path: root/Meta/generate-libwasm-spec-test.py

#!/usr/bin/env python3
import struct
from sys import argv, stderr
from os import path
from string import whitespace
import re
import math
from tempfile import NamedTemporaryFile
from subprocess import call
import json

atom_end = set('()"' + whitespace)


def parse(sexp):
    sexp = re.sub(r'(?m)\(;.*;\)', '', re.sub(r'(;;.*)', '', sexp))
    stack, i, length = [[]], 0, len(sexp)
    while i < length:
        c = sexp[i]
        kind = type(stack[-1])
        if kind == list:
            if c == '(':
                stack.append([])
            elif c == ')':
                stack[-2].append(stack.pop())
            elif c == '"':
                stack.append('')
            elif c in whitespace:
                pass
            else:
                stack.append((c,))
        elif kind == str:
            if c == '"':
                stack[-2].append(stack.pop())
            elif c == '\\':
                i += 1
                if sexp[i] != '"':
                    stack[-1] += '\\'
                stack[-1] += sexp[i]
            else:
                stack[-1] += c
        elif kind == tuple:
            if c in atom_end:
                atom = stack.pop()
                stack[-1].append(atom)
                continue
            else:
                stack[-1] = ((stack[-1][0] + c),)
        i += 1
    return stack.pop()


def parse_typed_value(ast):
    types = {
        'i32.const': 'i32',
        'i64.const': 'i64',
        'f32.const': 'float',
        'f64.const': 'double',
    }
    if len(ast) == 2 and ast[0][0] in types:
        return {"type": types[ast[0][0]], "value": ast[1][0]}

    return {"type": "error"}


def generate_module_source_for_compilation(entries):
    s = '('
    for entry in entries:
        if type(entry) == tuple and len(entry) == 1 and type(entry[0]) == str:
            s += entry[0] + ' '
        elif type(entry) == str:
            s += json.dumps(entry).replace('\\\\', '\\') + ' '
        elif type(entry) == list:
            s += generate_module_source_for_compilation(entry)
        else:
            raise Exception("wat? I dunno how to pretty print " + str(type(entry)))
    while s.endswith(' '):
        s = s[:len(s) - 1]
    return s + ')'


def generate_binary_source(chunks):
    res = b''
    for chunk in chunks:
        i = 0
        while i < len(chunk):
            c = chunk[i]
            if c == '\\':
                res += bytes.fromhex(chunk[i + 1: i + 3])
                i += 3
                continue
            res += c.encode('utf-8')
            i += 1
    return res


named_modules = {}
named_modules_inverse = {}
registered_modules = {}
module_output_path: str


def generate_module(ast):
    # (module ...)
    name = None
    mode = 'ast'  # binary, quote
    start_index = 1
    if len(ast) > 1:
        if isinstance(ast[1], tuple) and isinstance(ast[1][0], str) and ast[1][0].startswith('$'):
            name = ast[1][0]
            if len(ast) > 2:
                if isinstance(ast[2], tuple) and ast[2][0] in ('binary', 'quote'):
                    mode = ast[2][0]
                    start_index = 3
                else:
                    start_index = 2
        elif isinstance(ast[1][0], str):
            mode = ast[1][0]
            start_index = 2

    result = {
        'ast': lambda: ('parse', generate_module_source_for_compilation(ast)),
        'binary': lambda: ('literal', generate_binary_source(ast[start_index:])),
        # FIXME: Make this work when we have a WAT parser
        'quote': lambda: ('literal', ast[start_index]),
    }[mode]()

    return {
        'module': result,
        'name': name
    }


def generate(ast):
    global named_modules, named_modules_inverse, registered_modules

    if type(ast) != list:
        return []
    tests = []
    for entry in ast:
        if len(entry) > 0 and entry[0] == ('module',):
            gen = generate_module(entry)
            module, name = gen['module'], gen['name']
            tests.append({
                "module": module,
                "tests": []
            })

            if name is not None:
                named_modules[name] = len(tests) - 1
                named_modules_inverse[len(tests) - 1] = (name, None)
        elif entry[0] == ('assert_unlinkable',):
            # (assert_unlinkable module message)
            if len(entry) < 2 or not isinstance(entry[1], list) or entry[1][0] != ('module',):
                print(f"Invalid argument to assert_unlinkable: {entry[1]}", file=stderr)
                continue
            result = generate_module(entry[1])
            tests.append({
                'module': None,
                'tests': [{
                    "kind": "unlinkable",
                    "module": result['module'],
                }]
            })
        elif len(entry) in [2, 3] and entry[0][0].startswith('assert_'):
            if entry[1][0] == ('invoke',):
                arg, name, module = 0, None, None
                if isinstance(entry[1][1], str):
                    name = entry[1][1]
                else:
                    name = entry[1][2]
                    module = named_modules[entry[1][1][0]]
                    arg = 1
                tests[-1]["tests"].append({
                    "kind": entry[0][0][len('assert_'):],
                    "function": {
                        "module": module,
                        "name": name,
                        "args": list(parse_typed_value(x) for x in entry[1][arg + 2:])
                    },
                    "result": parse_typed_value(entry[2]) if len(entry) == 3 + arg else None
                })
            elif entry[1][0] == ('get',):
                arg, name, module = 0, None, None
                if isinstance(entry[1][1], str):
                    name = entry[1][1]
                else:
                    name = entry[1][2]
                    module = named_modules[entry[1][1][0]]
                    arg = 1
                tests[-1]["tests"].append({
                    "kind": entry[0][0][len('assert_'):],
                    "get": {
                        "name": name,
                        "module": module,
                    },
                    "result": parse_typed_value(entry[2]) if len(entry) == 3 + arg else None
                })
            else:
                if not len(tests):
                    tests.append({
                        "module": ('literal', b""),
                        "tests": []
                    })
                tests[-1]["tests"].append({
                    "kind": "testgen_fail",
                    "function": {
                        "module": None,
                        "name": "<unknown>",
                        "args": []
                    },
                    "reason": f"Unknown assertion {entry[0][0][len('assert_'):]}"
                })
        elif len(entry) >= 2 and entry[0][0] == 'invoke':
            # toplevel invoke :shrug:
            arg, name, module = 0, None, None
            if not isinstance(entry[1], str) and isinstance(entry[1][1], str):
                name = entry[1][1]
            elif isinstance(entry[1], str):
                name = entry[1]
            else:
                name = entry[1][2]
                module = named_modules[entry[1][1][0]]
                arg = 1
            tests[-1]["tests"].append({
                "kind": "ignore",
                "function": {
                    "module": module,
                    "name": name,
                    "args": list(parse_typed_value(x) for x in entry[1][arg + 2:])
                },
                "result": parse_typed_value(entry[2]) if len(entry) == 3 + arg else None
            })
        elif len(entry) > 1 and entry[0][0] == 'register':
            if len(entry) == 3:
                registered_modules[entry[1]] = named_modules[entry[2][0]]
                x = named_modules_inverse[named_modules[entry[2][0]]]
                named_modules_inverse[named_modules[entry[2][0]]] = (x[0], entry[1])
            else:
                index = len(tests) - 1
                registered_modules[entry[1]] = index
                named_modules_inverse[index] = (":" + entry[1], entry[1])
        else:
            if not len(tests):
                tests.append({
                    "module": ('literal', b""),
                    "tests": []
                })
            tests[-1]["tests"].append({
                "kind": "testgen_fail",
                "function": {
                    "module": None,
                    "name": "<unknown>",
                    "args": []
                },
                "reason": f"Unknown command {entry[0][0]}"
            })
    return tests


def genarg(spec):
    if spec['type'] == 'error':
        return '0'

    def gen():
        x = spec['value']
        if spec['type'] in ('i32', 'i64'):
            if x.startswith('0x'):
                if spec['type'] == 'i32':
                    # cast back to i32 to get the correct sign
                    return str(struct.unpack('>i', struct.pack('>Q', int(x, 16))[4:])[0])

                # cast back to i64 to get the correct sign
                return str(struct.unpack('>q', struct.pack('>Q', int(x, 16)))[0]) + 'n'
            if spec['type'] == 'i64':
                # Make a bigint instead, since `double' cannot fit all i64 values.
                return x + 'n'
            return x

        if x == 'nan':
            return 'NaN'
        if x == '-nan':
            return '-NaN'

        try:
            x = float(x)
            if math.isnan(x):
                # FIXME: This is going to mess up the different kinds of nan
                return '-NaN' if math.copysign(1.0, x) < 0 else 'NaN'
            if math.isinf(x):
                return 'Infinity' if x > 0 else '-Infinity'
            return x
        except ValueError:
            try:
                x = float.fromhex(x)
                if math.isnan(x):
                    # FIXME: This is going to mess up the different kinds of nan
                    return '-NaN' if math.copysign(1.0, x) < 0 else 'NaN'
                if math.isinf(x):
                    return 'Infinity' if x > 0 else '-Infinity'
                return x
            except ValueError:
                try:
                    x = int(x, 0)
                    return x
                except ValueError:
                    return x

    x = gen()
    if isinstance(x, str):
        if x.startswith('nan'):
            return 'NaN'
        if x.startswith('-nan'):
            return '-NaN'
        return x
    return str(x)


all_names_in_main = {}


def genresult(ident, entry, index):
    expectation = f'expect().fail("Unknown result structure " + {json.dumps(entry)})'
    if "function" in entry:
        tmodule = 'module'
        if entry['function']['module'] is not None:
            tmodule = f'namedModules[{json.dumps(named_modules_inverse[entry["function"]["module"]][0])}]'
        expectation = (
            f'{tmodule}.invoke({ident}, {", ".join(genarg(x) for x in entry["function"]["args"])})'
        )
    elif "get" in entry:
        expectation = f'module.getExport({ident})'

    if entry['kind'] == 'return':
        return (
                f'let {ident}_result = {expectation};\n    ' +
                (f'expect({ident}_result).toBe({genarg(entry["result"])})\n    ' if entry["result"] is not None else '')
        )

    if entry['kind'] == 'trap':
        return (
            f'expect(() => {expectation}).toThrow(TypeError, "Execution trapped");\n    '
        )

    if entry['kind'] == 'ignore':
        return expectation

    if entry['kind'] == 'unlinkable':
        name = f'mod-{ident}-{index}.wasm'
        outpath = path.join(module_output_path, name)
        if not compile_wasm_source(entry['module'], outpath):
            return 'throw new Error("Module compilation failed");'
        return (
            f'    expect(() => {{\n'
            f'        let content = readBinaryWasmFile("Fixtures/SpecTests/{name}");\n'
            f'        parseWebAssemblyModule(content, globalImportObject);\n'
            f'    }}).toThrow(TypeError, "Linking failed");'
        )

    if entry['kind'] == 'testgen_fail':
        return f'throw Exception("Test Generator Failure: " + {json.dumps(entry["reason"])});\n    '

    return f'throw Exception("(Test Generator) Unknown test kind {entry["kind"]}");\n    '


raw_test_number = 0


def gentest(entry, main_name):
    global raw_test_number
    isfunction = 'function' in entry
    name: str
    isempty = False
    if isfunction or 'get' in entry:
        name = json.dumps((entry["function"] if isfunction else entry["get"])["name"])[1:-1]
    else:
        isempty = True
        name = str(f"_inline_test_{raw_test_number}")
        raw_test_number += 1
    if type(name) != str:
        print("Unsupported test case (call to", name, ")", file=stderr)
        return '\n    '
    ident = '_' + re.sub("[^a-zA-Z_0-9]", "_", name)
    count = all_names_in_main.get(name, 0)
    all_names_in_main[name] = count + 1
    test_name = f'execution of {main_name}: {name} (instance {count})'
    tmodule = 'module'
    if not isempty:
        key = "function" if "function" in entry else "get"
        if entry[key]['module'] is not None:
            tmodule = f'namedModules[{json.dumps(named_modules_inverse[entry[key]["module"]][0])}]'
    source = (
            f'test({json.dumps(test_name)}, () => {{\n' +
            (
                f'let {ident} = {tmodule}.getExport({json.dumps(name)});\n        '
                f'expect({ident}).not.toBeUndefined();\n        '
                if not isempty else ''
            ) +
            f'{genresult(ident, entry, count)}'
            '});\n\n    '
    )
    return source


def gen_parse_module(name, index):
    export_string = ''
    if index in named_modules_inverse:
        entry = named_modules_inverse[index]
        export_string += f'namedModules[{json.dumps(entry[0])}] = module;\n    '
        if entry[1]:
            export_string += f'globalImportObject[{json.dumps(entry[1])}] = module;\n    '

    return (
        f'let content = readBinaryWasmFile("Fixtures/SpecTests/{name}.wasm");\n    '
        f'const module = parseWebAssemblyModule(content, globalImportObject)\n    '
        f'{export_string}\n     '
    )


def nth(a, x, y=None):
    if y:
        return a[x:y]
    return a[x]


def compile_wasm_source(mod, outpath):
    if not mod:
        return True
    if mod[0] == 'literal':
        with open(outpath, 'wb+') as f:
            f.write(mod[1])
            return True
    elif mod[0] == 'parse':
        with NamedTemporaryFile("w+") as temp:
            temp.write(mod[1])
            temp.flush()
            rc = call(["wat2wasm", temp.name, "-o", outpath])
            return rc == 0
    return False


def main():
    global module_output_path
    with open(argv[1]) as f:
        sexp = f.read()
    name = argv[2]
    module_output_path = argv[3]
    ast = parse(sexp)
    print('let globalImportObject = {};')
    print('let namedModules = {};\n')
    for index, description in enumerate(generate(ast)):
        testname = f'{name}_{index}'
        outpath = path.join(module_output_path, f'{testname}.wasm')
        mod = description["module"]
        if not compile_wasm_source(mod, outpath):
            print("Failed to compile", name, "module index", index, "skipping that test", file=stderr)
            continue
        sep = ""
        print(f'''describe({json.dumps(testname)}, () => {{
{gen_parse_module(testname, index) if mod else ''}
{sep.join(gentest(x, testname) for x in description["tests"])}
}});
''')


if __name__ == "__main__":
    main()