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1 module dmd.expression.Cmp;
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2
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114
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3 import dmd.common;
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4 import dmd.IntegerExp;
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5 import dmd.Loc;
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6 import dmd.TOK;
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7 import dmd.Type;
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8 import dmd.Expression;
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9 import dmd.StringExp;
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10 import dmd.GlobalExpressions;
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11
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12 import core.stdc.string;
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13
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14 Expression Cmp(TOK op, Type type, Expression e1, Expression e2)
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15 {
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16 Expression e;
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17 Loc loc = e1.loc;
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18 ulong n;
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19 real r1;
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20 real r2;
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21
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22 //printf("Cmp(e1 = %s, e2 = %s)\n", e1.toChars(), e2.toChars());
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23
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24 if (e1.op == TOKstring && e2.op == TOKstring)
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25 {
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26 StringExp es1 = cast(StringExp)e1;
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27 StringExp es2 = cast(StringExp)e2;
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28 size_t sz = es1.sz;
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29 assert(sz == es2.sz);
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30
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31 size_t len = es1.len;
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32 if (es2.len < len)
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33 len = es2.len;
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34
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35 int cmp = memcmp(es1.string_, es2.string_, sz * len);
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36 if (cmp == 0)
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37 cmp = es1.len - es2.len;
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38
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39 switch (op)
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40 {
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41 case TOKlt: n = cmp < 0; break;
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42 case TOKle: n = cmp <= 0; break;
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43 case TOKgt: n = cmp > 0; break;
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44 case TOKge: n = cmp >= 0; break;
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45
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46 case TOKleg: n = 1; break;
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47 case TOKlg: n = cmp != 0; break;
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48 case TOKunord: n = 0; break;
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49 case TOKue: n = cmp == 0; break;
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50 case TOKug: n = cmp > 0; break;
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51 case TOKuge: n = cmp >= 0; break;
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52 case TOKul: n = cmp < 0; break;
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53 case TOKule: n = cmp <= 0; break;
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54
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55 default:
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56 assert(0);
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57 }
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58 }
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59 else if (e1.isConst() != 1 || e2.isConst() != 1)
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60 return EXP_CANT_INTERPRET;
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61 else if (e1.type.isreal())
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62 {
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63 r1 = e1.toReal();
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64 r2 = e2.toReal();
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65 goto L1;
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66 }
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67 else if (e1.type.isimaginary())
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68 {
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69 r1 = e1.toImaginary();
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70 r2 = e2.toImaginary();
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71 L1:
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72
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73 // DMC is the only compiler I know of that handles NAN arguments
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74 // correctly in comparisons.
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75 switch (op)
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76 {
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77 case TOKlt: n = r1 < r2; break;
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78 case TOKle: n = r1 <= r2; break;
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79 case TOKgt: n = r1 > r2; break;
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80 case TOKge: n = r1 >= r2; break;
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81 case TOKleg: n = r1 <>= r2; break;
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82 case TOKlg: n = r1 <> r2; break;
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83 case TOKunord: n = r1 !<>= r2; break;
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84 case TOKue: n = r1 !<> r2; break;
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85 case TOKug: n = r1 !<= r2; break;
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86 case TOKuge: n = r1 !< r2; break;
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87 case TOKul: n = r1 !>= r2; break;
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88 case TOKule: n = r1 !> r2; break;
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89
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90 default: assert(0);
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91 }
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92 }
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93 else if (e1.type.iscomplex())
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94 {
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95 assert(0);
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96 }
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97 else
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98 {
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99 long n1;
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100 long n2;
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101
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102 n1 = e1.toInteger();
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103 n2 = e2.toInteger();
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104
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105 if (e1.type.isunsigned() || e2.type.isunsigned())
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106 {
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107 switch (op)
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108 {
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109 case TOKlt: n = (cast(ulong) n1) < (cast(ulong) n2); break;
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110 case TOKle: n = (cast(ulong) n1) <= (cast(ulong) n2); break;
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111 case TOKgt: n = (cast(ulong) n1) > (cast(ulong) n2); break;
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112 case TOKge: n = (cast(ulong) n1) >= (cast(ulong) n2); break;
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113 case TOKleg: n = 1; break;
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114 case TOKlg: n = (cast(ulong) n1) != (cast(ulong) n2); break;
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115 case TOKunord: n = 0; break;
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116 case TOKue: n = (cast(ulong) n1) == (cast(ulong) n2); break;
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117 case TOKug: n = (cast(ulong) n1) > (cast(ulong) n2); break;
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118 case TOKuge: n = (cast(ulong) n1) >= (cast(ulong) n2); break;
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119 case TOKul: n = (cast(ulong) n1) < (cast(ulong) n2); break;
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120 case TOKule: n = (cast(ulong) n1) <= (cast(ulong) n2); break;
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121
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122 default: assert(0);
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123 }
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124 }
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125 else
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126 {
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127 switch (op)
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128 {
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129 case TOKlt: n = n1 < n2; break;
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130 case TOKle: n = n1 <= n2; break;
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131 case TOKgt: n = n1 > n2; break;
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132 case TOKge: n = n1 >= n2; break;
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133 case TOKleg: n = 1; break;
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134 case TOKlg: n = n1 != n2; break;
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135 case TOKunord: n = 0; break;
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136 case TOKue: n = n1 == n2; break;
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137 case TOKug: n = n1 > n2; break;
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138 case TOKuge: n = n1 >= n2; break;
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139 case TOKul: n = n1 < n2; break;
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140 case TOKule: n = n1 <= n2; break;
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141 default: assert(0);
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142 }
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143 }
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144 }
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145
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146 e = new IntegerExp(loc, n, type);
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147
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148 return e;
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149 } |