| 1 | //
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| 2 | // Cforall Version 1.0.0 Copyright (C) 2016 University of Waterloo
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| 3 | //
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| 4 | // The contents of this file are covered under the licence agreement in the
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| 5 | // file "LICENCE" distributed with Cforall.
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| 6 | //
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| 7 | // stdlib.c --
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| 8 | //
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| 9 | // Author : Peter A. Buhr
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| 10 | // Created On : Thu Jan 28 17:10:29 2016
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| 11 | // Last Modified By : Peter A. Buhr
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| 12 | // Last Modified On : Thu Jan 13 21:38:30 2022
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| 13 | // Update Count : 593
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| 14 | //
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| 15 |
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| 16 | #include "stdlib.hfa"
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| 17 | #include "bits/random.hfa"
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| 18 | #include "concurrency/invoke.h" // random_state
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| 19 |
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| 20 | //---------------------------------------
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| 21 |
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| 22 | #define _XOPEN_SOURCE 600 // posix_memalign, *rand48
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| 23 | #include <string.h> // memcpy, memset
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| 24 | //#include <math.h> // fabsf, fabs, fabsl
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| 25 | #include <complex.h> // _Complex_I
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| 26 | #include <assert.h>
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| 27 |
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| 28 | //---------------------------------------
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| 29 |
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| 30 | // Cforall allocation/deallocation and constructor/destructor, array types
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| 31 |
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| 32 | forall( T & | sized(T), TT... | { void ?{}( T &, TT ); } )
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| 33 | T * anew( size_t dim, TT p ) {
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| 34 | T * arr = alloc( dim );
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| 35 | for ( unsigned int i = 0; i < dim; i += 1 ) {
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| 36 | (arr[i]){ p }; // run constructor
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| 37 | } // for
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| 38 | return arr;
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| 39 | } // anew
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| 40 |
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| 41 | forall( T & | sized(T) | { void ^?{}( T & ); } )
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| 42 | void adelete( T arr[] ) {
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| 43 | if ( arr ) { // ignore null
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| 44 | size_t dim = malloc_size( arr ) / sizeof( T );
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| 45 | for ( int i = dim - 1; i >= 0; i -= 1 ) { // reverse allocation order, must be unsigned
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| 46 | ^(arr[i]){}; // run destructor
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| 47 | } // for
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| 48 | free( arr );
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| 49 | } // if
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| 50 | } // adelete
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| 51 |
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| 52 | forall( T & | sized(T) | { void ^?{}( T & ); }, TT... | { void adelete( TT ); } )
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| 53 | void adelete( T arr[], TT rest ) {
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| 54 | if ( arr ) { // ignore null
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| 55 | size_t dim = malloc_size( arr ) / sizeof( T );
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| 56 | for ( int i = dim - 1; i >= 0; i -= 1 ) { // reverse allocation order, must be unsigned
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| 57 | ^(arr[i]){}; // run destructor
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| 58 | } // for
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| 59 | free( arr );
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| 60 | } // if
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| 61 | adelete( rest );
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| 62 | } // adelete
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| 63 |
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| 64 | //---------------------------------------
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| 65 |
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| 66 | float _Complex strto( const char sptr[], char ** eptr ) {
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| 67 | float re, im;
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| 68 | char * eeptr;
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| 69 | re = strtof( sptr, &eeptr );
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| 70 | if ( sptr == eeptr ) { if ( eptr != 0 ) *eptr = eeptr; return 0.0f + 0.0f * _Complex_I; }
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| 71 | im = strtof( eeptr, &eeptr );
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| 72 | if ( sptr == eeptr ) { if ( eptr != 0 ) *eptr = eeptr; return 0.0f + 0.0f * _Complex_I; }
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| 73 | if ( *eeptr != 'i' ) { if ( eptr != 0 ) *eptr = eeptr; return 0.0f + 0.0f * _Complex_I; }
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| 74 | return re + im * _Complex_I;
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| 75 | } // strto
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| 76 |
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| 77 | double _Complex strto( const char sptr[], char ** eptr ) {
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| 78 | double re, im;
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| 79 | char * eeptr;
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| 80 | re = strtod( sptr, &eeptr );
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| 81 | if ( sptr == eeptr ) { if ( eptr != 0 ) *eptr = eeptr; return 0.0 + 0.0 * _Complex_I; }
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| 82 | im = strtod( eeptr, &eeptr );
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| 83 | if ( sptr == eeptr ) { if ( eptr != 0 ) *eptr = eeptr; return 0.0 + 0.0 * _Complex_I; }
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| 84 | if ( *eeptr != 'i' ) { if ( eptr != 0 ) *eptr = eeptr; return 0.0 + 0.0 * _Complex_I; }
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| 85 | return re + im * _Complex_I;
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| 86 | } // strto
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| 87 |
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| 88 | long double _Complex strto( const char sptr[], char ** eptr ) {
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| 89 | long double re, im;
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| 90 | char * eeptr;
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| 91 | re = strtold( sptr, &eeptr );
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| 92 | if ( sptr == eeptr ) { if ( eptr != 0 ) *eptr = eeptr; return 0.0L + 0.0L * _Complex_I; }
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| 93 | im = strtold( eeptr, &eeptr );
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| 94 | if ( sptr == eeptr ) { if ( eptr != 0 ) *eptr = eeptr; return 0.0L + 0.0L * _Complex_I; }
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| 95 | if ( *eeptr != 'i' ) { if ( eptr != 0 ) *eptr = eeptr; return 0.0L + 0.0L * _Complex_I; }
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| 96 | return re + im * _Complex_I;
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| 97 | } // strto
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| 98 |
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| 99 | //---------------------------------------
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| 100 |
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| 101 | forall( E | { int ?<?( E, E ); } ) {
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| 102 | E * bsearch( E key, const E * vals, size_t dim ) {
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| 103 | int cmp( const void * t1, const void * t2 ) {
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| 104 | return *(E *)t1 < *(E *)t2 ? -1 : *(E *)t2 < *(E *)t1 ? 1 : 0;
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| 105 | } // cmp
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| 106 | return (E *)bsearch( &key, vals, dim, sizeof(E), cmp );
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| 107 | } // bsearch
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| 108 |
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| 109 | size_t bsearch( E key, const E * vals, size_t dim ) {
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| 110 | E * result = bsearch( key, vals, dim );
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| 111 | return result ? result - vals : dim; // pointer subtraction includes sizeof(E)
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| 112 | } // bsearch
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| 113 |
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| 114 | size_t bsearchl( E key, const E * vals, size_t dim ) {
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| 115 | size_t l = 0, m, h = dim;
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| 116 | while ( l < h ) {
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| 117 | m = (l + h) / 2;
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| 118 | if ( (E &)(vals[m]) < key ) { // cast away const
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| 119 | l = m + 1;
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| 120 | } else {
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| 121 | h = m;
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| 122 | } // if
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| 123 | } // while
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| 124 | return l;
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| 125 | } // bsearchl
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| 126 |
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| 127 | E * bsearchl( E key, const E * vals, size_t dim ) {
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| 128 | size_t posn = bsearchl( key, vals, dim );
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| 129 | return (E *)(&vals[posn]); // cast away const
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| 130 | } // bsearchl
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| 131 |
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| 132 | size_t bsearchu( E key, const E * vals, size_t dim ) {
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| 133 | size_t l = 0, m, h = dim;
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| 134 | while ( l < h ) {
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| 135 | m = (l + h) / 2;
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| 136 | if ( ! ( key < (E &)(vals[m]) ) ) { // cast away const
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| 137 | l = m + 1;
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| 138 | } else {
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| 139 | h = m;
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| 140 | } // if
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| 141 | } // while
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| 142 | return l;
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| 143 | } // bsearchu
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| 144 |
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| 145 | E * bsearchu( E key, const E * vals, size_t dim ) {
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| 146 | size_t posn = bsearchu( key, vals, dim );
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| 147 | return (E *)(&vals[posn]);
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| 148 | } // bsearchu
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| 149 |
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| 150 |
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| 151 | void qsort( E * vals, size_t dim ) {
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| 152 | int cmp( const void * t1, const void * t2 ) {
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| 153 | return *(E *)t1 < *(E *)t2 ? -1 : *(E *)t2 < *(E *)t1 ? 1 : 0;
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| 154 | } // cmp
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| 155 | qsort( vals, dim, sizeof(E), cmp );
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| 156 | } // qsort
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| 157 | } // distribution
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| 158 |
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| 159 |
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| 160 | forall( K, E | { int ?<?( K, K ); K getKey( const E & ); } ) {
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| 161 | E * bsearch( K key, const E * vals, size_t dim ) {
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| 162 | int cmp( const void * t1, const void * t2 ) {
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| 163 | return *(K *)t1 < getKey( *(E *)t2 ) ? -1 : getKey( *(E *)t2 ) < *(K *)t1 ? 1 : 0;
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| 164 | } // cmp
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| 165 | return (E *)bsearch( &key, vals, dim, sizeof(E), cmp );
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| 166 | } // bsearch
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| 167 |
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| 168 | size_t bsearch( K key, const E * vals, size_t dim ) {
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| 169 | E * result = bsearch( key, vals, dim );
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| 170 | return result ? result - vals : dim; // pointer subtraction includes sizeof(E)
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| 171 | } // bsearch
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| 172 |
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| 173 | size_t bsearchl( K key, const E * vals, size_t dim ) {
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| 174 | size_t l = 0, m, h = dim;
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| 175 | while ( l < h ) {
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| 176 | m = (l + h) / 2;
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| 177 | if ( getKey( vals[m] ) < key ) {
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| 178 | l = m + 1;
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| 179 | } else {
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| 180 | h = m;
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| 181 | } // if
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| 182 | } // while
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| 183 | return l;
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| 184 | } // bsearchl
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| 185 |
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| 186 | E * bsearchl( K key, const E * vals, size_t dim ) {
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| 187 | size_t posn = bsearchl( key, vals, dim );
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| 188 | return (E *)(&vals[posn]); // cast away const
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| 189 | } // bsearchl
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| 190 |
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| 191 | size_t bsearchu( K key, const E * vals, size_t dim ) {
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| 192 | size_t l = 0, m, h = dim;
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| 193 | while ( l < h ) {
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| 194 | m = (l + h) / 2;
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| 195 | if ( ! ( key < getKey( vals[m] ) ) ) {
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| 196 | l = m + 1;
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| 197 | } else {
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| 198 | h = m;
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| 199 | } // if
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| 200 | } // while
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| 201 | return l;
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| 202 | } // bsearchu
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| 203 |
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| 204 | E * bsearchu( K key, const E * vals, size_t dim ) {
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| 205 | size_t posn = bsearchu( key, vals, dim );
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| 206 | return (E *)(&vals[posn]);
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| 207 | } // bsearchu
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| 208 | } // distribution
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| 209 |
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| 210 | //---------------------------------------
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| 211 |
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| 212 | extern "C" { // override C version
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| 213 | void srandom( unsigned int seed ) { srand48( (long int)seed ); }
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| 214 | long int random( void ) { return mrand48(); } // GENERATES POSITIVE AND NEGATIVE VALUES
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| 215 | } // extern "C"
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| 216 |
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| 217 | float random( void ) { return (float)drand48(); } // cast otherwise float uses lrand48
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| 218 | double random( void ) { return drand48(); }
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| 219 | float _Complex random( void ) { return (float)drand48() + (float _Complex)(drand48() * _Complex_I); }
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| 220 | double _Complex random( void ) { return drand48() + (double _Complex)(drand48() * _Complex_I); }
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| 221 | long double _Complex random( void ) { return (long double)drand48() + (long double _Complex)(drand48() * _Complex_I); }
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| 222 |
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| 223 | //---------------------------------------
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| 224 |
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| 225 | #define GENERATOR LCG
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| 226 |
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| 227 | uint32_t __global_random_seed; // sequential/concurrent
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| 228 | uint32_t __global_random_state; // sequential only
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| 229 |
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| 230 | void set_seed( PRNG & prng, uint32_t seed_ ) with( prng ) { state = seed = seed_; GENERATOR( state ); } // set seed
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| 231 | uint32_t prng( PRNG & prng ) with( prng ) { callcnt += 1; return GENERATOR( state ); }
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| 232 |
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| 233 | void set_seed( uint32_t seed ) { __global_random_seed = seed; GENERATOR( __global_random_state ); }
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| 234 | uint32_t get_seed() { return __global_random_seed; }
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| 235 | uint32_t prng( void ) { return GENERATOR( __global_random_state ); } // [0,UINT_MAX]
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| 236 |
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| 237 | //---------------------------------------
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| 238 |
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| 239 | bool threading_enabled( void ) __attribute__(( weak )) { return false; }
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| 240 |
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| 241 | // Local Variables: //
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| 242 | // tab-width: 4 //
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| 243 | // End: //
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