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mal/impls/vhdl/step3_env.vhdl
Joel Martin 8a19f60386 Move implementations into impls/ dir 
- Reorder README to have implementation list after "learning tool"
  bullet.

- This also moves tests/ and libs/ into impls. It would be preferrable
  to have these directories at the top level.  However, this causes
  difficulties with the wasm implementations which need pre-open
  directories and have trouble with paths starting with "../../". So
  in lieu of that, symlink those directories to the top-level.

- Move the run_argv_test.sh script into the tests directory for
  general hygiene.
2020-02-10 23:50:16 -06:00

201 lines
5.6 KiB
VHDL
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entity step3_env is
end entity step3_env;
library STD;
use STD.textio.all;
library WORK;
use WORK.pkg_readline.all;
use WORK.types.all;
use WORK.printer.all;
use WORK.reader.all;
use WORK.env.all;
architecture test of step3_env is
procedure mal_READ(str: in string; ast: out mal_val_ptr; err: out mal_val_ptr) is
begin
read_str(str, ast, err);
end procedure mal_READ;
-- Forward declaration
procedure EVAL(ast: inout mal_val_ptr; env: inout env_ptr; result: out mal_val_ptr; err: out mal_val_ptr);
procedure eval_native_func(func_sym: inout mal_val_ptr; args: inout mal_val_ptr; result: out mal_val_ptr) is
variable num_result: integer;
variable a: mal_seq_ptr;
begin
a := args.seq_val;
if func_sym.string_val.all = "+" then
new_number(a(0).number_val + a(1).number_val, result);
elsif func_sym.string_val.all = "-" then
new_number(a(0).number_val - a(1).number_val, result);
elsif func_sym.string_val.all = "*" then
new_number(a(0).number_val * a(1).number_val, result);
elsif func_sym.string_val.all = "/" then
new_number(a(0).number_val / a(1).number_val, result);
else
result := null;
end if;
end procedure eval_native_func;
procedure eval_ast_seq(ast_seq: inout mal_seq_ptr; env: inout env_ptr; result: inout mal_seq_ptr; err: out mal_val_ptr) is
variable eval_err: mal_val_ptr;
begin
result := new mal_seq(0 to ast_seq'length - 1);
for i in result'range loop
EVAL(ast_seq(i), env, result(i), eval_err);
if eval_err /= null then
err := eval_err;
return;
end if;
end loop;
end procedure eval_ast_seq;
procedure eval_ast(ast: inout mal_val_ptr; env: inout env_ptr; result: out mal_val_ptr; err: out mal_val_ptr) is
variable key, val, eval_err, env_err: mal_val_ptr;
variable new_seq: mal_seq_ptr;
variable i: integer;
begin
case ast.val_type is
when mal_symbol =>
env_get(env, ast, val, env_err);
if env_err /= null then
err := env_err;
return;
end if;
result := val;
return;
when mal_list | mal_vector | mal_hashmap =>
eval_ast_seq(ast.seq_val, env, new_seq, eval_err);
if eval_err /= null then
err := eval_err;
return;
end if;
new_seq_obj(ast.val_type, new_seq, result);
return;
when others =>
result := ast;
return;
end case;
end procedure eval_ast;
procedure EVAL(ast: inout mal_val_ptr; env: inout env_ptr; result: out mal_val_ptr; err: out mal_val_ptr) is
variable i: integer;
variable evaled_ast, a0, call_args, val, vars, sub_err: mal_val_ptr;
variable let_env: env_ptr;
begin
if ast.val_type /= mal_list then
eval_ast(ast, env, result, err);
return;
end if;
if ast.seq_val'length = 0 then
result := ast;
return;
end if;
a0 := ast.seq_val(0);
if a0.string_val.all = "def!" then
EVAL(ast.seq_val(2), env, val, sub_err);
if sub_err /= null then
err := sub_err;
return;
end if;
env_set(env, ast.seq_val(1), val);
result := val;
elsif a0.string_val.all = "let*" then
vars := ast.seq_val(1);
new_env(let_env, env);
i := 0;
while i < vars.seq_val'length loop
EVAL(vars.seq_val(i + 1), let_env, val, sub_err);
if sub_err /= null then
err := sub_err;
deallocate(let_env);
return;
end if;
env_set(let_env, vars.seq_val(i), val);
i := i + 2;
end loop;
EVAL(ast.seq_val(2), let_env, result, err);
deallocate(let_env);
else
eval_ast(ast, env, evaled_ast, sub_err);
if sub_err /= null then
err := sub_err;
return;
end if;
seq_drop_prefix(evaled_ast, 1, call_args);
eval_native_func(a0, call_args, result);
end if;
end procedure EVAL;
procedure mal_PRINT(exp: inout mal_val_ptr; result: out line) is
begin
pr_str(exp, true, result);
end procedure mal_PRINT;
procedure REP(str: in string; env: inout env_ptr; result: out line; err: out mal_val_ptr) is
variable ast, eval_res, read_err, eval_err: mal_val_ptr;
begin
mal_READ(str, ast, read_err);
if read_err /= null then
err := read_err;
result := null;
return;
end if;
if ast = null then
result := null;
return;
end if;
EVAL(ast, env, eval_res, eval_err);
if eval_err /= null then
err := eval_err;
result := null;
return;
end if;
mal_PRINT(eval_res, result);
end procedure REP;
procedure repl is
variable is_eof: boolean;
variable input_line, result: line;
variable sym, fn, err: mal_val_ptr;
variable outer, repl_env: env_ptr;
begin
outer := null;
new_env(repl_env, outer);
new_symbol("+", sym);
new_nativefn("+", fn);
env_set(repl_env, sym, fn);
new_symbol("-", sym);
new_nativefn("-", fn);
env_set(repl_env, sym, fn);
new_symbol("*", sym);
new_nativefn("*", fn);
env_set(repl_env, sym, fn);
new_symbol("/", sym);
new_nativefn("/", fn);
env_set(repl_env, sym, fn);
loop
mal_readline("user> ", is_eof, input_line);
exit when is_eof;
next when input_line'length = 0;
REP(input_line.all, repl_env, result, err);
if err /= null then
pr_str(err, false, result);
result := new string'("Error: " & result.all);
end if;
if result /= null then
mal_printline(result.all);
end if;
deallocate(result);
deallocate(err);
end loop;
mal_printline("");
end procedure repl;
begin
repl;
end architecture test;
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