0c36da0b59
mp_module_obj_t can now be put in ROM. Configuration of float type is now similar to longint: can now choose none, float or double as the implementation. math module has basic math functions. For STM port, these are not yet implemented (they are just stub functions).
148 lines
4.5 KiB
C
148 lines
4.5 KiB
C
#include <stdlib.h>
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#include <stdint.h>
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#include <string.h>
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#include <assert.h>
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#include "nlr.h"
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#include "misc.h"
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#include "mpconfig.h"
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#include "qstr.h"
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#include "obj.h"
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#include "runtime0.h"
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#include "map.h"
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#if MICROPY_ENABLE_FLOAT
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typedef struct _mp_obj_complex_t {
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mp_obj_base_t base;
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mp_float_t real;
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mp_float_t imag;
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} mp_obj_complex_t;
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mp_obj_t mp_obj_new_complex(mp_float_t real, mp_float_t imag);
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STATIC void complex_print(void (*print)(void *env, const char *fmt, ...), void *env, mp_obj_t o_in, mp_print_kind_t kind) {
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mp_obj_complex_t *o = o_in;
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if (o->real == 0) {
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print(env, "%.8gj", (double) o->imag);
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} else {
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print(env, "(%.8g+%.8gj)", (double) o->real, (double) o->imag);
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}
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}
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STATIC mp_obj_t complex_make_new(mp_obj_t type_in, uint n_args, uint n_kw, const mp_obj_t *args) {
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// TODO check n_kw == 0
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switch (n_args) {
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case 0:
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return mp_obj_new_complex(0, 0);
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case 1:
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// TODO allow string as first arg and parse it
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if (MP_OBJ_IS_TYPE(args[0], &mp_type_complex)) {
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return args[0];
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} else {
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return mp_obj_new_complex(mp_obj_get_float(args[0]), 0);
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}
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case 2:
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{
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mp_float_t real, imag;
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if (MP_OBJ_IS_TYPE(args[0], &mp_type_complex)) {
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mp_obj_complex_get(args[0], &real, &imag);
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} else {
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real = mp_obj_get_float(args[0]);
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imag = 0;
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}
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if (MP_OBJ_IS_TYPE(args[1], &mp_type_complex)) {
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mp_float_t real2, imag2;
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mp_obj_complex_get(args[1], &real2, &imag2);
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real -= imag2;
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imag += real2;
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} else {
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imag += mp_obj_get_float(args[1]);
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}
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return mp_obj_new_complex(real, imag);
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}
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default:
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nlr_jump(mp_obj_new_exception_msg_varg(&mp_type_TypeError, "complex takes at most 2 arguments, %d given", n_args));
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}
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}
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STATIC mp_obj_t complex_unary_op(int op, mp_obj_t o_in) {
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mp_obj_complex_t *o = o_in;
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switch (op) {
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case RT_UNARY_OP_BOOL: return MP_BOOL(o->real != 0 || o->imag != 0);
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case RT_UNARY_OP_POSITIVE: return o_in;
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case RT_UNARY_OP_NEGATIVE: return mp_obj_new_complex(-o->real, -o->imag);
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default: return MP_OBJ_NULL; // op not supported
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}
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}
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STATIC mp_obj_t complex_binary_op(int op, mp_obj_t lhs_in, mp_obj_t rhs_in) {
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mp_obj_complex_t *lhs = lhs_in;
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return mp_obj_complex_binary_op(op, lhs->real, lhs->imag, rhs_in);
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}
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const mp_obj_type_t mp_type_complex = {
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{ &mp_type_type },
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.name = MP_QSTR_complex,
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.print = complex_print,
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.make_new = complex_make_new,
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.unary_op = complex_unary_op,
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.binary_op = complex_binary_op,
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};
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mp_obj_t mp_obj_new_complex(mp_float_t real, mp_float_t imag) {
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mp_obj_complex_t *o = m_new_obj(mp_obj_complex_t);
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o->base.type = &mp_type_complex;
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o->real = real;
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o->imag = imag;
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return o;
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}
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void mp_obj_complex_get(mp_obj_t self_in, mp_float_t *real, mp_float_t *imag) {
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assert(MP_OBJ_IS_TYPE(self_in, &mp_type_complex));
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mp_obj_complex_t *self = self_in;
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*real = self->real;
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*imag = self->imag;
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}
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mp_obj_t mp_obj_complex_binary_op(int op, mp_float_t lhs_real, mp_float_t lhs_imag, mp_obj_t rhs_in) {
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mp_float_t rhs_real, rhs_imag;
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mp_obj_get_complex(rhs_in, &rhs_real, &rhs_imag); // can be any type, this function will convert to float (if possible)
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switch (op) {
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case RT_BINARY_OP_ADD:
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case RT_BINARY_OP_INPLACE_ADD:
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lhs_real += rhs_real;
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lhs_imag += rhs_imag;
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break;
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case RT_BINARY_OP_SUBTRACT:
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case RT_BINARY_OP_INPLACE_SUBTRACT:
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lhs_real -= rhs_real;
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lhs_imag -= rhs_imag;
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break;
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case RT_BINARY_OP_MULTIPLY:
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case RT_BINARY_OP_INPLACE_MULTIPLY:
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{
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mp_float_t real = lhs_real * rhs_real - lhs_imag * rhs_imag;
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lhs_imag = lhs_real * rhs_imag + lhs_imag * rhs_real;
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lhs_real = real;
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break;
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}
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/* TODO floor(?) the value
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case RT_BINARY_OP_FLOOR_DIVIDE:
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case RT_BINARY_OP_INPLACE_FLOOR_DIVIDE: val = lhs_val / rhs_val; break;
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*/
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/* TODO
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case RT_BINARY_OP_TRUE_DIVIDE:
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case RT_BINARY_OP_INPLACE_TRUE_DIVIDE: val = lhs_val / rhs_val; break;
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*/
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return NULL; // op not supported
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}
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return mp_obj_new_complex(lhs_real, lhs_imag);
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}
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#endif
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