Added Makefile, prettyfied code, initial work on pragmas
This commit is contained in:
parent
e8cbec94bd
commit
cb21af4aa3
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@ -0,0 +1,5 @@
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run:
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nim --hints:off --warnings:off r src/test.nim
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pretty:
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nimpretty src/*.nim src/backend/*.nim src/frontend/*.nim src/frontend/meta/*.nim src/memory/*.nim src/util/*.nim
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@ -52,4 +52,3 @@ type
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fields*: seq[PeonObject]
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else:
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discard # TODO
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@ -126,7 +126,8 @@ proc readInt64(self: PeonVM, idx: int): PeonObject =
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## chunk's constant table and
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## returns a Peon object. Assumes
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## the constant is an Int64
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var arr = [self.chunk.byteConsts[idx], self.chunk.byteConsts[idx + 1], self.chunk.byteConsts[idx + 2], self.chunk.byteConsts[idx + 3]]
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var arr = [self.chunk.byteConsts[idx], self.chunk.byteConsts[idx + 1],
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self.chunk.byteConsts[idx + 2], self.chunk.byteConsts[idx + 3]]
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result = PeonObject(kind: Int64)
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copyMem(result.long.addr, arr.addr, sizeof(arr))
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@ -136,7 +137,8 @@ proc readUInt64(self: PeonVM, idx: int): PeonObject =
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## chunk's constant table and
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## returns a Peon object. Assumes
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## the constant is an UInt64
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var arr = [self.chunk.byteConsts[idx], self.chunk.byteConsts[idx + 1], self.chunk.byteConsts[idx + 2], self.chunk.byteConsts[idx + 3]]
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var arr = [self.chunk.byteConsts[idx], self.chunk.byteConsts[idx + 1],
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self.chunk.byteConsts[idx + 2], self.chunk.byteConsts[idx + 3]]
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result = PeonObject(kind: UInt64)
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copyMem(result.uLong.addr, arr.addr, sizeof(arr))
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@ -96,7 +96,7 @@ type
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# The bytecode chunk where we write code to
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chunk: Chunk
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# The output of our parser (AST)
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ast: seq[ASTNode]
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ast: seq[Declaration]
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# The current AST node we're looking at
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current: int
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# The current file being compiled (used only for
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@ -185,7 +185,8 @@ proc done(self: Compiler): bool =
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result = self.current > self.ast.high()
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proc error(self: Compiler, message: string) {.raises: [CompileError, ValueError].} =
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proc error(self: Compiler, message: string) {.raises: [CompileError,
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ValueError].} =
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## Raises a formatted CompileError exception
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var tok = self.getCurrentNode().token
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raise newException(CompileError, &"A fatal error occurred while compiling '{self.file}', module '{self.currentModule}' line {tok.line} at '{tok.lexeme}' -> {message}")
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@ -325,7 +326,8 @@ proc resolve(self: Compiler, name: IdentExpr,
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return nil
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proc getStackPos(self: Compiler, name: IdentExpr, depth: int = self.scopeDepth): tuple[closedOver: bool, pos: int] =
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proc getStackPos(self: Compiler, name: IdentExpr,
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depth: int = self.scopeDepth): tuple[closedOver: bool, pos: int] =
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## Iterates the internal list of declared names backwards and
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## returns a tuple (closedOver, pos) that tells the caller whether the
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## the name is to be emitted as a closure as well as its predicted
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@ -348,7 +350,8 @@ proc getStackPos(self: Compiler, name: IdentExpr, depth: int = self.scopeDepth):
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return (false, -1)
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proc detectClosureVariable(self: Compiler, name: IdentExpr, depth: int = self.scopeDepth) =
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proc detectClosureVariable(self: Compiler, name: IdentExpr,
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depth: int = self.scopeDepth) =
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## Detects if the given name is used in a local scope deeper
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## than the given one and modifies the code emitted for it
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## to store it as a closure variable if it is. Does nothing if the name
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@ -399,7 +402,8 @@ proc compareTypes(self: Compiler, a, b: Type): bool =
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return false
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elif a.arguments.len() != b.arguments.len():
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return false
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elif not self.compareTypes(self.inferType(a.returnType), self.inferType(b.returnType)):
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elif not self.compareTypes(self.inferType(a.returnType),
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self.inferType(b.returnType)):
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return false
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for (argA, argB) in zip(a.arguments, b.arguments):
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if argA.mutable != argB.mutable:
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@ -408,7 +412,8 @@ proc compareTypes(self: Compiler, a, b: Type): bool =
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return false
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elif argA.isPtr != argB.isPtr:
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return false
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elif not self.compareTypes(self.inferType(argA.valueType), self.inferType(argB.valueType)):
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elif not self.compareTypes(self.inferType(argA.valueType),
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self.inferType(argB.valueType)):
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return false
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return true
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else:
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@ -736,7 +741,8 @@ proc declareName(self: Compiler, node: Declaration) =
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isPrivate: node.isPrivate,
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owner: self.currentModule,
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isConst: node.isConst,
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valueType: Type(kind: self.inferType(node.value).kind, node: node),
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valueType: Type(kind: self.inferType(
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node.value).kind, node: node),
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codePos: self.chunk.code.len(),
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isLet: node.isLet))
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self.emitByte(StoreVar)
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@ -754,7 +760,9 @@ proc declareName(self: Compiler, node: Declaration) =
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isPrivate: node.isPrivate,
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isConst: false,
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owner: self.currentModule,
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valueType: Type(kind: Function, node: node, returnType: self.inferType(node.returnType)),
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valueType: Type(kind: Function, node: node,
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returnType: self.inferType(
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node.returnType)),
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codePos: self.chunk.code.len(),
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name: node.name,
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isLet: false))
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@ -1250,7 +1258,7 @@ proc declaration(self: Compiler, node: Declaration) =
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self.statement(Statement(node))
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proc compile*(self: Compiler, ast: seq[ASTNode], file: string): Chunk =
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proc compile*(self: Compiler, ast: seq[Declaration], file: string): Chunk =
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## Compiles a sequence of AST nodes into a chunk
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## object
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self.chunk = newChunk()
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@ -99,7 +99,8 @@ proc getToken(self: Lexer, lexeme: string): Token =
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## string according to the symbol table or
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## returns nil if there's no match
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let table = self.symbols
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var kind = table.symbols.getOrDefault(lexeme, table.keywords.getOrDefault(lexeme, NoMatch))
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var kind = table.symbols.getOrDefault(lexeme, table.keywords.getOrDefault(
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lexeme, NoMatch))
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if kind == NoMatch:
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return nil
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new(result)
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@ -147,7 +148,8 @@ proc getStart*(self: Lexer): int = self.start
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proc getCurrent*(self: Lexer): int = self.current
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proc getLine*(self: Lexer): int = self.line
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proc getSource*(self: Lexer): string = self.source
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proc getRelPos*(self: Lexer, line: int): tuple[start, stop: int] = (if line > 1: self.lines[line - 2] else: (start: 0, stop: self.current))
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proc getRelPos*(self: Lexer, line: int): tuple[start, stop: int] = (if line >
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1: self.lines[line - 2] else: (start: 0, stop: self.current))
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proc newLexer*(self: Lexer = nil): Lexer =
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@ -206,7 +208,8 @@ proc peek(self: Lexer, distance: int = 0, length: int = 1): string =
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## will be shorter than length bytes
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var i = distance
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while len(result) < length:
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if self.done() or self.current + i > self.source.high() or self.current + i < 0:
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if self.done() or self.current + i > self.source.high() or
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self.current + i < 0:
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break
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else:
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result.add(self.source[self.current + i])
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@ -490,7 +493,8 @@ proc parseNumber(self: Lexer) =
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discard self.step()
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if self.match("'"):
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# Could be a size specifier, better catch it
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while (self.peek().isAlphaNumeric() or self.check("_")) and not self.done():
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while (self.peek().isAlphaNumeric() or self.check("_")) and
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not self.done():
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discard self.step()
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self.createToken(kind)
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if kind == Binary:
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@ -558,7 +562,8 @@ proc next(self: Lexer) =
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elif self.match(["\"", "'"]):
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# String or character literal
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var mode = "single"
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if self.peek(-1) != "'" and self.check(self.peek(-1)) and self.check(self.peek(-1), 1):
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if self.peek(-1) != "'" and self.check(self.peek(-1)) and self.check(
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self.peek(-1), 1):
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# Multiline strings start with 3 quotes
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discard self.step(2)
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mode = "multi"
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@ -76,6 +76,7 @@ type
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nanExpr,
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infExpr,
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identExpr, # Identifier
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pragmaExpr
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# Here I would've rather used object variants, and in fact that's what was in
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# place before, but not being able to re-declare a field of the same type in
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@ -97,6 +98,8 @@ type
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Declaration* = ref object of ASTNode
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## A declaration
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pragmas*: seq[Pragma]
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generics*: seq[tuple[name: IdentExpr, cond: Expression]]
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Statement* = ref object of Declaration
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## A statement
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Expression* = ref object of Statement
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@ -145,7 +148,8 @@ type
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CallExpr* = ref object of Expression
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callee*: Expression # The object being called
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arguments*: tuple[positionals: seq[Expression], keyword: seq[tuple[name: IdentExpr, value: Expression]]]
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arguments*: tuple[positionals: seq[Expression], keyword: seq[tuple[
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name: IdentExpr, value: Expression]]]
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UnaryExpr* = ref object of Expression
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operator*: Token
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@ -165,7 +169,8 @@ type
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LambdaExpr* = ref object of Expression
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body*: Statement
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arguments*: seq[tuple[name: IdentExpr, valueType: Expression, mutable: bool, isRef: bool, isPtr: bool]]
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arguments*: seq[tuple[name: IdentExpr, valueType: Expression,
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mutable: bool, isRef: bool, isPtr: bool]]
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defaults*: seq[Expression]
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isGenerator*: bool
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isAsync*: bool
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@ -245,7 +250,8 @@ type
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FunDecl* = ref object of Declaration
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name*: IdentExpr
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body*: Statement
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arguments*: seq[tuple[name: IdentExpr, valueType: Expression, mutable: bool, isRef: bool, isPtr: bool]]
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arguments*: seq[tuple[name: IdentExpr, valueType: Expression,
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mutable: bool, isRef: bool, isPtr: bool]]
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defaults*: seq[Expression]
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isAsync*: bool
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isGenerator*: bool
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## strings and singletons count as
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## constants
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case self.kind:
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of intExpr, hexExpr, binExpr, octExpr, strExpr, falseExpr, trueExpr, infExpr, nanExpr, floatExpr, nilExpr:
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of intExpr, hexExpr, binExpr, octExpr, strExpr, falseExpr, trueExpr,
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infExpr, nanExpr, floatExpr, nilExpr:
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return true
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else:
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return false
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@ -285,6 +292,13 @@ proc newASTNode*(kind: NodeKind, token: Token): ASTNode =
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result.token = token
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proc newPragma*(name: IdentExpr, args: seq[LiteralExpr]): Pragma =
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new(result)
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result.kind = pragmaExpr
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result.args = args
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result.name = name
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proc newIntExpr*(literal: Token): IntExpr =
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result = IntExpr(kind: intExpr)
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result.literal = literal
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result.token = literal
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proc newTrueExpr*(token: Token): LiteralExpr = LiteralExpr(kind: trueExpr, token: token, literal: token)
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proc newFalseExpr*(token: Token): LiteralExpr = LiteralExpr(kind: falseExpr, token: token, literal: token)
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proc newNaNExpr*(token: Token): LiteralExpr = LiteralExpr(kind: nanExpr, token: token, literal: token)
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proc newNilExpr*(token: Token): LiteralExpr = LiteralExpr(kind: nilExpr, token: token, literal: token)
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proc newInfExpr*(token: Token): LiteralExpr = LiteralExpr(kind: infExpr, token: token, literal: token)
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proc newTrueExpr*(token: Token): LiteralExpr = LiteralExpr(kind: trueExpr,
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token: token, literal: token)
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proc newFalseExpr*(token: Token): LiteralExpr = LiteralExpr(kind: falseExpr,
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token: token, literal: token)
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proc newNaNExpr*(token: Token): LiteralExpr = LiteralExpr(kind: nanExpr,
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token: token, literal: token)
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proc newNilExpr*(token: Token): LiteralExpr = LiteralExpr(kind: nilExpr,
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token: token, literal: token)
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proc newInfExpr*(token: Token): LiteralExpr = LiteralExpr(kind: infExpr,
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token: token, literal: token)
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proc newStrExpr*(literal: Token): StrExpr =
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@ -346,8 +365,10 @@ proc newGroupingExpr*(expression: Expression, token: Token): GroupingExpr =
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result.token = token
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proc newLambdaExpr*(arguments: seq[tuple[name: IdentExpr, valueType: Expression, mutable: bool, isRef: bool, isPtr: bool]], defaults: seq[Expression], body: Statement,
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isGenerator: bool, isAsync: bool, token: Token, returnType: Expression): LambdaExpr =
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proc newLambdaExpr*(arguments: seq[tuple[name: IdentExpr, valueType: Expression,
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mutable: bool, isRef: bool, isPtr: bool]], defaults: seq[Expression],
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body: Statement, isGenerator: bool, isAsync: bool, token: Token,
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returnType: Expression, pragmas: seq[Pragma]): LambdaExpr =
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result = LambdaExpr(kind: lambdaExpr)
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result.body = body
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result.arguments = arguments
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@ -357,16 +378,19 @@ proc newLambdaExpr*(arguments: seq[tuple[name: IdentExpr, valueType: Expression,
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result.token = token
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result.returnType = returnType
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result.isPure = false
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result.pragmas = pragmas
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proc newGetItemExpr*(obj: Expression, name: IdentExpr, token: Token): GetItemExpr =
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proc newGetItemExpr*(obj: Expression, name: IdentExpr,
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token: Token): GetItemExpr =
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result = GetItemExpr(kind: getItemExpr)
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result.obj = obj
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result.name = name
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result.token = token
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proc newSetItemExpr*(obj: Expression, name: IdentExpr, value: Expression, token: Token): SetItemExpr =
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proc newSetItemExpr*(obj: Expression, name: IdentExpr, value: Expression,
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token: Token): SetItemExpr =
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result = SetItemExpr(kind: setItemExpr)
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result.obj = obj
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result.name = name
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@ -374,8 +398,8 @@ proc newSetItemExpr*(obj: Expression, name: IdentExpr, value: Expression, token:
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result.token = token
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proc newCallExpr*(callee: Expression, arguments: tuple[positionals: seq[Expression],
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keyword: seq[tuple[name: IdentExpr, value: Expression]]],
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proc newCallExpr*(callee: Expression, arguments: tuple[positionals: seq[
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Expression], keyword: seq[tuple[name: IdentExpr, value: Expression]]],
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token: Token): CallExpr =
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result = CallExpr(kind: callExpr)
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result.callee = callee
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@ -412,7 +436,8 @@ proc newYieldExpr*(expression: Expression, token: Token): YieldExpr =
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result.token = token
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proc newAssignExpr*(name: Expression, value: Expression, token: Token): AssignExpr =
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proc newAssignExpr*(name: Expression, value: Expression,
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token: Token): AssignExpr =
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result = AssignExpr(kind: assignExpr)
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result.name = name
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result.value = value
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@ -484,15 +509,16 @@ proc newBlockStmt*(code: seq[Declaration], token: Token): BlockStmt =
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result.token = token
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proc newWhileStmt*(condition: Expression, body: Statement, token: Token): WhileStmt =
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proc newWhileStmt*(condition: Expression, body: Statement,
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token: Token): WhileStmt =
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result = WhileStmt(kind: whileStmt)
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result.condition = condition
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result.body = body
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result.token = token
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proc newForEachStmt*(identifier: IdentExpr, expression: Expression, body: Statement,
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token: Token): ForEachStmt =
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proc newForEachStmt*(identifier: IdentExpr, expression: Expression,
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body: Statement, token: Token): ForEachStmt =
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result = ForEachStmt(kind: forEachStmt)
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result.identifier = identifier
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result.expression = expression
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@ -234,7 +234,8 @@ proc findOrAddConstant(self: Chunk, constant: Expression, kind: Type): int =
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if c.kind != constant.kind:
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continue
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if constant.isConst():
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if LiteralExpr(c).literal.lexeme == LiteralExpr(constant).literal.lexeme:
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if LiteralExpr(c).literal.lexeme == LiteralExpr(
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constant).literal.lexeme:
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# This wouldn't work for stuff like 2e3 and 2000.0, but those
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# forms are collapsed in the compiler before being written
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# to the constants table
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@ -84,6 +84,8 @@ type
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# Stores the current scope depth (0 = global, > 0 local)
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scopeDepth: int
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operators: OperatorTable
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# The AST node
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tree: seq[Declaration]
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proc newOperatorTable: OperatorTable =
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@ -140,11 +142,13 @@ proc newParser*: Parser =
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result.currentLoop = LoopContext.None
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result.scopeDepth = 0
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result.operators = newOperatorTable()
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result.tree = @[]
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# Public getters for improved error formatting
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proc getCurrent*(self: Parser): int {.inline.} = self.current
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proc getCurrentToken*(self: Parser): Token {.inline.} = (if self.getCurrent() >= self.tokens.high() or
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proc getCurrentToken*(self: Parser): Token {.inline.} = (if self.getCurrent() >=
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self.tokens.high() or
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self.getCurrent() - 1 < 0: self.tokens[^1] else: self.tokens[self.current - 1])
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# Handy templates to make our life easier, thanks nim!
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@ -158,7 +162,8 @@ proc peek(self: Parser, distance: int = 0): Token =
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## token is returned. A negative distance may
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## be used to retrieve previously consumed
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## tokens
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if self.tokens.high() == -1 or self.current + distance > self.tokens.high() or self.current + distance < 0:
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if self.tokens.high() == -1 or self.current + distance > self.tokens.high(
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) or self.current + distance < 0:
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result = endOfFile
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else:
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result = self.tokens[self.current + distance]
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@ -197,7 +202,8 @@ proc error(self: Parser, message: string) {.raises: [ParseError, ValueError].} =
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# tell at tokenization time which of the two contexts we're in, we just treat everything
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# as a symbol and in the cases where we need a specific token we just match the string
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# directly
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proc check[T: TokenType or string](self: Parser, kind: T, distance: int = 0): bool =
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proc check[T: TokenType or string](self: Parser, kind: T,
|
||||
distance: int = 0): bool =
|
||||
## Checks if the given token at the given distance
|
||||
## matches the expected kind and returns a boolean.
|
||||
## The distance parameter is passed directly to
|
||||
|
@ -243,7 +249,8 @@ proc match[T: TokenType or string](self: Parser, kind: openarray[T]): bool =
|
|||
result = false
|
||||
|
||||
|
||||
proc expect[T: TokenType or string](self: Parser, kind: T, message: string = "") =
|
||||
proc expect[T: TokenType or string](self: Parser, kind: T,
|
||||
message: string = "") =
|
||||
## Behaves like self.match(), except that
|
||||
## when a token doesn't match, an error
|
||||
## is raised. If no error message is
|
||||
|
@ -255,7 +262,8 @@ proc expect[T: TokenType or string](self: Parser, kind: T, message: string = "")
|
|||
self.error(message)
|
||||
|
||||
|
||||
proc expect[T: TokenType or string](self: Parser, kind: openarray[T], message: string = "") =
|
||||
proc expect[T: TokenType or string](self: Parser, kind: openarray[T],
|
||||
message: string = "") =
|
||||
## Behaves like self.expect(), except that
|
||||
## an error is raised only if none of the
|
||||
## given token kinds matches
|
||||
|
@ -270,8 +278,10 @@ proc expect[T: TokenType or string](self: Parser, kind: openarray[T], message: s
|
|||
proc expression(self: Parser): Expression
|
||||
proc expressionStatement(self: Parser): Statement
|
||||
proc statement(self: Parser): Statement
|
||||
proc varDecl(self: Parser, isLet: bool = false, isConst: bool = false): Declaration
|
||||
proc funDecl(self: Parser, isAsync: bool = false, isGenerator: bool = false, isLambda: bool = false, isOperator: bool = false): Declaration
|
||||
proc varDecl(self: Parser, isLet: bool = false,
|
||||
isConst: bool = false): Declaration
|
||||
proc funDecl(self: Parser, isAsync: bool = false, isGenerator: bool = false,
|
||||
isLambda: bool = false, isOperator: bool = false): Declaration
|
||||
proc declaration(self: Parser): Declaration
|
||||
# End of forward declarations
|
||||
|
||||
|
@ -343,7 +353,8 @@ proc primary(self: Parser): Expression =
|
|||
result = Expression(self.funDecl(isAsync = true, isLambda = true))
|
||||
of Generator:
|
||||
discard self.step()
|
||||
result = Expression(self.funDecl(isGenerator=true, isLambda=true))
|
||||
result = Expression(self.funDecl(isGenerator = true,
|
||||
isLambda = true))
|
||||
else:
|
||||
self.error("invalid syntax")
|
||||
|
||||
|
@ -353,7 +364,9 @@ proc makeCall(self: Parser, callee: Expression): Expression =
|
|||
## to parse a function call
|
||||
let tok = self.peek(-1)
|
||||
var argNames: seq[IdentExpr] = @[]
|
||||
var arguments: tuple[positionals: seq[Expression], keyword: seq[tuple[name: IdentExpr, value: Expression]]] = (positionals: @[], keyword: @[])
|
||||
var arguments: tuple[positionals: seq[Expression], keyword: seq[tuple[
|
||||
name: IdentExpr, value: Expression]]] = (positionals: @[],
|
||||
keyword: @[])
|
||||
var argument: Expression = nil
|
||||
var argCount = 0
|
||||
if not self.check(RightParen):
|
||||
|
@ -367,7 +380,8 @@ proc makeCall(self: Parser, callee: Expression): Expression =
|
|||
if IdentExpr(AssignExpr(argument).name) in argNames:
|
||||
self.error("duplicate keyword argument in call")
|
||||
argNames.add(IdentExpr(AssignExpr(argument).name))
|
||||
arguments.keyword.add((name: IdentExpr(AssignExpr(argument).name), value: AssignExpr(argument).value))
|
||||
arguments.keyword.add((name: IdentExpr(AssignExpr(
|
||||
argument).name), value: AssignExpr(argument).value))
|
||||
elif arguments.keyword.len() == 0:
|
||||
arguments.positionals.add(argument)
|
||||
else:
|
||||
|
@ -388,7 +402,8 @@ proc call(self: Parser): Expression =
|
|||
result = self.makeCall(result)
|
||||
elif self.match(Dot):
|
||||
self.expect(Identifier, "expecting attribute name after '.'")
|
||||
result = newGetItemExpr(result, newIdentExpr(self.peek(-1)), self.peek(-1))
|
||||
result = newGetItemExpr(result, newIdentExpr(self.peek(-1)),
|
||||
self.peek(-1))
|
||||
elif self.match(LeftBracket):
|
||||
# Slicing such as a[1:2], which is then
|
||||
# translated to `[]`(a, 1, 2)
|
||||
|
@ -484,7 +499,8 @@ proc parseAssign(self: Parser): Expression =
|
|||
of identExpr, sliceExpr:
|
||||
result = newAssignExpr(result, value, tok)
|
||||
of getItemExpr:
|
||||
result = newSetItemExpr(GetItemExpr(result).obj, GetItemExpr(result).name, value, tok)
|
||||
result = newSetItemExpr(GetItemExpr(result).obj, GetItemExpr(
|
||||
result).name, value, tok)
|
||||
else:
|
||||
self.error("invalid assignment target")
|
||||
|
||||
|
@ -531,6 +547,8 @@ proc blockStmt(self: Parser): Statement =
|
|||
var code: seq[Declaration] = @[]
|
||||
while not self.check(RightBrace) and not self.done():
|
||||
code.add(self.declaration())
|
||||
if self.tree[^1] == nil:
|
||||
self.tree.delete(self.tree.high())
|
||||
self.expect(RightBrace, "expecting '}'")
|
||||
result = newBlockStmt(code, tok)
|
||||
self.endScope()
|
||||
|
@ -715,7 +733,8 @@ proc forStmt(self: Parser): Statement =
|
|||
if increment != nil:
|
||||
# The increment runs after each iteration, so we
|
||||
# inject it into the block as the last statement
|
||||
body = newBlockStmt(@[Declaration(body), newExprStmt(increment, increment.token)], tok)
|
||||
body = newBlockStmt(@[Declaration(body), newExprStmt(increment,
|
||||
increment.token)], tok)
|
||||
if condition == nil:
|
||||
## An empty condition is functionally
|
||||
## equivalent to "true"
|
||||
|
@ -766,7 +785,8 @@ template checkDecl(self: Parser, isPrivate: bool) =
|
|||
self.error("cannot bind public names inside local scopes")
|
||||
|
||||
|
||||
proc varDecl(self: Parser, isLet: bool = false, isConst: bool = false): Declaration =
|
||||
proc varDecl(self: Parser, isLet: bool = false,
|
||||
isConst: bool = false): Declaration =
|
||||
## Parses variable declarations
|
||||
var tok = self.peek(-1)
|
||||
var value: Expression
|
||||
|
@ -792,17 +812,22 @@ proc varDecl(self: Parser, isLet: bool = false, isConst: bool = false): Declarat
|
|||
self.expect(Semicolon, &"expecting semicolon after declaration")
|
||||
case tok.kind:
|
||||
of Var:
|
||||
result = newVarDecl(name, value, isPrivate=isPrivate, token=tok, valueType=valueType, pragmas=(@[]))
|
||||
result = newVarDecl(name, value, isPrivate = isPrivate, token = tok,
|
||||
valueType = valueType, pragmas = (@[]))
|
||||
of Const:
|
||||
result = newVarDecl(name, value, isPrivate=isPrivate, token=tok, isConst=true, valueType=valueType, pragmas=(@[]))
|
||||
result = newVarDecl(name, value, isPrivate = isPrivate, token = tok,
|
||||
isConst = true, valueType = valueType, pragmas = (@[]))
|
||||
of Let:
|
||||
result = newVarDecl(name, value, isPrivate=isPrivate, token=tok, isLet=isLet, valueType=valueType, pragmas=(@[]))
|
||||
result = newVarDecl(name, value, isPrivate = isPrivate, token = tok,
|
||||
isLet = isLet, valueType = valueType, pragmas = (@[]))
|
||||
else:
|
||||
discard # Unreachable
|
||||
|
||||
|
||||
proc parseDeclArguments(self: Parser, arguments: var seq[tuple[name: IdentExpr, valueType: Expression, mutable: bool, isRef: bool, isPtr: bool]],
|
||||
parameter: var tuple[name: IdentExpr, valueType: Expression, mutable: bool, isRef: bool, isPtr: bool],
|
||||
parameter: var tuple[name: IdentExpr,
|
||||
valueType: Expression, mutable: bool,
|
||||
isRef: bool, isPtr: bool],
|
||||
defaults: var seq[Expression]) =
|
||||
## Helper to parse declaration arguments and avoid code duplication
|
||||
while not self.check(RightParen):
|
||||
|
@ -843,11 +868,13 @@ proc parseDeclArguments(self: Parser, arguments: var seq[tuple[name: IdentExpr,
|
|||
self.error(&"missing type declaration for '{argument.name.token.lexeme}' in function declaration")
|
||||
|
||||
|
||||
proc funDecl(self: Parser, isAsync: bool = false, isGenerator: bool = false, isLambda: bool = false, isOperator: bool = false): Declaration =
|
||||
proc funDecl(self: Parser, isAsync: bool = false, isGenerator: bool = false,
|
||||
isLambda: bool = false, isOperator: bool = false): Declaration =
|
||||
## Parses functions, coroutines, generators, anonymous functions and operators
|
||||
let tok = self.peek(-1)
|
||||
var enclosingFunction = self.currentFunction
|
||||
var arguments: seq[tuple[name: IdentExpr, valueType: Expression, mutable: bool, isRef: bool, isPtr: bool]] = @[]
|
||||
var arguments: seq[tuple[name: IdentExpr, valueType: Expression,
|
||||
mutable: bool, isRef: bool, isPtr: bool]] = @[]
|
||||
var defaults: seq[Expression] = @[]
|
||||
var returnType: Expression
|
||||
if not isLambda and self.check(Identifier):
|
||||
|
@ -860,8 +887,11 @@ proc funDecl(self: Parser, isAsync: bool = false, isGenerator: bool = false, isL
|
|||
self.expect(Identifier, &"expecting identifier after '{tok.lexeme}'")
|
||||
self.checkDecl(not self.check("*"))
|
||||
self.currentFunction = newFunDecl(nil, arguments, defaults, newBlockStmt(@[], Token()),
|
||||
isAsync=isAsync, isGenerator=isGenerator, isPrivate=true,
|
||||
token=tok, pragmas=(@[]), returnType=nil)
|
||||
isAsync = isAsync,
|
||||
isGenerator = isGenerator,
|
||||
isPrivate = true,
|
||||
token = tok, pragmas = (@[]),
|
||||
returnType = nil)
|
||||
FunDecl(self.currentFunction).name = newIdentExpr(self.peek(-1))
|
||||
if self.match("*"):
|
||||
FunDecl(self.currentFunction).isPrivate = false
|
||||
|
@ -879,7 +909,7 @@ proc funDecl(self: Parser, isAsync: bool = false, isGenerator: bool = false, isL
|
|||
return result
|
||||
elif isLambda:
|
||||
self.currentFunction = newLambdaExpr(arguments, defaults, newBlockStmt(@[], Token()), isGenerator = isGenerator, isAsync = isAsync, token = tok,
|
||||
returnType=nil)
|
||||
returnType = nil, pragmas = (@[]))
|
||||
elif not isOperator:
|
||||
self.error("funDecl: invalid state")
|
||||
if self.match(":"):
|
||||
|
@ -890,12 +920,20 @@ proc funDecl(self: Parser, isAsync: bool = false, isGenerator: bool = false, isL
|
|||
# the type declaration for a function lacks
|
||||
# the braces that would qualify it as an
|
||||
# expression
|
||||
var arguments: seq[tuple[name: IdentExpr, valueType: Expression, mutable: bool, isRef: bool, isPtr: bool]] = @[]
|
||||
var arguments: seq[tuple[name: IdentExpr, valueType: Expression,
|
||||
mutable: bool, isRef: bool, isPtr: bool]] = @[]
|
||||
var defaults: seq[Expression] = @[]
|
||||
returnType = newLambdaExpr(arguments, defaults, nil, isGenerator = self.peek(-1).kind == Generator,
|
||||
isAsync=self.peek(-1).kind == Coroutine,
|
||||
token=self.peek(-1), returnType=nil)
|
||||
var parameter: tuple[name: IdentExpr, valueType: Expression, mutable: bool, isRef: bool, isPtr: bool]
|
||||
isAsync = self.peek(
|
||||
-1).kind ==
|
||||
Coroutine,
|
||||
token = self.peek(
|
||||
-1),
|
||||
returnType = nil,
|
||||
pragmas = (
|
||||
@[]))
|
||||
var parameter: tuple[name: IdentExpr, valueType: Expression,
|
||||
mutable: bool, isRef: bool, isPtr: bool]
|
||||
if self.match(LeftParen):
|
||||
self.parseDeclArguments(arguments, parameter, defaults)
|
||||
if self.match(":"):
|
||||
|
@ -904,17 +942,26 @@ proc funDecl(self: Parser, isAsync: bool = false, isGenerator: bool = false, isL
|
|||
returnType = self.expression()
|
||||
if not self.match(LeftBrace):
|
||||
self.expect(LeftParen)
|
||||
var parameter: tuple[name: IdentExpr, valueType: Expression, mutable: bool, isRef: bool, isPtr: bool]
|
||||
var parameter: tuple[name: IdentExpr, valueType: Expression,
|
||||
mutable: bool, isRef: bool, isPtr: bool]
|
||||
self.parseDeclArguments(arguments, parameter, defaults)
|
||||
if self.match(":"):
|
||||
# Function's return type
|
||||
if self.match([Function, Coroutine, Generator]):
|
||||
var arguments: seq[tuple[name: IdentExpr, valueType: Expression, mutable: bool, isRef: bool, isPtr: bool]] = @[]
|
||||
var arguments: seq[tuple[name: IdentExpr, valueType: Expression,
|
||||
mutable: bool, isRef: bool, isPtr: bool]] = @[]
|
||||
var defaults: seq[Expression] = @[]
|
||||
returnType = newLambdaExpr(arguments, defaults, nil, isGenerator = self.peek(-1).kind == Generator,
|
||||
isAsync=self.peek(-1).kind == Coroutine,
|
||||
token=self.peek(-1), returnType=nil)
|
||||
var parameter: tuple[name: IdentExpr, valueType: Expression, mutable: bool, isRef: bool, isPtr: bool]
|
||||
isAsync = self.peek(
|
||||
-1).kind ==
|
||||
Coroutine,
|
||||
token = self.peek(
|
||||
-1),
|
||||
returnType = nil,
|
||||
pragmas = (
|
||||
@[]))
|
||||
var parameter: tuple[name: IdentExpr, valueType: Expression,
|
||||
mutable: bool, isRef: bool, isPtr: bool]
|
||||
if self.match(LeftParen):
|
||||
self.parseDeclArguments(arguments, parameter, defaults)
|
||||
if self.match(":"):
|
||||
|
@ -1020,12 +1067,30 @@ proc statement(self: Parser): Statement =
|
|||
result = self.expressionStatement()
|
||||
|
||||
|
||||
proc parsePragma(self: Parser): Pragma =
|
||||
## Parses pragmas
|
||||
if self.scopeDepth == 0:
|
||||
## Pragmas used at the
|
||||
## top level are either
|
||||
## used for compile-time
|
||||
## switches or for variable
|
||||
## declarations
|
||||
var decl: VarDecl
|
||||
for node in self.tree:
|
||||
if node.token.line == self.peek(-1).line and node.kind == varDecl:
|
||||
decl = VarDecl(node)
|
||||
break
|
||||
else:
|
||||
var decl = self.currentFunction
|
||||
|
||||
|
||||
proc declaration(self: Parser): Declaration =
|
||||
## Parses declarations
|
||||
case self.peek().kind:
|
||||
of Var, Const, Let:
|
||||
let keyword = self.step()
|
||||
result = self.varDecl(isLet=keyword.kind == Let, isConst=keyword.kind == Const)
|
||||
result = self.varDecl(isLet = keyword.kind == Let,
|
||||
isConst = keyword.kind == Const)
|
||||
of Function:
|
||||
discard self.step()
|
||||
result = self.funDecl()
|
||||
|
@ -1038,15 +1103,17 @@ proc declaration(self: Parser): Declaration =
|
|||
of Operator:
|
||||
discard self.step()
|
||||
result = self.funDecl(isOperator = true)
|
||||
of Type, TokenType.Whitespace, TokenType.Tab, Comment:
|
||||
# TODO: Comments, pragmas, docstrings
|
||||
of TokenType.Comment:
|
||||
let tok = self.step()
|
||||
if tok.lexeme.startsWith("#pragma["):
|
||||
result = self.parsePragma()
|
||||
of Type, TokenType.Whitespace, TokenType.Tab:
|
||||
discard self.step() # TODO
|
||||
return newNilExpr(Token(lexeme: "nil"))
|
||||
else:
|
||||
result = Declaration(self.statement())
|
||||
|
||||
|
||||
proc parse*(self: Parser, tokens: seq[Token], file: string): seq[ASTNode] =
|
||||
proc parse*(self: Parser, tokens: seq[Token], file: string): seq[Declaration] =
|
||||
## Parses a series of tokens into an AST node
|
||||
self.tokens = tokens
|
||||
self.file = file
|
||||
|
@ -1055,6 +1122,7 @@ proc parse*(self: Parser, tokens: seq[Token], file: string): seq[ASTNode] =
|
|||
self.currentFunction = nil
|
||||
self.scopeDepth = 0
|
||||
self.operators = newOperatorTable()
|
||||
self.tree = @[]
|
||||
for i, token in self.tokens:
|
||||
# We do a first pass over the tokens
|
||||
# to find operators. Note that this
|
||||
|
@ -1069,4 +1137,7 @@ proc parse*(self: Parser, tokens: seq[Token], file: string): seq[ASTNode] =
|
|||
# well perform some extra checks
|
||||
self.error("invalid state: found malformed tokenizer input while looking for operators (missing EOF)")
|
||||
while not self.done():
|
||||
result.add(self.declaration())
|
||||
self.tree.add(self.declaration())
|
||||
if self.tree[^1] == nil:
|
||||
self.tree.delete(self.tree.high())
|
||||
result = self.tree
|
||||
|
|
|
@ -54,9 +54,11 @@ proc reallocate*(p: pointer, oldSize: int, newSize: int): pointer =
|
|||
quit(139) # For now, there's not much we can do if we can't get the memory we need, so we exit
|
||||
|
||||
|
||||
template resizeArray*(kind: untyped, pointr: pointer, oldCount, newCount: int): untyped =
|
||||
template resizeArray*(kind: untyped, pointr: pointer, oldCount,
|
||||
newCount: int): untyped =
|
||||
## Handy macro (in the C sense of macro, not nim's) to resize a dynamic array
|
||||
cast[ptr UncheckedArray[kind]](reallocate(pointr, sizeof(kind) * oldCount, sizeof(kind) * newCount))
|
||||
cast[ptr UncheckedArray[kind]](reallocate(pointr, sizeof(kind) * oldCount,
|
||||
sizeof(kind) * newCount))
|
||||
|
||||
|
||||
template freeArray*(kind: untyped, pointr: pointer, oldCount: int): untyped =
|
||||
|
|
|
@ -42,7 +42,7 @@ when isMainModule:
|
|||
var
|
||||
keep = true
|
||||
tokens: seq[Token] = @[]
|
||||
tree: seq[ASTNode] = @[]
|
||||
tree: seq[Declaration] = @[]
|
||||
compiled: Chunk
|
||||
serialized: Serialized
|
||||
serializedRaw: seq[byte]
|
||||
|
@ -66,7 +66,8 @@ when isMainModule:
|
|||
if input.len() == 0:
|
||||
continue
|
||||
# Currently the parser doesn't handle these tokens well
|
||||
tokens = filter(tokenizer.lex(input, "stdin"), proc (x: Token): bool = x.kind notin {TokenType.Whitespace, Tab})
|
||||
tokens = filter(tokenizer.lex(input, "stdin"), proc (
|
||||
x: Token): bool = x.kind notin {TokenType.Whitespace, Tab})
|
||||
if tokens.len() == 0:
|
||||
continue
|
||||
when debugLexer:
|
||||
|
|
|
@ -52,9 +52,11 @@ proc simpleInstruction(instruction: OpCode, offset: int): int =
|
|||
return offset + 1
|
||||
|
||||
|
||||
proc stackTripleInstruction(instruction: OpCode, chunk: Chunk, offset: int): int =
|
||||
proc stackTripleInstruction(instruction: OpCode, chunk: Chunk,
|
||||
offset: int): int =
|
||||
## Debugs instructions that operate on a single value on the stack using a 24-bit operand
|
||||
var slot = [chunk.code[offset + 1], chunk.code[offset + 2], chunk.code[offset + 3]].fromTriple()
|
||||
var slot = [chunk.code[offset + 1], chunk.code[offset + 2], chunk.code[
|
||||
offset + 3]].fromTriple()
|
||||
printInstruction(instruction)
|
||||
stdout.write(&", points to index ")
|
||||
setForegroundColor(fgYellow)
|
||||
|
@ -63,7 +65,8 @@ proc stackTripleInstruction(instruction: OpCode, chunk: Chunk, offset: int): int
|
|||
return offset + 4
|
||||
|
||||
|
||||
proc stackDoubleInstruction(instruction: OpCode, chunk: Chunk, offset: int): int =
|
||||
proc stackDoubleInstruction(instruction: OpCode, chunk: Chunk,
|
||||
offset: int): int =
|
||||
## Debugs instructions that operate on a single value on the stack using a 16-bit operand
|
||||
var slot = [chunk.code[offset + 1], chunk.code[offset + 2]].fromDouble()
|
||||
printInstruction(instruction)
|
||||
|
@ -74,7 +77,8 @@ proc stackDoubleInstruction(instruction: OpCode, chunk: Chunk, offset: int): int
|
|||
return offset + 3
|
||||
|
||||
|
||||
proc argumentDoubleInstruction(instruction: OpCode, chunk: Chunk, offset: int): int =
|
||||
proc argumentDoubleInstruction(instruction: OpCode, chunk: Chunk,
|
||||
offset: int): int =
|
||||
## Debugs instructions that operate on a hardcoded value on the stack using a 16-bit operand
|
||||
var slot = [chunk.code[offset + 1], chunk.code[offset + 2]].fromDouble()
|
||||
printInstruction(instruction)
|
||||
|
@ -87,7 +91,8 @@ proc argumentDoubleInstruction(instruction: OpCode, chunk: Chunk, offset: int):
|
|||
|
||||
proc constantInstruction(instruction: OpCode, chunk: Chunk, offset: int): int =
|
||||
## Debugs instructions that operate on the constant table
|
||||
var constant = [chunk.code[offset + 1], chunk.code[offset + 2], chunk.code[offset + 3]].fromTriple()
|
||||
var constant = [chunk.code[offset + 1], chunk.code[offset + 2], chunk.code[
|
||||
offset + 3]].fromTriple()
|
||||
printInstruction(instruction)
|
||||
stdout.write(&", points to constant at position ")
|
||||
setForegroundColor(fgYellow)
|
||||
|
@ -111,8 +116,10 @@ proc jumpInstruction(instruction: OpCode, chunk: Chunk, offset: int): int =
|
|||
case instruction:
|
||||
of Jump, JumpIfFalse, JumpIfTrue, JumpIfFalsePop, JumpForwards, JumpBackwards:
|
||||
jump = [chunk.code[offset + 1], chunk.code[offset + 2]].fromDouble().int()
|
||||
of LongJump, LongJumpIfFalse, LongJumpIfTrue, LongJumpIfFalsePop, LongJumpForwards, LongJumpBackwards:
|
||||
jump = [chunk.code[offset + 1], chunk.code[offset + 2], chunk.code[offset + 3]].fromTriple().int()
|
||||
of LongJump, LongJumpIfFalse, LongJumpIfTrue, LongJumpIfFalsePop,
|
||||
LongJumpForwards, LongJumpBackwards:
|
||||
jump = [chunk.code[offset + 1], chunk.code[offset + 2], chunk.code[
|
||||
offset + 3]].fromTriple().int()
|
||||
else:
|
||||
discard # Unreachable
|
||||
printInstruction(instruction, true)
|
||||
|
|
|
@ -51,7 +51,8 @@ proc `$`*(self: Serialized): string =
|
|||
|
||||
proc error(self: Serializer, message: string) =
|
||||
## Raises a formatted SerializationError exception
|
||||
raise newException(SerializationError, &"A fatal error occurred while (de)serializing '{self.filename}' -> {message}")
|
||||
raise newException(SerializationError,
|
||||
&"A fatal error occurred while (de)serializing '{self.filename}' -> {message}")
|
||||
|
||||
|
||||
proc newSerializer*(self: Serializer = nil): Serializer =
|
||||
|
@ -204,7 +205,8 @@ proc readConstants(self: Serializer, stream: seq[byte]): int =
|
|||
stream = stream[1..^1]
|
||||
let size = self.bytesToInt([stream[0], stream[1], stream[2]])
|
||||
stream = stream[3..^1]
|
||||
self.chunk.consts.add(newIdentExpr(Token(lexeme: self.bytesToString(stream[0..<size]))))
|
||||
self.chunk.consts.add(newIdentExpr(Token(
|
||||
lexeme: self.bytesToString(stream[0..<size]))))
|
||||
# TODO
|
||||
# discard self.chunk.addConstant(newIdentExpr(Token(lexeme: self.bytesToString(stream[0..<size]))))
|
||||
stream = stream[size..^1]
|
||||
|
@ -263,7 +265,8 @@ proc loadBytes*(self: Serializer, stream: seq[byte]): Serialized =
|
|||
if stream[0..<len(BYTECODE_MARKER)] != self.toBytes(BYTECODE_MARKER):
|
||||
self.error("malformed bytecode marker")
|
||||
stream = stream[len(BYTECODE_MARKER)..^1]
|
||||
result.peonVer = (major: int(stream[0]), minor: int(stream[1]), patch: int(stream[2]))
|
||||
result.peonVer = (major: int(stream[0]), minor: int(stream[1]),
|
||||
patch: int(stream[2]))
|
||||
stream = stream[3..^1]
|
||||
let branchLength = stream[0]
|
||||
stream = stream[1..^1]
|
||||
|
@ -271,7 +274,8 @@ proc loadBytes*(self: Serializer, stream: seq[byte]): Serialized =
|
|||
stream = stream[branchLength..^1]
|
||||
result.commitHash = self.bytesToString(stream[0..<40]).toLowerAscii()
|
||||
stream = stream[40..^1]
|
||||
result.compileDate = self.bytesToInt([stream[0], stream[1], stream[2], stream[3], stream[4], stream[5], stream[6], stream[7]])
|
||||
result.compileDate = self.bytesToInt([stream[0], stream[1], stream[2],
|
||||
stream[3], stream[4], stream[5], stream[6], stream[7]])
|
||||
stream = stream[8..^1]
|
||||
result.fileHash = self.bytesToString(stream[0..<32]).toHex().toLowerAscii()
|
||||
stream = stream[32..^1]
|
||||
|
|
Loading…
Reference in New Issue