src/v8/tools/gen-inlining-tests.py - cobalt - Git at Google

 #!/usr/bin/env python3

 # Copyright 2016 the V8 project authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.


 from collections import namedtuple
 import textwrap
 import sys

 SHARD_FILENAME_TEMPLATE = "test/mjsunit/compiler/inline-exception-{shard}.js"
 # Generates 2 files. Found by trial and error.
 SHARD_SIZE = 97

 PREAMBLE = """

 // Copyright 2016 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 // Flags: --allow-natives-syntax --no-always-opt

 // This test file was generated by tools/gen-inlining-tests.py .

 // Global variables
 var deopt = undefined; // either true or false
 var counter = 0;

 function resetState() {
   counter = 0;
 }

 function warmUp(f) {
   try {
     f();
   } catch (ex) {
     // ok
   }
   try {
     f();
   } catch (ex) {
     // ok
   }
 }

 function resetOptAndAssertResultEquals(expected, f) {
   warmUp(f);
   resetState();
   // %DebugPrint(f);
   eval("'dont optimize this function itself please, but do optimize f'");
   %OptimizeFunctionOnNextCall(f);
   assertEquals(expected, f());
 }

 function resetOptAndAssertThrowsWith(expected, f) {
   warmUp(f);
   resetState();
   // %DebugPrint(f);
   eval("'dont optimize this function itself please, but do optimize f'");
   %OptimizeFunctionOnNextCall(f);
   try {
     var result = f();
     fail("resetOptAndAssertThrowsWith",
         "exception: " + expected,
         "result: " + result);
   } catch (ex) {
     assertEquals(expected, ex);
   }
 }

 function increaseAndReturn15() {
   if (deopt) %DeoptimizeFunction(f);
   counter++;
   return 15;
 }

 function increaseAndThrow42() {
   if (deopt) %DeoptimizeFunction(f);
   counter++;
   throw 42;
 }

 function increaseAndReturn15_noopt_inner() {
   if (deopt) %DeoptimizeFunction(f);
   counter++;
   return 15;
 }

 %NeverOptimizeFunction(increaseAndReturn15_noopt_inner);

 function increaseAndThrow42_noopt_inner() {
   if (deopt) %DeoptimizeFunction(f);
   counter++;
   throw 42;
 }

 %NeverOptimizeFunction(increaseAndThrow42_noopt_inner);

 // Alternative 1

 function returnOrThrow(doReturn) {
   if (doReturn) {
     return increaseAndReturn15();
   } else {
     return increaseAndThrow42();
   }
 }

 // Alternative 2

 function increaseAndReturn15_calls_noopt() {
   return increaseAndReturn15_noopt_inner();
 }

 function increaseAndThrow42_calls_noopt() {
   return increaseAndThrow42_noopt_inner();
 }

 // Alternative 3.
 // When passed either {increaseAndReturn15} or {increaseAndThrow42}, it acts
 // as the other one.
 function invertFunctionCall(f) {
   var result;
   try {
     result = f();
   } catch (ex) {
     return ex - 27;
   }
   throw result + 27;
 }

 // Alternative 4: constructor
 function increaseAndStore15Constructor() {
   if (deopt) %DeoptimizeFunction(f);
   ++counter;
   this.x = 15;
 }

 function increaseAndThrow42Constructor() {
   if (deopt) %DeoptimizeFunction(f);
   ++counter;
   this.x = 42;
   throw this.x;
 }

 // Alternative 5: property
 var magic = {};
 Object.defineProperty(magic, 'prop', {
   get: function () {
     if (deopt) %DeoptimizeFunction(f);
     return 15 + 0 * ++counter;
   },

   set: function(x) {
     // argument should be 37
     if (deopt) %DeoptimizeFunction(f);
     counter -= 36 - x; // increments counter
     throw 42;
   }
 })

 // Generate type feedback.

 assertEquals(15, increaseAndReturn15_calls_noopt());
 assertThrowsEquals(function() { return increaseAndThrow42_noopt_inner() }, 42);

 assertEquals(15, (new increaseAndStore15Constructor()).x);
 assertThrowsEquals(function() {
         return (new increaseAndThrow42Constructor()).x;
     },
     42);

 function runThisShard() {

 """.strip()

 def booltuples(n):
   """booltuples(2) yields 4 tuples: (False, False), (False, True),
   (True, False), (True, True)."""

   assert isinstance(n, int)
   if n <= 0:
     yield ()
   else:
     for initial in booltuples(n-1):
       yield initial + (False,)
       yield initial + (True,)

 def fnname(flags):
     assert len(FLAGLETTERS) == len(flags)

     return "f_" + ''.join(
           FLAGLETTERS[i] if b else '_'
           for (i, b) in enumerate(flags))

 NUM_TESTS_PRINTED = 0
 NUM_TESTS_IN_SHARD = 0

 def printtest(flags):
   """Print a test case. Takes a couple of boolean flags, on which the
   printed Javascript code depends."""

   assert all(isinstance(flag, bool) for flag in flags)

   # The alternative flags are in reverse order so that if we take all possible
   # tuples, ordered lexicographically from false to true, we get first the
   # default, then alternative 1, then 2, etc.
   (
     alternativeFn5,      # use alternative #5 for returning/throwing:
                          #   return/throw using property
     alternativeFn4,      # use alternative #4 for returning/throwing:
                          #   return/throw using constructor
     alternativeFn3,      # use alternative #3 for returning/throwing:
                          #   return/throw indirectly, based on function argument
     alternativeFn2,      # use alternative #2 for returning/throwing:
                          #   return/throw indirectly in unoptimized code,
                          #   no branching
     alternativeFn1,      # use alternative #1 for returning/throwing:
                          #   return/throw indirectly, based on boolean arg
     tryThrows,           # in try block, call throwing function
     tryReturns,          # in try block, call returning function
     tryFirstReturns,     # in try block, returning goes before throwing
     tryResultToLocal,    # in try block, result goes to local variable
     doCatch,             # include catch block
     catchReturns,        # in catch block, return
     catchWithLocal,      # in catch block, modify or return the local variable
     catchThrows,         # in catch block, throw
     doFinally,           # include finally block
     finallyReturns,      # in finally block, return local variable
     finallyThrows,       # in finally block, throw
     endReturnLocal,      # at very end, return variable local
     deopt,               # deopt inside inlined function
   ) = flags

   # BASIC RULES

   # Only one alternative can be applied at any time.
   if (alternativeFn1 + alternativeFn2 + alternativeFn3 + alternativeFn4
       + alternativeFn5 > 1):
     return

   # In try, return or throw, or both.
   if not (tryReturns or tryThrows): return

   # Either doCatch or doFinally.
   if not doCatch and not doFinally: return

   # Catch flags only make sense when catching
   if not doCatch and (catchReturns or catchWithLocal or catchThrows):
     return

   # Finally flags only make sense when finallying
   if not doFinally and (finallyReturns or finallyThrows):
     return

   # tryFirstReturns is only relevant when both tryReturns and tryThrows are
   # true.
   if tryFirstReturns and not (tryReturns and tryThrows): return

   # From the try and finally block, we can return or throw, but not both.
   if catchReturns and catchThrows: return
   if finallyReturns and finallyThrows: return

   # If at the end we return the local, we need to have touched it.
   if endReturnLocal and not (tryResultToLocal or catchWithLocal): return

   # PRUNING

   anyAlternative = any([alternativeFn1, alternativeFn2, alternativeFn3,
       alternativeFn4, alternativeFn5])
   specificAlternative = any([alternativeFn2, alternativeFn3])
   rareAlternative = not specificAlternative

   # If try returns and throws, then don't catchWithLocal, endReturnLocal, or
   # deopt, or do any alternative.
   if (tryReturns and tryThrows and
       (catchWithLocal or endReturnLocal or deopt or anyAlternative)):
     return
   # We don't do any alternative if we do a finally.
   if doFinally and anyAlternative: return
   # We only use the local variable if we do alternative #2 or #3.
   if ((tryResultToLocal or catchWithLocal or endReturnLocal) and
       not specificAlternative):
     return
   # We don't need to test deopting into a finally.
   if doFinally and deopt: return

   # We're only interested in alternative #2 if we have endReturnLocal, no
   # catchReturns, and no catchThrows, and deopt.
   if (alternativeFn2 and
       (not endReturnLocal or catchReturns or catchThrows or not deopt)):
     return


   # Flag check succeeded.

   trueFlagNames = [name for (name, value) in flags._asdict().items() if value]
   flagsMsgLine = "  // Variant flags: [{}]".format(', '.join(trueFlagNames))
   write(textwrap.fill(flagsMsgLine, subsequent_indent='  //   '))
   write("")

   if not anyAlternative:
     fragments = {
       'increaseAndReturn15': 'increaseAndReturn15()',
       'increaseAndThrow42': 'increaseAndThrow42()',
     }
   elif alternativeFn1:
     fragments = {
       'increaseAndReturn15': 'returnOrThrow(true)',
       'increaseAndThrow42': 'returnOrThrow(false)',
     }
   elif alternativeFn2:
     fragments = {
       'increaseAndReturn15': 'increaseAndReturn15_calls_noopt()',
       'increaseAndThrow42': 'increaseAndThrow42_calls_noopt()',
     }
   elif alternativeFn3:
     fragments = {
       'increaseAndReturn15': 'invertFunctionCall(increaseAndThrow42)',
       'increaseAndThrow42': 'invertFunctionCall(increaseAndReturn15)',
     }
   elif alternativeFn4:
     fragments = {
       'increaseAndReturn15': '(new increaseAndStore15Constructor()).x',
       'increaseAndThrow42': '(new increaseAndThrow42Constructor()).x',
     }
   else:
     assert alternativeFn5
     fragments = {
       'increaseAndReturn15': 'magic.prop /* returns 15 */',
       'increaseAndThrow42': '(magic.prop = 37 /* throws 42 */)',
     }

   # As we print code, we also maintain what the result should be. Variable
   # {result} can be one of three things:
   #
   # - None, indicating returning JS null
   # - ("return", n) with n an integer
   # - ("throw", n), with n an integer

   result = None
   # We also maintain what the counter should be at the end.
   # The counter is reset just before f is called.
   counter = 0

   write(    "  f = function {} () {{".format(fnname(flags)))
   write(    "    var local = 888;")
   write(    "    deopt = {};".format("true" if deopt else "false"))
   local = 888
   write(    "    try {")
   write(    "      counter++;")
   counter += 1
   resultTo = "local +=" if tryResultToLocal else "return"
   if tryReturns and not (tryThrows and not tryFirstReturns):
     write(  "      {} 4 + {increaseAndReturn15};".format(resultTo, **fragments))
     if result == None:
       counter += 1
       if tryResultToLocal:
         local += 19
       else:
         result = ("return", 19)
   if tryThrows:
     write(  "      {} 4 + {increaseAndThrow42};".format(resultTo, **fragments))
     if result == None:
       counter += 1
       result = ("throw", 42)
   if tryReturns and tryThrows and not tryFirstReturns:
     write(  "      {} 4 + {increaseAndReturn15};".format(resultTo, **fragments))
     if result == None:
       counter += 1
       if tryResultToLocal:
         local += 19
       else:
         result = ("return", 19)
   write(    "      counter++;")
   if result == None:
     counter += 1

   if doCatch:
     write(  "    } catch (ex) {")
     write(  "      counter++;")
     if isinstance(result, tuple) and result[0] == 'throw':
       counter += 1
     if catchThrows:
       write("      throw 2 + ex;")
       if isinstance(result, tuple) and result[0] == "throw":
         result = ('throw', 2 + result[1])
     elif catchReturns and catchWithLocal:
       write("      return 2 + local;")
       if isinstance(result, tuple) and result[0] == "throw":
         result = ('return', 2 + local)
     elif catchReturns and not catchWithLocal:
       write("      return 2 + ex;");
       if isinstance(result, tuple) and result[0] == "throw":
         result = ('return', 2 + result[1])
     elif catchWithLocal:
       write("      local += ex;");
       if isinstance(result, tuple) and result[0] == "throw":
         local += result[1]
         result = None
         counter += 1
     else:
       if isinstance(result, tuple) and result[0] == "throw":
         result = None
         counter += 1
     write(  "      counter++;")

   if doFinally:
     write(  "    } finally {")
     write(  "      counter++;")
     counter += 1
     if finallyThrows:
       write("      throw 25;")
       result = ('throw', 25)
     elif finallyReturns:
       write("      return 3 + local;")
       result = ('return', 3 + local)
     elif not finallyReturns and not finallyThrows:
       write("      local += 2;")
       local += 2
       counter += 1
     else: assert False # unreachable
     write(  "      counter++;")

   write(    "    }")
   write(    "    counter++;")
   if result == None:
     counter += 1
   if endReturnLocal:
     write(  "    return 5 + local;")
     if result == None:
       result = ('return', 5 + local)
   write(    "  }")

   if result == None:
     write(  "  resetOptAndAssertResultEquals(undefined, f);")
   else:
     tag, value = result
     if tag == "return":
       write(  "  resetOptAndAssertResultEquals({}, f);".format(value))
     else:
       assert tag == "throw"
       write(  "  resetOptAndAssertThrowsWith({}, f);".format(value))

   write(  "  assertEquals({}, counter);".format(counter))
   write(  "")

   global NUM_TESTS_PRINTED, NUM_TESTS_IN_SHARD
   NUM_TESTS_PRINTED += 1
   NUM_TESTS_IN_SHARD += 1

 FILE = None # to be initialised to an open file
 SHARD_NUM = 1

 def write(*args):
   return print(*args, file=FILE)


 def rotateshard():
   global FILE, NUM_TESTS_IN_SHARD, SHARD_SIZE
   if MODE != 'shard':
     return
   if FILE != None and NUM_TESTS_IN_SHARD < SHARD_SIZE:
     return
   if FILE != None:
     finishshard()
     assert FILE == None
   FILE = open(SHARD_FILENAME_TEMPLATE.format(shard=SHARD_NUM), 'w')
   write_shard_header()
   NUM_TESTS_IN_SHARD = 0

 def finishshard():
   global FILE, SHARD_NUM, MODE
   assert FILE
   write_shard_footer()
   if MODE == 'shard':
     print("Wrote shard {}.".format(SHARD_NUM))
     FILE.close()
     FILE = None
     SHARD_NUM += 1


 def write_shard_header():
   if MODE == 'shard':
     write("// Shard {}.".format(SHARD_NUM))
     write("")
   write(PREAMBLE)
   write("")

 def write_shard_footer():
   write("}")
   write("%NeverOptimizeFunction(runThisShard);")
   write("")
   write("// {} tests in this shard.".format(NUM_TESTS_IN_SHARD))
   write("// {} tests up to here.".format(NUM_TESTS_PRINTED))
   write("")
   write("runThisShard();")

 FLAGLETTERS="54321trflcrltfrtld"

 flagtuple = namedtuple('flagtuple', (
   "alternativeFn5",
   "alternativeFn4",
   "alternativeFn3",
   "alternativeFn2",
   "alternativeFn1",
   "tryThrows",
   "tryReturns",
   "tryFirstReturns",
   "tryResultToLocal",
   "doCatch",
   "catchReturns",
   "catchWithLocal",
   "catchThrows",
   "doFinally",
   "finallyReturns",
   "finallyThrows",
   "endReturnLocal",
   "deopt"
   ))

 emptyflags = flagtuple(*((False,) * len(flagtuple._fields)))
 f1 = emptyflags._replace(tryReturns=True, doCatch=True)

 # You can test function printtest with f1.

 allFlagCombinations = [
     flagtuple(*bools)
     for bools in booltuples(len(flagtuple._fields))
 ]

 if __name__ == '__main__':
   global MODE
   if sys.argv[1:] == []:
     MODE = 'stdout'
     print("// Printing all shards together to stdout.")
     print("")
     write_shard_header()
     FILE = sys.stdout
   elif sys.argv[1:] == ['--shard-and-overwrite']:
     MODE = 'shard'
   else:
     print("Usage:")
     print("")
     print("  python {}".format(sys.argv[0]))
     print("      print all tests to standard output")
     print("  python {} --shard-and-overwrite".format(sys.argv[0]))
     print("      print all tests to {}".format(SHARD_FILENAME_TEMPLATE))

     print("")
     print(sys.argv[1:])
     print("")
     sys.exit(1)

   rotateshard()

   for flags in allFlagCombinations:
     printtest(flags)
     rotateshard()

   finishshard()

   if MODE == 'shard':
     print("Total: {} tests.".format(NUM_TESTS_PRINTED))
	#!/usr/bin/env python3

	# Copyright 2016 the V8 project authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.


	from collections import namedtuple
	import textwrap
	import sys

	SHARD_FILENAME_TEMPLATE = "test/mjsunit/compiler/inline-exception-{shard}.js"
	# Generates 2 files. Found by trial and error.
	SHARD_SIZE = 97

	PREAMBLE = """

	// Copyright 2016 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	// Flags: --allow-natives-syntax --no-always-opt

	// This test file was generated by tools/gen-inlining-tests.py .

	// Global variables
	var deopt = undefined; // either true or false
	var counter = 0;

	function resetState() {
	counter = 0;
	}

	function warmUp(f) {
	try {
	f();
	} catch (ex) {
	// ok
	}
	try {
	f();
	} catch (ex) {
	// ok
	}
	}

	function resetOptAndAssertResultEquals(expected, f) {
	warmUp(f);
	resetState();
	// %DebugPrint(f);
	eval("'dont optimize this function itself please, but do optimize f'");
	%OptimizeFunctionOnNextCall(f);
	assertEquals(expected, f());
	}

	function resetOptAndAssertThrowsWith(expected, f) {
	warmUp(f);
	resetState();
	// %DebugPrint(f);
	eval("'dont optimize this function itself please, but do optimize f'");
	%OptimizeFunctionOnNextCall(f);
	try {
	var result = f();
	fail("resetOptAndAssertThrowsWith",
	"exception: " + expected,
	"result: " + result);
	} catch (ex) {
	assertEquals(expected, ex);
	}
	}

	function increaseAndReturn15() {
	if (deopt) %DeoptimizeFunction(f);
	counter++;
	return 15;
	}

	function increaseAndThrow42() {
	if (deopt) %DeoptimizeFunction(f);
	counter++;
	throw 42;
	}

	function increaseAndReturn15_noopt_inner() {
	if (deopt) %DeoptimizeFunction(f);
	counter++;
	return 15;
	}

	%NeverOptimizeFunction(increaseAndReturn15_noopt_inner);

	function increaseAndThrow42_noopt_inner() {
	if (deopt) %DeoptimizeFunction(f);
	counter++;
	throw 42;
	}

	%NeverOptimizeFunction(increaseAndThrow42_noopt_inner);

	// Alternative 1

	function returnOrThrow(doReturn) {
	if (doReturn) {
	return increaseAndReturn15();
	} else {
	return increaseAndThrow42();
	}
	}

	// Alternative 2

	function increaseAndReturn15_calls_noopt() {
	return increaseAndReturn15_noopt_inner();
	}

	function increaseAndThrow42_calls_noopt() {
	return increaseAndThrow42_noopt_inner();
	}

	// Alternative 3.
	// When passed either {increaseAndReturn15} or {increaseAndThrow42}, it acts
	// as the other one.
	function invertFunctionCall(f) {
	var result;
	try {
	result = f();
	} catch (ex) {
	return ex - 27;
	}
	throw result + 27;
	}

	// Alternative 4: constructor
	function increaseAndStore15Constructor() {
	if (deopt) %DeoptimizeFunction(f);
	++counter;
	this.x = 15;
	}

	function increaseAndThrow42Constructor() {
	if (deopt) %DeoptimizeFunction(f);
	++counter;
	this.x = 42;
	throw this.x;
	}

	// Alternative 5: property
	var magic = {};
	Object.defineProperty(magic, 'prop', {
	get: function () {
	if (deopt) %DeoptimizeFunction(f);
	return 15 + 0 * ++counter;
	},

	set: function(x) {
	// argument should be 37
	if (deopt) %DeoptimizeFunction(f);
	counter -= 36 - x; // increments counter
	throw 42;
	}
	})

	// Generate type feedback.

	assertEquals(15, increaseAndReturn15_calls_noopt());
	assertThrowsEquals(function() { return increaseAndThrow42_noopt_inner() }, 42);

	assertEquals(15, (new increaseAndStore15Constructor()).x);
	assertThrowsEquals(function() {
	return (new increaseAndThrow42Constructor()).x;
	},
	42);

	function runThisShard() {

	""".strip()

	def booltuples(n):
	"""booltuples(2) yields 4 tuples: (False, False), (False, True),
	(True, False), (True, True)."""

	assert isinstance(n, int)
	if n <= 0:
	yield ()
	else:
	for initial in booltuples(n-1):
	yield initial + (False,)
	yield initial + (True,)

	def fnname(flags):
	assert len(FLAGLETTERS) == len(flags)

	return "f_" + ''.join(
	FLAGLETTERS[i] if b else '_'
	for (i, b) in enumerate(flags))

	NUM_TESTS_PRINTED = 0
	NUM_TESTS_IN_SHARD = 0

	def printtest(flags):
	"""Print a test case. Takes a couple of boolean flags, on which the
	printed Javascript code depends."""

	assert all(isinstance(flag, bool) for flag in flags)

	# The alternative flags are in reverse order so that if we take all possible
	# tuples, ordered lexicographically from false to true, we get first the
	# default, then alternative 1, then 2, etc.
	(
	alternativeFn5, # use alternative #5 for returning/throwing:
	# return/throw using property
	alternativeFn4, # use alternative #4 for returning/throwing:
	# return/throw using constructor
	alternativeFn3, # use alternative #3 for returning/throwing:
	# return/throw indirectly, based on function argument
	alternativeFn2, # use alternative #2 for returning/throwing:
	# return/throw indirectly in unoptimized code,
	# no branching
	alternativeFn1, # use alternative #1 for returning/throwing:
	# return/throw indirectly, based on boolean arg
	tryThrows, # in try block, call throwing function
	tryReturns, # in try block, call returning function
	tryFirstReturns, # in try block, returning goes before throwing
	tryResultToLocal, # in try block, result goes to local variable
	doCatch, # include catch block
	catchReturns, # in catch block, return
	catchWithLocal, # in catch block, modify or return the local variable
	catchThrows, # in catch block, throw
	doFinally, # include finally block
	finallyReturns, # in finally block, return local variable
	finallyThrows, # in finally block, throw
	endReturnLocal, # at very end, return variable local
	deopt, # deopt inside inlined function
	) = flags

	# BASIC RULES

	# Only one alternative can be applied at any time.
	if (alternativeFn1 + alternativeFn2 + alternativeFn3 + alternativeFn4
	+ alternativeFn5 > 1):
	return

	# In try, return or throw, or both.
	if not (tryReturns or tryThrows): return

	# Either doCatch or doFinally.
	if not doCatch and not doFinally: return

	# Catch flags only make sense when catching
	if not doCatch and (catchReturns or catchWithLocal or catchThrows):
	return

	# Finally flags only make sense when finallying
	if not doFinally and (finallyReturns or finallyThrows):
	return

	# tryFirstReturns is only relevant when both tryReturns and tryThrows are
	# true.
	if tryFirstReturns and not (tryReturns and tryThrows): return

	# From the try and finally block, we can return or throw, but not both.
	if catchReturns and catchThrows: return
	if finallyReturns and finallyThrows: return

	# If at the end we return the local, we need to have touched it.
	if endReturnLocal and not (tryResultToLocal or catchWithLocal): return

	# PRUNING

	anyAlternative = any([alternativeFn1, alternativeFn2, alternativeFn3,
	alternativeFn4, alternativeFn5])
	specificAlternative = any([alternativeFn2, alternativeFn3])
	rareAlternative = not specificAlternative

	# If try returns and throws, then don't catchWithLocal, endReturnLocal, or
	# deopt, or do any alternative.
	if (tryReturns and tryThrows and
	(catchWithLocal or endReturnLocal or deopt or anyAlternative)):
	return
	# We don't do any alternative if we do a finally.
	if doFinally and anyAlternative: return
	# We only use the local variable if we do alternative #2 or #3.
	if ((tryResultToLocal or catchWithLocal or endReturnLocal) and
	not specificAlternative):
	return
	# We don't need to test deopting into a finally.
	if doFinally and deopt: return

	# We're only interested in alternative #2 if we have endReturnLocal, no
	# catchReturns, and no catchThrows, and deopt.
	if (alternativeFn2 and
	(not endReturnLocal or catchReturns or catchThrows or not deopt)):
	return


	# Flag check succeeded.

	trueFlagNames = [name for (name, value) in flags._asdict().items() if value]
	flagsMsgLine = " // Variant flags: [{}]".format(', '.join(trueFlagNames))
	write(textwrap.fill(flagsMsgLine, subsequent_indent=' // '))
	write("")

	if not anyAlternative:
	fragments = {
	'increaseAndReturn15': 'increaseAndReturn15()',
	'increaseAndThrow42': 'increaseAndThrow42()',
	}
	elif alternativeFn1:
	fragments = {
	'increaseAndReturn15': 'returnOrThrow(true)',
	'increaseAndThrow42': 'returnOrThrow(false)',
	}
	elif alternativeFn2:
	fragments = {
	'increaseAndReturn15': 'increaseAndReturn15_calls_noopt()',
	'increaseAndThrow42': 'increaseAndThrow42_calls_noopt()',
	}
	elif alternativeFn3:
	fragments = {
	'increaseAndReturn15': 'invertFunctionCall(increaseAndThrow42)',
	'increaseAndThrow42': 'invertFunctionCall(increaseAndReturn15)',
	}
	elif alternativeFn4:
	fragments = {
	'increaseAndReturn15': '(new increaseAndStore15Constructor()).x',
	'increaseAndThrow42': '(new increaseAndThrow42Constructor()).x',
	}
	else:
	assert alternativeFn5
	fragments = {
	'increaseAndReturn15': 'magic.prop /* returns 15 */',
	'increaseAndThrow42': '(magic.prop = 37 /* throws 42 */)',
	}

	# As we print code, we also maintain what the result should be. Variable
	# {result} can be one of three things:
	#
	# - None, indicating returning JS null
	# - ("return", n) with n an integer
	# - ("throw", n), with n an integer

	result = None
	# We also maintain what the counter should be at the end.
	# The counter is reset just before f is called.
	counter = 0

	write( " f = function {} () {{".format(fnname(flags)))
	write( " var local = 888;")
	write( " deopt = {};".format("true" if deopt else "false"))
	local = 888
	write( " try {")
	write( " counter++;")
	counter += 1
	resultTo = "local +=" if tryResultToLocal else "return"
	if tryReturns and not (tryThrows and not tryFirstReturns):
	write( " {} 4 + {increaseAndReturn15};".format(resultTo, **fragments))
	if result == None:
	counter += 1
	if tryResultToLocal:
	local += 19
	else:
	result = ("return", 19)
	if tryThrows:
	write( " {} 4 + {increaseAndThrow42};".format(resultTo, **fragments))
	if result == None:
	counter += 1
	result = ("throw", 42)
	if tryReturns and tryThrows and not tryFirstReturns:
	write( " {} 4 + {increaseAndReturn15};".format(resultTo, **fragments))
	if result == None:
	counter += 1
	if tryResultToLocal:
	local += 19
	else:
	result = ("return", 19)
	write( " counter++;")
	if result == None:
	counter += 1

	if doCatch:
	write( " } catch (ex) {")
	write( " counter++;")
	if isinstance(result, tuple) and result[0] == 'throw':
	counter += 1
	if catchThrows:
	write(" throw 2 + ex;")
	if isinstance(result, tuple) and result[0] == "throw":
	result = ('throw', 2 + result[1])
	elif catchReturns and catchWithLocal:
	write(" return 2 + local;")
	if isinstance(result, tuple) and result[0] == "throw":
	result = ('return', 2 + local)
	elif catchReturns and not catchWithLocal:
	write(" return 2 + ex;");
	if isinstance(result, tuple) and result[0] == "throw":
	result = ('return', 2 + result[1])
	elif catchWithLocal:
	write(" local += ex;");
	if isinstance(result, tuple) and result[0] == "throw":
	local += result[1]
	result = None
	counter += 1
	else:
	if isinstance(result, tuple) and result[0] == "throw":
	result = None
	counter += 1
	write( " counter++;")

	if doFinally:
	write( " } finally {")
	write( " counter++;")
	counter += 1
	if finallyThrows:
	write(" throw 25;")
	result = ('throw', 25)
	elif finallyReturns:
	write(" return 3 + local;")
	result = ('return', 3 + local)
	elif not finallyReturns and not finallyThrows:
	write(" local += 2;")
	local += 2
	counter += 1
	else: assert False # unreachable
	write( " counter++;")

	write( " }")
	write( " counter++;")
	if result == None:
	counter += 1
	if endReturnLocal:
	write( " return 5 + local;")
	if result == None:
	result = ('return', 5 + local)
	write( " }")

	if result == None:
	write( " resetOptAndAssertResultEquals(undefined, f);")
	else:
	tag, value = result
	if tag == "return":
	write( " resetOptAndAssertResultEquals({}, f);".format(value))
	else:
	assert tag == "throw"
	write( " resetOptAndAssertThrowsWith({}, f);".format(value))

	write( " assertEquals({}, counter);".format(counter))
	write( "")

	global NUM_TESTS_PRINTED, NUM_TESTS_IN_SHARD
	NUM_TESTS_PRINTED += 1
	NUM_TESTS_IN_SHARD += 1

	FILE = None # to be initialised to an open file
	SHARD_NUM = 1

	def write(*args):
	return print(*args, file=FILE)



	def rotateshard():
	global FILE, NUM_TESTS_IN_SHARD, SHARD_SIZE
	if MODE != 'shard':
	return
	if FILE != None and NUM_TESTS_IN_SHARD < SHARD_SIZE:
	return
	if FILE != None:
	finishshard()
	assert FILE == None
	FILE = open(SHARD_FILENAME_TEMPLATE.format(shard=SHARD_NUM), 'w')
	write_shard_header()
	NUM_TESTS_IN_SHARD = 0

	def finishshard():
	global FILE, SHARD_NUM, MODE
	assert FILE
	write_shard_footer()
	if MODE == 'shard':
	print("Wrote shard {}.".format(SHARD_NUM))
	FILE.close()
	FILE = None
	SHARD_NUM += 1


	def write_shard_header():
	if MODE == 'shard':
	write("// Shard {}.".format(SHARD_NUM))
	write("")
	write(PREAMBLE)
	write("")

	def write_shard_footer():
	write("}")
	write("%NeverOptimizeFunction(runThisShard);")
	write("")
	write("// {} tests in this shard.".format(NUM_TESTS_IN_SHARD))
	write("// {} tests up to here.".format(NUM_TESTS_PRINTED))
	write("")
	write("runThisShard();")

	FLAGLETTERS="54321trflcrltfrtld"

	flagtuple = namedtuple('flagtuple', (
	"alternativeFn5",
	"alternativeFn4",
	"alternativeFn3",
	"alternativeFn2",
	"alternativeFn1",
	"tryThrows",
	"tryReturns",
	"tryFirstReturns",
	"tryResultToLocal",
	"doCatch",
	"catchReturns",
	"catchWithLocal",
	"catchThrows",
	"doFinally",
	"finallyReturns",
	"finallyThrows",
	"endReturnLocal",
	"deopt"
	))

	emptyflags = flagtuple(((False,) len(flagtuple._fields)))
	f1 = emptyflags._replace(tryReturns=True, doCatch=True)

	# You can test function printtest with f1.

	allFlagCombinations = [
	flagtuple(*bools)
	for bools in booltuples(len(flagtuple._fields))
	]

	if __name__ == '__main__':
	global MODE
	if sys.argv[1:] == []:
	MODE = 'stdout'
	print("// Printing all shards together to stdout.")
	print("")
	write_shard_header()
	FILE = sys.stdout
	elif sys.argv[1:] == ['--shard-and-overwrite']:
	MODE = 'shard'
	else:
	print("Usage:")
	print("")
	print(" python {}".format(sys.argv[0]))
	print(" print all tests to standard output")
	print(" python {} --shard-and-overwrite".format(sys.argv[0]))
	print(" print all tests to {}".format(SHARD_FILENAME_TEMPLATE))

	print("")
	print(sys.argv[1:])
	print("")
	sys.exit(1)

	rotateshard()

	for flags in allFlagCombinations:
	printtest(flags)
	rotateshard()

	finishshard()

	if MODE == 'shard':
	print("Total: {} tests.".format(NUM_TESTS_PRINTED))