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-rw-r--r--circuitpython/extmod/ulab/code/numpy/carray/carray.h237
1 files changed, 237 insertions, 0 deletions
diff --git a/circuitpython/extmod/ulab/code/numpy/carray/carray.h b/circuitpython/extmod/ulab/code/numpy/carray/carray.h
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+++ b/circuitpython/extmod/ulab/code/numpy/carray/carray.h
@@ -0,0 +1,237 @@
+
+/*
+ * This file is part of the micropython-ulab project,
+ *
+ * https://github.com/v923z/micropython-ulab
+ *
+ * The MIT License (MIT)
+ *
+ * Copyright (c) 2021-2022 Zoltán Vörös
+*/
+
+#ifndef _CARRAY_
+#define _CARRAY_
+
+MP_DECLARE_CONST_FUN_OBJ_1(carray_real_obj);
+MP_DECLARE_CONST_FUN_OBJ_1(carray_imag_obj);
+MP_DECLARE_CONST_FUN_OBJ_1(carray_conjugate_obj);
+MP_DECLARE_CONST_FUN_OBJ_1(carray_sort_complex_obj);
+
+
+mp_obj_t carray_imag(mp_obj_t );
+mp_obj_t carray_real(mp_obj_t );
+
+mp_obj_t carray_abs(ndarray_obj_t *, ndarray_obj_t *);
+mp_obj_t carray_binary_add(ndarray_obj_t *, ndarray_obj_t *, uint8_t , size_t *, int32_t *, int32_t *);
+mp_obj_t carray_binary_multiply(ndarray_obj_t *, ndarray_obj_t *, uint8_t , size_t *, int32_t *, int32_t *);
+mp_obj_t carray_binary_subtract(ndarray_obj_t *, ndarray_obj_t *, uint8_t , size_t *, int32_t *, int32_t *);
+mp_obj_t carray_binary_divide(ndarray_obj_t *, ndarray_obj_t *, uint8_t , size_t *, int32_t *, int32_t *);
+mp_obj_t carray_binary_equal_not_equal(ndarray_obj_t *, ndarray_obj_t *, uint8_t , size_t *, int32_t *, int32_t *, mp_binary_op_t );
+
+#define BINARY_LOOP_COMPLEX1(results, resarray, type_right, larray, lstrides, rarray, rstrides, OPERATOR)\
+ size_t l = 0;\
+ do {\
+ *(resarray) = *((mp_float_t *)(larray)) OPERATOR *((type_right *)(rarray));\
+ (resarray) += 2;\
+ (larray) += (lstrides)[ULAB_MAX_DIMS - 1];\
+ (rarray) += (rstrides)[ULAB_MAX_DIMS - 1];\
+ l++;\
+ } while(l < (results)->shape[ULAB_MAX_DIMS - 1]);\
+
+#define BINARY_LOOP_COMPLEX2(results, resarray, type_right, larray, lstrides, rarray, rstrides, OPERATOR)\
+ size_t k = 0;\
+ do {\
+ BINARY_LOOP_COMPLEX1((results), (resarray), type_right, (larray), (lstrides), (rarray), (rstrides), OPERATOR);\
+ (larray) -= (lstrides)[ULAB_MAX_DIMS - 1] * (results)->shape[ULAB_MAX_DIMS - 1];\
+ (larray) += (lstrides)[ULAB_MAX_DIMS - 2];\
+ (rarray) -= (rstrides)[ULAB_MAX_DIMS - 1] * (results)->shape[ULAB_MAX_DIMS - 1];\
+ (rarray) += (rstrides)[ULAB_MAX_DIMS - 2];\
+ k++;\
+ } while(k < (results)->shape[ULAB_MAX_DIMS - 2]);\
+
+#define BINARY_LOOP_COMPLEX3(results, resarray, type_right, larray, lstrides, rarray, rstrides, OPERATOR)\
+ size_t j = 0;\
+ do {\
+ BINARY_LOOP_COMPLEX2((results), (resarray), type_right, (larray), (lstrides), (rarray), (rstrides), OPERATOR);\
+ (larray) -= (lstrides)[ULAB_MAX_DIMS - 2] * (results)->shape[ULAB_MAX_DIMS - 2];\
+ (larray) += (lstrides)[ULAB_MAX_DIMS - 3];\
+ (rarray) -= (rstrides)[ULAB_MAX_DIMS - 2] * (results)->shape[ULAB_MAX_DIMS - 2];\
+ (rarray) += (rstrides)[ULAB_MAX_DIMS - 3];\
+ j++;\
+ } while(j < (results)->shape[ULAB_MAX_DIMS - 3]);\
+
+#define BINARY_LOOP_COMPLEX4(results, resarray, type_right, larray, lstrides, rarray, rstrides, OPERATOR)\
+ size_t i = 0;\
+ do {\
+ BINARY_LOOP_COMPLEX3((results), (resarray), type_right, (larray), (lstrides), (rarray), (rstrides), OPERATOR);\
+ (larray) -= (lstrides)[ULAB_MAX_DIMS - 3] * (results)->shape[ULAB_MAX_DIMS - 3];\
+ (larray) += (lstrides)[ULAB_MAX_DIMS - 4];\
+ (rarray) -= (rstrides)[ULAB_MAX_DIMS - 3] * (results)->shape[ULAB_MAX_DIMS - 3];\
+ (rarray) += (rstrides)[ULAB_MAX_DIMS - 4];\
+ i++;\
+ } while(i < (results)->shape[ULAB_MAX_DIMS - 4]);\
+
+#define BINARY_LOOP_COMPLEX_REVERSED_SUBTRACT1(results, resarray, type_left, larray, lstrides, rarray, rstrides)\
+ size_t l = 0;\
+ do {\
+ *(resarray)++ = *((type_left *)(larray)) - (rarray)[0];\
+ *(resarray)++ = -(rarray)[1];\
+ (larray) += (lstrides)[ULAB_MAX_DIMS - 1];\
+ (rarray) += (rstrides)[ULAB_MAX_DIMS - 1];\
+ l++;\
+ } while(l < (results)->shape[ULAB_MAX_DIMS - 1]);\
+
+#define BINARY_LOOP_COMPLEX_REVERSED_SUBTRACT2(results, resarray, type_left, larray, lstrides, rarray, rstrides)\
+ size_t k = 0;\
+ do {\
+ BINARY_LOOP_COMPLEX_REVERSED_SUBTRACT1((results), (resarray), type_left, (larray), (lstrides), (rarray), (rstrides));\
+ (larray) -= (lstrides)[ULAB_MAX_DIMS - 1] * (results)->shape[ULAB_MAX_DIMS-1];\
+ (larray) += (lstrides)[ULAB_MAX_DIMS - 2];\
+ (rarray) -= (rstrides)[ULAB_MAX_DIMS - 1] * (results)->shape[ULAB_MAX_DIMS-1];\
+ (rarray) += (rstrides)[ULAB_MAX_DIMS - 2];\
+ k++;\
+ } while(k < (results)->shape[ULAB_MAX_DIMS - 2]);\
+
+#define BINARY_LOOP_COMPLEX_REVERSED_SUBTRACT3(results, resarray, type_left, larray, lstrides, rarray, rstrides)\
+ size_t j = 0;\
+ do {\
+ BINARY_LOOP_COMPLEX_REVERSED_SUBTRACT2((results), (resarray), type_left, (larray), (lstrides), (rarray), (rstrides));\
+ (larray) -= (lstrides)[ULAB_MAX_DIMS - 2] * (results)->shape[ULAB_MAX_DIMS - 2];\
+ (larray) += (lstrides)[ULAB_MAX_DIMS - 3];\
+ (rarray) -= (rstrides)[ULAB_MAX_DIMS - 2] * (results)->shape[ULAB_MAX_DIMS - 2];\
+ (rarray) += (rstrides)[ULAB_MAX_DIMS - 3];\
+ j++;\
+ } while(j < (results)->shape[ULAB_MAX_DIMS - 3]);\
+
+#define BINARY_LOOP_COMPLEX_REVERSED_SUBTRACT4(results, resarray, type_left, larray, lstrides, rarray, rstrides)\
+ size_t i = 0;\
+ do {\
+ BINARY_LOOP_COMPLEX_REVERSED_SUBTRACT3((results), (resarray), type_left, (larray), (lstrides), (rarray), (rstrides));\
+ (larray) -= (lstrides)[ULAB_MAX_DIMS - 3] * (results)->shape[ULAB_MAX_DIMS - 3];\
+ (larray) += (lstrides)[ULAB_MAX_DIMS - 4];\
+ (rarray) -= (rstrides)[ULAB_MAX_DIMS - 3] * (results)->shape[ULAB_MAX_DIMS - 3];\
+ (rarray) += (rstrides)[ULAB_MAX_DIMS - 4];\
+ i++;\
+ } while(i < (results)->shape[ULAB_MAX_DIMS - 4]);\
+
+#define BINARY_LOOP_COMPLEX_RIGHT_DIVIDE1(results, resarray, type_left, larray, lstrides, rarray, rstrides)\
+ size_t l = 0;\
+ do {\
+ mp_float_t *c = (mp_float_t *)(rarray);\
+ mp_float_t denom = c[0] * c[0] + c[1] * c[1];\
+ mp_float_t a = *((type_left *)(larray)) / denom;\
+ *(resarray)++ = a * c[0];\
+ *(resarray)++ = -a * c[1];\
+ (larray) += (lstrides)[ULAB_MAX_DIMS - 1];\
+ (rarray) += (rstrides)[ULAB_MAX_DIMS - 1];\
+ l++;\
+ } while(l < (results)->shape[ULAB_MAX_DIMS - 1]);\
+
+#define BINARY_LOOP_COMPLEX_RIGHT_DIVIDE2(results, resarray, type_left, larray, lstrides, rarray, rstrides)\
+ size_t k = 0;\
+ do {\
+ BINARY_LOOP_COMPLEX_RIGHT_DIVIDE1((results), (resarray), type_left, (larray), (lstrides), (rarray), (rstrides));\
+ (larray) -= (lstrides)[ULAB_MAX_DIMS - 1] * (results)->shape[ULAB_MAX_DIMS - 1];\
+ (larray) += (lstrides)[ULAB_MAX_DIMS - 2];\
+ (rarray) -= (rstrides)[ULAB_MAX_DIMS - 1] * (results)->shape[ULAB_MAX_DIMS - 1];\
+ (rarray) += (rstrides)[ULAB_MAX_DIMS - 2];\
+ k++;\
+ } while(k < (results)->shape[ULAB_MAX_DIMS - 2]);\
+
+#define BINARY_LOOP_COMPLEX_RIGHT_DIVIDE3(results, resarray, type_left, larray, lstrides, rarray, rstrides)\
+ size_t j = 0;\
+ do {\
+ BINARY_LOOP_COMPLEX_RIGHT_DIVIDE2((results), (resarray), type_left, (larray), (lstrides), (rarray), (rstrides));\
+ (larray) -= (lstrides)[ULAB_MAX_DIMS - 2] * (results)->shape[ULAB_MAX_DIMS - 2];\
+ (larray) += (lstrides)[ULAB_MAX_DIMS - 3];\
+ (rarray) -= (rstrides)[ULAB_MAX_DIMS - 2] * (results)->shape[ULAB_MAX_DIMS - 2];\
+ (rarray) += (rstrides)[ULAB_MAX_DIMS - 3];\
+ j++;\
+ } while(j < (results)->shape[ULAB_MAX_DIMS - 3]);\
+
+#define BINARY_LOOP_COMPLEX_RIGHT_DIVIDE4(results, resarray, type_left, larray, lstrides, rarray, rstrides)\
+ size_t i = 0;\
+ do {\
+ BINARY_LOOP_COMPLEX_RIGHT_DIVIDE3((results), (resarray), type_left, (larray), (lstrides), (rarray), (rstrides));\
+ (larray) -= (lstrides)[ULAB_MAX_DIMS - 3] * (results)->shape[ULAB_MAX_DIMS - 3];\
+ (larray) += (lstrides)[ULAB_MAX_DIMS - 4];\
+ (rarray) -= (rstrides)[ULAB_MAX_DIMS - 3] * (results)->shape[ULAB_MAX_DIMS - 3];\
+ (rarray) += (rstrides)[ULAB_MAX_DIMS - 4];\
+ i++;\
+ } while(i < (results)->shape[ULAB_MAX_DIMS - 4]);\
+
+
+#define BINARY_LOOP_COMPLEX_EQUAL1(results, array, type_right, larray, lstrides, rarray, rstrides)\
+ size_t l = 0;\
+ do {\
+ if((*(larray) == *((type_right *)(rarray))) && ((larray)[1] == MICROPY_FLOAT_CONST(0.0))) {\
+ *(array) ^= 0x01;\
+ }\
+ (array)++;\
+ (larray) += (lstrides)[ULAB_MAX_DIMS - 1];\
+ (rarray) += (rstrides)[ULAB_MAX_DIMS - 1];\
+ l++;\
+ } while(l < (results)->shape[ULAB_MAX_DIMS - 1]);\
+
+#define BINARY_LOOP_COMPLEX_EQUAL2(results, array, type_right, larray, lstrides, rarray, rstrides)\
+ size_t k = 0;\
+ do {\
+ BINARY_LOOP_COMPLEX_EQUAL1((results), (array), type_right, (larray), (lstrides), (rarray), (rstrides));\
+ (larray) -= (lstrides)[ULAB_MAX_DIMS - 1] * (results)->shape[ULAB_MAX_DIMS - 1];\
+ (larray) += (lstrides)[ULAB_MAX_DIMS - 2];\
+ (rarray) -= (rstrides)[ULAB_MAX_DIMS - 1] * (results)->shape[ULAB_MAX_DIMS - 1];\
+ (rarray) += (rstrides)[ULAB_MAX_DIMS - 2];\
+ k++;\
+ } while(k < (results)->shape[ULAB_MAX_DIMS - 2]);\
+
+#define BINARY_LOOP_COMPLEX_EQUAL3(results, array, type_right, larray, lstrides, rarray, rstrides)\
+ size_t j = 0;\
+ do {\
+ BINARY_LOOP_COMPLEX_EQUAL2((results), (array), type_right, (larray), (lstrides), (rarray), (rstrides));\
+ (larray) -= (lstrides)[ULAB_MAX_DIMS - 2] * (results)->shape[ULAB_MAX_DIMS - 2];\
+ (larray) += (lstrides)[ULAB_MAX_DIMS - 3];\
+ (rarray) -= (rstrides)[ULAB_MAX_DIMS - 2] * (results)->shape[ULAB_MAX_DIMS - 2];\
+ (rarray) += (rstrides)[ULAB_MAX_DIMS - 3];\
+ j++;\
+ } while(j < (results)->shape[ULAB_MAX_DIMS - 3]);\
+
+#define BINARY_LOOP_COMPLEX_EQUAL4(results, array, type_right, larray, lstrides, rarray, rstrides)\
+ size_t i = 0;\
+ do {\
+ BINARY_LOOP_COMPLEX_EQUAL3((results), (array), type_right, (larray), (lstrides), (rarray), (rstrides));\
+ (larray) -= (lstrides)[ULAB_MAX_DIMS - 3] * (results)->shape[ULAB_MAX_DIMS - 3];\
+ (larray) += (lstrides)[ULAB_MAX_DIMS - 4];\
+ (rarray) -= (rstrides)[ULAB_MAX_DIMS - 3] * (results)->shape[ULAB_MAX_DIMS - 3];\
+ (rarray) += (rstrides)[ULAB_MAX_DIMS - 4];\
+ i++;\
+ } while(i < (results)->shape[ULAB_MAX_DIMS - 4]);\
+
+#if ULAB_MAX_DIMS == 1
+#define BINARY_LOOP_COMPLEX BINARY_LOOP_COMPLEX1
+#define BINARY_LOOP_COMPLEX_REVERSED_SUBTRACT BINARY_LOOP_COMPLEX_REVERSED_SUBTRACT1
+#define BINARY_LOOP_COMPLEX_RIGHT_DIVIDE BINARY_LOOP_COMPLEX_RIGHT_DIVIDE1
+#define BINARY_LOOP_COMPLEX_EQUAL BINARY_LOOP_COMPLEX_EQUAL1
+#endif /* ULAB_MAX_DIMS == 1 */
+
+#if ULAB_MAX_DIMS == 2
+#define BINARY_LOOP_COMPLEX BINARY_LOOP_COMPLEX2
+#define BINARY_LOOP_COMPLEX_REVERSED_SUBTRACT BINARY_LOOP_COMPLEX_REVERSED_SUBTRACT2
+#define BINARY_LOOP_COMPLEX_RIGHT_DIVIDE BINARY_LOOP_COMPLEX_RIGHT_DIVIDE2
+#define BINARY_LOOP_COMPLEX_EQUAL BINARY_LOOP_COMPLEX_EQUAL2
+#endif /* ULAB_MAX_DIMS == 2 */
+
+#if ULAB_MAX_DIMS == 3
+#define BINARY_LOOP_COMPLEX BINARY_LOOP_COMPLEX3
+#define BINARY_LOOP_COMPLEX_REVERSED_SUBTRACT BINARY_LOOP_COMPLEX_REVERSED_SUBTRACT3
+#define BINARY_LOOP_COMPLEX_RIGHT_DIVIDE BINARY_LOOP_COMPLEX_RIGHT_DIVIDE3
+#define BINARY_LOOP_COMPLEX_EQUAL BINARY_LOOP_COMPLEX_EQUAL3
+#endif /* ULAB_MAX_DIMS == 3 */
+
+#if ULAB_MAX_DIMS == 4
+#define BINARY_LOOP_COMPLEX BINARY_LOOP_COMPLEX4
+#define BINARY_LOOP_COMPLEX_REVERSED_SUBTRACT BINARY_LOOP_COMPLEX_REVERSED_SUBTRACT4
+#define BINARY_LOOP_COMPLEX_RIGHT_DIVIDE BINARY_LOOP_COMPLEX_RIGHT_DIVIDE4
+#define BINARY_LOOP_COMPLEX_EQUAL BINARY_LOOP_COMPLEX_EQUAL4
+#endif /* ULAB_MAX_DIMS == 4 */
+
+#endif
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