OpenCores
URL https://opencores.org/ocsvn/forwardcom/forwardcom/trunk

Subversion Repositories forwardcom

[/] [forwardcom/] [testsuite/] [tests_bool_bit.as] - Blame information for rev 161

Details | Compare with Previous | View Log

Line No. Rev Author Line
1 161 Agner 
/**************************  tests_bool_bit.as  *******************************
2 
* Author:        Agner Fog
3 
* date created:  2021-06-27
4 
* last modified: 2021-07-20
5 
* Version:       1.11
6 
* Project:       ForwardCom Test suite, assembly code
7 
* Description:   Test boolean and bit manipulation instructions with general
8 
*                purpose registers
9 
*
10 
* This test program will test boolean and bit manipulation instructions and
11 
* output a list of which instructions are working for int8, int16, int32,
12 
* and int64 operands.
13 
*
14 
* Copyright 2021 GNU General Public License v. 3 http://www.gnu.org/licenses
15 
******************************************************************************/
16 
 
17 
// Library functions in libc_light.li
18 
extern _puts:     function reguse=3,0            // write string + linefeed to stdout
19 
extern _printf:   function reguse=0xF,0          // write formatted string to stdout
20 
 
21 
const section read ip                            // read-only data section
22 
// Text strings:
23 
 
24 
text1: int8 "\nForwardCom test suite\nTest general purpose register bit manipulation instructions"  // intro text,
25 
       int8 "\nPress Run to continue"
26 
       int8 "\n                      int8   int16  int32  int64", 0                                 // and heading
27 
newline: int8 "\n", 0                                                                               // newline
28 
press_run: int8 "\nPress Run to continue", 0
29 
 
30 
format1: int8 "\n%-22s%3c%7c%7c%7c", 0           // format string for printing results
31 
 
32 
// text strings for each instruction:
33 
text_and: int8 "and", 0
34 
text_or:  int8 "or", 0
35 
text_xor: int8 "xor", 0
36 
 
37 
text_shift_left: int8 "shift left", 0
38 
text_shift_right_signed: int8 "shift right signed", 0
39 
text_shift_right_unsigned: int8 "shift right unsigned", 0
40 
text_funnel_shift: int8 "funnel shift", 0
41 
text_rotate: int8 "rotate", 0
42 
 
43 
text_clear_bit: int8 "clear_bit", 0
44 
text_set_bit: int8 "set_bit", 0
45 
text_toggle_bit: int8 "toggle_bit", 0
46 
 
47 
text_test_bit: int8 "test_bit", 0
48 
text_test_bits_and: int8 "test_bits_and", 0
49 
text_test_bits_or: int8 "test_bits_or", 0
50 
text_compare: int8 "compare", 0
51 
 
52 
text_bitscan: int8 "bitscan", 0
53 
text_roundp2: int8 "roundp2", 0
54 
text_popcount: int8 "popcount", 0
55 
text_truthtab3: int8 "truth_tab3", 0
56 
 
57 
text_move_high: int8 "move high", 0
58 
text_insert_high: int8 "insert high", 0
59 
text_move_bits: int8 "move_bits", 0
60 
 
61 
const end
62 
 
63 
 
64 
code section execute                             // code section
65 
 
66 
__entry_point function public
67 
_main function public
68 
 
69 
/* register use:
70 
r0:  bits indicating success for int8, int16, int32, int64
71 
r1:  operand
72 
r2:  operand
73 
r3:  result
74 
r4:  scratch
75 
r6:  int64 supported
76 
*/
77 
 
78 
// print intro text and heading
79 
int64  r0 = address [text1]                      // calculate address of string
80 
call   _puts                                     // call puts. parameter is in r0
81 
 
82 
breakpoint                                       // debug breakpoint
83 
 
84 
int    r1 = 1
85 
int    capab2 = write_capabilities(r1, 0)        // disable error trap for unknown instructions
86 
 
87 
// arbitrary test data
88 
% A = 0x12345555
89 
% B = 0x5678CEFC
90 
% C = 0xABCDF0F0
91 
 
92 
 
93 
// Test and
94 
 
95 
int32  r1 = A
96 
int32  r2 = B
97 
 
98 
int8   r3 = r1 & r2                              // int8 and
99 
int32  r0 = r3 == (A & B & 0xFF)                 // check result, set bit 0 if success
100 
 
101 
int16  r3 = r1 & r2                              // int16 and
102 
int32  r4 = r3 == (A & B & 0xFFFF)               // check result
103 
int32  r0 |= 2, mask = r4                        // set bit 1 if success
104 
 
105 
int32  r3 = r1 & r2                              // int32 and
106 
int32  r4 = r3 == (A & B)                         // check result
107 
int32  r0 |= 4, mask = r4                        // set bit 2 if success
108 
 
109 
int64  r1 <<= 32
110 
int64  r2 <<= 32
111 
int64  r1 |= 0x12345
112 
int64  r2 |= C
113 
 
114 
int64  r3 = r1 & r2                              // 64 bit and
115 
int32  r4 = r3 == (0x12345 & C)                  // check lower half of result
116 
uint64 r3 >>= 32                                 // shift down upper half
117 
int64  r6 = r3 == (A & B) && r4                  // check upper half of result
118 
int32  r0 |= 8, mask = r6                        // set bit 2 if success
119 
 
120 
int64  r1 = address [text_and]
121 
call   print_result
122 
 
123 
 
124 
// Test or
125 
 
126 
int32  r1 = A
127 
int32  r2 = B
128 
 
129 
int8   r3 = r1 | r2                              // int8 or
130 
int32  r0 = r3 == ((A | B) & 0xFF)               // check result, set bit 0 if success
131 
 
132 
int16  r3 = r1 | r2                              // int16 or
133 
int32  r4 = r3 == ((A | B) & 0xFFFF)             // check result
134 
int32  r0 |= 2, mask = r4                        // set bit 1 if success
135 
 
136 
int32  r3 = r1 | r2                              // int32 or
137 
int32  r4 = r3 == (A | B)                        // check result
138 
int32  r0 |= 4, mask = r4                        // set bit 2 if success
139 
 
140 
int64  r1 <<= 32
141 
int64  r2 <<= 32
142 
int64  r1 |= 0x12345
143 
int64  r2 |= C
144 
 
145 
int64  r3 = r1 | r2                              // 64 bit or
146 
int32  r4 = r3 == (0x12345 | C)                  // check lower half of result
147 
uint64 r3 >>= 32                                 // shift down upper half
148 
int64  r6 = r3 == (A | B) && r4                  // check upper half of result
149 
int32  r0 |= 8, mask = r6                        // set bit 2 if success
150 
 
151 
int64  r1 = address [text_or]
152 
call   print_result
153 
 
154 
 
155 
// Test xor
156 
 
157 
int32  r1 = A
158 
int32  r2 = B
159 
 
160 
int8   r3 = r1 ^ r2                              // int8 xor
161 
int32  r0 = r3 == ((A ^ B) & 0xFF)               // check result, set bit 0 if success
162 
 
163 
int16  r3 = r1 ^ r2                              // int16 xor
164 
int32  r4 = r3 == ((A ^ B) & 0xFFFF)             // check result
165 
int32  r0 |= 2, mask = r4                        // set bit 1 if success
166 
 
167 
int32  r3 = r1 ^ r2                              // int32 xor
168 
int32  r4 = r3 == (A ^ B)                        // check result
169 
int32  r0 |= 4, mask = r4                        // set bit 2 if success
170 
 
171 
int64  r1 <<= 32
172 
int64  r2 <<= 32
173 
int64  r1 |= 0x12345
174 
int64  r2 |= C
175 
 
176 
int64  r3 = r1 ^ r2                              // 64 bit xor
177 
int32  r4 = r3 == (0x12345 ^ C)                  // check lower half of result
178 
uint64 r3 >>= 32                                 // shift down upper half
179 
int64  r6 = r3 == (A ^ B) && r4                  // check upper half of result
180 
int32  r0 |= 8, mask = r6                        // set bit 2 if success
181 
 
182 
int64  r1 = address [text_xor]
183 
call   print_result
184 
 
185 
 
186 
// Test shift left
187 
 
188 
int32  r1 = A
189 
 
190 
int8   r3 = r1 << 3                              // int8 shift
191 
int32  r0 = r3 == (A << 3 & 0xFF)                // check result, set bit 0 if success
192 
int8   r3 = r1 << 0                              // int8 shift
193 
int    r0 = r3 == (A & 0xFF) && r0
194 
 
195 
int16  r3 = r1 << 12                             // int16 shift
196 
int32  r4 = r3 == (A << 12 & 0xFFFF)             // check result, set bit 0 if success
197 
int16  r3 = r1 << -1                             // int16 shift overflow
198 
int    r4 = (r3 == 0) && r4
199 
int32  r0 |= 2, mask = r4                        // set bit 1 if success
200 
 
201 
int    r2 = 18
202 
int32  r3 = r1 << r2                             // int32 shift
203 
int32  r4 = r3 == (A << 18 & 0xFFFFFFFF)         // check result, set bit 0 if success
204 
int32  r3 = r1 << 1                              // int32 shift
205 
int32  r4 = (r3 == (A << 1 & 0xFFFFFFFF)) && r4
206 
int32  r0 |= 4, mask = r4                        // set bit 2 if success
207 
 
208 
int64  r3 = r1 << 36                             // int64 shift
209 
int64  r4 = A << 36
210 
int64  r4 = r3 == r4
211 
uint64 r3 >>= 36
212 
int32  r4 = r3 == (A & 0x0FFFFFFF) && r4
213 
int32  r0 |= 8, mask = r4                        // set bit 3 if success
214 
 
215 
int64  r1 = address [text_shift_left]
216 
call   print_result
217 
 
218 
 
219 
// Test shift right signed
220 
 
221 
shiftrightsigned:
222 
int32  r1 = A
223 
 
224 
%A1 = 0xA3
225 
int8   r3 = r1 >> 3                              // int8 shift
226 
int32  r0 = r3 == (A & 0xFF) >> 3                // check result, set bit 0 if success
227 
int8   r3 = r1 >> 0                              // int8 shift
228 
int    r0 = r3 == (A & 0xFF) && r0
229 
int    r2 = A1                                   // negative number
230 
int8   r3 = r2 >> 3                              // int8 shift
231 
int32  r0 = r3 == (A1 >> 3 | 0xE0) && r0         // check result, set bit 0 if success
232 
 
233 
%A2 = 0xBC62
234 
int16  r3 = r1 >> 9                              // int16 shift
235 
int32  r4 = r3 == (A & 0xFFFF) >> 9              // check result, set bit 0 if success
236 
int16  r3 = r1 >> 70                             // int16 shift overflow
237 
int    r4 = (r3 == 0) && r4
238 
int    r2 = A2
239 
int16  r3 = r2 >> 3
240 
int32  r4 = r3 == (A2 >> 3 | 0xE000) && r4       // check result, set bit 0 if success
241 
int32  r0 |= 2, mask = r4                        // set bit 1 if success
242 
 
243 
%A3 = 0x81ABCD25
244 
int32  r1 = A3
245 
int    r2 = 18
246 
int32  r3 = r1 >> r2                             // int32 shift
247 
uint32 r4 = r3 == (A3 >> 18 & 0xFFFFFFFF | 0xFFFFC000)   // check result, set bit 0 if success
248 
int32  r3 = r1 >> 33                             // overflow of signed shift
249 
int32  r4 = (r3 == -1) && r4
250 
int32  r0 |= 4, mask = r4                        // set bit 2 if success
251 
 
252 
%A4 = 0x81ABCD2512345678
253 
int64  r1 = A4
254 
int64  r3 = r1 >> 35                             // int64 shift
255 
int64  r4 = A4 >> 35
256 
int64  r4 = r3 == r4
257 
int32  r0 |= 8, mask = r4                        // set bit 3 if success
258 
 
259 
int64  r1 = address [text_shift_right_signed]
260 
call   print_result
261 
 
262 
 
263 
// Test shift right unsigned
264 
 
265 
int32  r1 = A
266 
 
267 
%A1 = 0xA3
268 
uint8  r3 = r1 >> 3                              // int8 shift
269 
int32  r0 = r3 == (A & 0xFF) >> 3                // check result, set bit 0 if success
270 
uint8  r3 = r1 >> 0                              // int8 shift
271 
int    r0 = r3 == (A & 0xFF) && r0
272 
int    r2 = A1                                   // negative number
273 
uint8  r3 = r2 >> 3                              // int8 shift
274 
int32  r0 = r3 == A1 >> 3 && r0                  // check result, set bit 0 if success
275 
 
276 
%A2 = 0xBC62
277 
uint16 r3 = r1 >> 9                              // int16 shift
278 
int32  r4 = r3 == (A & 0xFFFF) >> 9              // check result, set bit 0 if success
279 
uint16 r3 = r1 >> 70                             // int16 shift overflow
280 
int    r4 = (r3 == 0) && r4
281 
int    r2 = A2
282 
uint16 r3 = r2 >> 3
283 
int32  r4 = r3 == A2 >> 3 && r4                  // check result, set bit 0 if success
284 
int32  r0 |= 2, mask = r4                        // set bit 1 if success
285 
 
286 
%A3 = 0x81ABCD25
287 
int32  r1 = A3
288 
int    r2 = 18
289 
uint32 r3 = r1 >> r2                             // int32 shift
290 
uint32 r4 = r3 == (A3 >> 18 & 0xFFFFFFFF)        // check result, set bit 0 if success
291 
uint32 r3 = r1 >> 33                             // overflow of unsigned shift
292 
int32  r4 = (r3 == 0) && r4
293 
int32  r0 |= 4, mask = r4                        // set bit 2 if success
294 
 
295 
%A4 = 0x81ABCD2512345678
296 
int64  r1 = A4
297 
uint64 r3 = r1 >> 35                             // int64 shift
298 
int64  r4 = A4 >>> 35
299 
int64  r4 = r3 == r4
300 
int32  r0 |= 8, mask = r4                        // set bit 3 if success
301 
 
302 
int64  r1 = address [text_shift_right_unsigned]
303 
call   print_result
304 
 
305 
 
306 
// Test funnel shift
307 
int    r1 = A
308 
int    r2 = B
309 
 
310 
int8   r3 = funnel_shift(r1, r2, 5)              // int8 shift
311 
int    r0 = r3 == ((A & 0xFF) >> 5 | (B << 3 & 0xFF)) // check result, set bit 0 if success
312 
int8   r3 = funnel_shift(r1, r2, 0)              // int8 shift
313 
int    r0 = r3 == (A & 0xFF) && r0
314 
int8   r3 = funnel_shift(r1, r2, 8)              // int8 shift
315 
int    r0 = r3 == 0 && r0
316 
 
317 
int16  r3 = funnel_shift(r1, r2, 10)             // int16 shift
318 
int    r4 = r3 == ((A & 0xFFFF) >> 10 | (B << 6 & 0xFFFF)) // check result, set bit 0 if success
319 
int32  r0 |= 2, mask = r4                        // set bit 1 if success
320 
 
321 
int32  r3 = funnel_shift(r1, r2, 21)             // int32 shift
322 
int64  r4 = r3 == ((A & 0xFFFFFFFF) >> 21 | (B << 11 & 0xFFFFFFFF)) // check result, set bit 0 if success
323 
int32  r0 |= 4, mask = r4                        // set bit 2 if success
324 
 
325 
int64  r3 = funnel_shift(r1, r2, 50)             // int64 shift
326 
int64  r4 = r3 == (A >> 50 | B << 14)            // check result, set bit 0 if success
327 
int32  r0 |= 8, mask = r4                        // set bit 3 if success
328 
 
329 
int64  r1 = address [text_funnel_shift]
330 
call   print_result
331 
 
332 
 
333 
// Test rotate
334 
int    r1 = B
335 
int8   r3 = rotate(r1, 2)                        // int8 rotate
336 
int    r0 = r3 == ((B << 2 & 0xFF) | (B & 0xFF) >> 6)
337 
int8   r3 = rotate(r1, 0)                        // int8 rotate
338 
int    r0 = r3 == (B & 0xFF) && r0
339 
int    r2 = 0x1234
340 
int8   r3 = rotate(r1, r2)                       // int8 rotate
341 
int    r0 = r3 == ((B << 4 & 0xFF) | (B & 0xFF) >> 4) && r0
342 
 
343 
int16  r3 = rotate(r1, 0xabcd)                   // int16 rotate
344 
int    r4 = r3 == ((B << 13 & 0xFFFF) | (B & 0xFFFF) >> 3)
345 
int32  r0 |= 2, mask = r4                        // set bit 1 if success
346 
 
347 
int32  r3 = rotate(r1, -21)                      // int32 rotate
348 
int64  r4 = r3 == ((B << 11 & 0xFFFFFFFF) | (B & 0xFFFFFFFF) >> 21)
349 
int32  r0 |= 4, mask = r4                        // set bit 2 if success
350 
 
351 
int64  r3 = rotate(r1, 34)                       // int64 rotate
352 
int64  r4 = r3 == ((B << 34) | (B >> 30))
353 
int32  r0 |= 8, mask = r4                        // set bit 3 if success
354 
 
355 
int64  r1 = address [text_rotate]
356 
call   print_result
357 
 
358 
 
359 
// Test clear bit
360 
int64  r1 = -1
361 
int8   r3 = clear_bit(r1, 2)                     // int8 clear_bit
362 
int    r0 = r3 == 0xFB
363 
 
364 
int16  r3 = clear_bit(r1, 8)                     // int16 clear_bit
365 
int    r4 = r3 == 0xFEFF
366 
int32  r0 |= 2, mask = r4                        // set bit 1 if success
367 
 
368 
int32  r3 = r1 & ~ (1 << 30)
369 
int32  r3 = clear_bit(r3, 31)                    // int32 clear_bit
370 
int32  r4 = r3 == 0x3FFFFFFF
371 
int32  r0 |= 4, mask = r4                        // set bit 2 if success
372 
 
373 
int64  r3 = clear_bit(r1, 41)                    // int64 clear_bit
374 
int64  r3 = clear_bit(r3, 41)                    // int64 clear_bit
375 
uint64 r3 >>= 32
376 
int32  r4 = r3 == 0xFFFFFDFF
377 
int32  r0 |= 8, mask = r4                        // set bit 3 if success
378 
 
379 
int64  r1 = address [text_clear_bit]
380 
call   print_result
381 
 
382 
 
383 
// Test set bit
384 
int64  r1 = 0
385 
int8   r3 = set_bit(r1, 2)                     // int8 set_bit
386 
int    r0 = r3 == 4
387 
 
388 
int16  r3 = set_bit(r1, 8)                     // int16 set_bit
389 
int    r4 = r3 == 0x100
390 
int32  r0 |= 2, mask = r4                      // set bit 1 if success
391 
 
392 
int32  r3 = set_bit(r1, 31)                    // int32 set_bit
393 
int32  r3 = set_bit(r3, 31)                    // int32 set_bit
394 
int32  r4 = r3 == 0x80000000
395 
int32  r0 |= 4, mask = r4                      // set bit 2 if success
396 
 
397 
int64  r3 = set_bit(r1, 41)                    // int64 set_bit
398 
uint64 r3 >>= 32
399 
int32  r4 = r3 == 0x200
400 
int32  r0 |= 8, mask = r4                      // set bit 3 if success
401 
 
402 
int64  r1 = address [text_set_bit]
403 
call   print_result
404 
 
405 
 
406 
// Test toggle bit
407 
int64  r1 = 0
408 
int8   r3 = toggle_bit(r1, 2)                  // int8 toggle_bit
409 
int    r0 = r3 == 4
410 
 
411 
int16  r3 = toggle_bit(r1, 8)                  // int16 toggle_bit
412 
int    r4 = r3 == 0x100
413 
int32  r0 |= 2, mask = r4                      // set bit 1 if success
414 
 
415 
int32  r3 = toggle_bit(r1, 31)                 // int32 toggle_bit
416 
int32  r3 = toggle_bit(r3, 31)                 // int32 toggle_bit
417 
int32  r4 = r3 == 0
418 
int32  r0 |= 4, mask = r4                      // set bit 2 if success
419 
 
420 
int64  r3 = toggle_bit(r1, 41)                 // int64 toggle_bit
421 
uint64 r3 >>= 32
422 
int32  r4 = r3 == 0x200
423 
int32  r0 |= 8, mask = r4                      // set bit 3 if success
424 
 
425 
int64  r1 = address [text_toggle_bit]
426 
call   print_result
427 
 
428 
 
429 
int64  r0 = address [press_run]                  // press run to continue
430 
call   _printf                                   // print string
431 
 
432 
breakpoint
433 
 
434 
 
435 
// Test test_bit
436 
Test_test_bit:
437 
int32  r1 = 0x12345678
438 
int8   r3 = test_bit(r1, 4)                      // int8 test_bit
439 
int    r0 = r3 == 1
440 
int8   r2 = test_bit(r1, 2)
441 
int    r0 = r2 == 0 && r0
442 
 
443 
int16  r3 = test_bit(r1, 9)                      // int16 test_bit
444 
int    r4 = r3 == 1
445 
int16  r3 = test_bit(r1, 9), fallback = r2, options = 1
446 
int    r4 = r3 == 0 && r4
447 
int16  r3 = test_bit(r1, 9), fallback = r2, options = 9
448 
int    r4 = r3 == 1 && r4
449 
int    r0 |= 2, mask = r4                        // set bit 1 if success
450 
 
451 
int32  r3 = test_bit(r1, 17)                     // int32 test_bit
452 
int    r4 = r3 == 0
453 
int32  r2 = 0xF0
454 
int32  r3 = test_bit(r1, 18), mask = r2, options = 0x20
455 
int    r4 = r3 == r2 && r4
456 
int    r0 |= 4, mask = r4                        // set bit 2 if success
457 
 
458 
int64  r1 <<= 32
459 
int64  r3 = test_bit(r1, 38)                     // int64 test_bit
460 
int    r4 = r3 == 1
461 
int32  r2 = 0x71
462 
int32  r3 = test_bit(r1, 75), mask = r2, fallback = r2, options = 0x20
463 
int    r4 = r3 == 0x70 && r4
464 
int32  r3 = test_bit(r1, 75), mask = r2, fallback = r2, options = 0x24
465 
int    r4 = r3 == 0x71 && r4
466 
int    r0 |= 8, mask = r4                        // set bit 3 if success
467 
 
468 
int64  r1 = address [text_test_bit]
469 
call   print_result
470 
 
471 
 
472 
// Test test_bits_and
473 
Test_test_bits_and:
474 
int32  r1 = 0x12345678
475 
int8   r3 = test_bits_and(r1, 0x58)              // int8 test_bits_and
476 
int    r0 = r3 == 1
477 
 
478 
int16  r2 = test_bits_and(r1, 0x688)             // int16 test_bits_and
479 
int    r4 = r2 == 0
480 
int16  r3 = test_bits_and(r1, 0x688), fallback = r4, options = 2
481 
int    r4 = r3 == 1 && r4
482 
int16  r3 = test_bits_and(r1, 0x688), fallback = r4, options = 7
483 
int    r4 = r3 == 0 && r4
484 
int    r0 |= 2, mask = r4                        // set bit 1 if success
485 
 
486 
int32  r3 = test_bits_and(r1, 0x12340678)        // int32 test_bits_and
487 
int    r4 = r3 == 1
488 
int32  r3 = test_bits_and(r1, 0x12346678)
489 
int    r4 = r3 == 0 && r4
490 
int    r0 |= 4, mask = r4                        // set bit 2 if success
491 
 
492 
int64  r1 <<= 32
493 
int64  r3 = test_bits_and(r1, 0x67 << 36)        // int64 test_bits_and
494 
int    r4 = r3 == 1
495 
int64  r3 = test_bits_and(r1, 0x6F << 36)
496 
int    r4 = r3 == 0 && r4
497 
int    r0 |= 8, mask = r4                        // set bit 3 if success
498 
 
499 
int64  r1 = address [text_test_bits_and]
500 
call   print_result
501 
 
502 
 
503 
// Test test_bits_or
504 
Test_test_bits_or:
505 
int32  r1 = 0x12345678
506 
int8   r3 = test_bits_or(r1, 0xF0)               // int8 test_bits_or
507 
int    r0 = r3 == 1
508 
 
509 
int16  r2 = test_bits_or(r1, 0x982)              // int16 test_bits_or
510 
int    r4 = r2 == 0
511 
 
512 
int16  r3 = test_bits_or(r1, 0x982), fallback = r4, options = 3
513 
int    r4 = r3 == 1 && r4
514 
int16  r3 = test_bits_or(r1, 0x688), fallback = r4, options = 3
515 
int    r4 = r3 == 0 && r4
516 
int    r0 |= 2, mask = r4                        // set bit 1 if success
517 
 
518 
int32  r3 = test_bits_or(r1, 0x10000000)         // int32 test_bits_or
519 
int    r4 = r3 == 1
520 
int32  r3 = test_bits_or(r1, 0)
521 
int    r4 = r3 == 0 && r4
522 
int    r0 |= 4, mask = r4                        // set bit 2 if success
523 
 
524 
int64  r1 <<= 32
525 
int64  r3 = test_bits_or(r1, 0xF << 36)          // int64 test_bits_or
526 
int    r4 = r3 == 1
527 
int    r0 |= 8, mask = r4                        // set bit 3 if success
528 
 
529 
int64  r1 = address [text_test_bits_or]
530 
call   print_result
531 
 
532 
 
533 
// test compare with mask and fallback
534 
test_compare:
535 
int32  r1 = 5
536 
int32  r2 = 0x56
537 
int8   r3 = compare(r1, r2), options=0, mask = r1// int8 compare
538 
int    r0 = r3 == 4
539 
 
540 
int16  r3 = compare(r1, r2), options=2, mask = r1, fallback = r1 // int16 compare
541 
int    r4 = r3 == r1
542 
int16  r3 = compare(r1, r2), options=0x12, mask = r2, fallback = r1
543 
int    r4 = r3 == r2 && r4
544 
int16  r3 = compare(r1, r2), options=0x20, mask = r1, fallback = r1
545 
int    r4 = r3 == r1 && r4
546 
int    r0 |= 2, mask = r4                        // set bit 1 if success
547 
 
548 
int32  r3 = compare(r1, r2), options=0x31, fallback = r1 // int32 compare
549 
int    r4 = r3 == 0
550 
int    r0 |= 4, mask = r4                        // set bit 2 if success
551 
 
552 
int64  r3 = compare(r1, r2), options=0x21, fallback = r1 // int64 compare
553 
int    r4 = r3 == 1
554 
int64  r2 = r1 | 1 << 60
555 
int64  r3 = r1 == r2
556 
int    r4 = r3 == 0 && r4
557 
int    r0 |= 8, mask = r4                        // set bit 3 if success
558 
 
559 
int64  r1 = address [text_compare]
560 
call   print_result
561 
 
562 
 
563 
// test bitscan
564 
int    r1 = 0x23412345
565 
int8   r3 = bitscan(r1, 0)                       // int8 bitscan
566 
int    r0 = r3 == 0
567 
int8   r3 = bitscan(r1, 1)
568 
int    r0 = r3 == 6 && r0
569 
 
570 
int    r2 = 0
571 
int16  r3 = bitscan(r1, 1)                       // int16 bitscan
572 
int    r4 = r3 == 13
573 
int16  r3 = bitscan(r2, 1)                       // zero input
574 
int    r4 = r3 == 0 && r4
575 
int16  r3 = bitscan(r2, 0x11)
576 
int    r4 = r3 == 0xFFFF && r4
577 
int    r0 |= 2, mask = r4                        // set bit 1 if success
578 
 
579 
int32  r3 = bitscan(r1, 1)                       // int32 bitscan
580 
int    r4 = r3 == 29
581 
int    r0 |= 4, mask = r4                        // set bit 2 if success
582 
 
583 
int64  r1 <<= 10
584 
int64  r3 = bitscan(r1, 1)                       // int64 bitscan
585 
int    r4 = r3 == 29 + 10
586 
int64  r3 = bitscan(r2, 0x10)                    // zero input
587 
int64  r4 = r3 == -1 && r4
588 
int    r0 |= 8, mask = r4                        // set bit 3 if success
589 
 
590 
int64  r1 = address [text_bitscan]
591 
call   print_result
592 
 
593 
 
594 
// test roundp2
595 
int    r1 = 0x23412345
596 
int8   r3 = roundp2(r1, 0)                       // int8 roundp2
597 
int    r0 = r3 == 0x40
598 
int8   r3 = roundp2(r1, 1)
599 
int    r0 = r3 == 0x80
600 
 
601 
int16  r3 = roundp2(r1, 0)                       // int16 roundp2
602 
int    r4 = r3 == 0x2000
603 
int    r2 = 0
604 
int16  r3 = roundp2(r2, 0)                       // zero input
605 
int    r4 = r3 == 0 && r4
606 
int16  r3 = roundp2(r2, 0x10)                    // zero input
607 
int    r4 = r3 == 0xFFFF && r4
608 
int    r2 = 0x8001
609 
int16  r3 = roundp2(r2, 0)
610 
int    r4 = r3 == 0x8000 && r4
611 
int16  r3 = roundp2(r2, 1)                       // overflow
612 
int    r4 = r3 == 0 && r4
613 
int16  r3 = roundp2(r2, 0x21)
614 
int    r4 = r3 == 0xFFFF && r4
615 
int    r0 |= 2, mask = r4                        // set bit 1 if success
616 
 
617 
int32  r3 = roundp2(r1, 0)                       // int32 roundp2
618 
int32  r4 = r3 == 0x20000000
619 
int32  r3 = roundp2(r1, 1)
620 
int32  r4 = r3 == 0x40000000 && r4
621 
int    r0 |= 4, mask = r4                        // set bit 2 if success
622 
 
623 
int64  r1 |= 1 << 40
624 
int64  r3 = roundp2(r1, 0)                       // int64 roundp2
625 
int64  r4 = r3 == 1 << 40
626 
int64  r3 = roundp2(r1, 1)
627 
int64  r4 = r3 == 1 << 41
628 
int    r0 |= 8, mask = r4                        // set bit 3 if success
629 
 
630 
int64  r1 = address [text_roundp2]
631 
call   print_result
632 
 
633 
 
634 
// Test popcount
635 
int    r1 = 0x23412345
636 
int8   r3 = popcount(r1)                         // int8 popcount
637 
int    r0 = r3 == 3
638 
 
639 
int16  r3 = popcount(r1)                         // int16 popcount
640 
int    r4 = r3 == 6
641 
int    r0 |= 2, mask = r4                        // set bit 1 if success
642 
 
643 
int64  r1 |= 1 << 40
644 
int32  r3 = popcount(r1)                         // int32 popcount
645 
int    r4 = r3 == 11
646 
int    r0 |= 4, mask = r4                        // set bit 2 if success
647 
 
648 
int64  r3 = popcount(r1)                         // int64 popcount
649 
int    r4 = r3 == 12
650 
int    r0 |= 8, mask = r4                        // set bit 3 if success
651 
 
652 
int64  r1 = address [text_popcount]
653 
call   print_result
654 
 
655 
 
656 
// Test truth_tab3
657 
int32  r1 = 0xAAAAAAAA
658 
int32  r2 = 0xCCCCCCCC
659 
int32  r3 = 0xF0F0F0F0
660 
int8   r4 = truth_tab3(r1, r2, r3, 0xF2)         // A & ~ B | C
661 
int    r0 = r4 == 0xF2
662 
 
663 
int16  r4 = truth_tab3(r1, r2, r3, 0xD8)         // A ? B : C
664 
int    r5 = r4 == 0xD8D8
665 
int    r6 = 0x12345
666 
int16  r4 = truth_tab3(r1, r2, r3, 0xD8), options = 1, mask = r6
667 
int    r5 = r4 == 0 && r5
668 
int16  r4 = truth_tab3(r1, r2, r3, 0xD8), options = 2, mask = r6
669 
int    r5 = r4 == 0x2344 && r5
670 
int    r0 |= 2, mask = r5                        // set bit 1 if success
671 
 
672 
int32  r4 = truth_tab3(r1, r2, r3, 0x72)         // A ? ~B : C
673 
int32  r5 = r4 == 0x72727272
674 
int    r0 |= 4, mask = r5                        // set bit 2 if success
675 
 
676 
int64  r3 |= 1 << 63
677 
int64  r4 = truth_tab3(r1, r2, r3, 0xFE)         // A | B | C
678 
int64  r5 = r4 == 0x80000000FEFEFEFE
679 
int64  r5 = test_bit(r4, 63), options = 1, fallback = r5
680 
int    r0 |= 8, mask = r5                        // set bit 3 if success
681 
 
682 
 
683 
int64  r1 = address [text_truthtab3]
684 
call   print_result
685 
 
686 
 
687 
// Test move_bits
688 
int32  r1 = 0
689 
int32  r2 = 0x12345678
690 
int8   r3 = move_bits(r1, r2, 2, 4, 3)           // int8 move_bits
691 
int    r0 = r3 == 0x60
692 
 
693 
int16  r3 = move_bits(r1, r2, 8, 0, 6)           // int16 move_bits
694 
int    r4 = r3 == 0x16
695 
int    r0 |= 2, mask = r4                        // set bit 1 if success
696 
 
697 
int32  r3 = move_bits(r1, r2, 0, 20, 12)         // int32 move_bits
698 
int32  r3 = move_bits(r3, r2, 16, 0, 8)
699 
int    r4 = r3 == 0x67800034
700 
int    r0 |= 4, mask = r4                        // set bit 1 if success
701 
 
702 
int64  r3 = move_bits(r1, r2, 20, 48, 8)         // int64 move_bits
703 
int64  r4 = r3 == 0x23000000000000
704 
int64  r3 = move_bits(r1, r3, 48, 0, 8)
705 
int64  r4 = r3 == 0x23 && r4
706 
int    r0 |= 8, mask = r4                        // set bit 3 if success
707 
 
708 
int64  r1 = address [text_move_bits]
709 
call   print_result
710 
 
711 
 
712 
// Test move high
713 
int64  r1 = 0xabcd1234 << 32
714 
int32  r4 = r1 == 0
715 
uint64 r1 >>= 32
716 
int32  r4 = r1 == 0xabcd1234 && r0
717 
int    r0 = 0x70
718 
int    r0 |= 8, mask = r4
719 
int64  r1 = address [text_move_high]
720 
call   print_result
721 
 
722 
 
723 
// Test insert high
724 
int64  r1 = 0x12345678
725 
int64  r1 = insert_hi(r1, 0xabcdef98)
726 
int64  r4 = r1 == 0xabcdef9812345678
727 
int64  r1 >>= 32
728 
int32  r4 = (r1 == 0xabcdef98) && r4
729 
int    r0 = 0x70
730 
int    r0 |= 8, mask = r4
731 
int64  r1 = address [text_insert_high]
732 
call   print_result
733 
 
734 
 
735 
int64 r0 = address [newline]
736 
call _puts
737 
 
738 
breakpoint
739 
 
740 
int r0 = 0                                       // program return value
741 
return                                           // return from main
742 
 
743 
_main end
744 
 
745 
 
746 
print_result function
747 
// Print the result of a single test. Parameters:
748 
// r0:  4 bits indicating success for for int8, int16, int32, int64. 4 additional bits for printing space (instruction not supported)
749 
// r1:  pointer to text string
750 
 
751 
// set up parameter list for printf
752 
int64 sp -= 5*8              // allocate space on stack
753 
int64 [sp] = r1              // text
754 
int r4 = 'N'
755 
int r2 = r0 ? 'Y' : r4       // Y or N
756 
int r5 = test_bit(r0, 4)
757 
int r2 = r5 ? ' ' : r2       // Y/N or space
758 
int64 [sp+0x08] = r2         // result for int8
759 
int r0 >>= 1
760 
int r2 = r0 ? 'Y' : r4       // Y or N
761 
int r5 = test_bit(r0, 4)
762 
int r2 = r5 ? ' ' : r2       // Y/N or space
763 
int64 [sp+0x10] = r2         // result for int16
764 
int r0 >>= 1
765 
int r2 = r0 ? 'Y' : r4       // Y or N
766 
int r5 = test_bit(r0, 4)
767 
int r2 = r5 ? ' ' : r2       // Y/N or space
768 
int64 [sp+0x18] = r2         // result for int32
769 
int r0 >>= 1
770 
int r2 = r0 ? 'Y' : r4       // Y or N
771 
int r5 = test_bit(r0, 4)
772 
int r2 = r5 ? ' ' : r2       // Y/N or space
773 
int64 [sp+0x20] = r2         // result for int64
774 
 
775 
int64 r0 = address [format1]
776 
int64 r1 = sp
777 
call _printf
778 
int64 sp += 5*8              // release parameter list
779 
return
780 
 
781 
print_result end
782 
 
783 
 
784 
code end

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.