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Partially revert r20233, exp2f is not available on some BSDs, DOS and AVR32.
[FFMpeg-mirror/lagarith.git] / libavcodec / sh4 / idct_sh4.c
blob5c461e7917ece101dc206add9acabc390ece448a
1 /*
2 * idct for sh4
3 *
4 * Copyright (c) 2001-2003 BERO <bero@geocities.co.jp>
5 *
6 * This file is part of FFmpeg.
7 *
8 * FFmpeg is free software; you can redistribute it and/or
9 * modify it under the terms of the GNU Lesser General Public
10 * License as published by the Free Software Foundation; either
11 * version 2.1 of the License, or (at your option) any later version.
12 *
13 * FFmpeg is distributed in the hope that it will be useful,
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
16 * Lesser General Public License for more details.
17 *
18 * You should have received a copy of the GNU Lesser General Public
19 * License along with FFmpeg; if not, write to the Free Software
20 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
21 */
22
23 #include "libavcodec/dsputil.h"
24 #include "sh4.h"
25
26 #define c1 1.38703984532214752434 /* sqrt(2)*cos(1*pi/16) */
27 #define c2 1.30656296487637657577 /* sqrt(2)*cos(2*pi/16) */
28 #define c3 1.17587560241935884520 /* sqrt(2)*cos(3*pi/16) */
29 #define c4 1.00000000000000000000 /* sqrt(2)*cos(4*pi/16) */
30 #define c5 0.78569495838710234903 /* sqrt(2)*cos(5*pi/16) */
31 #define c6 0.54119610014619712324 /* sqrt(2)*cos(6*pi/16) */
32 #define c7 0.27589937928294311353 /* sqrt(2)*cos(7*pi/16) */
33
34 static const float even_table[] __attribute__ ((aligned(8))) = {
35 c4, c4, c4, c4,
36 c2, c6,-c6,-c2,
37 c4,-c4,-c4, c4,
38 c6,-c2, c2,-c6
39 };
40
41 static const float odd_table[] __attribute__ ((aligned(8))) = {
42 c1, c3, c5, c7,
43 c3,-c7,-c1,-c5,
44 c5,-c1, c7, c3,
45 c7,-c5, c3,-c1
46 };
47
48 #undef c1
49 #undef c2
50 #undef c3
51 #undef c4
52 #undef c5
53 #undef c6
54 #undef c7
55
56 #if 1
57
58 #define load_matrix(table) \
59 do { \
60 const float *t = table; \
61 __asm__ volatile( \
62 " fschg\n" \
63 " fmov @%0+,xd0\n" \
64 " fmov @%0+,xd2\n" \
65 " fmov @%0+,xd4\n" \
66 " fmov @%0+,xd6\n" \
67 " fmov @%0+,xd8\n" \
68 " fmov @%0+,xd10\n" \
69 " fmov @%0+,xd12\n" \
70 " fmov @%0+,xd14\n" \
71 " fschg\n" \
72 : "+r"(t) \
73 ); \
74 } while (0)
75
76 #define ftrv() \
77 __asm__ volatile("ftrv xmtrx,fv0" \
78 : "+f"(fr0),"+f"(fr1),"+f"(fr2),"+f"(fr3));
79
80 #define DEFREG \
81 register float fr0 __asm__("fr0"); \
82 register float fr1 __asm__("fr1"); \
83 register float fr2 __asm__("fr2"); \
84 register float fr3 __asm__("fr3")
85
86 #else
87
88 /* generic C code for check */
89
90 static void ftrv_(const float xf[],float fv[])
91 {
92 float f0,f1,f2,f3;
93 f0 = fv[0];
94 f1 = fv[1];
95 f2 = fv[2];
96 f3 = fv[3];
97 fv[0] = xf[0]*f0 + xf[4]*f1 + xf[ 8]*f2 + xf[12]*f3;
98 fv[1] = xf[1]*f0 + xf[5]*f1 + xf[ 9]*f2 + xf[13]*f3;
99 fv[2] = xf[2]*f0 + xf[6]*f1 + xf[10]*f2 + xf[14]*f3;
100 fv[3] = xf[3]*f0 + xf[7]*f1 + xf[11]*f2 + xf[15]*f3;
101 }
102
103 static void load_matrix_(float xf[],const float table[])
104 {
105 int i;
106 for(i=0;i<16;i++) xf[i]=table[i];
107 }
108
109 #define ftrv() ftrv_(xf,fv)
110 #define load_matrix(table) load_matrix_(xf,table)
111
112 #define DEFREG \
113 float fv[4],xf[16]
114
115 #define fr0 fv[0]
116 #define fr1 fv[1]
117 #define fr2 fv[2]
118 #define fr3 fv[3]
119
120 #endif
121
122 #if 1
123 #define DESCALE(x,n) (x)*(1.0f/(1<<(n)))
124 #else
125 #define DESCALE(x,n) (((int)(x)+(1<<(n-1)))>>(n))
126 #endif
127
128 /* this code work worse on gcc cvs. 3.2.3 work fine */
129
130
131 #if 1
132 //optimized
133
134 void idct_sh4(DCTELEM *block)
135 {
136 DEFREG;
137
138 int i;
139 float tblock[8*8],*fblock;
140 int ofs1,ofs2,ofs3;
141 int fpscr;
142
143 fp_single_enter(fpscr);
144
145 /* row */
146
147 /* even part */
148 load_matrix(even_table);
149
150 fblock = tblock+4;
151 i = 8;
152 do {
153 fr0 = block[0];
154 fr1 = block[2];
155 fr2 = block[4];
156 fr3 = block[6];
157 block+=8;
158 ftrv();
159 *--fblock = fr3;
160 *--fblock = fr2;
161 *--fblock = fr1;
162 *--fblock = fr0;
163 fblock+=8+4;
164 } while(--i);
165 block-=8*8;
166 fblock-=8*8+4;
167
168 load_matrix(odd_table);
169
170 i = 8;
171
172 do {
173 float t0,t1,t2,t3;
174 fr0 = block[1];
175 fr1 = block[3];
176 fr2 = block[5];
177 fr3 = block[7];
178 block+=8;
179 ftrv();
180 t0 = *fblock++;
181 t1 = *fblock++;
182 t2 = *fblock++;
183 t3 = *fblock++;
184 fblock+=4;
185 *--fblock = t0 - fr0;
186 *--fblock = t1 - fr1;
187 *--fblock = t2 - fr2;
188 *--fblock = t3 - fr3;
189 *--fblock = t3 + fr3;
190 *--fblock = t2 + fr2;
191 *--fblock = t1 + fr1;
192 *--fblock = t0 + fr0;
193 fblock+=8;
194 } while(--i);
195 block-=8*8;
196 fblock-=8*8;
197
198 /* col */
199
200 /* even part */
201 load_matrix(even_table);
202
203 ofs1 = sizeof(float)*2*8;
204 ofs2 = sizeof(float)*4*8;
205 ofs3 = sizeof(float)*6*8;
206
207 i = 8;
208
209 #define OA(fblock,ofs) *(float*)((char*)fblock + ofs)
210
211 do {
212 fr0 = OA(fblock, 0);
213 fr1 = OA(fblock,ofs1);
214 fr2 = OA(fblock,ofs2);
215 fr3 = OA(fblock,ofs3);
216 ftrv();
217 OA(fblock,0 ) = fr0;
218 OA(fblock,ofs1) = fr1;
219 OA(fblock,ofs2) = fr2;
220 OA(fblock,ofs3) = fr3;
221 fblock++;
222 } while(--i);
223 fblock-=8;
224
225 load_matrix(odd_table);
226
227 i=8;
228 do {
229 float t0,t1,t2,t3;
230 t0 = OA(fblock, 0); /* [8*0] */
231 t1 = OA(fblock,ofs1); /* [8*2] */
232 t2 = OA(fblock,ofs2); /* [8*4] */
233 t3 = OA(fblock,ofs3); /* [8*6] */
234 fblock+=8;
235 fr0 = OA(fblock, 0); /* [8*1] */
236 fr1 = OA(fblock,ofs1); /* [8*3] */
237 fr2 = OA(fblock,ofs2); /* [8*5] */
238 fr3 = OA(fblock,ofs3); /* [8*7] */
239 fblock+=-8+1;
240 ftrv();
241 block[8*0] = DESCALE(t0 + fr0,3);
242 block[8*7] = DESCALE(t0 - fr0,3);
243 block[8*1] = DESCALE(t1 + fr1,3);
244 block[8*6] = DESCALE(t1 - fr1,3);
245 block[8*2] = DESCALE(t2 + fr2,3);
246 block[8*5] = DESCALE(t2 - fr2,3);
247 block[8*3] = DESCALE(t3 + fr3,3);
248 block[8*4] = DESCALE(t3 - fr3,3);
249 block++;
250 } while(--i);
251
252 fp_single_leave(fpscr);
253 }
254 #else
255 void idct_sh4(DCTELEM *block)
256 {
257 DEFREG;
258
259 int i;
260 float tblock[8*8],*fblock;
261
262 /* row */
263
264 /* even part */
265 load_matrix(even_table);
266
267 fblock = tblock;
268 i = 8;
269 do {
270 fr0 = block[0];
271 fr1 = block[2];
272 fr2 = block[4];
273 fr3 = block[6];
274 block+=8;
275 ftrv();
276 fblock[0] = fr0;
277 fblock[2] = fr1;
278 fblock[4] = fr2;
279 fblock[6] = fr3;
280 fblock+=8;
281 } while(--i);
282 block-=8*8;
283 fblock-=8*8;
284
285 load_matrix(odd_table);
286
287 i = 8;
288
289 do {
290 float t0,t1,t2,t3;
291 fr0 = block[1];
292 fr1 = block[3];
293 fr2 = block[5];
294 fr3 = block[7];
295 block+=8;
296 ftrv();
297 t0 = fblock[0];
298 t1 = fblock[2];
299 t2 = fblock[4];
300 t3 = fblock[6];
301 fblock[0] = t0 + fr0;
302 fblock[7] = t0 - fr0;
303 fblock[1] = t1 + fr1;
304 fblock[6] = t1 - fr1;
305 fblock[2] = t2 + fr2;
306 fblock[5] = t2 - fr2;
307 fblock[3] = t3 + fr3;
308 fblock[4] = t3 - fr3;
309 fblock+=8;
310 } while(--i);
311 block-=8*8;
312 fblock-=8*8;
313
314 /* col */
315
316 /* even part */
317 load_matrix(even_table);
318
319 i = 8;
320
321 do {
322 fr0 = fblock[8*0];
323 fr1 = fblock[8*2];
324 fr2 = fblock[8*4];
325 fr3 = fblock[8*6];
326 ftrv();
327 fblock[8*0] = fr0;
328 fblock[8*2] = fr1;
329 fblock[8*4] = fr2;
330 fblock[8*6] = fr3;
331 fblock++;
332 } while(--i);
333 fblock-=8;
334
335 load_matrix(odd_table);
336
337 i=8;
338 do {
339 float t0,t1,t2,t3;
340 fr0 = fblock[8*1];
341 fr1 = fblock[8*3];
342 fr2 = fblock[8*5];
343 fr3 = fblock[8*7];
344 ftrv();
345 t0 = fblock[8*0];
346 t1 = fblock[8*2];
347 t2 = fblock[8*4];
348 t3 = fblock[8*6];
349 fblock++;
350 block[8*0] = DESCALE(t0 + fr0,3);
351 block[8*7] = DESCALE(t0 - fr0,3);
352 block[8*1] = DESCALE(t1 + fr1,3);
353 block[8*6] = DESCALE(t1 - fr1,3);
354 block[8*2] = DESCALE(t2 + fr2,3);
355 block[8*5] = DESCALE(t2 - fr2,3);
356 block[8*3] = DESCALE(t3 + fr3,3);
357 block[8*4] = DESCALE(t3 - fr3,3);
358 block++;
359 } while(--i);
360 }
361 #endif
ffmpeg Lagarith lossless decoder