2014-05-26 05:54:59 +01:00
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// stb_divide.h - v0.91 - public domain - Sean Barrett, Feb 2010
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// Three kinds of divide/modulus of signed integers.
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//
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// HISTORY
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//
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// v0.91 2010-02-27 Fix euclidean division by INT_MIN for non-truncating C
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// Check result with 64-bit math to catch such cases
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// v0.90 2010-02-24 First public release
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//
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// USAGE
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//
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// In *ONE* source file, put:
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//
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// #define STB_DIVIDE_IMPLEMENTATION
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// // #define C_INTEGER_DIVISION_TRUNCATES // see Note 1
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// // #define C_INTEGER_DIVISION_FLOORS // see Note 2
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// #include "stb_divide.h"
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//
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// Other source files should just include stb_divide.h
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//
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// Note 1: On platforms/compilers that you know signed C division
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// truncates, you can #define C_INTEGER_DIVISION_TRUNCATES.
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//
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// Note 2: On platforms/compilers that you know signed C division
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// floors (rounds to negative infinity), you can #define
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// C_INTEGER_DIVISION_FLOORS.
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//
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// You can #define STB_DIVIDE_TEST in which case the implementation
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// will generate a main() and compiling the result will create a
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// program that tests the implementation. Run it with no arguments
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// and any output indicates an error; run it with any argument and
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// it will also print the test results. Define STB_DIVIDE_TEST_64
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// to a 64-bit integer type to avoid overflows in the result-checking
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// which give false negatives.
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//
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// ABOUT
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//
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// This file provides three different consistent divide/mod pairs
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// implemented on top of arbitrary C/C++ division, including correct
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// handling of overflow of intermediate calculations:
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//
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// trunc: a/b truncates to 0, a%b has same sign as a
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// floor: a/b truncates to -inf, a%b has same sign as b
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// eucl: a/b truncates to sign(b)*inf, a%b is non-negative
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//
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// Not necessarily optimal; I tried to keep it generally efficient,
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// but there may be better ways.
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//
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// Briefly, for those who are not familiar with the problem, we note
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// the reason these divides exist and are interesting:
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//
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// 'trunc' is easy to implement in hardware (strip the signs,
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// compute, reapply the signs), thus is commonly defined
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// by many languages (including C99)
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//
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// 'floor' is simple to define and better behaved than trunc;
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// for example it divides integers into fixed-size buckets
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// without an extra-wide bucket at 0, and for a fixed
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// divisor N there are only |N| possible moduli.
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//
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// 'eucl' guarantees fixed-sized buckets *and* a non-negative
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// modulus and defines division to be whatever is needed
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// to achieve that result.
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//
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// See "The Euclidean definition of the functions div and mod"
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// by Raymond Boute (1992), or "Division and Modulus for Computer
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// Scientists" by Daan Leijen (2001)
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//
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// We assume of the built-in C division:
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// (a) modulus is the remainder for the corresponding division
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// (b) a/b truncates if a and b are the same sign
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//
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// Property (a) requires (a/b)*b + (a%b)==a, and is required by C.
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// Property (b) seems to be true of all hardware but is *not* satisfied
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// by the euclidean division operator we define, so it's possibly not
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// always true. If any such platform turns up, we can add more cases.
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// (Possibly only stb_div_trunc currently relies on property (b).)
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2015-08-01 19:48:08 +01:00
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//
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// LICENSE
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//
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2016-02-10 22:48:59 +00:00
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// This software is dual-licensed to the public domain and under the following
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// license: you are granted a perpetual, irrevocable license to copy, modify,
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// publish, and distribute this file as you see fit.
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2014-05-26 05:54:59 +01:00
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#ifndef INCLUDE_STB_DIVIDE_H
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#define INCLUDE_STB_DIVIDE_H
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#ifdef __cplusplus
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extern "C" {
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#endif
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extern int stb_div_trunc(int value_to_be_divided, int value_to_divide_by);
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extern int stb_div_floor(int value_to_be_divided, int value_to_divide_by);
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extern int stb_div_eucl (int value_to_be_divided, int value_to_divide_by);
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extern int stb_mod_trunc(int value_to_be_divided, int value_to_divide_by);
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extern int stb_mod_floor(int value_to_be_divided, int value_to_divide_by);
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extern int stb_mod_eucl (int value_to_be_divided, int value_to_divide_by);
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#ifdef __cplusplus
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}
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#endif
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#ifdef STB_DIVIDE_IMPLEMENTATION
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#if defined(__STDC_VERSION) && __STDC_VERSION__ >= 19901
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#ifndef C_INTEGER_DIVISION_TRUNCATES
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#define C_INTEGER_DIVISION_TRUNCATES
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#endif
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#endif
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#ifndef INT_MIN
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#include <limits.h> // if you have no limits.h, #define INT_MIN yourself
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#endif
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// the following macros are designed to allow testing
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// other platforms by simulating them
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#ifndef STB_DIVIDE_TEST_FLOOR
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#define stb__div(a,b) ((a)/(b))
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#define stb__mod(a,b) ((a)%(b))
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#else
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// implement floor-style divide on trunc platform
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#ifndef C_INTEGER_DIVISION_TRUNCATES
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#error "floor test requires truncating division"
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#endif
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#undef C_INTEGER_DIVISION_TRUNCATES
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int stb__div(int v1, int v2)
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{
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int q = v1/v2, r = v1%v2;
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if ((r > 0 && v2 < 0) || (r < 0 && v2 > 0))
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return q-1;
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else
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return q;
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}
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int stb__mod(int v1, int v2)
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{
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int r = v1%v2;
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if ((r > 0 && v2 < 0) || (r < 0 && v2 > 0))
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return r+v2;
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else
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return r;
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}
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#endif
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int stb_div_trunc(int v1, int v2)
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{
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#ifdef C_INTEGER_DIVISION_TRUNCATES
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return v1/v2;
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#else
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if (v1 >= 0 && v2 <= 0)
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return -stb__div(-v1,v2); // both negative to avoid overflow
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if (v1 <= 0 && v2 >= 0)
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if (v1 != INT_MIN)
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return -stb__div(v1,-v2); // both negative to avoid overflow
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else
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return -stb__div(v1+v2,-v2)-1; // push v1 away from wrap point
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else
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return v1/v2; // same sign, so expect truncation
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#endif
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}
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int stb_div_floor(int v1, int v2)
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{
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#ifdef C_INTEGER_DIVISION_FLOORS
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return v1/v2;
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#else
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if (v1 >= 0 && v2 < 0)
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if ((-v1)+v2+1 < 0) // check if increasing v1's magnitude overflows
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return -stb__div(-v1+v2+1,v2); // nope, so just compute it
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else
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return -stb__div(-v1,v2) + ((-v1)%v2 ? -1 : 0);
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if (v1 < 0 && v2 >= 0)
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if (v1 != INT_MIN)
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if (v1-v2+1 < 0) // check if increasing v1's magnitude overflows
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return -stb__div(v1-v2+1,-v2); // nope, so just compute it
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else
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return -stb__div(-v1,v2) + (stb__mod(v1,-v2) ? -1 : 0);
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else // it must be possible to compute -(v1+v2) without overflowing
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return -stb__div(-(v1+v2),v2) + (stb__mod(-(v1+v2),v2) ? -2 : -1);
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else
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return v1/v2; // same sign, so expect truncation
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#endif
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}
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int stb_div_eucl(int v1, int v2)
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{
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int q,r;
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#ifdef C_INTEGER_DIVISION_TRUNCATES
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q = v1/v2;
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r = v1%v2;
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#else
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// handle every quadrant separately, since we can't rely on q and r flor
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if (v1 >= 0)
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if (v2 >= 0)
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return stb__div(v1,v2);
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else if (v2 != INT_MIN)
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q = -stb__div(v1,-v2), r = stb__mod(v1,-v2);
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else
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q = 0, r = v1;
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else if (v1 != INT_MIN)
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if (v2 >= 0)
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q = -stb__div(-v1,v2), r = -stb__mod(-v1,v2);
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else if (v2 != INT_MIN)
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q = stb__div(-v1,-v2), r = -stb__mod(-v1,-v2);
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else // if v2 is INT_MIN, then we can't use -v2, but we can't divide by v2
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q = 1, r = v1-q*v2;
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else // if v1 is INT_MIN, we have to move away from overflow place
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if (v2 >= 0)
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q = -stb__div(-(v1+v2),v2)-1, r = -stb__mod(-(v1+v2),v2);
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else
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q = stb__div(-(v1-v2),-v2)+1, r = -stb__mod(-(v1-v2),-v2);
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#endif
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if (r >= 0)
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return q;
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else
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return q + (v2 > 0 ? -1 : 1);
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}
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int stb_mod_trunc(int v1, int v2)
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{
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#ifdef C_INTEGER_DIVISION_TRUNCATES
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return v1%v2;
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#else
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if (v1 >= 0) { // modulus result should always be positive
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int r = stb__mod(v1,v2);
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if (r >= 0)
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return r;
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else
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return r + (v2 > 0 ? v2 : -v2);
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} else { // modulus result should always be negative
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int r = stb__mod(v1,v2);
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if (r <= 0)
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return r;
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else
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return r - (v2 > 0 ? v2 : -v2);
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}
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#endif
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}
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int stb_mod_floor(int v1, int v2)
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{
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#ifdef C_INTEGER_DIVISION_FLOORS
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return v1%v2;
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#else
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if (v2 >= 0) { // result should always be positive
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int r = stb__mod(v1,v2);
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if (r >= 0)
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return r;
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else
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return r + v2;
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} else { // result should always be negative
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int r = stb__mod(v1,v2);
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if (r <= 0)
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return r;
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else
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return r + v2;
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}
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#endif
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}
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int stb_mod_eucl(int v1, int v2)
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{
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int r = stb__mod(v1,v2);
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if (r >= 0)
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return r;
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else
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return r + (v2 > 0 ? v2 : -v2); // abs()
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}
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#ifdef STB_DIVIDE_TEST
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#include <stdio.h>
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#include <math.h>
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#include <limits.h>
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int show=0;
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void stbdiv_check(int q, int r, int a, int b, char *type, int dir)
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{
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if ((dir > 0 && r < 0) || (dir < 0 && r > 0))
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fprintf(stderr, "FAILED: %s(%d,%d) remainder %d in wrong direction\n", type,a,b,r);
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else
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if (b != INT_MIN) // can't compute abs(), but if b==INT_MIN all remainders are valid
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if (r <= -abs(b) || r >= abs(b))
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fprintf(stderr, "FAILED: %s(%d,%d) remainder %d out of range\n", type,a,b,r);
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#ifdef STB_DIVIDE_TEST_64
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{
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STB_DIVIDE_TEST_64 q64 = q, r64=r, a64=a, b64=b;
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if (q64*b64+r64 != a64)
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fprintf(stderr, "FAILED: %s(%d,%d) remainder %d doesn't match quotient %d\n", type,a,b,r,q);
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}
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#else
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if (q*b+r != a)
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fprintf(stderr, "FAILED: %s(%d,%d) remainder %d doesn't match quotient %d\n", type,a,b,r,q);
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#endif
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}
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void test(int a, int b)
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{
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int q,r;
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if (show) printf("(%+11d,%+d) | ", a,b);
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q = stb_div_trunc(a,b), r = stb_mod_trunc(a,b);
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if (show) printf("(%+11d,%+2d) ", q,r); stbdiv_check(q,r,a,b, "trunc",a);
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q = stb_div_floor(a,b), r = stb_mod_floor(a,b);
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if (show) printf("(%+11d,%+2d) ", q,r); stbdiv_check(q,r,a,b, "floor",b);
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q = stb_div_eucl (a,b), r = stb_mod_eucl (a,b);
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if (show) printf("(%+11d,%+2d)\n", q,r); stbdiv_check(q,r,a,b, "euclidean",1);
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}
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void testh(int a, int b)
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{
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int q,r;
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if (show) printf("(%08x,%08x) |\n", a,b);
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q = stb_div_trunc(a,b), r = stb_mod_trunc(a,b); stbdiv_check(q,r,a,b, "trunc",a);
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if (show) printf(" (%08x,%08x)", q,r);
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q = stb_div_floor(a,b), r = stb_mod_floor(a,b); stbdiv_check(q,r,a,b, "floor",b);
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if (show) printf(" (%08x,%08x)", q,r);
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q = stb_div_eucl (a,b), r = stb_mod_eucl (a,b); stbdiv_check(q,r,a,b, "euclidean",1);
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if (show) printf(" (%08x,%08x)\n ", q,r);
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}
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int main(int argc, char **argv)
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{
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if (argc > 1) show=1;
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test(8,3);
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test(8,-3);
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test(-8,3);
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test(-8,-3);
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test(1,2);
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test(1,-2);
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test(-1,2);
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test(-1,-2);
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test(8,4);
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test(8,-4);
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test(-8,4);
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test(-8,-4);
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test(INT_MAX,1);
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test(INT_MIN,1);
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test(INT_MIN+1,1);
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test(INT_MAX,-1);
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//test(INT_MIN,-1); // this traps in MSVC, so we leave it untested
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test(INT_MIN+1,-1);
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test(INT_MIN,-2);
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test(INT_MIN+1,2);
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test(INT_MIN+1,-2);
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test(INT_MAX,2);
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test(INT_MAX,-2);
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test(INT_MIN+1,2);
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test(INT_MIN+1,-2);
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test(INT_MIN,2);
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test(INT_MIN,-2);
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test(INT_MIN,7);
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test(INT_MIN,-7);
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test(INT_MIN+1,4);
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test(INT_MIN+1,-4);
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testh(-7, INT_MIN);
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testh(-1, INT_MIN);
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testh(1, INT_MIN);
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testh(7, INT_MIN);
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testh(INT_MAX-1, INT_MIN);
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testh(INT_MAX, INT_MIN);
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testh(INT_MIN, INT_MIN);
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testh(INT_MIN+1, INT_MIN);
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testh(INT_MAX-1, INT_MAX);
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testh(INT_MAX , INT_MAX);
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testh(INT_MIN , INT_MAX);
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testh(INT_MIN+1, INT_MAX);
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return 0;
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}
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#endif // STB_DIVIDE_TEST
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#endif // STB_DIVIDE_IMPLEMENTATION
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#endif // INCLUDE_STB_DIVIDE_H
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