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1#!/usr/bin/env python3
2
3# Copyright 2016, VIXL authors
4# All rights reserved.
5#
6# Redistribution and use in source and binary forms, with or without
7# modification, are permitted provided that the following conditions are met:
8#
9#   * Redistributions of source code must retain the above copyright notice,
10#     this list of conditions and the following disclaimer.
11#   * Redistributions in binary form must reproduce the above copyright notice,
12#     this list of conditions and the following disclaimer in the documentation
13#     and/or other materials provided with the distribution.
14#   * Neither the name of ARM Limited nor the names of its contributors may be
15#     used to endorse or promote products derived from this software without
16#     specific prior written permission.
17#
18# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS CONTRIBUTORS "AS IS" AND
19# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
20# WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
21# DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
22# FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
23# DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
24# SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
25# CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
26# OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
27# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
28
29"""
30Generating tests
31================
32
33From the VIXL toplevel directory run:
34
35    $ ./tools/generate_tests.py
36
37The script assumes that `clang-format-3.8` is in the current path. If it isn't,
38you can provide your own:
39
40    $ ./tools/generate_tests.py --clang-format /patch/to/clang-format
41
42Once the script has finished, it will have generated test files, as many as
43present in the `default_config_files` list. For example:
44
45- test/aarch32/test-assembler-cond-rd-rn-immediate-a32.cc
46- test/aarch32/test-assembler-cond-rd-rn-rm-a32.cc
47- test/aarch32/test-assembler-cond-rd-rn-rm-q-a32.cc
48- test/aarch32/test-assembler-cond-rd-rn-rm-ge-a32.cc
49
50Because these test cases need traces in order to build, the script will have
51generated dummy trace files in `test/aarch32/traces/`. If you look at them
52you'll see they are basically empty:
53
54    $ cat test/aarch32/traces/sim-cond-rd-rn-immediate-adc-a32.h
55    static const TestResult *kReferenceAdc = NULL;
56
57So of course, we can now build the test cases but running them will crash. We
58need to re-generate traces with real hardware; the test cases do not support
59running in the simulator just yet.
60
61Generating traces
62=================
63
64You need to have either compiled natively for ARM, or cross-compiled
65`test-runner`. The traces can then be generated in the same way as with VIXL64.
66Note that it takes a few minutes to generate everything.
67
68    ./tools/generate_simulator_traces.py --runner /path/to/test-runner \
69      --aarch32-only
70
71You can now rebuild everything. If it all goes well, running the new tests
72should pass.
73
74Test configuration format
75=========================
76
77TODO: Write a simple and well documented complete example configuration file and
78      mention it here.
79
80The underlying `test_generator` framework reads JSON description files and
81generates tests according to them. These files live in `test/aarch32/config` by
82default, but you may provide your own files with the `--config-files FILE ...`
83flag. The JSON format was extended to support C++ like one-line comments.
84
85Each configuration file will serve to generate one or more test files,
86we even use its file name to choose the name of the test:
87
88    test/aarch32/config/cond-rd-rn-immediate-a32.json
89    `-> test/aarch32/test-simulator-cond-rd-rn-immediate-a32.cc
90    `-> test/aarch32/test-assembler-cond-rd-rn-immediate-a32.cc
91
92In addition to these test configuration files, we also provide a JSON
93description with shared information. This information represents data types that
94instructions use and lives in `test/aarch32/config/data-types.json`.
95
96Data types description
97----------------------
98
99We refer to two kinds of data types: `operand` and `input`.
100
101An `operand` represents an argument passed to the macro-assembler to generate an
102instruction. For example, a register or an immediate are operands. We can think
103of it as "assemble-time" data.
104
105As opposed to `operands`, an `input` represents data passed to an instruction at
106runtime. For example, it will be the value you write to a register before
107executing the instruction under test.
108
109The `data-types.json` file has the following structure:
110
111~~~
112{
113  "operands": [
114    // List of operand types.
115  ],
116  "inputs": [
117    // List of input types.
118  ]
119}
120~~~
121
122Each operand is described with the following structure:
123
124~~~
125{
126  // Unique name for this operand type.
127  "name": "AllRegistersButPC",
128  // C++ type used by VIXL to represent this operand.
129  "type": "Register",
130  // List of possible variants.
131  "variants": [
132    "r0",
133    "r1",
134    "r2",
135    "r3",
136    "r4",
137    "r5",
138    "r6",
139    "r7",
140    "r8",
141    "r9",
142    "r10",
143    "r11",
144    "r12",
145    "r13",
146    "r14"
147  ],
148  // Default variant to use.
149  "default": "r0"
150}
151~~~
152
153The "name" field of the operand will be used by test configuration files in
154order to specify what kind of operands an instruction takes. The "type" field
155simply tells the generator what C++ type should be generated, e.g. "Condition",
156"Register", "uint32_t", "ShiftType", ...etc.
157
158Inputs are described in a very similar way:
159
160~~~
161{
162  // Unique name for this input type.
163  "name": "Register",
164  // Python type from `test_generator.data_types` to use to generate C++ code
165  // for this input.
166  "type": "Register",
167  // List of possible values.
168  "values": [
169    "0x00000000",
170    "0xffffffff",
171    "0xabababab",
172    "0x5a5a5a5a"
173  ],
174  // Default value.
175  "default": "0xabababab"
176}
177~~~
178
179The "name" field has the same purpose as for operands. The "type" field however,
180is the name of a Python class in `test_generator.data_types`. The type will
181specify what C++ code to generate in order to load and record the input value,
182e.g. how to load a value into a register, how to read and record it.
183
184When adding more tests, one may have to create new data types in this file. For
185example, when we want to test an instruction with a different set of registers.
186If adding new input types which need different C++ code to load and record them,
187one will have to add it to `test_generator.data_types` and override the
188`Epilogue` and `Prologue` methods.
189
190Test configuration
191------------------
192
193Once we have all the data types we need described, we need test configuration
194files to describe what instructions to test and with what `inputs` and
195`operands` they take.
196
197These files have the following structure:
198
199~~~
200{
201  "mnemonics": [
202    // List of instruction mnemonics to use. These must correspond to
203    // `MacroAssembler` methods.
204  ],
205  "description": {
206    "operands": [
207      // List of operands the instruction takes.
208    ],
209    "inputs: [
210      // List of inputs the instruction can be affected by.
211    ]
212  },
213  // List of files to generate.
214  "test-files": [
215    {
216      "type": "assembler",
217      "mnemonics": [
218        // Optional list of instruction mnemonics to use, overriding the
219        // top-level list.
220      ],
221      "test-cases": [
222        // List of test cases for "assembler" tests, see below for
223        // details.
224      ]
225    },
226    {
227      "type": "simulator",
228      "test-cases": [
229        // List of test cases for "simulator" tests, see below for
230        // details.
231      ]
232    }
233  ]
234}
235~~~
236
237- List of operands:
238
239The operand list describes the actual argument to the `MacroAssembler` method.
240For example, if we take instruction in the form
241"XXX.cond rd rn rm shift #amount":
242
243We want to generate C++ code as such:
244
245~~~
246Condition cond = ...;
247Register rd = ...;
248Register rn = ...;
249Register rm = ...;
250ShiftType type = ...;
251uint32_t amount = ...;
252Operand op(rm, type, amount);
253
254__ Xxx(cond, rd, rn, op);
255~~~
256
257We will have the following operand list:
258
259~~~
260"operands": [
261  {
262    "name": "cond",
263    "type": "Condition"
264  },
265  {
266    "name": "rd",
267    "type": "AllRegistersButPC"
268  },
269  {
270    "name": "rn",
271    "type": "AllRegistersButPC"
272  },
273  {
274    "name": "op",
275    "wrapper": "Operand",
276    "operands": [
277      {
278        "name": "rm",
279        "operand": "AllRegistersButPC"
280      },
281      {
282        "name": "type",
283        "operand": "Shift"
284      },
285      {
286        "name": "amount",
287        "operand": "ImmediateShiftAmount"
288      }
289    ]
290  }
291]
292~~~
293
294The "name" field represents the identifier of the operand and will be used as a
295variable name in the generated code. The "type" field corresponds to an operand
296type described in the `data-types.json` file as described above.
297
298We can see that we've wrapped the last three operands into an "op"
299wrapper object. This allows us to tell the generator to wrap these
300operands into a `Operand` C++ object.
301
302- List of inputs:
303
304This structure is similar to the operand list, but this time it describes what
305input data the instructions may be affected by at runtime. If we take the same
306example as above, we will have the following list:
307
308~~~
309"inputs": [
310  {
311    "name": "apsr",
312    "type": "NZCV"
313  },
314  {
315    "name": "rd",
316    "type": "Register"
317  },
318  {
319    "name": "rn",
320    "type": "Register"
321  },
322  {
323    "name": "rm",
324    "type": "Register"
325  }
326]
327~~~
328
329This will specify what C++ code to generate before and after emitting the
330instruction under test. The C++ code will set and record register values for
331example. See `test_generator.data_types` for more details.
332
333- Test files and test cases:
334
335Up until now, we've only just described the environment in which instructions
336can operate. We need to express what files we want generating, what instructions
337we want to test and what we want them to do.
338
339As previously mentioned, a configuration file can control the generation of
340several test files. We will generate one file per element in the "test-files"
341array:
342
343~~~
344"test-files": [
345  {
346    "type": "assembler",
347    "test-cases": [
348      // List of test cases for "assembler" tests, see below for
349      // details.
350    ]
351  },
352  {
353    "type": "assembler",
354    "name": "special-case",
355    "mnemonics": [
356      // Override the top-level list with a subset of instructions concerned
357      // with this special case.
358    ],
359    "test-cases": [
360      // List of test cases for "assembler" tests, see below for
361      // details.
362    ]
363  },
364  {
365    "type": "simulator",
366    "test-cases": [
367      // List of test cases for "simulator" tests, see below for
368      // details.
369    ]
370  }
371]
372~~~
373
374Above, we've decided to generate three tests: a "simulator" test and two
375"assembler" tests. The resulting files will have names with the following
376pattern.
377
378  - "test/aarch32/test-assembler-{configuration name}-a32.cc"
379  - "test/aarch32/test-assembler-{configuration name}-special-case-a32.cc"
380  - "test/aarch32/test-simulator-{configuration name}-a32.cc"
381
382The "type" field describes the kind of testing we want to do, these types are
383recognized by the generator and, at the moment, can be one of "simulator",
384"assembler", "macro-assembler" and "assembler-negative". Simulator tests will
385run each instruction and record the changes while assembler tests will only
386record the code buffer and never execute anything. MacroAssembler tests
387currently only generate code to check that the MacroAssembler does not crash;
388the output itself is not yet tested. Because you may want to generate more than
389one test of the same type, as we are doing in the example, we need a way to
390differentiate them. You may use the optional "name" field for this. Negative
391assembler tests check that the instructions described are not allowed, which
392means that an exception is raised when VIXL is built in negative testing mode.
393
394Finally, we describe how to test the instruction by declaring a list of test
395cases with the "test-cases" field.
396
397Here is an example of what we can express:
398~~~
399[
400  // Generate all combinations of instructions where "rd" an "rn" are the same
401  // register and "cond" and "rm" are just the default.
402  // For example:
403  //   __ Xxx(al, r0, r0, r0);
404  //   __ Xxx(al, r1, r1, r0);
405  //   __ Xxx(al, r2, r2, r0);
406  //   ...
407  //   __ Xxx(al, r12, r12, r0);
408  //   __ Xxx(al, r13, r13, r0);
409  //   __ Xxx(al, r14, r14, r0);
410  //
411  // For each of the instructions above, run them with a different value in "rd"
412  // and "rn".
413  {
414    "name": "RdIsRn",
415    "operands": [
416      "rd", "rn"
417    ],
418    "operand-filter": "rd == rn",
419    "inputs": [
420      "rd", "rn"
421    ],
422    "input-filter": "rd == rn"
423  },
424  // Generate all combinations of instructions with different condition codes.
425  // For example:
426  //   __ Xxx(eq, r0, r0, r0);
427  //   __ Xxx(ne, r0, r0, r0);
428  //   __ Xxx(cs, r0, r0, r0);
429  //   ...
430  //   __ Xxx(gt, r0, r0, r0);
431  //   __ Xxx(le, r0, r0, r0);
432  //   __ Xxx(al, r0, r0, r0);
433  //
434  // For each of the instructions above, run them against all combinations of
435  // NZCV bits.
436  {
437    "name": "ConditionVersusNZCV",
438    "operands": [
439      "cond"
440    ],
441    "inputs": [
442      "apsr"
443    ]
444  },
445  // We are interested in testing that the Q bit gets set and cleared, so we've
446  // limited the instruction generation to a single instruction and instead have
447  // stressed the values put in "rn" and "rm".
448  //
449  // So for this instruction, we choose to run it will all combinations of
450  // values in "rn" and "rm". Additionally, we include "qbit" in the inputs,
451  // which will make the test set or clear it before executing the instruction.
452  // Note that "qbit" needs to be declared as an input in the instruction
453  // description (see "List of inputs" section).
454  {
455    "name": "Qbit",
456    "operands": [
457      "rn", "rm"
458    ],
459    "inputs": [
460      "qbit", "rn", "rm"
461    ],
462    "operand-filter": "rn != rm'",
463    "operand-limit": 1
464  },
465  // Generate 10 random instructions with all different registers but use the
466  // default condition.
467  // For example:
468  //   __ Xxx(al, r5, r1, r0);
469  //   __ Xxx(al, r8, r9, r7);
470  //   __ Xxx(al, r9, r1, r2);
471  //   __ Xxx(al, r0, r6, r2);
472  //   __ Xxx(al, r11, r9, r11);
473  //   __ Xxx(al, r14, r2, r11);
474  //   __ Xxx(al, r8, r2, r5);
475  //   __ Xxx(al, r10, r0, r1);
476  //   __ Xxx(al, r11, r2, r7);
477  //   __ Xxx(al, r2, r6, r1);
478  //
479  // For each instruction, feed it 200 different combination of values in the
480  // three registers.
481  {
482    "name": "RegisterSimulatorTest",
483    "operands": [
484      "rd", "rn", "rm"
485    ],
486    "inputs": [
487      "rd", "rn", "rm"
488    ],
489    "operand-limit": 10,
490    "input-limit": 200
491  }
492]
493~~~
494
495Assembler test cases are much simpler, here are some examples:
496~~~
497// Generate 2000 random instructions out of all possible operand combinations.
498{
499  "name": "LotsOfRandomInstructions",
500  "operands": [
501    "cond", "rd", "rn", "rm"
502  ],
503  "operand-limit": 2000
504},
505// Same as above but limit the test to 200 instructions where rd == rn.
506{
507  "name": "RdIsRn",
508  "operands": [
509    "cond", "rd", "rn", "rm"
510  ],
511  "operand-filter": "rd == rn",
512  "operand-limit": 200
513}
514~~~
515
516As can be expected, assembler test do not have the notion of "inputs".
517
518Here are details about each field. Note that all of them except for "name" are
519optional.
520
521  * "name":
522
523    A unique name should be given to the test case, it will be used to give the
524    generated C++ `const Input[]` array a name.
525
526  * "operands":
527
528    List of operand names that we are interested in testing. The generator will
529    lookup the list of variants for each operand and build the product of all of
530    them. It will then choose the default variant for the operands not specified
531    here.
532
533  * "operand-filter":
534
535    As you would expect, the product of all operand variants may be huge. To
536    prevent this, you may specify a Python expression to filter the list.
537
538  * "operand-limit":
539
540    We can potentially obtain a *massive* set of variants of instructions, as we
541    are computing a product of operand variants in "operands". This field allows
542    us to limit this by choosing a random sample from the computed variants.
543    Note that this is a seeded pseudo-random sample, and the seed corresponds to
544    the test case description. The same test case description will always
545    generate the same code.
546
547  * "inputs":
548
549    This is exactly the same as "operands" but for inputs.
550
551  * "input-filter":
552
553    Ditto.
554
555  * "input-limit":
556
557    Ditto.
558
559Here is an example of the C++ code that will be generated for a given test case.
560For simplicity, let's generate tests for an instruction with only `NZCV` and two
561registers as inputs.
562
563For the following test case, which will target encodings where `rd` and `rn` are
564the same registers:
565
566~~~
567{
568  "name": "RdIsRn",
569  "operands": [
570    "rd", "rn"
571  ],
572  "operand-filter": "rd == rn",
573  "inputs": [
574    "rd", "rn"
575  ],
576  "input-filter": "rd == rn"
577},
578~~~
579
580It will generate the following input array.
581
582~~~
583//                                apsr,        rd,         rn
584static const Inputs kRdIsRn[] = {{NoFlag, 0x00000000, 0x00000000},
585                                 {NoFlag, 0xffffffff, 0xffffffff},
586                                 {NoFlag, 0xabababab, 0xabababab},
587                                 {NoFlag, 0x5a5a5a5a, 0x5a5a5a5a}};
588~~~
589
590We can see that the default apsr value was chosen (NoFlag), as apsr is not in
591the list of "inputs".
592
593It will also generate a list of instructions to test:
594
595~~~
596static const TestLoopData kTests[] = {
597    {{al, r1, r1, 0x000000ab}, ARRAY_SIZE(kRdIsRn), kRdIsRn, "RdIsRn"},
598    {{al, r2, r2, 0x000000ab}, ARRAY_SIZE(kRdIsRn), kRdIsRn, "RdIsRn"},
599    {{al, r8, r8, 0x000000ab}, ARRAY_SIZE(kRdIsRn), kRdIsRn, "RdIsRn"},
600    {{al, r9, r9, 0x000000ab}, ARRAY_SIZE(kRdIsRn), kRdIsRn, "RdIsRn"},
601};
602~~~
603
604As a result, the new test we will assemble each instructions in "mnemonics" with
605all of the operands described in `kTests` above. And each instruction will be
606executed and passed all inputs in `kRdIsRn`.
607"""
608
609import subprocess
610import argparse
611import string
612import re
613import multiprocessing
614import functools
615
616import test_generator.parser
617
618
619default_config_files = [
620    # A32 and T32 tests
621    'test/aarch32/config/rd-rn-rm.json',
622    'test/aarch32/config/cond-dt-drt-drd-drn-drm-float.json',
623
624    # A32 specific tests
625    'test/aarch32/config/cond-rd-rn-operand-const-a32.json',
626    'test/aarch32/config/cond-rd-rn-operand-rm-a32.json',
627    'test/aarch32/config/cond-rd-rn-operand-rm-shift-amount-1to31-a32.json',
628    'test/aarch32/config/cond-rd-rn-operand-rm-shift-amount-1to32-a32.json',
629    'test/aarch32/config/cond-rd-rn-operand-rm-shift-rs-a32.json',
630    'test/aarch32/config/cond-rd-rn-operand-rm-ror-amount-a32.json',
631    'test/aarch32/config/cond-rd-rn-a32.json',
632    'test/aarch32/config/cond-rd-rn-pc-a32.json',
633    'test/aarch32/config/cond-rd-rn-rm-a32.json',
634    'test/aarch32/config/cond-rd-operand-const-a32.json',
635    'test/aarch32/config/cond-rd-operand-rn-a32.json',
636    'test/aarch32/config/cond-rd-operand-rn-shift-amount-1to31-a32.json',
637    'test/aarch32/config/cond-rd-operand-rn-shift-amount-1to32-a32.json',
638    'test/aarch32/config/cond-rd-operand-rn-shift-rs-a32.json',
639    'test/aarch32/config/cond-rd-operand-rn-ror-amount-a32.json',
640    'test/aarch32/config/cond-rd-memop-immediate-512-a32.json',
641    'test/aarch32/config/cond-rd-memop-immediate-8192-a32.json',
642    'test/aarch32/config/cond-rd-memop-rs-a32.json',
643    'test/aarch32/config/cond-rd-memop-rs-shift-amount-1to31-a32.json',
644    'test/aarch32/config/cond-rd-memop-rs-shift-amount-1to32-a32.json',
645
646    # T32 specific tests
647    'test/aarch32/config/cond-rd-rn-t32.json',
648    'test/aarch32/config/cond-rd-rn-rm-t32.json',
649    'test/aarch32/config/cond-rdlow-rnlow-rmlow-t32.json',
650    'test/aarch32/config/cond-rd-rn-operand-const-t32.json',
651    'test/aarch32/config/cond-rd-pc-operand-imm12-t32.json',
652    'test/aarch32/config/cond-rd-rn-operand-imm12-t32.json',
653    'test/aarch32/config/cond-rd-pc-operand-imm8-t32.json',
654    'test/aarch32/config/cond-rd-sp-operand-imm8-t32.json',
655    'test/aarch32/config/cond-rdlow-rnlow-operand-immediate-t32.json',
656    'test/aarch32/config/cond-sp-sp-operand-imm7-t32.json',
657    'test/aarch32/config/cond-rd-rn-operand-rm-t32.json',
658    'test/aarch32/config/cond-rd-rn-operand-rm-shift-amount-1to31-t32.json',
659    'test/aarch32/config/cond-rd-rn-operand-rm-shift-amount-1to32-t32.json',
660    'test/aarch32/config/cond-rd-rn-operand-rm-ror-amount-t32.json',
661    'test/aarch32/config/cond-rd-operand-const-t32.json',
662    'test/aarch32/config/cond-rd-operand-imm16-t32.json',
663    'test/aarch32/config/cond-rdlow-operand-imm8-t32.json',
664    'test/aarch32/config/cond-rd-operand-rn-shift-amount-1to31-t32.json',
665    'test/aarch32/config/cond-rd-operand-rn-shift-amount-1to32-t32.json',
666    'test/aarch32/config/cond-rd-operand-rn-shift-rs-t32.json',
667    'test/aarch32/config/cond-rd-operand-rn-ror-amount-t32.json',
668    'test/aarch32/config/cond-rd-operand-rn-t32.json',
669]
670
671
672# Link a test type with a template file.
673template_files = {
674    'simulator': "test/aarch32/config/template-simulator-aarch32.cc.in",
675    'assembler': "test/aarch32/config/template-assembler-aarch32.cc.in",
676    'macro-assembler': "test/aarch32/config/template-macro-assembler-aarch32.cc.in",
677    'assembler-negative': "test/aarch32/config/template-assembler-negative-aarch32.cc.in",
678}
679
680
681def BuildOptions():
682  result = argparse.ArgumentParser(
683      description = 'Test generator for AArch32.',
684      formatter_class=argparse.ArgumentDefaultsHelpFormatter)
685  result.add_argument('--config-files', nargs='+',
686                      default=default_config_files,
687                      metavar='FILE',
688                      help='Configuration files, each will generate a test file.')
689  result.add_argument('--clang-format',
690                      default='clang-format-3.8', help='Path to clang-format.')
691  result.add_argument('--jobs', '-j', type=int, metavar='N',
692                      default=multiprocessing.cpu_count(),
693                      help='Allow N jobs at once')
694  result.add_argument('--skip-traces', action='store_true',
695                      help='Skip generation of dummy traces.')
696  return result.parse_args()
697
698
699def DoNotEditComment(template_file):
700  # We rely on `clang-format` to wrap this comment to 80 characters.
701  return """
702// -----------------------------------------------------------------------------
703// This file is auto generated from the {} template file using tools/generate_tests.py.
704//
705// PLEASE DO NOT EDIT.
706// -----------------------------------------------------------------------------
707    """.format(template_file)
708
709def GenerateTest(generator, clang_format, skip_traces):
710  template_file = template_files[generator.test_type]
711  generated_file = ""
712  with open(template_file, "r") as f:
713    # Strip out comments starting with three forward slashes before creating the
714    # string.Template object.
715    template = string.Template(re.sub("\/\/\/.*", "", f.read()))
716
717    # The `generator` object has methods generating strings to fill the template.
718    generated_file = template.substitute({
719      # Add a top comment stating this file is auto-generated.
720      'do_not_edit_comment': DoNotEditComment(template_file),
721
722      # List of mnemonics.
723      'instruction_list_declaration': generator.InstructionListDeclaration(),
724
725      # Declarations.
726      'operand_list_declaration': generator.OperandDeclarations(),
727      'input_declarations': generator.InputDeclarations(),
728
729      # Definitions.
730      'input_definitions': generator.InputDefinitions(),
731      'test_case_definitions': generator.TestCaseDefinitions(),
732
733      # Include traces.
734      'include_trace_files': generator.IncludeTraceFiles(),
735
736      # Define a typedef for the MacroAssembler method.
737      'macroassembler_method_args': generator.MacroAssemblerMethodArgs(),
738
739      # Generate code to switch instruction set.
740      'macroassembler_set_isa': generator.MacroAssemblerSetISA(),
741
742      # Generate code to emit instructions.
743      'code_instantiate_operands': generator.CodeInstantiateOperands(),
744      'code_prologue': generator.CodePrologue(),
745      'code_epilogue': generator.CodeEpilogue(),
746      'code_parameter_list': generator.CodeParameterList(),
747
748      # Generate code to trace the execution and print C++.
749      'trace_print_outputs': generator.TracePrintOutputs(),
750
751      # Generate code to compare the results against a trace.
752      'check_instantiate_results': generator.CheckInstantiateResults(),
753      'check_instantiate_inputs': generator.CheckInstantiateInputs(),
754      'check_instantiate_references': generator.CheckInstantiateReferences(),
755      'check_results_against_references':
756          generator.CheckResultsAgainstReferences(),
757      'check_print_input': generator.CheckPrintInput(),
758      'check_print_expected': generator.CheckPrintExpected(),
759      'check_print_found': generator.CheckPrintFound(),
760
761      'test_isa': generator.TestISA(),
762      'test_name': generator.TestName(),
763      'isa_guard': generator.GetIsaGuard()
764    })
765  # Create the test case and pipe it through `clang-format` before writing it.
766  with open(
767      "test/aarch32/test-{}-{}-{}.cc".format(generator.test_type,
768                                             generator.test_name,
769                                             generator.test_isa),
770      "w") as f:
771    proc = subprocess.Popen([clang_format], stdin=subprocess.PIPE,
772                            stdout=subprocess.PIPE)
773    out, _ = proc.communicate(generated_file.encode())
774    f.write(out.decode())
775  if not skip_traces:
776    # Write dummy trace files into 'test/aarch32/traces/'.
777    generator.WriteEmptyTraces("test/aarch32/traces/")
778  print("Generated {} {} test for \"{}\".".format(generator.test_isa.upper(),
779                                                  generator.test_type,
780                                                  generator.test_name))
781
782if __name__ == '__main__':
783  args = BuildOptions()
784
785  # Each file in `args.config_files` populates a `Generator` object.
786  generators = test_generator.parser.Parse('test/aarch32/config/data-types.json',
787                                           args.config_files)
788
789  # Call the `GenerateTest` function for each generator object in parallel. This
790  # will use as many processes as defined by `-jN`, which defaults to 1.
791  with multiprocessing.Pool(processes=args.jobs) as pool:
792    pool.map(functools.partial(GenerateTest, clang_format=args.clang_format,
793                                             skip_traces=args.skip_traces),
794             generators)
795