252 lines
8.9 KiB
C
252 lines
8.9 KiB
C
/*
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* This file is part of the Micro Python project, http://micropython.org/
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*
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* The MIT License (MIT)
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*
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* Copyright (c) 2013, 2014 Damien P. George
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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* THE SOFTWARE.
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*/
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#include <stdlib.h>
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#include <stdio.h>
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#include <assert.h>
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#include "py/nlr.h"
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#include "py/obj.h"
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#include "py/parsenum.h"
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#include "py/runtime0.h"
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#include "py/runtime.h"
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#if MICROPY_PY_BUILTINS_COMPLEX
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#include <math.h>
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#include "py/formatfloat.h"
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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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STATIC void complex_print(const mp_print_t *print, mp_obj_t o_in, mp_print_kind_t kind) {
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(void)kind;
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mp_obj_complex_t *o = MP_OBJ_TO_PTR(o_in);
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#if MICROPY_FLOAT_IMPL == MICROPY_FLOAT_IMPL_FLOAT
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char buf[16];
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const int precision = 7;
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#else
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char buf[32];
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const int precision = 16;
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#endif
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if (o->real == 0) {
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mp_format_float(o->imag, buf, sizeof(buf), 'g', precision, '\0');
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mp_printf(print, "%sj", buf);
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} else {
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mp_format_float(o->real, buf, sizeof(buf), 'g', precision, '\0');
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mp_printf(print, "(%s", buf);
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if (o->imag >= 0 || isnan(o->imag)) {
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mp_print_str(print, "+");
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}
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mp_format_float(o->imag, buf, sizeof(buf), 'g', precision, '\0');
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mp_printf(print, "%sj)", buf);
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}
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}
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STATIC mp_obj_t complex_make_new(const mp_obj_type_t *type_in, size_t n_args, size_t n_kw, const mp_obj_t *args) {
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(void)type_in;
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mp_arg_check_num(n_args, n_kw, 0, 2, false);
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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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if (MP_OBJ_IS_STR(args[0])) {
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// a string, parse it
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size_t l;
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const char *s = mp_obj_str_get_data(args[0], &l);
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return mp_parse_num_decimal(s, l, true, true, NULL);
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} else if (MP_OBJ_IS_TYPE(args[0], &mp_type_complex)) {
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// a complex, just return it
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return args[0];
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} else {
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// something else, try to cast it to a complex
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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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default: {
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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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}
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}
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STATIC mp_obj_t complex_unary_op(mp_uint_t op, mp_obj_t o_in) {
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mp_obj_complex_t *o = MP_OBJ_TO_PTR(o_in);
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switch (op) {
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case MP_UNARY_OP_BOOL: return mp_obj_new_bool(o->real != 0 || o->imag != 0);
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case MP_UNARY_OP_POSITIVE: return o_in;
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case MP_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(mp_uint_t op, mp_obj_t lhs_in, mp_obj_t rhs_in) {
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mp_obj_complex_t *lhs = MP_OBJ_TO_PTR(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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STATIC void complex_attr(mp_obj_t self_in, qstr attr, mp_obj_t *dest) {
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if (dest[0] != MP_OBJ_NULL) {
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// not load attribute
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return;
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}
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mp_obj_complex_t *self = MP_OBJ_TO_PTR(self_in);
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if (attr == MP_QSTR_real) {
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dest[0] = mp_obj_new_float(self->real);
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} else if (attr == MP_QSTR_imag) {
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dest[0] = mp_obj_new_float(self->imag);
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}
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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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.attr = complex_attr,
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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 MP_OBJ_FROM_PTR(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 = MP_OBJ_TO_PTR(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(mp_uint_t 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 MP_BINARY_OP_ADD:
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case MP_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 MP_BINARY_OP_SUBTRACT:
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case MP_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 MP_BINARY_OP_MULTIPLY:
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case MP_BINARY_OP_INPLACE_MULTIPLY: {
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mp_float_t real;
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multiply:
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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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case MP_BINARY_OP_FLOOR_DIVIDE:
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case MP_BINARY_OP_INPLACE_FLOOR_DIVIDE:
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nlr_raise(mp_obj_new_exception_msg_varg(&mp_type_TypeError, "can't do truncated division of a complex number"));
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case MP_BINARY_OP_TRUE_DIVIDE:
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case MP_BINARY_OP_INPLACE_TRUE_DIVIDE:
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if (rhs_imag == 0) {
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if (rhs_real == 0) {
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mp_raise_msg(&mp_type_ZeroDivisionError, "complex division by zero");
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}
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lhs_real /= rhs_real;
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lhs_imag /= rhs_real;
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} else if (rhs_real == 0) {
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mp_float_t real = lhs_imag / rhs_imag;
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lhs_imag = -lhs_real / rhs_imag;
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lhs_real = real;
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} else {
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mp_float_t rhs_len_sq = rhs_real*rhs_real + rhs_imag*rhs_imag;
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rhs_real /= rhs_len_sq;
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rhs_imag /= -rhs_len_sq;
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goto multiply;
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}
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break;
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case MP_BINARY_OP_POWER:
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case MP_BINARY_OP_INPLACE_POWER: {
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// z1**z2 = exp(z2*ln(z1))
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// = exp(z2*(ln(|z1|)+i*arg(z1)))
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// = exp( (x2*ln1 - y2*arg1) + i*(y2*ln1 + x2*arg1) )
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// = exp(x3 + i*y3)
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// = exp(x3)*(cos(y3) + i*sin(y3))
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mp_float_t abs1 = MICROPY_FLOAT_C_FUN(sqrt)(lhs_real*lhs_real + lhs_imag*lhs_imag);
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if (abs1 == 0) {
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if (rhs_imag == 0 && rhs_real >= 0) {
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lhs_real = (rhs_real == 0);
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rhs_real = 0;
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} else {
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mp_raise_msg(&mp_type_ZeroDivisionError, "0.0 to a complex power");
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}
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} else {
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mp_float_t ln1 = MICROPY_FLOAT_C_FUN(log)(abs1);
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mp_float_t arg1 = MICROPY_FLOAT_C_FUN(atan2)(lhs_imag, lhs_real);
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mp_float_t x3 = rhs_real * ln1 - rhs_imag * arg1;
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mp_float_t y3 = rhs_imag * ln1 + rhs_real * arg1;
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mp_float_t exp_x3 = MICROPY_FLOAT_C_FUN(exp)(x3);
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lhs_real = exp_x3 * MICROPY_FLOAT_C_FUN(cos)(y3);
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lhs_imag = exp_x3 * MICROPY_FLOAT_C_FUN(sin)(y3);
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}
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break;
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}
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case MP_BINARY_OP_EQUAL: return mp_obj_new_bool(lhs_real == rhs_real && lhs_imag == rhs_imag);
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default:
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return MP_OBJ_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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