diff mbox series

[v3] rt-tests: hwlatdetect.py Covert to f-strings

Message ID 20221111184933.43159-1-lleshchi@redhat.com
State New
Headers show
Series [v3] rt-tests: hwlatdetect.py Covert to f-strings | expand

Commit Message

Leah Leshchinsky Nov. 11, 2022, 6:49 p.m. UTC
Add f-strings where applicable for readability.

Signed-off-by: Leah Leshchinsky <lleshchi@redhat.com>

Comments

John Kacur Nov. 11, 2022, 7:33 p.m. UTC | #1
On Fri, 11 Nov 2022, Leah Leshchinsky wrote:

> Add f-strings where applicable for readability.
> 
> Signed-off-by: Leah Leshchinsky <lleshchi@redhat.com>
> 
> diff --git a/src/hwlatdetect/hwlatdetect.py b/src/hwlatdetect/hwlatdetect.py
> index 9ef50f862127..1efbe7a60059 100755
> --- a/src/hwlatdetect/hwlatdetect.py
> +++ b/src/hwlatdetect/hwlatdetect.py
> @@ -59,7 +59,7 @@ class DebugFS:
>          if self.premounted or self.mounted:
>              debug("not mounting debugfs")
>              return True
> -        debug("mounting debugfs at %s" % path)
> +        debug(f"mounting debugfs at {path}")
>          self.mountpoint = path
>          cmd = ['/bin/mount', '-t', 'debugfs', 'none', path]
>          self.mounted = (subprocess.call(cmd) == 0)
> @@ -90,7 +90,7 @@ class DebugFS:
>              try:
>                  val = f.readline()
>              except OSError as e:
> -                print("errno: %s" % e)
> +                print(f"errno: {e}")
>                  if e.errno == errno.EAGAIN:
>                      val = None
>                  else:
> @@ -192,18 +192,18 @@ class Detector:
>          count = 0
>          threshold = int(self.get("threshold"))
>          self.c_states_off()
> -        debug("enabling detector module (threshold: %d)" % threshold)
> +        debug(f"enabling detector module (threshold: {threshold})")
>          self.set("enable", 1)
>          while self.get("enable") == 0:
>              debug("still disabled, retrying in a bit")
>              count += 1
>              time.sleep(0.1)
> -            debug("retrying enable of detector module (%d)" % count)
> +            debug(f"retrying enable of detector module ({count})")
>              self.set("enable", 1)
>          if self.get("threshold") != threshold:
>              debug("start: threshold reset by start, fixing")
>              self.set("threshold", threshold)
> -        debug("detector module enabled (threshold: %d)" % int(self.get("threshold")))
> +        debug(f"detector module enabled (threshold: {int(self.get('threshold'))})")
>  
>      def stop(self):
>          """ disable the detector """
> @@ -214,7 +214,7 @@ class Detector:
>              debug("still enabled, retrying in a bit")
>              count += 1
>              time.sleep(0.1)
> -            debug("retrying disable of detector module(%d)" % count)
> +            debug(f"retrying disable of detector module({count})")
>              self.set("enable", 0)
>          self.c_states_on()
>          debug("detector module disabled")
> @@ -248,7 +248,7 @@ class Tracer(Detector):
>              self.outer = int(o)
>  
>          def __str__(self):
> -            return "ts: %s, inner:%d, outer:%d" % (self.timestamp, self.inner, self.outer)
> +            return f"ts: {self.timestamp}, inner:{self.inner}, outer:{self.outer}"
>  
>          def display(self):
>              """ convert object to string and print """
> @@ -322,8 +322,8 @@ class Tracer(Detector):
>          if output:
>              with open(output, "w") as f:
>                  for s in self.samples:
> -                    f.write("%s\n" % str(s))
> -                print("report saved to %s (%d samples)" % (output, len(self.samples)))
> +                    f.write(f"{s}\n")
> +                print(f"report saved to {output} ({len(self.samples)} samples)")
>  
>      def display(self):
>          for s in self.samples:
> @@ -341,7 +341,7 @@ def seconds(sval):
>      if sval.isdigit():
>          return int(sval)
>      if sval[-2].isalpha():
> -        raise RuntimeError("illegal suffix for seconds: '%s'" % sval[-2:-1])
> +        raise RuntimeError(f"illegal suffix for seconds: '{sval[-2:-1]}'")
>      if sval[-1:] == 's':
>          return int(sval[0:-1])
>      if sval[-1:] == 'm':
> @@ -352,7 +352,7 @@ def seconds(sval):
>          return int(sval[0:-1]) * 86400
>      if sval[-1:] == 'w':
>          return int(sval[0:-1]) * 86400 * 7
> -    raise RuntimeError("invalid input for seconds: '%s'" % sval)
> +    raise RuntimeError(f"invalid input for seconds: '{sval}'")
>  
>  
>  def milliseconds(sval):
> @@ -367,7 +367,7 @@ def milliseconds(sval):
>          return int(sval[0:-1]) * 1000 * 60
>      if sval[-1] == 'h':
>          return int(sval[0:-1]) * 1000 * 60 * 60
> -    raise RuntimeError("invalid input for milliseconds: %s" % sval)
> +    raise RuntimeError(f"invalid input for milliseconds: {sval}")
>  
>  
>  def microseconds(sval):
> @@ -380,7 +380,7 @@ def microseconds(sval):
>          return int(sval[0:-2])
>      if sval[-1:] == 's':
>          return int(sval[0:-1]) * 1000 * 1000
> -    raise RuntimeError("invalid input for microseconds: '%s'" % sval)
> +    raise RuntimeError(f"invalid input for microseconds: '{sval}'")
>  
>  
>  if __name__ == '__main__':
> @@ -444,37 +444,37 @@ if __name__ == '__main__':
>      if args.threshold:
>          t = microseconds(args.threshold)
>          detect.set("threshold", t)
> -        debug("threshold set to %dus" % t)
> +        debug(f"threshold set to {t}us")
>  
>      if args.hardlimit:
>          hardlimit = microseconds(args.hardlimit)
>      else:
>          hardlimit = int(detect.get("threshold"))
> -    debug("hardlimit set to %dus" % hardlimit)
> +    debug(f"hardlimit set to {hardlimit}us")
>  
>      if args.window:
>          w = microseconds(args.window)
>          if w < int(detect.get("width")):
> -            debug("shrinking width to %d for new window of %d" % (w/2, w))
> +            debug(f"shrinking width to {w//2} for new window of {w}")
>              detect.set("width", w/2)
> -        debug("window parameter = %d" % w)
> +        debug(f"window parameter = {w}")
>          detect.set("window", w)
> -        debug("window for sampling set to %dus" % w)
> +        debug(f"window for sampling set to {w}us")
>  
>      if args.width:
>          w = microseconds(args.width)
>          if w > int(detect.get("window")):
> -            debug("widening window to %d for new width of %d" % (w*2, w))
> +            debug(f"widening window to {w*2} for new width of {w}")
>              detect.set("window", w*2)
> -        debug("width parameter = %d" % w)
> +        debug(f"width parameter = {w}")
>          detect.set("width", w)
> -        debug("sample width set to %dus" % w)
> +        debug(f"sample width set to {w}us")
>  
>      if args.duration:
>          detect.testduration = seconds(args.duration)
>      else:
>          detect.testduration = 120  # 2 minutes
> -    debug("test duration is %ds" % detect.testduration)
> +    debug(f"test duration is {detect.testduration}s")
>  
>      if args.watch:
>          watch = True
> @@ -491,18 +491,18 @@ if __name__ == '__main__':
>                  l, r = map(int, [c, c])
>              for i in range(l, r + 1):
>                  cpumask |= (1 << i)
> -        debug("set tracing_cpumask to %x" % cpumask)
> -        detect.set("cpumask", "%x" % cpumask)
> +        debug(f"set tracing_cpumask to {cpumask:x}")
> +        detect.set("cpumask", f"{cpumask:x}")
>  
> -    info("hwlatdetect:  test duration %d seconds" % detect.testduration)
> -    info("   detector: %s" % detect.type)
> +    info(f"hwlatdetect:  test duration {detect.testduration} seconds")
> +    info(f"   detector: {detect.type}")
>      info("   parameters:")
> -    info("        CPU list:          %s"   % args.cpulist)
> -    info("        Latency threshold: %dus" % int(detect.get("threshold")))
> -    info("        Sample window:     %dus" % int(detect.get("window")))
> -    info("        Sample width:      %dus" % int(detect.get("width")))
> -    info("     Non-sampling period:  %dus" % (int(detect.get("window")) - int(detect.get("width"))))
> -    info("        Output File:       %s" % reportfile)
> +    info(f"        CPU list:          {args.cpulist}")
> +    info(f"        Latency threshold: {int(detect.get('threshold'))}us")
> +    info(f"        Sample window:      {int(detect.get('window'))}us")
> +    info(f"        Sample width:      {int(detect.get('width'))}us")
> +    info(f"     Non-sampling period:  {(int(detect.get('window')) - int(detect.get('width')))}us")
> +    info(f"        Output File:       {reportfile}")
>      info("\nStarting test")
>  
>      detect.detect()
> @@ -513,12 +513,12 @@ if __name__ == '__main__':
>      if max_latency == 0:
>          info("Max Latency: Below threshold")
>      else:
> -        info("Max Latency: %dus" % max_latency)
> +        info(f"Max Latency: {int(max_latency)}us")
>  
> -    info("Samples recorded: %d" % len(detect.samples))
> +    info(f"Samples recorded: {len(detect.samples)}")
>  
>      exceeding = detect.get("count")
> -    info("Samples exceeding threshold: %d" % exceeding)
> +    info(f"Samples exceeding threshold: {exceeding}")
>  
>      if detect.have_msr:
>          finishsmi = detect.getsmicounts()
> @@ -527,8 +527,8 @@ if __name__ == '__main__':
>              if count > detect.initsmi[i]:
>                  smis = count - detect.initsmi[i]
>                  total_smis += smis
> -                print("%d SMIs occured on cpu %d" % (smis, i))
> -        info("SMIs during run: %d" % total_smis)
> +                print(f"{smis} SMIs occured on cpu {i}")
> +        info(f"SMIs during run: {total_smis}")
>  
>      maxlatency = int(detect.get("max"))
>  
> -- 

Signed-off-by: John Kacur <jkacur@redhat.com>
diff mbox series

Patch

diff --git a/src/hwlatdetect/hwlatdetect.py b/src/hwlatdetect/hwlatdetect.py
index 9ef50f862127..1efbe7a60059 100755
--- a/src/hwlatdetect/hwlatdetect.py
+++ b/src/hwlatdetect/hwlatdetect.py
@@ -59,7 +59,7 @@  class DebugFS:
         if self.premounted or self.mounted:
             debug("not mounting debugfs")
             return True
-        debug("mounting debugfs at %s" % path)
+        debug(f"mounting debugfs at {path}")
         self.mountpoint = path
         cmd = ['/bin/mount', '-t', 'debugfs', 'none', path]
         self.mounted = (subprocess.call(cmd) == 0)
@@ -90,7 +90,7 @@  class DebugFS:
             try:
                 val = f.readline()
             except OSError as e:
-                print("errno: %s" % e)
+                print(f"errno: {e}")
                 if e.errno == errno.EAGAIN:
                     val = None
                 else:
@@ -192,18 +192,18 @@  class Detector:
         count = 0
         threshold = int(self.get("threshold"))
         self.c_states_off()
-        debug("enabling detector module (threshold: %d)" % threshold)
+        debug(f"enabling detector module (threshold: {threshold})")
         self.set("enable", 1)
         while self.get("enable") == 0:
             debug("still disabled, retrying in a bit")
             count += 1
             time.sleep(0.1)
-            debug("retrying enable of detector module (%d)" % count)
+            debug(f"retrying enable of detector module ({count})")
             self.set("enable", 1)
         if self.get("threshold") != threshold:
             debug("start: threshold reset by start, fixing")
             self.set("threshold", threshold)
-        debug("detector module enabled (threshold: %d)" % int(self.get("threshold")))
+        debug(f"detector module enabled (threshold: {int(self.get('threshold'))})")
 
     def stop(self):
         """ disable the detector """
@@ -214,7 +214,7 @@  class Detector:
             debug("still enabled, retrying in a bit")
             count += 1
             time.sleep(0.1)
-            debug("retrying disable of detector module(%d)" % count)
+            debug(f"retrying disable of detector module({count})")
             self.set("enable", 0)
         self.c_states_on()
         debug("detector module disabled")
@@ -248,7 +248,7 @@  class Tracer(Detector):
             self.outer = int(o)
 
         def __str__(self):
-            return "ts: %s, inner:%d, outer:%d" % (self.timestamp, self.inner, self.outer)
+            return f"ts: {self.timestamp}, inner:{self.inner}, outer:{self.outer}"
 
         def display(self):
             """ convert object to string and print """
@@ -322,8 +322,8 @@  class Tracer(Detector):
         if output:
             with open(output, "w") as f:
                 for s in self.samples:
-                    f.write("%s\n" % str(s))
-                print("report saved to %s (%d samples)" % (output, len(self.samples)))
+                    f.write(f"{s}\n")
+                print(f"report saved to {output} ({len(self.samples)} samples)")
 
     def display(self):
         for s in self.samples:
@@ -341,7 +341,7 @@  def seconds(sval):
     if sval.isdigit():
         return int(sval)
     if sval[-2].isalpha():
-        raise RuntimeError("illegal suffix for seconds: '%s'" % sval[-2:-1])
+        raise RuntimeError(f"illegal suffix for seconds: '{sval[-2:-1]}'")
     if sval[-1:] == 's':
         return int(sval[0:-1])
     if sval[-1:] == 'm':
@@ -352,7 +352,7 @@  def seconds(sval):
         return int(sval[0:-1]) * 86400
     if sval[-1:] == 'w':
         return int(sval[0:-1]) * 86400 * 7
-    raise RuntimeError("invalid input for seconds: '%s'" % sval)
+    raise RuntimeError(f"invalid input for seconds: '{sval}'")
 
 
 def milliseconds(sval):
@@ -367,7 +367,7 @@  def milliseconds(sval):
         return int(sval[0:-1]) * 1000 * 60
     if sval[-1] == 'h':
         return int(sval[0:-1]) * 1000 * 60 * 60
-    raise RuntimeError("invalid input for milliseconds: %s" % sval)
+    raise RuntimeError(f"invalid input for milliseconds: {sval}")
 
 
 def microseconds(sval):
@@ -380,7 +380,7 @@  def microseconds(sval):
         return int(sval[0:-2])
     if sval[-1:] == 's':
         return int(sval[0:-1]) * 1000 * 1000
-    raise RuntimeError("invalid input for microseconds: '%s'" % sval)
+    raise RuntimeError(f"invalid input for microseconds: '{sval}'")
 
 
 if __name__ == '__main__':
@@ -444,37 +444,37 @@  if __name__ == '__main__':
     if args.threshold:
         t = microseconds(args.threshold)
         detect.set("threshold", t)
-        debug("threshold set to %dus" % t)
+        debug(f"threshold set to {t}us")
 
     if args.hardlimit:
         hardlimit = microseconds(args.hardlimit)
     else:
         hardlimit = int(detect.get("threshold"))
-    debug("hardlimit set to %dus" % hardlimit)
+    debug(f"hardlimit set to {hardlimit}us")
 
     if args.window:
         w = microseconds(args.window)
         if w < int(detect.get("width")):
-            debug("shrinking width to %d for new window of %d" % (w/2, w))
+            debug(f"shrinking width to {w//2} for new window of {w}")
             detect.set("width", w/2)
-        debug("window parameter = %d" % w)
+        debug(f"window parameter = {w}")
         detect.set("window", w)
-        debug("window for sampling set to %dus" % w)
+        debug(f"window for sampling set to {w}us")
 
     if args.width:
         w = microseconds(args.width)
         if w > int(detect.get("window")):
-            debug("widening window to %d for new width of %d" % (w*2, w))
+            debug(f"widening window to {w*2} for new width of {w}")
             detect.set("window", w*2)
-        debug("width parameter = %d" % w)
+        debug(f"width parameter = {w}")
         detect.set("width", w)
-        debug("sample width set to %dus" % w)
+        debug(f"sample width set to {w}us")
 
     if args.duration:
         detect.testduration = seconds(args.duration)
     else:
         detect.testduration = 120  # 2 minutes
-    debug("test duration is %ds" % detect.testduration)
+    debug(f"test duration is {detect.testduration}s")
 
     if args.watch:
         watch = True
@@ -491,18 +491,18 @@  if __name__ == '__main__':
                 l, r = map(int, [c, c])
             for i in range(l, r + 1):
                 cpumask |= (1 << i)
-        debug("set tracing_cpumask to %x" % cpumask)
-        detect.set("cpumask", "%x" % cpumask)
+        debug(f"set tracing_cpumask to {cpumask:x}")
+        detect.set("cpumask", f"{cpumask:x}")
 
-    info("hwlatdetect:  test duration %d seconds" % detect.testduration)
-    info("   detector: %s" % detect.type)
+    info(f"hwlatdetect:  test duration {detect.testduration} seconds")
+    info(f"   detector: {detect.type}")
     info("   parameters:")
-    info("        CPU list:          %s"   % args.cpulist)
-    info("        Latency threshold: %dus" % int(detect.get("threshold")))
-    info("        Sample window:     %dus" % int(detect.get("window")))
-    info("        Sample width:      %dus" % int(detect.get("width")))
-    info("     Non-sampling period:  %dus" % (int(detect.get("window")) - int(detect.get("width"))))
-    info("        Output File:       %s" % reportfile)
+    info(f"        CPU list:          {args.cpulist}")
+    info(f"        Latency threshold: {int(detect.get('threshold'))}us")
+    info(f"        Sample window:      {int(detect.get('window'))}us")
+    info(f"        Sample width:      {int(detect.get('width'))}us")
+    info(f"     Non-sampling period:  {(int(detect.get('window')) - int(detect.get('width')))}us")
+    info(f"        Output File:       {reportfile}")
     info("\nStarting test")
 
     detect.detect()
@@ -513,12 +513,12 @@  if __name__ == '__main__':
     if max_latency == 0:
         info("Max Latency: Below threshold")
     else:
-        info("Max Latency: %dus" % max_latency)
+        info(f"Max Latency: {int(max_latency)}us")
 
-    info("Samples recorded: %d" % len(detect.samples))
+    info(f"Samples recorded: {len(detect.samples)}")
 
     exceeding = detect.get("count")
-    info("Samples exceeding threshold: %d" % exceeding)
+    info(f"Samples exceeding threshold: {exceeding}")
 
     if detect.have_msr:
         finishsmi = detect.getsmicounts()
@@ -527,8 +527,8 @@  if __name__ == '__main__':
             if count > detect.initsmi[i]:
                 smis = count - detect.initsmi[i]
                 total_smis += smis
-                print("%d SMIs occured on cpu %d" % (smis, i))
-        info("SMIs during run: %d" % total_smis)
+                print(f"{smis} SMIs occured on cpu {i}")
+        info(f"SMIs during run: {total_smis}")
 
     maxlatency = int(detect.get("max"))