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 | // builtins.c -- |
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8 | // |
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9 | // Author : Peter A. Buhr |
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10 | // Created On : Fri Jul 21 16:21:03 2017 |
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11 | // Last Modified By : Peter A. Buhr |
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12 | // Last Modified On : Thu Feb 2 11:33:56 2023 |
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13 | // Update Count : 135 |
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14 | // |
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15 | |
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16 | #define __cforall_builtins__ |
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17 | |
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18 | // type that wraps a pointer and a destructor-like function - used in generating implicit destructor calls for struct members in user-defined functions |
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19 | // Note: needs to occur early, because it is used to generate destructor calls during code generation |
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20 | forall(T &) |
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21 | struct __Destructor { |
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22 | T * object; |
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23 | void (*dtor)(T *); |
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24 | }; |
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25 | |
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26 | // defined destructor in the case that non-generated code wants to use __Destructor |
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27 | forall(T &) |
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28 | static inline void ^?{}(__Destructor(T) & x) { |
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29 | if (x.object && x.dtor) { |
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30 | x.dtor(x.object); |
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31 | } |
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32 | } |
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33 | |
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34 | // easy interface into __Destructor's destructor for easy codegen purposes |
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35 | extern "C" { |
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36 | forall(T &) |
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37 | static inline void __destroy_Destructor(__Destructor(T) * dtor) { |
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38 | ^(*dtor){}; |
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39 | } |
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40 | } |
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41 | |
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42 | // exception implementation |
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43 | |
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44 | typedef unsigned long long __cfaabi_abi_exception_type_t; |
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45 | |
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46 | #include <limits.h> // CHAR_BIT |
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47 | #include "../src/virtual.h" |
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48 | #include "../src/exception.h" |
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49 | |
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50 | void exit( int status, const char fmt[], ... ) __attribute__ (( format(printf, 2, 3), __nothrow__, __leaf__, __noreturn__ )); |
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51 | void abort( const char fmt[], ... ) __attribute__ (( format(printf, 1, 2), __nothrow__, __leaf__, __noreturn__ )); |
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52 | |
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53 | forall(T &) |
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54 | static inline T & identity(T & i) { |
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55 | return i; |
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56 | } |
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57 | |
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58 | // generator support |
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59 | struct generator$ { |
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60 | inline int; |
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61 | }; |
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62 | |
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63 | static inline void ?{}(generator$ & this) { ((int&)this) = 0; } |
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64 | static inline void ^?{}(generator$ &) {} |
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65 | |
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66 | forall( T & ) |
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67 | trait is_generator { |
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68 | void main(T & this); |
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69 | generator$ * get_generator(T & this); |
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70 | }; |
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71 | |
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72 | forall(T & | is_generator(T)) |
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73 | static inline T & resume(T & gen) { |
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74 | main(gen); |
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75 | return gen; |
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76 | } |
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77 | |
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78 | // implicit increment, decrement if += defined, and implicit not if != defined |
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79 | |
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80 | // C11 reference manual Section 6.5.16 (page101): "An assignment expression has the value of the left operand after the |
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81 | // assignment, but is not an lvalue." Hence, return a value not a reference. |
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82 | static inline { |
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83 | forall( T | { T ?+=?( T &, one_t ); } ) |
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84 | T ++?( T & x ) { return x += 1; } |
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85 | |
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86 | forall( T | { T ?+=?( T &, one_t ); } ) |
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87 | T ?++( T & x ) { T tmp = x; x += 1; return tmp; } |
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88 | |
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89 | forall( T | { T ?-=?( T &, one_t ); } ) |
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90 | T --?( T & x ) { return x -= 1; } |
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91 | |
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92 | forall( T | { T ?-=?( T &, one_t ); } ) |
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93 | T ?--( T & x ) { T tmp = x; x -= 1; return tmp; } |
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94 | |
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95 | forall( T | { int ?!=?( T, zero_t ); } ) |
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96 | int !?( T & x ) { return !( x != 0 ); } |
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97 | } // distribution |
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98 | |
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99 | // universal typed pointer constant |
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100 | static inline forall( DT & ) DT * intptr( uintptr_t addr ) { return (DT *)addr; } |
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101 | static inline forall( ftype FT ) FT * intptr( uintptr_t addr ) { return (FT *)addr; } |
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102 | |
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103 | #if defined(__SIZEOF_INT128__) |
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104 | // constructor for 128-bit numbers (all constants are unsigned as +/- are operators) |
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105 | static inline void ?{}( unsigned int128 & this, unsigned long int h, unsigned long int l ) { |
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106 | this = (unsigned int128)h << 64 | (unsigned int128)l; |
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107 | } // ?{} |
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108 | #endif // __SIZEOF_INT128__ |
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109 | |
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110 | // for-control index constraints |
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111 | // forall( T | { void ?{}( T &, zero_t ); void ?{}( T &, one_t ); T ?+=?( T &, T ); T ?-=?( T &, T ); int ?<?( T, T ); } ) |
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112 | // static inline T __for_control_index_constraints__( T t ) { return t; } |
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113 | |
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114 | // exponentiation operator implementation |
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115 | |
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116 | extern "C" { |
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117 | float powf( float x, float y ); |
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118 | double pow( double x, double y ); |
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119 | long double powl( long double x, long double y ); |
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120 | float _Complex cpowf( float _Complex x, _Complex float z ); |
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121 | double _Complex cpow( double _Complex x, _Complex double z ); |
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122 | long double _Complex cpowl( long double _Complex x, _Complex long double z ); |
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123 | } // extern "C" |
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124 | |
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125 | static inline { |
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126 | float ?\?( float x, float y ) { return powf( x, y ); } |
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127 | double ?\?( double x, double y ) { return pow( x, y ); } |
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128 | long double ?\?( long double x, long double y ) { return powl( x, y ); } |
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129 | float _Complex ?\?( float _Complex x, _Complex float y ) { return cpowf(x, y ); } |
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130 | double _Complex ?\?( double _Complex x, _Complex double y ) { return cpow( x, y ); } |
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131 | long double _Complex ?\?( long double _Complex x, _Complex long double y ) { return cpowl( x, y ); } |
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132 | } // distribution |
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133 | |
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134 | #define __CFA_BASE_COMP_1__() if ( x == 1 ) return 1 |
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135 | #define __CFA_BASE_COMP_2__() if ( x == 2 ) return x << (y - 1) |
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136 | #define __CFA_EXP_OVERFLOW__() if ( y >= sizeof(y) * CHAR_BIT ) return 0 |
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137 | |
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138 | #define __CFA_EXP__() \ |
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139 | if ( y == 0 ) return 1; /* convention */ \ |
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140 | __CFA_BASE_COMP_1__(); /* base case */ \ |
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141 | __CFA_BASE_COMP_2__(); /* special case, positive shifting for integral types */ \ |
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142 | __CFA_EXP_OVERFLOW__(); /* immediate overflow, negative exponent > 2^size-1 */ \ |
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143 | typeof(x) op = 1; /* accumulate odd product */ \ |
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144 | for ( ; y > 1; y >>= 1 ) { /* squaring exponentiation, O(log2 y) */ \ |
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145 | if ( (y & 1) == 1 ) op = op * x; /* odd ? */ \ |
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146 | x = x * x; \ |
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147 | } \ |
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148 | return x * op |
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149 | |
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150 | static inline { |
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151 | long int ?\?( int x, unsigned int y ) { __CFA_EXP__(); } |
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152 | long int ?\?( long int x, unsigned long int y ) { __CFA_EXP__(); } |
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153 | long long int ?\?( long long int x, unsigned long long int y ) { __CFA_EXP__(); } |
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154 | // unsigned computation may be faster and larger |
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155 | unsigned long int ?\?( unsigned int x, unsigned int y ) { __CFA_EXP__(); } |
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156 | unsigned long int ?\?( unsigned long int x, unsigned long int y ) { __CFA_EXP__(); } |
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157 | unsigned long long int ?\?( unsigned long long int x, unsigned long long int y ) { __CFA_EXP__(); } |
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158 | } // distribution |
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159 | |
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160 | #undef __CFA_BASE_COMP_1__ |
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161 | #undef __CFA_BASE_COMP_2__ |
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162 | #undef __CFA_EXP_OVERFLOW__ |
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163 | #define __CFA_BASE_COMP_1__() |
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164 | #define __CFA_BASE_COMP_2__() |
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165 | #define __CFA_EXP_OVERFLOW__() |
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166 | |
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167 | static inline forall( OT | { void ?{}( OT & this, one_t ); OT ?*?( OT, OT ); } ) { |
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168 | OT ?\?( OT x, unsigned int y ) { __CFA_EXP__(); } |
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169 | OT ?\?( OT x, unsigned long int y ) { __CFA_EXP__(); } |
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170 | OT ?\?( OT x, unsigned long long int y ) { __CFA_EXP__(); } |
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171 | } // distribution |
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172 | |
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173 | #undef __CFA_BASE_COMP_1__ |
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174 | #undef __CFA_BASE_COMP_2__ |
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175 | #undef __CFA_EXP_OVERFLOW__ |
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176 | |
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177 | static inline { |
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178 | long int ?\=?( int & x, unsigned int y ) { x = x \ y; return x; } |
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179 | long int ?\=?( long int & x, unsigned long int y ) { x = x \ y; return x; } |
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180 | long long int ?\=?( long long int & x, unsigned long long int y ) { x = x \ y; return x; } |
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181 | unsigned long int ?\=?( unsigned int & x, unsigned int y ) { x = x \ y; return x; } |
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182 | unsigned long int ?\=?( unsigned long int & x, unsigned long int y ) { x = x \ y; return x; } |
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183 | unsigned long long int ?\=?( unsigned long long int & x, unsigned long long int y ) { x = x \ y; return x; } |
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184 | } // distribution |
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185 | |
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186 | // Local Variables: // |
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187 | // mode: c // |
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188 | // tab-width: 4 // |
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189 | // End: // |
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