fix windows build

.github/workflows/release.yml

@@ -1,133 +1,231 @@
+# SPDX-FileCopyrightText: 2025 William Bell
+#
+# SPDX-License-Identifier: GPL-3.0-or-later
+
 name: Build and Release
 
 on:
   push:
     tags:
-      - '*'    # Trigger on any tag push
+      - '*' # Any tag
 
 jobs:
-  build_and_release:
-    strategy:
-      matrix:
-        os: [ubuntu-latest, macos-latest, windows-latest]
-    runs-on: ${{ matrix.os }}
-
+  build-linux-x86_64:
+    runs-on: ubuntu-latest # build both architectures
     steps:
-      # Linux
-      - name: Install build tools (Linux)
-        if: runner.os == 'Linux'
-        run: sudo apt-get update && sudo apt-get install -y flex bison
-
-      # macOS
-      - name: Install build tools (macOS)
-        if: runner.os == 'macOS'
-        run: brew install flex bison
-
-      # Windows
-      - name: Install build tools (Windows)
-        if: runner.os == 'Windows'
-        run: choco install winflexbison -y
-        shell: pwsh
-      - name: Checkout code
-        uses: actions/checkout@v3
+      - uses: actions/checkout@v3
         with:
           submodules: recursive
 
-      - name: Setup Python (needed for Conan)
+      - name: Install build tools
+        run: sudo apt-get update && sudo apt-get install -y flex bison
+
+      - name: Setup Python
         uses: actions/setup-python@v4
         with:
           python-version: '3.x'
 
-      - name: Install Conan (Linux/macOS)
-        if: runner.os != 'Windows'
+      - name: Install Conan
         run: |
           python -m pip install --upgrade pip
           pip install conan
-        shell: bash
+          conan profile detect
 
-      - name: Install Conan (Windows)
-        if: runner.os == 'Windows'
-        run: |
-          python -m pip install --upgrade pip
-          pip install conan
-        shell: pwsh
-
-      - name: Configure Conan (Linux/macOS)
-        if: runner.os != 'Windows'
-        run: conan profile detect
-        shell: bash
-
-      - name: Configure Conan (Windows)
-        if: runner.os == 'Windows'
-        run: conan profile detect
-        shell: pwsh
-
-      - name: Install dependencies and build (Linux/macOS)
-        if: runner.os != 'Windows'
+      - name: Build
         run: |
           conan install . --build=missing
           conan build .
-        shell: bash
 
-      - name: Install dependencies and build (Windows)
-        if: runner.os == 'Windows'
-        run: |
-          conan install . --build=missing
-          conan build .
-        shell: pwsh
-
-      - name: Determine if prerelease (Linux/macOS)
-        if: runner.os != 'Windows'
-        id: prerelease_check_unix
-        run: |
-          TAG=${GITHUB_REF##refs/tags/}
-          if [[ "$TAG" == prerelease-* ]]; then
-            echo "true" > prerelease.txt
-          else
-            echo "false" > prerelease.txt
-          fi
-          echo "prerelease=$(cat prerelease.txt)" >> $GITHUB_OUTPUT
-        shell: bash
-
-      - name: Determine if prerelease (Windows)
-        if: runner.os == 'Windows'
-        id: prerelease_check_win
-        run: |
-          $TAG = $env:GITHUB_REF -replace 'refs/tags/', ''
-          if ($TAG -like 'prerelease-*') {
-            echo "true" > prerelease.txt
-          } else {
-            echo "false" > prerelease.txt
-          }
-          echo "prerelease=$(Get-Content prerelease.txt)" >> $env:GITHUB_OUTPUT
-        shell: pwsh
-
-      - name: Archive build folder (Linux/macOS)
-        if: runner.os != 'Windows'
+      - name: Package
         run: |
           TAG=${GITHUB_REF##refs/tags/}
           OS=$(uname -s | tr '[:upper:]' '[:lower:]')
           ARCH=$(uname -m)
-          FOLDER_NAME="chloride-$TAG-$OS-$ARCH"
-          TAR_NAME="$FOLDER_NAME.tar.gz"
-          mv build/bin "$FOLDER_NAME"
-          cp LICENSE "$FOLDER_NAME"
-          tar -czf "$TAR_NAME" "$FOLDER_NAME"
-          echo "TAR_NAME=$TAR_NAME" >> $GITHUB_ENV
-        shell: bash
+          FOLDER="chloride-$TAG-$OS-$ARCH"
+          TAR="$FOLDER.tar.gz"
+          mv build/bin "$FOLDER"
+          cp LICENSE.txt "$FOLDER"
+          tar -czf "$TAR" "$FOLDER"
+          echo "TAR_NAME=$TAR" >> $GITHUB_ENV
 
-      - name: Archive build folder (Windows)
-        if: runner.os == 'Windows'
+      - name: Upload artifact
+        uses: actions/upload-artifact@v4
+        with:
+          name: linux-x86_64-artifact
+          path: ${{ env.TAR_NAME }}
+  build-linux-arm64:
+    runs-on: ubuntu-22.04-arm # build both architectures
+    steps:
+      - uses: actions/checkout@v3
+        with:
+          submodules: recursive
+
+      - name: Install build tools
+        run: sudo apt-get update && sudo apt-get install -y flex bison
+
+      - name: Setup Python
+        uses: actions/setup-python@v4
+        with:
+          python-version: '3.x'
+
+      - name: Install Conan
         run: |
-          $TAG = $env:GITHUB_REF -replace 'refs/tags/', ''
-          $ARCH = if ([Environment]::Is64BitOperatingSystem) { 'x64' } else { 'x86' }
-          $FOLDER_NAME = "chloride-$TAG-windows-$ARCH"
-          $TAR_NAME = "$FOLDER_NAME.zip"
-          Rename-Item build\bin $FOLDER_NAME
-          Copy-Item LICENSE $FOLDER_NAME
-          Compress-Archive -Path $FOLDER_NAME -DestinationPath $TAR_NAME
-          echo "TAR_NAME=$TAR_NAME" >> $env:GITHUB_ENV
-        shell: pwsh
+          python -m pip install --upgrade pip
+          pip install conan
+          conan profile detect
+
+      - name: Build
+        run: |
+          conan install . --build=missing
+          conan build .
+
+      - name: Package
+        run: |
+          TAG=${GITHUB_REF##refs/tags/}
+          OS=$(uname -s | tr '[:upper:]' '[:lower:]')
+          ARCH=$(uname -m)
+          FOLDER="chloride-$TAG-$OS-$ARCH"
+          TAR="$FOLDER.tar.gz"
+          mv build/bin "$FOLDER"
+          cp LICENSE.txt "$FOLDER"
+          tar -czf "$TAR" "$FOLDER"
+          echo "TAR_NAME=$TAR" >> $GITHUB_ENV
+
+      - name: Upload artifact
+        uses: actions/upload-artifact@v4
+        with:
+          name: linux-arm64-artifact
+          path: ${{ env.TAR_NAME }}
+
+  build-macos:
+    runs-on: macos-latest
+    strategy:
+      matrix:
+        arch: [x86_64, arm64]   # build both architectures
+    steps:
+      - uses: actions/checkout@v3
+        with:
+          submodules: recursive
+
+      - name: Install build tools
+        run: brew install flex bison
+
+      - name: Setup Python
+        uses: actions/setup-python@v4
+        with:
+          python-version: '3.x'
+
+      - name: Install Conan
+        run: |
+          python -m pip install --upgrade pip
+          pip install conan
+          if [ "${{ matrix.arch }}" = "x86_64" ] && [ "$(uname -m)" = "arm64" ]; then
+            arch -x86_64 conan profile detect
+          else
+            conan profile detect
+          fi
+
+      - name: Build
+        run: |
+          BUILD_DIR="build_${{ matrix.arch }}"
+          mkdir -p "$BUILD_DIR"
+          cd "$BUILD_DIR"
+
+          # Use Rosetta for x86_64 builds on Apple Silicon
+          if [ "${{ matrix.arch }}" = "x86_64" ] && [ "$(uname -m)" = "arm64" ]; then
+            arch -x86_64 bash -c "
+              export CMAKE_OSX_ARCHITECTURES=x86_64
+              conan install .. --build=missing
+              conan build ..
+            "
+          else
+            export CMAKE_OSX_ARCHITECTURES="${{ matrix.arch }}"
+            conan install .. --build=missing
+            conan build ..
+          fi
+
+          cd ..
+
+      - name: Package
+        run: |
+          TAG=${GITHUB_REF##refs/tags/}
+          OS="macos"
+          ARCH="${{ matrix.arch }}"
+          FOLDER="chloride-$TAG-$OS-$ARCH"
+          TAR="$FOLDER.tar.gz"
+          mv build/bin "$FOLDER"
+          cp LICENSE.txt "$FOLDER"
+          tar -czf "$TAR" "$FOLDER"
+          echo "TAR_NAME=$TAR" >> $GITHUB_ENV
+
+      - name: Upload artifact
+        uses: actions/upload-artifact@v4
+        with:
+          name: macos-${{ matrix.arch }}-artifact
+          path: ${{ env.TAR_NAME }}
+
+  build-windows:
+    runs-on: windows-latest
+    defaults:
+      run:
+        shell: msys2 {0}
+
+    steps:
+      - uses: actions/checkout@v3
+        with:
+          submodules: recursive
+
+      - uses: msys2/setup-msys2@v2
+        with:
+          msystem: MINGW64
+          update: true
+          install: >
+            base-devel
+            mingw-w64-x86_64-gcc
+            mingw-w64-x86_64-make
+            mingw-w64-x86_64-cmake
+            mingw-w64-x86_64-python
+            mingw-w64-x86_64-python-pip
+            msys/flex
+
+      - name: Install Conan
+        run: |
+          python -m pip install --upgrade pip
+          pip install conan
+          conan profile detect
+
+      - name: Build Project
+        run: |
+          conan install . --profile windows-profile.txt --build=missing
+          conan build . --profile windows-profile.txt
+
+      - name: Package
+        run: |
+          TAG=${GITHUB_REF##refs/tags/}
+          OS="windows"
+          ARCH=$(uname -m)
+          FOLDER="chloride-$TAG-$OS-$ARCH"
+          TAR="$FOLDER.tar.gz"
+          mv build/bin "$FOLDER"
+          cp LICENSE.txt "$FOLDER"
+          tar -czf "$TAR" "$FOLDER"
+          echo "TAR_NAME=$TAR" >> $GITHUB_ENV
+
+      - name: Upload artifact
+        uses: actions/upload-artifact@v4
+        with:
+          name: windows-artifact
+          path: ${{ env.TAR_NAME }}
+
+  release:
+    runs-on: ubuntu-latest
+    needs: [build-linux-x86_64, build-linux-arm64, build-macos, build-windows]
+    steps:
+      - name: Download artifacts
+        uses: actions/download-artifact@v4
+        with:
+          path: ./artifacts
+          merge-multiple: true
 
       - name: Create GitHub Release
         uses: ncipollo/release-action@v1
@@ -136,5 +234,5 @@ jobs:
           name: Release ${{ github.ref_name }}
           body: Automated release based on tag ${{ github.ref_name }}
           draft: false
-          prerelease: ${{ runner.os == 'Windows' && steps.prerelease_check_win.outputs.prerelease || steps.prerelease_check_unix.outputs.prerelease }}
-          artifacts: ${{ env.TAR_NAME }}
+          prerelease: ${{ startsWith(github.ref_name, 'prerelease-') }}
+          artifacts: "./artifacts/*"

.gitignore

@@ -64,5 +64,6 @@ build
 *.yy.c
 *.yy.h
 
+__isotope__
 __arcache__
 argon_modules

.gitmodules

@@ -11,3 +11,6 @@
 [submodule "external/libdye"]
 	path = external/libdye
 	url = https://github.com/Ugric/libdye.git
+[submodule "external/linenoise"]
+	path = external/linenoise
+	url = https://github.com/antirez/linenoise

.vscode/launch.json

@@ -9,7 +9,7 @@
       "type": "cppdbg",
       "request": "launch",
       "program": "${workspaceFolder}/bin/argon",
-      "args": ["testing.ar"],
+      "args": [],
       "stopAtEntry": true,
       "cwd": "${workspaceFolder}",
       "environment": [],

CMakeLists.txt

@@ -33,8 +33,16 @@ add_custom_command(
 # Step 2: Custom target for lexer
 add_custom_target(GenerateLexer DEPENDS ${LEXER_C} ${LEXER_H})
 
+set(SOURCES
+    external/xxhash/xxhash.c external/cwalk/src/cwalk.c external/libdye/src/dye.c ${CFILES} ${LEXER_C}
+)
+
+if(NOT WIN32)
+    list(APPEND SOURCES external/linenoise/linenoise.c)
+endif()
+
 # Step 3: Add executable
-add_executable(argon external/xxhash/xxhash.c external/cwalk/src/cwalk.c external/libdye/src/dye.c ${CFILES} ${LEXER_C})
+add_executable(argon  ${SOURCES})
 set(CMAKE_INTERPROCEDURAL_OPTIMIZATION TRUE)
 target_include_directories(argon PRIVATE ${CMAKE_SOURCE_DIR}/external/cwalk/include)
 target_include_directories(argon PRIVATE ${CMAKE_SOURCE_DIR}/external/libdye/include)
@@ -52,12 +60,12 @@ find_package(BDWgc REQUIRED)
 find_package(gmp REQUIRED)
 
 target_compile_options(argon PRIVATE -O3 -Wall -Wextra -Wno-unused-function -s)
-target_link_options(argon PRIVATE -static)
 
 target_link_libraries(argon PRIVATE
     BDWgc::BDWgc
     gmp::gmp
     m
+    $<$<PLATFORM_ID:Windows>:bcrypt>
 )
 
 target_include_directories(argon PRIVATE

Makefile

@@ -2,26 +2,31 @@
 #
 # SPDX-License-Identifier: GPL-3.0-or-later
 
+# Default FLEX tool
+BINARY = bin/argon
+FLEX_TOOL = flex
+
+CFILES = external/xxhash/xxhash.c external/cwalk/src/cwalk.c external/libdye/src/dye.c external/linenoise/linenoise.c $(shell find src -name '*.c')
+
 LEXER_SRC = src/lexer/lex.l
 LEXER_C = src/lexer/lex.yy.c
 LEXER_H = src/lexer/lex.yy.h
-
-CFILES = external/xxhash/xxhash.c external/cwalk/src/cwalk.c external/libdye/src/dye.c $(shell find src -name '*.c')
 CFLAGS = $(ARCHFLAGS) -lm -lgc -lgmp -Wall -Wextra -Wno-unused-function -Werror=unused-result -Iexternal/cwalk/include -Iexternal/libdye/include
-BINARY = bin/argon
+LDFLAGS = -lgc -lgmp -lm
 
 all: $(BINARY)
 
+
 $(LEXER_C) $(LEXER_H): $(LEXER_SRC)
-	flex --header-file=$(LEXER_H) -o $(LEXER_C) $(LEXER_SRC)
+	$(FLEX_TOOL) --header-file=$(LEXER_H) -o $(LEXER_C) $(LEXER_SRC)
 
 $(BINARY): $(CFILES) $(LEXER_C) $(LEXER_H)
 	mkdir -p bin
-	gcc -O3 -o $(BINARY) $(CFILES) $(CFLAGS) -s
+	gcc -O3 -o $(BINARY) $(CFILES) $(CFLAGS) ${LDFLAGS} -s
 
 native: $(CFILES) $(LEXER_C) $(LEXER_H)
 	mkdir -p bin
-	gcc -O3 -march=native -o $(BINARY) $(CFILES) $(CFLAGS)
+	gcc -O3 -march=native -o $(BINARY) $(CFILES) $(CFLAGS) ${LDFLAGS}
 
 debug: $(CFILES) $(LEXER_C) $(LEXER_H)
 	mkdir -p bin
@@ -29,13 +34,13 @@ debug: $(CFILES) $(LEXER_C) $(LEXER_H)
 
 full-debug: $(CFILES) $(LEXER_C) $(LEXER_H)
 	mkdir -p bin
-	gcc -g -O0 -fsanitize=address -fno-omit-frame-pointer -o $(BINARY) $(CFILES) $(CFLAGS)
+	gcc -g -O3 -fsanitize=address -fno-omit-frame-pointer -o $(BINARY) $(CFILES) $(CFLAGS) ${LDFLAGS}
 
 optimised: $(CFILES) $(LEXER_C) $(LEXER_H)
 	mkdir -p bin
-	gcc -O3 -fprofile-generate -o $(BINARY) $(CFILES) $(CFLAGS)
+	gcc -O3 -fprofile-generate -o $(BINARY) $(CFILES) $(CFLAGS) ${LDFLAGS}
 	${BINARY} rand_test.ar
-	gcc -O3 -fprofile-use -o $(BINARY) $(CFILES) $(CFLAGS)
+	gcc -O3 -fprofile-use -o $(BINARY) $(CFILES) $(CFLAGS) ${LDFLAGS}
 	
 
 clean:

app.py

@@ -1,4 +0,0 @@
-def f():
-    return f()
-
-f()

conanfile.py

@@ -30,18 +30,14 @@ class ArgonConan(ConanFile):
         self.folders.generators = "build"
 
     def generate(self):
+        os.environ["CONAN_NON_INTERACTIVE"] = "1"
         tc = CMakeToolchain(self)
 
-        if os.name == "nt":  # Windows
-            flex_path = which("win_flex") or which("win_flex.exe")
-            if not flex_path:
-                raise Exception("win_flex not found in PATH. Install winflexbison via choco.")
-        else:
         flex_path = which("flex")
         if not flex_path:
             raise Exception("Flex not found in system PATH. Please install flex on Linux/macOS.")
 
-        tc.variables["FLEX_EXECUTABLE"] = flex_path
+        tc.variables["FLEX_EXECUTABLE"] = flex_path.replace("\\", "\\\\")
         tc.generate()
 
     def build(self):

debug_arbin.py

@@ -1,130 +0,0 @@
-# SPDX-FileCopyrightText: 2025 William Bell
-#
-# SPDX-License-Identifier: GPL-3.0-or-later
-
-import struct
-from enum import Enum, EnumMeta, auto
-
-class AutoEnumMeta(EnumMeta):
-    @classmethod
-    def __prepare__(metacls, clsname, bases, **kwargs):
-        d = super().__prepare__(clsname, bases, **kwargs)
-        d['_next_value'] = 254
-        return d
-
-    def _generate_next_value_(cls, name, start, count, last_values):
-        value = cls._next_value
-        cls._next_value += 1
-        return value
-
-class OperationType(Enum, metaclass=AutoEnumMeta):
-    OP_LOAD_CONST = auto()
-    OP_DECLARE = auto()
-    OP_LOAD_NULL = auto()
-    OP_JUMP = auto()
-
-class Types(Enum, metaclass=AutoEnumMeta):
-    TYPE_OP_STRING = auto()
-    TYPE_OP_NUMBER = auto()
-
-def read_arbin(filename):
-    with open(filename, "rb") as f:
-        # Read and verify file identifier (4 bytes)
-        file_id = f.read(4)
-        if file_id != b"ARBI":
-            raise ValueError("Invalid file identifier")
-
-        # Read version number (uint64_t, little-endian)
-        version_number, = struct.unpack("<Q", f.read(8))
-
-        # Read regCount, constantsSize, bytecodeSize (all uint64_t, little-endian)
-        reg_count, = struct.unpack("<Q", f.read(8))
-        constants_size, = struct.unpack("<Q", f.read(8))
-        bytecode_size, = struct.unpack("<Q", f.read(8))
-
-        # Read constants buffer (raw bytes)
-        constants = f.read(constants_size)
-
-        # Read bytecode array (uint64_t, little-endian)
-        bytecode = []
-        for _ in range(bytecode_size):
-            instr, = struct.unpack("<Q", f.read(8))
-            bytecode.append(instr)
-
-    return {
-        "version": version_number,
-        "register_count": reg_count,
-        "constants_size": constants_size,
-        "bytecode_size": bytecode_size,
-        "constants": constants,
-        "bytecode": bytecode,
-    }
-
-class print_opcode:
-    def start(registers,data, i):
-        print()
-        match data['bytecode'][i]:
-            case OperationType.OP_LOAD_CONST.value:
-                return print_opcode.OP_LOAD_CONST(registers,data, i)
-            case OperationType.OP_DECLARE.value:
-                return print_opcode.OP_DECLARE(registers,data, i)
-            case OperationType.OP_LOAD_NULL.value:
-                return print_opcode.OP_LOAD_NULL(registers,data, i)
-                
-    def OP_LOAD_CONST(registers,data, i) -> int:
-        print("OP_LOAD_CONST ", end="")
-        i+=1
-        register = data["bytecode"][i]
-        print("To Register",register,"", end="")
-        i+=1
-        match data["bytecode"][i]:
-            case Types.TYPE_OP_STRING.value:
-                print("TYPE_OP_STRING ", end="")
-            case Types.TYPE_OP_NUMBER.value:
-                print("TYPE_OP_NUMBER ", end="")
-        i+=1
-        length = data["bytecode"][i]
-        i+=1
-        offset = data["bytecode"][i]
-        i+=1
-        print("Length",length,"", end="")
-        print("Offset",offset,"")
-        registers[register] = data["constants"][offset:offset+length].decode()
-        print("const value:", registers[register])
-        return i
-
-    def OP_DECLARE(registers,data, i) -> int:
-        print("OP_DECLARE ", end="")
-        i+=1
-        length = data["bytecode"][i]
-        i+=1
-        offset = data["bytecode"][i]
-        i+=1
-        from_register = data["bytecode"][i]
-        i+=1
-        print("Name Length",length,"", end="")
-        print("Name Offset",offset,"", end="")
-        print("From Register",from_register,"")
-        print("output: let", data['constants'][offset:offset+length].decode(),'=',registers[from_register])
-        return i
-    def OP_LOAD_NULL(registers,data, i) -> int:
-        print("OP_LOAD_NULL ", end="")
-        i+=1
-        to_register = data["bytecode"][i]
-        i+=1
-        print("To Register",to_register,"")
-        registers[to_register] = "null"
-        return i
-if __name__ == "__main__":
-    filename = "out.arbin"
-    data = read_arbin(filename)
-    print(f"Version: {data['version']}")
-    print(f"Register Count: {data['register_count']}")
-    print(f"Constants Size: {data['constants_size']} bytes")
-    print(f"Bytecode Length: {data['bytecode_size']} elements")
-
-    registers = ["null"]*data['register_count']
-
-    i=0
-    while i<len(data["bytecode"]):
-        i=print_opcode.start(registers,data,i)

final_test.ar

@@ -1,56 +0,0 @@
-# SPDX-FileCopyrightText: 2025 William Bell
-
-# SPDX-License-Identifier: GPL-3.0-or-later
-
-let __makeFile(name, type, data) = do
-    let File = {name: name, type: type, data: data}
-    let save(path) = do
-        let file = file.write(path)
-        file.buffer(data)
-        file.close()
-    File.save = save
-    return File
-
-let __multipart(req, res) = do
-    let boundary = buffer().from(req.headers["content-type"].splitN("boundary=", 2)[1])
-    let newLineSplit = buffer().from("\r\n\r\n")
-    let parts = req.buffer.body.split(boundary)
-    for (i from 0 to parts.length) do
-        let str = parts[i].to("string")
-        if (str == "" || str=="--" || str=="--\r\n") continue
-        str = null
-        let headers = {}
-        let lines = parts[i].splitN(newLineSplit, 2)
-        let headerLines = lines[0].to("string").split("\r\n")
-        for (j from 0 to headerLines.length) do
-            let header = headerLines[j].splitN(": ", 2)
-            if (header.length != 2) continue
-            headers[header[0].lower()] = header[1]
-        if (lines.length != 2) continue
-        let body = lines[1]
-        if (i != parts.length-1) do
-            body = body.slice(0, body.length-4)
-        if ("content-disposition" in headers) do
-            let disposition = headers["content-disposition"].split("; ")
-            if (disposition[0] == "form-data") do
-                let name = json.parse(disposition[1].splitN("=", 2)[1])
-                if (disposition.length >= 3) do
-                    let filename = json.parse(disposition[2].splitN("=", 2)[1])
-                    req.files[name] = __makeFile(filename, headers["content-type"], body)
-                else do
-                    req.formdata[name] = body.to("string")
-    res.next()
-    
-
-let formdata(req, res) = do
-    req.formdata = {}
-    req.files = {}
-
-    if (req.method != "POST") return res.next()
-    if ("content-type" not in req.headers) return res.next()
-    let loweredContentType = req.headers["content-type"].lower()
-    if (loweredContentType.startswith("multipart/form-data")) return __multipart(req, res)
-    else if (loweredContentType.startswith("application/x-www-form-urlencoded")) req.formdata = url.decodeURLQuery(req.buffer.body.to("string"))
-    else if (loweredContentType.startswith("application/json")) req.formdata = json.parse(req.buffer.body.to("string"))
-    else req.files.file = __makeFile("file", req.headers["content-type"], req.buffer.body)
-    res.next()

gentest.py

@@ -1,10 +0,0 @@
-# SPDX-FileCopyrightText: 2025 William Bell
-#
-# SPDX-License-Identifier: GPL-3.0-or-later
-
-import random
-import sys
-
-for i in range(10000000):
-  sys.stdout.write("\"hello world\"\n")
-

src/arobject.h

@@ -12,6 +12,36 @@
 #include "runtime/internals/hashmap/hashmap.h"
 #include <gmp.h>
 
+typedef enum {
+  __base__,
+  __class__,
+  __name__,
+  __binding__,
+  __function__,
+
+  BUILT_IN_ARRAY_COUNT,
+
+  __add__,
+  __string__,
+  __subtract__,
+  __multiply__,
+  __divide__,
+  __new__,
+  __init__,
+  __boolean__,
+  __get_attr__,
+  field__address,
+  __call__,
+  __number__,
+  field_length,
+  __getattribute__,
+  __set_attr__,
+  __hash__,
+  __repr__,
+
+  BUILT_IN_FIELDS_COUNT,
+} built_in_fields;
+
 typedef struct ArErr ArErr;
 typedef struct RuntimeState RuntimeState;
 
@@ -28,6 +58,7 @@ typedef enum ArgonType {
   TYPE_FUNCTION,
   TYPE_NATIVE_FUNCTION,
   TYPE_METHOD,
+  TYPE_DICTIONARY,
   TYPE_OBJECT,
 } ArgonType;
 
@@ -40,6 +71,7 @@ typedef struct {
 
 typedef struct {
   uint8_t registerCount;
+  uint8_t registerAssignment;
   DArray *return_jumps;
   DArray bytecode;
   ConstantArena constants;
@@ -47,11 +79,15 @@ typedef struct {
 } Translated;
 
 struct string_struct {
+  uint64_t prehash;
+  uint64_t hash;
   char *data;
   size_t length;
+  bool hash_computed;
 };
 
 typedef struct Stack {
+  uint64_t fake_new_scopes;
   struct hashmap_GC *scope;
   struct Stack *prev;
 } Stack;
@@ -67,17 +103,33 @@ struct argon_function_struct {
   uint64_t column;
 };
 
+struct built_in_slot {
+  built_in_fields field;
+  ArgonObject *value;
+};
+
+struct as_number {
+  union {
+    mpq_t *mpq;
+    int64_t i64;
+  } n;
+  bool is_int64;
+};
+
 // full definition of ArgonObject (no typedef again!)
 struct ArgonObject {
-  ArgonType type;
-  ArgonType child_type;
   struct hashmap_GC *dict;
+  size_t built_in_slot_length;
+  struct built_in_slot built_in_slot[BUILT_IN_ARRAY_COUNT];
   union {
-    mpq_t *as_number;
-    struct string_struct as_str;
+    struct as_number *as_number;
+    struct hashmap_GC *as_hashmap;
+    struct string_struct *as_str;
     native_fn native_fn;
-    struct argon_function_struct argon_fn;
+    struct argon_function_struct *argon_fn;
   } value;
+  ArgonType type;
+  bool as_bool;
 };
 
 #endif // AROBJECT_H

src/err.c

@@ -7,6 +7,7 @@
 #include "err.h"
 #include "../external/libdye/include/dye.h"
 #include <ctype.h>
+#include <inttypes.h>
 #include <stdarg.h>
 #include <stdbool.h>
 #include <stddef.h>
@@ -14,7 +15,6 @@
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
-#include <inttypes.h>
 
 #ifdef _WIN32
 ssize_t getline(char **lineptr, size_t *n, FILE *stream) {
@@ -61,20 +61,23 @@ ssize_t getline(char **lineptr, size_t *n, FILE *stream) {
 }
 #endif
 
-const ArErr no_err = (ArErr){false};
+const ArErr no_err = (ArErr){"", "", "", 0, 0, 0, false};
 
 ArErr create_err(int64_t line, int64_t column, int length, char *path,
                  const char *type, const char *fmt, ...) {
   ArErr err;
   err.exists = true;
-  err.path = path;
+  if (path)
+    strcpy(err.path, path);
+  else {
+    err.path[0] = '\0';
+  }
   err.line = line;
   err.column = column;
   err.length = length;
 
   // Copy error type safely
-  strncpy(err.type, type, sizeof(err.type) - 1);
-  err.type[sizeof(err.type) - 1] = '\0';
+  snprintf(err.type, sizeof(err.type), "%s", (char *)type);
 
   // Format error message
   va_list args;
@@ -104,7 +107,7 @@ void output_err(ArErr err) {
   dyefg(stderr, DYE_RESET);
   fprintf(stderr, "\n");
 
-  if (err.path && err.line) {
+  if (strlen(err.path) && err.line) {
     dyefg(stderr, DYE_GRAY);
     fprintf(stderr, "  --> ");
     dyefg(stderr, DYE_CYAN);

src/err.h

@@ -4,6 +4,8 @@
  * SPDX-License-Identifier: GPL-3.0-or-later
  */
 
+#ifndef RETURN_TYPE_H
+#define RETURN_TYPE_H
 #include "returnTypes.h"
 
 extern const ArErr no_err;
@@ -11,3 +13,4 @@ extern const ArErr no_err;
 ArErr create_err(int64_t line, int64_t column, int length, char *path, const char *type,
                  const char *fmt, ...);
 void output_err(ArErr err);
+#endif // RETURN_TYPE_H

src/hash_data/hash_data.c

@@ -40,9 +40,5 @@ uint64_t siphash64_bytes(const void *data, size_t len,const uint8_t hash_key[16]
   if (siphash(data, len, hash_key, out, sizeof(out)) != 0)
     return 0;
   
-  uint64_t hash = 0;
-  for (int i = 0; i < 8; ++i)
-    hash |= ((uint64_t)out[i]) << (8 * i);
-
-  return hash;
+  return *(uint64_t *)out;
 }

src/import.c

@@ -0,0 +1,469 @@
+#include "../external/cwalk/include/cwalk.h"
+#include "../external/xxhash/xxhash.h"
+#include "arobject.h"
+#include "err.h"
+#include "hash_data/hash_data.h"
+#include "hashmap/hashmap.h"
+#include "lexer/lexer.h"
+#include "lexer/token.h"
+#include "runtime/internals/hashmap/hashmap.h"
+#include "runtime/runtime.h"
+#include "translator/translator.h"
+#include <stddef.h>
+#include <stdio.h>
+#include <string.h>
+#include <time.h>
+#ifdef _WIN32
+#include <direct.h>   // for _mkdir
+#include <sys/stat.h> // for _stat
+#include <windows.h>
+#else
+#include <sys/stat.h>
+#include <sys/types.h>
+#include <unistd.h>
+#endif
+#ifdef _WIN32
+#include <windows.h>
+#else
+#include <limits.h>
+#include <unistd.h>
+#endif
+#include "err.h"
+#include <pthread.h>
+#if defined(_WIN32) || defined(_WIN64)
+
+// Windows / MinGW usually uses little-endian, so these can be no-ops
+// But define them explicitly to avoid implicit declaration warnings
+
+static inline uint32_t le32toh(uint32_t x) { return x; }
+static inline uint64_t le64toh(uint64_t x) { return x; }
+static inline uint32_t htole32(uint32_t x) { return x; }
+static inline uint64_t htole64(uint64_t x) { return x; }
+
+#elif defined(__linux__)
+#include <endian.h>
+#include <malloc.h>
+#elif defined(__APPLE__)
+#include <libkern/OSByteOrder.h>
+#define htole32(x) OSSwapHostToLittleInt32(x)
+#define le32toh(x) OSSwapLittleToHostInt32(x)
+#define htole64(x) OSSwapHostToLittleInt64(x)
+#define le64toh(x) OSSwapLittleToHostInt64(x)
+// Add others as needed
+#elif defined(__FreeBSD__) || defined(__OpenBSD__) || defined(__NetBSD__)
+#include <stdlib.h>
+#include <sys/endian.h>
+#endif
+
+int ensure_dir_exists(const char *path) {
+#ifdef _WIN32
+  struct _stat st;
+  if (_stat(path, &st) != 0) {
+    // Directory does not exist, create it
+    if (_mkdir(path) != 0) {
+      perror("_mkdir failed");
+      return -1;
+    }
+  } else if (!(st.st_mode & _S_IFDIR)) {
+    fprintf(stderr, "Path exists but is not a directory\n");
+    return -1;
+  }
+#else
+  struct stat st;
+  if (stat(path, &st) != 0) {
+    // Directory does not exist, create it
+    if (mkdir(path, 0755) != 0) {
+      perror("mkdir failed");
+      return -1;
+    }
+  } else if (!S_ISDIR(st.st_mode)) {
+    fprintf(stderr, "Path exists but is not a directory\n");
+    return -1;
+  }
+#endif
+  return 0;
+}
+
+char *CWD;
+
+const char CACHE_FOLDER[] = "__arcache__";
+const char FILE_IDENTIFIER[5] = "ARBI";
+const char BYTECODE_EXTENTION[] = "arbin";
+const uint32_t version_number = 0;
+const char version_string[] = "4.0.0";
+
+bool file_exists(const char *path) {
+    struct stat st;
+    if (stat(path, &st) == 0) {
+        return S_ISREG(st.st_mode); // true only if it's a regular file
+    }
+    return false; // doesn't exist, or stat failed
+}
+
+static inline void write_and_hash(FILE *file, XXH64_state_t *state,
+                                  const void *ptr, size_t size, size_t count) {
+  fwrite(ptr, size, count, file);
+  XXH64_update(state, ptr, size * count);
+}
+
+static inline void update_hash_from_file(FILE *file, XXH64_state_t *state,
+                                         size_t size) {
+  char buffer[4096];
+  size_t bytes_read;
+  size_t remaining = size;
+
+  while (remaining > 0 &&
+         (bytes_read =
+              fread(buffer, 1,
+                    remaining > sizeof(buffer) ? sizeof(buffer) : remaining,
+                    file)) > 0) {
+    XXH64_update(state, buffer, bytes_read);
+    remaining -= bytes_read;
+  }
+}
+
+int load_cache(Translated *translated_dest, char *joined_paths, uint64_t hash,
+               char *source_path) {
+  FILE *bytecode_file = fopen(joined_paths, "rb");
+  if (!bytecode_file) {
+    fprintf(stderr, "cache doesnt exist... compiling from source.\n");
+    return 1;
+  }
+
+  // Find file size
+  fseek(bytecode_file, 0, SEEK_END);
+  long file_size = ftell(bytecode_file);
+  if (file_size < (long)sizeof(uint64_t)) {
+    goto FAILED;
+  }
+  fseek(bytecode_file, 0, SEEK_SET);
+
+  // Footer is the last 8 bytes
+  long data_size = file_size - sizeof(uint64_t);
+
+  // Set up hash state
+  XXH64_state_t *state = XXH64_createState();
+  XXH64_reset(state, 0);
+
+  // Hash everything except last 8 bytes
+  update_hash_from_file(bytecode_file, state, data_size);
+
+  // Read stored footer hash
+  uint64_t stored_hash_le;
+  if (fread(&stored_hash_le, 1, sizeof(stored_hash_le), bytecode_file) !=
+      sizeof(stored_hash_le)) {
+    XXH64_freeState(state);
+    goto FAILED;
+  }
+  uint64_t stored_hash = le64toh(stored_hash_le);
+
+  // Compare
+  uint64_t calc_hash = XXH64_digest(state);
+  XXH64_freeState(state);
+
+  if (calc_hash != stored_hash) {
+    fprintf(stderr, "cache hash mismatch (corrupted?)\n");
+    goto FAILED;
+  }
+
+  // Now actually parse the file contents
+  fseek(bytecode_file, 0, SEEK_SET); // rewind to start
+
+  char file_identifier_from_cache[sizeof(FILE_IDENTIFIER)] = {0};
+  if (fread(&file_identifier_from_cache, 1,
+            sizeof(file_identifier_from_cache) - 1,
+            bytecode_file) != sizeof(file_identifier_from_cache) - 1 ||
+      memcmp(file_identifier_from_cache, FILE_IDENTIFIER,
+             sizeof(file_identifier_from_cache)) != 0) {
+    goto FAILED;
+  }
+
+  uint32_t read_version;
+  if (fread(&read_version, 1, sizeof(read_version), bytecode_file) !=
+      sizeof(read_version)) {
+    goto FAILED;
+  }
+  read_version = le32toh(read_version);
+
+  if (read_version != version_number) {
+    goto FAILED;
+  }
+
+  uint64_t read_hash;
+  if (fread(&read_hash, 1, sizeof(read_hash), bytecode_file) !=
+      sizeof(read_hash)) {
+    goto FAILED;
+  }
+  read_hash = le64toh(read_hash);
+
+  if (read_hash != hash) {
+    goto FAILED;
+  }
+
+  uint8_t register_count;
+  if (fread(&register_count, 1, sizeof(register_count), bytecode_file) !=
+      sizeof(register_count)) {
+    goto FAILED;
+  }
+
+  uint64_t constantsSize;
+  if (fread(&constantsSize, 1, sizeof(constantsSize), bytecode_file) !=
+      sizeof(constantsSize)) {
+    goto FAILED;
+  }
+  constantsSize = le64toh(constantsSize);
+
+  uint64_t bytecodeSize;
+  if (fread(&bytecodeSize, 1, sizeof(bytecodeSize), bytecode_file) !=
+      sizeof(bytecodeSize)) {
+    goto FAILED;
+  }
+  bytecodeSize = le64toh(bytecodeSize);
+
+  *translated_dest = init_translator(source_path);
+
+  translated_dest->registerCount = register_count;
+
+  arena_resize(&translated_dest->constants, constantsSize);
+
+  if (fread(translated_dest->constants.data, 1, constantsSize, bytecode_file) !=
+      constantsSize) {
+    goto FAILED;
+  }
+
+  translated_dest->constants.size = constantsSize;
+
+  darray_resize(&translated_dest->bytecode, bytecodeSize);
+
+  if (fread(translated_dest->bytecode.data, 1, bytecodeSize, bytecode_file) !=
+      bytecodeSize) {
+    goto FAILED;
+  }
+
+  translated_dest->bytecode.size = bytecodeSize;
+
+  fprintf(stderr, "cache exists and is valid, so will be used.\n");
+  fclose(bytecode_file);
+  return 0;
+FAILED:
+  fprintf(stderr, "cache is invalid... compiling from source.\n");
+  fclose(bytecode_file);
+  return 1;
+}
+
+Translated load_argon_file(char *path, ArErr *err) {
+  clock_t start, end;
+  clock_t beginning = clock();
+  double time_spent, total_time_spent = 0;
+
+  const char *basename_ptr;
+  size_t basename_length;
+  cwk_path_get_basename(path, &basename_ptr, &basename_length);
+
+  if (!basename_ptr) {
+    *err = create_err(0, 0, 0, NULL, "Path Error", "path has no basename '%s'",
+                      path);
+    return (Translated){};
+  }
+
+  char basename[FILENAME_MAX];
+  memcpy(basename, basename_ptr, basename_length);
+
+  size_t parent_directory_length;
+  cwk_path_get_dirname(path, &parent_directory_length);
+
+  char parent_directory[FILENAME_MAX];
+  memcpy(parent_directory, path, parent_directory_length);
+  parent_directory[parent_directory_length] = '\0';
+
+  char cache_folder_path[FILENAME_MAX];
+  cwk_path_join(parent_directory, CACHE_FOLDER, cache_folder_path,
+                sizeof(cache_folder_path));
+
+  char cache_file_path[FILENAME_MAX];
+  cwk_path_join(cache_folder_path, basename, cache_file_path,
+                sizeof(cache_file_path));
+  cwk_path_change_extension(cache_file_path, BYTECODE_EXTENTION,
+                            cache_file_path, sizeof(cache_file_path));
+
+  FILE *file = fopen(path, "r");
+  if (!file) {
+    *err = create_err(0, 0, 0, NULL, "File Error", "Unable to open file '%s'",
+                      path);
+    return (Translated){};
+  }
+
+  XXH3_state_t *hash_state = XXH3_createState();
+  XXH3_64bits_reset(hash_state);
+
+  char buffer[8192];
+  size_t bytes;
+  while ((bytes = fread(buffer, 1, sizeof(buffer), file)) > 0) {
+    XXH3_64bits_update(hash_state, buffer, bytes);
+  }
+  rewind(file);
+  uint64_t hash = XXH3_64bits_digest(hash_state);
+  XXH3_freeState(hash_state);
+
+  Translated translated;
+
+  if (load_cache(&translated, cache_file_path, hash, path) != 0) {
+
+    DArray tokens;
+    darray_init(&tokens, sizeof(Token));
+
+    LexerState state = {path, file, 0, 0, &tokens};
+    start = clock();
+    *err = lexer(state);
+    if (err->exists) {
+      darray_free(&tokens, free_token);
+      return (Translated){};
+    }
+    end = clock();
+    time_spent = (double)(end - start) / CLOCKS_PER_SEC;
+    fprintf(stderr, "Lexer time taken: %f seconds\n", time_spent);
+    fclose(state.file);
+
+    DArray ast;
+
+    darray_init(&ast, sizeof(ParsedValue));
+
+    start = clock();
+    *err = parser(path, &ast, &tokens, false);
+    darray_free(&tokens, free_token);
+    if (err->exists) {
+      darray_free(&ast, free_parsed);
+      return (Translated){};
+    }
+    end = clock();
+    time_spent = (double)(end - start) / CLOCKS_PER_SEC;
+    fprintf(stderr, "Parser time taken: %f seconds\n", time_spent);
+
+    start = clock();
+
+    translated = init_translator(path);
+    *err = translate(&translated, &ast);
+    darray_free(&ast, free_parsed);
+    if (err->exists) {
+      darray_free(&translated.bytecode, NULL);
+      free(translated.constants.data);
+      hashmap_free(translated.constants.hashmap, NULL);
+      return (Translated){};
+    }
+    end = clock();
+    time_spent = (double)(end - start) / CLOCKS_PER_SEC;
+    fprintf(stderr, "Translation time taken: %f seconds\n", time_spent);
+#if defined(__linux__)
+    malloc_trim(0);
+#endif
+
+    ensure_dir_exists(cache_folder_path);
+
+    file = fopen(cache_file_path, "wb");
+
+    uint64_t constantsSize = translated.constants.size;
+    uint64_t bytecodeSize = translated.bytecode.size;
+
+    uint32_t version_number_htole32ed = htole32(version_number);
+    uint64_t net_hash = htole64(hash);
+    constantsSize = htole64(constantsSize);
+    bytecodeSize = htole64(bytecodeSize);
+
+    XXH64_state_t *hash_state = XXH64_createState();
+    XXH64_reset(hash_state, 0);
+
+    write_and_hash(file, hash_state, &FILE_IDENTIFIER, sizeof(char),
+                   strlen(FILE_IDENTIFIER));
+    write_and_hash(file, hash_state, &version_number_htole32ed,
+                   sizeof(uint32_t), 1);
+    write_and_hash(file, hash_state, &net_hash, sizeof(net_hash), 1);
+    write_and_hash(file, hash_state, &translated.registerCount, sizeof(uint8_t),
+                   1);
+    write_and_hash(file, hash_state, &constantsSize, sizeof(uint64_t), 1);
+    write_and_hash(file, hash_state, &bytecodeSize, sizeof(uint64_t), 1);
+    write_and_hash(file, hash_state, translated.constants.data, 1,
+                   translated.constants.size);
+    write_and_hash(file, hash_state, translated.bytecode.data,
+                   translated.bytecode.element_size, translated.bytecode.size);
+
+    // Finalize the hash
+    uint64_t file_hash = XXH64_digest(hash_state);
+    XXH64_freeState(hash_state);
+
+    // Convert to little-endian before writing if needed
+    uint64_t file_hash_le = htole64(file_hash);
+    fwrite(&file_hash_le, sizeof(file_hash_le), 1, file);
+
+    fclose(file);
+  }
+  hashmap_free(translated.constants.hashmap, NULL);
+  Translated gc_translated = {
+      translated.registerCount, translated.registerAssignment, NULL, {}, {},
+      translated.path};
+  gc_translated.bytecode.data = ar_alloc_atomic(translated.bytecode.capacity);
+  memcpy(gc_translated.bytecode.data, translated.bytecode.data,
+         translated.bytecode.capacity);
+  gc_translated.bytecode.element_size = translated.bytecode.element_size;
+  gc_translated.bytecode.size = translated.bytecode.size;
+  gc_translated.bytecode.resizable = false;
+  gc_translated.bytecode.capacity =
+      translated.bytecode.size * translated.bytecode.element_size;
+  gc_translated.constants.data = ar_alloc_atomic(translated.constants.capacity);
+  memcpy(gc_translated.constants.data, translated.constants.data,
+         translated.constants.capacity);
+  gc_translated.constants.size = translated.constants.size;
+  gc_translated.constants.capacity = translated.constants.capacity;
+  free(translated.bytecode.data);
+  free(translated.constants.data);
+  total_time_spent = (double)(clock() - beginning) / CLOCKS_PER_SEC;
+  fprintf(stderr, "total time taken loading file (%s): %f seconds\n", path,
+          total_time_spent);
+  return gc_translated;
+}
+
+const char *PRE_PATHS_TO_TEST[] = {"", "", "argon_modules", "argon_modules"};
+const char *POST_PATHS_TO_TEST[sizeof(PRE_PATHS_TO_TEST)/sizeof(char *)] = {"", "init.ar", "",
+                                                             "init.ar"};
+
+struct hashmap *importing_hash_table = NULL;
+struct hashmap_GC *imported_hash_table = NULL;
+
+Stack *ar_import(char *current_directory, char *path_relative, ArErr *err) {
+  char path[FILENAME_MAX];
+  bool found = false;
+  for (size_t i = 0; i < sizeof(PRE_PATHS_TO_TEST)/sizeof(char *); i++) {
+    cwk_path_get_absolute(current_directory, PRE_PATHS_TO_TEST[i], path, sizeof(path));
+    cwk_path_get_absolute(path, path_relative, path, sizeof(path));
+    cwk_path_get_absolute(path, POST_PATHS_TO_TEST[i], path, sizeof(path));
+    if (file_exists(path)) {
+      found = true;
+      break;
+    }
+  }
+  if (!found) {
+    *err = create_err(0, 0, 0, NULL, "File Error", "Unable to find file '%s'",
+                      path_relative);
+    return NULL;
+  }
+  if (!importing_hash_table) importing_hash_table = createHashmap();
+  uint64_t hash = siphash64_bytes(path, strlen(path), siphash_key);
+  hashmap_insert(importing_hash_table, hash, path, (void*)true, 0);
+  Translated translated = load_argon_file(path, err);
+  if (err->exists) {
+    return NULL;
+  }
+  clock_t start = clock(), end;
+  RuntimeState state = init_runtime_state(translated, path);
+  Stack *main_scope = create_scope(Global_Scope, true);
+  runtime(translated, state, main_scope, err);
+  if (err->exists) {
+    return NULL;
+  }
+  end = clock();
+  double time_spent = (double)(end - start) / CLOCKS_PER_SEC;
+  fprintf(stderr, "Execution time taken: %f seconds\n", time_spent);
+  hashmap_insert(importing_hash_table, hash, path, (void*)false, 0);
+  if (!imported_hash_table) imported_hash_table = createHashmap_GC();
+  hashmap_insert_GC(imported_hash_table, hash, path, main_scope, 0);
+  return main_scope;
+}

src/import.h

@@ -0,0 +1,17 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+#ifndef IMPORT_H
+#define IMPORT_H
+#include "err.h"
+
+extern char*CWD;
+
+extern const char version_string[];
+
+Stack *ar_import(char *current_directory, char *path_relative, ArErr *err);
+
+#endif // IMPORT_H

src/lexer/lex.l

@@ -32,13 +32,6 @@ int yywrap(void * unused_param) {
 ":"                 { return TOKEN_COLON; }
 
 "="                 { return TOKEN_ASSIGN; }
-"+="                { return TOKEN_ASSIGN_PLUS; }
-"-="                { return TOKEN_ASSIGN_MINUS; }
-"//="               { return TOKEN_ASSIGN_FLOORDIV; }
-"/="                { return TOKEN_ASSIGN_SLASH; }
-"%="                { return TOKEN_ASSIGN_MODULO; }
-"*="                { return TOKEN_ASSIGN_STAR; }
-"^="                { return TOKEN_ASSIGN_CARET; }
 
 "not"[ \t]+"in"     { return TOKEN_NOT_IN; }
 "in"                { return TOKEN_IN; }

src/lexer/token.h

@@ -17,13 +17,6 @@ typedef enum {
   TOKEN_INDENT,
 
   TOKEN_ASSIGN,
-  TOKEN_ASSIGN_PLUS,
-  TOKEN_ASSIGN_MINUS,
-  TOKEN_ASSIGN_FLOORDIV,
-  TOKEN_ASSIGN_SLASH,
-  TOKEN_ASSIGN_MODULO,
-  TOKEN_ASSIGN_STAR,
-  TOKEN_ASSIGN_CARET,
 
   // Operators
   TOKEN_CARET,    // ^      (Exponentiation)
@@ -31,8 +24,8 @@ typedef enum {
   TOKEN_SLASH,    // /      (Division)
   TOKEN_FLOORDIV, // //     (Floor Division)
   TOKEN_MODULO,   // %      (Modulo)
-  TOKEN_PLUS,     // +      (Addition)
   TOKEN_MINUS,    // -      (Subtraction)
+  TOKEN_PLUS,     // +      (Addition)
   TOKEN_LT,       // <
   TOKEN_GT,       // >
   TOKEN_LE,       // <=

src/main.c

@@ -4,70 +4,23 @@
  * SPDX-License-Identifier: GPL-3.0-or-later
  */
 
-#include "arobject.h"
-#include "dynamic_array/darray.h"
+#include "err.h"
 #include "hashmap/hashmap.h"
-#include "lexer/lexer.h"
-#include "lexer/token.h"
+#include "import.h"
 #include "memory.h"
-#include "parser/parser.h"
+#include "runtime/objects/object.h"
 #include "runtime/runtime.h"
-#include "translator/translator.h"
+#include "shell.h"
 
-#include "../external/xxhash/xxhash.h"
 #include "hash_data/hash_data.h"
 #include <locale.h>
 #include <stdbool.h>
 #include <stddef.h>
 #include <stdint.h>
-#include <stdio.h>
 #include <stdlib.h>
-#include <string.h>
-#include <time.h>
 #include <unistd.h>
 #ifdef _WIN32
-#include <direct.h>   // for _mkdir
-#include <sys/stat.h> // for _stat
 #include <windows.h>
-#else
-#include <sys/stat.h>
-#include <sys/types.h>
-#include <unistd.h>
-#endif
-#include "../external/cwalk/include/cwalk.h"
-#include <string.h>
-
-#ifdef _WIN32
-#include <windows.h>
-#else
-#include <limits.h>
-#include <unistd.h>
-#endif
-#include "err.h"
-#include <pthread.h>
-
-#if defined(_WIN32) || defined(_WIN64)
-
-// Windows / MinGW usually uses little-endian, so these can be no-ops
-// But define them explicitly to avoid implicit declaration warnings
-
-static inline uint32_t le32toh(uint32_t x) { return x; }
-static inline uint64_t le64toh(uint64_t x) { return x; }
-static inline uint32_t htole32(uint32_t x) { return x; }
-static inline uint64_t htole64(uint64_t x) { return x; }
-
-#elif defined(__linux__)
-#include <endian.h>
-#include <malloc.h>
-#elif defined(__APPLE__)
-#include <libkern/OSByteOrder.h>
-#define htole32(x) OSSwapHostToLittleInt32(x)
-#define le32toh(x) OSSwapLittleToHostInt32(x)
-#define htole64(x) OSSwapHostToLittleInt64(x)
-#define le64toh(x) OSSwapLittleToHostInt64(x)
-// Add others as needed
-#else
-#error "Unsupported platform"
 #endif
 
 char *get_current_directory() {
@@ -98,385 +51,29 @@ char *get_current_directory() {
   return buffer;
 }
 
-int ensure_dir_exists(const char *path) {
-#ifdef _WIN32
-  struct _stat st;
-  if (_stat(path, &st) != 0) {
-    // Directory does not exist, create it
-    if (_mkdir(path) != 0) {
-      perror("_mkdir failed");
-      return -1;
-    }
-  } else if (!(st.st_mode & _S_IFDIR)) {
-    fprintf(stderr, "Path exists but is not a directory\n");
-    return -1;
-  }
-#else
-  struct stat st;
-  if (stat(path, &st) != 0) {
-    // Directory does not exist, create it
-    if (mkdir(path, 0755) != 0) {
-      perror("mkdir failed");
-      return -1;
-    }
-  } else if (!S_ISDIR(st.st_mode)) {
-    fprintf(stderr, "Path exists but is not a directory\n");
-    return -1;
-  }
-#endif
-  return 0;
-}
-
-static inline void write_and_hash(FILE *file, XXH64_state_t *state,
-                                  const void *ptr, size_t size, size_t count) {
-  fwrite(ptr, size, count, file);
-  XXH64_update(state, ptr, size * count);
-}
-
-static inline void update_hash_from_file(FILE *file, XXH64_state_t *state,
-                                         size_t size) {
-  char buffer[4096];
-  size_t bytes_read;
-  size_t remaining = size;
-
-  while (remaining > 0 &&
-         (bytes_read =
-              fread(buffer, 1,
-                    remaining > sizeof(buffer) ? sizeof(buffer) : remaining,
-                    file)) > 0) {
-    XXH64_update(state, buffer, bytes_read);
-    remaining -= bytes_read;
-  }
-}
-
-const char CACHE_FOLDER[] = "__arcache__";
-const char FILE_IDENTIFIER[5] = "ARBI";
-const char BYTECODE_EXTENTION[] = "arbin";
-const uint32_t version_number = 0;
-
-int load_cache(Translated *translated_dest, char *joined_paths, uint64_t hash,
-               char *source_path) {
-  FILE *bytecode_file = fopen(joined_paths, "rb");
-  if (!bytecode_file) {
-    fprintf(stderr,"cache doesnt exist... compiling from source.\n");
-    return 1;
-  }
-
-  // Find file size
-  fseek(bytecode_file, 0, SEEK_END);
-  long file_size = ftell(bytecode_file);
-  if (file_size < (long)sizeof(uint64_t)) {
-    goto FAILED;
-  }
-  fseek(bytecode_file, 0, SEEK_SET);
-
-  // Footer is the last 8 bytes
-  long data_size = file_size - sizeof(uint64_t);
-
-  // Set up hash state
-  XXH64_state_t *state = XXH64_createState();
-  XXH64_reset(state, 0);
-
-  // Hash everything except last 8 bytes
-  update_hash_from_file(bytecode_file, state, data_size);
-
-  // Read stored footer hash
-  uint64_t stored_hash_le;
-  if (fread(&stored_hash_le, 1, sizeof(stored_hash_le), bytecode_file) !=
-      sizeof(stored_hash_le)) {
-    XXH64_freeState(state);
-    goto FAILED;
-  }
-  uint64_t stored_hash = le64toh(stored_hash_le);
-
-  // Compare
-  uint64_t calc_hash = XXH64_digest(state);
-  XXH64_freeState(state);
-
-  if (calc_hash != stored_hash) {
-    fprintf(stderr,"cache hash mismatch (corrupted?)\n");
-    goto FAILED;
-  }
-
-  // Now actually parse the file contents
-  fseek(bytecode_file, 0, SEEK_SET); // rewind to start
-
-  char file_identifier_from_cache[sizeof(FILE_IDENTIFIER)] = {0};
-  if (fread(&file_identifier_from_cache, 1,
-            sizeof(file_identifier_from_cache) - 1,
-            bytecode_file) != sizeof(file_identifier_from_cache) - 1 ||
-      memcmp(file_identifier_from_cache, FILE_IDENTIFIER,
-             sizeof(file_identifier_from_cache)) != 0) {
-    goto FAILED;
-  }
-
-  uint32_t read_version;
-  if (fread(&read_version, 1, sizeof(read_version), bytecode_file) !=
-      sizeof(read_version)) {
-    goto FAILED;
-  }
-  read_version = le32toh(read_version);
-
-  if (read_version != version_number) {
-    goto FAILED;
-  }
-
-  uint64_t read_hash;
-  if (fread(&read_hash, 1, sizeof(read_hash), bytecode_file) !=
-      sizeof(read_hash)) {
-    goto FAILED;
-  }
-  read_hash = le64toh(read_hash);
-
-  if (read_hash != hash) {
-    goto FAILED;
-  }
-
-  uint8_t register_count;
-  if (fread(&register_count, 1, sizeof(register_count), bytecode_file) !=
-      sizeof(register_count)) {
-    goto FAILED;
-  }
-
-  uint64_t constantsSize;
-  if (fread(&constantsSize, 1, sizeof(constantsSize), bytecode_file) !=
-      sizeof(constantsSize)) {
-    goto FAILED;
-  }
-  constantsSize = le64toh(constantsSize);
-
-  uint64_t bytecodeSize;
-  if (fread(&bytecodeSize, 1, sizeof(bytecodeSize), bytecode_file) !=
-      sizeof(bytecodeSize)) {
-    goto FAILED;
-  }
-  bytecodeSize = le64toh(bytecodeSize);
-
-  *translated_dest = init_translator(source_path);
-
-  arena_resize(&translated_dest->constants, constantsSize);
-
-  if (fread(translated_dest->constants.data, 1, constantsSize, bytecode_file) !=
-      constantsSize) {
-    goto FAILED;
-  }
-
-  darray_resize(&translated_dest->bytecode, bytecodeSize);
-
-  if (fread(translated_dest->bytecode.data, 1, bytecodeSize, bytecode_file) !=
-      bytecodeSize) {
-    goto FAILED;
-  }
-
-  fprintf(stderr,"cache exists and is valid, so will be used.\n");
-  fclose(bytecode_file);
-  return 0;
-FAILED:
-  fprintf(stderr,"cache is invalid... compiling from source.\n");
-  fclose(bytecode_file);
-  return 1;
-}
-
-Execution execute(char *path, Stack *stack) {
-  clock_t start, end;
-  double time_spent, total_time_spent = 0;
-
-  const char *basename_ptr;
-  size_t basename_length;
-  cwk_path_get_basename(path, &basename_ptr, &basename_length);
-
-  if (!basename_ptr)
-    return (Execution){create_err(0, 0, 0, NULL, "Path Error",
-                                  "path has no basename '%s'", path),
-                       (Stack){NULL, NULL}};
-
-  char basename[FILENAME_MAX];
-  memcpy(basename, basename_ptr, basename_length);
-
-  size_t parent_directory_length;
-  cwk_path_get_dirname(path, &parent_directory_length);
-
-  char parent_directory[FILENAME_MAX];
-  memcpy(parent_directory, path, parent_directory_length);
-  parent_directory[parent_directory_length] = '\0';
-
-  char cache_folder_path[FILENAME_MAX];
-  cwk_path_join(parent_directory, CACHE_FOLDER, cache_folder_path,
-                sizeof(cache_folder_path));
-
-  char cache_file_path[FILENAME_MAX];
-  cwk_path_join(cache_folder_path, basename, cache_file_path,
-                sizeof(cache_file_path));
-  cwk_path_change_extension(cache_file_path, BYTECODE_EXTENTION,
-                            cache_file_path, sizeof(cache_file_path));
-
-  FILE *file = fopen(path, "r");
-  if (!file) {
-    return (Execution){create_err(0, 0, 0, NULL, "File Error",
-                                  "Unable to open file '%s'", path),
-                       (Stack){NULL, NULL}};
-  }
-
-  XXH3_state_t *hash_state = XXH3_createState();
-  XXH3_64bits_reset(hash_state);
-
-  char buffer[8192];
-  size_t bytes;
-  while ((bytes = fread(buffer, 1, sizeof(buffer), file)) > 0) {
-    XXH3_64bits_update(hash_state, buffer, bytes);
-  }
-  rewind(file);
-  uint64_t hash = XXH3_64bits_digest(hash_state);
-  XXH3_freeState(hash_state);
-
-  Translated translated;
-
-  if (load_cache(&translated, cache_file_path, hash, path) != 0) {
-
-    DArray tokens;
-    darray_init(&tokens, sizeof(Token));
-
-    LexerState state = {path, file, 0, 0, &tokens};
-    start = clock();
-    ArErr err = lexer(state);
-    if (err.exists) {
-      darray_free(&tokens, free_token);
-      return (Execution){err, (Stack){NULL, NULL}};
-    }
-    end = clock();
-    time_spent = (double)(end - start) / CLOCKS_PER_SEC;
-    total_time_spent += time_spent;
-    fprintf(stderr,"Lexer time taken: %f seconds\n", time_spent);
-    fclose(state.file);
-
-    DArray ast;
-
-    darray_init(&ast, sizeof(ParsedValue));
-
-    start = clock();
-    err = parser(path, &ast, &tokens, false);
-    if (err.exists) {
-      darray_free(&tokens, free_token);
-      darray_free(&ast, free_parsed);
-      return (Execution){err, (Stack){NULL, NULL}};
-    }
-    end = clock();
-    time_spent = (double)(end - start) / CLOCKS_PER_SEC;
-    total_time_spent += time_spent;
-    fprintf(stderr,"Parser time taken: %f seconds\n", time_spent);
-    darray_free(&tokens, free_token);
-
-    start = clock();
-
-    translated = init_translator(path);
-    err = translate(&translated, &ast);
-    if (err.exists) {
-      darray_free(&translated.bytecode, NULL);
-      free(translated.constants.data);
-      hashmap_free(translated.constants.hashmap, NULL);
-      darray_free(&ast, free_parsed);
-      return (Execution){err, (Stack){NULL, NULL}};
-    }
-    end = clock();
-    time_spent = (double)(end - start) / CLOCKS_PER_SEC;
-    total_time_spent += time_spent;
-    fprintf(stderr,"Translation time taken: %f seconds\n", time_spent);
-
-    darray_free(&ast, free_parsed);
-#if defined(__linux__)
-    malloc_trim(0);
-#endif
-
-    ensure_dir_exists(cache_folder_path);
-
-    file = fopen(cache_file_path, "wb");
-
-    uint64_t constantsSize = translated.constants.size;
-    uint64_t bytecodeSize = translated.bytecode.size;
-
-    uint32_t version_number_htole32ed = htole32(version_number);
-    uint64_t net_hash = htole64(hash);
-    constantsSize = htole64(constantsSize);
-    bytecodeSize = htole64(bytecodeSize);
-
-    XXH64_state_t *hash_state = XXH64_createState();
-    XXH64_reset(hash_state, 0);
-
-    write_and_hash(file, hash_state, &FILE_IDENTIFIER, sizeof(char),
-                   strlen(FILE_IDENTIFIER));
-    write_and_hash(file, hash_state, &version_number_htole32ed,
-                   sizeof(uint32_t), 1);
-    write_and_hash(file, hash_state, &net_hash, sizeof(net_hash), 1);
-    write_and_hash(file, hash_state, &translated.registerCount, sizeof(uint8_t),
-                   1);
-    write_and_hash(file, hash_state, &constantsSize, sizeof(uint64_t), 1);
-    write_and_hash(file, hash_state, &bytecodeSize, sizeof(uint64_t), 1);
-    write_and_hash(file, hash_state, translated.constants.data, 1,
-                   translated.constants.size);
-    write_and_hash(file, hash_state, translated.bytecode.data,
-                   translated.bytecode.element_size, translated.bytecode.size);
-
-    // Finalize the hash
-    uint64_t file_hash = XXH64_digest(hash_state);
-    XXH64_freeState(hash_state);
-
-    // Convert to little-endian before writing if needed
-    uint64_t file_hash_le = htole64(file_hash);
-    fwrite(&file_hash_le, sizeof(file_hash_le), 1, file);
-
-    fclose(file);
-  }
-  hashmap_free(translated.constants.hashmap, NULL);
-  Translated gc_translated = {
-      translated.registerCount, NULL, {}, {}, translated.path};
-  gc_translated.bytecode.data = ar_alloc(translated.bytecode.capacity);
-  memcpy(gc_translated.bytecode.data, translated.bytecode.data,
-         translated.bytecode.capacity);
-  gc_translated.bytecode.element_size = translated.bytecode.element_size;
-  gc_translated.bytecode.size = translated.bytecode.size;
-  gc_translated.bytecode.resizable = false;
-  gc_translated.bytecode.capacity =
-      translated.bytecode.size * translated.bytecode.element_size;
-  gc_translated.constants.data = ar_alloc(translated.constants.capacity);
-  memcpy(gc_translated.constants.data, translated.constants.data,
-         translated.constants.capacity);
-  gc_translated.constants.size = translated.constants.size;
-  gc_translated.constants.capacity = translated.constants.capacity;
-  darray_free(&translated.bytecode, NULL);
-  free(translated.constants.data);
-
-  start = clock();
-  RuntimeState state = init_runtime_state(gc_translated, path);
-  Stack *main_scope = create_scope(stack);
-  ArErr err = runtime(gc_translated, state, main_scope);
-  end = clock();
-  time_spent = (double)(end - start) / CLOCKS_PER_SEC;
-  total_time_spent += time_spent;
-  fprintf(stderr,"Execution time taken: %f seconds\n", time_spent);
-  fprintf(stderr,"total time taken: %f seconds\n", total_time_spent);
-
-  return (Execution){err, *main_scope};
-}
-
 int main(int argc, char *argv[]) {
   setlocale(LC_ALL, "");
   ar_memory_init();
-
   generate_siphash_key(siphash_key);
+  init_built_in_field_hashes();
   bootstrap_types();
   bootstrap_globals();
-  char *CWD = get_current_directory();
   if (argc <= 1)
-    return -1;
+    return shell();
+  CWD = get_current_directory();
   char *path_non_absolute = argv[1];
-  char path[FILENAME_MAX];
-  cwk_path_get_absolute(CWD, path_non_absolute, path, sizeof(path));
+  ArErr err = no_err;
+  ar_import(CWD, path_non_absolute, &err);
+  if (err.exists) {
+    output_err(err);
+    return 1;
+  }
   free(CWD);
-  Execution resp = execute(path, Global_Scope);
+  ar_memory_shutdown();
   if (runtime_hash_table)
     hashmap_free(runtime_hash_table, NULL);
-  if (resp.err.exists) {
-    output_err(resp.err);
+  if (err.exists) {
+    output_err(err);
     return 1;
   }
   // Your main thread code

src/memory.c

@@ -6,10 +6,12 @@
 
 #include "memory.h"
 #include <gc.h>
-#include <gmp.h>
+#include <gc/gc.h>
+#include <stddef.h>
 #include <stdio.h>
 #include <stdlib.h> // for malloc/free (temp arena fallback)
 #include <string.h>
+#include <pthread.h>
 
 void *checked_malloc(size_t size) {
   void *ptr = malloc(size);
@@ -20,19 +22,23 @@ void *checked_malloc(size_t size) {
   return ptr;
 }
 
-void *gmp_gc_realloc(void *ptr, size_t old_size, size_t new_size) {
-  (void)old_size; // Ignore old_size, Boehm doesn't need it
-  return GC_realloc(ptr, new_size);
-}
-
-void gmp_gc_free(void *ptr, size_t size) {
-  (void)size; // Boehm GC manages this itself
-  // No-op — memory will be collected automatically
-  GC_FREE(ptr);
-}
+struct allocation*memory_allocations = NULL;
+size_t memory_allocations_size = 0;
+pthread_mutex_t lock = PTHREAD_MUTEX_INITIALIZER;
 
 void ar_memory_init() {
   GC_INIT();
+  // memory_allocations_size = 8;
+  // memory_allocations = malloc(memory_allocations_size*sizeof(struct allocation));
+}
+
+void ar_memory_shutdown() {
+  // for (size_t i = 0; i<memory_allocations_size;i++) {
+  //   if (memory_allocations[i].status != allocation_fully_freed) {
+  //     free(memory_allocations[i].ptr);
+  //   }
+  // }
+  // free(memory_allocations);
 }
 
 void *ar_alloc(size_t size) { return GC_MALLOC(size); }

src/memory.h

@@ -8,10 +8,23 @@
 #define ARGON_MEMORY_H
 
 #include <stddef.h> // for size_t
+#include <stdbool.h>
 #include <gc/gc.h>
 
 // GC-managed allocations
 
+typedef enum allocation_status {
+  allocation_used,
+  allocation_soft_free,  // avaiable for use, since it hasnt been freed but isnt in use.
+  allocation_fully_freed,
+} allocation_status;
+
+struct allocation {
+  void*ptr;
+  size_t size;
+  allocation_status status;
+};
+
 void ar_finalizer(void *obj, GC_finalization_proc fn, void *client_data,
                   GC_finalization_proc *old_fn, void **old_client_data);
 void *ar_alloc(size_t size);
@@ -21,6 +34,7 @@ char *ar_strdup(const char *str);
 
 // Memory init/shutdown
 void ar_memory_init();
+void ar_memory_shutdown();
 
 void *checked_malloc(size_t size);
 

src/parser/assignable/access/access.c

@@ -18,13 +18,12 @@ ParsedValueReturn parse_access(char *file, DArray *tokens, size_t *index,
   Token *first_token = darray_get(tokens, *index);
   (*index)++;
   ParsedValue *parsedValue = checked_malloc(sizeof(ParsedValue));
+  if (first_token->type == TOKEN_DOT) {
     ParsedAccess *parsedAccess = checked_malloc(sizeof(ParsedAccess));
-  parsedAccess->to_access = *to_access;
+    parsedAccess->to_access = to_access;
+    parsedAccess->access = NULL;
     parsedValue->type = AST_ACCESS;
     parsedValue->data = parsedAccess;
-  free(to_access);
-  darray_init(&parsedAccess->access, sizeof(ParsedValue));
-  if (first_token->type == TOKEN_DOT) {
     ArErr err = error_if_finished(file, tokens, index);
     if (err.exists) {
       free_parsed(parsedValue);
@@ -32,6 +31,14 @@ ParsedValueReturn parse_access(char *file, DArray *tokens, size_t *index,
       return (ParsedValueReturn){err, NULL};
     }
     Token *token = darray_get(tokens, *index);
+    if (token->type != TOKEN_IDENTIFIER) {
+      free_parsed(parsedValue);
+      free(parsedValue);
+      return (ParsedValueReturn){create_err(token->line, token->column,
+                                            token->length, file, "Syntax Error",
+                                            "expected identifier after dot"),
+                                 NULL};
+    }
     parsedAccess->line = token->line;
     parsedAccess->column = token->column;
     parsedAccess->length = token->length;
@@ -41,59 +48,7 @@ ParsedValueReturn parse_access(char *file, DArray *tokens, size_t *index,
       free(parsedValue);
       return parsedString;
     }
-    darray_push(&parsedAccess->access, parsedString.value);
-    free(parsedString.value);
-    parsedAccess->access_fields = true;
-  } else {
-    parsedAccess->line = first_token->line;
-    parsedAccess->column = first_token->column;
-    parsedAccess->length = first_token->length;
-    parsedAccess->access_fields = false;
-    Token *token = first_token;
-    while (true) {
-      skip_newlines_and_indents(tokens, index);
-      ArErr err = error_if_finished(file, tokens, index);
-      if (err.exists) {
-        free_parsed(parsedValue);
-        free(parsedValue);
-        return (ParsedValueReturn){err, NULL};
-      }
-      ParsedValueReturn parsedAccessValue =
-          parse_token(file, tokens, index, true);
-      if (parsedAccessValue.err.exists) {
-        free_parsed(parsedValue);
-        free(parsedValue);
-        return parsedAccessValue;
-      } else if (!parsedAccessValue.value) {
-        free_parsed(parsedValue);
-        free(parsedValue);
-        return (ParsedValueReturn){create_err(token->line, token->column,
-                                              token->length, file,
-                                              "Syntax Error", "expected value"),
-                                   NULL};
-      }
-      darray_push(&parsedAccess->access, parsedAccessValue.value);
-      free(parsedAccessValue.value);
-      skip_newlines_and_indents(tokens, index);
-      err = error_if_finished(file, tokens, index);
-      if (err.exists) {
-        free_parsed(parsedValue);
-        free(parsedValue);
-        return (ParsedValueReturn){err, NULL};
-      }
-      token = darray_get(tokens, *index);
-      if (token->type == TOKEN_RBRACKET) {
-        break;
-      } else if (token->type != TOKEN_COLON) {
-        free_parsed(parsedValue);
-        free(parsedValue);
-        return (ParsedValueReturn){create_err(token->line, token->column,
-                                              token->length, file,
-                                              "Syntax Error", "expected colon"),
-                                   NULL};
-      }
-      (*index)++;
-    }
+    parsedAccess->access = parsedString.value;
   }
   (*index)++;
   return (ParsedValueReturn){no_err, parsedValue};
@@ -102,7 +57,11 @@ ParsedValueReturn parse_access(char *file, DArray *tokens, size_t *index,
 void free_parse_access(void *ptr) {
   ParsedValue *parsedValue = ptr;
   ParsedAccess *parsedAccess = parsedValue->data;
-  free_parsed(&parsedAccess->to_access);
-  darray_free(&parsedAccess->access, free_parsed);
+  free_parsed(parsedAccess->to_access);
+  free(parsedAccess->to_access);
+  if (parsedAccess->access) {
+    free_parsed(parsedAccess->access);
+    free(parsedAccess->access);
+  }
   free(parsedAccess);
 }

src/parser/assignable/access/access.h

@@ -10,9 +10,8 @@
 #include "../../../lexer/token.h"  // for Token
 
 typedef struct {
-  ParsedValue to_access;
-  bool access_fields;
-  DArray access;
+  ParsedValue *to_access;
+  ParsedValue *access;
   size_t line;
   size_t column;
   size_t length;

src/parser/assignable/assign/assign.c

@@ -7,25 +7,38 @@
 #include "assign.h"
 #include "../../../lexer/token.h"
 #include "../../../memory.h"
+#include "../../function/function.h"
 #include "../../parser.h"
+#include "../../string/string.h"
+#include "../access/access.h"
 #include "../call/call.h"
+#include "../identifier/identifier.h"
 #include <stdbool.h>
 #include <stdio.h>
 #include <stdlib.h>
+#include <string.h>
 
 ParsedValueReturn parse_assign(char *file, DArray *tokens,
                                ParsedValue *assign_to, size_t *index) {
   Token *token = darray_get(tokens, *index);
+  bool is_function = false;
+  char *function_name;
+  bool to_free_function_name = false;
+  DArray function_args;
+  ParsedValue *function_assign_to;
   switch (assign_to->type) {
   case AST_IDENTIFIER:
   case AST_ACCESS:
     break;
   case AST_CALL:;
     ParsedCall *call = assign_to->data;
+    darray_init(&function_args, sizeof(char *));
     for (size_t i = 0; i < call->args.size; i++) {
-      if (((ParsedValue *)darray_get(&call->args, i))->type != AST_IDENTIFIER) {
+      ParsedValue *arg = darray_get(&call->args, i);
+      if (arg->type != AST_IDENTIFIER) {
         free_parsed(assign_to);
         free(assign_to);
+        darray_free(&function_args, free_parameter);
         return (ParsedValueReturn){
             create_err(
                 token->line, token->column, token->length, file, "Syntax Error",
@@ -34,6 +47,32 @@ ParsedValueReturn parse_assign(char *file, DArray *tokens,
                 "only use letters, digits, or _, and can't be keywords."),
             NULL};
       }
+
+      char *param = strdup(((ParsedIdentifier *)arg->data)->name);
+      darray_push(&function_args, &param);
+    }
+    darray_free(&call->args, free_parsed);
+    is_function = true;
+    function_assign_to = call->to_call;
+    switch (function_assign_to->type) {
+    case AST_IDENTIFIER:
+      function_name = ((ParsedIdentifier *)function_assign_to->data)->name;
+      break;
+    case AST_ACCESS:
+      if (((ParsedAccess *)function_assign_to->data)->access->type ==
+          AST_STRING) {
+        ParsedString *name =
+            ((ParsedAccess *)function_assign_to->data)->access->data;
+        function_name = checked_malloc(name->length + 1);
+        function_name[name->length] = 0;
+        memcpy(function_name, name->string, name->length);
+        to_free_function_name = true;
+        break;
+      }
+      // FALL THROUGH
+    default:
+      function_name = "anonymous";
+      break;
     }
     break;
   default:;
@@ -44,35 +83,40 @@ ParsedValueReturn parse_assign(char *file, DArray *tokens,
     free(assign_to);
     return (ParsedValueReturn){err, NULL};
   }
+  (*index)++;
+  token = darray_get(tokens, *index);
+  ParsedValueReturn from = parse_token(file, tokens, index, true);
+  if (from.err.exists) {
+    return from;
+  }
+  if (!from.value) {
+    return (ParsedValueReturn){create_err(token->line, token->column,
+                                          token->length, file, "Syntax Error",
+                                          "expected body"),
+                               NULL};
+  }
+  if (is_function) {
+    from.value =
+        create_parsed_function(function_name, function_args, from.value);
+    if (to_free_function_name) free(function_name);
+    free(assign_to->data);
+    free(assign_to);
+    assign_to = function_assign_to;
+  }
   ParsedAssign *assign = checked_malloc(sizeof(ParsedAssign));
   assign->to = assign_to;
-  assign->type = token->type;
+  assign->type = 0;
+  assign->from = NULL;
   ParsedValue *parsedValue = checked_malloc(sizeof(ParsedValue));
   parsedValue->type = AST_ASSIGN;
   parsedValue->data = assign;
-  (*index)++;
   ArErr err = error_if_finished(file, tokens, index);
   if (err.exists) {
     free_parsed(parsedValue);
     free(parsedValue);
     return (ParsedValueReturn){err, NULL};
   }
-  token = darray_get(tokens, *index);
-  ParsedValueReturn from = parse_token(file, tokens, index, true);
-  if (from.err.exists) {
-    free_parsed(parsedValue);
-    free(parsedValue);
-    return from;
-  }
   assign->from = from.value;
-  if (!assign->from) {
-    free_parsed(parsedValue);
-    free(parsedValue);
-    return (ParsedValueReturn){create_err(token->line, token->column,
-                                          token->length, file, "Syntax Error",
-                                          "expected body"),
-                               NULL};
-  }
   return (ParsedValueReturn){no_err, parsedValue};
 }
 

src/parser/not/not.c

@@ -0,0 +1,50 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+#include "not.h"
+#include "../../lexer/token.h"
+#include "../../memory.h"
+#include "../parser.h"
+#include <stdio.h>
+
+ParsedValueReturn parse_not(char *file, DArray *tokens, size_t *index) {
+  bool invert = true;
+  (*index)++;
+  while (tokens->size > *index) {
+    Token *token = darray_get(tokens, *index);
+    if (token->type != TOKEN_EXCLAMATION) {
+      ParsedValueReturn value =
+          parse_token_full(file, tokens, index, true, false);
+      if (value.err.exists) {
+        return value;
+      } else if (!value.value) {
+        return (ParsedValueReturn){create_err(token->line, token->column,
+                                              token->length, file,
+                                              "Syntax Error", "expected value"),
+                                   NULL};
+      }
+
+      ParsedValue *parsedValue = checked_malloc(sizeof(ParsedValue));
+      ParsedToBool *parsedToBool = checked_malloc(sizeof(ParsedToBool));
+      parsedToBool->value = value.value;
+      parsedToBool->invert = invert;
+      parsedValue->data = parsedToBool;
+      parsedValue->type = AST_TO_BOOL;
+      return (ParsedValueReturn){no_err, parsedValue};
+    }
+    invert = !invert;
+    (*index)++;
+  }
+  ArErr err = error_if_finished(file, tokens, index);
+  return (ParsedValueReturn){err, NULL};
+}
+
+void free_not(void *ptr) {
+  ParsedValue *parsedValue = ptr;
+  ParsedToBool *parsedToBool = parsedValue->data;
+  free_parsed(parsedToBool->value);
+  free(parsedToBool->value);
+  free(parsedToBool);
+}

src/parser/not/not.h

@@ -0,0 +1,20 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+#ifndef NOT_H
+#define NOT_H
+#include "../parser.h"
+
+typedef struct {
+  bool invert;
+  ParsedValue*value;
+} ParsedToBool;
+
+ParsedValueReturn parse_not(char *file, DArray *tokens, size_t *index);
+
+void free_not(void *ptr);
+
+#endif // NOT_H

src/parser/number/number.c

@@ -8,7 +8,6 @@
 #include "../../memory.h"
 #include <ctype.h>
 #include <gmp.h>
-#include <gmp.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
@@ -180,7 +179,8 @@ ParsedValueReturn parse_number(Token *token, char *path) {
   mpq_init(*r_ptr);
   int err = mpq_set_decimal_str_exp(*r_ptr, token->value, token->length);
   if (err) {
-    free_parsed(parsedValue);
+    mpq_clear(*r_ptr);
+    free(r_ptr);
     free(parsedValue);
     return (ParsedValueReturn){create_err(token->line, token->column,
                                           token->length, path, "Parsing Error",
@@ -190,3 +190,4 @@ ParsedValueReturn parse_number(Token *token, char *path) {
   parsedValue->data = r_ptr;
   return (ParsedValueReturn){no_err, parsedValue};
 }
+

src/parser/operations/operations.c

@@ -12,8 +12,6 @@
 #include <stdlib.h>
 #include <string.h>
 
-struct operation {};
-
 ParsedValue convert_to_operation(DArray *to_operate_on, DArray *operations) {
   if (to_operate_on->size == 1) {
     return *((ParsedValue *)darray_get(to_operate_on, 0));
@@ -31,8 +29,10 @@ ParsedValue convert_to_operation(DArray *to_operate_on, DArray *operations) {
       operation = *current_operation;
       darray_init(&positions, sizeof(size_t));
     }
+    if (operation_type == current_operation->type) {
       darray_push(&positions, &i);
     }
+  }
   ParsedValue parsedValue;
   parsedValue.type = AST_OPERATION;
   ParsedOperation *operationStruct = checked_malloc(sizeof(ParsedOperation));
@@ -42,24 +42,22 @@ ParsedValue convert_to_operation(DArray *to_operate_on, DArray *operations) {
   operationStruct->column = operation.column;
   operationStruct->length = operation.length;
   darray_init(&operationStruct->to_operate_on, sizeof(ParsedValue));
-  size_t last_position = 0;
   size_t to_operate_on_last_position = 0;
   for (size_t i = 0; i < positions.size; i++) {
     size_t *position = darray_get(&positions, i);
     DArray to_operate_on_slice = darray_slice(
         to_operate_on, to_operate_on_last_position, (*position) + 1);
     DArray operations_slice =
-        darray_slice(operations, last_position, *position);
+        darray_slice(operations, to_operate_on_last_position, (*position));
     ParsedValue result =
         convert_to_operation(&to_operate_on_slice, &operations_slice);
     darray_push(&operationStruct->to_operate_on, &result);
-    last_position = (*position);
     to_operate_on_last_position = (*position) + 1;
   }
   DArray to_operate_on_slice = darray_slice(
       to_operate_on, to_operate_on_last_position, to_operate_on->size);
   DArray operations_slice =
-      darray_slice(operations, last_position, operations->size);
+      darray_slice(operations, to_operate_on_last_position, operations->size);
   ParsedValue result =
       convert_to_operation(&to_operate_on_slice, &operations_slice);
   darray_push(&operationStruct->to_operate_on, &result);

src/parser/parentheses-and-anonymous-function/parentheses-and-anonymous-function.c

@@ -0,0 +1,104 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+#include "parentheses-and-anonymous-function.h"
+#include "../../memory.h"
+#include "../assignable/identifier/identifier.h"
+#include "../function/function.h"
+#include <stddef.h>
+#include <string.h>
+
+ParsedValueReturn parse_parentheses(char *file, DArray *tokens, size_t *index) {
+  (*index)++;
+  skip_newlines_and_indents(tokens, index);
+  ArErr err = error_if_finished(file, tokens, index);
+  if (err.exists) {
+    // darray_free(&list, free_parsed);
+    return (ParsedValueReturn){err, NULL};
+  }
+  DArray list;
+  darray_init(&list, sizeof(ParsedValue));
+  Token *token = darray_get(tokens, *index);
+  if (token->type != TOKEN_RPAREN) {
+    while (*index < tokens->size) {
+      ParsedValueReturn parsedItem = parse_token(file, tokens, index, true);
+      if (parsedItem.err.exists) {
+        darray_free(&list, free_parsed);
+        return parsedItem;
+      }
+      darray_push(&list, parsedItem.value);
+      free(parsedItem.value);
+      skip_newlines_and_indents(tokens, index);
+      ArErr err = error_if_finished(file, tokens, index);
+      if (err.exists) {
+        darray_free(&list, free_parsed);
+        return (ParsedValueReturn){err, NULL};
+      }
+      token = darray_get(tokens, *index);
+      if (token->type == TOKEN_RPAREN) {
+        break;
+      } else if (token->type != TOKEN_COMMA) {
+        darray_free(&list, free_parsed);
+        return (ParsedValueReturn){create_err(token->line, token->column,
+                                              token->length, file,
+                                              "Syntax Error", "expected comma"),
+                                   NULL};
+      }
+      skip_newlines_and_indents(tokens, index);
+      err = error_if_finished(file, tokens, index);
+      if (err.exists) {
+        darray_free(&list, free_parsed);
+        return (ParsedValueReturn){err, NULL};
+      }
+    }
+  }
+  (*index)++;
+  if (*index < tokens->size) {
+    token = darray_get(tokens, *index);
+    if (token->type == TOKEN_ASSIGN) {
+      (*index)++;
+      ArErr err = error_if_finished(file, tokens, index);
+      if (err.exists) {
+        darray_free(&list, free_parsed);
+        return (ParsedValueReturn){err, NULL};
+      }
+      DArray parameters;
+      darray_init(&parameters, sizeof(char *));
+      for (size_t i = 0; i < list.size; i++) {
+        ParsedValue *item = darray_get(&list, i);
+        if (item->type != AST_IDENTIFIER) {
+          darray_free(&list, free_parsed);
+          darray_free(&parameters, free_parameter);
+          return (ParsedValueReturn){
+              create_err(token->line, token->column, token->length, file,
+                         "Syntax Error", "expected identifier"),
+              NULL};
+        }
+        char *param = strdup(((ParsedIdentifier *)item->data)->name);
+        darray_push(&parameters, &param);
+      }
+      darray_free(&list, free_parsed);
+      ParsedValueReturn parsedBody = parse_token(file, tokens, index, true);
+      if (parsedBody.err.exists) {
+        darray_free(&parameters, free_parameter);
+        return parsedBody;
+      }
+      return (ParsedValueReturn){
+          no_err,
+          create_parsed_function("anonymous", parameters, parsedBody.value)};
+    }
+  }
+  if (list.size != 1) {
+    return (ParsedValueReturn){create_err(token->line, token->column,
+                                          token->length, file, "Syntax Error",
+                                          "expected 1 body"),
+                               NULL};
+  }
+  ParsedValue *parsedValue = checked_malloc(sizeof(ParsedValue));
+  memcpy(parsedValue, darray_get(&list, 0), sizeof(ParsedValue));
+  darray_free(&list, NULL);
+  return (ParsedValueReturn){no_err, parsedValue};
+}

src/parser/parentheses-and-anonymous-function/parentheses-and-anonymous-function.h

@@ -0,0 +1,14 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+#ifndef parentheses_and_anonymous_function_H
+#define parentheses_and_anonymous_function_H
+#include "../parser.h"
+#include "../../lexer/token.h"
+
+ParsedValueReturn parse_parentheses(char *file, DArray *tokens, size_t *index);
+
+#endif // parentheses_and_anonymous_function_H

src/parser/parser.c

@@ -20,8 +20,11 @@
 #include "literals/literals.h"
 #include "number/number.h"
 #include "operations/operations.h"
+#include "parentheses-and-anonymous-function/parentheses-and-anonymous-function.h"
 #include "return/return.h"
 #include "string/string.h"
+#include "not/not.h"
+#include "while/while.h"
 #include <gmp.h>
 #include <stdbool.h>
 #include <stddef.h>
@@ -30,10 +33,10 @@
 #include <string.h>
 
 const char *ValueTypeNames[] = {
-    "string",       "assign",     "identifier", "number",
-    "if statement", "access",     "call",       "declaration",
-    "null",         "boolean",    "do wrap",    "operations",
-    "list",         "dictionary", "function",   "return"};
+    "string",  "assign",     "identifier",  "number",     "if statement",
+    "access",  "call",       "declaration", "null",       "boolean",
+    "do wrap", "operations", "list",        "dictionary", "function",
+    "return",  "while loop", "not"};
 
 ArErr error_if_finished(char *file, DArray *tokens, size_t *index) {
   if ((*index) >= tokens->size) {
@@ -72,6 +75,8 @@ ParsedValueReturn parse_token_full(char *file, DArray *tokens, size_t *index,
     switch (token->type) {
     case TOKEN_IF:
       return parse_if(file, tokens, index);
+    case TOKEN_WHILE:
+      return parse_while(file, tokens, index);
     case TOKEN_RETURN:
       return parse_return(file, tokens, index);
     case TOKEN_LET:
@@ -128,9 +133,15 @@ ParsedValueReturn parse_token_full(char *file, DArray *tokens, size_t *index,
   case TOKEN_LBRACKET:
     output = parse_list(file, tokens, index);
     break;
+  case TOKEN_LPAREN:
+    output = parse_parentheses(file, tokens, index);
+    break;
   case TOKEN_LBRACE:
     output = parse_dictionary(file, tokens, index);
     break;
+  case TOKEN_EXCLAMATION:
+    output = parse_not(file, tokens, index);
+    break;
   default:
     return (ParsedValueReturn){create_err(token->line, token->column,
                                           token->length, file, "Syntax Error",
@@ -147,13 +158,6 @@ ParsedValueReturn parse_token_full(char *file, DArray *tokens, size_t *index,
     token = darray_get(tokens, *index);
     switch (token->type) {
     case TOKEN_ASSIGN:
-    case TOKEN_ASSIGN_CARET:
-    case TOKEN_ASSIGN_FLOORDIV:
-    case TOKEN_ASSIGN_MINUS:
-    case TOKEN_ASSIGN_MODULO:
-    case TOKEN_ASSIGN_PLUS:
-    case TOKEN_ASSIGN_SLASH:
-    case TOKEN_ASSIGN_STAR:
       output = parse_assign(file, tokens, output.value, index);
       break;
     case TOKEN_LPAREN:
@@ -243,6 +247,9 @@ void free_parsed(void *ptr) {
   case AST_IF:
     free_parsed_if(parsed);
     break;
+  case AST_WHILE:
+    free_parsed_while(parsed);
+    break;
   case AST_OPERATION:
     free_operation(parsed);
     break;
@@ -261,5 +268,8 @@ void free_parsed(void *ptr) {
   case AST_RETURN:
     free_parsed_return(parsed);
     break;
+  case AST_TO_BOOL:
+    free_not(parsed);
+    break;
   }
 }

src/parser/parser.h

@@ -49,7 +49,9 @@ typedef enum {
   AST_LIST,
   AST_DICTIONARY,
   AST_FUNCTION,
-  AST_RETURN
+  AST_RETURN,
+  AST_WHILE,
+  AST_TO_BOOL
 } ValueType;
 
 extern const char *ValueTypeNames[];

src/parser/while/while.c

@@ -0,0 +1,101 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+#include "while.h"
+#include "../../lexer/token.h"
+#include "../../memory.h"
+#include "../parser.h"
+#include <stddef.h>
+
+ParsedValueReturn parse_while(char *file, DArray *tokens, size_t *index) {
+  Token *token = darray_get(tokens, *index);
+  (*index)++;
+  // Parse ( condition )
+  token = darray_get(tokens, *index);
+  if (token->type != TOKEN_LPAREN) {
+    return (ParsedValueReturn){create_err(token->line, token->column,
+                                          token->length, file, "Syntax Error",
+                                          "expected '(' after while"),
+                               NULL};
+  }
+
+  (*index)++;
+  ArErr err = error_if_finished(file, tokens, index);
+  if (err.exists) {
+    return (ParsedValueReturn){err, NULL};
+  }
+  skip_newlines_and_indents(tokens, index);
+  ParsedValueReturn condition = parse_token(file, tokens, index, true);
+  if (condition.err.exists) {
+    return condition;
+  } else if (!condition.value) {
+    return (ParsedValueReturn){create_err(token->line, token->column,
+                                          token->length, file, "Syntax Error",
+                                          "expected condition"),
+                               NULL};
+  }
+  skip_newlines_and_indents(tokens, index);
+
+  token = darray_get(tokens, *index);
+  if (token->type != TOKEN_RPAREN) {
+    if (condition.value) {
+      free_parsed(condition.value);
+      free(condition.value);
+    }
+    return (ParsedValueReturn){create_err(token->line, token->column,
+                                          token->length, file, "Syntax Error",
+                                          "missing closing ')' in condition"),
+                               NULL};
+  }
+
+  (*index)++;
+  err = error_if_finished(file, tokens, index);
+  if (err.exists) {
+    if (condition.value) {
+      free_parsed(condition.value);
+      free(condition.value);
+    }
+    return (ParsedValueReturn){err, NULL};
+  }
+  // Parse the body
+  ParsedValueReturn parsed_content = parse_token(file, tokens, index, false);
+
+  if (parsed_content.err.exists) {
+    if (condition.value) {
+      free_parsed(condition.value);
+      free(condition.value);
+    }
+    return parsed_content;
+  }
+
+  if (!parsed_content.value) {
+    if (condition.value) {
+      free_parsed(condition.value);
+      free(condition.value);
+    }
+    return (ParsedValueReturn){create_err(token->line, token->column,
+                                          token->length, file, "Syntax Error",
+                                          "expected body"),
+                               NULL};
+  }
+
+  ParsedValue *Parsedvalue = checked_malloc(sizeof(ParsedValue));
+  Parsedvalue->type = AST_WHILE;
+  ParsedWhile *Parsed_while = checked_malloc(sizeof(ParsedWhile));
+  Parsedvalue->data = Parsed_while;
+  Parsed_while->condition = condition.value;
+  Parsed_while->content = parsed_content.value;
+  return (ParsedValueReturn){no_err, Parsedvalue};
+}
+
+void free_parsed_while(void *ptr) {
+  ParsedValue *parsedValue = ptr;
+  ParsedWhile *parsed_while = parsedValue->data;
+  free_parsed(parsed_while->condition);
+  free(parsed_while->condition);
+  free_parsed(parsed_while->content);
+  free(parsed_while->content);
+  free(parsed_while);
+}

src/parser/while/while.h

@@ -0,0 +1,20 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+#ifndef PARSE_WHILE_H
+#define PARSE_WHILE_H
+#include "../parser.h"
+
+typedef struct {
+  ParsedValue * condition;
+  ParsedValue *content;
+} ParsedWhile;
+
+ParsedValueReturn parse_while(char *file, DArray *tokens, size_t *index);
+
+void free_parsed_while(void *ptr);
+
+#endif // PARSE_WHILE_H

src/returnTypes.h

@@ -8,21 +8,16 @@
 #define RETURN_TYPES_H
 #include <stdint.h>
 #include "arobject.h"
+#include <stdio.h>
 
-#define ERR_MSG_MAX_LEN 256
 
 typedef struct ArErr {
-  bool exists;
-  char *path;
+  char path[FILENAME_MAX];
+  char message[128];
+  char type[64];
   int64_t line;
   int64_t column;
   int length;
-  char type[32];
-  char message[ERR_MSG_MAX_LEN];
+  bool exists;
 } ArErr;
-
-typedef struct Execution {
-  ArErr err;
-  Stack stack;
-} Execution;
 #endif // RETURN_TYPES_

src/runtime/access/access.c

@@ -1,33 +0,0 @@
-/*
- * SPDX-FileCopyrightText: 2025 William Bell
- *
- * SPDX-License-Identifier: GPL-3.0-or-later
- */
-#include "access.h"
-#include <stdio.h>
-
-ArgonObject *ARGON_TYPE_TYPE___get_attr__(size_t argc, ArgonObject **argv,
-                                          ArErr *err, RuntimeState *state) {
-  (void)state;
-  if (argc != 3) {
-    *err = create_err(0, 0, 0, "", "Runtime Error",
-                      "__get_attr__ expects 3 arguments, got %" PRIu64);
-    return ARGON_NULL;
-  }
-  ArgonObject *to_access = argv[0];
-  ArgonObject *access = argv[1];
-  bool check_field = argv[2] == ARGON_TRUE;
-  if (check_field) {
-    ArgonObject *value = get_field_l(to_access, access->value.as_str.data,
-                                     access->value.as_str.length, true, false);
-    if (value)
-      return value;
-  }
-  ArgonObject *name = get_field_for_class(
-      get_field(to_access, "__class__", false, false), "__name__", to_access);
-  *err = create_err(0, 0, 0, "", "Runtime Error",
-                    "'%.*s' object has no attribute '%.*s'",
-                    (int)name->value.as_str.length, name->value.as_str.data,
-                    (int)access->value.as_str.length, access->value.as_str.data);
-  return ARGON_NULL;
-}

src/runtime/access/access.h

@@ -1,17 +0,0 @@
-/*
- * SPDX-FileCopyrightText: 2025 William Bell
- *
- * SPDX-License-Identifier: GPL-3.0-or-later
- */
-
-#ifndef runtime_access_H
-#define runtime_access_H
-#include "../objects/literals/literals.h"
-#include "../objects/object.h"
-#include "../runtime.h"
-#include <inttypes.h>
-
-ArgonObject *ARGON_TYPE_TYPE___get_attr__(size_t argc, ArgonObject **argv,
-                                          ArErr *err, RuntimeState *state);
-
-#endif // runtime_access_H

src/runtime/assignment/assignment.c

@@ -0,0 +1,29 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+#include "assignment.h"
+
+void runtime_assignment(Translated *translated, RuntimeState *state,
+                         struct Stack *stack) {
+  int64_t length = pop_bytecode(translated, state);
+  int64_t offset = pop_bytecode(translated, state);
+  int64_t prehash = pop_bytecode(translated, state);
+  int64_t from_register = pop_byte(translated, state);
+  void *data = arena_get(&translated->constants, offset);
+  uint64_t hash = runtime_hash(data, length, prehash);
+  ArgonObject *key = new_string_object(data, length, prehash, hash);
+  for (Stack *current_stack = stack; current_stack;
+       current_stack = current_stack->prev) {
+    ArgonObject *exists = hashmap_lookup_GC(current_stack->scope, hash);
+    if (exists) {
+      hashmap_insert_GC(current_stack->scope, hash, key,
+                        state->registers[from_register], 0);
+      return;
+    }
+  }
+  hashmap_insert_GC(stack->scope, hash, key, state->registers[from_register],
+                    0);
+}

src/runtime/assignment/assignment.h

@@ -0,0 +1,15 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+#ifndef runtime_assignment_H
+#define runtime_assignment_H
+#include "../runtime.h"
+#include "../objects/string/string.h"
+
+void runtime_assignment(Translated *translated, RuntimeState *state,
+                         struct Stack *stack);
+
+#endif // runtime_assignment_H

src/runtime/call/call.c

@@ -16,6 +16,9 @@
 #include <string.h>
 
 #if defined(_WIN32)
+#ifndef _WIN32_WINNT
+#define _WIN32_WINNT 0x0602
+#endif
 #include <psapi.h>
 #include <windows.h>
 
@@ -72,27 +75,26 @@ double get_memory_usage_mb() {
 
 ArgonObject *argon_call(ArgonObject *original_object, size_t argc,
                         ArgonObject **argv, ArErr *err, RuntimeState *state) {
-  *err = run_call(original_object, argc, argv, state, true);
+  run_call(original_object, argc, argv, state, true, err);
   return state->registers[0];
 }
 
-ArErr run_call(ArgonObject *original_object, size_t argc, ArgonObject **argv,
-               RuntimeState *state, bool CStackFrame) {
+void run_call(ArgonObject *original_object, size_t argc, ArgonObject **argv,
+              RuntimeState *state, bool CStackFrame, ArErr *err) {
   ArgonObject *object = original_object;
   if (object->type != TYPE_FUNCTION && object->type != TYPE_NATIVE_FUNCTION &&
       object->type != TYPE_METHOD) {
-    ArgonObject *call_method =
-        get_field_for_class(get_field(object, "__class__", false, false),
-                            "__call__", original_object);
+    ArgonObject *call_method = get_builtin_field_for_class(
+        get_builtin_field(object, __class__), __call__, original_object);
     if (call_method) {
       object = call_method;
     }
   }
   if (object->type == TYPE_METHOD) {
-    ArgonObject *binding_object =
-        get_field(object, "__binding__", false, false);
+    ArgonObject *binding_object = get_builtin_field(object, __binding__);
     if (binding_object) {
-      ArgonObject **new_call_args = ar_alloc(sizeof(ArgonObject *) * (argc + 1));
+      ArgonObject **new_call_args =
+          ar_alloc(sizeof(ArgonObject *) * (argc + 1));
       new_call_args[0] = binding_object;
       if (argc > 0) {
         memcpy(new_call_args + 1, argv, argc * sizeof(ArgonObject *));
@@ -100,46 +102,48 @@ ArErr run_call(ArgonObject *original_object, size_t argc, ArgonObject **argv,
       argv = new_call_args;
       argc++;
     }
-    ArgonObject *function_object =
-        get_field(object, "__function__", false, false);
+    ArgonObject *function_object = get_builtin_field(object, __function__);
     if (function_object)
       object = function_object;
   }
   if (object->type == TYPE_FUNCTION) {
-    if (argc != object->value.argon_fn.number_of_parameters) {
-      ArgonObject *type_object_name =
-          get_field_for_class(get_field(object, "__class__", false, false),
-                              "__name__", original_object);
+    if (argc != object->value.argon_fn->number_of_parameters) {
+      ArgonObject *type_object_name = get_builtin_field_for_class(
+          get_builtin_field(object, __class__), __name__, original_object);
       ArgonObject *object_name =
-          get_field_for_class(object, "__name__", original_object);
-      return create_err(
+          get_builtin_field_for_class(object, __name__, original_object);
+      *err = create_err(
           state->source_location.line, state->source_location.column,
           state->source_location.length, state->path, "Type Error",
           "%.*s %.*s takes %" PRIu64 " argument(s) but %" PRIu64 " was given",
-          (int)type_object_name->value.as_str.length,
-          type_object_name->value.as_str.data,
-          (int)object_name->value.as_str.length, object_name->value.as_str.data,
-          object->value.argon_fn.number_of_parameters, argc);
+          (int)type_object_name->value.as_str->length,
+          type_object_name->value.as_str->data,
+          (int)object_name->value.as_str->length,
+          object_name->value.as_str->data,
+          object->value.argon_fn->number_of_parameters, argc);
     }
-    Stack *scope = create_scope(object->value.argon_fn.stack);
+    Stack *scope = create_scope(object->value.argon_fn->stack, true);
     for (size_t i = 0; i < argc; i++) {
-      struct string_struct key = object->value.argon_fn.parameters[i];
+      struct string_struct key = object->value.argon_fn->parameters[i];
       ArgonObject *value = argv[i];
       uint64_t hash = siphash64_bytes(key.data, key.length, siphash_key);
       hashmap_insert_GC(scope->scope, hash,
-                        new_string_object(key.data, key.length), value, 0);
+                        new_string_object(key.data, key.length, 0, hash), value,
+                        0);
     }
     StackFrame new_stackFrame = {
-        {object->value.argon_fn.translated.registerCount,
+        {object->value.argon_fn->translated.registerCount,
+         object->value.argon_fn->translated.registerAssignment,
          NULL,
-         {object->value.argon_fn.bytecode, sizeof(uint8_t),
-          object->value.argon_fn.bytecode_length,
-          object->value.argon_fn.bytecode_length, false},
-         object->value.argon_fn.translated.constants,
-         object->value.argon_fn.translated.path},
-        {state->registers,
+         {object->value.argon_fn->bytecode, sizeof(uint8_t),
+          object->value.argon_fn->bytecode_length,
+          object->value.argon_fn->bytecode_length, false},
+         object->value.argon_fn->translated.constants,
+         object->value.argon_fn->translated.path},
+        {ar_alloc(object->value.argon_fn->translated.registerCount *
+                  sizeof(ArgonObject *)),
          0,
-         object->value.argon_fn.translated.path,
+         object->value.argon_fn->translated.path,
          NULL,
          state->currentStackFramePointer,
          {},
@@ -147,17 +151,17 @@ ArErr run_call(ArgonObject *original_object, size_t argc, ArgonObject **argv,
         scope,
         *state->currentStackFramePointer,
         (*state->currentStackFramePointer)->depth + 1};
-    if (CStackFrame) {
-      return runtime(new_stackFrame.translated, new_stackFrame.state, new_stackFrame.stack);
-    } else {
-      if (((*state->currentStackFramePointer)->depth + 1) % STACKFRAME_CHUNKS ==
-          0) {
-        *state->currentStackFramePointer =
-            ar_alloc(sizeof(StackFrame) * STACKFRAME_CHUNKS);
-      } else {
-        *state->currentStackFramePointer = *state->currentStackFramePointer + 1;
+    for (size_t i = 0; i < new_stackFrame.translated.registerCount; i++) {
+      new_stackFrame.state.registers[i] = NULL;
     }
-      **state->currentStackFramePointer = new_stackFrame;
+    if (CStackFrame) {
+      runtime(new_stackFrame.translated, new_stackFrame.state,
+              new_stackFrame.stack, err);
+      state->registers[0] = new_stackFrame.state.registers[0];
+    } else {
+      StackFrame *currentStackFrame = ar_alloc(sizeof(StackFrame));
+      *currentStackFrame = new_stackFrame;
+      *state->currentStackFramePointer = currentStackFrame;
       if ((*state->currentStackFramePointer)->depth >= 10000) {
         double logval =
             log10((double)(*state->currentStackFramePointer)->depth);
@@ -176,25 +180,23 @@ ArErr run_call(ArgonObject *original_object, size_t argc, ArgonObject **argv,
           }
         }
       };
-      return no_err;
+      return;
     }
   } else if (object->type == TYPE_NATIVE_FUNCTION) {
-    ArErr err = no_err;
-    state->registers[0] = object->value.native_fn(argc, argv, &err, state);
-    if (err.exists && strlen(err.path) == 0) {
-      err.line = state->source_location.line;
-      err.column = state->source_location.column;
-      err.length = state->source_location.length;
-      err.path = state->path;
+    state->registers[0] = object->value.native_fn(argc, argv, err, state);
+    if (err->exists && strlen(err->path) == 0) {
+      err->line = state->source_location.line;
+      err->column = state->source_location.column;
+      err->length = state->source_location.length;
+      strcpy(err->path, state->path);
     }
-    return err;
+    return;
   }
-  ArgonObject *type_object_name =
-      get_field_for_class(get_field(original_object, "__class__", false, false),
-                          "__name__", original_object);
-  return create_err(state->source_location.line, state->source_location.column,
+  ArgonObject *type_object_name = get_builtin_field_for_class(
+      get_builtin_field(original_object, __class__), __name__, original_object);
+  *err = create_err(state->source_location.line, state->source_location.column,
                     state->source_location.length, state->path, "Type Error",
                     "'%.*s' object is not callable",
-                    (int)type_object_name->value.as_str.length,
-                    type_object_name->value.as_str.data);
+                    (int)type_object_name->value.as_str->length,
+                    type_object_name->value.as_str->data);
 }

src/runtime/call/call.h

@@ -11,7 +11,7 @@
 ArgonObject *argon_call(ArgonObject *original_object, size_t argc,
                         ArgonObject **argv, ArErr *err, RuntimeState *state);
 
-ArErr run_call(ArgonObject *original_object, size_t argc, ArgonObject **argv,
-               RuntimeState *state, bool CStackFrame);
+void run_call(ArgonObject *original_object, size_t argc, ArgonObject **argv,
+              RuntimeState *state, bool CStackFrame, ArErr *err);
 
 #endif // runtime_call_H

src/runtime/declaration/declaration.c

@@ -6,18 +6,23 @@
 
 #include "declaration.h"
 
-ArErr runtime_declaration(Translated *translated, RuntimeState *state,
-                          struct Stack *stack) {
+void runtime_declaration(Translated *translated, RuntimeState *state,
+                         struct Stack *stack, ArErr *err) {
   int64_t length = pop_bytecode(translated, state);
   int64_t offset = pop_bytecode(translated, state);
   int64_t prehash = pop_bytecode(translated, state);
   int64_t from_register = pop_byte(translated, state);
-  uint64_t hash = runtime_hash(arena_get(&translated->constants, offset), length, prehash);
+  void *data = arena_get(&translated->constants, offset);
+  uint64_t hash = runtime_hash(data, length, prehash);
   ArgonObject *exists = hashmap_lookup_GC(stack->scope, hash);
   if (exists) {
-    return create_err(state->source_location.line, state->source_location.column, state->source_location.length, state->path, "Runtime Error", "Identifier '%.*s' has already been declared in the current scope", length, arena_get(&translated->constants, offset));
+    *err = create_err(
+        state->source_location.line, state->source_location.column,
+        state->source_location.length, state->path, "Runtime Error",
+        "Identifier '%.*s' has already been declared in the current scope",
+        length, arena_get(&translated->constants, offset));
   }
-  ArgonObject * key = new_string_object(arena_get(&translated->constants, offset), length);
-  hashmap_insert_GC(stack->scope, hash, key, state->registers[from_register], 0);
-  return no_err;
+  ArgonObject *key = new_string_object(data, length, prehash, hash);
+  hashmap_insert_GC(stack->scope, hash, key, state->registers[from_register],
+                    0);
 }

src/runtime/declaration/declaration.h

@@ -9,7 +9,7 @@
 #include "../runtime.h"
 #include "../objects/string/string.h"
 
-ArErr runtime_declaration(Translated *translated, RuntimeState *state,
-                          struct Stack *stack);
+void runtime_declaration(Translated *translated, RuntimeState *state,
+                         struct Stack *stack, ArErr *err);
 
 #endif // runtime_declaration_H

src/runtime/internals/hashmap/hashmap.c

@@ -10,23 +10,58 @@
 #include <gc/gc.h>
 #include <stddef.h>
 #include <stdint.h>
+#include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 
 struct hashmap_GC *createHashmap_GC() {
-  size_t size = 8;
   struct hashmap_GC *t =
       (struct hashmap_GC *)ar_alloc(sizeof(struct hashmap_GC));
-  t->size = size;
+  t->size = 0;
   t->order = 1;
-  t->list = (struct node_GC **)ar_alloc(sizeof(struct node_GC *) * size);
-  memset(t->list, 0, sizeof(struct node_GC *) * size);
+  t->list = NULL;
+  t->hashmap_count = 0;
+  t->count = 0;
+  t->inline_count = 0;
   return t;
 }
+void hashmap_GC_to_array(struct hashmap_GC *t, struct node_GC**array,
+                           size_t *array_length) {
+  size_t array_size = 8;
+  *array_length = 0;
+  *array = ar_alloc(array_size * sizeof(struct node_GC));
+  for (size_t i = 0; i < t->inline_count; i++) {
+    if (*array_length >=array_size) {
+      array_size*=2;
+      *array=ar_realloc(*array, array_size * sizeof(struct node_GC));
+    }
+    (*array)[(*array_length)++] = t->inline_values[i];
+  }
+  for (size_t i = 0; i < t->size; i++) {
+    if (!t->list[i]) continue;
+    if (*array_length >=array_size) {
+      array_size*=2;
+      *array=ar_realloc(*array, array_size * sizeof(struct node_GC));
+    }
+    (*array)[(*array_length)++] = *t->list[i];
+  }
+}
+
+void clear_hashmap_GC(struct hashmap_GC *t) {
+  if (!t->count)
+    return;
+  t->order = 1;
+  t->count = 0;
+  t->inline_count = 0;
+  t->hashmap_count = 0;
+  memset(t->list, 0, sizeof(struct node_GC *) * t->size);
+}
 
 void resize_hashmap_GC(struct hashmap_GC *t) {
   int old_size = t->size;
   int new_size = old_size * 2;
+  if (new_size == 0)
+    new_size = 8;
 
   struct node_GC **old_list = t->list;
 
@@ -35,8 +70,9 @@ void resize_hashmap_GC(struct hashmap_GC *t) {
   memset(t->list, 0, sizeof(struct node_GC *) * new_size);
 
   t->size = new_size;
-  t->count = 0;
-
+  if (!old_list)
+    return;
+  t->hashmap_count = 0;
   // Rehash old entries into new list
   for (int i = 0; i < old_size; i++) {
     struct node_GC *temp = old_list[i];
@@ -53,6 +89,17 @@ int hashCode_GC(struct hashmap_GC *t, uint64_t hash) {
 }
 
 int hashmap_remove_GC(struct hashmap_GC *t, uint64_t hash) {
+  for (size_t i = 0; i < t->inline_count; i++) {
+    if (t->inline_values[i].hash == hash) {
+      size_t length = t->inline_count - i;
+      if (length > 1) {
+        memmove(&t->inline_values[i], &t->inline_values[i + 1],
+                (length - 1) * sizeof(struct node_GC));
+      }
+      t->inline_count--;
+      return 1;
+    }
+  }
   int pos = hashCode_GC(t, hash);
   struct node_GC *list = t->list[pos];
   struct node_GC *temp = list;
@@ -68,9 +115,6 @@ int hashmap_remove_GC(struct hashmap_GC *t, uint64_t hash) {
     prev = temp;
     temp = temp->next;
   }
-  list = NULL;
-  prev = NULL;
-  temp = NULL;
   return 0;
 }
 
@@ -79,7 +123,22 @@ void hashmap_insert_GC(struct hashmap_GC *t, uint64_t hash, void *key,
   if (!order) {
     order = t->order++;
   }
-  if ((t->count + 1) > t->size * 0.75) {
+  for (size_t i = 0; i < t->inline_count; i++) {
+    if (t->inline_values[i].hash == hash) {
+      t->inline_values[i].val = val;
+      return;
+    }
+  }
+  if (!t->list && t->inline_count < INLINE_HASHMAP_ARRAY_SIZE) {
+    t->inline_values[t->inline_count].hash = hash;
+    t->inline_values[t->inline_count].key = key;
+    t->inline_values[t->inline_count].val = val;
+    t->inline_values[t->inline_count].order = order;
+    t->inline_count++;
+    t->count++;
+    return;
+  }
+  if ((t->hashmap_count + 1) > t->size * 0.75) {
     resize_hashmap_GC(t);
   }
 
@@ -104,10 +163,18 @@ void hashmap_insert_GC(struct hashmap_GC *t, uint64_t hash, void *key,
   newNode->order = order;
   newNode->next = list;
   t->list[pos] = newNode;
+  t->hashmap_count++;
   t->count++;
 }
 
 void *hashmap_lookup_GC(struct hashmap_GC *t, uint64_t hash) {
+  size_t stop = t->inline_count;
+  for (size_t i = 0; i < stop; i++) {
+    if (t->inline_values[i].hash == hash)
+      return t->inline_values[i].val;
+  }
+  if (!t->list)
+    return NULL;
   int pos = hashCode_GC(t, hash);
   struct node_GC *list = t->list[pos];
   struct node_GC *temp = list;

src/runtime/internals/hashmap/hashmap.h

@@ -6,9 +6,12 @@
 
 #ifndef HASHMAP_GC_H
 #define HASHMAP_GC_H
+#include <stddef.h>
 #include <stdint.h>
 #include <stdlib.h>
 
+#define INLINE_HASHMAP_ARRAY_SIZE 3
+
 struct node_GC {
   uint64_t hash;
   void *key;
@@ -18,13 +21,21 @@ struct node_GC {
 };
 struct hashmap_GC {
   size_t size;
+  struct node_GC inline_values[INLINE_HASHMAP_ARRAY_SIZE];
   size_t count;
+  size_t inline_count;
+  size_t hashmap_count;
   size_t order;
   struct node_GC **list;
 };
 
 struct hashmap_GC *createHashmap_GC();
 
+void clear_hashmap_GC(struct hashmap_GC *t);
+
+void hashmap_GC_to_array(struct hashmap_GC *t, struct node_GC**array,
+                           size_t *array_length);
+
 int hashCode_GC(struct hashmap_GC *t, uint64_t hash);
 
 int hashmap_remove_GC(struct hashmap_GC *t, uint64_t hash);

src/runtime/objects/dictionary/dictionary.c

@@ -0,0 +1,195 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+#include "dictionary.h"
+#include "../../call/call.h"
+#include "../functions/functions.h"
+#include "../literals/literals.h"
+#include "../string/string.h"
+#include <inttypes.h>
+#include <stddef.h>
+#include <stdint.h>
+#include <stdlib.h>
+#include <string.h>
+
+ArgonObject *ARGON_DICTIONARY_TYPE = NULL;
+
+ArgonObject *create_ARGON_DICTIONARY_TYPE___init__(size_t argc,
+                                                   ArgonObject **argv,
+                                                   ArErr *err,
+                                                   RuntimeState *state) {
+  (void)state;
+  if (argc != 1) {
+    *err = create_err(0, 0, 0, "", "Runtime Error",
+                      "__init__ expects 1 argument, got %" PRIu64, argc);
+    return ARGON_NULL;
+  }
+  ArgonObject *object = argv[0];
+  object->type = TYPE_DICTIONARY;
+  object->value.as_hashmap = createHashmap_GC();
+  return object;
+}
+
+ArgonObject *create_ARGON_DICTIONARY_TYPE___string__(size_t argc,
+                                                     ArgonObject **argv,
+                                                     ArErr *err,
+                                                     RuntimeState *state) {
+  (void)state;
+  if (argc != 1) {
+    *err = create_err(0, 0, 0, "", "Runtime Error",
+                      "__init__ expects 1 argument, got %" PRIu64, argc);
+    return ARGON_NULL;
+  }
+  ArgonObject *object = argv[0];
+  size_t string_length = 0;
+  char *string = NULL;
+  struct node_GC *keys;
+  size_t keys_length;
+  hashmap_GC_to_array(object->value.as_hashmap, &keys, &keys_length);
+  char *string_obj = "{";
+  size_t length = strlen(string_obj);
+  string = realloc(string, string_length + length);
+  memcpy(string + string_length, string_obj, length);
+  string_length += length;
+  for (size_t i = 0; i < keys_length; i++) {
+    struct node_GC node = keys[i];
+    ArgonObject *key = node.key;
+    ArgonObject *value = node.val;
+
+    ArgonObject *string_convert_method = get_builtin_field_for_class(
+        get_builtin_field(key, __class__), __repr__, key);
+
+    if (string_convert_method) {
+      ArgonObject *string_object =
+          argon_call(string_convert_method, 0, NULL, err, state);
+      string =
+          realloc(string, string_length + string_object->value.as_str->length);
+      memcpy(string + string_length, string_object->value.as_str->data,
+             string_object->value.as_str->length);
+      string_length += string_object->value.as_str->length;
+    } else {
+      char *string_obj = "<object>";
+      size_t length = strlen(string_obj);
+      string = realloc(string, string_length + length);
+      memcpy(string + string_length, string_obj, length);
+      string_length += length;
+    }
+
+    char *string_obj = ": ";
+    size_t length = strlen(string_obj);
+    string = realloc(string, string_length + length);
+    memcpy(string + string_length, string_obj, length);
+    string_length += length;
+
+    string_convert_method = get_builtin_field_for_class(
+        get_builtin_field(value, __class__), __repr__, value);
+
+    if (string_convert_method && value != object) {
+      ArgonObject *string_object =
+          argon_call(string_convert_method, 0, NULL, err, state);
+      string =
+          realloc(string, string_length + string_object->value.as_str->length);
+      memcpy(string + string_length, string_object->value.as_str->data,
+             string_object->value.as_str->length);
+      string_length += string_object->value.as_str->length;
+    } else {
+      char *string_obj = "{...}";
+      size_t length = strlen(string_obj);
+      string = realloc(string, string_length + length);
+      memcpy(string + string_length, string_obj, length);
+      string_length += length;
+    }
+
+    if (i != keys_length - 1) {
+      char *string_obj = ", ";
+      size_t length = strlen(string_obj);
+      string = realloc(string, string_length + length);
+      memcpy(string + string_length, string_obj, length);
+      string_length += length;
+    }
+  }
+  string_obj = "}";
+  length = strlen(string_obj);
+  string = realloc(string, string_length + length);
+  memcpy(string + string_length, string_obj, length);
+  string_length += length;
+  ArgonObject* result = new_string_object(string, string_length, 0, 0);
+  free(string);
+  return result;
+}
+
+ArgonObject *create_ARGON_DICTIONARY_TYPE___get_attr__(size_t argc,
+                                                       ArgonObject **argv,
+                                                       ArErr *err,
+                                                       RuntimeState *state) {
+  (void)state;
+  if (argc != 2) {
+    *err = create_err(0, 0, 0, "", "Runtime Error",
+                      "__get_attr__ expects 2 argument, got %" PRIu64, argc);
+    return ARGON_NULL;
+  }
+  ArgonObject *object = argv[0];
+  ArgonObject *key = argv[1];
+  int64_t hash = hash_object(key, err, state);
+  if (err->exists) {
+    return ARGON_NULL;
+  }
+  ArgonObject *result = hashmap_lookup_GC(object->value.as_hashmap, hash);
+  if (!result) {
+    *err = create_err(0, 0, 0, NULL, "Attribute Error",
+                      "Dictionary has no attribute '%.*s'", key->value.as_str->length, key->value.as_str->data);
+    return ARGON_NULL;
+  }
+  return result;
+}
+
+
+ArgonObject *create_ARGON_DICTIONARY_TYPE___set_attr__(size_t argc,
+                                                       ArgonObject **argv,
+                                                       ArErr *err,
+                                                       RuntimeState *state) {
+  (void)state;
+  if (argc != 3) {
+    *err = create_err(0, 0, 0, "", "Runtime Error",
+                      "__set_attr__ expects 2 argument, got %" PRIu64, argc);
+    return ARGON_NULL;
+  }
+  ArgonObject *object = argv[0];
+  ArgonObject *key = argv[1];
+  ArgonObject *value = argv[2];
+  int64_t hash = hash_object(key, err, state);
+  if (err->exists) {
+    return ARGON_NULL;
+  }
+  hashmap_insert_GC(object->value.as_hashmap, hash, key, value, 0);
+  return value;
+}
+
+void create_ARGON_DICTIONARY_TYPE() {
+  ARGON_DICTIONARY_TYPE = new_class();
+  add_builtin_field(ARGON_DICTIONARY_TYPE, __name__,
+                    new_string_object_null_terminated("dictionary"));
+  add_builtin_field(ARGON_DICTIONARY_TYPE, __init__,
+                    create_argon_native_function(
+                        "__init__", create_ARGON_DICTIONARY_TYPE___init__));
+  add_builtin_field(
+      ARGON_DICTIONARY_TYPE, __get_attr__,
+      create_argon_native_function("__get_attr__",
+                                   create_ARGON_DICTIONARY_TYPE___get_attr__));
+  add_builtin_field(
+      ARGON_DICTIONARY_TYPE, __set_attr__,
+      create_argon_native_function("__set_attr__",
+                                   create_ARGON_DICTIONARY_TYPE___set_attr__));
+  add_builtin_field(ARGON_DICTIONARY_TYPE, __string__,
+                    create_argon_native_function(
+                        "__string__", create_ARGON_DICTIONARY_TYPE___string__));
+}
+
+ArgonObject *create_dictionary(struct hashmap_GC *hashmap) {
+  ArgonObject *object = new_instance(ARGON_DICTIONARY_TYPE);
+  object->type = TYPE_DICTIONARY;
+  object->value.as_hashmap = hashmap;
+  return object;
+}

src/runtime/objects/dictionary/dictionary.h

@@ -0,0 +1,17 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+#ifndef DICTIONARY_H
+#define DICTIONARY_H
+#include "../object.h"
+
+extern ArgonObject *ARGON_DICTIONARY_TYPE;
+
+void create_ARGON_DICTIONARY_TYPE();
+
+ArgonObject* create_dictionary(struct hashmap_GC*hashmap);
+
+#endif // DICTIONARY_H

src/runtime/objects/functions/functions.c

@@ -7,44 +7,48 @@
 #include "../../runtime.h"
 #include "../object.h"
 #include "../string/string.h"
-#include <stdio.h>
 #include <stddef.h>
 #include <stdint.h>
+#include <stdio.h>
 #include <string.h>
 
 ArgonObject *ARGON_FUNCTION_TYPE = NULL;
 
 ArgonObject *create_argon_native_function(char *name, native_fn native_fn) {
-  ArgonObject *object = new_object();
-  add_field(object, "__class__", ARGON_FUNCTION_TYPE);
+  ArgonObject *object = new_instance(ARGON_FUNCTION_TYPE);
   object->type = TYPE_NATIVE_FUNCTION;
-  add_field(object, "__name__", new_string_object(name, strlen(name)));
+  add_builtin_field(object, __name__,
+                    new_string_object(name, strlen(name), 0, 0));
   object->value.native_fn = native_fn;
   return object;
 }
 
 void load_argon_function(Translated *translated, RuntimeState *state,
                          struct Stack *stack) {
-  ArgonObject *object = new_object();
-  add_field(object, "__class__", ARGON_FUNCTION_TYPE);
+  ArgonObject *object = new_instance(ARGON_FUNCTION_TYPE);
   object->type = TYPE_FUNCTION;
   uint64_t offset = pop_bytecode(translated, state);
   uint64_t length = pop_bytecode(translated, state);
-  add_field(object, "__name__", new_string_object(arena_get(&translated->constants, offset), length));
-  object->value.argon_fn.translated = *translated;
-  object->value.argon_fn.number_of_parameters = pop_bytecode(translated, state);
-  object->value.argon_fn.parameters =
-      ar_alloc(object->value.argon_fn.number_of_parameters * sizeof(struct string_struct));
-  for (size_t i = 0; i < object->value.argon_fn.number_of_parameters; i++) {
+  add_builtin_field(object, __name__,
+                    new_string_object(arena_get(&translated->constants, offset),
+                                      length, 0, 0));
+  object->value.argon_fn = ar_alloc(sizeof(struct argon_function_struct));
+  object->value.argon_fn->translated = *translated;
+  object->value.argon_fn->number_of_parameters = pop_bytecode(translated, state);
+  object->value.argon_fn->parameters =
+      ar_alloc(object->value.argon_fn->number_of_parameters *
+               sizeof(struct string_struct));
+  for (size_t i = 0; i < object->value.argon_fn->number_of_parameters; i++) {
     offset = pop_bytecode(translated, state);
     length = pop_bytecode(translated, state);
-    object->value.argon_fn.parameters[i].data = arena_get(&translated->constants, offset);
-    object->value.argon_fn.parameters[i].length = length;
+    object->value.argon_fn->parameters[i].data =
+        arena_get(&translated->constants, offset);
+    object->value.argon_fn->parameters[i].length = length;
   }
   offset = pop_bytecode(translated, state);
   length = pop_bytecode(translated, state);
-  object->value.argon_fn.bytecode = arena_get(&translated->constants, offset);
-  object->value.argon_fn.bytecode_length = length;
-  object->value.argon_fn.stack = stack;
+  object->value.argon_fn->bytecode = arena_get(&translated->constants, offset);
+  object->value.argon_fn->bytecode_length = length;
+  object->value.argon_fn->stack = stack;
   state->registers[0] = object;
 }

src/runtime/objects/number/number.c

@@ -36,8 +36,8 @@ ArgonObject *ARGON_NUMBER_TYPE___new__(size_t argc, ArgonObject **argv,
   ArgonObject *object = argv[1];
 
   self->type = TYPE_STRING;
-  ArgonObject *boolean_convert_method = get_field_for_class(
-      get_field(object, "__class__", false, false), "__number__", object);
+  ArgonObject *boolean_convert_method = get_builtin_field_for_class(
+      get_builtin_field(object, __class__), __number__, object);
   if (boolean_convert_method) {
     ArgonObject *boolean_object =
         argon_call(boolean_convert_method, 0, NULL, err, state);
@@ -45,11 +45,11 @@ ArgonObject *ARGON_NUMBER_TYPE___new__(size_t argc, ArgonObject **argv,
       return ARGON_NULL;
     return boolean_object;
   }
-  ArgonObject *type_name = get_field_for_class(
-      get_field(object, "__class__", false, false), "__name__", object);
+  ArgonObject *type_name = get_builtin_field_for_class(
+      get_builtin_field(object, __class__), __name__, object);
   *err = create_err(
       0, 0, 0, "", "Runtime Error", "cannot convert type '%.*s' to number",
-      type_name->value.as_str.length, type_name->value.as_str.data);
+      type_name->value.as_str->length, type_name->value.as_str->data);
   return ARGON_NULL;
 }
 
@@ -72,8 +72,7 @@ ArgonObject *ARGON_NUMBER_TYPE___boolean__(size_t argc, ArgonObject **argv,
                       "__boolean__ expects 1 arguments, got %" PRIu64, argc);
     return ARGON_NULL;
   }
-  return mpq_cmp_si(*argv[0]->value.as_number, 0, 1) == 0 ? ARGON_FALSE
-                                                          : ARGON_TRUE;
+  return argv[0]->as_bool ? ARGON_FALSE : ARGON_TRUE;
 }
 
 ArgonObject *ARGON_NUMBER_TYPE___add__(size_t argc, ArgonObject **argv,
@@ -85,20 +84,58 @@ ArgonObject *ARGON_NUMBER_TYPE___add__(size_t argc, ArgonObject **argv,
     return ARGON_NULL;
   }
   if (argv[1]->type != TYPE_NUMBER) {
-    ArgonObject *type_name = get_field_for_class(
-        get_field(argv[1], "__class__", false, false), "__name__", argv[1]);
-    *err = create_err(0, 0, 0, "", "Runtime Error",
+    ArgonObject *type_name = get_builtin_field_for_class(
+        get_builtin_field(argv[1], __class__), __name__, argv[1]);
+    *err = create_err(
+        0, 0, 0, "", "Runtime Error",
         "__add__ cannot perform addition between a number and %.*s",
-                      type_name->value.as_str.length,
-                      type_name->value.as_str.data);
+        type_name->value.as_str->length, type_name->value.as_str->data);
     return ARGON_NULL;
   }
+  if (argv[0]->value.as_number->is_int64 && argv[1]->value.as_number->is_int64) {
+    int64_t a = argv[0]->value.as_number->n.i64;
+    int64_t b = argv[1]->value.as_number->n.i64;
+    bool gonna_overflow = (a > 0 && b > 0 && a > INT64_MAX - b) ||
+                          (a < 0 && b < 0 && a < INT64_MIN - b);
+    if (!gonna_overflow) {
+      return new_number_object_from_int64(a + b);
+    }
+    mpq_t a_GMP, b_GMP;
+    mpq_init(a_GMP);
+    mpq_init(b_GMP);
+    mpq_set_si(a_GMP, a, 1);
+    mpq_set_si(b_GMP, b, 1);
+    mpq_add(a_GMP, a_GMP, b_GMP);
+    ArgonObject *result = new_number_object(a_GMP);
+    mpq_clear(a_GMP);
+    mpq_clear(b_GMP);
+    return result;
+  } else if (!argv[0]->value.as_number->is_int64 &&
+             !argv[1]->value.as_number->is_int64) {
     mpq_t r;
     mpq_init(r);
-  mpq_add(r, *argv[0]->value.as_number, *argv[1]->value.as_number);
+    mpq_add(r, *argv[0]->value.as_number->n.mpq,
+            *argv[1]->value.as_number->n.mpq);
     ArgonObject *result = new_number_object(r);
     mpq_clear(r);
     return result;
+  } else {
+    mpq_t a_GMP, b_GMP;
+    mpq_init(a_GMP);
+    mpq_init(b_GMP);
+    if (argv[0]->value.as_number->is_int64) {
+      mpq_set_si(a_GMP, argv[0]->value.as_number->n.i64, 1);
+      mpq_set(b_GMP, *argv[1]->value.as_number->n.mpq);
+    } else {
+      mpq_set(a_GMP, *argv[0]->value.as_number->n.mpq);
+      mpq_set_si(b_GMP, argv[1]->value.as_number->n.i64, 1);
+    }
+    mpq_add(a_GMP, a_GMP, b_GMP);
+    ArgonObject *result = new_number_object(a_GMP);
+    mpq_clear(a_GMP);
+    mpq_clear(b_GMP);
+    return result;
+  }
 }
 
 ArgonObject *ARGON_NUMBER_TYPE___subtract__(size_t argc, ArgonObject **argv,
@@ -109,21 +146,189 @@ ArgonObject *ARGON_NUMBER_TYPE___subtract__(size_t argc, ArgonObject **argv,
                       "__subtract__ expects 2 arguments, got %" PRIu64, argc);
     return ARGON_NULL;
   }
-  mpq_t r;
-  mpq_init(r);
   if (argv[1]->type != TYPE_NUMBER) {
-    ArgonObject *type_name = get_field_for_class(
-        get_field(argv[1], "__class__", false, false), "__name__", argv[1]);
-    *err = create_err(0, 0, 0, "", "Runtime Error",
+    ArgonObject *type_name = get_builtin_field_for_class(
+        get_builtin_field(argv[1], __class__), __name__, argv[1]);
+    *err = create_err(
+        0, 0, 0, "", "Runtime Error",
         "__subtract__ cannot perform subtraction between number and %.*s",
-                      type_name->value.as_str.length,
-                      type_name->value.as_str.data);
+        type_name->value.as_str->length, type_name->value.as_str->data);
     return ARGON_NULL;
   }
-  mpq_sub(r, *argv[0]->value.as_number, *argv[1]->value.as_number);
+
+  if (argv[0]->value.as_number->is_int64 && argv[1]->value.as_number->is_int64) {
+    int64_t a = argv[0]->value.as_number->n.i64;
+    int64_t b = argv[1]->value.as_number->n.i64;
+    int64_t neg_a = -a;
+    bool gonna_overflow = (neg_a > 0 && b > 0 && b > INT64_MAX - neg_a) ||
+                          (neg_a < 0 && b < 0 && b < INT64_MIN - neg_a);
+    if (!gonna_overflow) {
+      return new_number_object_from_int64(a - b);
+    }
+    mpq_t a_GMP, b_GMP;
+    mpq_init(a_GMP);
+    mpq_init(b_GMP);
+    mpq_set_si(a_GMP, a, 1);
+    mpq_set_si(b_GMP, b, 1);
+    mpq_sub(a_GMP, a_GMP, b_GMP);
+    ArgonObject *result = new_number_object(a_GMP);
+    mpq_clear(a_GMP);
+    mpq_clear(b_GMP);
+    return result;
+  } else if (!argv[0]->value.as_number->is_int64 &&
+             !argv[1]->value.as_number->is_int64) {
+    mpq_t r;
+    mpq_init(r);
+    mpq_sub(r, *argv[0]->value.as_number->n.mpq,
+            *argv[1]->value.as_number->n.mpq);
     ArgonObject *result = new_number_object(r);
     mpq_clear(r);
     return result;
+  } else {
+    mpq_t a_GMP, b_GMP;
+    mpq_init(a_GMP);
+    mpq_init(b_GMP);
+    if (argv[0]->value.as_number->is_int64) {
+      mpq_set_si(a_GMP, argv[0]->value.as_number->n.i64, 1);
+      mpq_set(b_GMP, *argv[1]->value.as_number->n.mpq);
+    } else {
+      mpq_set(a_GMP, *argv[0]->value.as_number->n.mpq);
+      mpq_set_si(b_GMP, argv[1]->value.as_number->n.i64, 1);
+    }
+    mpq_sub(a_GMP, a_GMP, b_GMP);
+    ArgonObject *result = new_number_object(a_GMP);
+    mpq_clear(a_GMP);
+    mpq_clear(b_GMP);
+    return result;
+  }
+}
+
+ArgonObject *ARGON_NUMBER_TYPE___multiply__(size_t argc, ArgonObject **argv,
+                                            ArErr *err, RuntimeState *state) {
+  (void)state;
+  if (argc != 2) {
+    *err = create_err(0, 0, 0, "", "Runtime Error",
+                      "__multiply__ expects 2 arguments, got %" PRIu64, argc);
+    return ARGON_NULL;
+  }
+  if (argv[1]->type != TYPE_NUMBER) {
+    ArgonObject *type_name = get_builtin_field_for_class(
+        get_builtin_field(argv[1], __class__), __name__, argv[1]);
+    *err = create_err(
+        0, 0, 0, "", "Runtime Error",
+        "__multiply__ cannot perform multiplication between number and %.*s",
+        type_name->value.as_str->length, type_name->value.as_str->data);
+    return ARGON_NULL;
+  }
+
+  if (argv[0]->value.as_number->is_int64 && argv[1]->value.as_number->is_int64) {
+    int64_t a = argv[0]->value.as_number->n.i64;
+    int64_t b = argv[1]->value.as_number->n.i64;
+    bool gonna_overflow =
+        a > 0 ? (b > 0 ? a > INT64_MAX / b : b < INT64_MIN / a)
+              : (b > 0 ? a < INT64_MIN / b : a != 0 && b < INT64_MAX / a);
+    if (!gonna_overflow) {
+      return new_number_object_from_int64(a * b);
+    }
+    mpq_t a_GMP, b_GMP;
+    mpq_init(a_GMP);
+    mpq_init(b_GMP);
+    mpq_set_si(a_GMP, a, 1);
+    mpq_set_si(b_GMP, b, 1);
+    mpq_mul(a_GMP, a_GMP, b_GMP);
+    ArgonObject *result = new_number_object(a_GMP);
+    mpq_clear(a_GMP);
+    mpq_clear(b_GMP);
+    return result;
+  } else if (!argv[0]->value.as_number->is_int64 &&
+             !argv[1]->value.as_number->is_int64) {
+    mpq_t r;
+    mpq_init(r);
+    mpq_mul(r, *argv[0]->value.as_number->n.mpq,
+            *argv[1]->value.as_number->n.mpq);
+    ArgonObject *result = new_number_object(r);
+    mpq_clear(r);
+    return result;
+  } else {
+    mpq_t a_GMP, b_GMP;
+    mpq_init(a_GMP);
+    mpq_init(b_GMP);
+    if (argv[0]->value.as_number->is_int64) {
+      mpq_set_si(a_GMP, argv[0]->value.as_number->n.i64, 1);
+      mpq_set(b_GMP, *argv[1]->value.as_number->n.mpq);
+    } else {
+      mpq_set(a_GMP, *argv[0]->value.as_number->n.mpq);
+      mpq_set_si(b_GMP, argv[1]->value.as_number->n.i64, 1);
+    }
+    mpq_mul(a_GMP, a_GMP, b_GMP);
+    ArgonObject *result = new_number_object(a_GMP);
+    mpq_clear(a_GMP);
+    mpq_clear(b_GMP);
+    return result;
+  }
+}
+
+ArgonObject *ARGON_NUMBER_TYPE___division__(size_t argc, ArgonObject **argv,
+                                            ArErr *err, RuntimeState *state) {
+  (void)state;
+  if (argc != 2) {
+    *err = create_err(0, 0, 0, "", "Runtime Error",
+                      "__division__ expects 2 arguments, got %" PRIu64, argc);
+    return ARGON_NULL;
+  }
+  if (argv[1]->type != TYPE_NUMBER) {
+    ArgonObject *type_name = get_builtin_field_for_class(
+        get_builtin_field(argv[1], __class__), __name__, argv[1]);
+    *err = create_err(
+        0, 0, 0, "", "Runtime Error",
+        "__division__ cannot perform division between number and %.*s",
+        type_name->value.as_str->length, type_name->value.as_str->data);
+    return ARGON_NULL;
+  }
+  if (argv[0]->value.as_number->is_int64 && argv[1]->value.as_number->is_int64) {
+    int64_t a = argv[0]->value.as_number->n.i64;
+    int64_t b = argv[1]->value.as_number->n.i64;
+    if (!b) {
+      *err =
+          create_err(state->source_location.line, state->source_location.column,
+                     state->source_location.length, state->path,
+                     "Zero Division Error", "division by zero");
+      return NULL;
+    }
+    return new_number_object_from_num_and_den(a, b);
+  } else if (!argv[0]->value.as_number->is_int64 &&
+             !argv[1]->value.as_number->is_int64) {
+    mpq_t r;
+    mpq_init(r);
+    mpq_div(r, *argv[0]->value.as_number->n.mpq,
+            *argv[1]->value.as_number->n.mpq);
+    ArgonObject *result = new_number_object(r);
+    mpq_clear(r);
+    return result;
+  } else {
+    mpq_t a_GMP, b_GMP;
+    mpq_init(a_GMP);
+    mpq_init(b_GMP);
+    if (argv[0]->value.as_number->is_int64) {
+      mpq_set_si(a_GMP, argv[0]->value.as_number->n.i64, 1);
+      mpq_set(b_GMP, *argv[1]->value.as_number->n.mpq);
+    } else {
+      mpq_set(a_GMP, *argv[0]->value.as_number->n.mpq);
+      if (!argv[1]->value.as_number->n.i64) {
+        *err = create_err(state->source_location.line,
+                          state->source_location.column,
+                          state->source_location.length, state->path,
+                          "Zero Division Error", "division by zero");
+        return NULL;
+      }
+      mpq_set_si(b_GMP, argv[1]->value.as_number->n.i64, 1);
+    }
+    mpq_div(a_GMP, a_GMP, b_GMP);
+    ArgonObject *result = new_number_object(a_GMP);
+    mpq_clear(a_GMP);
+    mpq_clear(b_GMP);
+    return result;
+  }
 }
 
 ArgonObject *ARGON_NUMBER_TYPE___string__(size_t argc, ArgonObject **argv,
@@ -135,7 +340,13 @@ ArgonObject *ARGON_NUMBER_TYPE___string__(size_t argc, ArgonObject **argv,
     return NULL;
   }
 
-  mpq_t *num = argv[0]->value.as_number;
+  if (argv[0]->value.as_number->is_int64) {
+    char buf[32];
+    snprintf(buf, sizeof(buf), "%" PRId64, argv[0]->value.as_number->n.i64);
+    return new_string_object_null_terminated(buf);
+  }
+
+  mpq_t *num = argv[0]->value.as_number->n.mpq;
 
   /* If denominator == 1, print numerator as full integer */
   if (mpz_cmp_ui(mpq_denref(*num), 1) == 0) {
@@ -277,33 +488,60 @@ ArgonObject *ARGON_NUMBER_TYPE___string__(size_t argc, ArgonObject **argv,
   return result;
 }
 
+#define small_ints_min -256
+#define small_ints_max 256
+ArgonObject small_ints[small_ints_max - small_ints_min + 1];
+struct as_number small_ints_as_number[small_ints_max - small_ints_min + 1];
+
+void init_small_ints() {
+  for (int64_t i = 0; i <= small_ints_max - small_ints_min; i++) {
+    int64_t n = i + small_ints_min;
+    small_ints[i].type = TYPE_NUMBER;
+    small_ints[i].built_in_slot_length = 0;
+    small_ints[i].dict = NULL;
+    small_ints[i].value.as_number = &small_ints_as_number[i];
+    add_builtin_field(&small_ints[i], __class__, ARGON_NUMBER_TYPE);
+    small_ints[i].value.as_number->is_int64 = true;
+    small_ints[i].value.as_number->n.i64 = n;
+    small_ints[i].as_bool = n;
+  }
+}
+
 void create_ARGON_NUMBER_TYPE() {
-  ARGON_NUMBER_TYPE = new_object();
-  add_field(ARGON_NUMBER_TYPE, "__name__",
+  ARGON_NUMBER_TYPE = new_class();
+  add_builtin_field(ARGON_NUMBER_TYPE, __name__,
                     new_string_object_null_terminated("number"));
-  add_field(
-      ARGON_NUMBER_TYPE, "__string__",
+  add_builtin_field(
+      ARGON_NUMBER_TYPE, __string__,
       create_argon_native_function("__string__", ARGON_NUMBER_TYPE___string__));
-  add_field(ARGON_NUMBER_TYPE, "__new__",
+  add_builtin_field(
+      ARGON_NUMBER_TYPE, __new__,
       create_argon_native_function("__new__", ARGON_NUMBER_TYPE___new__));
-  add_field(
-      ARGON_NUMBER_TYPE, "__number__",
+  add_builtin_field(
+      ARGON_NUMBER_TYPE, __number__,
       create_argon_native_function("__number__", ARGON_NUMBER_TYPE___number__));
-  add_field(ARGON_NUMBER_TYPE, "__boolean__",
-            create_argon_native_function("__boolean__",
-                                         ARGON_NUMBER_TYPE___boolean__));
-  add_field(ARGON_NUMBER_TYPE, "__add__",
-            create_argon_native_function("__add__",
-                                         ARGON_NUMBER_TYPE___add__));
-  add_field(ARGON_NUMBER_TYPE, "__subtract__",
-            create_argon_native_function("__subtract__",
-                                         ARGON_NUMBER_TYPE___subtract__));
+  add_builtin_field(ARGON_NUMBER_TYPE, __boolean__,
+                    create_argon_native_function(
+                        "__boolean__", ARGON_NUMBER_TYPE___boolean__));
+  add_builtin_field(
+      ARGON_NUMBER_TYPE, __add__,
+      create_argon_native_function("__add__", ARGON_NUMBER_TYPE___add__));
+  add_builtin_field(ARGON_NUMBER_TYPE, __subtract__,
+                    create_argon_native_function(
+                        "__subtract__", ARGON_NUMBER_TYPE___subtract__));
+  add_builtin_field(ARGON_NUMBER_TYPE, __multiply__,
+                    create_argon_native_function(
+                        "__multiply__", ARGON_NUMBER_TYPE___multiply__));
+  add_builtin_field(ARGON_NUMBER_TYPE, __divide__,
+                    create_argon_native_function(
+                        "__division__", ARGON_NUMBER_TYPE___division__));
+  init_small_ints();
 }
 
 void mpz_init_gc_managed(mpz_t z, size_t limbs_count) {
   z->_mp_alloc = limbs_count;
   z->_mp_size = 0;
-  z->_mp_d = ar_alloc(limbs_count * sizeof(mp_limb_t));
+  z->_mp_d = ar_alloc_atomic(limbs_count * sizeof(mp_limb_t));
 }
 
 void mpq_init_gc_managed(mpq_t q, size_t num_limbs, size_t den_limbs) {
@@ -337,40 +575,129 @@ mpq_t *mpq_new_gc_from(const mpq_t src) {
   return dest;
 }
 
+bool mpq_to_int64(mpq_t q, int64_t *out) {
+  // Check denominator == 1
+  if (mpz_cmp_ui(mpq_denref(q), 1) != 0) {
+    return false;
+  }
+
+  // Get numerator
+  mpz_t num;
+  mpz_init(num);
+  mpz_set(num, mpq_numref(q));
+
+  // Check bounds
+  if (mpz_cmp_si(num, INT64_MIN) < 0 || mpz_cmp_si(num, INT64_MAX) > 0) {
+    mpz_clear(num);
+    return false;
+  }
+
+  *out = mpz_get_si(num); // safe because we checked range
+  mpz_clear(num);
+  return true;
+}
+
+bool double_to_int64(double x, int64_t *out) {
+  if (x < (double)INT64_MIN || x > (double)INT64_MAX) {
+    return false;
+  }
+
+  int64_t i = (int64_t)x;
+  if ((double)i == x) { // no fractional part
+    *out = i;
+    return true;
+  }
+  return false;
+}
+
 ArgonObject *new_number_object(mpq_t number) {
-  ArgonObject *object = new_object();
-  add_field(object, "__class__", ARGON_NUMBER_TYPE);
+  int64_t i64 = 0;
+  bool is_int64 = mpq_to_int64(number, &i64);
+  if (is_int64 && i64 >= small_ints_min && i64 <= small_ints_max) {
+    return &small_ints[i64 - small_ints_min];
+  }
+  ArgonObject *object = new_instance(ARGON_NUMBER_TYPE);
+  object->value.as_number = ar_alloc(sizeof(struct as_number));
   object->type = TYPE_NUMBER;
-  object->value.as_number = mpq_new_gc_from(number);
+  object->value.as_number->n.i64 = i64;
+  object->value.as_number->is_int64 = is_int64;
+  if (object->value.as_number->is_int64) {
+    object->as_bool = object->value.as_number->n.i64;
+  } else {
+    object->value.as_number->n.mpq = mpq_new_gc_from(number);
+    object->as_bool = mpq_cmp_si(number, 0, 1) != 0;
+  }
   return object;
 }
 
-ArgonObject *new_number_object_from_long(long n, unsigned long d) {
-  ArgonObject *object = new_object();
-  add_field(object, "__class__", ARGON_NUMBER_TYPE);
+ArgonObject *new_number_object_from_num_and_den(int64_t n, uint64_t d) {
+  if (d == 1 && n >= small_ints_min && n <= small_ints_max) {
+    return &small_ints[n - small_ints_min];
+  }
+  ArgonObject *object = new_instance(ARGON_NUMBER_TYPE);
+  object->value.as_number = ar_alloc(sizeof(struct as_number));
+  object->type = TYPE_NUMBER;
+  if (d == 1) {
+    object->value.as_number->is_int64 = true;
+    object->value.as_number->n.i64 = n;
+    object->as_bool = n;
+  } else {
+    object->value.as_number->is_int64 = false;
     mpq_t r;
     mpq_init(r);
     mpq_set_si(r, n, d);
-  object->type = TYPE_NUMBER;
-  object->value.as_number = mpq_new_gc_from(r);
+    object->value.as_number->n.mpq = mpq_new_gc_from(r);
+    object->as_bool = n != 0;
     mpq_clear(r);
+  }
+  return object;
+}
+
+ArgonObject *new_number_object_from_int64(int64_t i64) {
+  if (i64 >= small_ints_min && i64 <= small_ints_max) {
+    return &small_ints[i64 - small_ints_min];
+  }
+  ArgonObject *object = new_instance(ARGON_NUMBER_TYPE);
+  object->value.as_number = ar_alloc(sizeof(struct as_number));
+  object->type = TYPE_NUMBER;
+  object->value.as_number->is_int64 = true;
+  object->value.as_number->n.i64 = i64;
+  object->as_bool = i64;
   return object;
 }
 
 ArgonObject *new_number_object_from_double(double d) {
-  ArgonObject *object = new_object();
-  add_field(object, "__class__", ARGON_NUMBER_TYPE);
+  int64_t i64 = 0;
+  bool is_int64 = double_to_int64(d, &i64);
+  if (is_int64 && i64 >= small_ints_min && i64 <= small_ints_max) {
+    return &small_ints[i64 - small_ints_min];
+  }
+  ArgonObject *object = new_instance(ARGON_NUMBER_TYPE);
+  object->value.as_number = ar_alloc(sizeof(struct as_number));
+  object->type = TYPE_NUMBER;
+  object->value.as_number->n.i64 = i64;
+  object->value.as_number->is_int64 = is_int64;
+  if (object->value.as_number->is_int64) {
+    object->as_bool = object->value.as_number->n.i64;
+  } else {
     mpq_t r;
     mpq_init(r);
     mpq_set_d(r, d);
-  object->type = TYPE_NUMBER;
-  object->value.as_number = mpq_new_gc_from(r);
+    object->value.as_number->n.mpq = mpq_new_gc_from(r);
+    object->as_bool = d != 0;
     mpq_clear(r);
+  }
   return object;
 }
 
 void load_number(Translated *translated, RuntimeState *state) {
   uint8_t to_register = pop_byte(translated, state);
+  uint8_t is_int64 = pop_byte(translated, state);
+  if (is_int64) {
+    state->registers[to_register] =
+        new_number_object_from_int64(pop_bytecode(translated, state));
+    return;
+  }
   size_t num_size = pop_bytecode(translated, state);
   size_t num_pos = pop_bytecode(translated, state);
   mpq_t r;

src/runtime/objects/number/number.h

@@ -14,10 +14,14 @@ void create_ARGON_NUMBER_TYPE();
 
 ArgonObject *new_number_object(mpq_t number);
 
+bool mpq_to_int64(mpq_t q, int64_t *out);
+
 void load_number(Translated *translated, RuntimeState *state);
 
 ArgonObject *new_number_object_from_double(double d);
 
-ArgonObject *new_number_object_from_long(long n, unsigned long d);
+ArgonObject *new_number_object_from_num_and_den(int64_t n, uint64_t d);
+
+ArgonObject *new_number_object_from_int64(int64_t i64);
 
 #endif // RUNTIME_NUMBER_H

src/runtime/objects/object.c

@@ -7,48 +7,159 @@
 #include "object.h"
 #include "../../hash_data/hash_data.h"
 #include "../../memory.h"
+#include "../call/call.h"
 #include "type/type.h"
 #include <stdbool.h>
 #include <stddef.h>
 #include <stdio.h>
 #include <string.h>
 
+int strcmp_len(const char *s1, size_t len, const char *s2) {
+  size_t s2len = strlen(s2); // length of null-terminated string
+  size_t n = (len < s2len) ? len : s2len;
+
+  int cmp = memcmp(s1, s2, n);
+  if (cmp != 0)
+    return cmp;
+
+  // If prefixes match, decide based on length
+  if (len == s2len)
+    return 0;
+  return (len < s2len) ? -1 : 1;
+}
+
 ArgonObject *BASE_CLASS = NULL;
 
+const char *built_in_field_names[BUILT_IN_FIELDS_COUNT] = {
+    "__base__",
+    "__class__",
+    "__name__",
+    "", // above is anything that gets stored in built in slots
+    "__add__",
+    "__string__",
+    "__subtract__",
+    "__multiply__",
+    "__divide__", 
+    "__new__",
+    "__init__",
+    "__boolean__",
+    "__get_attr__",
+    "__binding__",
+    "__function__",
+    "address",
+    "__call__",
+    "__number__",
+    "length",
+    "__getattribute__",
+    "__set_attr__",
+    "__hash__",
+    "__repr__"};
+
+uint64_t built_in_field_hashes[BUILT_IN_FIELDS_COUNT];
+
 ArgonObject *new_object() {
   ArgonObject *object = ar_alloc(sizeof(ArgonObject));
+  object->built_in_slot_length = 0;
   object->type = TYPE_OBJECT;
-  object->dict = createHashmap_GC();
-  add_field(object, "__class__", ARGON_TYPE_TYPE);
-  add_field(object, "__base__", BASE_CLASS);
+  object->dict = NULL;
+  object->as_bool = true;
   return object;
 }
 
-void add_field(ArgonObject *target, char *name, ArgonObject *object) {
-  hashmap_insert_GC(target->dict,
-                    siphash64_bytes(name, strlen(name), siphash_key), name,
-                    object, 0);
+void init_built_in_field_hashes() {
+  for (int i = 0; i < BUILT_IN_FIELDS_COUNT; i++) {
+    built_in_field_hashes[i] = siphash64_bytes(
+        built_in_field_names[i], strlen(built_in_field_names[i]), siphash_key);
+  }
+}
+
+int64_t hash_object(ArgonObject *object, ArErr *err, RuntimeState *state) {
+  ArgonObject *hash_function = get_builtin_field_for_class(
+      get_builtin_field(object, __class__), __hash__, object);
+  if (!hash_function) {
+    *err = create_err(err->line, err->column, err->length, err->path,
+                      "Hash Error", "objects class has no __hash__ method");
+    return 0;
+  }
+  ArgonObject *hash_result = argon_call(hash_function, 0, NULL, err, state);
+  if (hash_result->type != TYPE_NUMBER ||
+      !hash_result->value.as_number->is_int64) {
+    *err =
+        create_err(err->line, err->column, err->length, err->path, "Hash Error",
+                   "hash result needs to be a 64 bit integer.");
+    return 0;
+  }
+  return hash_result->value.as_number->n.i64;
+}
+
+ArgonObject *new_class() {
+  ArgonObject *object = new_object();
+  add_builtin_field(object, __class__, ARGON_TYPE_TYPE);
+  add_builtin_field(object, __base__, BASE_CLASS);
+  return object;
+}
+
+ArgonObject *new_instance(ArgonObject *of) {
+  ArgonObject *object = new_object();
+  add_builtin_field(object, __class__, of);
+  return object;
+}
+
+inline void add_builtin_field(ArgonObject *target, built_in_fields field,
+                              ArgonObject *object) {
+  for (size_t i = 0; i < target->built_in_slot_length; i++) {
+    if (target->built_in_slot[i].field == field) {
+      target->built_in_slot[i].value = object;
+      return;
+    }
+  }
+  if (field > BUILT_IN_ARRAY_COUNT) {
+    if (!target->dict)
+      target->dict = createHashmap_GC();
+    hashmap_insert_GC(target->dict, built_in_field_hashes[field],
+                      (char *)built_in_field_names[field], object, 0);
+    return;
+  }
+  target->built_in_slot[target->built_in_slot_length++] =
+      (struct built_in_slot){field, object};
+  // hashmap_insert_GC(target->dict, built_in_field_hashes[field],
+  //                   (char *)built_in_field_names[field], object, 0);
+}
+
+void add_field_l(ArgonObject *target, char *name, uint64_t hash, size_t length,
+                 ArgonObject *object) {
+  for (size_t i = 0; i < BUILT_IN_ARRAY_COUNT; i++) {
+    if (strcmp_len(name, length, built_in_field_names[i]) == 0) {
+      add_builtin_field(target, i, object);
+      return;
+    }
+  }
+  if (!target->dict)
+    target->dict = createHashmap_GC();
+  char *name_copy = ar_alloc(length);
+  memcpy(name_copy, name, length);
+  name_copy[length] = '\0';
+  hashmap_insert_GC(target->dict, hash, name_copy, object, 0);
 }
 
 ArgonObject *bind_object_to_function(ArgonObject *object,
                                      ArgonObject *function) {
   ArgonObject *bound_method_wrapper = new_object();
   bound_method_wrapper->type = TYPE_METHOD;
-  add_field(bound_method_wrapper, "__class__", ARGON_METHOD_TYPE);
-  add_field(bound_method_wrapper, "__binding__", object);
-  add_field(bound_method_wrapper, "__function__", function);
-  ArgonObject *function_name = get_field(function, "__name__", false, false);
+  add_builtin_field(bound_method_wrapper, __class__, ARGON_METHOD_TYPE);
+  add_builtin_field(bound_method_wrapper, __binding__, object);
+  add_builtin_field(bound_method_wrapper, __function__, function);
+  ArgonObject *function_name = get_builtin_field(function, __name__);
   if (function_name)
-    add_field(bound_method_wrapper, "__name__", function_name);
+    add_builtin_field(bound_method_wrapper, __name__, function_name);
   return bound_method_wrapper;
 }
 
 ArgonObject *get_field_for_class_l(ArgonObject *target, char *name,
-                                   size_t length, ArgonObject *binding_object) {
-  char *field = "__base__";
-  size_t field_size = strlen(field);
+                                   uint64_t hash, size_t length,
+                                   ArgonObject *binding_object) {
   while (target) {
-    ArgonObject *object = get_field_l(target, name, length, false, false);
+    ArgonObject *object = get_field_l(target, name, hash, length, false, false);
     if (object) {
       if ((object->type == TYPE_FUNCTION ||
            object->type == TYPE_NATIVE_FUNCTION) &&
@@ -57,35 +168,74 @@ ArgonObject *get_field_for_class_l(ArgonObject *target, char *name,
       }
       return object;
     }
-    target = get_field_l(target, field, field_size, false, false);
+    target = get_builtin_field(target, __base__);
   }
   return NULL;
 }
 
-ArgonObject *get_field_l(ArgonObject *target, char *name, size_t length,
-                         bool recursive, bool disable_method_wrapper) {
-  if(!target|| !target->dict) return NULL;
-  char *field = "__class__";
-  size_t field_size = strlen(field);
-  ArgonObject *object = hashmap_lookup_GC(
-      target->dict, siphash64_bytes(name, length, siphash_key));
+ArgonObject *get_field_l(ArgonObject *target, char *name, uint64_t hash,
+                         size_t length, bool recursive,
+                         bool disable_method_wrapper) {
+  for (size_t i = 0; i < target->built_in_slot_length; i++) {
+    if (strcmp_len(name, length, built_in_field_names[i]) == 0) {
+      return target->built_in_slot[i].value;
+    }
+  }
+  if (!target->dict)
+    return NULL;
+  ArgonObject *object = hashmap_lookup_GC(target->dict, hash);
   if (!recursive || object)
     return object;
   ArgonObject *binding = target;
   if (disable_method_wrapper)
     binding = NULL;
-  return get_field_for_class_l(
-      hashmap_lookup_GC(target->dict,
-                        siphash64_bytes(field, field_size, siphash_key)),
-      name, length, binding);
+  return get_field_for_class_l(get_builtin_field(target, __class__), name, hash,
+                               length, binding);
 }
 
-ArgonObject *get_field(ArgonObject *target, char *name, bool recursive,
-                       bool disable_method_wrapper) {
-  return get_field_l(target, name, strlen(name), recursive,
-                     disable_method_wrapper);
-}
-ArgonObject *get_field_for_class(ArgonObject *target, char *name,
+ArgonObject *get_builtin_field_for_class(ArgonObject *target,
+                                         built_in_fields field,
                                          ArgonObject *binding_object) {
-  return get_field_for_class_l(target, name, strlen(name), binding_object);
+  while (target) {
+    ArgonObject *object = get_builtin_field(target, field);
+    if (object) {
+      if ((object->type == TYPE_FUNCTION ||
+           object->type == TYPE_NATIVE_FUNCTION) &&
+          binding_object) {
+        object = bind_object_to_function(binding_object, object);
+      }
+      return object;
+    }
+    target = get_builtin_field(target, __base__);
+  }
+  return NULL;
+}
+inline ArgonObject *get_builtin_field(ArgonObject *target,
+                                      built_in_fields field) {
+  return get_builtin_field_with_recursion_support(target, field, false, false);
+}
+
+ArgonObject *
+get_builtin_field_with_recursion_support(ArgonObject *target,
+                                         built_in_fields field, bool recursive,
+                                         bool disable_method_wrapper) {
+  if (!target)
+    return NULL;
+  for (size_t i = 0; i < target->built_in_slot_length; i++) {
+    if (target->built_in_slot[i].field == field) {
+      return target->built_in_slot[i].value;
+    }
+  }
+  if (!target->dict)
+    return NULL;
+  ArgonObject *object =
+      hashmap_lookup_GC(target->dict, built_in_field_hashes[field]);
+  if (!recursive || object)
+    return object;
+  ArgonObject *binding = target;
+  if (disable_method_wrapper)
+    binding = NULL;
+  return get_builtin_field_for_class(
+      hashmap_lookup_GC(target->dict, built_in_field_hashes[__class__]), field,
+      binding);
 }

src/runtime/objects/object.h

@@ -9,27 +9,42 @@
 #include "../internals/hashmap/hashmap.h"
 #include "../runtime.h"
 #include <stdbool.h>
+#include <string.h>
 
 extern ArgonObject *BASE_CLASS;
 
 typedef struct ArgonObject ArgonObject;
-ArgonObject *new_object();
 
-void add_field(ArgonObject *target, char *name, ArgonObject *object);
+ArgonObject *new_class();
+ArgonObject *new_instance(ArgonObject * of);
+
+void init_built_in_field_hashes();
+
+int64_t hash_object(ArgonObject *object, ArErr *err, RuntimeState *state);
+
+void add_builtin_field(ArgonObject *target, built_in_fields field,
+                       ArgonObject *object);
+
+void add_field_l(ArgonObject *target, char *name, uint64_t hash, size_t length,
+                 ArgonObject *object);
 
 ArgonObject *bind_object_to_function(ArgonObject *object,
                                      ArgonObject *function);
 
 ArgonObject *get_field_for_class_l(ArgonObject *target, char *name,
-                                   size_t length, ArgonObject *binding_object);
-
-ArgonObject *get_field_l(ArgonObject *target, char *name, size_t length,
-                         bool recursive, bool disable_method_wrapper);
-
-ArgonObject *get_field_for_class(ArgonObject *target, char *name,
+                                   uint64_t hash, size_t length,
                                    ArgonObject *binding_object);
 
-ArgonObject *get_field(ArgonObject *target, char *name, bool recursive,
+ArgonObject *get_field_l(ArgonObject *target, char *name, uint64_t hash,
+                         size_t length, bool recursive,
                          bool disable_method_wrapper);
 
+ArgonObject *get_builtin_field_for_class(ArgonObject *target,
+                                         built_in_fields field,
+                                         ArgonObject *binding_object);
+
+ArgonObject *get_builtin_field(ArgonObject *target, built_in_fields field);
+
+ArgonObject *get_builtin_field_with_recursion_support(ArgonObject *target, built_in_fields field, bool recursive, bool disable_method_wrapper);
+
 #endif // OBJECT_H

src/runtime/objects/string/string.c

@@ -4,27 +4,85 @@
  * SPDX-License-Identifier: GPL-3.0-or-later
  */
 
-#include "../object.h"
-#include <stdint.h>
-#include <stdio.h>
-#include <stdio.h>
-#include <string.h>
 #include "string.h"
 #include "../number/number.h"
+#include "../object.h"
+#include <ctype.h>
+#include <stdint.h>
+#include <stdio.h>
+#include <string.h>
 
 ArgonObject *ARGON_STRING_TYPE = NULL;
 
-ArgonObject *new_string_object(char*data, size_t length) {
-  ArgonObject * object = new_object();
-  add_field(object, "__class__", ARGON_STRING_TYPE);
-  add_field(object, "length", new_number_object_from_long(length, 1));
+
+
+
+char *c_quote_string(const char *input, size_t len) {
+    // Worst case: every byte becomes "\uXXXX" (6 chars) + quotes + NUL
+    size_t max_out = 2 + (len * 6) + 1;
+    char *out = malloc(max_out);
+    if (!out) return NULL;
+
+    size_t j = 0;
+    out[j++] = '"';
+
+    for (size_t i = 0; i < len; i++) {
+        unsigned char c = (unsigned char)input[i];
+
+        switch (c) {
+            case '\n':
+                out[j++] = '\\'; out[j++] = 'n'; break;
+            case '\t':
+                out[j++] = '\\'; out[j++] = 't'; break;
+            case '\r':
+                out[j++] = '\\'; out[j++] = 'r'; break;
+            case '\\':
+                out[j++] = '\\'; out[j++] = '\\'; break;
+            case '\"':
+                out[j++] = '\\'; out[j++] = '\"'; break;
+            default:
+                if (isprint(c)) {
+                    out[j++] = c;
+                } else {
+                    // write \uXXXX
+                    j += sprintf(&out[j], "\\u%04X", c);
+                }
+        }
+    }
+
+    out[j++] = '"';
+    out[j] = '\0';
+    return out;
+}
+
+void init_string(ArgonObject*object,char *data, size_t length, uint64_t prehash,
+                               uint64_t hash) {
+  add_builtin_field(object, field_length,
+                    new_number_object_from_int64(length));
   object->type = TYPE_STRING;
-  object->value.as_str.data = ar_alloc_atomic(length);
-  memcpy(object->value.as_str.data, data, length);
-  object->value.as_str.length = length;
+  object->value.as_str = ar_alloc(sizeof(struct string_struct));
+  object->value.as_str->data = data;
+  object->value.as_str->prehash = prehash;
+  object->value.as_str->hash_computed = hash;
+  object->value.as_str->hash = hash;
+  object->value.as_str->length = length;
+  object->as_bool = length;
+}
+
+ArgonObject *new_string_object_without_memcpy(char *data, size_t length, uint64_t prehash,
+                               uint64_t hash) {
+  ArgonObject *object = new_instance(ARGON_STRING_TYPE);
+  init_string(object,data,length,prehash,hash);
   return object;
 }
 
-ArgonObject *new_string_object_null_terminated(char*data) {
-  return new_string_object(data, strlen(data));
+ArgonObject *new_string_object(char *data, size_t length, uint64_t prehash,
+                               uint64_t hash) {
+  char*data_copy = ar_alloc_atomic(length);
+  memcpy(data_copy, data, length);
+  return new_string_object_without_memcpy(data_copy,length, prehash, hash);
+}
+
+ArgonObject *new_string_object_null_terminated(char *data) {
+  return new_string_object(data, strlen(data), 0, 0);
 }

src/runtime/objects/string/string.h

@@ -10,7 +10,15 @@
 
 extern ArgonObject *ARGON_STRING_TYPE;
 
-ArgonObject *new_string_object(char*data, size_t length);
+char *c_quote_string(const char *input, size_t len);
+
+void init_string(ArgonObject*object,char *data, size_t length, uint64_t prehash,
+                               uint64_t hash);
+
+ArgonObject *new_string_object_without_memcpy(char *data, size_t length, uint64_t prehash,
+                               uint64_t hash);
+
+ArgonObject *new_string_object(char *data, size_t length, uint64_t prehash, uint64_t hash);
 
 ArgonObject *new_string_object_null_terminated(char*data);
 #endif // STRING_OBJ_H

src/runtime/objects/term/term.c

@@ -13,14 +13,14 @@ ArgonObject *term_log(size_t argc, ArgonObject **argv, ArErr *err,
   for (size_t i = 0; i < argc; i++) {
     if (i != 0)
       printf(" ");
-    ArgonObject *string_convert_method = get_field_for_class(
-        get_field(argv[i], "__class__", false, false), "__string__", argv[i]);
+    ArgonObject *string_convert_method = get_builtin_field_for_class(
+        get_builtin_field(argv[i], __class__), __string__, argv[i]);
 
     if (string_convert_method) {
       ArgonObject *string_object =
         argon_call(string_convert_method, 0, NULL, err, state);
-      fwrite(string_object->value.as_str.data, sizeof(char),
-             string_object->value.as_str.length, stdout);
+      fwrite(string_object->value.as_str->data, sizeof(char),
+             string_object->value.as_str->length, stdout);
     }
   }
   printf("\n");

src/runtime/runtime.h

@@ -10,6 +10,10 @@
 #include "../translator/translator.h"
 #include "internals/dynamic_array_armem/darray_armem.h"
 #include "internals/hashmap/hashmap.h"
+#include <stdio.h>
+
+#define likely(x) __builtin_expect(!!(x), 1)
+#define unlikely(x) __builtin_expect(!!(x), 0)
 
 extern ArgonObject *ARGON_METHOD_TYPE;
 extern Stack *Global_Scope;
@@ -54,8 +58,6 @@ typedef struct StackFrame {
   uint64_t depth;
 } StackFrame;
 
-#define STACKFRAME_CHUNKS 64
-
 void bootstrap_types();
 
 extern struct hashmap *runtime_hash_table;
@@ -64,17 +66,34 @@ uint64_t runtime_hash(const void *data, size_t len, uint64_t prehash);
 
 void bootstrap_globals();
 
-uint8_t pop_byte(Translated *translated, RuntimeState *state);
+static inline void *arena_get(ConstantArena *arena, size_t offset) {
+  return (char *)arena->data + offset;
+}
 
-uint64_t pop_bytecode(Translated *translated, RuntimeState *state);
+static inline uint8_t pop_byte(Translated *translated, RuntimeState *state) {
+  return *(((uint8_t *)(translated->bytecode.data)) + state->head++);
+}
 
-ArErr run_instruction(Translated *translated, RuntimeState *state,
-                      struct Stack **stack);
+static inline uint64_t pop_bytecode(Translated *translated,
+                                    RuntimeState *state) {
+  uint64_t *ptr =
+      (uint64_t *)((uint8_t *)translated->bytecode.data + state->head);
+  state->head += 8;
+  return *ptr;
+}
+
+static inline void run_instruction(Translated *translated, RuntimeState *state,
+                                   struct Stack **stack, ArErr *err);
 
 RuntimeState init_runtime_state(Translated translated, char *path);
 
-Stack *create_scope(Stack *prev);
+Stack *create_scope(Stack *prev, bool force);
 
-ArErr runtime(Translated translated, RuntimeState state, Stack *stack);
+void add_to_scope(Stack *stack, char *name, ArgonObject *value);
+
+void add_to_hashmap(struct hashmap_GC *hashmap, char *name, ArgonObject *value);
+
+void runtime(Translated translated, RuntimeState state, Stack *stack,
+             ArErr *err);
 
 #endif // RUNTIME_H

src/shell.c

@@ -0,0 +1,288 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+#include "./lexer/lexer.h"
+#include "./runtime/call/call.h"
+#include "./runtime/objects/functions/functions.h"
+#include "./runtime/objects/term/term.h"
+#include "./runtime/runtime.h"
+#include "./translator/translator.h"
+#include "LICENSE_c.h"
+#include "import.h"
+#include "runtime/objects/literals/literals.h"
+#include "runtime/objects/string/string.h"
+#include <signal.h>
+#include <stdbool.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <unistd.h>
+#if defined(__linux__)
+#include <malloc.h>
+#endif
+#if defined(_WIN32) || defined(_WIN64)
+#include <windows.h>
+FILE *fmemopen(void *buf, size_t size, const char *mode) {
+  if (strchr(mode, 'r') == NULL) {
+    return NULL;
+  }
+
+  FILE *tmp = tmpfile();
+  if (!tmp)
+    return NULL;
+
+  if (fwrite(buf, 1, size, tmp) != size) {
+    fclose(tmp);
+    return NULL;
+  }
+
+  rewind(tmp);
+
+  return tmp;
+}
+#else
+#include "../external/linenoise/linenoise.h"
+#endif
+
+// Ctrl+C handler
+void handle_sigint(int sig) {
+  (void)sig;
+  printf("\nBye :)\n");
+  exit(0);
+}
+
+int execute_code(FILE *stream, char *path, Stack *scope,
+                 RuntimeState *runtime_state) {
+  if (!stream) {
+    perror("fmemopen");
+    return 1;
+  }
+
+  ArErr err = no_err;
+
+  DArray tokens;
+  darray_init(&tokens, sizeof(Token));
+  LexerState state = {path, stream, 0, 0, &tokens};
+  err = lexer(state);
+  if (err.exists) {
+    darray_free(&tokens, free_token);
+    output_err(err);
+    return 1;
+  }
+
+  DArray ast;
+
+  darray_init(&ast, sizeof(ParsedValue));
+
+  err = parser(path, &ast, &tokens, false);
+  darray_free(&tokens, free_token);
+  if (err.exists) {
+    darray_free(&ast, free_parsed);
+    output_err(err);
+    return 1;
+  }
+  Translated __translated = init_translator(path);
+  err = translate(&__translated, &ast);
+  darray_free(&ast, free_parsed);
+  if (err.exists) {
+    darray_free(&__translated.bytecode, NULL);
+    free(__translated.constants.data);
+    hashmap_free(__translated.constants.hashmap, NULL);
+    output_err(err);
+    return 1;
+  }
+
+  hashmap_free(__translated.constants.hashmap, NULL);
+  Translated translated = {
+      __translated.registerCount, __translated.registerAssignment, NULL, {}, {},
+      __translated.path};
+  translated.bytecode.data = ar_alloc(__translated.bytecode.capacity);
+  memcpy(translated.bytecode.data, __translated.bytecode.data,
+         __translated.bytecode.capacity);
+  translated.bytecode.element_size = __translated.bytecode.element_size;
+  translated.bytecode.size = __translated.bytecode.size;
+  translated.bytecode.resizable = false;
+  translated.bytecode.capacity =
+      __translated.bytecode.size * __translated.bytecode.element_size;
+  translated.constants.data = ar_alloc(__translated.constants.capacity);
+  memcpy(translated.constants.data, __translated.constants.data,
+         __translated.constants.capacity);
+  translated.constants.size = __translated.constants.size;
+  translated.constants.capacity = __translated.constants.capacity;
+  darray_free(&__translated.bytecode, NULL);
+  free(__translated.constants.data);
+  *runtime_state = init_runtime_state(translated, path);
+  runtime(translated, *runtime_state, scope, &err);
+  if (err.exists) {
+    output_err(err);
+    return 1;
+  }
+  return 0;
+}
+
+// Simple input function
+char *input(const char *prompt) {
+#if defined(_WIN32) || defined(_WIN64)
+  printf("%s", prompt);
+  fflush(stdout);
+
+  char *buffer = NULL;
+  size_t size = 0;
+  ssize_t len = getline(&buffer, &size, stdin);
+
+  if (len == -1) {
+    free(buffer);
+    return NULL;
+  }
+
+  if (len > 0 && buffer[len - 1] == '\n') {
+    buffer[len - 1] = '\0';
+  }
+#else
+  char *buffer = linenoise(prompt);
+  if (buffer && buffer[0] != '\0') {
+    linenoiseHistoryAdd(buffer);
+  }
+#endif
+  return buffer;
+}
+
+char *read_all_stdin(size_t *out_len) {
+  size_t size = 1024;
+  size_t len = 0;
+  char *buffer = malloc(size);
+  if (!buffer)
+    exit(1);
+
+  int c;
+  while ((c = fgetc(stdin)) != EOF) {
+    if (len + 1 >= size) {
+      size *= 2;
+      buffer = realloc(buffer, size);
+      if (!buffer)
+        exit(1);
+    }
+    buffer[len++] = (char)c;
+  }
+
+  *out_len = len;
+  return buffer;
+}
+
+int shell() {
+
+  Stack *main_scope = create_scope(Global_Scope, true);
+
+  if (!isatty(STDIN_FILENO)) {
+    RuntimeState runtime_state;
+    size_t len;
+    char *data = read_all_stdin(&len);
+    FILE *file = fmemopen(data, len, "r");
+    int resp = execute_code(file, "<stdin>", main_scope, &runtime_state);
+    fclose(file);
+    free(data);
+    return resp;
+  }
+  add_to_scope(main_scope, "license",
+               new_string_object_without_memcpy((char *)LICENSE_txt,
+                                                LICENSE_txt_len, 0, 0));
+
+  signal(SIGINT, handle_sigint);
+
+  printf("Argon (Chloride %s)\nType \"license\" for more information.\n",
+         version_string);
+
+  ArgonObject *output_object = create_argon_native_function("log", term_log);
+  char *totranslate = NULL;
+  size_t totranslatelength = 0;
+
+  while (true) {
+#if defined(__linux__)
+    malloc_trim(0);
+#endif
+    if (totranslate) {
+      free(totranslate);
+      totranslate = NULL;
+      totranslatelength = 0;
+    };
+    int indent = 0;
+    int last_indent = 0;
+    char textBefore[] = ">>> ";
+
+    // Dynamic array of lines
+
+    do {
+      last_indent = indent;
+      // indent string
+      size_t isz = (size_t)indent * 4;
+      char *indentStr = (char *)malloc(isz + 1);
+      if (!indentStr)
+        exit(1);
+      memset(indentStr, ' ', isz);
+      indentStr[isz] = '\0';
+
+      // prompt
+      size_t p_len = strlen(textBefore) + isz;
+      char *prompt = (char *)malloc(p_len + 1);
+      if (!prompt)
+        exit(1);
+      memcpy(prompt, textBefore, strlen(textBefore));
+      memcpy(prompt + strlen(textBefore), indentStr, isz + 1);
+
+      char *inp = input(prompt);
+      free(prompt);
+
+      if (!inp) {
+        printf("\nBye :)\n");
+        // Free previously collected lines
+        free(inp);
+        free(totranslate);
+        free(indentStr);
+        return 0;
+      }
+
+      // Append line to totranslate
+      size_t length = strlen(inp);
+      totranslate = realloc(totranslate, totranslatelength + isz + length + 1);
+      memcpy(totranslate + totranslatelength, indentStr, isz);
+      memcpy(totranslate + totranslatelength + isz, inp, length);
+      totranslatelength += isz + length + 1;
+      totranslate[totranslatelength - 1] = '\n';
+
+      char *trimmed = inp;
+      while (*trimmed == ' ' || *trimmed == '\t')
+        trimmed++;
+
+      size_t len = strlen(trimmed);
+      if (len >= 2 && strcmp(trimmed + len - 2, "do") == 0) {
+        indent++;
+      } else if (len == 0 && indent > 0) {
+        indent--;
+      }
+      free(inp);
+      strcpy(textBefore, "... ");
+      free(indentStr);
+
+    } while (indent > 0 || last_indent != 0);
+    totranslate = realloc(totranslate, totranslatelength + 1);
+    totranslate[totranslatelength] = '\0';
+    RuntimeState runtime_state;
+    FILE *file = fmemopen((void *)totranslate, totranslatelength, "r");
+    int resp = execute_code(file, "<shell>", main_scope, &runtime_state);
+    fclose(file);
+    if (resp) {
+      continue;
+    }
+    if (runtime_state.registers[0]&&runtime_state.registers[0] != ARGON_NULL) {
+      ArErr err = no_err;
+      argon_call(output_object, 1,
+                 (ArgonObject *[]){runtime_state.registers[0]}, &err,
+                 &runtime_state);
+    }
+    totranslatelength = 0;
+  }
+
+  return 0;
+}

src/shell.h

@@ -0,0 +1,12 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+#ifndef ARGON_SHELL_H
+#define ARGON_SHELL_H
+
+int shell();
+
+#endif // ARGON_SHELL_H 

src/translator/access/access.c

@@ -8,21 +8,19 @@
 size_t translate_access(Translated *translated, ParsedAccess *access,
                         ArErr *err) {
   set_registers(translated, 1);
-  uint64_t first = push_instruction_byte(translated, OP_LOAD_ACCESS_FUNCTION);
+  uint64_t first = translate_parsed(translated, access->to_access, err);
+  if (err->exists)
+    return 0;
+  push_instruction_byte(translated, OP_LOAD_GETATTRIBUTE_METHOD);
   push_instruction_byte(translated, OP_INIT_CALL);
-  push_instruction_code(translated, 3);
-
-  translate_parsed(translated, &access->to_access, err);
-  push_instruction_byte(translated, OP_INSERT_ARG);
-  push_instruction_code(translated, 0);
-  translate_parsed(translated, darray_get(&access->access, 0), err);
-  push_instruction_byte(translated, OP_INSERT_ARG);
   push_instruction_code(translated, 1);
   
-  push_instruction_byte(translated, OP_LOAD_BOOL);
-  push_instruction_byte(translated, access->access_fields);
+  translate_parsed(translated, access->access, err);
+  if (err->exists)
+    return 0;
   push_instruction_byte(translated, OP_INSERT_ARG);
-  push_instruction_code(translated, 2);
+  push_instruction_code(translated, 0);
+
   push_instruction_byte(translated, OP_SOURCE_LOCATION);
   push_instruction_code(translated, access->line);
   push_instruction_code(translated, access->column);

src/translator/assignment/assignment.c

@@ -0,0 +1,80 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+#include "assignment.h"
+#include "../../hash_data/hash_data.h"
+#include "../../parser/assignable/access/access.h"
+#include "../../parser/assignable/identifier/identifier.h"
+#include "../translator.h"
+#include <stddef.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+size_t translate_parsed_assignment(Translated *translated,
+                                   ParsedAssign *assignment, ArErr *err) {
+  set_registers(translated, 1);
+  DArray *old_return_jumps = translated->return_jumps;
+  translated->return_jumps = NULL;
+  size_t first = translate_parsed(translated, assignment->from, err);
+  if (err->exists)
+    return 0;
+  switch (assignment->to->type) {
+  case AST_IDENTIFIER:;
+    ParsedIdentifier *identifier = assignment->to->data;
+    size_t length = strlen(identifier->name);
+    size_t offset =
+        arena_push(&translated->constants, identifier->name, length);
+
+    push_instruction_byte(translated, OP_SOURCE_LOCATION);
+    push_instruction_code(translated, identifier->line);
+    push_instruction_code(translated, identifier->column);
+    push_instruction_code(translated, length);
+
+    push_instruction_byte(translated, OP_ASSIGN);
+    push_instruction_code(translated, length);
+    push_instruction_code(translated, offset);
+    push_instruction_code(translated,
+                          siphash64_bytes(identifier->name, length,
+                                          siphash_key_fixed_for_translator));
+    push_instruction_byte(translated, 0);
+    break;
+  case AST_ACCESS:;
+    ParsedAccess *access = assignment->to->data;
+    uint8_t registerA = translated->registerAssignment++;
+    set_registers(translated, registerA);
+    push_instruction_byte(translated, OP_COPY_TO_REGISTER);
+    push_instruction_byte(translated, 0);
+    push_instruction_byte(translated, registerA);
+    translate_parsed(translated, access->to_access, err);
+    if (err->exists)
+      return 0;
+    push_instruction_byte(translated, OP_LOAD_SETATTR_METHOD);
+    push_instruction_byte(translated, OP_INIT_CALL);
+    push_instruction_code(translated, 2);
+    translate_parsed(translated, access->access, err);
+    if (err->exists)
+      return 0;
+    push_instruction_byte(translated, OP_INSERT_ARG);
+    push_instruction_code(translated, 0);
+
+    push_instruction_byte(translated, OP_COPY_TO_REGISTER);
+    push_instruction_byte(translated, registerA);
+    push_instruction_byte(translated, 0);
+    push_instruction_byte(translated, OP_INSERT_ARG);
+    push_instruction_code(translated, 1);
+
+    push_instruction_byte(translated, OP_CALL);
+    translated->registerAssignment--;
+    break;
+  
+  default:
+    fprintf(stderr, "panic: unsupported assignment\n");
+    exit(EXIT_FAILURE);
+  }
+  translated->return_jumps = old_return_jumps;
+  return first;
+}

src/translator/assignment/assignment.h

@@ -0,0 +1,15 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+#ifndef BYTECODE_ASSIGNMENT_H
+#define BYTECODE_ASSIGNMENT_H
+#include "../translator.h"
+#include "../../parser/assignable/assign/assign.h"
+
+size_t translate_parsed_assignment(Translated *translated,
+                                   ParsedAssign *assignment, ArErr *err);
+
+#endif

src/translator/bytecode_spec.md

@@ -29,6 +29,17 @@ this operation takes 3 operands.
 1. the fixed hash of the variable name.
 1. the register of the given value (*)
 
+## OP_ASSIGN
+
+assigns to a variable in the stack. if the variable doesnt exist on the stack, it is automatically declared on the current scope.
+
+this operation takes 3 operands.
+
+1. the length of the variable name.
+1. the offset in the constant buffer of the variable name.
+1. the fixed hash of the variable name.
+1. the register of the given value (*)
+
 ## OP_LOAD_NULL
 
 sets a given register to null.
@@ -60,9 +71,7 @@ initilises a function to a given register.
 
 ## OP_BOOL
 
-converts a value in a given register into true or false depending on the result from \_\_bool\_\_
-
-1. the register to read and write to. (*)
+converts a value in register 0 into true or false depending on the result from \_\_bool\_\_ (using asBool if the object is a primitive)
 
 ## OP_JUMP_IF_FALSE
 
@@ -71,17 +80,20 @@ jumps when a the value in the given register is false.
 1. the register to read. (*)
 1. the index to jump to.
 
-## OP_JUMP_IF_FALSE
+## OP_JUMP
 
 jumps unconditionally to an index.
 
 1. the index to jump to.
 
-
 ## OP_NEW_SCOPE
 
 creates a new stack
 
+## OP_EMPTY_SCOPE
+
+empties the current scope so the same memory can be reused.
+
 ## OP_POP_SCOPE
 
 pops the top scope off the current
@@ -108,9 +120,9 @@ sets the source location onto the runtime
 1. the column
 1. the length
 
-## OP_LOAD_ACCESS_FUNCTION
+## OP_LOAD_GETATTRIBUTE_METHOD
 
-loads the access function into register 1
+loads the \_\_getattribute\_\_ method from the objects class in register 1 and put it into register 1
 
 ## OP_LOAD_BOOL
 
@@ -120,19 +132,59 @@ loads a boolean into register 1
 
 ## OP_LOAD_NUMBER
 
-loads a mpq_t number into memory
+loads a mpq_t / int64 number into memory
 
 1. the register to write to. (*)
+1. is int64 (*)
 1. the size of the numerator in the constant buffer.
 1. the offset in the constant buffer of the numerator.
 1. is integer. (*)
 1. the size of the denominator in the constant buffer.
 1. the offset in the constant buffer of the denominator.
 
-## OP_LOAD_ADDITION_FUNCTION
+## OP_COPY_TO_REGISTER
 
-loads the addition function into register 1
+copies the value from one register to another
 
-## OP_LOAD_SUBTRACTION_FUNCTION
+1. the register to copy from (*)
+2. the register to write to (*)
 
-loads the subtraction function into register 1
+## OP_ADDITION
+
+performs an addition between register A and register B, storing the result in register C
+
+1. the register A (*)
+2. the register B (*)
+2. the register C (*)
+
+## OP_SUBTRACTION
+
+performs an subtraction between register A and register B, storing the result in register C
+
+1. the register A (*)
+2. the register B (*)
+2. the register C (*)
+
+## OP_MULTIPLICATION
+
+performs an multiplication between register A and register B, storing the result in register C
+
+1. the register A (*)
+2. the register B (*)
+2. the register C (*)
+
+## OP_DIVISION
+
+performs an division between register A and register B, storing the result in register C
+
+1. the register A (*)
+2. the register B (*)
+2. the register C (*)
+
+## OP_NOT
+
+inverts the boolean value in register 0.
+
+## OP_LOAD_SETATTR_METHOD
+
+loads the \_\_setattr\_\_ method from the objects class in register 1 and put it into register 1

src/translator/function/function.c

@@ -14,17 +14,18 @@
 size_t translate_parsed_function(Translated *translated,
                                  ParsedFunction *parsedFunction, ArErr *err) {
   DArray main_bytecode = translated->bytecode;
-  DArray _temp_bytecode;
-  darray_init(&_temp_bytecode, sizeof(uint8_t));
+  uint8_t old_assignment = translated->registerAssignment;
+  translated->registerAssignment = 1;
+  darray_init(&translated->bytecode, sizeof(uint8_t));
   set_registers(translated, 1);
-  translated->bytecode = _temp_bytecode;
   translate_parsed(translated, parsedFunction->body, err);
   size_t function_bytecode_offset =
       arena_push(&translated->constants, translated->bytecode.data,
                  translated->bytecode.size*translated->bytecode.element_size);
   size_t function_bytecode_length = translated->bytecode.size;
+  darray_free(&translated->bytecode, NULL);
   translated->bytecode = main_bytecode;
-  darray_free(&_temp_bytecode, NULL);
+  translated->registerAssignment = old_assignment;
   size_t start = push_instruction_byte(translated, OP_LOAD_FUNCTION);
   size_t offset = arena_push(&translated->constants, parsedFunction->name,
                              strlen(parsedFunction->name));

src/translator/if/if.c

@@ -40,7 +40,6 @@ size_t translate_parsed_if(Translated *translated, DArray *parsedIf,
         return 0;
       }
       push_instruction_byte(translated, OP_BOOL);
-      push_instruction_byte(translated, 0);
       push_instruction_byte(translated, OP_JUMP_IF_FALSE);
       push_instruction_byte(translated, 0);
       uint64_t last_jump_index = push_instruction_code(translated, 0);

src/translator/number/number.c

@@ -5,6 +5,7 @@
  */
 
 #include "number.h"
+#include "../../runtime/objects/number/number.h"
 #include "../translator.h"
 #include <gmp.h>
 #include <stddef.h>
@@ -16,6 +17,13 @@ size_t translate_parsed_number(Translated *translated, mpq_t *number,
   set_registers(translated, to_register + 1);
   size_t start = push_instruction_byte(translated, OP_LOAD_NUMBER);
   push_instruction_byte(translated, to_register);
+  int64_t i64;
+  uint8_t is_int64 = mpq_to_int64(*number, &i64);
+  push_instruction_byte(translated, is_int64);
+  if (is_int64) {
+    push_instruction_code(translated, i64);
+    return start;
+  }
   size_t num_size;
   void *num_data = mpz_export(NULL, &num_size, 1, 1, 0, 0, mpq_numref(*number));
   size_t numerator_pos = arena_push(&translated->constants, num_data, num_size);

src/translator/operation/operation.c

@@ -6,36 +6,94 @@
 
 #include "operation.h"
 #include <stddef.h>
+#include <stdint.h>
+#include <stdio.h>
 
 size_t translate_operation(Translated *translated, ParsedOperation *operation,
                            ArErr *err) {
-  set_registers(translated, 1);
-  uint64_t first;
+  if (operation->operation == TOKEN_AND || operation->operation == TOKEN_OR) {
+    size_t *jump_to_if_false =
+        checked_malloc(operation->to_operate_on.size * sizeof(size_t));
+    uint8_t registerA = translated->registerAssignment++;
+    set_registers(translated, translated->registerAssignment);
+    uint64_t first = 0;
+    for (size_t i = 0; i < operation->to_operate_on.size; i++) {
+      uint64_t position = translate_parsed(
+          translated, darray_get(&operation->to_operate_on, i), err);
+      if (i == 0)
+        first = position;
+      if (err->exists) {
+        free(jump_to_if_false);
+        return first;
+      }
+      push_instruction_byte(translated, OP_COPY_TO_REGISTER);
+      push_instruction_byte(translated, 0);
+      push_instruction_byte(translated, registerA);
+
+      push_instruction_byte(translated, OP_BOOL);
+      if (operation->operation == TOKEN_OR) push_instruction_byte(translated, OP_NOT);
+
+      push_instruction_byte(translated, OP_JUMP_IF_FALSE);
+      push_instruction_byte(translated, 0);
+      jump_to_if_false[i] = push_instruction_code(translated, 0);
+    }
+    for (size_t i = 0; i < operation->to_operate_on.size; i++) {
+      set_instruction_code(translated, jump_to_if_false[i],
+                           translated->bytecode.size);
+    }
+    push_instruction_byte(translated, OP_COPY_TO_REGISTER);
+    push_instruction_byte(translated, registerA);
+    push_instruction_byte(translated, 0);
+    push_instruction_byte(translated, OP_LOAD_NULL);
+    push_instruction_byte(translated, registerA);
+
+    free(jump_to_if_false);
+    return first;
+  }
+  uint8_t registerA = translated->registerAssignment++;
+  uint8_t registerB = translated->registerAssignment++;
+  set_registers(translated, translated->registerAssignment);
+  uint64_t first = translate_parsed(
+      translated, darray_get(&operation->to_operate_on, 0), err);
+  if (err->exists)
+    return first;
+  push_instruction_byte(translated, OP_COPY_TO_REGISTER);
+  push_instruction_byte(translated, 0);
+  push_instruction_byte(translated, registerA);
+  for (size_t i = 1; i < operation->to_operate_on.size; i++) {
+    translate_parsed(translated, darray_get(&operation->to_operate_on, i), err);
+    if (err->exists)
+      return first;
+    push_instruction_byte(translated, OP_COPY_TO_REGISTER);
+    push_instruction_byte(translated, 0);
+    push_instruction_byte(translated, registerB);
     switch (operation->operation) {
     case TOKEN_PLUS:;
-    first = push_instruction_byte(translated, OP_LOAD_ADDITION_FUNCTION);
+      push_instruction_byte(translated, OP_ADDITION);
       break;
-  case TOKEN_MINUS:
-    first = push_instruction_byte(translated, OP_LOAD_SUBTRACTION_FUNCTION);
+    case TOKEN_MINUS:;
+      push_instruction_byte(translated, OP_SUBTRACTION);
+      break;
+    case TOKEN_STAR:;
+      push_instruction_byte(translated, OP_MULTIPLICATION);
+      break;
+    case TOKEN_SLASH:;
+      push_instruction_byte(translated, OP_DIVISION);
       break;
     default:
       *err = create_err(operation->line, operation->column, operation->length,
                         translated->path, "Syntax Error", "unknown operation");
       return 0;
     }
-  push_instruction_byte(translated, OP_INIT_CALL);
-  push_instruction_code(translated, operation->to_operate_on.size);
-
-  for (size_t i = 0; i < operation->to_operate_on.size; i++) {
-    translate_parsed(translated, darray_get(&operation->to_operate_on, i), err);
-    push_instruction_byte(translated, OP_INSERT_ARG);
-    push_instruction_code(translated, i);
+    push_instruction_byte(translated, registerA);
+    push_instruction_byte(translated, registerB);
+    push_instruction_byte(
+        translated, operation->to_operate_on.size - 1 == i ? 0 : registerA);
   }
-
-  push_instruction_byte(translated, OP_SOURCE_LOCATION);
-  push_instruction_code(translated, operation->line);
-  push_instruction_code(translated, operation->column);
-  push_instruction_code(translated, operation->length);
-  push_instruction_byte(translated, OP_CALL);
+  push_instruction_byte(translated, OP_LOAD_NULL);
+  push_instruction_byte(translated, registerA);
+  push_instruction_byte(translated, OP_LOAD_NULL);
+  push_instruction_byte(translated, registerB);
+  translated->registerAssignment -= 2;
   return first;
 }

src/translator/translator.c

@@ -6,7 +6,9 @@
 
 #include "translator.h"
 #include "../hash_data/hash_data.h"
+#include "../parser/not/not.h"
 #include "access/access.h"
+#include "assignment/assignment.h"
 #include "call/call.h"
 #include "declaration/declaration.h"
 #include "dowrap/dowrap.h"
@@ -17,6 +19,7 @@
 #include "operation/operation.h"
 #include "return/return.h"
 #include "string/string.h"
+#include "while/while.h"
 #include <stddef.h>
 #include <stdint.h>
 #include <stdio.h>
@@ -49,10 +52,6 @@ void arena_resize(ConstantArena *arena, size_t new_size) {
   arena->capacity = new_capacity;
 }
 
-void *arena_get(ConstantArena *arena, size_t offset) {
-  return arena->data + offset;
-}
-
 size_t arena_push(ConstantArena *arena, const void *data, size_t length) {
   uint64_t hash = siphash64_bytes(data, length, siphash_key);
 
@@ -84,6 +83,7 @@ Translated init_translator(char *path) {
   Translated translated;
   translated.path = path;
   translated.registerCount = 1;
+  translated.registerAssignment = 1;
   translated.return_jumps = NULL;
   darray_init(&translated.bytecode, sizeof(uint8_t));
   arena_init(&translated.constants);
@@ -148,6 +148,9 @@ size_t translate_parsed(Translated *translated, ParsedValue *parsedValue,
                                        (ParsedIdentifier *)parsedValue->data);
   case AST_IF:
     return translate_parsed_if(translated, (DArray *)parsedValue->data, err);
+  case AST_WHILE:
+    return translate_parsed_while(translated, (ParsedWhile *)parsedValue->data,
+                                  err);
   case AST_DOWRAP:
     return translate_parsed_dowrap(translated, (DArray *)parsedValue->data,
                                    err);
@@ -162,6 +165,17 @@ size_t translate_parsed(Translated *translated, ParsedValue *parsedValue,
   case AST_OPERATION:
     return translate_operation(translated, (ParsedOperation *)parsedValue->data,
                                err);
+  case AST_ASSIGN:
+    return translate_parsed_assignment(translated,
+                                       (ParsedAssign *)parsedValue->data, err);
+  case AST_TO_BOOL: {
+    size_t first = translate_parsed(
+        translated, ((ParsedToBool *)parsedValue->data)->value, err);
+    push_instruction_byte(translated, OP_BOOL);
+    if (((ParsedToBool *)parsedValue->data)->invert)
+      push_instruction_byte(translated, OP_NOT);
+    return first;
+  }
   }
   return 0;
 }

src/translator/translator.h

@@ -24,22 +24,27 @@ typedef enum {
   OP_JUMP_IF_FALSE,
   OP_JUMP,
   OP_NEW_SCOPE,
+  OP_EMPTY_SCOPE,
   OP_POP_SCOPE,
   OP_INIT_CALL,
   OP_INSERT_ARG,
   OP_CALL,
   OP_SOURCE_LOCATION,
-  OP_LOAD_ACCESS_FUNCTION,
   OP_LOAD_BOOL,
   OP_LOAD_NUMBER,
-  OP_LOAD_ADDITION_FUNCTION,
-  OP_LOAD_SUBTRACTION_FUNCTION
+  OP_ASSIGN,
+  OP_COPY_TO_REGISTER,
+  OP_ADDITION,
+  OP_SUBTRACTION,
+  OP_LOAD_GETATTRIBUTE_METHOD,
+  OP_MULTIPLICATION,
+  OP_DIVISION,
+  OP_NOT,
+  OP_LOAD_SETATTR_METHOD
 } OperationType;
 
 void arena_resize(ConstantArena *arena, size_t new_size);
 
-void *arena_get(ConstantArena *arena, size_t offset);
-
 size_t arena_push(ConstantArena *arena, const void *data, size_t length);
 
 size_t push_instruction_byte(Translated *translator, uint8_t byte);

src/translator/while/while.c

@@ -0,0 +1,55 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+#include "while.h"
+#include <stddef.h>
+
+size_t translate_parsed_while(Translated *translated, ParsedWhile *parsedWhile,
+                              ArErr *err) {
+  set_registers(translated, 1);
+  DArray return_jumps;
+  DArray *old_return_jumps = NULL;
+  if (translated->return_jumps) {
+    darray_init(&return_jumps, sizeof(size_t));
+    old_return_jumps = translated->return_jumps;
+    translated->return_jumps = &return_jumps;
+  }
+  size_t first = push_instruction_byte(translated, OP_NEW_SCOPE);
+  size_t start_of_loop =
+      translate_parsed(translated, parsedWhile->condition, err);
+  if (err->exists) {
+    return 0;
+  }
+  push_instruction_byte(translated, OP_BOOL);
+  push_instruction_byte(translated, OP_JUMP_IF_FALSE);
+  push_instruction_byte(translated, 0);
+  uint64_t jump_index = push_instruction_code(translated, 0);
+  translate_parsed(translated, parsedWhile->content, err);
+  push_instruction_byte(translated, OP_EMPTY_SCOPE);
+  push_instruction_byte(translated, OP_JUMP);
+  push_instruction_code(translated, start_of_loop);
+  set_instruction_code(translated, jump_index, translated->bytecode.size);
+  push_instruction_byte(translated, OP_POP_SCOPE);
+  push_instruction_byte(translated, OP_LOAD_NULL);
+  push_instruction_byte(translated, 0);
+  if (translated->return_jumps) {
+    push_instruction_byte(translated, OP_JUMP);
+    size_t skip_return = push_instruction_code(translated, 0);
+
+    size_t return_jump_to = push_instruction_byte(translated, OP_POP_SCOPE);
+    push_instruction_byte(translated, OP_JUMP);
+    size_t return_up = push_instruction_code(translated, 0);
+    darray_push(old_return_jumps, &return_up);
+    for (size_t i = 0; i < return_jumps.size; i++) {
+      size_t *index = darray_get(&return_jumps, i);
+      set_instruction_code(translated, *index, return_jump_to);
+    }
+    set_instruction_code(translated, skip_return, translated->bytecode.size);
+    darray_free(&return_jumps, NULL);
+    translated->return_jumps = old_return_jumps;
+  }
+  return first;
+}

src/translator/while/while.h

@@ -0,0 +1,15 @@
+/*
+ * SPDX-FileCopyrightText: 2025 William Bell
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+#ifndef TRANSLATE_WHILE_H
+#define TRANSLATE_WHILE_H
+#include "../translator.h"
+#include "../../parser/while/while.h"
+
+size_t translate_parsed_while(Translated *translated, ParsedWhile *parsedWhile,
+                              ArErr *err);
+
+#endif // TRANSLATE_WHILE_H

test.ar

@@ -1,94 +0,0 @@
-# SPDX-FileCopyrightText: 2025 William Bell
-
-# SPDX-License-Identifier: GPL-3.0-or-later
-
-"h"
-"e"
-"ll"
-"o"
-" "
-"wo"
-"rl"
-"d"
-"world"
-"hello world"
-"hello world"
-"hello world"
-"hello world"
-"hello world"
-"hello world"
-"hello world"
-"hello world"
-"hello world"
-"hello world"
-"hello world"
-"hello world"
-"hello world"
-"hello world"
-"hello world"
-"hello\u0000world"
-"🇬🇧"
-"\u0000"
-"hello"
-
-let hello = "helllo\n\n\n\n\n\n\n\n\n\n\n\n\n\n\nbruhhhhh"
-
-1.24323234e2312324
-
-let a, 
-    b = "hello", 
-    c, 
-    d = 42, 
-    temp_result, 
-    compute_area(radius) = 3.1415, 
-    identity(x) = x, 
-    f(x)=do
-        term.log("hello world")
-        do
-            term.log('hello world')
-        term.log("hello world")
-    ,
-    g(y, z), 
-    result, 
-    z = 0, 
-    extremely_long_variable_name_to_test_limits, 
-    cache_value = compute_area(5), 
-    placeholder_fn_with_no_body(arg1, arg2, arg3), 
-    total = identity(100), 
-    deeply_nested_args_function(arg1, arg2, arg3, arg4, arg5), 
-    sum = a, 
-    another, 
-    another_function(),
-    just_null_here,
-    x
-
-
-
-
-if (x) do
-    term.log("hello world")
-    term.log("hello world")
-else term.log("bruh")
-
-
-
-
-
-
-
-mm=x/2/4/2/4354/534/534//534//3422*404203420234+3432423324&&430234230||4320423040230423^384239423043024923%4432042304920.3432423423
-
-let X = [
-    'hello world',
-    'wow',
-    10
-]
-
-term.log(x[0:1:1])
-
-let y = {
-    'hello':test,
-    world:'nice'
-}
-
-term.log(y['hello'],y.world)

test.py

@@ -1,38 +0,0 @@
-# SPDX-FileCopyrightText: 2025 William Bell
-#
-# SPDX-License-Identifier: GPL-3.0-or-later
-
-import string
-from itertools import product
-import sys
-
-def generate_names(max_width, skip_keywords=None):
-    if skip_keywords is None:
-        skip_keywords = {"if", "else", "while", "forever", "for", "break", "continue",
-                         "return", "let", "import", "from", "do", "true", "false", "null",
-                         "delete", "not", "try", "catch", "in", "or", "and", "elif"}
-    else:
-        skip_keywords = set(skip_keywords)
-
-    chars = string.ascii_lowercase
-    first = True
-    write = sys.stdout.write
-
-    for length in range(1, max_width + 1):
-        print(length, file=sys.stderr)
-        i = 0
-        for p in product(chars, repeat=length):
-            name = ''.join(p)
-            if name in skip_keywords:
-                continue
-            write('let ')
-            write(name)
-            write(' = null\n')
-            first = False
-            if i>10000000:
-                break
-            i+=1
-
-# Example usage:
-max_width = 5
-generate_names(max_width)

testing.ar

@@ -1,10 +0,0 @@
-let say_hi(name) = do
-    let z(y) = do
-        return y
-    let u = z(
-    do
-        return name
-    )
-    return "hello "+u+", how are you?"
-
-term.log(say_hi("william"))

tests/anonymous_function.ar

@@ -0,0 +1 @@
+term.log(()=10)

tests/env.ar

@@ -0,0 +1 @@
+term.log("hello,", env.USER+'.', 'how is', env.XDG_SESSION_TYPE+'?')

tests/intergral.ar

@@ -0,0 +1,10 @@
+let f(x) = sin(x)
+
+let intergral_aprox(n, a, b) = do
+    let h = (b-a)/n
+    let output = 0
+    for (i from 1 to n+1) do
+        output += h*f(a+i*h)
+    return output
+
+term.log(intergral_aprox(1000, 0,1))

tests/iteration-test.ar

@@ -0,0 +1,4 @@
+term.log(global)
+let i = 1e8
+while (i) do
+  i=i-1

tests/iteration-test.py

@@ -0,0 +1,3 @@
+i = 1000000
+while i:
+  i=i-1

tests/number-memory-leak.ar

@@ -0,0 +1,6 @@
+let i = 10
+let x = 1
+while (i) do
+     x = x * 1e100000000
+     term.log(i=i-1)
+term.log(x)

windows-profile.txt

@@ -0,0 +1,12 @@
+[settings]
+os=Windows
+compiler=gcc
+compiler.version=12
+compiler.libcxx=libstdc++11
+compiler.threads=posix
+compiler.exception=seh
+arch=x86_64
+build_type=Release
+
+[tool_requires]
+mingw-builds/12.2.0