f30dd60766
gcc/ PR target/92055 * config.gcc (tm_defines) [target=avr]: Support --with-libf7, --with-double-comparison. * doc/install.texi: Document them. * config/avr/avr-c.c (avr_cpu_cpp_builtins) <WITH_LIBF7_LIBGCC, WITH_LIBF7_MATH, WITH_LIBF7_MATH_SYMBOLS> <WITH_DOUBLE_COMPARISON>: New built-in defines. * doc/invoke.texi (AVR Built-in Macros): Document them. * config/avr/avr-protos.h (avr_float_lib_compare_returns_bool): New. * config/avr/avr.c (avr_float_lib_compare_returns_bool): New function. * config/avr/avr.h (FLOAT_LIB_COMPARE_RETURNS_BOOL): New macro. libgcc/ PR target/92055 * config.host (tmake_file) [target=avr]: Add t-libf7, t-libf7-math, t-libf7-math-symbols as specified by --with-libf7=. * config/avr/t-avrlibc: Don't copy libgcc.a if there are modules depending on sizeof (double) or sizeof (long double). * config/avr/libf7: New folder. libgcc/config/avr/libf7/ PR target/92055 * t-libf7: New file. * t-libf7-math: New file. * t-libf7-math-symbols: New file. * libf7-common.mk: New file. * libf7-asm-object.mk: New file. * libf7-c-object.mk: New file. * asm-defs.h: New file. * libf7.h: New file. * libf7.c: New file. * libf7-asm.sx: New file. * libf7-array.def: New file. * libf7-const.def: New file. * libf7-constdef.h: New file. * f7renames.sh: New script. * f7wraps.sh: New script. * f7-renames.h: New generated file. * f7-wraps.h: New generated file. From-SVN: r279994
688 lines
17 KiB
C
688 lines
17 KiB
C
/* Copyright (C) 2019-2020 Free Software Foundation, Inc.
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This file is part of LIBF7, which is part of GCC.
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GCC is free software; you can redistribute it and/or modify it under
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the terms of the GNU General Public License as published by the Free
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Software Foundation; either version 3, or (at your option) any later
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version.
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GCC is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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for more details.
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Under Section 7 of GPL version 3, you are granted additional
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permissions described in the GCC Runtime Library Exception, version
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3.1, as published by the Free Software Foundation.
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You should have received a copy of the GNU General Public License and
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a copy of the GCC Runtime Library Exception along with this program;
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see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
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<http://www.gnu.org/licenses/>. */
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#ifndef LIBF7_H
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#define LIBF7_H
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#define IN_LIBF7_H
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#include "f7-renames.h"
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#define F7_MANT_BYTES 7
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#define F7_MANT_BITS (8 * F7_MANT_BYTES)
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/* Using the following GCC features:
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-- Unnamed structs / unions (GNU-C)
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-- Fixed-point types (GNU-C)
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-- Inline asm
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-- Setting assembler names by means of __asm (GNU-C).
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-- Attributes: alias, always_inline, const, noinline, unused,
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progmem, pure, weak, warning
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-- GCC built-ins: __builtin_abort, __builtin_constant_p
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-- AVR built-ins: __builtin_avr_bitsr, __builtin_avr_rbits
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*/
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/* We have 2 kinds of flags:
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A) The flags that are stored in f7_t.flags:
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-- f7_t.is_nan (NaN)
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-- f7_t.is_inf (+Inf or -Inf)
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-- f7_t.sign (negative or -Inf).
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B) The flags that are returned by f7_classify(). This are the
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flags from A) together with
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-- _zero: indicate that a number is zero.
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*/
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#define F7_FLAGNO_sign 0
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#define F7_FLAGNO_zero 1
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#define F7_FLAGNO_nan 2
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#define F7_FLAGNO_inf 7
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#define F7_HAVE_Inf 1
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// Flags that might be set by f7_classify().
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#define F7_FLAG_sign (1 << F7_FLAGNO_sign)
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#define F7_FLAG_zero (1 << F7_FLAGNO_zero)
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#define F7_FLAG_nan (1 << F7_FLAGNO_nan)
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#define F7_FLAG_inf (F7_HAVE_Inf << F7_FLAGNO_inf)
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// Flags that might be set in f7_t.flags.
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#define F7_FLAGS (F7_FLAG_inf | F7_FLAG_nan | F7_FLAG_sign)
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#if !defined __ASSEMBLER__
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#ifndef IN_LIBGCC2
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#include <stdint.h>
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#include <stdbool.h>
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#include <stdlib.h>
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#include <stdio.h>
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#else
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/* Do not assume that we have std headers when we build libgcc. */
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typedef __UINT64_TYPE__ uint64_t;
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typedef __UINT32_TYPE__ uint32_t;
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typedef __UINT16_TYPE__ uint16_t;
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typedef __UINT8_TYPE__ uint8_t;
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typedef __INT64_TYPE__ int64_t;
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typedef __INT32_TYPE__ int32_t;
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typedef __INT16_TYPE__ int16_t;
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typedef __INT8_TYPE__ int8_t;
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typedef _Bool bool;
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#define false 0
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#define true 1
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#define INT8_MIN (-1 - __INT8_MAX__)
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#define INT16_MAX __INT16_MAX__
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#define NULL ((void*) 0)
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#endif /* IN_LIBGCC2 */
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#include "asm-defs.h"
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#ifdef __cplusplus
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extern "C" {
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#define _Static_assert(X, Y) static_assert (X)
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#endif // C++
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#define F7_INLINE inline __attribute__((__always_inline__))
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#define F7_NOINLINE __attribute__((__noinline__))
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#define F7_WEAK __attribute__((__weak__))
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#define F7_PURE __attribute__((__pure__))
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#define F7_UNUSED __attribute__((__unused__))
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#define F7_CONST __attribute__((__const__))
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#define F7_STRINGY2(X) #X
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#define F7_STRINGY(X) F7_STRINGY2(X)
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#define F7ASM(X) __asm (F7_STRINGY2(X))
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typedef struct f7_t
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{
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union
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{
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struct
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{
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uint8_t sign :1;
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uint8_t reserved1 :1;
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uint8_t is_nan :1;
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uint8_t reserved2 :4;
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uint8_t is_inf :1;
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};
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uint8_t flags;
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};
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uint8_t mant[7];
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int16_t expo;
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} f7_t;
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typedef uint64_t f7_double_t;
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#define F7_MANT_HI4(X) \
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(*(uint32_t*) & (X)->mant[F7_MANT_BYTES - 4])
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#define F7_MANT_CONST_HI4(X) \
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(*(const uint32_t*) & (X)->mant[F7_MANT_BYTES - 4])
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#define F7_MANT_HI2(X) \
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(*(uint16_t*) & (X)->mant[F7_MANT_BYTES - 2])
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static F7_INLINE F7_PURE
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uint8_t f7_classify (const f7_t *aa)
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{
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extern void f7_classify_asm (void);
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register uint8_t rclass __asm ("r24");
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__asm ("%~call %x[f]"
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: "=r" (rclass)
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: [f] "i" (f7_classify_asm), "z" (aa));
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return rclass;
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}
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// +Inf or -Inf
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static F7_INLINE
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bool f7_class_inf (uint8_t c)
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{
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#if defined (F7_HAVE_Inf) && F7_HAVE_Inf == 1
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return c >= F7_FLAG_inf;
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#elif defined (F7_HAVE_Inf) && F7_HAVE_Inf == 0
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(void) c;
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return false;
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#else
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#error macro F7_HAVE_Inf must be defined to 0 or to 1.
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#endif // Have Inf
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}
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static F7_INLINE
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bool f7_is_inf (const f7_t *aa)
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{
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return f7_class_inf (aa->flags);
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}
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// Not-a-Number (NaN).
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static F7_INLINE
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bool f7_class_nan (uint8_t c)
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{
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return c & F7_FLAG_nan;
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}
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static F7_INLINE
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bool f7_is_nan (const f7_t *aa)
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{
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return f7_class_nan (aa->flags);
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}
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// Some number
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static F7_INLINE
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bool f7_class_number (uint8_t c)
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{
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return c <= (F7_FLAG_sign | F7_FLAG_zero);
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}
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static F7_INLINE
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bool f7_is_number (const f7_t *aa)
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{
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return f7_class_number (f7_classify (aa));
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}
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// Zero
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static F7_INLINE
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bool f7_class_zero (uint8_t c)
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{
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return c & F7_FLAG_zero;
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}
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static F7_INLINE
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bool f7_is_zero (const f7_t *aa)
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{
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return f7_class_zero (f7_classify (aa));
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}
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// A non-zero number.
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static F7_INLINE
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bool f7_class_nonzero (uint8_t c)
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{
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return c <= F7_FLAG_sign;
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}
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static F7_INLINE
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bool f7_is_nonzero (const f7_t *aa)
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{
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return f7_class_nonzero (f7_classify (aa));
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}
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static F7_INLINE
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bool f7_class_sign (uint8_t c)
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{
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return c & F7_FLAG_sign;
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}
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static F7_INLINE
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bool f7_signbit (const f7_t *aa)
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{
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return aa->flags & F7_FLAG_sign;
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}
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static F7_INLINE
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void f7_set_sign (f7_t *cc, bool sign)
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{
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_Static_assert (F7_FLAGNO_sign == 0, "");
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cc->flags &= ~F7_FLAG_sign;
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cc->flags |= sign;
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}
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static F7_INLINE
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void f7_set_nan (f7_t *cc)
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{
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cc->flags = F7_FLAG_nan;
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}
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static F7_INLINE
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void f7_clr (f7_t *cc)
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{
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extern void f7_clr_asm (void);
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__asm ("%~call %x[f]"
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:
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: [f] "i" (f7_clr_asm), "z" (cc)
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: "memory");
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}
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static F7_INLINE
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f7_t* f7_copy (f7_t *cc, const f7_t *aa)
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{
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extern void f7_copy_asm (void);
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__asm ("%~call %x[f]"
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:
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: [f] "i" (f7_copy_asm), "z" (cc), "x" (aa)
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: "memory");
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return cc;
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}
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static F7_INLINE
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f7_t* f7_copy_P (f7_t *cc, const f7_t *aa)
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{
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extern void f7_copy_P_asm (void);
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__asm ("%~call %x[f]"
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:
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: [f] "i" (f7_copy_P_asm), "x" (cc), "z" (aa)
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: "memory");
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return cc;
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}
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static F7_INLINE
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void f7_copy_mant (f7_t *cc, const f7_t *aa)
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{
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extern void f7_copy_mant_asm (void);
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__asm ("%~call %x[f]"
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:
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: [f] "i" (f7_copy_mant_asm), "z" (cc), "x" (aa)
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: "memory");
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}
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static F7_INLINE
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void f7_set_inf (f7_t *cc, bool sign)
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{
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#if F7_HAVE_Inf == 1
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cc->flags = F7_FLAG_inf | sign;
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#else
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(void) sign;
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cc->flags = F7_FLAG_nan;
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#endif // Have Inf
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}
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static F7_INLINE
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bool f7_msbit (const f7_t *aa)
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{
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return aa->mant[F7_MANT_BYTES - 1] & 0x80;
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}
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// Quick test against 0 if A is known to be a number (neither NaN nor Inf).
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static F7_INLINE
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bool f7_is0 (const f7_t *aa)
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{
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return 0 == f7_msbit (aa);
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}
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static F7_INLINE
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int8_t f7_cmp_mant (const f7_t *aa, const f7_t *bb)
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{
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extern void f7_cmp_mant_asm (void);
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register int8_t r24 __asm ("r24");
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__asm ("%~call %x[f] ;; %1 %3"
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: "=r" (r24)
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: [f] "i" (f7_cmp_mant_asm), "x" (aa), "z" (bb));
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return r24;
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}
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static F7_INLINE
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bool f7_store_expo (f7_t *cc, int16_t expo)
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{
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extern void f7_store_expo_asm (void);
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register bool r24 __asm ("r24");
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register int16_t rexpo __asm ("r24") = expo;
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__asm ("%~call %x[f] ;; %0 %2 %3"
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: "=r" (r24)
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: [f] "i" (f7_store_expo_asm), "z" (cc), "r" (rexpo));
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return r24;
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}
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static F7_INLINE
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f7_t* f7_abs (f7_t *cc, const f7_t *aa)
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{
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f7_copy (cc, aa);
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f7_set_sign (cc, 0);
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return cc;
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}
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F7_PURE extern int8_t f7_cmp (const f7_t*, const f7_t*);
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F7_PURE extern bool f7_lt_impl (const f7_t*, const f7_t*);
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F7_PURE extern bool f7_le_impl (const f7_t*, const f7_t*);
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F7_PURE extern bool f7_gt_impl (const f7_t*, const f7_t*);
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F7_PURE extern bool f7_ge_impl (const f7_t*, const f7_t*);
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F7_PURE extern bool f7_ne_impl (const f7_t*, const f7_t*);
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F7_PURE extern bool f7_eq_impl (const f7_t*, const f7_t*);
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F7_PURE extern bool f7_unord_impl (const f7_t*, const f7_t*);
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static F7_INLINE
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bool f7_lt (const f7_t *aa, const f7_t *bb)
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{
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return 2 & f7_cmp (aa, bb);
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}
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static F7_INLINE
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bool f7_gt (const f7_t *aa, const f7_t *bb)
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{
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return 1 == f7_cmp (aa, bb);
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}
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static F7_INLINE
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bool f7_le (const f7_t *aa, const f7_t *bb)
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{
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int8_t c = f7_cmp (aa, bb);
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return (uint8_t) (c + 1) <= 1;
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}
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static F7_INLINE
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bool f7_ge (const f7_t *aa, const f7_t *bb)
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{
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return f7_cmp (aa, bb) >= 0;
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}
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static F7_INLINE
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bool f7_unordered (const f7_t *aa, const f7_t *bb)
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{
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return INT8_MIN == f7_cmp (aa, bb);
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}
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static F7_INLINE
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bool f7_ordered (const f7_t *aa, const f7_t *bb)
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{
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return INT8_MIN != f7_cmp (aa, bb);
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}
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static F7_INLINE
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bool f7_eq (const f7_t *aa, const f7_t *bb)
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{
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return 0 == f7_cmp (aa, bb);
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}
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static F7_INLINE
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bool f7_ne (const f7_t *aa, const f7_t *bb)
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{
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return 1 & f7_cmp (aa, bb);
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}
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extern void f7_clr (f7_t*);
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__attribute__((warning ("foo_u16"))) void foo_u16 (void);
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__attribute__((warning ("foo_s16"))) void foo_s16 (void);
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extern f7_t* f7_set_s16_impl (f7_t*, int16_t);
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extern f7_t* f7_set_u16_impl (f7_t*, uint16_t);
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static F7_INLINE
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f7_t* f7_set_u16_worker (f7_t *cc, uint16_t u16)
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{
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if (__builtin_constant_p (u16))
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{
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if (u16 == 0)
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return cc;
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uint8_t off = __builtin_clz (u16);
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if (15 - off)
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* (uint8_t*) & cc->expo = (uint8_t) (15 - off);
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u16 <<= off;
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if (u16 & 0xff)
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cc->mant[5] = (uint8_t) u16;
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if (u16 & 0xff00)
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cc->mant[6] = (uint8_t) (u16 >> 8);
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return cc;
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}
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else
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{
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foo_u16();
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__builtin_abort();
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return NULL;
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}
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}
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static F7_INLINE
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f7_t* f7_set_u16 (f7_t *cc, uint16_t u16)
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{
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if (__builtin_constant_p (u16))
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{
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f7_clr (cc);
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return f7_set_u16_worker (cc, u16);
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}
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return f7_set_u16_impl (cc, u16);
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}
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static F7_INLINE
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f7_t* f7_set_s16 (f7_t *cc, int16_t s16)
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{
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if (__builtin_constant_p (s16))
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{
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f7_clr (cc);
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uint16_t u16 = (uint16_t) s16;
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if (s16 < 0)
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{
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u16 = -u16;
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cc->flags = F7_FLAG_sign;
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}
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return f7_set_u16_worker (cc, u16);
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}
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return f7_set_s16_impl (cc, s16);
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}
|
|
|
|
static F7_INLINE
|
|
void f7_set_eps (f7_t *cc, uint8_t eps, bool sign)
|
|
{
|
|
cc = f7_set_u16 (cc, 1);
|
|
if (!__builtin_constant_p (sign) || sign)
|
|
cc->flags = sign;
|
|
cc->mant[0] = eps;
|
|
}
|
|
|
|
static F7_INLINE
|
|
f7_t* f7_set_1pow2 (f7_t *cc, int16_t expo, bool sign)
|
|
{
|
|
cc = f7_set_u16 (cc, 1);
|
|
cc->expo = expo;
|
|
if (!__builtin_constant_p (sign) || sign)
|
|
cc->flags = sign;
|
|
return cc;
|
|
}
|
|
|
|
static F7_INLINE
|
|
f7_t* f7_set_u64 (f7_t *cc, uint64_t u64)
|
|
{
|
|
extern f7_t* f7_set_u64_asm (uint64_t, f7_t*);
|
|
return f7_set_u64_asm (u64, cc);
|
|
}
|
|
|
|
static F7_INLINE
|
|
f7_t* f7_set_s64 (f7_t *cc, int64_t s64)
|
|
{
|
|
extern f7_t* f7_set_s64_asm (int64_t, f7_t*);
|
|
return f7_set_s64_asm (s64, cc);
|
|
}
|
|
|
|
extern void f7_set_double_impl (f7_double_t, f7_t*);
|
|
static F7_INLINE
|
|
void f7_set_double (f7_t *cc, f7_double_t val64)
|
|
{
|
|
f7_set_double_impl (val64, cc);
|
|
}
|
|
|
|
extern f7_t* f7_init_impl (uint64_t, uint8_t, f7_t*, int16_t);
|
|
|
|
static F7_INLINE
|
|
f7_t* f7_init (f7_t *cc, uint8_t flags, uint64_t mant, int16_t expo)
|
|
{
|
|
return f7_init_impl (mant, flags, cc, expo);
|
|
}
|
|
|
|
extern f7_t* f7_set_s32 (f7_t*, int32_t);
|
|
extern f7_t* f7_set_u16 (f7_t*, uint16_t);
|
|
extern f7_t* f7_set_u32 (f7_t*, uint32_t);
|
|
extern void f7_set_float (f7_t*, float);
|
|
extern void f7_set_pdouble (f7_t*, const f7_double_t*);
|
|
|
|
F7_PURE extern int16_t f7_get_s16 (const f7_t*);
|
|
F7_PURE extern int32_t f7_get_s32 (const f7_t*);
|
|
F7_PURE extern int64_t f7_get_s64 (const f7_t*);
|
|
F7_PURE extern uint16_t f7_get_u16 (const f7_t*);
|
|
F7_PURE extern uint32_t f7_get_u32 (const f7_t*);
|
|
F7_PURE extern uint64_t f7_get_u64 (const f7_t*);
|
|
F7_PURE extern float f7_get_float (const f7_t*);
|
|
F7_PURE extern f7_double_t f7_get_double (const f7_t*);
|
|
|
|
#if USE_LPM == 1
|
|
#define F7_PGMSPACE __attribute__((__progmem__))
|
|
#define f7_copy_flash f7_copy_P
|
|
|
|
#define f7_const(X, NAME) \
|
|
f7_copy_P ((X), & F7_(const_ ## NAME ## _P))
|
|
|
|
#define F7_CONST_DEF(NAME, FLAGS, M0, M1, M2, M3, M4, M5, M6, EXPO) \
|
|
extern const f7_t F7_(const_ ## NAME ## _P);
|
|
#include "libf7-const.def"
|
|
#undef F7_CONST_DEF
|
|
#else
|
|
#define F7_PGMSPACE // Empty
|
|
#define f7_copy_flash f7_copy
|
|
|
|
#define f7_const(X, NAME) \
|
|
f7_copy ((X), & F7_(const_ ## NAME))
|
|
|
|
#define F7_CONST_DEF(NAME, FLAGS, M0, M1, M2, M3, M4, M5, M6, EXPO) \
|
|
extern const f7_t F7_(const_ ## NAME);
|
|
#include "libf7-const.def"
|
|
#undef F7_CONST_DEF
|
|
#endif // USE_LPM
|
|
|
|
|
|
// Basic floating point arithmetic:
|
|
// double output <=> f7_t*
|
|
// double input <=> const f7_t*
|
|
extern f7_t* f7_neg (f7_t*, const f7_t*);
|
|
extern void f7_add (f7_t*, const f7_t*, const f7_t*);
|
|
extern void f7_sub (f7_t*, const f7_t*, const f7_t*);
|
|
extern void f7_mul (f7_t*, const f7_t*, const f7_t*);
|
|
extern void f7_div (f7_t*, const f7_t*, const f7_t*);
|
|
|
|
// Analogies of functions from math.h:
|
|
// double output <=> f7_t*
|
|
// double input <=> const f7_t*
|
|
extern void f7_fabs (f7_t*, const f7_t*);
|
|
extern void f7_fmod (f7_t*, const f7_t*, const f7_t*);
|
|
extern void f7_frexp (f7_t*, const f7_t*, int*);
|
|
extern void f7_exp (f7_t*, const f7_t*);
|
|
extern void f7_log (f7_t*, const f7_t*);
|
|
extern void f7_pow (f7_t*, const f7_t*, const f7_t*);
|
|
extern void f7_sqrt (f7_t*, const f7_t*);
|
|
extern void f7_cbrt (f7_t*, const f7_t*);
|
|
extern void f7_hypot (f7_t*, const f7_t*, const f7_t*);
|
|
extern f7_t* f7_ldexp (f7_t*, const f7_t*, int);
|
|
extern f7_t* f7_fmax (f7_t*, const f7_t*, const f7_t*);
|
|
extern f7_t* f7_fmin (f7_t*, const f7_t*, const f7_t*);
|
|
extern f7_t* f7_trunc (f7_t*, const f7_t*);
|
|
extern f7_t* f7_floor (f7_t*, const f7_t*);
|
|
extern void f7_ceil (f7_t*, const f7_t*);
|
|
extern void f7_round (f7_t*, const f7_t*);
|
|
extern void f7_sin (f7_t*, const f7_t*);
|
|
extern void f7_cos (f7_t*, const f7_t*);
|
|
extern void f7_tan (f7_t*, const f7_t*);
|
|
extern void f7_atan (f7_t*, const f7_t*);
|
|
extern void f7_asin (f7_t*, const f7_t*);
|
|
extern void f7_acos (f7_t*, const f7_t*);
|
|
extern void f7_tanh (f7_t*, const f7_t*);
|
|
extern void f7_sinh (f7_t*, const f7_t*);
|
|
extern void f7_cosh (f7_t*, const f7_t*);
|
|
extern void f7_log2 (f7_t*, const f7_t*);
|
|
extern void f7_log10 (f7_t*, const f7_t*);
|
|
extern void f7_exp10 (f7_t*, const f7_t*);
|
|
extern void f7_pow10 (f7_t*, const f7_t*);
|
|
|
|
// Just prototypes, not implemented yet.
|
|
extern void f7_atan2 (f7_t*, const f7_t*, const f7_t*);
|
|
extern long f7_lrint (const f7_t*);
|
|
extern long f7_lround (const f7_t*);
|
|
|
|
// Helper functions, aliases, convenience.
|
|
extern void f7_div1 (f7_t*, const f7_t*);
|
|
extern void f7_square (f7_t*, const f7_t*);
|
|
|
|
extern void f7_powi (f7_t*, const f7_t*, int);
|
|
extern f7_t* f7_max (f7_t*, const f7_t*, const f7_t*);
|
|
extern f7_t* f7_min (f7_t*, const f7_t*, const f7_t*);
|
|
extern f7_t* f7_truncx (f7_t*, const f7_t*, bool);
|
|
extern void f7_cotan (f7_t*, const f7_t*);
|
|
extern void f7_sincos (f7_t*, f7_t*, const f7_t*);
|
|
extern void f7_asinacos (f7_t*, const f7_t*, uint8_t);
|
|
extern void f7_sinhcosh (f7_t*, const f7_t*, bool);
|
|
|
|
extern void f7_horner (f7_t*, const f7_t*, uint8_t, const f7_t *coeff, f7_t*);
|
|
extern void f7_mul_noround (f7_t*, const f7_t*, const f7_t*);
|
|
extern void f7_clr_mant_lsbs (f7_t*, const f7_t*, uint8_t) F7ASM(f7_clr_mant_lsbs_asm);
|
|
|
|
F7_PURE extern int8_t f7_cmp_unordered (const f7_t*, const f7_t*, bool);
|
|
F7_PURE extern int8_t f7_cmp_abs (const f7_t*, const f7_t*);
|
|
|
|
F7_PURE extern bool f7_abscmp_msb_ge (const f7_t*, uint8_t msb, int16_t expo);
|
|
extern void f7_addsub (f7_t*, const f7_t*, const f7_t*, bool neg_b);
|
|
extern void f7_madd_msub (f7_t*, const f7_t*, const f7_t*, const f7_t*, bool);
|
|
extern void f7_madd (f7_t*, const f7_t*, const f7_t*, const f7_t*);
|
|
extern void f7_msub (f7_t*, const f7_t*, const f7_t*, const f7_t*);
|
|
extern uint8_t f7_mulx (f7_t*, const f7_t*, const f7_t*, bool);
|
|
extern void f7_divx (f7_t*, const f7_t*, const f7_t*, uint8_t);
|
|
extern void f7_logx (f7_t*, const f7_t*, const f7_t*);
|
|
extern f7_t* f7_minmax (f7_t*, const f7_t*, const f7_t*, bool);
|
|
|
|
// Idem:
|
|
// f7_Ifunc (y) = f7_func (y, y)
|
|
// f7_Ifunc (y, x) = f7_func (y, y, x)
|
|
extern void f7_Iadd (f7_t*, const f7_t*);
|
|
extern void f7_Isub (f7_t*, const f7_t*);
|
|
extern void f7_Imul (f7_t*, const f7_t*);
|
|
extern void f7_Idiv (f7_t*, const f7_t*);
|
|
extern void f7_IRsub (f7_t*, const f7_t*);
|
|
extern void f7_Ineg (f7_t*);
|
|
extern void f7_Isqrt (f7_t*);
|
|
extern void f7_Isquare (f7_t*);
|
|
extern f7_t* f7_Ildexp (f7_t*, int);
|
|
|
|
// Protoypes for some functions from libf7-asm.sx.
|
|
F7_CONST extern uint16_t f7_sqrt16_round (uint16_t) F7ASM(f7_sqrt16_round_asm);
|
|
F7_CONST extern uint8_t f7_sqrt16_floor (uint16_t) F7ASM(f7_sqrt16_floor_asm);
|
|
extern void f7_addsub_mant_scaled_asm (f7_t*, const f7_t*, const f7_t*, uint8_t);
|
|
extern uint8_t f7_mul_mant_asm (f7_t*, const f7_t*, const f7_t*, uint8_t);
|
|
extern void f7_sqrt_approx_asm (f7_t*, const f7_t*);
|
|
extern uint64_t f7_lshrdi3 (uint64_t, uint8_t) F7ASM(f7_lshrdi3_asm);
|
|
extern uint64_t f7_ashldi3 (uint64_t, uint8_t) F7ASM(f7_ashldi3_asm);
|
|
// Normalize a non-Inf, non-NaN value. Sets .sign to 0.
|
|
extern f7_t* f7_normalize_asm (f7_t*);
|
|
|
|
// Dumping.
|
|
#ifndef IN_LIBGCC2
|
|
extern void f7_dump (const f7_t*);
|
|
extern void f7_dump_mant (const f7_t*);
|
|
extern void f7_put_C (const f7_t*, FILE*);
|
|
extern void f7_put_CDEF (const char *name, const f7_t*, FILE*);
|
|
#endif /* IN_LIBGCC2 */
|
|
|
|
#ifdef __cplusplus
|
|
} // extern "C"
|
|
#include "libf7-class.h"
|
|
#endif // C++
|
|
|
|
#endif /* __ASSEMBLER__ */
|
|
#undef IN_LIBF7_H
|
|
#endif /* LIBF7_H */
|