add dxtn support library api for runtime s3tc
[AROS.git] / test / mathtest.c
blob5fb776075f572fea282ab0889d1786f42a33fcd1
1 /*
2 Copyright © 1995-2014, The AROS Development Team. All rights reserved.
3 $Id$
4 */
6 #include <string.h>
8 #include <aros/asmcall.h>
10 #include <proto/alib.h>
12 #include <proto/exec.h>
13 #include <proto/aros.h>
14 #include <proto/dos.h>
16 double X_Mul(double x, double y)
18 if (x==x) return x*y;
19 return x*y;
22 /* to avoid casts these two lines are absolutely necessary!! */
23 #define float LONG
25 #include <proto/mathffp.h>
26 #include <proto/mathtrans.h>
27 #include <proto/mathieeesingbas.h>
28 #include <proto/mathieeesingtrans.h>
29 #include <proto/mathieeedoubbas.h>
30 #include <proto/mathieeedoubtrans.h>
32 #include <exec/types.h>
34 struct Library * MathBase;
35 struct Library * MathTransBase;
36 struct Library * MathIeeeSingBasBase;
37 struct Library * MathIeeeSingTransBase;
38 struct Library * MathIeeeDoubBasBase;
39 struct Library * MathIeeeDoubTransBase;
41 #ifdef __mc68000
42 /* For compatability with AOS, our test reference,
43 * use this SPrintf()
45 static AROS_UFH2(VOID, _SPutC,
46 AROS_UFHA(BYTE, c, D0),
47 AROS_UFHA(BYTE **, ptr, A3))
49 AROS_USERFUNC_INIT
51 if (c != 0)
52 Write(Output(),&c,1);
54 AROS_USERFUNC_EXIT
57 #undef Printf
58 VOID Printf( const char *format, ...)
60 RawDoFmt( format, (APTR)&(((ULONG *)&format)[1]), _SPutC, NULL);
62 #endif
64 int main(int argc, char **argv)
66 LONG tested = 0, passed = 0;
67 float FFPOne, FFPTwo, FFPOnehalf, FFPMinusOne, FFPNull;
68 float SPOne, SPTwo, SPOnehalf;
69 float float_res;
70 LONG * float_resptr = (LONG *)&float_res;
71 LONG * ptr;
72 LONG wanted;
73 double double_res, double_res2;
74 double * Darg1;
75 QUAD * double_resptr = (QUAD *)&double_res;
76 QUAD * double_resptr2 = (QUAD *)&double_res2;
77 QUAD QArg1;
79 Darg1 = (double *)&QArg1;
81 #define DEF_FFPOne 0x80000041UL
82 #define DEF_FFPTwo 0x80000042UL
83 #define DEF_FFPMinusOne 0x800000C1UL
84 #define DEF_FFPOnehalf 0x80000040UL
85 #define DEF_FFPNull 0x00000000UL
87 #define DEF_SPOne 0x3f800000UL
88 #define DEF_SPTwo 0x40000000UL
89 #define DEF_SPOnehalf 0x3f000000UL
91 #define DEF_DPOne 0x3ff0000000000000ULL
92 #define DEF_DPMinusOne 0xbff0000000000000ULL
93 #define DEF_DPTwo 0x4000000000000000ULL
94 #define DEF_DPThree 0x4008000000000000ULL
95 #define DEF_DPFour 0x4010000000000000ULL
96 #define DEF_DPTwenty 0x4034000000000000ULL
98 ptr = (LONG *)&FFPOne; *ptr = DEF_FFPOne;
99 ptr = (LONG *)&FFPTwo; *ptr = DEF_FFPTwo;
100 ptr = (LONG *)&FFPMinusOne; *ptr = DEF_FFPMinusOne;
101 ptr = (LONG *)&FFPOnehalf; *ptr = DEF_FFPOnehalf;
102 ptr = (LONG *)&FFPNull; *ptr = DEF_FFPNull;
104 ptr = (LONG *)&SPOne; *ptr = DEF_SPOne;
105 ptr = (LONG *)&SPOnehalf; *ptr = DEF_SPOnehalf;
106 ptr = (LONG *)&SPTwo; *ptr = DEF_SPTwo;
108 /* if you deactivate #define float LONG something very funny happens here:
109 Printf("two: %x <-> %x \n",*ptr,SPTwo);
110 Printf("two: %x <-> %x \n",SPTwo,*ptr);
113 #define CHECK(func, args, cres) \
114 float_res = func args; \
115 tested++; \
116 if (*float_resptr != cres) \
117 Printf ("FAIL: " #func " " #args " in line %ld " \
118 "(got=0x%08lx expected=0x%08lx)\n", \
119 __LINE__, (unsigned long)*float_resptr, (unsigned long)cres); \
120 else \
122 passed++; \
123 Printf ("OK : " #func " " #args "\n"); \
127 When using doubles or QUADs it is important to pay attention to the
128 Endianess of the processor, otherwise you'll never see what you want to see.
131 #define CHECK_DOUBLE1A(func, arg1, cres) \
132 double_res = func (arg1); \
133 tested++; \
134 if (*double_resptr != cres) \
136 if (0 != AROS_BIG_ENDIAN) \
138 Printf ("FAIL: " #func " " #arg1 " in line %ld " \
139 "(got=0x%08lx%08lx expected=0x%08lx%08lx)\n", \
140 __LINE__, \
141 (unsigned long)(((QUAD)*double_resptr) >> 32), \
142 (unsigned long)*(((LONG *)double_resptr) + 1), \
143 (unsigned long)(((QUAD)cres)>>32), (unsigned long)cres); \
145 else \
147 Printf ("(little endian) FAIL: " #func " " #arg1 " in line %ld " \
148 "(got=0x%08lx%08lx expected=0x%08lx%08lx)\n", \
149 __LINE__, \
150 (unsigned long)*(((LONG *)double_resptr) + 1), \
151 (unsigned long)*(((LONG *)double_resptr)), \
152 (unsigned long)(((QUAD)cres) >> 32), (unsigned long)cres); \
155 else \
157 passed++; \
158 Printf ("OK : " #func " " #arg1 "\n"); \
161 #define CHECK_DOUBLE1AF(func, cres) \
162 tested++; \
163 if (*double_resptr != cres) \
165 if (0 != AROS_BIG_ENDIAN) \
167 Printf ("FAIL: " #func " in line %ld " \
168 "(got=0x%08lx%08lx expected=0x%08lx%08lx)\n", \
169 __LINE__, \
170 (unsigned long)(((QUAD)*double_resptr) >> 32), \
171 (unsigned long)*(((LONG *)double_resptr) + 1), \
172 (unsigned long)(((QUAD)cres) >> 32), (unsigned long)cres); \
174 else \
176 Printf ("(little endian) FAIL: " #func " in line %ld " \
177 "(got=0x%08lx%08lx expected=0x%08lx%08lx)\n", \
178 __LINE__, \
179 (unsigned long)*(((LONG *)double_resptr) + 1), \
180 (unsigned long)*(((LONG *)double_resptr)), \
181 (unsigned long)(((QUAD)cres) >> 32), \
182 (unsigned long)cres); \
185 else { \
186 passed++; \
187 Printf ("OK : " #func "\n"); \
190 #define CHECK_DOUBLE1B(func, arg1, cres) \
191 QArg1 = arg1; \
192 double_res = func (*Darg1); \
193 tested++; \
194 if (*double_resptr != cres) \
196 if (0 != AROS_BIG_ENDIAN) \
198 Printf ("FAIL: " #func " " #arg1 " in line %ld " \
199 "(got=0x%08lx%08lx expected=0x%08lx%08lx)\n", \
200 __LINE__, \
201 (unsigned long)(((QUAD)*double_resptr) >> 32), \
202 (unsigned long)*(((LONG *)double_resptr) + 1), \
203 (unsigned long)(((QUAD)cres) >> 32), (unsigned long)cres); \
205 else \
207 Printf ("(little endian) FAIL: " #func " " #arg1 " in line %ld " \
208 "(got=0x%08lx%08lx expected=0x%08lx%08lx)\n", \
209 __LINE__, \
210 (unsigned long)*(((LONG *)double_resptr) + 1), \
211 (unsigned long)*(((LONG *)double_resptr)), \
212 (unsigned long)(((QUAD)cres) >> 32), (unsigned long)cres); \
215 else { \
216 passed++; \
217 Printf ("OK : " #func " " #arg1 "\n"); \
220 #define CHECK_DOUBLE2A(func, arg1, arg2, cres) \
221 double_res = func (arg1, arg2);\
222 double_res2 = cres; \
223 tested++; \
224 if (double_res != double_res2) \
226 if (0 != AROS_BIG_ENDIAN) \
228 Printf ("FAIL: " #func " (" #arg1 "," #arg2 ") in line %ld " \
229 "(got=0x%08lx%08lx expected=0x%08lx%08lx)\n", \
230 __LINE__, \
231 (unsigned long)(((QUAD)*double_resptr ) >> 32), \
232 (unsigned long)*(((LONG *)double_resptr ) + 1), \
233 (unsigned long)(((QUAD)*double_resptr2) >> 32), \
234 (unsigned long)*(((LONG *)double_resptr2) + 1) ); \
236 else \
238 Printf ("(little endian) FAIL: " #func " (" #arg1 "," #arg2 ") " \
239 "in line %ld (got=0x%08lx%08lx expected=0x%08lx%08lx)\n", \
240 __LINE__, \
241 (unsigned long)*(((LONG *)double_resptr ) + 1), \
242 (unsigned long)*(((LONG *)double_resptr)), \
243 (unsigned long)*(((LONG *)double_resptr2) + 1), \
244 (unsigned long)*(((LONG *)double_resptr2))); \
247 else { \
248 passed++; \
249 Printf ("OK : " #func " ( " #arg1 "," #arg2 " ) \n"); \
253 if (!(MathBase = OpenLibrary("mathffp.library", 0L)))
255 Printf ("Couldn't open mathffp.library\n");
256 return RETURN_FAIL;
259 Printf("Very basic mathffp functionality test...\n");
261 /* this should set the zero-bit*/
262 wanted = DEF_FFPNull; CHECK(SPAbs,(0),wanted);
264 wanted = DEF_FFPNull; CHECK(SPFlt,(0),wanted);
265 wanted = DEF_FFPOne; CHECK(SPFlt,(1),wanted);
266 wanted = DEF_FFPTwo; CHECK(SPFlt,(2),wanted);
267 wanted = DEF_FFPMinusOne; CHECK(SPFlt,(-1),wanted);
268 wanted = DEF_FFPTwo; CHECK(SPAdd,(FFPOne, FFPOne),wanted);
269 wanted = DEF_FFPOnehalf; CHECK(SPDiv,(FFPTwo, FFPOne),wanted);
270 wanted = DEF_FFPTwo; CHECK(SPMul,(FFPOne, FFPTwo),wanted);
272 CHECK(SPMul, (SPFlt(-1000), SPFlt(-10)), 0x9c40004e);
273 CHECK(SPDiv, (SPFlt(-10), SPFlt(-1000)), 0xc8000047);
274 CHECK(SPDiv, (SPFlt(0), SPFlt(1000)), 0);
276 /* Should also check condition codes but impossible without assembly */
277 CHECK(SPCmp, (SPFlt(10),SPFlt(15)), -1);
278 CHECK(SPCmp, (SPFlt(10),SPFlt(-15)), 1);
279 CHECK(SPCmp, (SPFlt(-10),SPFlt(-15)), 1);
280 CHECK(SPCmp, (SPFlt(-15),SPFlt(-10)), -1);
281 CHECK(SPCmp, (SPFlt(10),SPFlt(10)), 0);
282 CHECK(SPCmp, (SPFlt(-100), SPFlt(-7)), -1);
283 CHECK(SPCmp, (SPFlt(100), SPFlt(7)), 1);
284 CHECK(SPTst, (SPFlt(-1)), -1);
285 CHECK(SPTst, (SPFlt(0)), 0);
286 CHECK(SPTst, (SPFlt(1)), 1);
288 CloseLibrary(MathBase);
290 if (!(MathTransBase = OpenLibrary("mathtrans.library", 0L)))
292 Printf ("Couldn't open mathtrans.library\n");
293 return RETURN_FAIL;
296 Printf("Very basic mathtrans functionality test...\n");
298 CHECK (SPLog, (FFPTwo), 0xb1721840UL);
299 CHECK (SPLog10, (FFPTwo), 0x9a209b3fUL);
300 CHECK (SPSin, (FFPOne), 0xd76aa440UL);
301 CHECK (SPCos, (FFPOne), 0x8a514040UL);
302 CHECK (SPTan, (FFPOne), 0xc7592341UL);
303 CHECK (SPSinh, (FFPOne), 0x966cfe41UL);
304 CHECK (SPCosh, (FFPOne), 0xc583aa41UL);
305 CHECK (SPTanh, (FFPOne), 0xc2f7d640UL);
306 CHECK (SPExp, (FFPTwo), 0xec732543UL);
307 CHECK (SPAsin, (FFPOnehalf), 0x860a9240UL);
308 CHECK (SPAcos, (FFPOnehalf), 0x860a9241UL);
310 CloseLibrary(MathTransBase);
312 if (!(MathIeeeSingBasBase = OpenLibrary("mathieeesingbas.library", 0L)))
314 Printf ("Couldn't open mathieeesingbas.library\n");
315 return RETURN_FAIL;
319 if (!(MathIeeeSingTransBase = OpenLibrary("mathieeesingtrans.library", 0L)))
321 Printf ("Couldn't open mathieeesingtrans.library\n");
322 return RETURN_FAIL;
325 Printf("Very basic mathieeesingtrans functionality test...\n");
328 CHECK (IEEESPLog, (SPTwo), 0x3f317218UL);
329 CHECK (IEEESPLog10, (SPTwo), 0x3e9a209aUL);
330 CHECK (IEEESPSin, (SPOne), 0x3f576aa4UL);
331 CHECK (IEEESPCos, (SPOne), 0x3f0a5140UL);
332 CHECK (IEEESPTan, (SPOne), 0x3fc75923UL);
333 CHECK (IEEESPSinh, (SPTwo), 0x40681e7bUL);
334 CHECK (IEEESPCosh, (SPTwo), 0x4070c7d1UL);
335 CHECK (IEEESPTanh, (SPOne), 0x3f42f7d6UL);
336 CHECK (IEEESPExp, (SPTwo), 0x40ec7325UL);
337 CHECK (IEEESPAsin, (SPOnehalf), 0x3f060a92UL);
338 CHECK (IEEESPAcos, (SPOnehalf), 0x3f860a92UL);
340 CloseLibrary(MathIeeeSingTransBase);
342 if (!(MathIeeeDoubBasBase = OpenLibrary("mathieeedoubbas.library", 0L)))
344 Printf ("Couldn't open mathieeedoubbas.library\n");
345 return RETURN_FAIL;
350 CHECK_DOUBLE1A(IEEEDPFlt, ((LONG)1), DEF_DPOne);
351 CHECK_DOUBLE1A(IEEEDPFlt, ((LONG)2), DEF_DPTwo);
352 CHECK_DOUBLE1A(IEEEDPFlt, ((LONG)3), DEF_DPThree);
353 CHECK_DOUBLE1A(IEEEDPFlt, ((LONG)20), DEF_DPTwenty);
354 CHECK_DOUBLE1B(IEEEDPAbs, ((QUAD)DEF_DPMinusOne), (QUAD)DEF_DPOne);
355 CHECK_DOUBLE1B(IEEEDPNeg, ((QUAD)DEF_DPMinusOne), (QUAD)DEF_DPOne);
356 CHECK_DOUBLE2A(IEEEDPAdd, IEEEDPFlt(1), IEEEDPFlt(1), IEEEDPFlt(2));
357 CHECK_DOUBLE2A(IEEEDPAdd, IEEEDPFlt(123456), IEEEDPFlt(654321), IEEEDPFlt(777777));
358 CHECK_DOUBLE2A(IEEEDPSub, IEEEDPFlt(123456), IEEEDPFlt(654321), IEEEDPFlt(-530865));
359 CHECK_DOUBLE2A(IEEEDPMul, IEEEDPFlt(321), IEEEDPFlt(123456), IEEEDPFlt(39629376));
360 CHECK_DOUBLE2A(IEEEDPMul, IEEEDPFlt(2), IEEEDPFlt(2), IEEEDPFlt(4));
361 CHECK_DOUBLE2A(IEEEDPMul, IEEEDPFlt(20), IEEEDPFlt(20), IEEEDPFlt(400));
362 CHECK_DOUBLE2A(IEEEDPDiv, IEEEDPFlt(39629376),IEEEDPFlt(123456),IEEEDPFlt(321));
363 CHECK_DOUBLE2A(IEEEDPDiv, IEEEDPFlt(4), IEEEDPFlt(2), IEEEDPFlt(2));
364 CHECK_DOUBLE2A(IEEEDPDiv, IEEEDPFlt(400), IEEEDPFlt(20), IEEEDPFlt(20));
366 if (!(MathIeeeDoubTransBase = OpenLibrary("mathieeedoubtrans.library", 0L)))
368 Printf ("Couldn't open mathieeedoubtrans.library\n");
369 return RETURN_FAIL;
372 CHECK_DOUBLE1A(IEEEDPSqrt, ((double)IEEEDPFlt(4)), DEF_DPTwo);
373 CHECK_DOUBLE1A(IEEEDPSqrt, ((double)IEEEDPFlt(9)), DEF_DPThree);
374 CHECK_DOUBLE1A(IEEEDPCos, ((double)IEEEDPFlt(1)), 0x3fe14a280fb5068bULL);
375 CHECK_DOUBLE1A(IEEEDPSin, ((double)IEEEDPFlt(1)), 0x3feaed548f090ceeULL);
377 double_res = IEEEDPSincos(&double_res2, (double)IEEEDPFlt(1));
378 CHECK_DOUBLE1AF(IEEEDPSincos, 0x3feaed548f090ceeULL);
379 double_res = double_res2;
380 CHECK_DOUBLE1AF(IEEEDPSincos, 0x3fe14a280fb5068bULL);
382 wanted = IEEEDPTieee(IEEEDPFlt(2));
383 Printf("IEEEDPTieee(2) = %08lx\n", (LONG)wanted);
385 double_res = IEEEDPFieee(SPFlt(2));
386 CHECK_DOUBLE1AF(IEEEDPFieee, DEF_DPTwo);
388 CloseLibrary(MathIeeeDoubTransBase);
389 CloseLibrary(MathIeeeDoubBasBase);
391 Printf("Passed %ld of %ld tests\n", passed, tested);
392 return (tested == passed) ? RETURN_OK : RETURN_FAIL;