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1 2 pela
----------------------------------------------------------------------
2
----                                                              ----
3
---- PlTbUtils Testbench                                          ----
4
----                                                              ----
5
---- This file is part of the PlTbUtils project                   ----
6
---- http://opencores.org/project,pltbutils                       ----
7
----                                                              ----
8
---- Description                                                  ----
9
---- PlTbUtils is a collection of functions, procedures and       ----
10
---- components for easily creating stimuli and checking response ----
11
---- in automatic self-checking testbenches.                      ----
12
----                                                              ----
13
---- This is a testbench file, which is used to verify            ----
14
---- - pltbutils_func_pkg                                         ----
15
---- - pltbutils_comp                                           ----
16
---- This testbench is NOT selfchecking or automatic.             ----
17
---- Manually check the transcript and waveform, when simulating. ----
18
---- It prints some informative text in the transcript, to help   ----
19
---- with the manual inspection.                                  ----
20
----                                                              ----
21
----                                                              ----
22
---- To Do:                                                       ----
23
---- -                                                            ----
24
----                                                              ----
25
---- Author(s):                                                   ----
26
---- - Per Larsson, pela@opencores.org                            ----
27
----                                                              ----
28
----------------------------------------------------------------------
29
----                                                              ----
30 38 pela
---- Copyright (C) 2013-2014 Authors and OPENCORES.ORG            ----
31 2 pela
----                                                              ----
32
---- This source file may be used and distributed without         ----
33
---- restriction provided that this copyright statement is not    ----
34
---- removed from the file and that any derivative work contains  ----
35
---- the original copyright notice and the associated disclaimer. ----
36
----                                                              ----
37
---- This source file is free software; you can redistribute it   ----
38
---- and/or modify it under the terms of the GNU Lesser General   ----
39
---- Public License as published by the Free Software Foundation; ----
40
---- either version 2.1 of the License, or (at your option) any   ----
41
---- later version.                                               ----
42
----                                                              ----
43
---- This source is distributed in the hope that it will be       ----
44
---- useful, but WITHOUT ANY WARRANTY; without even the implied   ----
45
---- warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR      ----
46
---- PURPOSE. See the GNU Lesser General Public License for more  ----
47
---- details.                                                     ----
48
----                                                              ----
49
---- You should have received a copy of the GNU Lesser General    ----
50
---- Public License along with this source; if not, download it   ----
51
---- from http://www.opencores.org/lgpl.shtml                     ----
52
----                                                              ----
53
----------------------------------------------------------------------
54
library ieee;
55
use ieee.std_logic_1164.all;
56
use ieee.numeric_std.all;
57
use std.textio.all;
58
use work.txt_util.all;
59
use work.pltbutils_func_pkg.all;
60
use work.pltbutils_comp_pkg.all;
61
 
62
entity tb_pltbutils is
63
  generic (
64
    G_CLK_PERIOD  : time := 10 ns
65
  );
66
end entity tb_pltbutils;
67
 
68
architecture bhv of tb_pltbutils is
69
 
70
  -- Simulation status- and control signals
71 38 pela
  -- for accessing .stop_sim and for viewing in waveform window
72
  signal pltbs          : pltbs_t := C_PLTBS_INIT;
73 2 pela
 
74
  -- Expected number of checks and number of errors to be reported
75
  -- by pltbutils. The counting is made by variables, but the
76
  -- variables are copied to these signals for easier viewing in
77
  -- the simulator's waveform window.
78
  signal expected_checks_cnt : integer := 0;
79
  signal expected_errors_cnt : integer := 0;
80
 
81
  -- DUT stimuli and response signals
82
  signal clk            : std_logic;
83
  signal clk_cnt        : integer := 0;
84
  signal clk_cnt_clr    : boolean := false;
85
  signal s_i            : integer;
86
  signal s_sl           : std_logic;
87
  signal s_slv          : std_logic_vector(7 downto 0);
88
  signal s_u            : unsigned(7 downto 0);
89
  signal s_s            : unsigned(7 downto 0);
90
 
91
begin
92
 
93
  -- Clock generator
94
  clkgen0 : pltbutils_clkgen
95
    generic map(
96
      G_PERIOD      => G_CLK_PERIOD
97
    )
98
    port map(
99
      clk_o         => clk,
100 38 pela
      stop_sim_i    => pltbs.stop_sim
101 2 pela
    );
102
 
103
  -- Clock cycle counter
104
  p_clk_cnt : process (clk_cnt_clr, clk)
105
  begin
106
    if clk_cnt_clr then
107
      clk_cnt <= 0;
108
    elsif rising_edge(clk) then
109
      clk_cnt <= clk_cnt + 1;
110
    end if;
111
  end process p_clk_cnt;
112
 
113
  -- Testcase
114
  p_tc1 : process
115 38 pela
    variable pltbv                 : pltbv_t := C_PLTBV_INIT;
116 25 pela
    variable v_expected_tests_cnt  : integer := 0;
117 2 pela
    variable v_expected_checks_cnt : integer := 0;
118
    variable v_expected_errors_cnt : integer := 0;
119
  begin
120
 
121
    print("<Testing startsim()>");
122 38 pela
    startsim("tc1", pltbv, pltbs);
123 2 pela
    wait until rising_edge(clk);
124 38 pela
    assert (pltbv.test_num = 0) and (pltbs.test_num  = 0)
125 2 pela
      report "test_num after startsim() incorrect"
126
      severity error;
127
    print("<Done testing startsim()>");
128
 
129 25 pela
    print("<Testing starttest() with auto-incrementing test_num>");
130 38 pela
    starttest("TestName1", pltbv, pltbs);
131 25 pela
    v_expected_tests_cnt := v_expected_tests_cnt + 1;
132 2 pela
    wait until rising_edge(clk);
133 38 pela
    assert (pltbv.test_num = 1) and (pltbs.test_num  = 1)
134 25 pela
      report "test_num after starttest() incorrect"
135 2 pela
      severity error;
136 25 pela
    print("<Done testing starttest() with auto-incrementing test_num()>");
137 2 pela
 
138 25 pela
    print("<Testing endtest()>");
139 38 pela
    endtest(pltbv, pltbs);
140 25 pela
    print("<Done testing endtest()>");
141
 
142
    print("<Testing starttest() with explicit test_num>");
143 38 pela
    starttest(3, "TestName2", pltbv, pltbs);
144 25 pela
    v_expected_tests_cnt := v_expected_tests_cnt + 1;
145 2 pela
    wait until rising_edge(clk);
146 38 pela
    assert (pltbv.test_num = 3) and (pltbs.test_num  = 3)
147 2 pela
      report "test_num after startsim() incorrect"
148
      severity error;
149 25 pela
    print("<Done testing starttest() with explicit test_num>");
150 2 pela
 
151
    print("<Testing waitclks()>");
152
    clk_cnt_clr <= true;
153
    wait until rising_edge(clk);
154
    clk_cnt_clr <= false;
155
    wait until rising_edge(clk);
156 38 pela
    waitclks(10, clk, pltbv, pltbs);
157 2 pela
    assert clk_cnt = 10
158
      report "clk_cnt after waitclks() incorrect:" & integer'image(clk_cnt) &
159
             " expected:" & integer'image(10)
160
      severity error;
161
    print("<Done testing waitclks()>");
162
 
163
    print("<Testing check() integer>");
164
    s_i <= 0;
165
    wait until rising_edge(clk);
166 38 pela
    check("Testing correct integer = 0", s_i, 0, pltbv, pltbs);
167 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
168
    expected_checks_cnt   <= v_expected_checks_cnt;
169
    s_i <= 1;
170
    wait until rising_edge(clk);
171 38 pela
    check("Testing correct integer = 1", s_i, 1, pltbv, pltbs);
172 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
173
    expected_checks_cnt   <= v_expected_checks_cnt;
174
    s_i <= 17;
175
    wait until rising_edge(clk);
176 38 pela
    check("Testing incorrect integer = 17", s_i, 18, pltbv, pltbs);
177 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
178
    expected_checks_cnt   <= v_expected_checks_cnt;
179
    v_expected_errors_cnt := v_expected_errors_cnt + 1;
180
    expected_errors_cnt   <= v_expected_errors_cnt;
181
    s_i <= -1;
182
    wait until rising_edge(clk);
183 38 pela
    check("Testing negative integer = -1", s_i, -1, pltbv, pltbs);
184 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
185
    expected_checks_cnt   <= v_expected_checks_cnt;
186
 
187
    print("<Done testing check() integer>");
188
 
189
    print("<Testing check() std_logic>");
190
    s_sl <= '0';
191
    wait until rising_edge(clk);
192 38 pela
    check("Testing correct std_logic = '0'", s_sl, '0', pltbv, pltbs);
193 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
194
    expected_checks_cnt   <= v_expected_checks_cnt;
195
    s_sl <= '1';
196
    wait until rising_edge(clk);
197 38 pela
    check("Testing correct std_logic = '1'", s_sl, '1', pltbv, pltbs);
198 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
199
    expected_checks_cnt   <= v_expected_checks_cnt;
200
    s_sl <= 'X';
201
    wait until rising_edge(clk);
202 38 pela
    check("Testing incorrect std_logic = '1'", s_sl, '1', pltbv, pltbs);
203 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
204
    expected_checks_cnt   <= v_expected_checks_cnt;
205
    v_expected_errors_cnt := v_expected_errors_cnt + 1;
206
    expected_errors_cnt   <= v_expected_errors_cnt;
207
    print("<Done testing check() std_logic>");
208
 
209
    print("<Testing check() std_logic against integer>");
210
    s_sl <= '0';
211
    wait until rising_edge(clk);
212 38 pela
    check("Testing correct std_logic = '0'", s_sl, 0, pltbv, pltbs);
213 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
214
    expected_checks_cnt   <= v_expected_checks_cnt;
215
    s_sl <= '1';
216
    wait until rising_edge(clk);
217 38 pela
    check("Testing correct std_logic = '1'", s_sl, 1, pltbv, pltbs);
218 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
219
    expected_checks_cnt   <= v_expected_checks_cnt;
220
    s_sl <= 'X';
221
    wait until rising_edge(clk);
222 38 pela
    check("Testing incorrect std_logic = '1'", s_sl, 1, pltbv, pltbs);
223 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
224
    expected_checks_cnt   <= v_expected_checks_cnt;
225
    v_expected_errors_cnt := v_expected_errors_cnt + 1;
226
    expected_errors_cnt   <= v_expected_errors_cnt;
227
    s_sl <= '1';
228
    wait until rising_edge(clk);
229 38 pela
    check("Testing std_logic = '1' with incorrect expected", s_sl, 2, pltbv, pltbs);
230 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
231
    expected_checks_cnt   <= v_expected_checks_cnt;
232
    v_expected_errors_cnt := v_expected_errors_cnt + 1;
233
    expected_errors_cnt   <= v_expected_errors_cnt;
234
    print("<Done testing check() std_logic against integer>");
235
 
236
    print("<Testing check() std_logic_vector>");
237
    s_slv <= x"00";
238
    wait until rising_edge(clk);
239 38 pela
    check("Testing correct std_logic_vector = x'00'", s_slv, x"00", pltbv, pltbs);
240 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
241
    expected_checks_cnt   <= v_expected_checks_cnt;
242
    s_slv <= x"47";
243
    wait until rising_edge(clk);
244 38 pela
    check("Testing correct std_logic_vector = x'47'", s_slv, x"47", pltbv, pltbs);
245 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
246
    expected_checks_cnt   <= v_expected_checks_cnt;
247
    s_slv <= x"11";
248
    wait until rising_edge(clk);
249 38 pela
    check("Testing incorrect std_logic_vector = x'11'", s_slv, x"10", pltbv, pltbs);
250 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
251
    expected_checks_cnt   <= v_expected_checks_cnt;
252
    v_expected_errors_cnt := v_expected_errors_cnt + 1;
253
    expected_errors_cnt   <= v_expected_errors_cnt;
254
    print("<Done testing check() std_logic_vector>");
255
 
256
    print("<Testing check() std_logic_vector with mask>");
257
    s_slv <= x"47";
258
    wait until rising_edge(clk);
259 38 pela
    check("Testing std_logic_vector = x'47' with correct nibble mask", s_slv, x"57", x"0F", pltbv, pltbs);
260 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
261
    expected_checks_cnt   <= v_expected_checks_cnt;
262
    s_slv <= x"47";
263
    wait until rising_edge(clk);
264 38 pela
    check("Testing std_logic_vector = x'47' with incorrect nibble mask", s_slv, x"57", x"F0", pltbv, pltbs);
265 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
266
    expected_checks_cnt   <= v_expected_checks_cnt;
267
    v_expected_errors_cnt := v_expected_errors_cnt + 1;
268
    expected_errors_cnt   <= v_expected_errors_cnt;
269
    print("<Done testing check() std_logic_vector with mask>");
270
 
271
    print("<Testing check() std_logic_vector against integer>");
272
    s_slv <= x"00";
273
    wait until rising_edge(clk);
274 38 pela
    check("Testing correct std_logic_vector = x'00'", s_slv, 0, pltbv, pltbs);
275 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
276
    expected_checks_cnt   <= v_expected_checks_cnt;
277
    s_slv <= x"47";
278
    wait until rising_edge(clk);
279 38 pela
    check("Testing correct std_logic_vector = x'47'", s_slv, 16#47#, pltbv, pltbs);
280 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
281
    expected_checks_cnt   <= v_expected_checks_cnt;
282
    s_slv <= x"11";
283
    wait until rising_edge(clk);
284 38 pela
    check("Testing incorrect std_logic_vector = x'11'", s_slv, 16#10#, pltbv, pltbs);
285 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
286
    expected_checks_cnt   <= v_expected_checks_cnt;
287
    v_expected_errors_cnt := v_expected_errors_cnt + 1;
288
    expected_errors_cnt   <= v_expected_errors_cnt;
289
    s_slv <= x"FF";
290
    wait until rising_edge(clk);
291 38 pela
    check("Testing negative std_logic_vector = x'FF'", s_slv, -1, pltbv, pltbs);
292 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
293
    expected_checks_cnt   <= v_expected_checks_cnt;
294
    print("<Done testing check() std_logic_vector against integer>");
295
 
296
    print("<Testing check() std_logic_vector with mask against integer>");
297
    s_slv <= x"47";
298
    wait until rising_edge(clk);
299 38 pela
    check("Testing std_logic_vector = x'47' with correct nibble mask", s_slv, 16#57#, x"0F", pltbv, pltbs);
300 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
301
    expected_checks_cnt   <= v_expected_checks_cnt;
302
    s_slv <= x"47";
303
    wait until rising_edge(clk);
304 38 pela
    check("Testing std_logic_vector = x'47' with incorrect nibble mask", s_slv, 16#57#, x"F0", pltbv, pltbs);
305 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
306
    expected_checks_cnt   <= v_expected_checks_cnt;
307
    v_expected_errors_cnt := v_expected_errors_cnt + 1;
308
    expected_errors_cnt   <= v_expected_errors_cnt;
309
    print("<Done testing check() std_logic_vector with mask against integer>");
310
 
311
    print("<Testing check() unsigned>");
312
    s_u <= x"00";
313
    wait until rising_edge(clk);
314 38 pela
    check("Testing correct unsigned = x'00'", s_u, x"00", pltbv, pltbs);
315 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
316
    expected_checks_cnt   <= v_expected_checks_cnt;
317
    s_u <= x"47";
318
    wait until rising_edge(clk);
319 38 pela
    check("Testing correct unsigned = x'47'", s_u, x"47", pltbv, pltbs);
320 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
321
    expected_checks_cnt   <= v_expected_checks_cnt;
322
    s_u <= x"11";
323
    wait until rising_edge(clk);
324 38 pela
    check("Testing incorrect unsigned = x'11'", s_u, x"10", pltbv, pltbs);
325 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
326
    expected_checks_cnt   <= v_expected_checks_cnt;
327
    v_expected_errors_cnt := v_expected_errors_cnt + 1;
328
    expected_errors_cnt   <= v_expected_errors_cnt;
329
    print("<Done testing check() unsigned>");
330
 
331
    print("<Testing check() unsigned against integer>");
332
    s_u <= x"00";
333
    wait until rising_edge(clk);
334 38 pela
    check("Testing correct unsigned = x'00'", s_u, 0, pltbv, pltbs);
335 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
336
    expected_checks_cnt   <= v_expected_checks_cnt;
337
    s_u <= x"47";
338
    wait until rising_edge(clk);
339 38 pela
    check("Testing correct unsigned = x'47'", s_u, 16#47#, pltbv, pltbs);
340 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
341
    expected_checks_cnt   <= v_expected_checks_cnt;
342
    s_u <= x"11";
343
    wait until rising_edge(clk);
344 38 pela
    check("Testing incorrect unsigned = x'11'", s_u, 16#10#, pltbv, pltbs);
345 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
346
    expected_checks_cnt   <= v_expected_checks_cnt;
347
    v_expected_errors_cnt := v_expected_errors_cnt + 1;
348
    expected_errors_cnt   <= v_expected_errors_cnt;
349
    print("<Done testing check() unsigned against integer>");
350
 
351
    print("<Testing check() signed>");
352
    s_s <= x"00";
353
    wait until rising_edge(clk);
354 38 pela
    check("Testing correct signed = x'00'", s_s, x"00", pltbv, pltbs);
355 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
356
    expected_checks_cnt   <= v_expected_checks_cnt;
357
    s_s <= x"47";
358
    wait until rising_edge(clk);
359 38 pela
    check("Testing correct signed = x'47'", s_s, x"47", pltbv, pltbs);
360 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
361
    expected_checks_cnt   <= v_expected_checks_cnt;
362
    s_s <= x"11";
363
    wait until rising_edge(clk);
364 38 pela
    check("Testing incorrect signed = x'11'", s_s, x"10", pltbv, pltbs);
365 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
366
    expected_checks_cnt   <= v_expected_checks_cnt;
367
    v_expected_errors_cnt := v_expected_errors_cnt + 1;
368
    expected_errors_cnt   <= v_expected_errors_cnt;
369
    s_s <= x"FF";
370
    wait until rising_edge(clk);
371 38 pela
    check("Testing negative signed = x'FF'", s_s, x"FF", pltbv, pltbs);
372 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
373
    expected_checks_cnt   <= v_expected_checks_cnt;
374
    print("<Done testing check() signed>");
375
 
376
    print("<Testing check() signed against integer>");
377
    s_s <= x"00";
378
    wait until rising_edge(clk);
379 38 pela
    check("Testing correct signed = x'00'", s_s, 0, pltbv, pltbs);
380 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
381
    expected_checks_cnt   <= v_expected_checks_cnt;
382
    s_s <= x"47";
383
    wait until rising_edge(clk);
384 38 pela
    check("Testing correct signed = x'47'", s_s, 16#47#, pltbv, pltbs);
385 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
386
    expected_checks_cnt   <= v_expected_checks_cnt;
387
    s_s <= x"11";
388
    wait until rising_edge(clk);
389 38 pela
    check("Testing incorrect signed = x'11'", s_s, 16#10#, pltbv, pltbs);
390 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
391
    expected_checks_cnt   <= v_expected_checks_cnt;
392
    v_expected_errors_cnt := v_expected_errors_cnt + 1;
393
    expected_errors_cnt   <= v_expected_errors_cnt;
394
    s_s <= x"FF";
395
    wait until rising_edge(clk);
396
    print("The following check fails in ModelSim for unknown reason." &
397
          " It causes mismatch between expected number of errors" &
398
          " and the number presented by endsim()");
399 38 pela
    check("Testing negative signed = x'FF'", s_s, -1, pltbv, pltbs);
400 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
401
    expected_checks_cnt   <= v_expected_checks_cnt;
402
    print("<Done testing check() signed against integer>");
403
 
404
    print("<Testing check() boolean expression>");
405
    s_i <= 0;
406
    wait until rising_edge(clk);
407 38 pela
    check("Testing correct boolean expression 0 = 16#00#", s_i = 16#00#, pltbv, pltbs);
408 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
409
    expected_checks_cnt   <= v_expected_checks_cnt;
410
    s_i <= 47;
411
    wait until rising_edge(clk);
412 38 pela
    check("Testing incorrect boolean expression 47 < 16#10#", s_i < 16#10#, pltbv, pltbs);
413 2 pela
    v_expected_checks_cnt := v_expected_checks_cnt + 1;
414
    expected_checks_cnt   <= v_expected_checks_cnt;
415
    v_expected_errors_cnt := v_expected_errors_cnt + 1;
416
    expected_errors_cnt   <= v_expected_errors_cnt;
417
    print("<Done testing check() boolean expresson>");
418 25 pela
 
419
    print("<Testing endtest()>");
420 38 pela
    endtest(pltbv, pltbs);
421 25 pela
    print("<Done testing endtest()>");
422 2 pela
 
423
    wait until rising_edge(clk);
424
    print("<Testing endsim()>");
425 25 pela
    print("Expected number of tests:  " & str(v_expected_tests_cnt));
426 2 pela
    print("Expected number of checks: " & str(v_expected_checks_cnt));
427
    print("Expected number of errors: " & str(v_expected_errors_cnt));
428
    wait until rising_edge(clk);
429 38 pela
    endsim(pltbv, pltbs, true);
430 2 pela
    wait until rising_edge(clk);
431
    print("<Done testing endsim()>");
432
    wait;
433
  end process p_tc1;
434
end architecture bhv;

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