mirror of
https://github.com/frida/tinycc
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569255e6c4
since configure supports only native configuration a file 'cross-tcc.mak' needs to be created manually. It is included in the Makefile if present. # ---------------------------------------------------- # Example config-cross.mak: # # windows -> i386-linux cross-compiler # (it expects the linux files in <prefix>/i386-linux) ROOT-i386 = {B}/i386-linux CRT-i386 = $(ROOT-i386)/usr/lib LIB-i386 = $(ROOT-i386)/lib:$(ROOT-i386)/usr/lib INC-i386 = {B}/lib/include:$(ROOT-i386)/usr/include DEF-i386 += -D__linux__ # ---------------------------------------------------- Also: - use libtcc1-<target>.a instead of directories - add dummy arm assembler - remove include dependencies from armeabi.c/lib-arm64.c - tccelf/ld_add_file: add SYSROOT (when defined) to absolute filenames coming from ld-scripts
502 lines
27 KiB
C
502 lines
27 KiB
C
/* TCC ARM runtime EABI
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Copyright (C) 2013 Thomas Preud'homme
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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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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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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
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THE 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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#ifdef __TINYC__
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#define INT_MIN (-2147483647 - 1)
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#define INT_MAX 2147483647
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#define UINT_MAX 0xffffffff
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#define LONG_MIN (-2147483647L - 1)
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#define LONG_MAX 2147483647L
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#define ULONG_MAX 0xffffffffUL
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#define LLONG_MAX 9223372036854775807LL
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#define LLONG_MIN (-9223372036854775807LL - 1)
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#define ULLONG_MAX 0xffffffffffffffffULL
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#else
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#include <limits.h>
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#endif
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/* We rely on the little endianness and EABI calling convention for this to
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work */
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typedef struct double_unsigned_struct {
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unsigned low;
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unsigned high;
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} double_unsigned_struct;
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typedef struct unsigned_int_struct {
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unsigned low;
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int high;
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} unsigned_int_struct;
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#define REGS_RETURN(name, type) \
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void name ## _return(type ret) {}
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/* Float helper functions */
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#define FLOAT_EXP_BITS 8
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#define FLOAT_FRAC_BITS 23
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#define DOUBLE_EXP_BITS 11
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#define DOUBLE_FRAC_BITS 52
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#define ONE_EXP(type) ((1 << (type ## _EXP_BITS - 1)) - 1)
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REGS_RETURN(unsigned_int_struct, unsigned_int_struct)
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REGS_RETURN(double_unsigned_struct, double_unsigned_struct)
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/* float -> integer: (sign) 1.fraction x 2^(exponent - exp_for_one) */
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/* float to [unsigned] long long conversion */
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#define DEFINE__AEABI_F2XLZ(name, with_sign) \
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void __aeabi_ ## name(unsigned val) \
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{ \
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int exp, high_shift, sign; \
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double_unsigned_struct ret; \
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\
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/* compute sign */ \
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sign = val >> 31; \
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\
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/* compute real exponent */ \
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exp = val >> FLOAT_FRAC_BITS; \
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exp &= (1 << FLOAT_EXP_BITS) - 1; \
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exp -= ONE_EXP(FLOAT); \
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\
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/* undefined behavior if truncated value cannot be represented */ \
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if (with_sign) { \
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if (exp > 62) /* |val| too big, double cannot represent LLONG_MAX */ \
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return; \
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} else { \
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if ((sign && exp >= 0) || exp > 63) /* if val < 0 || val too big */ \
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return; \
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} \
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\
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val &= (1 << FLOAT_FRAC_BITS) - 1; \
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if (exp >= 32) { \
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ret.high = 1 << (exp - 32); \
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if (exp - 32 >= FLOAT_FRAC_BITS) { \
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ret.high |= val << (exp - 32 - FLOAT_FRAC_BITS); \
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ret.low = 0; \
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} else { \
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high_shift = FLOAT_FRAC_BITS - (exp - 32); \
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ret.high |= val >> high_shift; \
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ret.low = val << (32 - high_shift); \
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} \
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} else { \
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ret.high = 0; \
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ret.low = 1 << exp; \
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if (exp > FLOAT_FRAC_BITS) \
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ret.low |= val << (exp - FLOAT_FRAC_BITS); \
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else \
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ret.low |= val >> (FLOAT_FRAC_BITS - exp); \
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} \
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\
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/* encode negative integer using 2's complement */ \
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if (with_sign && sign) { \
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ret.low = ~ret.low; \
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ret.high = ~ret.high; \
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if (ret.low == UINT_MAX) { \
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ret.low = 0; \
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ret.high++; \
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} else \
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ret.low++; \
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} \
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\
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double_unsigned_struct_return(ret); \
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}
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/* float to unsigned long long conversion */
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DEFINE__AEABI_F2XLZ(f2ulz, 0)
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/* float to long long conversion */
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DEFINE__AEABI_F2XLZ(f2lz, 1)
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/* double to [unsigned] long long conversion */
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#define DEFINE__AEABI_D2XLZ(name, with_sign) \
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void __aeabi_ ## name(double_unsigned_struct val) \
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{ \
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int exp, high_shift, sign; \
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double_unsigned_struct ret; \
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\
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/* compute sign */ \
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sign = val.high >> 31; \
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\
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/* compute real exponent */ \
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exp = (val.high >> (DOUBLE_FRAC_BITS - 32)); \
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exp &= (1 << DOUBLE_EXP_BITS) - 1; \
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exp -= ONE_EXP(DOUBLE); \
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\
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/* undefined behavior if truncated value cannot be represented */ \
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if (with_sign) { \
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if (exp > 62) /* |val| too big, double cannot represent LLONG_MAX */ \
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return; \
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} else { \
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if ((sign && exp >= 0) || exp > 63) /* if val < 0 || val too big */ \
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return; \
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} \
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\
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val.high &= (1 << (DOUBLE_FRAC_BITS - 32)) - 1; \
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if (exp >= 32) { \
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ret.high = 1 << (exp - 32); \
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if (exp >= DOUBLE_FRAC_BITS) { \
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high_shift = exp - DOUBLE_FRAC_BITS; \
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ret.high |= val.high << high_shift; \
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ret.high |= val.low >> (32 - high_shift); \
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ret.low = val.low << high_shift; \
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} else { \
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high_shift = DOUBLE_FRAC_BITS - exp; \
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ret.high |= val.high >> high_shift; \
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ret.low = val.high << (32 - high_shift); \
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ret.low |= val.low >> high_shift; \
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} \
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} else { \
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ret.high = 0; \
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ret.low = 1 << exp; \
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if (exp > DOUBLE_FRAC_BITS - 32) { \
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high_shift = exp - DOUBLE_FRAC_BITS - 32; \
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ret.low |= val.high << high_shift; \
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ret.low |= val.low >> (32 - high_shift); \
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} else \
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ret.low |= val.high >> (DOUBLE_FRAC_BITS - 32 - exp); \
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} \
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\
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/* encode negative integer using 2's complement */ \
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if (with_sign && sign) { \
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ret.low = ~ret.low; \
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ret.high = ~ret.high; \
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if (ret.low == UINT_MAX) { \
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ret.low = 0; \
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ret.high++; \
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} else \
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ret.low++; \
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} \
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\
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double_unsigned_struct_return(ret); \
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}
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/* double to unsigned long long conversion */
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DEFINE__AEABI_D2XLZ(d2ulz, 0)
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/* double to long long conversion */
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DEFINE__AEABI_D2XLZ(d2lz, 1)
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/* long long to float conversion */
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#define DEFINE__AEABI_XL2F(name, with_sign) \
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unsigned __aeabi_ ## name(unsigned long long v) \
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{ \
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int s /* shift */, flb /* first lost bit */, sign = 0; \
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unsigned p = 0 /* power */, ret; \
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double_unsigned_struct val; \
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\
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/* fraction in negative float is encoded in 1's complement */ \
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if (with_sign && (v & (1ULL << 63))) { \
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sign = 1; \
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v = ~v + 1; \
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} \
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val.low = v; \
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val.high = v >> 32; \
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/* fill fraction bits */ \
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for (s = 31, p = 1 << 31; p && !(val.high & p); s--, p >>= 1); \
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if (p) { \
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ret = val.high & (p - 1); \
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if (s < FLOAT_FRAC_BITS) { \
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ret <<= FLOAT_FRAC_BITS - s; \
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ret |= val.low >> (32 - (FLOAT_FRAC_BITS - s)); \
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flb = (val.low >> (32 - (FLOAT_FRAC_BITS - s - 1))) & 1; \
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} else { \
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flb = (ret >> (s - FLOAT_FRAC_BITS - 1)) & 1; \
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ret >>= s - FLOAT_FRAC_BITS; \
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} \
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s += 32; \
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} else { \
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for (s = 31, p = 1 << 31; p && !(val.low & p); s--, p >>= 1); \
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if (p) { \
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ret = val.low & (p - 1); \
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if (s <= FLOAT_FRAC_BITS) { \
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ret <<= FLOAT_FRAC_BITS - s; \
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flb = 0; \
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} else { \
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flb = (ret >> (s - FLOAT_FRAC_BITS - 1)) & 1; \
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ret >>= s - FLOAT_FRAC_BITS; \
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} \
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} else \
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return 0; \
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} \
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if (flb) \
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ret++; \
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\
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/* fill exponent bits */ \
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ret |= (s + ONE_EXP(FLOAT)) << FLOAT_FRAC_BITS; \
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\
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/* fill sign bit */ \
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ret |= sign << 31; \
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\
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return ret; \
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}
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/* unsigned long long to float conversion */
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DEFINE__AEABI_XL2F(ul2f, 0)
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/* long long to float conversion */
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DEFINE__AEABI_XL2F(l2f, 1)
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/* long long to double conversion */
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#define __AEABI_XL2D(name, with_sign) \
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void __aeabi_ ## name(unsigned long long v) \
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{ \
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int s /* shift */, high_shift, sign = 0; \
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unsigned tmp, p = 0; \
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double_unsigned_struct val, ret; \
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\
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/* fraction in negative float is encoded in 1's complement */ \
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if (with_sign && (v & (1ULL << 63))) { \
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sign = 1; \
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v = ~v + 1; \
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} \
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val.low = v; \
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val.high = v >> 32; \
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\
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/* fill fraction bits */ \
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for (s = 31, p = 1 << 31; p && !(val.high & p); s--, p >>= 1); \
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if (p) { \
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tmp = val.high & (p - 1); \
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if (s < DOUBLE_FRAC_BITS - 32) { \
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high_shift = DOUBLE_FRAC_BITS - 32 - s; \
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ret.high = tmp << high_shift; \
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ret.high |= val.low >> (32 - high_shift); \
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ret.low = val.low << high_shift; \
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} else { \
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high_shift = s - (DOUBLE_FRAC_BITS - 32); \
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ret.high = tmp >> high_shift; \
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ret.low = tmp << (32 - high_shift); \
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ret.low |= val.low >> high_shift; \
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if ((val.low >> (high_shift - 1)) & 1) { \
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if (ret.low == UINT_MAX) { \
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ret.high++; \
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ret.low = 0; \
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} else \
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ret.low++; \
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} \
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} \
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s += 32; \
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} else { \
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for (s = 31, p = 1 << 31; p && !(val.low & p); s--, p >>= 1); \
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if (p) { \
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tmp = val.low & (p - 1); \
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if (s <= DOUBLE_FRAC_BITS - 32) { \
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high_shift = DOUBLE_FRAC_BITS - 32 - s; \
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ret.high = tmp << high_shift; \
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ret.low = 0; \
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} else { \
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high_shift = s - (DOUBLE_FRAC_BITS - 32); \
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ret.high = tmp >> high_shift; \
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ret.low = tmp << (32 - high_shift); \
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} \
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} else { \
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ret.high = ret.low = 0; \
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double_unsigned_struct_return(ret); \
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} \
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} \
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\
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/* fill exponent bits */ \
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ret.high |= (s + ONE_EXP(DOUBLE)) << (DOUBLE_FRAC_BITS - 32); \
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\
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/* fill sign bit */ \
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ret.high |= sign << 31; \
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\
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double_unsigned_struct_return(ret); \
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}
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/* unsigned long long to double conversion */
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__AEABI_XL2D(ul2d, 0)
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/* long long to double conversion */
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__AEABI_XL2D(l2d, 1)
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/* Long long helper functions */
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/* TODO: add error in case of den == 0 (see §4.3.1 and §4.3.2) */
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#define define_aeabi_xdivmod_signed_type(basetype, type) \
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typedef struct type { \
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basetype quot; \
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unsigned basetype rem; \
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} type
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#define define_aeabi_xdivmod_unsigned_type(basetype, type) \
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typedef struct type { \
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basetype quot; \
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basetype rem; \
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} type
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#define AEABI_UXDIVMOD(name,type, rettype, typemacro) \
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static inline rettype aeabi_ ## name (type num, type den) \
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{ \
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rettype ret; \
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type quot = 0; \
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\
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/* Increase quotient while it is less than numerator */ \
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while (num >= den) { \
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type q = 1; \
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\
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/* Find closest power of two */ \
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while ((q << 1) * den <= num && q * den <= typemacro ## _MAX / 2) \
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q <<= 1; \
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\
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/* Compute difference between current quotient and numerator */ \
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num -= q * den; \
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quot += q; \
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} \
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ret.quot = quot; \
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ret.rem = num; \
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return ret; \
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}
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#define __AEABI_XDIVMOD(name, type, uiname, rettype, urettype, typemacro) \
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void __aeabi_ ## name(type numerator, type denominator) \
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{ \
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unsigned type num, den; \
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urettype uxdiv_ret; \
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rettype ret; \
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\
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if (numerator >= 0) \
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num = numerator; \
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else \
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num = 0 - numerator; \
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if (denominator >= 0) \
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den = denominator; \
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else \
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den = 0 - denominator; \
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uxdiv_ret = aeabi_ ## uiname(num, den); \
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/* signs differ */ \
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if ((numerator & typemacro ## _MIN) != (denominator & typemacro ## _MIN)) \
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ret.quot = 0 - uxdiv_ret.quot; \
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else \
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ret.quot = uxdiv_ret.quot; \
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if (numerator < 0) \
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ret.rem = 0 - uxdiv_ret.rem; \
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else \
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ret.rem = uxdiv_ret.rem; \
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\
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rettype ## _return(ret); \
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}
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define_aeabi_xdivmod_signed_type(long long, lldiv_t);
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define_aeabi_xdivmod_unsigned_type(unsigned long long, ulldiv_t);
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define_aeabi_xdivmod_signed_type(int, idiv_t);
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define_aeabi_xdivmod_unsigned_type(unsigned, uidiv_t);
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REGS_RETURN(lldiv_t, lldiv_t)
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REGS_RETURN(ulldiv_t, ulldiv_t)
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REGS_RETURN(idiv_t, idiv_t)
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REGS_RETURN(uidiv_t, uidiv_t)
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AEABI_UXDIVMOD(uldivmod, unsigned long long, ulldiv_t, ULLONG)
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__AEABI_XDIVMOD(ldivmod, long long, uldivmod, lldiv_t, ulldiv_t, LLONG)
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void __aeabi_uldivmod(unsigned long long num, unsigned long long den)
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{
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ulldiv_t_return(aeabi_uldivmod(num, den));
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}
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void __aeabi_llsl(double_unsigned_struct val, int shift)
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{
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double_unsigned_struct ret;
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if (shift >= 32) {
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val.high = val.low;
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val.low = 0;
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shift -= 32;
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}
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if (shift > 0) {
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ret.low = val.low << shift;
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ret.high = (val.high << shift) | (val.low >> (32 - shift));
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double_unsigned_struct_return(ret);
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return;
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}
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double_unsigned_struct_return(val);
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}
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#define aeabi_lsr(val, shift, fill, type) \
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type ## _struct ret; \
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\
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if (shift >= 32) { \
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val.low = val.high; \
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val.high = fill; \
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shift -= 32; \
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} \
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if (shift > 0) { \
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ret.high = val.high >> shift; \
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ret.low = (val.high << (32 - shift)) | (val.low >> shift); \
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type ## _struct_return(ret); \
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return; \
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} \
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type ## _struct_return(val);
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void __aeabi_llsr(double_unsigned_struct val, int shift)
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{
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aeabi_lsr(val, shift, 0, double_unsigned);
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}
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void __aeabi_lasr(unsigned_int_struct val, int shift)
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{
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aeabi_lsr(val, shift, val.high >> 31, unsigned_int);
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}
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/* Integer division functions */
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AEABI_UXDIVMOD(uidivmod, unsigned, uidiv_t, UINT)
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int __aeabi_idiv(int numerator, int denominator)
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{
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unsigned num, den;
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uidiv_t ret;
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if (numerator >= 0)
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num = numerator;
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else
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num = 0 - numerator;
|
|
if (denominator >= 0)
|
|
den = denominator;
|
|
else
|
|
den = 0 - denominator;
|
|
ret = aeabi_uidivmod(num, den);
|
|
if ((numerator & INT_MIN) != (denominator & INT_MIN)) /* signs differ */
|
|
ret.quot *= -1;
|
|
return ret.quot;
|
|
}
|
|
|
|
unsigned __aeabi_uidiv(unsigned num, unsigned den)
|
|
{
|
|
return aeabi_uidivmod(num, den).quot;
|
|
}
|
|
|
|
__AEABI_XDIVMOD(idivmod, int, uidivmod, idiv_t, uidiv_t, INT)
|
|
|
|
void __aeabi_uidivmod(unsigned num, unsigned den)
|
|
{
|
|
uidiv_t_return(aeabi_uidivmod(num, den));
|
|
}
|