14 changed files with 111 additions and 630 deletions
--- a/TODO.md
+++ b/TODO.md
@ -11,8 +11,8 @@
 - Implement a FizzBuzz example
 - Also, check the codes for FIXME and TODO
 - Allocation is done using pointers for members, is this desired?
- Functions don't seem to be a thing on typing level yet?
+
- static_array and tuple should probably not be PrimitiveType3, but instead subclass AppliedType3?
+- Merge in type classes
 - test_bitwise_or_inv_type
 - test_bytes_index_out_of_bounds vs static trap(?)
@ -27,6 +27,3 @@
 - Casting is not implemented except u32 which is special cased
 - Parser is putting stuff in ModuleDataBlock
  - Compiler should probably do that
 - ourlang.BinaryOp should probably always be a Type3ClassMethod
  - Remove U32_OPERATOR_MAP / U64_OPERATOR_MAP
 - Make prelude more an actual thing
--- a/phasm/codestyle.py
+++ b/phasm/codestyle.py
@ -6,7 +6,6 @@ It's intented to be a "any color, as long as it's black" kind of renderer
 from typing import Generator
 from . import ourlang
 from .type3 import typeclasses as type3classes
 from .type3 import types as type3types
 from .type3.types import TYPE3_ASSERTION_ERROR, Type3, Type3OrPlaceholder
@ -104,12 +103,7 @@ def expression(inp: ourlang.Expression) -> str:
        return f'{inp.operator}{expression(inp.right)}'
    if isinstance(inp, ourlang.BinaryOp):
-        if isinstance(inp.operator, type3classes.Type3ClassMethod):
+        return f'{expression(inp.left)} {inp.operator} {expression(inp.right)}'
            operator = inp.operator.name
        else:
            operator = inp.operator
        return f'{expression(inp.left)} {operator} {expression(inp.right)}'
    if isinstance(inp, ourlang.FunctionCall):
        args = ', '.join(
--- a/phasm/compiler.py
+++ b/phasm/compiler.py
@ -2,13 +2,12 @@
 This module contains the code to convert parsed Ourlang into WebAssembly code
 """
 import struct
-from typing import Dict, List, Optional
+from typing import List, Optional
 from . import codestyle, ourlang, wasm
 from .runtime import calculate_alloc_size, calculate_member_offset
 from .stdlib import alloc as stdlib_alloc
 from .stdlib import types as stdlib_types
 from .type3 import typeclasses as type3classes
 from .type3 import types as type3types
 from .wasmgenerator import Generator as WasmGenerator
@ -26,55 +25,6 @@ LOAD_STORE_TYPE_MAP = {
    'bytes': 'i32', # Bytes are passed around as pointers
 }
 # For now this is nice & clean, but this will get messy quick
 # Especially once we get functions with polymorphying applied types
 INSTANCES = {
    type3classes.Eq.operators['==']: {
        'a=u8': stdlib_types.u8_eq_equals,
        'a=u32': stdlib_types.u32_eq_equals,
        'a=u64': stdlib_types.u64_eq_equals,
        'a=i8': stdlib_types.i8_eq_equals,
        'a=i32': stdlib_types.i32_eq_equals,
        'a=i64': stdlib_types.i64_eq_equals,
        'a=f32': stdlib_types.f32_eq_equals,
        'a=f64': stdlib_types.f64_eq_equals,
    },
    type3classes.Fractional.operators['/']: {
        'a=f32': stdlib_types.f32_fractional_div,
        'a=f64': stdlib_types.f64_fractional_div,
    },
    type3classes.Integral.methods['div']: {
        'a=u32': stdlib_types.u32_integral_div,
        'a=u64': stdlib_types.u64_integral_div,
        'a=i32': stdlib_types.i32_integral_div,
        'a=i64': stdlib_types.i64_integral_div,
    },
    type3classes.Num.operators['+']: {
        'a=u32': stdlib_types.u32_num_add,
        'a=u64': stdlib_types.u64_num_add,
        'a=i32': stdlib_types.i32_num_add,
        'a=i64': stdlib_types.i64_num_add,
        'a=f32': stdlib_types.f32_num_add,
        'a=f64': stdlib_types.f64_num_add,
    },
    type3classes.Num.operators['-']: {
        'a=u32': stdlib_types.u32_num_sub,
        'a=u64': stdlib_types.u64_num_sub,
        'a=i32': stdlib_types.i32_num_sub,
        'a=i64': stdlib_types.i64_num_sub,
        'a=f32': stdlib_types.f32_num_sub,
        'a=f64': stdlib_types.f64_num_sub,
    },
    type3classes.Num.operators['*']: {
        'a=u32': stdlib_types.u32_num_mul,
        'a=u64': stdlib_types.u64_num_mul,
        'a=i32': stdlib_types.i32_num_mul,
        'a=i64': stdlib_types.i64_num_mul,
        'a=f32': stdlib_types.f32_num_mul,
        'a=f64': stdlib_types.f64_num_mul,
    },
 }
 def phasm_compile(inp: ourlang.Module) -> wasm.Module:
    """
    Public method for compiling a parsed Phasm module into
@ -94,11 +44,6 @@ def type3(inp: type3types.Type3OrPlaceholder) -> wasm.WasmType:
    if inp == type3types.none:
        return wasm.WasmTypeNone()
    if inp == type3types.bool_:
        # WebAssembly stores booleans as i32
        # See e.g. f32.eq, which is [f32 f32] -> [i32]
        return wasm.WasmTypeInt32()
    if inp == type3types.u8:
        # WebAssembly has only support for 32 and 64 bits
        # So we need to store more memory per byte
@ -147,6 +92,14 @@ def type3(inp: type3types.Type3OrPlaceholder) -> wasm.WasmType:
    raise NotImplementedError(type3, inp)
 # Operators that work for i32, i64, f32, f64
 OPERATOR_MAP = {
    '+': 'add',
    '-': 'sub',
    '*': 'mul',
    '==': 'eq',
 }
 U8_OPERATOR_MAP = {
    # Under the hood, this is an i32
    # Implementing Right Shift XOR, OR, AND is fine since the 3 remaining
@ -167,6 +120,7 @@ U32_OPERATOR_MAP = {
    '^': 'xor',
    '|': 'or',
    '&': 'and',
    '/': 'div_u' # Division by zero is a trap and the program will panic
 }
 U64_OPERATOR_MAP = {
@ -179,6 +133,7 @@ U64_OPERATOR_MAP = {
    '^': 'xor',
    '|': 'or',
    '&': 'and',
    '/': 'div_u' # Division by zero is a trap and the program will panic
 }
 I32_OPERATOR_MAP = {
@ -186,6 +141,7 @@ I32_OPERATOR_MAP = {
    '>': 'gt_s',
    '<=': 'le_s',
    '>=': 'ge_s',
    '/': 'div_s' # Division by zero is a trap and the program will panic
 }
 I64_OPERATOR_MAP = {
@ -193,6 +149,15 @@ I64_OPERATOR_MAP = {
    '>': 'gt_s',
    '<=': 'le_s',
    '>=': 'ge_s',
    '/': 'div_s' # Division by zero is a trap and the program will panic
 }
 F32_OPERATOR_MAP = {
    '/': 'div' # Division by zero is a trap and the program will panic
 }
 F64_OPERATOR_MAP = {
    '/': 'div' # Division by zero is a trap and the program will panic
 }
 def tuple_instantiation(wgn: WasmGenerator, inp: ourlang.TupleInstantiation) -> None:
@ -338,30 +303,6 @@ def expression(wgn: WasmGenerator, inp: ourlang.Expression) -> None:
        expression(wgn, inp.right)
        assert isinstance(inp.type3, type3types.Type3), type3types.TYPE3_ASSERTION_ERROR
        if isinstance(inp.operator, type3classes.Type3ClassMethod):
            type_var_map: Dict[type3classes.TypeVariable, type3types.Type3] = {}
            for type_var, arg_expr in zip(inp.operator.signature, [inp.left, inp.right, inp]):
                if not isinstance(type_var, type3classes.TypeVariable):
                    # Fixed type, not part of the lookup requirements
                    continue
                assert isinstance(arg_expr.type3, type3types.Type3), type3types.TYPE3_ASSERTION_ERROR
                type_var_map[type_var] = arg_expr.type3
            instance_key = ','.join(
                f'{k.letter}={v.name}'
                for k, v in type_var_map.items()
            )
            instance = INSTANCES.get(inp.operator, {}).get(instance_key, None)
            if instance is not None:
                instance(wgn)
                return
            raise NotImplementedError(inp.operator, instance_key)
        # FIXME: Re-implement build-in operators
        # Maybe operator_annotation is the way to go
        # Maybe the older stuff below that is the way to go
@ -374,27 +315,56 @@ def expression(wgn: WasmGenerator, inp: ourlang.Expression) -> None:
        if operator_annotation == '(<) :: u64 -> u64 -> bool':
            wgn.add_statement('i64.lt_u')
            return
        if operator_annotation == '(==) :: u64 -> u64 -> bool':
            wgn.add_statement('i64.eq')
            return
        if inp.type3 == type3types.u8:
            if operator := U8_OPERATOR_MAP.get(inp.operator, None):
                wgn.add_statement(f'i32.{operator}')
                return
        if inp.type3 == type3types.u32:
            if operator := OPERATOR_MAP.get(inp.operator, None):
                wgn.add_statement(f'i32.{operator}')
                return
            if operator := U32_OPERATOR_MAP.get(inp.operator, None):
                wgn.add_statement(f'i32.{operator}')
                return
        if inp.type3 == type3types.u64:
            if operator := OPERATOR_MAP.get(inp.operator, None):
                wgn.add_statement(f'i64.{operator}')
                return
            if operator := U64_OPERATOR_MAP.get(inp.operator, None):
                wgn.add_statement(f'i64.{operator}')
                return
        if inp.type3 == type3types.i32:
            if operator := OPERATOR_MAP.get(inp.operator, None):
                wgn.add_statement(f'i32.{operator}')
                return
            if operator := I32_OPERATOR_MAP.get(inp.operator, None):
                wgn.add_statement(f'i32.{operator}')
                return
        if inp.type3 == type3types.i64:
            if operator := OPERATOR_MAP.get(inp.operator, None):
                wgn.add_statement(f'i64.{operator}')
                return
            if operator := I64_OPERATOR_MAP.get(inp.operator, None):
                wgn.add_statement(f'i64.{operator}')
                return
        if inp.type3 == type3types.f32:
            if operator := OPERATOR_MAP.get(inp.operator, None):
                wgn.add_statement(f'f32.{operator}')
                return
            if operator := F32_OPERATOR_MAP.get(inp.operator, None):
                wgn.add_statement(f'f32.{operator}')
                return
        if inp.type3 == type3types.f64:
            if operator := OPERATOR_MAP.get(inp.operator, None):
                wgn.add_statement(f'f64.{operator}')
                return
            if operator := F64_OPERATOR_MAP.get(inp.operator, None):
                wgn.add_statement(f'f64.{operator}')
                return
        raise NotImplementedError(expression, inp.operator, inp.left.type3, inp.right.type3, inp.type3)
@ -429,30 +399,6 @@ def expression(wgn: WasmGenerator, inp: ourlang.Expression) -> None:
        for arg in inp.arguments:
            expression(wgn, arg)
        if isinstance(inp.function, type3classes.Type3ClassMethod):
            # FIXME: Duplicate code with BinaryOp
            type_var_map = {}
            for type_var, arg_expr in zip(inp.function.signature, inp.arguments + [inp]):
                if not isinstance(type_var, type3classes.TypeVariable):
                    # Fixed type, not part of the lookup requirements
                    continue
                assert isinstance(arg_expr.type3, type3types.Type3), type3types.TYPE3_ASSERTION_ERROR
                type_var_map[type_var] = arg_expr.type3
            instance_key = ','.join(
                f'{k.letter}={v.name}'
                for k, v in type_var_map.items()
            )
            instance = INSTANCES.get(inp.function, {}).get(instance_key, None)
            if instance is not None:
                instance(wgn)
                return
            raise NotImplementedError(inp.function, instance_key)
        wgn.add_statement('call', '${}'.format(inp.function.name))
        return
--- a/phasm/ourlang.py
+++ b/phasm/ourlang.py
@ -6,7 +6,6 @@ from typing import Dict, Iterable, List, Optional, Union
 from typing_extensions import Final
 from .type3 import typeclasses as type3typeclasses
 from .type3 import types as type3types
 from .type3.types import PlaceholderForType, StructType3, Type3, Type3OrPlaceholder
@ -150,11 +149,11 @@ class BinaryOp(Expression):
    """
    __slots__ = ('operator', 'left', 'right', )
-    operator: Union[str, type3typeclasses.Type3ClassMethod]
+    operator: str
    left: Expression
    right: Expression
-    def __init__(self, operator: Union[str, type3typeclasses.Type3ClassMethod], left: Expression, right: Expression) -> None:
+    def __init__(self, operator: str, left: Expression, right: Expression) -> None:
        super().__init__()
        self.operator = operator
@ -170,10 +169,10 @@ class FunctionCall(Expression):
    """
    __slots__ = ('function', 'arguments', )
-    function: Union['Function', type3typeclasses.Type3ClassMethod]
+    function: 'Function'
    arguments: List[Expression]
-    def __init__(self, function: Union['Function', type3typeclasses.Type3ClassMethod]) -> None:
+    def __init__(self, function: 'Function') -> None:
        super().__init__()
        self.function = function
--- a/phasm/parser.py
+++ b/phasm/parser.py
@ -32,22 +32,8 @@ from .ourlang import (
    UnaryOp,
    VariableReference,
 )
 from .type3 import typeclasses as type3typeclasses
 from .type3 import types as type3types
 PRELUDE_OPERATORS = {
    **type3typeclasses.Eq.operators,
    **type3typeclasses.Fractional.operators,
    **type3typeclasses.Integral.operators,
    **type3typeclasses.Num.operators,
 }
 PRELUDE_METHODS = {
    **type3typeclasses.Eq.methods,
    **type3typeclasses.Fractional.methods,
    **type3typeclasses.Integral.methods,
    **type3typeclasses.Num.methods,
 }
 def phasm_parse(source: str) -> Module:
    """
@ -352,8 +338,6 @@ class OurVisitor:
    def visit_Module_FunctionDef_expr(self, module: Module, function: Function, our_locals: OurLocals, node: ast.expr) -> Expression:
        if isinstance(node, ast.BinOp):
            operator: Union[str, type3typeclasses.Type3ClassMethod]
            if isinstance(node.op, ast.Add):
                operator = '+'
            elif isinstance(node.op, ast.Sub):
@ -375,9 +359,6 @@ class OurVisitor:
            else:
                raise NotImplementedError(f'Operator {node.op}')
            if operator in PRELUDE_OPERATORS:
                operator = PRELUDE_OPERATORS[operator]
            return BinaryOp(
                operator,
                self.visit_Module_FunctionDef_expr(module, function, our_locals, node.left),
@ -410,9 +391,6 @@ class OurVisitor:
            else:
                raise NotImplementedError(f'Operator {node.ops}')
            if operator in PRELUDE_OPERATORS:
                operator = PRELUDE_OPERATORS[operator]
            return BinaryOp(
                operator,
                self.visit_Module_FunctionDef_expr(module, function, our_locals, node.left),
@ -474,11 +452,7 @@ class OurVisitor:
        if not isinstance(node.func.ctx, ast.Load):
            _raise_static_error(node, 'Must be load context')
-        func: Union[Function, type3typeclasses.Type3ClassMethod]
+        if node.func.id in module.struct_definitions:
        if node.func.id in PRELUDE_METHODS:
            func = PRELUDE_METHODS[node.func.id]
        elif node.func.id in module.struct_definitions:
            struct_definition = module.struct_definitions[node.func.id]
            struct_constructor = StructConstructor(struct_definition.struct_type3)
@ -539,15 +513,13 @@ class OurVisitor:
            func = module.functions[node.func.id]
-        exp_arg_count = len(func.posonlyargs) if isinstance(func, Function) else len(func.signature) - 1
+        if len(func.posonlyargs) != len(node.args):
-
+            _raise_static_error(node, f'Function {node.func.id} requires {len(func.posonlyargs)} arguments but {len(node.args)} are given')
        if exp_arg_count != len(node.args):
            _raise_static_error(node, f'Function {node.func.id} requires {exp_arg_count} arguments but {len(node.args)} are given')
        result = FunctionCall(func)
        result.arguments.extend(
            self.visit_Module_FunctionDef_expr(module, function, our_locals, arg_expr)
-            for arg_expr in node.args
+            for arg_expr, param in zip(node.args, func.posonlyargs)
        )
        return result
--- a/phasm/stdlib/types.py
+++ b/phasm/stdlib/types.py
@ -65,99 +65,3 @@ def __subscript_bytes__(g: Generator, adr: i32, ofs: i32) -> i32:
    g.return_()
    return i32('return') # To satisfy mypy
 def u8_eq_equals(g: Generator) -> None:
    g.add_statement('i32.eq')
 def u32_eq_equals(g: Generator) -> None:
    g.add_statement('i32.eq')
 def u64_eq_equals(g: Generator) -> None:
    g.add_statement('i64.eq')
 def i8_eq_equals(g: Generator) -> None:
    g.add_statement('i32.eq')
 def i32_eq_equals(g: Generator) -> None:
    g.add_statement('i32.eq')
 def i64_eq_equals(g: Generator) -> None:
    g.add_statement('i64.eq')
 def f32_eq_equals(g: Generator) -> None:
    g.add_statement('f32.eq')
 def f64_eq_equals(g: Generator) -> None:
    g.add_statement('f64.eq')
 def f32_fractional_div(g: Generator) -> None:
    g.add_statement('f32.div')
 def f64_fractional_div(g: Generator) -> None:
    g.add_statement('f64.div')
 def u32_integral_div(g: Generator) -> None:
    g.add_statement('i32.div_u')
 def u64_integral_div(g: Generator) -> None:
    g.add_statement('i64.div_u')
 def i32_integral_div(g: Generator) -> None:
    g.add_statement('i32.div_s')
 def i64_integral_div(g: Generator) -> None:
    g.add_statement('i64.div_s')
 def u32_num_add(g: Generator) -> None:
    g.add_statement('i32.add')
 def u64_num_add(g: Generator) -> None:
    g.add_statement('i64.add')
 def i32_num_add(g: Generator) -> None:
    g.add_statement('i32.add')
 def i64_num_add(g: Generator) -> None:
    g.add_statement('i64.add')
 def f32_num_add(g: Generator) -> None:
    g.add_statement('f32.add')
 def f64_num_add(g: Generator) -> None:
    g.add_statement('f64.add')
 def u32_num_sub(g: Generator) -> None:
    g.add_statement('i32.sub')
 def u64_num_sub(g: Generator) -> None:
    g.add_statement('i64.sub')
 def i32_num_sub(g: Generator) -> None:
    g.add_statement('i32.sub')
 def i64_num_sub(g: Generator) -> None:
    g.add_statement('i64.sub')
 def f32_num_sub(g: Generator) -> None:
    g.add_statement('f32.sub')
 def f64_num_sub(g: Generator) -> None:
    g.add_statement('f64.sub')
 def u32_num_mul(g: Generator) -> None:
    g.add_statement('i32.mul')
 def u64_num_mul(g: Generator) -> None:
    g.add_statement('i64.mul')
 def i32_num_mul(g: Generator) -> None:
    g.add_statement('i32.mul')
 def i64_num_mul(g: Generator) -> None:
    g.add_statement('i64.mul')
 def f32_num_mul(g: Generator) -> None:
    g.add_statement('f32.mul')
 def f64_num_mul(g: Generator) -> None:
    g.add_statement('f64.mul')
--- a/phasm/type3/constraints.py
+++ b/phasm/type3/constraints.py
@ -6,7 +6,7 @@ These need to be resolved before the program can be compiled.
 from typing import Dict, List, Optional, Tuple, Union
 from .. import ourlang
-from . import typeclasses, types
+from . import types
 class Error:
@ -288,21 +288,21 @@ class MustImplementTypeClassConstraint(ConstraintBase):
    """
    __slots__ = ('type_class3', 'type3', )
-    type_class3: Union[str, typeclasses.Type3Class]
+    type_class3: str
    type3: types.Type3OrPlaceholder
    DATA = {
-        'u8': {'BitWiseOperation', 'EqualComparison', 'StrictPartialOrder'},
+        'u8': {'BitWiseOperation', 'BasicMathOperation', 'EqualComparison', 'StrictPartialOrder'},
-        'u32': {'BitWiseOperation', 'EqualComparison', 'StrictPartialOrder'},
+        'u32': {'BitWiseOperation', 'BasicMathOperation', 'EqualComparison', 'StrictPartialOrder'},
-        'u64': {'BitWiseOperation', 'EqualComparison', 'StrictPartialOrder'},
+        'u64': {'BitWiseOperation', 'BasicMathOperation', 'EqualComparison', 'StrictPartialOrder'},
-        'i32': {'EqualComparison', 'StrictPartialOrder'},
+        'i32': {'BasicMathOperation', 'EqualComparison', 'StrictPartialOrder'},
-        'i64': {'EqualComparison', 'StrictPartialOrder'},
+        'i64': {'BasicMathOperation', 'EqualComparison', 'StrictPartialOrder'},
        'bytes': {'Foldable', 'Sized'},
-        'f32': {'Fractional', 'FloatingPoint'},
+        'f32': {'BasicMathOperation', 'FloatingPoint'},
-        'f64': {'Fractional', 'FloatingPoint'},
+        'f64': {'BasicMathOperation', 'FloatingPoint'},
    }
-    def __init__(self, type_class3: Union[str, typeclasses.Type3Class], type3: types.Type3OrPlaceholder, comment: Optional[str] = None) -> None:
+    def __init__(self, type_class3: str, type3: types.Type3OrPlaceholder, comment: Optional[str] = None) -> None:
        super().__init__(comment=comment)
        self.type_class3 = type_class3
@ -316,12 +316,8 @@ class MustImplementTypeClassConstraint(ConstraintBase):
        if isinstance(typ, types.PlaceholderForType):
            return RequireTypeSubstitutes()
-        if isinstance(self.type_class3, typeclasses.Type3Class):
+        if self.type_class3 in self.__class__.DATA.get(typ.name, set()):
-            if self.type_class3 in typ.classes:
+            return None
                return None
        else:
            if self.type_class3 in self.__class__.DATA.get(typ.name, set()):
                return None
        return Error(f'{typ.name} does not implement the {self.type_class3} type class')
@ -329,7 +325,7 @@ class MustImplementTypeClassConstraint(ConstraintBase):
        return (
            '{type3} derives {type_class3}',
            {
-                'type_class3': str(self.type_class3),
+                'type_class3': self.type_class3,
                'type3': self.type3,
            },
        )
--- a/phasm/type3/constraintsgenerator.py
+++ b/phasm/type3/constraintsgenerator.py
@ -6,7 +6,6 @@ The constraints solver can then try to resolve all constraints.
 from typing import Generator, List
 from .. import ourlang
 from . import typeclasses as type3typeclasses
 from . import types as type3types
 from .constraints import (
    CanBeSubscriptedConstraint,
@ -66,37 +65,6 @@ def expression(ctx: Context, inp: ourlang.Expression) -> ConstraintGenerator:
        raise NotImplementedError(expression, inp, inp.operator)
    if isinstance(inp, ourlang.BinaryOp):
        if isinstance(inp.operator, type3typeclasses.Type3ClassMethod):
            type_var_map = {
                x: type3types.PlaceholderForType([])
                for x in inp.operator.signature
                if isinstance(x, type3typeclasses.TypeVariable)
            }
            yield from expression(ctx, inp.left)
            yield from expression(ctx, inp.right)
            for type_var in inp.operator.type3_class.args:
                assert type_var in type_var_map # When can this happen?
                yield MustImplementTypeClassConstraint(
                    inp.operator.type3_class,
                    type_var_map[type_var],
                )
            for sig_part, arg_expr in zip(inp.operator.signature, [inp.left, inp.right, inp]):
                if isinstance(sig_part, type3typeclasses.TypeVariable):
                    yield SameTypeConstraint(type_var_map[sig_part], arg_expr.type3)
                    continue
                if isinstance(sig_part, type3typeclasses.TypeReference):
                    # On key error: We probably have to a lot of work to do refactoring
                    # the type lookups
                    exp_type = type3types.LOOKUP_TABLE[sig_part.name]
                    yield SameTypeConstraint(exp_type, arg_expr.type3)
                    continue
            return
        if inp.operator in ('|', '&', '^', ):
            yield from expression(ctx, inp.left)
            yield from expression(ctx, inp.right)
@ -115,6 +83,15 @@ def expression(ctx: Context, inp: ourlang.Expression) -> ConstraintGenerator:
                comment=f'({inp.operator}) :: a -> a -> a')
            return
        if inp.operator in ('+', '-', '*', '/', ):
            yield from expression(ctx, inp.left)
            yield from expression(ctx, inp.right)
            yield MustImplementTypeClassConstraint('BasicMathOperation', inp.left.type3)
            yield SameTypeConstraint(inp.left.type3, inp.right.type3, inp.type3,
                comment=f'({inp.operator}) :: a -> a -> a')
            return
        if inp.operator == '==':
            yield from expression(ctx, inp.left)
            yield from expression(ctx, inp.right)
@ -140,39 +117,6 @@ def expression(ctx: Context, inp: ourlang.Expression) -> ConstraintGenerator:
        raise NotImplementedError(expression, inp)
    if isinstance(inp, ourlang.FunctionCall):
        if isinstance(inp.function, type3typeclasses.Type3ClassMethod):
            # FIXME: Duplicate code with BinaryOp
            type_var_map = {
                x: type3types.PlaceholderForType([])
                for x in inp.function.signature
                if isinstance(x, type3typeclasses.TypeVariable)
            }
            for call_arg in inp.arguments:
                yield from expression(ctx, call_arg)
            for type_var in inp.function.type3_class.args:
                assert type_var in type_var_map # When can this happen?
                yield MustImplementTypeClassConstraint(
                    inp.function.type3_class,
                    type_var_map[type_var],
                )
            for sig_part, arg_expr in zip(inp.function.signature, inp.arguments + [inp]):
                if isinstance(sig_part, type3typeclasses.TypeVariable):
                    yield SameTypeConstraint(type_var_map[sig_part], arg_expr.type3)
                    continue
                if isinstance(sig_part, type3typeclasses.TypeReference):
                    # On key error: We probably have to a lot of work to do refactoring
                    # the type lookups
                    exp_type = type3types.LOOKUP_TABLE[sig_part.name]
                    yield SameTypeConstraint(exp_type, arg_expr.type3)
                    continue
            return
        yield SameTypeConstraint(inp.function.returns_type3, inp.type3,
            comment=f'The type of a function call to {inp.function.name} is the same as the type that the function returns')
--- a/phasm/type3/typeclasses.py
+++ b/phasm/type3/typeclasses.py
@ -1,103 +0,0 @@
 from typing import Any, Dict, Iterable, List, Mapping, Union
 class TypeVariable:
    __slots__ = ('letter', )
    letter: str
    def __init__(self, letter: str) -> None:
        assert len(letter) == 1, f'{letter} is not a valid type variable'
        self.letter = letter
    def __hash__(self) -> int:
        return hash(self.letter)
    def __eq__(self, other: Any) -> bool:
        if not isinstance(other, TypeVariable):
            raise NotImplementedError
        return self.letter == other.letter
    def __repr__(self) -> str:
        return f'TypeVariable({repr(self.letter)})'
 class TypeReference:
    __slots__ = ('name', )
    name: str
    def __init__(self, name: str) -> None:
        assert len(name) > 1, f'{name} is not a valid type reference'
        self.name = name
    def __hash__(self) -> int:
        return hash(self.name)
    def __eq__(self, other: Any) -> bool:
        if not isinstance(other, TypeReference):
            raise NotImplementedError
        return self.name == other.name
    def __repr__(self) -> str:
        return f'TypeReference({repr(self.name)})'
 class Type3ClassMethod:
    __slots__ = ('type3_class', 'name', 'signature', )
    type3_class: 'Type3Class'
    name: str
    signature: List[Union[TypeReference, TypeVariable]]
    def __init__(self, type3_class: 'Type3Class', name: str, signature: str) -> None:
        self.type3_class = type3_class
        self.name = name
        self.signature = [
            TypeVariable(x) if len(x) == 1 else TypeReference(x)
            for x in signature.split(' -> ')
        ]
    def __repr__(self) -> str:
        return f'Type3ClassMethod({repr(self.type3_class)}, {repr(self.name)}, {repr(self.signature)})'
 class Type3Class:
    __slots__ = ('name', 'args', 'methods', 'operators', )
    name: str
    args: List[TypeVariable]
    methods: Dict[str, Type3ClassMethod]
    operators: Dict[str, Type3ClassMethod]
    def __init__(self, name: str, args: Iterable[str], methods: Mapping[str, str], operators: Mapping[str, str]) -> None:
        self.name = name
        self.args = [TypeVariable(x) for x in args]
        self.methods = {
            k: Type3ClassMethod(self, k, v)
            for k, v in methods.items()
        }
        self.operators = {
            k: Type3ClassMethod(self, k, v)
            for k, v in operators.items()
        }
    def __repr__(self) -> str:
        return self.name
 Eq = Type3Class('Eq', ['a'], methods={}, operators={
    '==': 'a -> a -> bool',
 })
 Fractional = Type3Class('Fractional', ['a'], methods={}, operators={
    '/': 'a -> a -> a',
 })
 Integral = Type3Class('Eq', ['a'], methods={
    'div': 'a -> a -> a',
 }, operators={})
 Num = Type3Class('Num', ['a'], methods={}, operators={
    '+': 'a -> a -> a',
    '-': 'a -> a -> a',
    '*': 'a -> a -> a',
 })
--- a/phasm/type3/types.py
+++ b/phasm/type3/types.py
@ -6,8 +6,6 @@ constraint generator works with.
 """
 from typing import Any, Dict, Iterable, List, Optional, Protocol, Union
 from .typeclasses import Eq, Fractional, Integral, Num, Type3Class
 TYPE3_ASSERTION_ERROR = 'You must call phasm_type3 after calling phasm_parse before you can call any other method'
 class ExpressionProtocol(Protocol):
@ -24,24 +22,18 @@ class Type3:
    """
    Base class for the type3 types
    """
-    __slots__ = ('name', 'classes', )
+    __slots__ = ('name', )
    name: str
    """
    The name of the string, as parsed and outputted by codestyle.
    """
-    classes: List[Type3Class]
+    def __init__(self, name: str) -> None:
    """
    The type classes that this type implements
    """
    def __init__(self, name: str, classes: Iterable[Type3Class]) -> None:
        self.name = name
        self.classes = [*classes]
    def __repr__(self) -> str:
-        return f'Type3({repr(self.name)}, {repr(self.classes)})'
+        return f'Type3("{self.name}")'
    def __str__(self) -> str:
        return self.name
@ -87,7 +79,7 @@ class IntType3(Type3):
    value: int
    def __init__(self, value: int) -> None:
-        super().__init__(str(value), [])
+        super().__init__(str(value))
        assert 0 <= value
        self.value = value
@ -172,8 +164,7 @@ class AppliedType3(Type3):
            base.name
            + ' ('
            + ') ('.join(str(x) for x in args) # FIXME: Do we need to redo the name on substitution?
-            + ')',
+            + ')'
            []
        )
        self.base = base
@ -222,7 +213,7 @@ class StructType3(Type3):
    """
    def __init__(self, name: str, members: Dict[str, Type3]) -> None:
-        super().__init__(name, [])
+        super().__init__(name)
        self.name = name
        self.members = dict(members)
@ -230,40 +221,38 @@ class StructType3(Type3):
    def __repr__(self) -> str:
        return f'StructType3(repr({self.name}), repr({self.members}))'
-none = PrimitiveType3('none', [])
+none = PrimitiveType3('none')
 """
 The none type, for when functions simply don't return anything. e.g., IO().
 """
-bool_ = PrimitiveType3('bool', [])
+bool_ = PrimitiveType3('bool')
 """
 The bool type, either True or False
 Suffixes with an underscores, as it's a Python builtin
 """
-u8 = PrimitiveType3('u8', [Eq, Integral])
+u8 = PrimitiveType3('u8')
 """
 The unsigned 8-bit integer type.
 Operations on variables employ modular arithmetic, with modulus 2^8.
 """
-u32 = PrimitiveType3('u32', [Eq, Integral, Num])
+u32 = PrimitiveType3('u32')
 """
 The unsigned 32-bit integer type.
 Operations on variables employ modular arithmetic, with modulus 2^32.
 """
-u64 = PrimitiveType3('u64', [Eq, Integral, Num])
+u64 = PrimitiveType3('u64')
 """
 The unsigned 64-bit integer type.
 Operations on variables employ modular arithmetic, with modulus 2^64.
 """
-i8 = PrimitiveType3('i8', [Eq, Integral])
+i8 = PrimitiveType3('i8')
 """
 The signed 8-bit integer type.
@ -271,7 +260,7 @@ Operations on variables employ modular arithmetic, with modulus 2^8, but
 with the middel point being 0.
 """
-i32 = PrimitiveType3('i32', [Eq, Integral, Num])
+i32 = PrimitiveType3('i32')
 """
 The unsigned 32-bit integer type.
@ -279,7 +268,7 @@ Operations on variables employ modular arithmetic, with modulus 2^32, but
 with the middel point being 0.
 """
-i64 = PrimitiveType3('i64', [Eq, Integral, Num])
+i64 = PrimitiveType3('i64')
 """
 The unsigned 64-bit integer type.
@ -287,22 +276,22 @@ Operations on variables employ modular arithmetic, with modulus 2^64, but
 with the middel point being 0.
 """
-f32 = PrimitiveType3('f32', [Eq, Fractional, Num])
+f32 = PrimitiveType3('f32')
 """
 A 32-bits IEEE 754 float, of 32 bits width.
 """
-f64 = PrimitiveType3('f64', [Eq, Fractional, Num])
+f64 = PrimitiveType3('f64')
 """
 A 32-bits IEEE 754 float, of 64 bits width.
 """
-bytes = PrimitiveType3('bytes', [])
+bytes = PrimitiveType3('bytes')
 """
 This is a runtime-determined length piece of memory that can be indexed at runtime.
 """
-static_array = PrimitiveType3('static_array', [])
+static_array = PrimitiveType3('static_array')
 """
 This is a fixed length piece of memory that can be indexed at runtime.
@ -310,7 +299,7 @@ It should be applied with one argument. It has a runtime-dynamic length
 of the same type repeated.
 """
-tuple = PrimitiveType3('tuple', []) # pylint: disable=W0622
+tuple = PrimitiveType3('tuple') # pylint: disable=W0622
 """
 This is a fixed length piece of memory.
--- a/tests/integration/helpers.py
+++ b/tests/integration/helpers.py
@ -249,10 +249,6 @@ def _load_memory_stored_returned_value(
    if ret_type3 is type3types.none:
        return None
    if ret_type3 is type3types.bool_:
        assert isinstance(wasm_value, int), wasm_value
        return 0 != wasm_value
    if ret_type3 in (type3types.i32, type3types.i64):
        assert isinstance(wasm_value, int), wasm_value
        return wasm_value
--- a/tests/integration/test_lang/test_eq.py
+++ b/tests/integration/test_lang/test_eq.py
@ -1,101 +0,0 @@
 import pytest
 from phasm.type3.entry import Type3Exception
 from ..helpers import Suite
 INT_TYPES = ['u8', 'u32', 'u64', 'i8', 'i32', 'i64']
 FLOAT_TYPES = ['f32', 'f64']
 TYPE_MAP = {
    'u8': int,
    'u32': int,
    'u64': int,
    'i8': int,
    'i32': int,
    'i64': int,
    'f32': float,
    'f64': float,
 }
@pytest.mark.integration_test
 def test_equals_not_implemented():
    code_py = """
 class Foo:
    val: i32
@exported
 def testEntry(x: Foo, y: Foo) -> Foo:
    return x + y
 """
    with pytest.raises(Type3Exception, match='Foo does not implement the Num type class'):
        Suite(code_py).run_code()
@pytest.mark.integration_test
@pytest.mark.parametrize('type_', INT_TYPES)
 def test_equals_int_same(type_):
    code_py = f"""
 CONSTANT0: {type_} = 10
 CONSTANT1: {type_} = 10
@exported
 def testEntry() -> bool:
    return CONSTANT0 == CONSTANT1
 """
    result = Suite(code_py).run_code()
    assert True is result.returned_value
@pytest.mark.integration_test
@pytest.mark.parametrize('type_', INT_TYPES)
 def test_equals_int_different(type_):
    code_py = f"""
 CONSTANT0: {type_} = 10
 CONSTANT1: {type_} = 3
@exported
 def testEntry() -> bool:
    return CONSTANT0 == CONSTANT1
 """
    result = Suite(code_py).run_code()
    assert False is result.returned_value
@pytest.mark.integration_test
@pytest.mark.parametrize('type_', FLOAT_TYPES)
 def test_equals_float_same(type_):
    code_py = f"""
 CONSTANT0: {type_} = 10.125
 CONSTANT1: {type_} = 10.125
@exported
 def testEntry() -> bool:
    return CONSTANT0 == CONSTANT1
 """
    result = Suite(code_py).run_code()
    assert True is result.returned_value
@pytest.mark.integration_test
@pytest.mark.parametrize('type_', FLOAT_TYPES)
 def test_equals_float_different(type_):
    code_py = f"""
 CONSTANT0: {type_} = 10.32
 CONSTANT1: {type_} = 10.33
@exported
 def testEntry() -> bool:
    return CONSTANT0 == CONSTANT1
 """
    result = Suite(code_py).run_code()
    assert False is result.returned_value
--- a/tests/integration/test_lang/test_integral.py
+++ b/tests/integration/test_lang/test_integral.py
@ -10,7 +10,7 @@ def test_division_int(type_):
    code_py = f"""
@exported
 def testEntry() -> {type_}:
-    return div(10, 3)
+    return 10 / 3
 """
    result = Suite(code_py).run_code()
@ -24,7 +24,7 @@ def test_division_zero_let_it_crash_int(type_):
    code_py = f"""
@exported
 def testEntry() -> {type_}:
-    return div(10, 0)
+    return 10 / 0
 """
    # WebAssembly dictates that integer division is a partial operator (e.g. unreachable for 0)
--- a/tests/integration/test_lang/test_num.py
+++ b/tests/integration/test_lang/test_num.py
@ -1,7 +1,5 @@
 import pytest
 from phasm.type3.entry import Type3Exception
 from ..helpers import Suite
 INT_TYPES = ['u32', 'u64', 'i32', 'i64']
@ -16,20 +14,6 @@ TYPE_MAP = {
    'f64': float,
 }
@pytest.mark.integration_test
 def test_addition_not_implemented():
    code_py = """
 class Foo:
    val: i32
@exported
 def testEntry(x: Foo, y: Foo) -> Foo:
    return x + y
 """
    with pytest.raises(Type3Exception, match='Foo does not implement the Num type class'):
        Suite(code_py).run_code()
@pytest.mark.integration_test
@pytest.mark.parametrize('type_', INT_TYPES)
 def test_addition_int(type_):
@ -87,56 +71,20 @@ def testEntry() -> {type_}:
    assert TYPE_MAP[type_] is type(result.returned_value)
@pytest.mark.integration_test
-def test_subtraction_negative_result():
+@pytest.mark.skip('TODO: Runtimes return a signed value, which is difficult to test')
-    code_py = """
+@pytest.mark.parametrize('type_', ('u32', 'u64')) # FIXME: u8
 def test_subtraction_underflow(type_):
    code_py = f"""
@exported
-def testEntry() -> i32:
+def testEntry() -> {type_}:
    return 10 - 11
 """
    result = Suite(code_py).run_code()
-    assert -1 == result.returned_value
+    assert 0 < result.returned_value
-@pytest.mark.integration_test
+# TODO: Multiplication
 def test_subtraction_underflow():
    code_py = """
@exported
 def testEntry() -> u32:
    return 10 - 11
 """
    result = Suite(code_py).run_code()
    assert 4294967295 == result.returned_value
@pytest.mark.integration_test
@pytest.mark.parametrize('type_', INT_TYPES)
 def test_multiplication_int(type_):
    code_py = f"""
@exported
 def testEntry() -> {type_}:
    return 10 * 3
 """
    result = Suite(code_py).run_code()
    assert 30 == result.returned_value
    assert TYPE_MAP[type_] == type(result.returned_value)
@pytest.mark.integration_test
@pytest.mark.parametrize('type_', FLOAT_TYPES)
 def test_multiplication_float(type_):
    code_py = f"""
@exported
 def testEntry() -> {type_}:
    return 32.0 * 0.125
 """
    result = Suite(code_py).run_code()
    assert 4.0 == result.returned_value
    assert TYPE_MAP[type_] == type(result.returned_value)
@pytest.mark.integration_test
@pytest.mark.parametrize('type_', INT_TYPES)