrimitive then [Opistore localIndex] else [Opastore localIndex]
in
(constants_init, ops_init ++ storeLocal, lvars ++ [name])
assembleStatement (constants, ops, lvars) (TypedStatement _ (StatementExpressionStatement expr)) =
assembleStatementExpression (constants, ops, lvars) expr
assembleStatement _ stmt = error ("Not yet implemented: " ++ show stmt)

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@ -0,0 +1,20 @@
module ByteCode.Generation.Assembler.Method where
import Ast
import ByteCode.ClassFile(ClassFile (..), ConstantInfo (..), MemberInfo(..), Operation(..), Attribute(..), opcodeEncodingLength)
import ByteCode.Generation.Generator
import ByteCode.Generation.Assembler.ExpressionAndStatement
assembleMethod :: Assembler MethodDeclaration
assembleMethod (constants, ops, lvars) (MethodDeclaration _ name _ (TypedStatement _ (Block statements)))
| name == "<init>" = let
(constants_a, ops_a, lvars_a) = foldl assembleStatement (constants, ops, lvars) statements
init_ops = [Opaload 0, Opinvokespecial 2]
in
(constants_a, init_ops ++ ops_a ++ [Opreturn], lvars_a)
| otherwise = let
(constants_a, ops_a, lvars_a) = foldl assembleStatement (constants, ops, lvars) statements
init_ops = [Opaload 0]
in
(constants_a, init_ops ++ ops_a, lvars_a)
assembleMethod _ (MethodDeclaration _ _ _ stmt) = error ("Block expected for method body, got: " ++ show stmt)

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@ -0,0 +1,44 @@
module ByteCode.Generation.Builder.Class where
import ByteCode.Generation.Builder.Field
import ByteCode.Generation.Builder.Method
import ByteCode.Generation.Generator
import Ast
import ByteCode.ClassFile(ClassFile (..), ConstantInfo (..), MemberInfo(..), Operation(..), Attribute(..), opcodeEncodingLength)
import ByteCode.Constants
injectDefaultConstructor :: [MethodDeclaration] -> [MethodDeclaration]
injectDefaultConstructor pre
| any (\(MethodDeclaration _ name _ _) -> name == "<init>") pre = pre
| otherwise = pre ++ [MethodDeclaration "void" "<init>" [] (TypedStatement "void" (Block []))]
classBuilder :: ClassFileBuilder Class
classBuilder (Class name methods fields) _ = let
baseConstants = [
ClassInfo 4,
MethodRefInfo 1 3,
NameAndTypeInfo 5 6,
Utf8Info "java/lang/Object",
Utf8Info "<init>",
Utf8Info "()V",
Utf8Info "Code"
]
nameConstants = [ClassInfo 9, Utf8Info name]
nakedClassFile = ClassFile {
constantPool = baseConstants ++ nameConstants,
accessFlags = accessPublic,
thisClass = 8,
superClass = 1,
fields = [],
methods = [],
attributes = []
}
methodsWithInjectedConstructor = injectDefaultConstructor methods
classFileWithFields = foldr fieldBuilder nakedClassFile fields
classFileWithMethods = foldr methodBuilder classFileWithFields methodsWithInjectedConstructor
classFileWithAssembledMethods = foldr methodAssembler classFileWithMethods methodsWithInjectedConstructor
in
classFileWithAssembledMethods

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@ -0,0 +1,46 @@
module ByteCode.Generation.Builder.Field where
import Ast
import ByteCode.ClassFile(ClassFile (..), ConstantInfo (..), MemberInfo(..), Operation(..), Attribute(..), opcodeEncodingLength)
import ByteCode.Generation.Generator
import ByteCode.Constants
import Data.List
findFieldIndex :: [ConstantInfo] -> String -> Maybe Int
findFieldIndex constants name = let
fieldRefNameInfos = [
-- we only skip one entry to get the name since the Java constant pool
-- is 1-indexed (why)
(index, constants!!(fromIntegral index + 1))
| (index, FieldRefInfo _ _) <- (zip [1..] constants)
]
fieldRefNames = map (\(index, nameInfo) -> case nameInfo of
Utf8Info fieldName -> (index, fieldName)
something_else -> error ("Expected UTF8Info but got" ++ show something_else))
fieldRefNameInfos
fieldIndex = find (\(index, fieldName) -> fieldName == name) fieldRefNames
in case fieldIndex of
Just (index, _) -> Just index
Nothing -> Nothing
fieldBuilder :: ClassFileBuilder VariableDeclaration
fieldBuilder (VariableDeclaration datatype name _) input = let
baseIndex = 1 + length (constantPool input)
constants = [
FieldRefInfo (fromIntegral (thisClass input)) (fromIntegral (baseIndex + 1)),
NameAndTypeInfo (fromIntegral (baseIndex + 2)) (fromIntegral (baseIndex + 3)),
Utf8Info name,
Utf8Info (datatypeDescriptor datatype)
]
field = MemberInfo {
memberAccessFlags = accessPublic,
memberNameIndex = (fromIntegral (baseIndex + 2)),
memberDescriptorIndex = (fromIntegral (baseIndex + 3)),
memberAttributes = []
}
in
input {
constantPool = (constantPool input) ++ constants,
fields = (fields input) ++ [field]
}

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@ -0,0 +1,80 @@
module ByteCode.Generation.Builder.Method where
import Ast
import ByteCode.ClassFile(ClassFile (..), ConstantInfo (..), MemberInfo(..), Operation(..), Attribute(..), opcodeEncodingLength)
import ByteCode.Generation.Generator
import ByteCode.Generation.Assembler.Method
import ByteCode.Constants
import Data.List
methodDescriptor :: MethodDeclaration -> String
methodDescriptor (MethodDeclaration returntype _ parameters _) = let
parameter_types = [datatype | ParameterDeclaration datatype _ <- parameters]
in
"("
++ (concat (map methodParameterDescriptor parameter_types))
++ ")"
++ methodParameterDescriptor returntype
methodParameterDescriptor :: String -> String
methodParameterDescriptor "void" = "V"
methodParameterDescriptor "int" = "I"
methodParameterDescriptor "char" = "C"
methodParameterDescriptor "boolean" = "B"
methodParameterDescriptor x = "L" ++ x ++ ";"
memberInfoIsMethod :: [ConstantInfo] -> MemberInfo -> Bool
memberInfoIsMethod constants info = elem '(' (memberInfoDescriptor constants info)
findMethodIndex :: ClassFile -> String -> Maybe Int
findMethodIndex classFile name = let
constants = constantPool classFile
in
findIndex (\method -> ((memberInfoIsMethod constants method) && (memberInfoName constants method) == name)) (methods classFile)
methodBuilder :: ClassFileBuilder MethodDeclaration
methodBuilder (MethodDeclaration returntype name parameters statement) input = let
baseIndex = 1 + length (constantPool input)
constants = [
Utf8Info name,
Utf8Info (methodDescriptor (MethodDeclaration returntype name parameters (Block [])))
]
method = MemberInfo {
memberAccessFlags = accessPublic,
memberNameIndex = (fromIntegral baseIndex),
memberDescriptorIndex = (fromIntegral (baseIndex + 1)),
memberAttributes = []
}
in
input {
constantPool = (constantPool input) ++ constants,
methods = (methods input) ++ [method]
}
methodAssembler :: ClassFileBuilder MethodDeclaration
methodAssembler (MethodDeclaration returntype name parameters statement) input = let
methodConstantIndex = findMethodIndex input name
in case methodConstantIndex of
Nothing -> error ("Cannot find method entry in method pool for method: " ++ name)
Just index -> let
declaration = MethodDeclaration returntype name parameters statement
paramNames = "this" : [name | ParameterDeclaration _ name <- parameters]
(pre, method : post) = splitAt index (methods input)
(_, bytecode, _) = assembleMethod (constantPool input, [], paramNames) declaration
assembledMethod = method {
memberAttributes = [
CodeAttribute {
attributeMaxStack = 420,
attributeMaxLocals = 420,
attributeCode = bytecode
}
]
}
in
input {
methods = pre ++ (assembledMethod : post)
}

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@ -0,0 +1,73 @@
module ByteCode.Generation.Generator(
datatypeDescriptor,
memberInfoName,
memberInfoDescriptor,
returnOperation,
binaryOperation,
comparisonOperation,
ClassFileBuilder,
Assembler
) where
import ByteCode.Constants
import ByteCode.ClassFile (ClassFile (..), ConstantInfo (..), MemberInfo(..), Operation(..), Attribute(..), opcodeEncodingLength)
import Ast
import Data.Char
import Data.List
import Data.Word
type ClassFileBuilder a = a -> ClassFile -> ClassFile
type Assembler a = ([ConstantInfo], [Operation], [String]) -> a -> ([ConstantInfo], [Operation], [String])
datatypeDescriptor :: String -> String
datatypeDescriptor "void" = "V"
datatypeDescriptor "int" = "I"
datatypeDescriptor "char" = "C"
datatypeDescriptor "boolean" = "B"
datatypeDescriptor x = "L" ++ x
memberInfoDescriptor :: [ConstantInfo] -> MemberInfo -> String
memberInfoDescriptor constants MemberInfo {
memberAccessFlags = _,
memberNameIndex = _,
memberDescriptorIndex = descriptorIndex,
memberAttributes = _ } = let
descriptor = constants!!((fromIntegral descriptorIndex) - 1)
in case descriptor of
Utf8Info descriptorText -> descriptorText
_ -> ("Invalid Item at Constant pool index " ++ show descriptorIndex)
memberInfoName :: [ConstantInfo] -> MemberInfo -> String
memberInfoName constants MemberInfo {
memberAccessFlags = _,
memberNameIndex = nameIndex,
memberDescriptorIndex = _,
memberAttributes = _ } = let
name = constants!!((fromIntegral nameIndex) - 1)
in case name of
Utf8Info nameText -> nameText
_ -> ("Invalid Item at Constant pool index " ++ show nameIndex)
returnOperation :: DataType -> Operation
returnOperation dtype
| elem dtype ["int", "char", "boolean"] = Opireturn
| otherwise = Opareturn
binaryOperation :: BinaryOperator -> Operation
binaryOperation Addition = Opiadd
binaryOperation Subtraction = Opisub
binaryOperation Multiplication = Opimul
binaryOperation Division = Opidiv
binaryOperation BitwiseAnd = Opiand
binaryOperation BitwiseOr = Opior
binaryOperation BitwiseXor = Opixor
comparisonOperation :: BinaryOperator -> Word16 -> Operation
comparisonOperation CompareEqual branchLocation = Opif_icmpeq branchLocation
comparisonOperation CompareNotEqual branchLocation = Opif_icmpne branchLocation
comparisonOperation CompareLessThan branchLocation = Opif_icmplt branchLocation
comparisonOperation CompareLessOrEqual branchLocation = Opif_icmple branchLocation
comparisonOperation CompareGreaterThan branchLocation = Opif_icmpgt branchLocation
comparisonOperation CompareGreaterOrEqual branchLocation = Opif_icmpge branchLocation

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@ -2,7 +2,19 @@ module Main where
import Example import Example
import Typecheck import Typecheck
import Parser.Lexer (alexScanTokens)
import Parser.JavaParser
import ByteCode.Generation.Generator
import ByteCode.Generation.Builder.Class
import ByteCode.ClassFile
import Data.ByteString (pack, writeFile)
main = do main = do
Example.runTypeCheck file <- readFile "Testklasse.java"
let untypedAST = parse $ alexScanTokens file
let typedAST = head (typeCheckCompilationUnit untypedAST)
let abstractClassFile = classBuilder typedAST emptyClassFile
let assembledClassFile = pack (serialize abstractClassFile)
Data.ByteString.writeFile "Testklasse.class" assembledClassFile

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@ -83,11 +83,11 @@ typedeclarations : typedeclaration { [$1] }
| typedeclarations typedeclaration { $1 ++ [$2] } | typedeclarations typedeclaration { $1 ++ [$2] }
name : simplename { Reference $1 } name : simplename { Reference $1 }
-- | qualifiedname { } | qualifiedname { $1 }
typedeclaration : classdeclaration { $1 } typedeclaration : classdeclaration { $1 }
qualifiedname : name DOT IDENTIFIER { } qualifiedname : name DOT IDENTIFIER { BinaryOperation NameResolution $1 (Reference $3) }
simplename : IDENTIFIER { $1 } simplename : IDENTIFIER { $1 }
@ -297,7 +297,7 @@ classinstancecreationexpression : NEW classtype LBRACE RBRACE { }
conditionalandexpression : inclusiveorexpression { $1 } conditionalandexpression : inclusiveorexpression { $1 }
fieldaccess : primary DOT IDENTIFIER { } fieldaccess : primary DOT IDENTIFIER { BinaryOperation NameResolution $1 (Reference $3) }
unaryexpression : unaryexpressionnotplusminus { $1 } unaryexpression : unaryexpressionnotplusminus { $1 }
| predecrementexpression { StatementExpressionExpression $1 } | predecrementexpression { StatementExpressionExpression $1 }
@ -319,7 +319,7 @@ primarynonewarray : literal { $1 }
| THIS { Reference "this" } | THIS { Reference "this" }
| LBRACE expression RBRACE { $2 } | LBRACE expression RBRACE { $2 }
-- | classinstancecreationexpression { } -- | classinstancecreationexpression { }
-- | fieldaccess { } | fieldaccess { $1 }
| methodinvocation { StatementExpressionExpression $1 } | methodinvocation { StatementExpressionExpression $1 }
unaryexpressionnotplusminus : postfixexpression { $1 } unaryexpressionnotplusminus : postfixexpression { $1 }