AoC19/lib/intcode/assembler.ex

320 lines
7.7 KiB
Elixir

defmodule Assembler.Helpers do
defmacro assemble_macro(match, asm) do
quote do
def assemble_insn(unquote(match), memory) do
macro_mem = assemble_for_macro(unquote(asm), length(memory))
macro_mem ++ memory
end
end
end
end
defmodule Assembler do
import NimbleParsec
import Assembler.Helpers
label =
ascii_string([?a..?z, ?A..?Z, ?_], min: 1)
|> ignore(ascii_char([?:]))
|> ignore(repeat(ascii_char([?\s])))
param =
optional(ignore(ascii_string([?\s], min: 1)))
|> ascii_string([{:not, ?,}], min: 1)
data_label =
label
|> concat(param)
|> tag(:data_label)
instruction =
ignore(ascii_string([?\s, ?\t], min: 0))
|> ascii_string([?a..?z], min: 1)
|> repeat(param |> ignore(ascii_char([?,])))
|> optional(param)
|> tag(:insn)
defparsec(
:parse_line,
choice([
data_label,
label |> tag(:label),
instruction,
eos()
])
)
def test do
File.read!("test/intcode/cmp8.asm")
|> assemble()
|> Day5.run_cli()
end
def assemble(asm) do
{memory, labels} = do_assemble(asm)
memory
|> Enum.reverse()
|> Enum.with_index()
|> Enum.map(fn
{{:expr, expr}, index} ->
expr_tokens =
if is_binary(expr) do
{:ok, tokens, _, _, _, _} = ExpressionEvaluator.parse(expr)
tokens
else
expr
end
ExpressionEvaluator.do_eval(expr_tokens, fn
"_self" -> index
name -> Map.fetch!(labels, name)
end)
{it, _} ->
it
end)
end
def assemble_for_macro(asm, macro_offset) do
{memory, labels} = do_assemble(asm)
memory
|> Enum.map(fn
{:expr, expr} -> {:expr, expand_macro_expression(expr, labels, macro_offset)}
it -> it
end)
end
def expand_macro_expression(expr, _, _) when is_integer(expr) do
expr
end
def expand_macro_expression(expr, macro_labels, macro_offset) when is_binary(expr) do
case Map.get(macro_labels, expr) do
nil -> expr
val -> macro_offset + val
end
end
def expand_macro_expression(expr, macro_labels, macro_offset) when is_list(expr) do
Enum.map(expr, fn expr ->
expand_macro_expression(expr, macro_labels, macro_offset)
end)
end
def expand_macro_expression({op, values}, macro_labels, macro_offset) do
{op, expand_macro_expression(values, macro_labels, macro_offset)}
end
def do_assemble(asm) do
asm
|> String.trim_trailing("\n")
|> String.split("\n")
|> Enum.map(fn line ->
case parse_line(line) do
{:ok, res, _, _, _, _} ->
res
err ->
raise "Unable to parse line: '#{line}':\n#{inspect(err)}"
end
end)
|> Enum.reduce({[], %{}}, fn line, acc ->
assemble_line(line, acc)
end)
end
def assemble_line([], acc), do: acc
def assemble_line([label: [name]], {memory, labels}) do
{
memory,
Map.put(labels, name, length(memory))
}
end
def assemble_line([data_label: [name, value]], {memory, labels}) do
value = {:expr, value}
{
[value | memory],
Map.put(labels, name, length(memory))
}
end
def assemble_line([insn: insn], {memory, labels}) do
{
assemble_insn(insn, memory),
labels
}
end
def assemble_insn(["add" | params], memory) when length(params) == 3 do
{[a, b, dest], modes} = parse_params(params, [:read, :read, :write])
[dest, b, a, 1 + modes | memory]
end
def assemble_insn(["mul" | params], memory) when length(params) == 3 do
{[a, b, dest], modes} = parse_params(params, [:read, :read, :write])
[dest, b, a, 2 + modes | memory]
end
def assemble_insn(["in", dest], memory) do
{[dest], modes} = parse_params([dest], [:write])
[dest, 3 + modes | memory]
end
def assemble_insn(["out", src], memory) do
{[src], modes} = parse_params([src], [:read])
[src, 4 + modes | memory]
end
def assemble_insn(["jnz" | params], memory) when length(params) == 2 do
{[target, dest], modes} = parse_params(params, [:read, :read])
[dest, target, 5 + modes | memory]
end
def assemble_insn(["jez" | params], memory) when length(params) == 2 do
{[target, dest], modes} = parse_params(params, [:read, :read])
[dest, target, 6 + modes | memory]
end
def assemble_insn(["clt" | params], memory) when length(params) == 3 do
{[a, b, dest], modes} = parse_params(params, [:read, :read, :write])
[dest, b, a, 7 + modes | memory]
end
def assemble_insn(["ceq" | params], memory) when length(params) == 3 do
{[a, b, dest], modes} = parse_params(params, [:read, :read, :write])
[dest, b, a, 8 + modes | memory]
end
def assemble_insn(["hlt"], memory) do
[99 | memory]
end
def assemble_insn(["data" | data], memory) do
data =
data
|> Enum.map(&String.to_integer/1)
|> Enum.reverse()
data ++ memory
end
# macros
assemble_macro ["mov", src, dest],
"""
add 0, #{src}, #{dest}
"""
assemble_macro ["jmp", dest],
"""
jnz _self, #{dest}
"""
assemble_macro ["sub", a, b, dest],
"""
mul #{b}, -1, #{dest}
add #{a}, $#{dest}, #{dest}
"""
assemble_macro ["not", src, dest],
"""
sub 1, #{src}, #{dest}
"""
assemble_macro ["cle", a, b, dest],
"""
clt #{a}, #{b}, #{dest}
jnz $#{dest}, end
ceq #{a}, #{b}, #{dest}
end:
"""
assemble_macro ["cgt", a, b, dest],
"""
cle #{a}, #{b}, #{dest}
not $#{dest}, #{dest}
"""
assemble_macro ["cge", a, b, dest],
"""
clt #{a}, #{b}, #{dest}
not $#{dest}, #{dest}
"""
@doc """
Raises the base to to the given power.
## Examples
iex> Assembler.pow(10, 3)
1000
iex> Assembler.pow(5, 4)
625
"""
def pow(base, 1), do: base
def pow(base, exp), do: base * pow(base, exp - 1)
@doc """
Parses assembly instruction parameter values and modes.
## Examples
iex> Assembler.parse_params(["1", "2", "3"], [:read, :read, :read])
{[1, 2, 3], 11100}
iex> Assembler.parse_params(["1", "2", "3"], [:read, :read, :write])
{[1, 2, 3], 1100}
iex> Assembler.parse_params(["1", "2", "$3"], [:read, :read, :write])
{[1, 2, 3], 1100}
iex> Assembler.parse_params(["$1", "2", "3"], [:read, :read, :write])
{[1, 2, 3], 1000}
iex> Assembler.parse_params(["$label", "2", "3"], [:read, :read, :write])
{[{:expr, ["label"]}, 2, 3], 1000}
iex> Assembler.parse_params(["1", "label", "3"], [:read, :read, :write])
{[1, {:expr, ["label"]}, 3], 1100}
"""
def parse_params(params, param_types) do
params
|> Enum.zip(param_types)
|> Enum.with_index()
|> Enum.map_reduce(0, fn {{param, type}, index}, modes ->
val =
case Regex.run(~r/^\$?(\d+)$/, param) do
[_, digits] ->
String.to_integer(digits)
_ ->
case param do
"$" <> param ->
{:expr, parse_param_expr(param)}
_ ->
{:expr, parse_param_expr(param)}
end
end
modes =
case type do
:read ->
if String.starts_with?(param, "$") do
modes
else
modes + pow(10, index + 2)
end
_ ->
modes
end
{val, modes}
end)
end
def parse_param_expr(param) do
{:ok, expr, _, _, _, _} = ExpressionEvaluator.parse(param)
expr
end
end