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1 | 158142c2 | bellard | |
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2 | 158142c2 | bellard | /*============================================================================
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3 | 158142c2 | bellard | |
4 | 158142c2 | bellard | This C source fragment is part of the SoftFloat IEC/IEEE Floating-point
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5 | 158142c2 | bellard | Arithmetic Package, Release 2b.
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6 | 158142c2 | bellard | |
7 | 158142c2 | bellard | Written by John R. Hauser. This work was made possible in part by the
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8 | 158142c2 | bellard | International Computer Science Institute, located at Suite 600, 1947 Center
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9 | 158142c2 | bellard | Street, Berkeley, California 94704. Funding was partially provided by the
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10 | 158142c2 | bellard | National Science Foundation under grant MIP-9311980. The original version
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11 | 158142c2 | bellard | of this code was written as part of a project to build a fixed-point vector
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12 | 158142c2 | bellard | processor in collaboration with the University of California at Berkeley,
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13 | 158142c2 | bellard | overseen by Profs. Nelson Morgan and John Wawrzynek. More information
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14 | 158142c2 | bellard | is available through the Web page `http://www.cs.berkeley.edu/~jhauser/
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15 | 158142c2 | bellard | arithmetic/SoftFloat.html'.
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16 | 158142c2 | bellard | |
17 | 158142c2 | bellard | THIS SOFTWARE IS DISTRIBUTED AS IS, FOR FREE. Although reasonable effort has
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18 | 158142c2 | bellard | been made to avoid it, THIS SOFTWARE MAY CONTAIN FAULTS THAT WILL AT TIMES
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19 | 158142c2 | bellard | RESULT IN INCORRECT BEHAVIOR. USE OF THIS SOFTWARE IS RESTRICTED TO PERSONS
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20 | 158142c2 | bellard | AND ORGANIZATIONS WHO CAN AND WILL TAKE FULL RESPONSIBILITY FOR ALL LOSSES,
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21 | 158142c2 | bellard | COSTS, OR OTHER PROBLEMS THEY INCUR DUE TO THE SOFTWARE, AND WHO FURTHERMORE
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22 | 158142c2 | bellard | EFFECTIVELY INDEMNIFY JOHN HAUSER AND THE INTERNATIONAL COMPUTER SCIENCE
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23 | 158142c2 | bellard | INSTITUTE (possibly via similar legal notice) AGAINST ALL LOSSES, COSTS, OR
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24 | 158142c2 | bellard | OTHER PROBLEMS INCURRED BY THEIR CUSTOMERS AND CLIENTS DUE TO THE SOFTWARE.
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25 | 158142c2 | bellard | |
26 | 158142c2 | bellard | Derivative works are acceptable, even for commercial purposes, so long as
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27 | 158142c2 | bellard | (1) the source code for the derivative work includes prominent notice that
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28 | 158142c2 | bellard | the work is derivative, and (2) the source code includes prominent notice with
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29 | 158142c2 | bellard | these four paragraphs for those parts of this code that are retained.
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30 | 158142c2 | bellard | |
31 | 158142c2 | bellard | =============================================================================*/
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32 | 158142c2 | bellard | |
33 | 158142c2 | bellard | /*----------------------------------------------------------------------------
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34 | 158142c2 | bellard | | Shifts `a' right by the number of bits given in `count'. If any nonzero
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35 | 158142c2 | bellard | | bits are shifted off, they are ``jammed'' into the least significant bit of
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36 | 158142c2 | bellard | | the result by setting the least significant bit to 1. The value of `count'
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37 | 158142c2 | bellard | | can be arbitrarily large; in particular, if `count' is greater than 32, the
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38 | 158142c2 | bellard | | result will be either 0 or 1, depending on whether `a' is zero or nonzero.
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39 | 158142c2 | bellard | | The result is stored in the location pointed to by `zPtr'.
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40 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
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41 | 158142c2 | bellard | |
42 | 158142c2 | bellard | INLINE void shift32RightJamming( bits32 a, int16 count, bits32 *zPtr )
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43 | 158142c2 | bellard | { |
44 | 158142c2 | bellard | bits32 z; |
45 | 158142c2 | bellard | |
46 | 158142c2 | bellard | if ( count == 0 ) { |
47 | 158142c2 | bellard | z = a; |
48 | 158142c2 | bellard | } |
49 | 158142c2 | bellard | else if ( count < 32 ) { |
50 | 158142c2 | bellard | z = ( a>>count ) | ( ( a<<( ( - count ) & 31 ) ) != 0 ); |
51 | 158142c2 | bellard | } |
52 | 158142c2 | bellard | else {
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53 | 158142c2 | bellard | z = ( a != 0 );
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54 | 158142c2 | bellard | } |
55 | 158142c2 | bellard | *zPtr = z; |
56 | 158142c2 | bellard | |
57 | 158142c2 | bellard | } |
58 | 158142c2 | bellard | |
59 | 158142c2 | bellard | /*----------------------------------------------------------------------------
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60 | 158142c2 | bellard | | Shifts `a' right by the number of bits given in `count'. If any nonzero
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61 | 158142c2 | bellard | | bits are shifted off, they are ``jammed'' into the least significant bit of
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62 | 158142c2 | bellard | | the result by setting the least significant bit to 1. The value of `count'
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63 | 158142c2 | bellard | | can be arbitrarily large; in particular, if `count' is greater than 64, the
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64 | 158142c2 | bellard | | result will be either 0 or 1, depending on whether `a' is zero or nonzero.
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65 | 158142c2 | bellard | | The result is stored in the location pointed to by `zPtr'.
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66 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
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67 | 158142c2 | bellard | |
68 | 158142c2 | bellard | INLINE void shift64RightJamming( bits64 a, int16 count, bits64 *zPtr )
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69 | 158142c2 | bellard | { |
70 | 158142c2 | bellard | bits64 z; |
71 | 158142c2 | bellard | |
72 | 158142c2 | bellard | if ( count == 0 ) { |
73 | 158142c2 | bellard | z = a; |
74 | 158142c2 | bellard | } |
75 | 158142c2 | bellard | else if ( count < 64 ) { |
76 | 158142c2 | bellard | z = ( a>>count ) | ( ( a<<( ( - count ) & 63 ) ) != 0 ); |
77 | 158142c2 | bellard | } |
78 | 158142c2 | bellard | else {
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79 | 158142c2 | bellard | z = ( a != 0 );
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80 | 158142c2 | bellard | } |
81 | 158142c2 | bellard | *zPtr = z; |
82 | 158142c2 | bellard | |
83 | 158142c2 | bellard | } |
84 | 158142c2 | bellard | |
85 | 158142c2 | bellard | /*----------------------------------------------------------------------------
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86 | 158142c2 | bellard | | Shifts the 128-bit value formed by concatenating `a0' and `a1' right by 64
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87 | 158142c2 | bellard | | _plus_ the number of bits given in `count'. The shifted result is at most
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88 | 158142c2 | bellard | | 64 nonzero bits; this is stored at the location pointed to by `z0Ptr'. The
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89 | 158142c2 | bellard | | bits shifted off form a second 64-bit result as follows: The _last_ bit
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90 | 158142c2 | bellard | | shifted off is the most-significant bit of the extra result, and the other
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91 | 158142c2 | bellard | | 63 bits of the extra result are all zero if and only if _all_but_the_last_
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92 | 158142c2 | bellard | | bits shifted off were all zero. This extra result is stored in the location
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93 | 158142c2 | bellard | | pointed to by `z1Ptr'. The value of `count' can be arbitrarily large.
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94 | 158142c2 | bellard | | (This routine makes more sense if `a0' and `a1' are considered to form
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95 | 158142c2 | bellard | | a fixed-point value with binary point between `a0' and `a1'. This fixed-
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96 | 158142c2 | bellard | | point value is shifted right by the number of bits given in `count', and
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97 | 158142c2 | bellard | | the integer part of the result is returned at the location pointed to by
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98 | 158142c2 | bellard | | `z0Ptr'. The fractional part of the result may be slightly corrupted as
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99 | 158142c2 | bellard | | described above, and is returned at the location pointed to by `z1Ptr'.)
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100 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
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101 | 158142c2 | bellard | |
102 | 158142c2 | bellard | INLINE void
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103 | 158142c2 | bellard | shift64ExtraRightJamming( |
104 | 158142c2 | bellard | bits64 a0, bits64 a1, int16 count, bits64 *z0Ptr, bits64 *z1Ptr ) |
105 | 158142c2 | bellard | { |
106 | 158142c2 | bellard | bits64 z0, z1; |
107 | 158142c2 | bellard | int8 negCount = ( - count ) & 63;
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108 | 158142c2 | bellard | |
109 | 158142c2 | bellard | if ( count == 0 ) { |
110 | 158142c2 | bellard | z1 = a1; |
111 | 158142c2 | bellard | z0 = a0; |
112 | 158142c2 | bellard | } |
113 | 158142c2 | bellard | else if ( count < 64 ) { |
114 | 158142c2 | bellard | z1 = ( a0<<negCount ) | ( a1 != 0 );
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115 | 158142c2 | bellard | z0 = a0>>count; |
116 | 158142c2 | bellard | } |
117 | 158142c2 | bellard | else {
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118 | 158142c2 | bellard | if ( count == 64 ) { |
119 | 158142c2 | bellard | z1 = a0 | ( a1 != 0 );
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120 | 158142c2 | bellard | } |
121 | 158142c2 | bellard | else {
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122 | 158142c2 | bellard | z1 = ( ( a0 | a1 ) != 0 );
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123 | 158142c2 | bellard | } |
124 | 158142c2 | bellard | z0 = 0;
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125 | 158142c2 | bellard | } |
126 | 158142c2 | bellard | *z1Ptr = z1; |
127 | 158142c2 | bellard | *z0Ptr = z0; |
128 | 158142c2 | bellard | |
129 | 158142c2 | bellard | } |
130 | 158142c2 | bellard | |
131 | 158142c2 | bellard | /*----------------------------------------------------------------------------
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132 | 158142c2 | bellard | | Shifts the 128-bit value formed by concatenating `a0' and `a1' right by the
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133 | 158142c2 | bellard | | number of bits given in `count'. Any bits shifted off are lost. The value
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134 | 158142c2 | bellard | | of `count' can be arbitrarily large; in particular, if `count' is greater
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135 | 158142c2 | bellard | | than 128, the result will be 0. The result is broken into two 64-bit pieces
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136 | 158142c2 | bellard | | which are stored at the locations pointed to by `z0Ptr' and `z1Ptr'.
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137 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
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138 | 158142c2 | bellard | |
139 | 158142c2 | bellard | INLINE void
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140 | 158142c2 | bellard | shift128Right( |
141 | 158142c2 | bellard | bits64 a0, bits64 a1, int16 count, bits64 *z0Ptr, bits64 *z1Ptr ) |
142 | 158142c2 | bellard | { |
143 | 158142c2 | bellard | bits64 z0, z1; |
144 | 158142c2 | bellard | int8 negCount = ( - count ) & 63;
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145 | 158142c2 | bellard | |
146 | 158142c2 | bellard | if ( count == 0 ) { |
147 | 158142c2 | bellard | z1 = a1; |
148 | 158142c2 | bellard | z0 = a0; |
149 | 158142c2 | bellard | } |
150 | 158142c2 | bellard | else if ( count < 64 ) { |
151 | 158142c2 | bellard | z1 = ( a0<<negCount ) | ( a1>>count ); |
152 | 158142c2 | bellard | z0 = a0>>count; |
153 | 158142c2 | bellard | } |
154 | 158142c2 | bellard | else {
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155 | 158142c2 | bellard | z1 = ( count < 64 ) ? ( a0>>( count & 63 ) ) : 0; |
156 | 158142c2 | bellard | z0 = 0;
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157 | 158142c2 | bellard | } |
158 | 158142c2 | bellard | *z1Ptr = z1; |
159 | 158142c2 | bellard | *z0Ptr = z0; |
160 | 158142c2 | bellard | |
161 | 158142c2 | bellard | } |
162 | 158142c2 | bellard | |
163 | 158142c2 | bellard | /*----------------------------------------------------------------------------
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164 | 158142c2 | bellard | | Shifts the 128-bit value formed by concatenating `a0' and `a1' right by the
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165 | 158142c2 | bellard | | number of bits given in `count'. If any nonzero bits are shifted off, they
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166 | 158142c2 | bellard | | are ``jammed'' into the least significant bit of the result by setting the
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167 | 158142c2 | bellard | | least significant bit to 1. The value of `count' can be arbitrarily large;
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168 | 158142c2 | bellard | | in particular, if `count' is greater than 128, the result will be either
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169 | 158142c2 | bellard | | 0 or 1, depending on whether the concatenation of `a0' and `a1' is zero or
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170 | 158142c2 | bellard | | nonzero. The result is broken into two 64-bit pieces which are stored at
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171 | 158142c2 | bellard | | the locations pointed to by `z0Ptr' and `z1Ptr'.
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172 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
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173 | 158142c2 | bellard | |
174 | 158142c2 | bellard | INLINE void
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175 | 158142c2 | bellard | shift128RightJamming( |
176 | 158142c2 | bellard | bits64 a0, bits64 a1, int16 count, bits64 *z0Ptr, bits64 *z1Ptr ) |
177 | 158142c2 | bellard | { |
178 | 158142c2 | bellard | bits64 z0, z1; |
179 | 158142c2 | bellard | int8 negCount = ( - count ) & 63;
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180 | 158142c2 | bellard | |
181 | 158142c2 | bellard | if ( count == 0 ) { |
182 | 158142c2 | bellard | z1 = a1; |
183 | 158142c2 | bellard | z0 = a0; |
184 | 158142c2 | bellard | } |
185 | 158142c2 | bellard | else if ( count < 64 ) { |
186 | 158142c2 | bellard | z1 = ( a0<<negCount ) | ( a1>>count ) | ( ( a1<<negCount ) != 0 );
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187 | 158142c2 | bellard | z0 = a0>>count; |
188 | 158142c2 | bellard | } |
189 | 158142c2 | bellard | else {
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190 | 158142c2 | bellard | if ( count == 64 ) { |
191 | 158142c2 | bellard | z1 = a0 | ( a1 != 0 );
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192 | 158142c2 | bellard | } |
193 | 158142c2 | bellard | else if ( count < 128 ) { |
194 | 158142c2 | bellard | z1 = ( a0>>( count & 63 ) ) | ( ( ( a0<<negCount ) | a1 ) != 0 ); |
195 | 158142c2 | bellard | } |
196 | 158142c2 | bellard | else {
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197 | 158142c2 | bellard | z1 = ( ( a0 | a1 ) != 0 );
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198 | 158142c2 | bellard | } |
199 | 158142c2 | bellard | z0 = 0;
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200 | 158142c2 | bellard | } |
201 | 158142c2 | bellard | *z1Ptr = z1; |
202 | 158142c2 | bellard | *z0Ptr = z0; |
203 | 158142c2 | bellard | |
204 | 158142c2 | bellard | } |
205 | 158142c2 | bellard | |
206 | 158142c2 | bellard | /*----------------------------------------------------------------------------
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207 | 158142c2 | bellard | | Shifts the 192-bit value formed by concatenating `a0', `a1', and `a2' right
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208 | 158142c2 | bellard | | by 64 _plus_ the number of bits given in `count'. The shifted result is
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209 | 158142c2 | bellard | | at most 128 nonzero bits; these are broken into two 64-bit pieces which are
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210 | 158142c2 | bellard | | stored at the locations pointed to by `z0Ptr' and `z1Ptr'. The bits shifted
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211 | 158142c2 | bellard | | off form a third 64-bit result as follows: The _last_ bit shifted off is
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212 | 158142c2 | bellard | | the most-significant bit of the extra result, and the other 63 bits of the
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213 | 158142c2 | bellard | | extra result are all zero if and only if _all_but_the_last_ bits shifted off
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214 | 158142c2 | bellard | | were all zero. This extra result is stored in the location pointed to by
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215 | 158142c2 | bellard | | `z2Ptr'. The value of `count' can be arbitrarily large.
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216 | 158142c2 | bellard | | (This routine makes more sense if `a0', `a1', and `a2' are considered
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217 | 158142c2 | bellard | | to form a fixed-point value with binary point between `a1' and `a2'. This
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218 | 158142c2 | bellard | | fixed-point value is shifted right by the number of bits given in `count',
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219 | 158142c2 | bellard | | and the integer part of the result is returned at the locations pointed to
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220 | 158142c2 | bellard | | by `z0Ptr' and `z1Ptr'. The fractional part of the result may be slightly
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221 | 158142c2 | bellard | | corrupted as described above, and is returned at the location pointed to by
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222 | 158142c2 | bellard | | `z2Ptr'.)
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223 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
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224 | 158142c2 | bellard | |
225 | 158142c2 | bellard | INLINE void
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226 | 158142c2 | bellard | shift128ExtraRightJamming( |
227 | 158142c2 | bellard | bits64 a0, |
228 | 158142c2 | bellard | bits64 a1, |
229 | 158142c2 | bellard | bits64 a2, |
230 | 158142c2 | bellard | int16 count, |
231 | 158142c2 | bellard | bits64 *z0Ptr, |
232 | 158142c2 | bellard | bits64 *z1Ptr, |
233 | 158142c2 | bellard | bits64 *z2Ptr |
234 | 158142c2 | bellard | ) |
235 | 158142c2 | bellard | { |
236 | 158142c2 | bellard | bits64 z0, z1, z2; |
237 | 158142c2 | bellard | int8 negCount = ( - count ) & 63;
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238 | 158142c2 | bellard | |
239 | 158142c2 | bellard | if ( count == 0 ) { |
240 | 158142c2 | bellard | z2 = a2; |
241 | 158142c2 | bellard | z1 = a1; |
242 | 158142c2 | bellard | z0 = a0; |
243 | 158142c2 | bellard | } |
244 | 158142c2 | bellard | else {
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245 | 158142c2 | bellard | if ( count < 64 ) { |
246 | 158142c2 | bellard | z2 = a1<<negCount; |
247 | 158142c2 | bellard | z1 = ( a0<<negCount ) | ( a1>>count ); |
248 | 158142c2 | bellard | z0 = a0>>count; |
249 | 158142c2 | bellard | } |
250 | 158142c2 | bellard | else {
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251 | 158142c2 | bellard | if ( count == 64 ) { |
252 | 158142c2 | bellard | z2 = a1; |
253 | 158142c2 | bellard | z1 = a0; |
254 | 158142c2 | bellard | } |
255 | 158142c2 | bellard | else {
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256 | 158142c2 | bellard | a2 |= a1; |
257 | 158142c2 | bellard | if ( count < 128 ) { |
258 | 158142c2 | bellard | z2 = a0<<negCount; |
259 | 158142c2 | bellard | z1 = a0>>( count & 63 );
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260 | 158142c2 | bellard | } |
261 | 158142c2 | bellard | else {
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262 | 158142c2 | bellard | z2 = ( count == 128 ) ? a0 : ( a0 != 0 ); |
263 | 158142c2 | bellard | z1 = 0;
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264 | 158142c2 | bellard | } |
265 | 158142c2 | bellard | } |
266 | 158142c2 | bellard | z0 = 0;
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267 | 158142c2 | bellard | } |
268 | 158142c2 | bellard | z2 |= ( a2 != 0 );
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269 | 158142c2 | bellard | } |
270 | 158142c2 | bellard | *z2Ptr = z2; |
271 | 158142c2 | bellard | *z1Ptr = z1; |
272 | 158142c2 | bellard | *z0Ptr = z0; |
273 | 158142c2 | bellard | |
274 | 158142c2 | bellard | } |
275 | 158142c2 | bellard | |
276 | 158142c2 | bellard | /*----------------------------------------------------------------------------
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277 | 158142c2 | bellard | | Shifts the 128-bit value formed by concatenating `a0' and `a1' left by the
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278 | 158142c2 | bellard | | number of bits given in `count'. Any bits shifted off are lost. The value
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279 | 158142c2 | bellard | | of `count' must be less than 64. The result is broken into two 64-bit
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280 | 158142c2 | bellard | | pieces which are stored at the locations pointed to by `z0Ptr' and `z1Ptr'.
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281 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
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282 | 158142c2 | bellard | |
283 | 158142c2 | bellard | INLINE void
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284 | 158142c2 | bellard | shortShift128Left( |
285 | 158142c2 | bellard | bits64 a0, bits64 a1, int16 count, bits64 *z0Ptr, bits64 *z1Ptr ) |
286 | 158142c2 | bellard | { |
287 | 158142c2 | bellard | |
288 | 158142c2 | bellard | *z1Ptr = a1<<count; |
289 | 158142c2 | bellard | *z0Ptr = |
290 | 158142c2 | bellard | ( count == 0 ) ? a0 : ( a0<<count ) | ( a1>>( ( - count ) & 63 ) ); |
291 | 158142c2 | bellard | |
292 | 158142c2 | bellard | } |
293 | 158142c2 | bellard | |
294 | 158142c2 | bellard | /*----------------------------------------------------------------------------
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295 | 158142c2 | bellard | | Shifts the 192-bit value formed by concatenating `a0', `a1', and `a2' left
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296 | 158142c2 | bellard | | by the number of bits given in `count'. Any bits shifted off are lost.
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297 | 158142c2 | bellard | | The value of `count' must be less than 64. The result is broken into three
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298 | 158142c2 | bellard | | 64-bit pieces which are stored at the locations pointed to by `z0Ptr',
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299 | 158142c2 | bellard | | `z1Ptr', and `z2Ptr'.
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300 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
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301 | 158142c2 | bellard | |
302 | 158142c2 | bellard | INLINE void
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303 | 158142c2 | bellard | shortShift192Left( |
304 | 158142c2 | bellard | bits64 a0, |
305 | 158142c2 | bellard | bits64 a1, |
306 | 158142c2 | bellard | bits64 a2, |
307 | 158142c2 | bellard | int16 count, |
308 | 158142c2 | bellard | bits64 *z0Ptr, |
309 | 158142c2 | bellard | bits64 *z1Ptr, |
310 | 158142c2 | bellard | bits64 *z2Ptr |
311 | 158142c2 | bellard | ) |
312 | 158142c2 | bellard | { |
313 | 158142c2 | bellard | bits64 z0, z1, z2; |
314 | 158142c2 | bellard | int8 negCount; |
315 | 158142c2 | bellard | |
316 | 158142c2 | bellard | z2 = a2<<count; |
317 | 158142c2 | bellard | z1 = a1<<count; |
318 | 158142c2 | bellard | z0 = a0<<count; |
319 | 158142c2 | bellard | if ( 0 < count ) { |
320 | 158142c2 | bellard | negCount = ( ( - count ) & 63 );
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321 | 158142c2 | bellard | z1 |= a2>>negCount; |
322 | 158142c2 | bellard | z0 |= a1>>negCount; |
323 | 158142c2 | bellard | } |
324 | 158142c2 | bellard | *z2Ptr = z2; |
325 | 158142c2 | bellard | *z1Ptr = z1; |
326 | 158142c2 | bellard | *z0Ptr = z0; |
327 | 158142c2 | bellard | |
328 | 158142c2 | bellard | } |
329 | 158142c2 | bellard | |
330 | 158142c2 | bellard | /*----------------------------------------------------------------------------
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331 | 158142c2 | bellard | | Adds the 128-bit value formed by concatenating `a0' and `a1' to the 128-bit
|
332 | 158142c2 | bellard | | value formed by concatenating `b0' and `b1'. Addition is modulo 2^128, so
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333 | 158142c2 | bellard | | any carry out is lost. The result is broken into two 64-bit pieces which
|
334 | 158142c2 | bellard | | are stored at the locations pointed to by `z0Ptr' and `z1Ptr'.
|
335 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
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336 | 158142c2 | bellard | |
337 | 158142c2 | bellard | INLINE void
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338 | 158142c2 | bellard | add128( |
339 | 158142c2 | bellard | bits64 a0, bits64 a1, bits64 b0, bits64 b1, bits64 *z0Ptr, bits64 *z1Ptr ) |
340 | 158142c2 | bellard | { |
341 | 158142c2 | bellard | bits64 z1; |
342 | 158142c2 | bellard | |
343 | 158142c2 | bellard | z1 = a1 + b1; |
344 | 158142c2 | bellard | *z1Ptr = z1; |
345 | 158142c2 | bellard | *z0Ptr = a0 + b0 + ( z1 < a1 ); |
346 | 158142c2 | bellard | |
347 | 158142c2 | bellard | } |
348 | 158142c2 | bellard | |
349 | 158142c2 | bellard | /*----------------------------------------------------------------------------
|
350 | 158142c2 | bellard | | Adds the 192-bit value formed by concatenating `a0', `a1', and `a2' to the
|
351 | 158142c2 | bellard | | 192-bit value formed by concatenating `b0', `b1', and `b2'. Addition is
|
352 | 158142c2 | bellard | | modulo 2^192, so any carry out is lost. The result is broken into three
|
353 | 158142c2 | bellard | | 64-bit pieces which are stored at the locations pointed to by `z0Ptr',
|
354 | 158142c2 | bellard | | `z1Ptr', and `z2Ptr'.
|
355 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
|
356 | 158142c2 | bellard | |
357 | 158142c2 | bellard | INLINE void
|
358 | 158142c2 | bellard | add192( |
359 | 158142c2 | bellard | bits64 a0, |
360 | 158142c2 | bellard | bits64 a1, |
361 | 158142c2 | bellard | bits64 a2, |
362 | 158142c2 | bellard | bits64 b0, |
363 | 158142c2 | bellard | bits64 b1, |
364 | 158142c2 | bellard | bits64 b2, |
365 | 158142c2 | bellard | bits64 *z0Ptr, |
366 | 158142c2 | bellard | bits64 *z1Ptr, |
367 | 158142c2 | bellard | bits64 *z2Ptr |
368 | 158142c2 | bellard | ) |
369 | 158142c2 | bellard | { |
370 | 158142c2 | bellard | bits64 z0, z1, z2; |
371 | 158142c2 | bellard | int8 carry0, carry1; |
372 | 158142c2 | bellard | |
373 | 158142c2 | bellard | z2 = a2 + b2; |
374 | 158142c2 | bellard | carry1 = ( z2 < a2 ); |
375 | 158142c2 | bellard | z1 = a1 + b1; |
376 | 158142c2 | bellard | carry0 = ( z1 < a1 ); |
377 | 158142c2 | bellard | z0 = a0 + b0; |
378 | 158142c2 | bellard | z1 += carry1; |
379 | 158142c2 | bellard | z0 += ( z1 < carry1 ); |
380 | 158142c2 | bellard | z0 += carry0; |
381 | 158142c2 | bellard | *z2Ptr = z2; |
382 | 158142c2 | bellard | *z1Ptr = z1; |
383 | 158142c2 | bellard | *z0Ptr = z0; |
384 | 158142c2 | bellard | |
385 | 158142c2 | bellard | } |
386 | 158142c2 | bellard | |
387 | 158142c2 | bellard | /*----------------------------------------------------------------------------
|
388 | 158142c2 | bellard | | Subtracts the 128-bit value formed by concatenating `b0' and `b1' from the
|
389 | 158142c2 | bellard | | 128-bit value formed by concatenating `a0' and `a1'. Subtraction is modulo
|
390 | 158142c2 | bellard | | 2^128, so any borrow out (carry out) is lost. The result is broken into two
|
391 | 158142c2 | bellard | | 64-bit pieces which are stored at the locations pointed to by `z0Ptr' and
|
392 | 158142c2 | bellard | | `z1Ptr'.
|
393 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
|
394 | 158142c2 | bellard | |
395 | 158142c2 | bellard | INLINE void
|
396 | 158142c2 | bellard | sub128( |
397 | 158142c2 | bellard | bits64 a0, bits64 a1, bits64 b0, bits64 b1, bits64 *z0Ptr, bits64 *z1Ptr ) |
398 | 158142c2 | bellard | { |
399 | 158142c2 | bellard | |
400 | 158142c2 | bellard | *z1Ptr = a1 - b1; |
401 | 158142c2 | bellard | *z0Ptr = a0 - b0 - ( a1 < b1 ); |
402 | 158142c2 | bellard | |
403 | 158142c2 | bellard | } |
404 | 158142c2 | bellard | |
405 | 158142c2 | bellard | /*----------------------------------------------------------------------------
|
406 | 158142c2 | bellard | | Subtracts the 192-bit value formed by concatenating `b0', `b1', and `b2'
|
407 | 158142c2 | bellard | | from the 192-bit value formed by concatenating `a0', `a1', and `a2'.
|
408 | 158142c2 | bellard | | Subtraction is modulo 2^192, so any borrow out (carry out) is lost. The
|
409 | 158142c2 | bellard | | result is broken into three 64-bit pieces which are stored at the locations
|
410 | 158142c2 | bellard | | pointed to by `z0Ptr', `z1Ptr', and `z2Ptr'.
|
411 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
|
412 | 158142c2 | bellard | |
413 | 158142c2 | bellard | INLINE void
|
414 | 158142c2 | bellard | sub192( |
415 | 158142c2 | bellard | bits64 a0, |
416 | 158142c2 | bellard | bits64 a1, |
417 | 158142c2 | bellard | bits64 a2, |
418 | 158142c2 | bellard | bits64 b0, |
419 | 158142c2 | bellard | bits64 b1, |
420 | 158142c2 | bellard | bits64 b2, |
421 | 158142c2 | bellard | bits64 *z0Ptr, |
422 | 158142c2 | bellard | bits64 *z1Ptr, |
423 | 158142c2 | bellard | bits64 *z2Ptr |
424 | 158142c2 | bellard | ) |
425 | 158142c2 | bellard | { |
426 | 158142c2 | bellard | bits64 z0, z1, z2; |
427 | 158142c2 | bellard | int8 borrow0, borrow1; |
428 | 158142c2 | bellard | |
429 | 158142c2 | bellard | z2 = a2 - b2; |
430 | 158142c2 | bellard | borrow1 = ( a2 < b2 ); |
431 | 158142c2 | bellard | z1 = a1 - b1; |
432 | 158142c2 | bellard | borrow0 = ( a1 < b1 ); |
433 | 158142c2 | bellard | z0 = a0 - b0; |
434 | 158142c2 | bellard | z0 -= ( z1 < borrow1 ); |
435 | 158142c2 | bellard | z1 -= borrow1; |
436 | 158142c2 | bellard | z0 -= borrow0; |
437 | 158142c2 | bellard | *z2Ptr = z2; |
438 | 158142c2 | bellard | *z1Ptr = z1; |
439 | 158142c2 | bellard | *z0Ptr = z0; |
440 | 158142c2 | bellard | |
441 | 158142c2 | bellard | } |
442 | 158142c2 | bellard | |
443 | 158142c2 | bellard | /*----------------------------------------------------------------------------
|
444 | 158142c2 | bellard | | Multiplies `a' by `b' to obtain a 128-bit product. The product is broken
|
445 | 158142c2 | bellard | | into two 64-bit pieces which are stored at the locations pointed to by
|
446 | 158142c2 | bellard | | `z0Ptr' and `z1Ptr'.
|
447 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
|
448 | 158142c2 | bellard | |
449 | 158142c2 | bellard | INLINE void mul64To128( bits64 a, bits64 b, bits64 *z0Ptr, bits64 *z1Ptr )
|
450 | 158142c2 | bellard | { |
451 | 158142c2 | bellard | bits32 aHigh, aLow, bHigh, bLow; |
452 | 158142c2 | bellard | bits64 z0, zMiddleA, zMiddleB, z1; |
453 | 158142c2 | bellard | |
454 | 158142c2 | bellard | aLow = a; |
455 | 158142c2 | bellard | aHigh = a>>32;
|
456 | 158142c2 | bellard | bLow = b; |
457 | 158142c2 | bellard | bHigh = b>>32;
|
458 | 158142c2 | bellard | z1 = ( (bits64) aLow ) * bLow; |
459 | 158142c2 | bellard | zMiddleA = ( (bits64) aLow ) * bHigh; |
460 | 158142c2 | bellard | zMiddleB = ( (bits64) aHigh ) * bLow; |
461 | 158142c2 | bellard | z0 = ( (bits64) aHigh ) * bHigh; |
462 | 158142c2 | bellard | zMiddleA += zMiddleB; |
463 | 158142c2 | bellard | z0 += ( ( (bits64) ( zMiddleA < zMiddleB ) )<<32 ) + ( zMiddleA>>32 ); |
464 | 158142c2 | bellard | zMiddleA <<= 32;
|
465 | 158142c2 | bellard | z1 += zMiddleA; |
466 | 158142c2 | bellard | z0 += ( z1 < zMiddleA ); |
467 | 158142c2 | bellard | *z1Ptr = z1; |
468 | 158142c2 | bellard | *z0Ptr = z0; |
469 | 158142c2 | bellard | |
470 | 158142c2 | bellard | } |
471 | 158142c2 | bellard | |
472 | 158142c2 | bellard | /*----------------------------------------------------------------------------
|
473 | 158142c2 | bellard | | Multiplies the 128-bit value formed by concatenating `a0' and `a1' by
|
474 | 158142c2 | bellard | | `b' to obtain a 192-bit product. The product is broken into three 64-bit
|
475 | 158142c2 | bellard | | pieces which are stored at the locations pointed to by `z0Ptr', `z1Ptr', and
|
476 | 158142c2 | bellard | | `z2Ptr'.
|
477 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
|
478 | 158142c2 | bellard | |
479 | 158142c2 | bellard | INLINE void
|
480 | 158142c2 | bellard | mul128By64To192( |
481 | 158142c2 | bellard | bits64 a0, |
482 | 158142c2 | bellard | bits64 a1, |
483 | 158142c2 | bellard | bits64 b, |
484 | 158142c2 | bellard | bits64 *z0Ptr, |
485 | 158142c2 | bellard | bits64 *z1Ptr, |
486 | 158142c2 | bellard | bits64 *z2Ptr |
487 | 158142c2 | bellard | ) |
488 | 158142c2 | bellard | { |
489 | 158142c2 | bellard | bits64 z0, z1, z2, more1; |
490 | 158142c2 | bellard | |
491 | 158142c2 | bellard | mul64To128( a1, b, &z1, &z2 ); |
492 | 158142c2 | bellard | mul64To128( a0, b, &z0, &more1 ); |
493 | 158142c2 | bellard | add128( z0, more1, 0, z1, &z0, &z1 );
|
494 | 158142c2 | bellard | *z2Ptr = z2; |
495 | 158142c2 | bellard | *z1Ptr = z1; |
496 | 158142c2 | bellard | *z0Ptr = z0; |
497 | 158142c2 | bellard | |
498 | 158142c2 | bellard | } |
499 | 158142c2 | bellard | |
500 | 158142c2 | bellard | /*----------------------------------------------------------------------------
|
501 | 158142c2 | bellard | | Multiplies the 128-bit value formed by concatenating `a0' and `a1' to the
|
502 | 158142c2 | bellard | | 128-bit value formed by concatenating `b0' and `b1' to obtain a 256-bit
|
503 | 158142c2 | bellard | | product. The product is broken into four 64-bit pieces which are stored at
|
504 | 158142c2 | bellard | | the locations pointed to by `z0Ptr', `z1Ptr', `z2Ptr', and `z3Ptr'.
|
505 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
|
506 | 158142c2 | bellard | |
507 | 158142c2 | bellard | INLINE void
|
508 | 158142c2 | bellard | mul128To256( |
509 | 158142c2 | bellard | bits64 a0, |
510 | 158142c2 | bellard | bits64 a1, |
511 | 158142c2 | bellard | bits64 b0, |
512 | 158142c2 | bellard | bits64 b1, |
513 | 158142c2 | bellard | bits64 *z0Ptr, |
514 | 158142c2 | bellard | bits64 *z1Ptr, |
515 | 158142c2 | bellard | bits64 *z2Ptr, |
516 | 158142c2 | bellard | bits64 *z3Ptr |
517 | 158142c2 | bellard | ) |
518 | 158142c2 | bellard | { |
519 | 158142c2 | bellard | bits64 z0, z1, z2, z3; |
520 | 158142c2 | bellard | bits64 more1, more2; |
521 | 158142c2 | bellard | |
522 | 158142c2 | bellard | mul64To128( a1, b1, &z2, &z3 ); |
523 | 158142c2 | bellard | mul64To128( a1, b0, &z1, &more2 ); |
524 | 158142c2 | bellard | add128( z1, more2, 0, z2, &z1, &z2 );
|
525 | 158142c2 | bellard | mul64To128( a0, b0, &z0, &more1 ); |
526 | 158142c2 | bellard | add128( z0, more1, 0, z1, &z0, &z1 );
|
527 | 158142c2 | bellard | mul64To128( a0, b1, &more1, &more2 ); |
528 | 158142c2 | bellard | add128( more1, more2, 0, z2, &more1, &z2 );
|
529 | 158142c2 | bellard | add128( z0, z1, 0, more1, &z0, &z1 );
|
530 | 158142c2 | bellard | *z3Ptr = z3; |
531 | 158142c2 | bellard | *z2Ptr = z2; |
532 | 158142c2 | bellard | *z1Ptr = z1; |
533 | 158142c2 | bellard | *z0Ptr = z0; |
534 | 158142c2 | bellard | |
535 | 158142c2 | bellard | } |
536 | 158142c2 | bellard | |
537 | 158142c2 | bellard | /*----------------------------------------------------------------------------
|
538 | 158142c2 | bellard | | Returns an approximation to the 64-bit integer quotient obtained by dividing
|
539 | 158142c2 | bellard | | `b' into the 128-bit value formed by concatenating `a0' and `a1'. The
|
540 | 158142c2 | bellard | | divisor `b' must be at least 2^63. If q is the exact quotient truncated
|
541 | 158142c2 | bellard | | toward zero, the approximation returned lies between q and q + 2 inclusive.
|
542 | 158142c2 | bellard | | If the exact quotient q is larger than 64 bits, the maximum positive 64-bit
|
543 | 158142c2 | bellard | | unsigned integer is returned.
|
544 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
|
545 | 158142c2 | bellard | |
546 | 158142c2 | bellard | static bits64 estimateDiv128To64( bits64 a0, bits64 a1, bits64 b )
|
547 | 158142c2 | bellard | { |
548 | 158142c2 | bellard | bits64 b0, b1; |
549 | 158142c2 | bellard | bits64 rem0, rem1, term0, term1; |
550 | 158142c2 | bellard | bits64 z; |
551 | 158142c2 | bellard | |
552 | 158142c2 | bellard | if ( b <= a0 ) return LIT64( 0xFFFFFFFFFFFFFFFF ); |
553 | 158142c2 | bellard | b0 = b>>32;
|
554 | 158142c2 | bellard | z = ( b0<<32 <= a0 ) ? LIT64( 0xFFFFFFFF00000000 ) : ( a0 / b0 )<<32; |
555 | 158142c2 | bellard | mul64To128( b, z, &term0, &term1 ); |
556 | 158142c2 | bellard | sub128( a0, a1, term0, term1, &rem0, &rem1 ); |
557 | 158142c2 | bellard | while ( ( (sbits64) rem0 ) < 0 ) { |
558 | 158142c2 | bellard | z -= LIT64( 0x100000000 );
|
559 | 158142c2 | bellard | b1 = b<<32;
|
560 | 158142c2 | bellard | add128( rem0, rem1, b0, b1, &rem0, &rem1 ); |
561 | 158142c2 | bellard | } |
562 | 158142c2 | bellard | rem0 = ( rem0<<32 ) | ( rem1>>32 ); |
563 | 158142c2 | bellard | z |= ( b0<<32 <= rem0 ) ? 0xFFFFFFFF : rem0 / b0; |
564 | 158142c2 | bellard | return z;
|
565 | 158142c2 | bellard | |
566 | 158142c2 | bellard | } |
567 | 158142c2 | bellard | |
568 | 158142c2 | bellard | /*----------------------------------------------------------------------------
|
569 | 158142c2 | bellard | | Returns an approximation to the square root of the 32-bit significand given
|
570 | 158142c2 | bellard | | by `a'. Considered as an integer, `a' must be at least 2^31. If bit 0 of
|
571 | 158142c2 | bellard | | `aExp' (the least significant bit) is 1, the integer returned approximates
|
572 | 158142c2 | bellard | | 2^31*sqrt(`a'/2^31), where `a' is considered an integer. If bit 0 of `aExp'
|
573 | 158142c2 | bellard | | is 0, the integer returned approximates 2^31*sqrt(`a'/2^30). In either
|
574 | 158142c2 | bellard | | case, the approximation returned lies strictly within +/-2 of the exact
|
575 | 158142c2 | bellard | | value.
|
576 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
|
577 | 158142c2 | bellard | |
578 | 158142c2 | bellard | static bits32 estimateSqrt32( int16 aExp, bits32 a )
|
579 | 158142c2 | bellard | { |
580 | 158142c2 | bellard | static const bits16 sqrtOddAdjustments[] = { |
581 | 158142c2 | bellard | 0x0004, 0x0022, 0x005D, 0x00B1, 0x011D, 0x019F, 0x0236, 0x02E0, |
582 | 158142c2 | bellard | 0x039C, 0x0468, 0x0545, 0x0631, 0x072B, 0x0832, 0x0946, 0x0A67 |
583 | 158142c2 | bellard | }; |
584 | 158142c2 | bellard | static const bits16 sqrtEvenAdjustments[] = { |
585 | 158142c2 | bellard | 0x0A2D, 0x08AF, 0x075A, 0x0629, 0x051A, 0x0429, 0x0356, 0x029E, |
586 | 158142c2 | bellard | 0x0200, 0x0179, 0x0109, 0x00AF, 0x0068, 0x0034, 0x0012, 0x0002 |
587 | 158142c2 | bellard | }; |
588 | 158142c2 | bellard | int8 index; |
589 | 158142c2 | bellard | bits32 z; |
590 | 158142c2 | bellard | |
591 | 158142c2 | bellard | index = ( a>>27 ) & 15; |
592 | 158142c2 | bellard | if ( aExp & 1 ) { |
593 | 158142c2 | bellard | z = 0x4000 + ( a>>17 ) - sqrtOddAdjustments[ index ]; |
594 | 158142c2 | bellard | z = ( ( a / z )<<14 ) + ( z<<15 ); |
595 | 158142c2 | bellard | a >>= 1;
|
596 | 158142c2 | bellard | } |
597 | 158142c2 | bellard | else {
|
598 | 158142c2 | bellard | z = 0x8000 + ( a>>17 ) - sqrtEvenAdjustments[ index ]; |
599 | 158142c2 | bellard | z = a / z + z; |
600 | 158142c2 | bellard | z = ( 0x20000 <= z ) ? 0xFFFF8000 : ( z<<15 ); |
601 | 158142c2 | bellard | if ( z <= a ) return (bits32) ( ( (sbits32) a )>>1 ); |
602 | 158142c2 | bellard | } |
603 | 158142c2 | bellard | return ( (bits32) ( ( ( (bits64) a )<<31 ) / z ) ) + ( z>>1 ); |
604 | 158142c2 | bellard | |
605 | 158142c2 | bellard | } |
606 | 158142c2 | bellard | |
607 | 158142c2 | bellard | /*----------------------------------------------------------------------------
|
608 | 158142c2 | bellard | | Returns the number of leading 0 bits before the most-significant 1 bit of
|
609 | 158142c2 | bellard | | `a'. If `a' is zero, 32 is returned.
|
610 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
|
611 | 158142c2 | bellard | |
612 | 158142c2 | bellard | static int8 countLeadingZeros32( bits32 a )
|
613 | 158142c2 | bellard | { |
614 | 158142c2 | bellard | static const int8 countLeadingZerosHigh[] = { |
615 | 158142c2 | bellard | 8, 7, 6, 6, 5, 5, 5, 5, 4, 4, 4, 4, 4, 4, 4, 4, |
616 | 158142c2 | bellard | 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, |
617 | 158142c2 | bellard | 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, |
618 | 158142c2 | bellard | 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, |
619 | 158142c2 | bellard | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, |
620 | 158142c2 | bellard | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, |
621 | 158142c2 | bellard | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, |
622 | 158142c2 | bellard | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, |
623 | 158142c2 | bellard | 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, |
624 | 158142c2 | bellard | 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, |
625 | 158142c2 | bellard | 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, |
626 | 158142c2 | bellard | 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, |
627 | 158142c2 | bellard | 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, |
628 | 158142c2 | bellard | 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, |
629 | 158142c2 | bellard | 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, |
630 | 158142c2 | bellard | 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 |
631 | 158142c2 | bellard | }; |
632 | 158142c2 | bellard | int8 shiftCount; |
633 | 158142c2 | bellard | |
634 | 158142c2 | bellard | shiftCount = 0;
|
635 | 158142c2 | bellard | if ( a < 0x10000 ) { |
636 | 158142c2 | bellard | shiftCount += 16;
|
637 | 158142c2 | bellard | a <<= 16;
|
638 | 158142c2 | bellard | } |
639 | 158142c2 | bellard | if ( a < 0x1000000 ) { |
640 | 158142c2 | bellard | shiftCount += 8;
|
641 | 158142c2 | bellard | a <<= 8;
|
642 | 158142c2 | bellard | } |
643 | 158142c2 | bellard | shiftCount += countLeadingZerosHigh[ a>>24 ];
|
644 | 158142c2 | bellard | return shiftCount;
|
645 | 158142c2 | bellard | |
646 | 158142c2 | bellard | } |
647 | 158142c2 | bellard | |
648 | 158142c2 | bellard | /*----------------------------------------------------------------------------
|
649 | 158142c2 | bellard | | Returns the number of leading 0 bits before the most-significant 1 bit of
|
650 | 158142c2 | bellard | | `a'. If `a' is zero, 64 is returned.
|
651 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
|
652 | 158142c2 | bellard | |
653 | 158142c2 | bellard | static int8 countLeadingZeros64( bits64 a )
|
654 | 158142c2 | bellard | { |
655 | 158142c2 | bellard | int8 shiftCount; |
656 | 158142c2 | bellard | |
657 | 158142c2 | bellard | shiftCount = 0;
|
658 | 158142c2 | bellard | if ( a < ( (bits64) 1 )<<32 ) { |
659 | 158142c2 | bellard | shiftCount += 32;
|
660 | 158142c2 | bellard | } |
661 | 158142c2 | bellard | else {
|
662 | 158142c2 | bellard | a >>= 32;
|
663 | 158142c2 | bellard | } |
664 | 158142c2 | bellard | shiftCount += countLeadingZeros32( a ); |
665 | 158142c2 | bellard | return shiftCount;
|
666 | 158142c2 | bellard | |
667 | 158142c2 | bellard | } |
668 | 158142c2 | bellard | |
669 | 158142c2 | bellard | /*----------------------------------------------------------------------------
|
670 | 158142c2 | bellard | | Returns 1 if the 128-bit value formed by concatenating `a0' and `a1'
|
671 | 158142c2 | bellard | | is equal to the 128-bit value formed by concatenating `b0' and `b1'.
|
672 | 158142c2 | bellard | | Otherwise, returns 0.
|
673 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
|
674 | 158142c2 | bellard | |
675 | 158142c2 | bellard | INLINE flag eq128( bits64 a0, bits64 a1, bits64 b0, bits64 b1 ) |
676 | 158142c2 | bellard | { |
677 | 158142c2 | bellard | |
678 | 158142c2 | bellard | return ( a0 == b0 ) && ( a1 == b1 );
|
679 | 158142c2 | bellard | |
680 | 158142c2 | bellard | } |
681 | 158142c2 | bellard | |
682 | 158142c2 | bellard | /*----------------------------------------------------------------------------
|
683 | 158142c2 | bellard | | Returns 1 if the 128-bit value formed by concatenating `a0' and `a1' is less
|
684 | 158142c2 | bellard | | than or equal to the 128-bit value formed by concatenating `b0' and `b1'.
|
685 | 158142c2 | bellard | | Otherwise, returns 0.
|
686 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
|
687 | 158142c2 | bellard | |
688 | 158142c2 | bellard | INLINE flag le128( bits64 a0, bits64 a1, bits64 b0, bits64 b1 ) |
689 | 158142c2 | bellard | { |
690 | 158142c2 | bellard | |
691 | 158142c2 | bellard | return ( a0 < b0 ) || ( ( a0 == b0 ) && ( a1 <= b1 ) );
|
692 | 158142c2 | bellard | |
693 | 158142c2 | bellard | } |
694 | 158142c2 | bellard | |
695 | 158142c2 | bellard | /*----------------------------------------------------------------------------
|
696 | 158142c2 | bellard | | Returns 1 if the 128-bit value formed by concatenating `a0' and `a1' is less
|
697 | 158142c2 | bellard | | than the 128-bit value formed by concatenating `b0' and `b1'. Otherwise,
|
698 | 158142c2 | bellard | | returns 0.
|
699 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
|
700 | 158142c2 | bellard | |
701 | 158142c2 | bellard | INLINE flag lt128( bits64 a0, bits64 a1, bits64 b0, bits64 b1 ) |
702 | 158142c2 | bellard | { |
703 | 158142c2 | bellard | |
704 | 158142c2 | bellard | return ( a0 < b0 ) || ( ( a0 == b0 ) && ( a1 < b1 ) );
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705 | 158142c2 | bellard | |
706 | 158142c2 | bellard | } |
707 | 158142c2 | bellard | |
708 | 158142c2 | bellard | /*----------------------------------------------------------------------------
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709 | 158142c2 | bellard | | Returns 1 if the 128-bit value formed by concatenating `a0' and `a1' is
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710 | 158142c2 | bellard | | not equal to the 128-bit value formed by concatenating `b0' and `b1'.
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711 | 158142c2 | bellard | | Otherwise, returns 0.
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712 | 158142c2 | bellard | *----------------------------------------------------------------------------*/
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713 | 158142c2 | bellard | |
714 | 158142c2 | bellard | INLINE flag ne128( bits64 a0, bits64 a1, bits64 b0, bits64 b1 ) |
715 | 158142c2 | bellard | { |
716 | 158142c2 | bellard | |
717 | 158142c2 | bellard | return ( a0 != b0 ) || ( a1 != b1 );
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718 | 158142c2 | bellard | |
719 | 158142c2 | bellard | } |