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#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>
#include <stdarg.h>
#include <assert.h>
#include "nlr.h"
#include "misc.h"
#include "mpyconfig.h"
#include "runtime.h"
#include "map.h"
#include "obj.h"
#include "objprivate.h"
py_obj_t py_obj_new_int(machine_int_t value) {
return TO_SMALL_INT(value);
}
py_obj_t py_obj_new_const(const char *id) {
py_obj_base_t *o = m_new(py_obj_base_t, 1);
o->kind = O_CONST;
o->id = id;
return (py_obj_t)o;
}
py_obj_t py_obj_new_str(qstr qstr) {
py_obj_base_t *o = m_new(py_obj_base_t, 1);
o->kind = O_STR;
o->u_str = qstr;
return (py_obj_t)o;
}
#if MICROPY_ENABLE_FLOAT
py_obj_t py_obj_new_float(py_float_t val) {
py_obj_base_t *o = m_new(py_obj_base_t, 1);
o->kind = O_FLOAT;
o->u_float = val;
return (py_obj_t)o;
}
py_obj_t py_obj_new_complex(py_float_t real, py_float_t imag) {
py_obj_base_t *o = m_new(py_obj_base_t, 1);
o->kind = O_COMPLEX;
o->u_complex.real = real;
o->u_complex.imag = imag;
return (py_obj_t)o;
}
#endif
py_obj_t py_obj_new_exception_0(qstr id) {
py_obj_base_t *o = m_new(py_obj_base_t, 1);
o->kind = O_EXCEPTION_0;
o->u_exc0.id = id;
return (py_obj_t)o;
}
py_obj_t py_obj_new_exception_2(qstr id, const char *fmt, const char *s1, const char *s2) {
py_obj_base_t *o = m_new(py_obj_base_t, 1);
o->kind = O_EXCEPTION_N;
o->u_exc_n.id = id;
o->u_exc_n.n_args = 3;
o->u_exc_n.args = m_new(const void*, 3);
o->u_exc_n.args[0] = fmt;
o->u_exc_n.args[1] = s1;
o->u_exc_n.args[2] = s2;
return (py_obj_t)o;
}
// range is a class and instances are immutable sequence objects
py_obj_t py_obj_new_range(int start, int stop, int step) {
py_obj_base_t *o = m_new(py_obj_base_t, 1);
o->kind = O_RANGE;
o->u_range.start = start;
o->u_range.stop = stop;
o->u_range.step = step;
return o;
}
py_obj_t py_obj_new_range_iterator(int cur, int stop, int step) {
py_obj_base_t *o = m_new(py_obj_base_t, 1);
o->kind = O_RANGE_IT;
o->u_range_it.cur = cur;
o->u_range_it.stop = stop;
o->u_range_it.step = step;
return o;
}
py_obj_t py_obj_new_tuple_iterator(py_obj_base_t *tuple, int cur) {
py_obj_base_t *o = m_new(py_obj_base_t, 1);
o->kind = O_TUPLE_IT;
o->u_tuple_list_it.obj = tuple;
o->u_tuple_list_it.cur = cur;
return o;
}
py_obj_t py_obj_new_list_iterator(py_obj_base_t *list, int cur) {
py_obj_base_t *o = m_new(py_obj_base_t, 1);
o->kind = O_LIST_IT;
o->u_tuple_list_it.obj = list;
o->u_tuple_list_it.cur = cur;
return o;
}
py_obj_t py_obj_new_user(const py_user_info_t *info, machine_uint_t data1, machine_uint_t data2) {
py_obj_base_t *o = m_new(py_obj_base_t, 1);
o->kind = O_USER;
// TODO should probably parse the info to turn strings to qstr's, and wrap functions in O_FUN_N objects
// that'll take up some memory. maybe we can lazily do the O_FUN_N: leave it a ptr to a C function, and
// only when the method is looked-up do we change that to the O_FUN_N object.
o->u_user.info = info;
o->u_user.data1 = data1;
o->u_user.data2 = data2;
return o;
}
const char *py_obj_get_type_str(py_obj_t o_in) {
if (IS_SMALL_INT(o_in)) {
return "int";
} else {
py_obj_base_t *o = o_in;
switch (o->kind) {
case O_CONST:
if (o == py_const_none) {
return "NoneType";
} else {
return "bool";
}
case O_STR:
return "str";
#if MICROPY_ENABLE_FLOAT
case O_FLOAT:
return "float";
#endif
case O_FUN_0:
case O_FUN_1:
case O_FUN_2:
case O_FUN_N:
case O_FUN_VAR:
case O_FUN_BC:
return "function";
case O_GEN_INSTANCE:
return "generator";
case O_TUPLE:
return "tuple";
case O_LIST:
return "list";
case O_TUPLE_IT:
return "tuple_iterator";
case O_LIST_IT:
return "list_iterator";
case O_SET:
return "set";
case O_MAP:
return "dict";
case O_OBJ:
{
py_map_elem_t *qn = py_qstr_map_lookup(o->u_obj.class->u_class.locals, qstr_from_str_static("__qualname__"), false);
assert(qn != NULL);
assert(IS_O(qn->value, O_STR));
return qstr_str(((py_obj_base_t*)qn->value)->u_str);
}
case O_USER:
return o->u_user.info->type_name;
default:
assert(0);
return "UnknownType";
}
}
}
void printf_wrapper(void *env, const char *fmt, ...) {
va_list args;
va_start(args, fmt);
vprintf(fmt, args);
va_end(args);
}
void py_obj_print_helper(void (*print)(void *env, const char *fmt, ...), void *env, py_obj_t o_in) {
if (IS_SMALL_INT(o_in)) {
print(env, "%d", (int)FROM_SMALL_INT(o_in));
} else {
py_obj_base_t *o = o_in;
switch (o->kind) {
case O_CONST:
print(env, "%s", o->id);
break;
case O_STR:
// TODO need to escape chars etc
print(env, "'%s'", qstr_str(o->u_str));
break;
#if MICROPY_ENABLE_FLOAT
case O_FLOAT:
print(env, "%.8g", o->u_float);
break;
case O_COMPLEX:
if (o->u_complex.real == 0) {
print(env, "%.8gj", o->u_complex.imag);
} else {
print(env, "(%.8g+%.8gj)", o->u_complex.real, o->u_complex.imag);
}
break;
#endif
case O_EXCEPTION_0:
print(env, "%s", qstr_str(o->u_exc0.id));
break;
case O_EXCEPTION_N:
print(env, "%s: ", qstr_str(o->u_exc_n.id));
print(env, o->u_exc_n.args[0], o->u_exc_n.args[1], o->u_exc_n.args[2]);
break;
case O_GEN_INSTANCE:
print(env, "<generator object 'fun-name' at %p>", o);
break;
case O_TUPLE:
print(env, "(");
for (int i = 0; i < o->u_tuple_list.len; i++) {
if (i > 0) {
print(env, ", ");
}
py_obj_print_helper(print, env, o->u_tuple_list.items[i]);
}
if (o->u_tuple_list.len == 1) {
print(env, ",");
}
print(env, ")");
break;
case O_LIST:
print(env, "[");
for (int i = 0; i < o->u_tuple_list.len; i++) {
if (i > 0) {
print(env, ", ");
}
py_obj_print_helper(print, env, o->u_tuple_list.items[i]);
}
print(env, "]");
break;
case O_SET:
{
bool first = true;
print(env, "{");
for (int i = 0; i < o->u_set.alloc; i++) {
if (o->u_set.table[i] != NULL) {
if (!first) {
print(env, ", ");
}
first = false;
py_obj_print_helper(print, env, o->u_set.table[i]);
}
}
print(env, "}");
break;
}
case O_MAP:
{
bool first = true;
print(env, "{");
for (int i = 0; i < o->u_map.alloc; i++) {
if (o->u_map.table[i].key != NULL) {
if (!first) {
print(env, ", ");
}
first = false;
py_obj_print_helper(print, env, o->u_map.table[i].key);
print(env, ": ");
py_obj_print_helper(print, env, o->u_map.table[i].value);
}
}
print(env, "}");
break;
}
case O_USER:
if (o->u_user.info->print == NULL) {
print(env, "<unknown user object>");
} else {
o->u_user.info->print(o_in);
}
break;
default:
print(env, "<? %d>", o->kind);
assert(0);
}
}
}
void py_obj_print(py_obj_t o_in) {
py_obj_print_helper(printf_wrapper, NULL, o_in);
}
bool py_obj_is_callable(py_obj_t o_in) {
if (IS_SMALL_INT(o_in)) {
return false;
} else {
py_obj_base_t *o = o_in;
switch (o->kind) {
case O_FUN_0:
case O_FUN_1:
case O_FUN_2:
case O_FUN_VAR:
case O_FUN_N:
case O_FUN_BC:
case O_FUN_ASM:
// what about O_CLASS, and an O_OBJ that has a __call__ method?
return true;
default:
return false;
}
}
}
machine_int_t py_obj_hash(py_obj_t o_in) {
if (o_in == py_const_false) {
return 0; // needs to hash to same as the integer 0, since False==0
} else if (o_in == py_const_true) {
return 1; // needs to hash to same as the integer 1, since True==1
} else if (IS_SMALL_INT(o_in)) {
return FROM_SMALL_INT(o_in);
} else if (IS_O(o_in, O_CONST)) {
return (machine_int_t)o_in;
} else if (IS_O(o_in, O_STR)) {
return ((py_obj_base_t*)o_in)->u_str;
} else {
assert(0);
return 0;
}
}
// this function implements the '==' operator (and so the inverse of '!=')
// from the python language reference:
// "The objects need not have the same type. If both are numbers, they are converted
// to a common type. Otherwise, the == and != operators always consider objects of
// different types to be unequal."
// note also that False==0 and True==1 are true expressions
bool py_obj_equal(py_obj_t o1, py_obj_t o2) {
if (o1 == o2) {
return true;
} else if (IS_SMALL_INT(o1) || IS_SMALL_INT(o2)) {
if (IS_SMALL_INT(o1) && IS_SMALL_INT(o2)) {
return false;
} else {
if (IS_SMALL_INT(o2)) {
py_obj_t temp = o1; o1 = o2; o2 = temp;
}
// o1 is the SMALL_INT, o2 is not
py_small_int_t val = FROM_SMALL_INT(o1);
if (o2 == py_const_false) {
return val == 0;
} else if (o2 == py_const_true) {
return val == 1;
} else {
return false;
}
}
} else if (IS_O(o1, O_STR) && IS_O(o2, O_STR)) {
return ((py_obj_base_t*)o1)->u_str == ((py_obj_base_t*)o2)->u_str;
} else {
assert(0);
return false;
}
}
bool py_obj_less(py_obj_t o1, py_obj_t o2) {
if (IS_SMALL_INT(o1) && IS_SMALL_INT(o2)) {
py_small_int_t i1 = FROM_SMALL_INT(o1);
py_small_int_t i2 = FROM_SMALL_INT(o2);
return i1 < i2;
} else {
assert(0);
return false;
}
}
machine_int_t py_obj_get_int(py_obj_t arg) {
if (arg == py_const_false) {
return 0;
} else if (arg == py_const_true) {
return 1;
} else if (IS_SMALL_INT(arg)) {
return FROM_SMALL_INT(arg);
} else {
assert(0);
return 0;
}
}
#if MICROPY_ENABLE_FLOAT
machine_float_t py_obj_get_float(py_obj_t arg) {
if (arg == py_const_false) {
return 0;
} else if (arg == py_const_true) {
return 1;
} else if (IS_SMALL_INT(arg)) {
return FROM_SMALL_INT(arg);
} else if (IS_O(arg, O_FLOAT)) {
return ((py_obj_base_t*)arg)->u_float;
} else {
assert(0);
return 0;
}
}
void py_obj_get_complex(py_obj_t arg, py_float_t *real, py_float_t *imag) {
if (arg == py_const_false) {
*real = 0;
*imag = 0;
} else if (arg == py_const_true) {
*real = 1;
*imag = 0;
} else if (IS_SMALL_INT(arg)) {
*real = FROM_SMALL_INT(arg);
*imag = 0;
} else if (IS_O(arg, O_FLOAT)) {
*real = ((py_obj_base_t*)arg)->u_float;
*imag = 0;
} else if (IS_O(arg, O_COMPLEX)) {
*real = ((py_obj_base_t*)arg)->u_complex.real;
*imag = ((py_obj_base_t*)arg)->u_complex.imag;
} else {
assert(0);
*real = 0;
*imag = 0;
}
}
#endif
qstr py_obj_get_qstr(py_obj_t arg) {
if (IS_O(arg, O_STR)) {
return ((py_obj_base_t*)arg)->u_str;
} else {
assert(0);
return 0;
}
}
py_obj_t *py_obj_get_array_fixed_n(py_obj_t o_in, machine_int_t n) {
if (IS_O(o_in, O_TUPLE) || IS_O(o_in, O_LIST)) {
py_obj_base_t *o = o_in;
if (o->u_tuple_list.len != n) {
nlr_jump(py_obj_new_exception_2(rt_q_IndexError, "requested length %d but object has length %d", (void*)n, (void*)o->u_tuple_list.len));
}
return o->u_tuple_list.items;
} else {
nlr_jump(py_obj_new_exception_2(rt_q_TypeError, "object '%s' is not a tuple or list", py_obj_get_type_str(o_in), NULL));
}
}
void py_user_get_data(py_obj_t o, machine_uint_t *data1, machine_uint_t *data2) {
assert(IS_O(o, O_USER));
if (data1 != NULL) {
*data1 = ((py_obj_base_t*)o)->u_user.data1;
}
if (data2 != NULL) {
*data2 = ((py_obj_base_t*)o)->u_user.data2;
}
}
void py_user_set_data(py_obj_t o, machine_uint_t data1, machine_uint_t data2) {
assert(IS_O(o, O_USER));
((py_obj_base_t*)o)->u_user.data1 = data1;
((py_obj_base_t*)o)->u_user.data2 = data2;
}
// temporary way of making C modules
// hack: use class to mimic a module
py_obj_t py_module_new(void) {
py_obj_base_t *o = m_new(py_obj_base_t, 1);
o->kind = O_CLASS;
o->u_class.locals = py_map_new(MAP_QSTR, 0);
return o;
}
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