Daily bump.
[official-gcc.git] / libdecnumber / decUtility.c
blob83f388665addd870c5bcc7c250f1fd4b33e4e425
1 /* Utility functions for decimal floating point support via decNumber.
2 Copyright (C) 2005 Free Software Foundation, Inc.
3 Contributed by IBM Corporation. Author Mike Cowlishaw.
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify it under
8 the terms of the GNU General Public License as published by the Free
9 Software Foundation; either version 2, or (at your option) any later
10 version.
12 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
13 WARRANTY; without even the implied warranty of MERCHANTABILITY or
14 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
15 for more details.
17 You should have received a copy of the GNU General Public License
18 along with GCC; see the file COPYING. If not, write to the Free
19 Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA
20 02110-1301, USA. */
22 #include "config.h"
23 #include "decNumber.h" /* base number library */
24 #include "decNumberLocal.h" /* decNumber local types, etc. */
25 #include "decUtility.h" /* utility routines */
27 /* ================================================================== */
28 /* Shared utility routines */
29 /* ================================================================== */
31 /* define and include the conversion tables to use */
32 #define DEC_BIN2DPD 1 /* used for all sizes */
33 #if DECDPUN==3
34 #define DEC_DPD2BIN 1
35 #else
36 #define DEC_DPD2BCD 1
37 #endif
38 #include "decDPD.h" /* lookup tables */
40 /* The maximum number of decNumberUnits we need for a working copy of */
41 /* the units array is the ceiling of digits/DECDPUN, where digits is */
42 /* the maximum number of digits in any of the formats for which this */
43 /* is used. We do not want to include decimal128.h, so, as a very */
44 /* special case, that number is defined here. */
45 #define DECMAX754 34
46 #define DECMAXUNITS ((DECMAX754+DECDPUN-1)/DECDPUN)
48 /* ------------------------------------------------------------------ */
49 /* decDensePackCoeff -- densely pack coefficient into DPD form */
50 /* */
51 /* dn is the source number (assumed valid, max DECMAX754 digits) */
52 /* bytes is the target's byte array */
53 /* len is length of target format's byte array */
54 /* shift is the number of 0 digits to add on the right (normally 0) */
55 /* */
56 /* The coefficient must be known small enough to fit, and is filled */
57 /* in from the right (least significant first). Note that the full */
58 /* coefficient is copied, including the leading 'odd' digit. This */
59 /* digit is retrieved and packed into the combination field by the */
60 /* caller. */
61 /* */
62 /* shift is used for 'fold-down' padding. */
63 /* */
64 /* No error is possible. */
65 /* ------------------------------------------------------------------ */
66 void
67 decDensePackCoeff (const decNumber * dn, uByte * bytes, Int len, Int shift)
69 Int cut; /* work */
70 Int n; /* output bunch counter */
71 Int digits = dn->digits; /* digit countdown */
72 uInt dpd; /* densely packed decimal value */
73 uInt bin; /* binary value 0-999 */
74 uByte *bout; /* -> current output byte */
75 const Unit *inu = dn->lsu; /* -> current input unit */
76 Unit uar[DECMAXUNITS]; /* working copy of units, iff shifted */
77 #if DECDPUN!=3 /* not fast path */
78 Unit in; /* current input unit */
79 #endif
81 if (shift != 0)
82 { /* shift towards most significant required */
83 /* shift the units array to the left by pad digits and copy */
84 /* [this code is a special case of decShiftToMost, which could */
85 /* be used instead if exposed and the array were copied first] */
86 Unit *target, *first; /* work */
87 const Unit *source; /* work */
88 uInt next = 0; /* work */
90 source = dn->lsu + D2U (digits) - 1; /* where msu comes from */
91 first = uar + D2U (digits + shift) - 1; /* where msu will end up */
92 target = uar + D2U (digits) - 1 + D2U (shift); /* where upper part of first cut goes */
94 cut = (DECDPUN - shift % DECDPUN) % DECDPUN;
95 for (; source >= dn->lsu; source--, target--)
97 /* split the source Unit and accumulate remainder for next */
98 uInt rem = *source % powers[cut];
99 next += *source / powers[cut];
100 if (target <= first)
101 *target = (Unit) next; /* write to target iff valid */
102 next = rem * powers[DECDPUN - cut]; /* save remainder for next Unit */
104 /* propagate remainder to one below and clear the rest */
105 for (; target >= uar; target--)
107 *target = (Unit) next;
108 next = 0;
110 digits += shift; /* add count (shift) of zeros added */
111 inu = uar; /* use units in working array */
114 /* densely pack the coefficient into the byte array, starting from
115 the right (optionally padded) */
116 bout = &bytes[len - 1]; /* rightmost result byte for phase */
118 #if DECDPUN!=3 /* not fast path */
119 in = *inu; /* prime */
120 cut = 0; /* at lowest digit */
121 bin = 0; /* [keep compiler quiet] */
122 #endif
124 for (n = 0; digits > 0; n++)
125 { /* each output bunch */
126 #if DECDPUN==3 /* fast path, 3-at-a-time */
127 bin = *inu; /* 3 ready for convert */
128 digits -= 3; /* [may go negative] */
129 inu++; /* may need another */
131 #else /* must collect digit-by-digit */
132 Unit dig; /* current digit */
133 Int j; /* digit-in-bunch count */
134 for (j = 0; j < 3; j++)
136 #if DECDPUN<=4
137 Unit temp = (Unit) ((uInt) (in * 6554) >> 16);
138 dig = (Unit) (in - X10 (temp));
139 in = temp;
140 #else
141 dig = in % 10;
142 in = in / 10;
143 #endif
145 if (j == 0)
146 bin = dig;
147 else if (j == 1)
148 bin += X10 (dig);
149 else /* j==2 */
150 bin += X100 (dig);
152 digits--;
153 if (digits == 0)
154 break; /* [also protects *inu below] */
155 cut++;
156 if (cut == DECDPUN)
158 inu++;
159 in = *inu;
160 cut = 0;
163 #endif
164 /* here we have 3 digits in bin, or have used all input digits */
166 dpd = BIN2DPD[bin];
168 /* write bunch (bcd) to byte array */
169 switch (n & 0x03)
170 { /* phase 0-3 */
171 case 0:
172 *bout = (uByte) dpd; /* [top 2 bits truncated] */
173 bout--;
174 *bout = (uByte) (dpd >> 8);
175 break;
176 case 1:
177 *bout |= (uByte) (dpd << 2);
178 bout--;
179 *bout = (uByte) (dpd >> 6);
180 break;
181 case 2:
182 *bout |= (uByte) (dpd << 4);
183 bout--;
184 *bout = (uByte) (dpd >> 4);
185 break;
186 case 3:
187 *bout |= (uByte) (dpd << 6);
188 bout--;
189 *bout = (uByte) (dpd >> 2);
190 bout--;
191 break;
192 } /* switch */
193 } /* n bunches */
194 return;
197 /* ------------------------------------------------------------------ */
198 /* decDenseUnpackCoeff -- unpack a format's coefficient */
199 /* */
200 /* byte is the source's byte array */
201 /* len is length of the source's byte array */
202 /* dn is the target number, with 7, 16, or 34-digit space. */
203 /* bunches is the count of DPD groups in the decNumber (2, 5, or 11)*/
204 /* odd is 1 if there is a non-zero leading 10-bit group containing */
205 /* a single digit, 0 otherwise */
206 /* */
207 /* (This routine works on a copy of the number, if necessary, where */
208 /* an extra 10-bit group is prefixed to the coefficient continuation */
209 /* to hold the most significant digit if the latter is non-0.) */
210 /* */
211 /* dn->digits is set, but not the sign or exponent. */
212 /* No error is possible [the redundant 888 codes are allowed]. */
213 /* ------------------------------------------------------------------ */
214 void
215 decDenseUnpackCoeff (const uByte * bytes, Int len, decNumber * dn,
216 Int bunches, Int odd)
218 uInt dpd = 0; /* collector for 10 bits */
219 Int n; /* counter */
220 const uByte *bin; /* -> current input byte */
221 Unit *uout = dn->lsu; /* -> current output unit */
222 Unit out = 0; /* accumulator */
223 Int cut = 0; /* power of ten in current unit */
224 Unit *last = uout; /* will be unit containing msd */
225 #if DECDPUN!=3
226 uInt bcd; /* BCD result */
227 uInt nibble; /* work */
228 #endif
230 /* Expand the densely-packed integer, right to left */
231 bin = &bytes[len - 1]; /* next input byte to use */
232 for (n = 0; n < bunches + odd; n++)
233 { /* N bunches of 10 bits */
234 /* assemble the 10 bits */
235 switch (n & 0x03)
236 { /* phase 0-3 */
237 case 0:
238 dpd = *bin;
239 bin--;
240 dpd |= (*bin & 0x03) << 8;
241 break;
242 case 1:
243 dpd = (unsigned) *bin >> 2;
244 bin--;
245 dpd |= (*bin & 0x0F) << 6;
246 break;
247 case 2:
248 dpd = (unsigned) *bin >> 4;
249 bin--;
250 dpd |= (*bin & 0x3F) << 4;
251 break;
252 case 3:
253 dpd = (unsigned) *bin >> 6;
254 bin--;
255 dpd |= (*bin) << 2;
256 bin--;
257 break;
258 } /*switch */
260 #if DECDPUN==3
261 if (dpd == 0)
262 *uout = 0;
263 else
265 *uout = DPD2BIN[dpd]; /* convert 10 bits to binary 0-999 */
266 last = uout; /* record most significant unit */
268 uout++;
270 #else /* DECDPUN!=3 */
271 if (dpd == 0)
272 { /* fastpath [e.g., leading zeros] */
273 cut += 3;
274 for (; cut >= DECDPUN;)
276 cut -= DECDPUN;
277 *uout = out;
278 uout++;
279 out = 0;
281 continue;
283 bcd = DPD2BCD[dpd]; /* convert 10 bits to 12 bits BCD */
284 /* now split the 3 BCD nibbles into bytes, and accumulate into units */
285 /* If this is the last bunch and it is an odd one, we only have one */
286 /* nibble to handle [extras could overflow a Unit] */
287 nibble = bcd & 0x000f;
288 if (nibble)
290 last = uout;
291 out = (Unit) (out + nibble * powers[cut]);
293 cut++;
294 if (cut == DECDPUN)
296 *uout = out;
297 uout++;
298 cut = 0;
299 out = 0;
301 if (n < bunches)
303 nibble = bcd & 0x00f0;
304 if (nibble)
306 nibble >>= 4;
307 last = uout;
308 out = (Unit) (out + nibble * powers[cut]);
310 cut++;
311 if (cut == DECDPUN)
313 *uout = out;
314 uout++;
315 cut = 0;
316 out = 0;
318 nibble = bcd & 0x0f00;
319 if (nibble)
321 nibble >>= 8;
322 last = uout;
323 out = (Unit) (out + nibble * powers[cut]);
325 cut++;
326 if (cut == DECDPUN)
328 *uout = out;
329 uout++;
330 cut = 0;
331 out = 0;
334 #endif
335 } /* n */
336 if (cut != 0)
337 *uout = out; /* write out final unit */
339 /* here, last points to the most significant unit with digits */
340 /* we need to inspect it to get final digits count */
341 dn->digits = (last - dn->lsu) * DECDPUN; /* floor of digits */
342 for (cut = 0; cut < DECDPUN; cut++)
344 if (*last < powers[cut])
345 break;
346 dn->digits++;
348 if (dn->digits == 0)
349 dn->digits++; /* zero has one digit */
350 return;