tests/thread: Adjust thread tests so most are able to run on rp2 port.

The aim of this commit is to make it so that the existing thread tests can
be used to test the _thread module on the rp2 port.  The rp2 port only
allows up to one thread to be created at a time, and does not have the GIL
enabled.

The following changes have been made:
- run-tests.py skips mutation tests on rp2, because there's no GIL.
- run-tests.py skips other tests on rp2 that require more than one thread.
- The tests stop trying to start a new thread after there is an OSError,
  which indicates that the system cannot create more threads.
- Some of these tests also now run the test function on the main thread,
  not just the spawned threads.
- In some tests the output printing is adjusted so it's the same regardless
  of how many threads were spawned.
- Some time.sleep(1) are replaced with time.sleep(0) to make the tests run
  a little faster (finish sooner when the work is done).

For the most part the tests are unchanged for existing platforms like esp32
and unix.

Signed-off-by: Damien George <damien@micropython.org>

tests/run-tests.py

@@ -562,13 +562,19 @@ def run_tests(pyb, tests, args, result_dir, num_threads=1):
         skip_tests.add("cmdline/repl_sys_ps1_ps2.py")
         skip_tests.add("extmod/ssl_poll.py")
 
-    # Some tests shouldn't be run on a PC
-    if args.target == "unix":
-        # unix build does not have the GIL so can't run thread mutation tests
+    # Skip thread mutation tests on targets that don't have the GIL.
+    if args.target in ("rp2", "unix"):
         for t in tests:
             if t.startswith("thread/mutate_"):
                 skip_tests.add(t)
 
+    # Skip thread tests that require many threads on targets that don't support multiple threads.
+    if args.target == "rp2":
+        skip_tests.add("thread/stress_heap.py")
+        skip_tests.add("thread/thread_lock2.py")
+        skip_tests.add("thread/thread_lock3.py")
+        skip_tests.add("thread/thread_shared2.py")
+
     # Some tests shouldn't be run on pyboard
     if args.target != "unix":
         skip_tests.add("basics/exception_chain.py")  # warning is not printed
@@ -987,7 +993,7 @@ the last matching regex is used:
             elif args.target in ("renesas-ra"):
                 test_dirs += ("float", "inlineasm", "renesas-ra")
             elif args.target == "rp2":
-                test_dirs += ("float", "stress", "inlineasm")
+                test_dirs += ("float", "stress", "inlineasm", "thread")
             elif args.target in ("esp8266", "esp32", "minimal", "nrf"):
                 test_dirs += ("float",)
             elif args.target == "wipy":

tests/thread/stress_schedule.py

@@ -19,6 +19,7 @@ _TIMEOUT_MS = 10000
 
 n = 0  # How many times the task successfully ran.
 t = None  # Start time of test, assigned here to preallocate entry in globals dict.
+thread_run = True  # If the thread should continue running.
 
 
 def task(x):
@@ -27,7 +28,7 @@ def task(x):
 
 
 def thread():
-    while True:
+    while thread_run:
         try:
             micropython.schedule(task, None)
         except RuntimeError:
@@ -36,13 +37,21 @@ def thread():
 
 
 for i in range(8):
-    _thread.start_new_thread(thread, ())
+    try:
+        _thread.start_new_thread(thread, ())
+    except OSError:
+        # System cannot create a new thead, so stop trying to create them.
+        break
 
 # Wait up to 10 seconds for 10000 tasks to be scheduled.
 t = time.ticks_ms()
 while n < _NUM_TASKS and time.ticks_diff(time.ticks_ms(), t) < _TIMEOUT_MS:
     pass
 
+# Stop all threads.
+thread_run = False
+time.sleep_ms(20)
+
 if n < _NUM_TASKS:
     # Not all the tasks were scheduled, likely the scheduler stopped working.
     print(n)

tests/thread/thread_gc1.py

@@ -16,21 +16,34 @@ def thread_entry(n):
             data[i] = data[i]
         gc.collect()
 
-    # print whether the data remains intact and indicate we are finished
+    # check whether the data remains intact and indicate we are finished
     with lock:
-        print(list(data) == list(range(256)))
-        global n_finished
+        global n_correct, n_finished
+        n_correct += list(data) == list(range(256))
         n_finished += 1
 
 
 lock = _thread.allocate_lock()
-n_thread = 4
+n_thread = 0
+n_thread_max = 4
+n_correct = 0
 n_finished = 0
 
 # spawn threads
-for i in range(n_thread):
-    _thread.start_new_thread(thread_entry, (10,))
+for _ in range(n_thread_max):
+    try:
+        _thread.start_new_thread(thread_entry, (10,))
+        n_thread += 1
+    except OSError:
+        # System cannot create a new thead, so stop trying to create them.
+        break
+
+# also run the function on this main thread
+thread_entry(10)
+n_thread += 1
 
 # busy wait for threads to finish
 while n_finished < n_thread:
     pass
+
+print(n_correct == n_finished)

tests/thread/thread_ident1.py

@@ -5,7 +5,12 @@
 import _thread
 
 
+# Initialise variables (also preallocate their spot in the globals dict so the
+# globals dict is not resized while threads are running).
 tid = None
+tid_main = None
+new_tid = None
+finished = False
 
 
 def thread_entry():
@@ -19,7 +24,6 @@ def thread_entry():
 tid_main = _thread.get_ident()
 print("main", type(tid_main) == int, tid_main != 0)
 
-finished = False
 new_tid = _thread.start_new_thread(thread_entry, ())
 
 while not finished:

tests/thread/thread_lock4.py

@@ -36,14 +36,18 @@ output_lock = _thread.allocate_lock()
 
 # spawn threads to do the jobs
 for i in range(4):
-    _thread.start_new_thread(thread_entry, ())
+    try:
+        _thread.start_new_thread(thread_entry, ())
+    except OSError:
+        # System cannot create a new thead, so stop trying to create them.
+        break
 
 # wait for the jobs to complete
 while True:
     with jobs_lock:
         if len(output) == n_jobs:
             break
-    time.sleep(1)
+    time.sleep(0)
 
 # sort and print the results
 output.sort(key=lambda x: x[0])

tests/thread/thread_qstr1.py

@@ -24,16 +24,26 @@ def th(base, n):
 
 
 lock = _thread.allocate_lock()
-n_thread = 4
+n_thread = 0
+n_thread_max = 4
 n_finished = 0
 n_qstr_per_thread = 100  # make 1000 for a more stressful test (uses more heap)
 
 # spawn threads
-for i in range(n_thread):
-    _thread.start_new_thread(th, (i * n_qstr_per_thread, n_qstr_per_thread))
+for _ in range(n_thread_max):
+    try:
+        _thread.start_new_thread(th, (n_thread * n_qstr_per_thread, n_qstr_per_thread))
+        n_thread += 1
+    except OSError:
+        # System cannot create a new thead, so stop trying to create them.
+        break
+
+# also run the function on this main thread
+th(n_thread * n_qstr_per_thread, n_qstr_per_thread)
+n_thread += 1
 
 # wait for threads to finish
 while n_finished < n_thread:
-    time.sleep(1)
+    time.sleep(0)
 
 print("pass")

tests/thread/thread_shared1.py

@@ -18,15 +18,25 @@ def thread_entry(n, tup):
 
 
 lock = _thread.allocate_lock()
-n_thread = 2
+n_thread = 0
+n_thread_max = 2
 n_finished = 0
 
 # the shared data structure
 tup = (1, 2, 3, 4)
 
 # spawn threads
-for i in range(n_thread):
-    _thread.start_new_thread(thread_entry, (100, tup))
+for _ in range(n_thread_max):
+    try:
+        _thread.start_new_thread(thread_entry, (100, tup))
+        n_thread += 1
+    except OSError:
+        # System cannot create a new thead, so stop trying to create them.
+        break
+
+# also run the function on this main thread
+thread_entry(100, tup)
+n_thread += 1
 
 # busy wait for threads to finish
 while n_finished < n_thread:

tests/thread/thread_sleep1.py

@@ -12,7 +12,8 @@ else:
 import _thread
 
 lock = _thread.allocate_lock()
-n_thread = 4
+n_thread = 0
+n_thread_max = 4
 n_finished = 0
 
 
@@ -24,10 +25,20 @@ def thread_entry(t):
         n_finished += 1
 
 
-for i in range(n_thread):
-    _thread.start_new_thread(thread_entry, (10 * i,))
+# spawn threads
+for _ in range(n_thread_max):
+    try:
+        _thread.start_new_thread(thread_entry, (10 * n_thread,))
+        n_thread += 1
+    except OSError:
+        # System cannot create a new thead, so stop trying to create them.
+        break
+
+# also run the function on this main thread
+thread_entry(10 * n_thread)
+n_thread += 1
 
 # wait for threads to finish
 while n_finished < n_thread:
     sleep_ms(100)
-print("done", n_thread)
+print("done")