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1 /* |
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2 |
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3 Copyright (C) 1996, 1997 John W. Eaton |
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4 |
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5 This file is part of Octave. |
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6 |
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7 Octave is free software; you can redistribute it and/or modify it |
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8 under the terms of the GNU General Public License as published by the |
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9 Free Software Foundation; either version 2, or (at your option) any |
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10 later version. |
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11 |
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12 Octave is distributed in the hope that it will be useful, but WITHOUT |
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13 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
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14 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
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15 for more details. |
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16 |
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17 You should have received a copy of the GNU General Public License |
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18 along with Octave; see the file COPYING. If not, write to the Free |
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19 Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. |
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20 |
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21 */ |
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22 |
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23 #include "quit.h" |
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24 |
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25 #define OCTAVE_CONCAT_FN(TYPE) \ |
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26 DEFNDCATOP_FN (TYPE ## _s_s, TYPE ## _scalar, TYPE ## _scalar, TYPE ## _array, TYPE ## _array, concat) \ |
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27 DEFNDCATOP_FN (TYPE ## _s_m, TYPE ## _scalar, TYPE ## _matrix, TYPE ## _array, TYPE ## _array, concat) \ |
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28 DEFNDCATOP_FN (TYPE ## _m_s, TYPE ## _matrix, TYPE ## _scalar, TYPE ## _array, TYPE ## _array, concat) \ |
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29 DEFNDCATOP_FN (TYPE ## _m_m, TYPE ## _matrix, TYPE ## _matrix, TYPE ## _array, TYPE ## _array, concat) |
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30 |
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31 #define OCTAVE_INSTALL_CONCAT_FN(TYPE) \ |
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32 INSTALL_CATOP (octave_ ## TYPE ## _scalar, octave_ ## TYPE ## _scalar, TYPE ## _s_s) \ |
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33 INSTALL_CATOP (octave_ ## TYPE ## _scalar, octave_ ## TYPE ## _matrix, TYPE ## _s_m) \ |
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34 INSTALL_CATOP (octave_ ## TYPE ## _matrix, octave_ ## TYPE ## _scalar, TYPE ## _m_s) \ |
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35 INSTALL_CATOP (octave_ ## TYPE ## _matrix, octave_ ## TYPE ## _matrix, TYPE ## _m_m) |
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36 |
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37 #define OCTAVE_S_INT_UNOPS(TYPE) \ |
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38 /* scalar unary ops. */ \ |
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39 \ |
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40 DEFUNOP_OP (s_not, TYPE ## _scalar, !) \ |
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41 DEFUNOP_OP (s_uminus, TYPE ## _scalar, -) \ |
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42 DEFUNOP_OP (s_transpose, TYPE ## _scalar, /* no-op */) \ |
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43 DEFUNOP_OP (s_hermitian, TYPE ## _scalar, /* no-op */) \ |
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44 \ |
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45 /* DEFNCUNOP_METHOD (s_incr, TYPE ## _scalar, increment) */ \ |
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46 /* DEFNCUNOP_METHOD (s_decr, TYPE ## _scalar, decrement) */ |
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47 |
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48 #define OCTAVE_SS_INT_ARITH_OPS(PFX, T1, T2) \ |
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49 /* scalar by scalar ops. */ \ |
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50 \ |
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51 DEFBINOP_OP (PFX ## _add, T1 ## scalar, T2 ## scalar, +) \ |
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52 DEFBINOP_OP (PFX ## _sub, T1 ## scalar, T2 ## scalar, -) \ |
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53 DEFBINOP_OP (PFX ## _mul, T1 ## scalar, T2 ## scalar, *) \ |
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54 \ |
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55 DEFBINOP (PFX ## _div, T1 ## scalar, T2 ## scalar) \ |
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56 { \ |
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57 CAST_BINOP_ARGS (const octave_ ## T1 ## scalar&, const octave_ ## T2 ## scalar&); \ |
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58 \ |
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59 if (! v2.T2 ## scalar_value ()) \ |
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60 gripe_divide_by_zero (); \ |
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61 \ |
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62 return octave_value (v1.T1 ## scalar_value () / v2.T2 ## scalar_value ()); \ |
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63 } \ |
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64 \ |
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65 DEFBINOP_FN (PFX ## _pow, T1 ## scalar, T2 ## scalar, xpow) \ |
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66 \ |
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67 DEFBINOP (PFX ## _ldiv, T1 ## scalar, T2 ## scalar) \ |
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68 { \ |
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69 CAST_BINOP_ARGS (const octave_ ## T1 ## scalar&, const octave_ ## T2 ## scalar&); \ |
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70 \ |
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71 if (! v1.T1 ## scalar_value ()) \ |
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72 gripe_divide_by_zero (); \ |
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73 \ |
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74 return octave_value (v2.T2 ## scalar_value () / v1.T1 ## scalar_value ()); \ |
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75 } \ |
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76 \ |
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77 DEFBINOP_OP (PFX ## _el_mul, T1 ## scalar, T2 ## scalar, *) \ |
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78 \ |
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79 DEFBINOP (PFX ## _el_div, T1 ## scalar, T2 ## scalar) \ |
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80 { \ |
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81 CAST_BINOP_ARGS (const octave_ ## T1 ## scalar&, const octave_ ## T2 ## scalar&); \ |
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82 \ |
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83 if (! v2.T2 ## scalar_value ()) \ |
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84 gripe_divide_by_zero (); \ |
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85 \ |
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86 return octave_value (v1.T1 ## scalar_value () / v2.T2 ## scalar_value ()); \ |
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87 } \ |
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88 \ |
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89 DEFBINOP_FN (PFX ## _el_pow, T1 ## scalar, T2 ## scalar, xpow) \ |
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90 \ |
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91 DEFBINOP (PFX ## _el_ldiv, T1 ## scalar, T2 ## scalar) \ |
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92 { \ |
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93 CAST_BINOP_ARGS (const octave_ ## T1 ## scalar&, const octave_ ## T2 ## scalar&); \ |
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94 \ |
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95 if (! v1.T1 ## scalar_value ()) \ |
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96 gripe_divide_by_zero (); \ |
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97 \ |
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98 return octave_value (v2.T2 ## scalar_value () / v1.T1 ## scalar_value ()); \ |
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99 } \ |
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100 |
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101 #define OCTAVE_SS_INT_BOOL_OPS(PFX, T1, T2) \ |
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102 /* DEFBINOP_OP (PFX ## _el_and, T1 ## scalar, T2 ## scalar, &&) */ \ |
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103 /* DEFBINOP_OP (PFX ## _el_or, T1 ## scalar, T2 ## scalar, ||) */ |
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104 |
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105 #define OCTAVE_SS_INT_CMP_OPS(PFX, T1, T2) \ |
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106 DEFBINOP_OP (PFX ## _lt, T1 ## scalar, T2 ## scalar, <) \ |
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107 DEFBINOP_OP (PFX ## _le, T1 ## scalar, T2 ## scalar, <=) \ |
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108 DEFBINOP_OP (PFX ## _eq, T1 ## scalar, T2 ## scalar, ==) \ |
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109 DEFBINOP_OP (PFX ## _ge, T1 ## scalar, T2 ## scalar, >=) \ |
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110 DEFBINOP_OP (PFX ## _gt, T1 ## scalar, T2 ## scalar, >) \ |
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111 DEFBINOP_OP (PFX ## _ne, T1 ## scalar, T2 ## scalar, !=) |
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112 |
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113 #define OCTAVE_SS_POW_OPS(T1, T2) \ |
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114 octave_value \ |
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115 xpow (const octave_ ## T1& a, const octave_ ## T2& b) \ |
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116 { \ |
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117 return pow (a, b); \ |
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118 } \ |
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119 \ |
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120 octave_value \ |
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121 xpow (const octave_ ## T1& a, double b) \ |
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122 { \ |
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123 return pow (a, b); \ |
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124 } \ |
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125 \ |
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126 octave_value \ |
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127 xpow (double a, const octave_ ## T1& b) \ |
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128 { \ |
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129 return pow (a, b); \ |
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130 } |
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131 |
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132 #define OCTAVE_SS_INT_OPS(TYPE) \ |
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133 OCTAVE_S_INT_UNOPS (TYPE) \ |
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134 OCTAVE_SS_POW_OPS (TYPE, TYPE) \ |
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135 OCTAVE_SS_INT_ARITH_OPS (ss, TYPE ## _, TYPE ## _) \ |
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136 OCTAVE_SS_INT_ARITH_OPS (sx, TYPE ## _, ) \ |
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137 OCTAVE_SS_INT_ARITH_OPS (xs, , TYPE ## _) \ |
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138 OCTAVE_SS_INT_CMP_OPS (ss, TYPE ## _, TYPE ## _) \ |
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139 OCTAVE_SS_INT_CMP_OPS (sx, TYPE ## _, ) \ |
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140 OCTAVE_SS_INT_CMP_OPS (xs, , TYPE ## _) \ |
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141 OCTAVE_SS_INT_BOOL_OPS (ss, TYPE ## _, TYPE ## _) \ |
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142 OCTAVE_SS_INT_BOOL_OPS (sx, TYPE ## _, ) \ |
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143 OCTAVE_SS_INT_BOOL_OPS (xs, , TYPE ## _) |
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144 |
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145 #define OCTAVE_SS_INT_OPS2(T1, T2) \ |
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146 OCTAVE_SS_INT_ARITH_OPS (ss, T1, T2) \ |
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147 OCTAVE_SS_INT_CMP_OPS (ss, T1, T2) \ |
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148 OCTAVE_SS_INT_BOOL_OPS (ss, T1, T2) |
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149 |
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150 #define OCTAVE_SM_INT_ARITH_OPS(PFX, TS, TM) \ |
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151 /* scalar by matrix ops. */ \ |
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152 \ |
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153 DEFNDBINOP_OP (PFX ## _add, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, +) \ |
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154 DEFNDBINOP_OP (PFX ## _sub, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, -) \ |
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155 DEFNDBINOP_OP (PFX ## _mul, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, *) \ |
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156 \ |
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157 /* DEFBINOP (PFX ## _div, TS ## scalar, TM ## matrix) */ \ |
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158 /* { */ \ |
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159 /* CAST_BINOP_ARGS (const octave_ ## TS ## scalar&, const octave_ ## TM ## matrix&); */ \ |
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160 /* */ \ |
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161 /* Matrix m1 = v1.TM ## matrix_value (); */ \ |
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162 /* Matrix m2 = v2.TM ## matrix_value (); */ \ |
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163 /* */ \ |
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164 /* return octave_value (xdiv (m1, m2)); */ \ |
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165 /* } */ \ |
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166 \ |
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167 /* DEFBINOP_FN (PFX ## _pow, TS ## scalar, TM ## matrix, xpow) */ \ |
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168 \ |
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169 DEFBINOP (PFX ## _ldiv, TS ## scalar, TM ## matrix) \ |
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170 { \ |
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171 CAST_BINOP_ARGS (const octave_ ## TS ## scalar&, const octave_ ## TM ## matrix&); \ |
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172 \ |
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173 if (! v1.TS ## scalar_value ()) \ |
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174 gripe_divide_by_zero (); \ |
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175 \ |
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176 return octave_value (v2.TS ## scalar_value () / v1.TS ## scalar_value ()); \ |
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177 } \ |
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178 \ |
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179 DEFNDBINOP_OP (PFX ## _el_mul, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, *) \ |
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180 /* DEFNDBINOP_FN (PFX ## _el_div, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, x_el_div) */ \ |
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181 DEFNDBINOP_FN (PFX ## _el_pow, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, elem_xpow) \ |
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182 \ |
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183 DEFBINOP (PFX ## _el_ldiv, TS ## scalar, TM ## matrix) \ |
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184 { \ |
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185 CAST_BINOP_ARGS (const octave_ ## TS ## scalar&, const octave_ ## TM ## matrix&); \ |
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186 \ |
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187 if (! v1.TS ## scalar_value ()) \ |
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188 gripe_divide_by_zero (); \ |
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189 \ |
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190 return octave_value (v2.TM ## array_value () / v1.TS ## scalar_value ()); \ |
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191 } |
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192 |
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193 #define OCTAVE_SM_INT_CMP_OPS(PFX, TS, TM) \ |
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194 DEFNDBINOP_FN (PFX ## _lt, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, mx_el_lt) \ |
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195 DEFNDBINOP_FN (PFX ## _le, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, mx_el_le) \ |
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196 DEFNDBINOP_FN (PFX ## _eq, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, mx_el_eq) \ |
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197 DEFNDBINOP_FN (PFX ## _ge, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, mx_el_ge) \ |
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198 DEFNDBINOP_FN (PFX ## _gt, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, mx_el_gt) \ |
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199 DEFNDBINOP_FN (PFX ## _ne, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, mx_el_ne) |
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200 |
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201 #define OCTAVE_SM_INT_BOOL_OPS(PFX, TS, TM) \ |
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202 /* DEFNDBINOP_FN (PFX ## _el_and, TS ## scalar, TYPE ## matrix, TS ## scalar, TYPE ## array, mx_el_and) */ \ |
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203 /* DEFNDBINOP_FN (PFX ## _el_or, TS ## scalar, TYPE ## matrix, TS ## scalar, TYPE ## array, mx_el_or) */ |
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204 |
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205 #define OCTAVE_SM_POW_OPS(T1, T2) \ |
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206 octave_value \ |
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207 elem_xpow (const octave_ ## T1& a, const T2 ## NDArray& b) \ |
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208 { \ |
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209 T2 ## NDArray result (b.dims ()); \ |
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210 for (int i = 0; i < b.length (); i++) \ |
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211 { \ |
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212 OCTAVE_QUIT; \ |
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213 result (i) = pow (a, b(i)); \ |
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214 } \ |
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215 return octave_value (result); \ |
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216 } |
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217 |
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218 #define OCTAVE_SM_INT_OPS(TYPE) \ |
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219 OCTAVE_SM_POW_OPS (TYPE, TYPE) \ |
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220 OCTAVE_SM_INT_ARITH_OPS (sm, TYPE ## _, TYPE ## _) \ |
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221 OCTAVE_SM_INT_ARITH_OPS (xm, , TYPE ## _) \ |
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222 OCTAVE_SM_INT_CMP_OPS (sm, TYPE ## _, TYPE ## _) \ |
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223 OCTAVE_SM_INT_CMP_OPS (xm, , TYPE ## _) \ |
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224 OCTAVE_SM_INT_BOOL_OPS (sm, TYPE ## _, TYPE ## _) \ |
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225 OCTAVE_SM_INT_BOOL_OPS (xm, , TYPE ## _) \ |
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226 \ |
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227 /* DEFCONV (TYPE ## _matrix_conv, TYPE ## _scalar, TYPE ## _matrix) */ \ |
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228 /* { */ \ |
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229 /* CAST_CONV_ARG (const octave_ ## TYPE ## _scalar&); */ \ |
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230 /* */ \ |
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231 /* return new octave_ ## TYPE ## _matrix (v.TYPE ## _matrix_value ()); */ \ |
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232 /* } */ |
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233 |
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234 #define OCTAVE_SM_INT_OPS2(TS, TM) \ |
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235 OCTAVE_SM_INT_ARITH_OPS (sm, TS, TM) \ |
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236 OCTAVE_SM_INT_CMP_OPS (sm, TS, TM) \ |
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237 OCTAVE_SM_INT_BOOL_OPS (sm, TS, TM) |
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238 |
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239 #define OCTAVE_MS_INT_ARITH_OPS(PFX, TM, TS) \ |
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240 /* matrix by scalar ops. */ \ |
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241 \ |
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242 DEFNDBINOP_OP (PFX ## _add, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, +) \ |
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243 DEFNDBINOP_OP (PFX ## _sub, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, -) \ |
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244 DEFNDBINOP_OP (PFX ## _mul, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, *) \ |
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245 \ |
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246 DEFBINOP (PFX ## _div, TM ## matrix, TS ## scalar) \ |
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247 { \ |
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248 CAST_BINOP_ARGS (const octave_ ## TM ## matrix&, const octave_ ## TS ## scalar&); \ |
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249 \ |
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250 if (! v2.TS ## scalar_value ()) \ |
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251 gripe_divide_by_zero (); \ |
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252 \ |
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253 return octave_value (v1.TM ## array_value () / v2.TS ## scalar_value ()); \ |
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254 } \ |
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255 \ |
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256 /* DEFBINOP_FN (PFX ## _pow, TM ## matrix, TS ## scalar, xpow) */ \ |
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257 \ |
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258 /* DEFBINOP (PFX ## _ldiv, TM ## matrix, TS ## scalar) */ \ |
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259 /* { */ \ |
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260 /* CAST_BINOP_ARGS (const octave_ ## TM ## matrix&, const octave_ ## TS ## scalar&); */ \ |
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261 /* */ \ |
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262 /* Matrix m1 = v1.TM ## matrix_value (); */ \ |
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263 /* Matrix m2 = v2.TM ## matrix_value (); */ \ |
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264 /* */ \ |
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265 /* return octave_value (xleftdiv (m1, m2)); */ \ |
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266 /* } */ \ |
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267 \ |
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268 DEFNDBINOP_OP (PFX ## _el_mul, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, *) \ |
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269 \ |
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270 DEFBINOP (PFX ## _el_div, TM ## matrix, TS ## scalar) \ |
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271 { \ |
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272 CAST_BINOP_ARGS (const octave_ ## TM ## matrix&, const octave_ ## TS ## scalar&); \ |
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273 \ |
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274 if (! v2.TS ## scalar_value ()) \ |
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275 gripe_divide_by_zero (); \ |
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276 \ |
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277 return octave_value (v1.TM ## array_value () / v2.TS ## scalar_value ()); \ |
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278 } \ |
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279 \ |
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280 DEFNDBINOP_FN (PFX ## _el_pow, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, elem_xpow) \ |
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281 \ |
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282 /* DEFBINOP (el_ldiv, TM ## matrix, TS ## scalar) */ \ |
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283 /* { */ \ |
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284 /* CAST_BINOP_ARGS (const octave_ ## TM ## matrix&, const octave_ ## TS ## scalar&); */ \ |
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285 /* */ \ |
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286 /* return x_el_div (v2.TM ## _ ## TS ## scalar_value (), v1.TM ## array_value ()); */ \ |
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287 /* } */ |
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288 |
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289 #define OCTAVE_MS_INT_CMP_OPS(PFX, TM, TS) \ |
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290 DEFNDBINOP_FN (PFX ## _lt, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_lt) \ |
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291 DEFNDBINOP_FN (PFX ## _le, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_le) \ |
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292 DEFNDBINOP_FN (PFX ## _eq, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_eq) \ |
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293 DEFNDBINOP_FN (PFX ## _ge, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_ge) \ |
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294 DEFNDBINOP_FN (PFX ## _gt, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_gt) \ |
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295 DEFNDBINOP_FN (PFX ## _ne, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_ne) \ |
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296 |
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297 #define OCTAVE_MS_INT_BOOL_OPS(PFX, TM, TS) \ |
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298 /* DEFNDBINOP_FN (PFX ## _el_and, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_and) */ \ |
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299 /* DEFNDBINOP_FN (PFX ## _el_or, TM ## matrix, TS ## scalar, TM |
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300 ## array, TS ## scalar, mx_el_or) */ |
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301 |
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302 #define OCTAVE_MS_INT_ASSIGN_OPS(PFX, TM, TS, TE) \ |
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303 DEFNDASSIGNOP_FN (PFX ## _assign, TM ## matrix, TS ## scalar, TE ## array, assign) |
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304 |
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305 #define OCTAVE_MS_POW_OPS(T1, T2) \ |
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306 octave_value elem_xpow (T1 ## NDArray a, octave_ ## T2 b) \ |
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307 { \ |
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308 T1 ## NDArray result (a.dims ()); \ |
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309 for (int i = 0; i < a.length (); i++) \ |
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310 { \ |
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311 OCTAVE_QUIT; \ |
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312 result (i) = pow (a(i), b); \ |
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313 } \ |
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314 return octave_value (result); \ |
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315 } |
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316 |
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317 #define OCTAVE_MS_INT_OPS(TYPE) \ |
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318 OCTAVE_MS_POW_OPS (TYPE, TYPE) \ |
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319 OCTAVE_MS_INT_ARITH_OPS (ms, TYPE ## _, TYPE ## _) \ |
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320 OCTAVE_MS_INT_ARITH_OPS (mx, TYPE ## _, ) \ |
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321 OCTAVE_MS_INT_CMP_OPS (ms, TYPE ## _, TYPE ## _) \ |
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322 OCTAVE_MS_INT_CMP_OPS (mx, TYPE ## _, ) \ |
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323 OCTAVE_MS_INT_BOOL_OPS (ms, TYPE ## _, TYPE ## _) \ |
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324 OCTAVE_MS_INT_BOOL_OPS (mx, TYPE ## _, ) \ |
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325 OCTAVE_MS_INT_ASSIGN_OPS (ms, TYPE ## _, TYPE ## _, TYPE ## _) \ |
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326 OCTAVE_MS_INT_ASSIGN_OPS (mx, TYPE ## _, , ) \ |
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327 OCTAVE_MS_INT_ASSIGN_OPS (mc, TYPE ## _, complex_, ) |
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328 |
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329 #define OCTAVE_M_INT_UNOPS(TYPE) \ |
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330 /* matrix unary ops. */ \ |
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331 \ |
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332 DEFNDUNOP_OP (m_not, TYPE ## _matrix, TYPE ## _array, !) \ |
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333 DEFNDUNOP_OP (m_uminus, TYPE ## _matrix, TYPE ## _array, -) \ |
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334 \ |
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335 DEFUNOP (m_transpose, TYPE ## _matrix) \ |
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336 { \ |
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337 CAST_UNOP_ARG (const octave_ ## TYPE ## _matrix&); \ |
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338 \ |
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339 if (v.ndims () > 2) \ |
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340 { \ |
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341 error ("transpose not defined for N-d objects"); \ |
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342 return octave_value (); \ |
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343 } \ |
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344 else \ |
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345 return octave_value (v.TYPE ## _array_value().transpose ()); \ |
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346 } \ |
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347 \ |
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348 /* DEFNCUNOP_METHOD (m_incr, TYPE ## _matrix, increment) */ \ |
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349 /* DEFNCUNOP_METHOD (m_decr, TYPE ## _matrix, decrement) */ |
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350 |
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351 #define OCTAVE_MM_INT_ARITH_OPS(T1, T2) \ |
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352 /* matrix by matrix ops. */ \ |
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353 \ |
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354 DEFNDBINOP_OP (mm_add, T1 ## _matrix, T2 ## _matrix, T1 ## _array, T2 ## _array, +) \ |
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355 DEFNDBINOP_OP (mm_sub, T1 ## _matrix, T2 ## _matrix, T1 ## _array, T2 ## _array, -) \ |
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356 \ |
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357 /* DEFBINOP_OP (mm_mul, T1 ## _matrix, T2 ## _matrix, *) */ \ |
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358 /* DEFBINOP_FN (mm_div, T1 ## _matrix, T2 ## _matrix, xdiv) */ \ |
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359 \ |
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360 DEFBINOPX (mm_pow, T1 ## _matrix, T2 ## _matrix) \ |
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361 { \ |
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362 error ("can't do A ^ B for A and B both matrices"); \ |
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363 return octave_value (); \ |
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364 } \ |
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365 \ |
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366 /* DEFBINOP_FN (ldiv, T1 ## _matrix, T2 ## _matrix, xleftdiv) */ \ |
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367 \ |
|
368 DEFNDBINOP_FN (mm_el_mul, T1 ## _matrix, T2 ## _matrix, T1 ## _array, T2 ## _array, product) \ |
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369 \ |
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370 DEFNDBINOP_FN (mm_el_div, T1 ## _matrix, T2 ## _matrix, T1 ## _array, T2 ## _array, quotient) \ |
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371 \ |
4952
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372 DEFNDBINOP_FN (mm_el_pow, T1 ## _matrix, T2 ## _matrix, T1 ## _array, T2 ## _array, elem_xpow) \ |
4905
|
373 \ |
|
374 /* DEFBINOP (mm_el_ldiv, T1 ## _matrix, T2 ## _matrix) */ \ |
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375 /* { */ \ |
4953
|
376 /* CAST_BINOP_ARGS (const octavematrix&, const octavematrix&); */ \ |
4905
|
377 /* */ \ |
|
378 /* return octave_value (quotient (v2.array_value (), v1.array_value ())); */ \ |
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379 /* } */ |
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380 |
|
381 #define OCTAVE_MM_INT_CMP_OPS(T1, T2) \ |
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382 DEFNDBINOP_FN (mm_lt, T1 ## _matrix, T2 ## _matrix, T1 ## _array, T2 ## _array, mx_el_lt) \ |
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383 DEFNDBINOP_FN (mm_le, T1 ## _matrix, T2 ## _matrix, T1 ## _array, T2 ## _array, mx_el_le) \ |
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384 DEFNDBINOP_FN (mm_eq, T1 ## _matrix, T2 ## _matrix, T1 ## _array, T2 ## _array, mx_el_eq) \ |
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385 DEFNDBINOP_FN (mm_ge, T1 ## _matrix, T2 ## _matrix, T1 ## _array, T2 ## _array, mx_el_ge) \ |
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386 DEFNDBINOP_FN (mm_gt, T1 ## _matrix, T2 ## _matrix, T1 ## _array, T2 ## _array, mx_el_gt) \ |
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387 DEFNDBINOP_FN (mm_ne, T1 ## _matrix, T2 ## _matrix, T1 ## _array, T2 ## _array, mx_el_ne) |
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388 |
|
389 #define OCTAVE_MM_INT_BOOL_OPS(T1, T2) \ |
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390 DEFNDBINOP_FN (mm_el_and, T1 ## _matrix, T2 ## _matrix, T1 ## _array, T2 ## _array, mx_el_and) \ |
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391 DEFNDBINOP_FN (mm_el_or, T1 ## _matrix, T2 ## _matrix, T1 ## _array, T2 ## _array, mx_el_or) |
|
392 |
4953
|
393 #define OCTAVE_MM_INT_ASSIGN_OPS(PFX, TLHS, TRHS, TE) \ |
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394 DEFNDASSIGNOP_FN (PFX ## _assign, TLHS ## matrix, TRHS ## matrix, TE ## array, assign) |
4905
|
395 |
4952
|
396 #define OCTAVE_MM_POW_OPS(T1, T2) \ |
4953
|
397 octave_value \ |
|
398 elem_xpow (const T1 ## NDArray& a, const T2 ## NDArray& b) \ |
|
399 { \ |
|
400 dim_vector a_dims = a.dims (); \ |
|
401 dim_vector b_dims = b.dims (); \ |
|
402 if (a_dims != b_dims) \ |
|
403 { \ |
|
404 gripe_nonconformant ("operator .^", a_dims, b_dims); \ |
|
405 return octave_value (); \ |
|
406 } \ |
|
407 T1 ## NDArray result (a_dims); \ |
|
408 for (int i = 0; i < a.length (); i++) \ |
|
409 { \ |
|
410 OCTAVE_QUIT; \ |
|
411 result (i) = pow (a(i), b(i)); \ |
|
412 } \ |
|
413 return octave_value (result); \ |
|
414 } |
4952
|
415 |
4905
|
416 #define OCTAVE_MM_INT_OPS(TYPE) \ |
|
417 OCTAVE_M_INT_UNOPS (TYPE) \ |
4952
|
418 OCTAVE_MM_POW_OPS (TYPE, TYPE) \ |
4905
|
419 OCTAVE_MM_INT_ARITH_OPS (TYPE, TYPE) \ |
|
420 OCTAVE_MM_INT_CMP_OPS (TYPE, TYPE) \ |
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421 OCTAVE_MM_INT_BOOL_OPS (TYPE, TYPE) \ |
4953
|
422 OCTAVE_MM_INT_ASSIGN_OPS (mm, TYPE ## _, TYPE ## _, TYPE ## _) \ |
|
423 OCTAVE_MM_INT_ASSIGN_OPS (mmx, TYPE ## _, , ) \ |
|
424 OCTAVE_MM_INT_ASSIGN_OPS (mmc, TYPE ## _, complex_, ) |
4905
|
425 |
|
426 #define OCTAVE_MM_INT_OPS2(T1, T2) \ |
4953
|
427 OCTAVE_MM_INT_ARITH_OPS (mm, T1, T2) \ |
|
428 OCTAVE_MM_INT_CMP_OPS (mm, T1, T2) \ |
|
429 OCTAVE_MM_INT_BOOL_OPS (mm, T1, T2) |
4905
|
430 |
|
431 #define OCTAVE_INT_OPS(TYPE) \ |
|
432 OCTAVE_SS_INT_OPS (TYPE) \ |
|
433 OCTAVE_SM_INT_OPS (TYPE) \ |
|
434 OCTAVE_MS_INT_OPS (TYPE) \ |
4915
|
435 OCTAVE_MM_INT_OPS (TYPE) \ |
|
436 OCTAVE_CONCAT_FN (TYPE) |
4905
|
437 |
|
438 #define OCTAVE_INSTALL_S_INT_UNOPS(TYPE) \ |
|
439 INSTALL_UNOP (op_not, octave_ ## TYPE ## _scalar, s_not); \ |
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440 INSTALL_UNOP (op_uminus, octave_ ## TYPE ## _scalar, s_uminus); \ |
|
441 INSTALL_UNOP (op_transpose, octave_ ## TYPE ## _scalar, s_transpose); \ |
|
442 INSTALL_UNOP (op_hermitian, octave_ ## TYPE ## _scalar, s_hermitian); \ |
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443 \ |
|
444 /* INSTALL_NCUNOP (op_incr, octave_ ## TYPE ## _scalar, s_incr); */ \ |
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445 /* INSTALL_NCUNOP (op_decr, octave_ ## TYPE ## _scalar, s_decr); */ |
|
446 |
4953
|
447 #define OCTAVE_INSTALL_SS_INT_ARITH_OPS(PFX, T1, T2) \ |
|
448 INSTALL_BINOP (op_add, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _add); \ |
|
449 INSTALL_BINOP (op_sub, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _sub); \ |
|
450 INSTALL_BINOP (op_mul, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _mul); \ |
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451 INSTALL_BINOP (op_div, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _div); \ |
|
452 INSTALL_BINOP (op_pow, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _pow); \ |
|
453 INSTALL_BINOP (op_ldiv, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _ldiv); \ |
|
454 INSTALL_BINOP (op_el_mul, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _el_mul); \ |
|
455 INSTALL_BINOP (op_el_div, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _el_div); \ |
|
456 INSTALL_BINOP (op_el_pow, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _el_pow); \ |
|
457 INSTALL_BINOP (op_el_ldiv, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _el_ldiv); |
4905
|
458 |
4953
|
459 #define OCTAVE_INSTALL_SS_INT_CMP_OPS(PFX, T1, T2) \ |
|
460 INSTALL_BINOP (op_lt, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _lt); \ |
|
461 INSTALL_BINOP (op_le, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _le); \ |
|
462 INSTALL_BINOP (op_eq, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _eq); \ |
|
463 INSTALL_BINOP (op_ge, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _ge); \ |
|
464 INSTALL_BINOP (op_gt, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _gt); \ |
|
465 INSTALL_BINOP (op_ne, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _ne); |
4905
|
466 |
4953
|
467 #define OCTAVE_INSTALL_SS_INT_BOOL_OPS(PFX, T1, T2) \ |
|
468 /* INSTALL_BINOP (op_el_and, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _el_and); */ \ |
|
469 /* INSTALL_BINOP (op_el_or, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _el_or); */ |
4905
|
470 |
|
471 #define OCTAVE_INSTALL_SS_INT_OPS(TYPE) \ |
|
472 OCTAVE_INSTALL_S_INT_UNOPS (TYPE) \ |
4953
|
473 OCTAVE_INSTALL_SS_INT_ARITH_OPS (ss, TYPE ## _, TYPE ## _) \ |
|
474 OCTAVE_INSTALL_SS_INT_ARITH_OPS (sx, TYPE ## _, ) \ |
|
475 OCTAVE_INSTALL_SS_INT_ARITH_OPS (xs, , TYPE ## _) \ |
|
476 OCTAVE_INSTALL_SS_INT_CMP_OPS (ss, TYPE ## _, TYPE ## _) \ |
|
477 OCTAVE_INSTALL_SS_INT_CMP_OPS (sx, TYPE ## _, ) \ |
|
478 OCTAVE_INSTALL_SS_INT_CMP_OPS (xs, , TYPE ## _) \ |
|
479 OCTAVE_INSTALL_SS_INT_BOOL_OPS (ss, TYPE ## _, TYPE ## _) \ |
|
480 OCTAVE_INSTALL_SS_INT_BOOL_OPS (sx, TYPE ## _, ) \ |
|
481 OCTAVE_INSTALL_SS_INT_BOOL_OPS (xs, , TYPE ## _) \ |
4905
|
482 INSTALL_ASSIGNCONV (octave_ ## TYPE ## _scalar, octave_ ## TYPE ## _scalar, octave_ ## TYPE ## _matrix) |
|
483 |
|
484 #define OCTAVE_INSTALL_SS_INT_OPS2(T1, T2) \ |
4953
|
485 OCTAVE_INSTALL_SS_INT_ARITH_OPS (ss, T1, T2) \ |
|
486 OCTAVE_INSTALL_SS_INT_CMP_OPS (ss, T1, T2) \ |
|
487 OCTAVE_INSTALL_SS_INT_BOOL_OPS (ss, T1, T2) |
4905
|
488 |
4953
|
489 #define OCTAVE_INSTALL_SM_INT_ARITH_OPS(PFX, T1, T2) \ |
|
490 INSTALL_BINOP (op_add, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _add); \ |
|
491 INSTALL_BINOP (op_sub, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _sub); \ |
|
492 INSTALL_BINOP (op_mul, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _mul); \ |
|
493 /* INSTALL_BINOP (op_div, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _div); */ \ |
|
494 /* INSTALL_BINOP (op_pow, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _pow); */ \ |
|
495 INSTALL_BINOP (op_ldiv, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _ldiv); \ |
|
496 INSTALL_BINOP (op_el_mul, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _el_mul); \ |
|
497 /* INSTALL_BINOP (op_el_div, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _el_div); */ \ |
|
498 INSTALL_BINOP (op_el_pow, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _el_pow); \ |
|
499 INSTALL_BINOP (op_el_ldiv, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _el_ldiv); |
4905
|
500 |
4953
|
501 #define OCTAVE_INSTALL_SM_INT_CMP_OPS(PFX, T1, T2) \ |
|
502 INSTALL_BINOP (op_lt, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _lt); \ |
|
503 INSTALL_BINOP (op_le, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _le); \ |
|
504 INSTALL_BINOP (op_eq, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _eq); \ |
|
505 INSTALL_BINOP (op_ge, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _ge); \ |
|
506 INSTALL_BINOP (op_gt, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _gt); \ |
|
507 INSTALL_BINOP (op_ne, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _ne); |
4905
|
508 |
4953
|
509 #define OCTAVE_INSTALL_SM_INT_BOOL_OPS(PFX, T1, T2) \ |
|
510 /* INSTALL_BINOP (op_el_and, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _el_and); */ \ |
|
511 /* INSTALL_BINOP (op_el_or, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _el_or); */ |
4905
|
512 |
|
513 #define OCTAVE_INSTALL_SM_INT_OPS(TYPE) \ |
4953
|
514 OCTAVE_INSTALL_SM_INT_ARITH_OPS (sm, TYPE ## _, TYPE ## _) \ |
|
515 OCTAVE_INSTALL_SM_INT_ARITH_OPS (xm, , TYPE ## _) \ |
|
516 OCTAVE_INSTALL_SM_INT_CMP_OPS (sm, TYPE ## _, TYPE ## _) \ |
|
517 OCTAVE_INSTALL_SM_INT_CMP_OPS (xm, , TYPE ## _) \ |
|
518 OCTAVE_INSTALL_SM_INT_BOOL_OPS (sm, TYPE ## _, TYPE ## _) \ |
|
519 OCTAVE_INSTALL_SM_INT_BOOL_OPS (xm, , TYPE ## _) \ |
4905
|
520 /* INSTALL_WIDENOP (octave_ ## TYPE ## _scalar, octave_ ## TYPE ## _matrix, TYPE ## _matrix_conv); */ \ |
|
521 INSTALL_ASSIGNCONV (octave_ ## TYPE ## _scalar, octave_ ## TYPE ## _matrix, octave_ ## TYPE ## _matrix) |
|
522 |
|
523 #define OCTAVE_INSTALL_SM_INT_OPS2(T1, T2) \ |
4953
|
524 OCTAVE_INSTALL_SM_INT_ARITH_OPS (sm, T1, T2) \ |
|
525 OCTAVE_INSTALL_SM_INT_CMP_OPS (sm, T1, T2) \ |
|
526 OCTAVE_INSTALL_SM_INT_BOOL_OPS (sm, T1, T2) |
4905
|
527 |
4953
|
528 #define OCTAVE_INSTALL_MS_INT_ARITH_OPS(PFX, T1, T2) \ |
|
529 INSTALL_BINOP (op_add, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _add); \ |
|
530 INSTALL_BINOP (op_sub, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _sub); \ |
|
531 INSTALL_BINOP (op_mul, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _mul); \ |
|
532 INSTALL_BINOP (op_div, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _div); \ |
|
533 /* INSTALL_BINOP (op_pow, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _pow); */ \ |
|
534 /* INSTALL_BINOP (op_ldiv, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _ldiv); */ \ |
4905
|
535 \ |
4953
|
536 INSTALL_BINOP (op_el_mul, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _el_mul); \ |
|
537 INSTALL_BINOP (op_el_div, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _el_div); \ |
|
538 INSTALL_BINOP (op_el_pow, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _el_pow); \ |
|
539 /* INSTALL_BINOP (op_el_ldiv, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _el_ldiv); */ |
4905
|
540 |
4953
|
541 #define OCTAVE_INSTALL_MS_INT_CMP_OPS(PFX, T1, T2) \ |
|
542 INSTALL_BINOP (op_lt, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _lt); \ |
|
543 INSTALL_BINOP (op_le, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _le); \ |
|
544 INSTALL_BINOP (op_eq, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _eq); \ |
|
545 INSTALL_BINOP (op_ge, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _ge); \ |
|
546 INSTALL_BINOP (op_gt, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _gt); \ |
|
547 INSTALL_BINOP (op_ne, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _ne); |
|
548 |
|
549 #define OCTAVE_INSTALL_MS_INT_BOOL_OPS(PFX, T1, T2) \ |
|
550 /* INSTALL_BINOP (op_el_and, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _el_and); */ \ |
|
551 /* INSTALL_BINOP (op_el_or, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _el_or); */ |
|
552 |
|
553 #define OCTAVE_INSTALL_MS_INT_ASSIGN_OPS(PFX, TLHS, TRHS) \ |
|
554 INSTALL_ASSIGNOP (op_asn_eq, octave_ ## TLHS ## matrix, octave_ ## TRHS ## scalar, PFX ## _assign) |
4905
|
555 |
|
556 #define OCTAVE_INSTALL_MS_INT_OPS(TYPE) \ |
4953
|
557 OCTAVE_INSTALL_MS_INT_ARITH_OPS (ms, TYPE ## _, TYPE ## _) \ |
|
558 OCTAVE_INSTALL_MS_INT_ARITH_OPS (mx, TYPE ## _, ) \ |
|
559 OCTAVE_INSTALL_MS_INT_CMP_OPS (ms, TYPE ## _, TYPE ## _) \ |
|
560 OCTAVE_INSTALL_MS_INT_CMP_OPS (mx, TYPE ## _, ) \ |
|
561 OCTAVE_INSTALL_MS_INT_BOOL_OPS (ms, TYPE ## _, TYPE ## _) \ |
|
562 OCTAVE_INSTALL_MS_INT_BOOL_OPS (mx, TYPE ## _, ) \ |
|
563 OCTAVE_INSTALL_MS_INT_ASSIGN_OPS (ms, TYPE ## _, TYPE ## _) \ |
|
564 OCTAVE_INSTALL_MS_INT_ASSIGN_OPS (mx, TYPE ## _, ) \ |
|
565 OCTAVE_INSTALL_MS_INT_ASSIGN_OPS (mc, TYPE ## _, complex_) |
4905
|
566 |
|
567 #define OCTAVE_INSTALL_MS_INT_OPS2(T1, T2) \ |
4953
|
568 OCTAVE_INSTALL_MS_INT_ARITH_OPS (ms, T1, T2) \ |
|
569 OCTAVE_INSTALL_MS_INT_CMP_OPS (ms, T1, T2) \ |
|
570 OCTAVE_INSTALL_MS_INT_BOOL_OPS (ms, T1, T2) |
4905
|
571 |
|
572 #define OCTAVE_INSTALL_M_INT_UNOPS(TYPE) \ |
|
573 INSTALL_UNOP (op_not, octave_ ## TYPE ## _matrix, m_not); \ |
|
574 INSTALL_UNOP (op_uminus, octave_ ## TYPE ## _matrix, m_uminus); \ |
|
575 INSTALL_UNOP (op_transpose, octave_ ## TYPE ## _matrix, m_transpose); \ |
|
576 INSTALL_UNOP (op_hermitian, octave_ ## TYPE ## _matrix, m_transpose); \ |
|
577 \ |
|
578 /* INSTALL_NCUNOP (op_incr, octave_ ## TYPE ## _matrix, m_incr); */ \ |
|
579 /* INSTALL_NCUNOP (op_decr, octave_ ## TYPE ## _matrix, m_decr); */ |
|
580 |
|
581 #define OCTAVE_INSTALL_MM_INT_ARITH_OPS(T1, T2) \ |
|
582 INSTALL_BINOP (op_add, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_add); \ |
|
583 INSTALL_BINOP (op_sub, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_sub); \ |
|
584 /* INSTALL_BINOP (op_mul, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_mul); */ \ |
|
585 /* INSTALL_BINOP (op_div, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_div); */ \ |
|
586 INSTALL_BINOP (op_pow, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_pow); \ |
|
587 /* INSTALL_BINOP (op_ldiv, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_ldiv); */ \ |
|
588 INSTALL_BINOP (op_el_mul, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_el_mul); \ |
|
589 INSTALL_BINOP (op_el_div, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_el_div); \ |
4952
|
590 INSTALL_BINOP (op_el_pow, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_el_pow); \ |
4905
|
591 /* INSTALL_BINOP (op_el_ldiv, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_el_ldiv); */ |
|
592 |
|
593 #define OCTAVE_INSTALL_MM_INT_CMP_OPS(T1, T2) \ |
|
594 INSTALL_BINOP (op_lt, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_lt); \ |
|
595 INSTALL_BINOP (op_le, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_le); \ |
|
596 INSTALL_BINOP (op_eq, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_eq); \ |
|
597 INSTALL_BINOP (op_ge, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_ge); \ |
|
598 INSTALL_BINOP (op_gt, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_gt); \ |
|
599 INSTALL_BINOP (op_ne, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_ne); |
|
600 |
|
601 #define OCTAVE_INSTALL_MM_INT_BOOL_OPS(T1, T2) \ |
|
602 INSTALL_BINOP (op_el_and, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_el_and); \ |
|
603 INSTALL_BINOP (op_el_or, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_el_or); |
|
604 |
4953
|
605 #define OCTAVE_INSTALL_MM_INT_ASSIGN_OPS(PFX, TLHS, TRHS) \ |
|
606 INSTALL_ASSIGNOP (op_asn_eq, octave_ ## TLHS ## matrix, octave_ ## TRHS ## matrix, PFX ## _assign) |
4905
|
607 |
|
608 #define OCTAVE_INSTALL_MM_INT_OPS(TYPE) \ |
|
609 OCTAVE_INSTALL_M_INT_UNOPS (TYPE) \ |
|
610 OCTAVE_INSTALL_MM_INT_ARITH_OPS (TYPE, TYPE) \ |
|
611 OCTAVE_INSTALL_MM_INT_CMP_OPS (TYPE, TYPE) \ |
|
612 OCTAVE_INSTALL_MM_INT_BOOL_OPS (TYPE, TYPE) \ |
4953
|
613 OCTAVE_INSTALL_MM_INT_ASSIGN_OPS (mm, TYPE ## _, TYPE ## _) \ |
|
614 OCTAVE_INSTALL_MM_INT_ASSIGN_OPS (mmx, TYPE ## _, ) \ |
|
615 OCTAVE_INSTALL_MM_INT_ASSIGN_OPS (mmc, TYPE ## _, complex_) |
4905
|
616 |
|
617 #define OCTAVE_INSTALL_MM_INT_OPS2(T1, T2) \ |
|
618 OCTAVE_INSTALL_MM_INT_ARITH_OPS (T1, T2) \ |
|
619 OCTAVE_INSTALL_MM_INT_CMP_OPS (T1, T2) \ |
|
620 OCTAVE_INSTALL_MM_INT_BOOL_OPS (T1, T2) |
|
621 |
|
622 #define OCTAVE_INSTALL_INT_OPS(TYPE) \ |
|
623 OCTAVE_INSTALL_SS_INT_OPS (TYPE) \ |
|
624 OCTAVE_INSTALL_SM_INT_OPS (TYPE) \ |
|
625 OCTAVE_INSTALL_MS_INT_OPS (TYPE) \ |
4915
|
626 OCTAVE_INSTALL_MM_INT_OPS (TYPE) \ |
|
627 OCTAVE_INSTALL_CONCAT_FN (TYPE) |
4905
|
628 |
|
629 /* |
|
630 ;;; Local Variables: *** |
|
631 ;;; mode: C++ *** |
|
632 ;;; End: *** |
|
633 */ |
|
634 |